Определение совместимости Android 13

1. Введение

В этом документе перечислены требования, которым необходимо соответствовать, чтобы устройства были совместимы с Android 13.

Использование слов «ДОЛЖЕН», «НЕ ДОЛЖЕН», «ТРЕБУЕТСЯ», «ДОЛЖЕН», «НЕ ДОЛЖЕН», «СЛЕДУЕТ», «НЕ ДОЛЖЕН», «РЕКОМЕНДУЕТСЯ», «МОЖЕТ» и «ДОПОЛНИТЕЛЬНО» соответствует IETF. стандарт, определенный в RFC2119 .

В этом документе «разработчик устройства» или «разработчик» — это человек или организация, разрабатывающая аппаратное/программное решение под управлением Android 13. «Реализация устройства» или «реализация» — это разработанное таким образом аппаратное/программное решение.

Чтобы считаться совместимыми с Android 13, реализации устройства ДОЛЖНЫ соответствовать требованиям, представленным в этом определении совместимости, включая любые документы, включенные посредством ссылки.

Если это определение или тесты программного обеспечения, описанные в разделе 10, являются молчаливыми, двусмысленными или неполными, ответственность за обеспечение совместимости с существующими реализациями лежит на разработчике устройства.

По этой причине проект Android с открытым исходным кодом является одновременно эталонной и предпочтительной реализацией Android. Разработчикам устройств НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ основывать свои реализации в максимально возможной степени на исходном коде, доступном в проекте Android Open Source Project. Хотя некоторые компоненты гипотетически можно заменить альтернативными реализациями, НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ не следовать этой практике, поскольку прохождение тестов программного обеспечения станет существенно сложнее. Ответственность за обеспечение полной поведенческой совместимости со стандартной реализацией Android, включая набор тестов на совместимость, лежит на разработчике. Наконец, обратите внимание, что некоторые замены и модификации компонентов явно запрещены данным документом.

Многие ресурсы, ссылки на которые приведены в этом документе, прямо или косвенно получены из Android SDK и функционально идентичны информации в документации этого SDK. В любых случаях, когда данное Определение совместимости или Набор тестов совместимости не согласуются с документацией SDK, документация SDK считается авторитетной. Любые технические подробности, представленные в связанных ресурсах в этом документе, считаются частью этого определения совместимости.

1.1 Структура документа

1.1.1. Требования по типу устройства

Раздел 2 содержит все требования, применимые к конкретному типу устройства. Каждый подраздел раздела 2 посвящен определенному типу устройств.

Все остальные требования, которые универсально применимы к любым реализациям устройств Android, перечислены в разделах после раздела 2 . В настоящем документе эти требования называются «Основными требованиями».

1.1.2. Идентификатор требования

Идентификатор требования назначается для ОБЯЗАТЕЛЬНЫХ требований.

  • Идентификатор назначается только для ОБЯЗАТЕЛЬНЫХ требований.
  • НАСТОЯТЕЛЬНО РЕКОМЕНДУЕМЫЕ требования помечены как [SR], но идентификатор не присвоен.
  • Идентификатор состоит из: идентификатора типа устройства – идентификатора состояния – идентификатора требования (например, C-0-1).

Каждый идентификатор определяется следующим образом:

  • Идентификатор типа устройства (подробнее см. в разделе 2. Типы устройств )
    • C: Core (требования, применимые ко всем реализациям устройств Android)
    • H: Портативное устройство Android
    • T: Android-телевидение.
    • Ответ: Реализация Android Automotive
    • W: реализация Android Watch
    • Вкладка: реализация Android-планшета
  • Идентификатор условия
    • Если требование является безусловным, этот идентификатор устанавливается равным 0.
    • Если требование условное, первому условию присваивается 1 и номер увеличивается на 1 в пределах того же раздела и того же типа устройства.
  • Идентификатор требования
    • Этот идентификатор начинается с 1 и увеличивается на 1 в пределах одного и того же раздела и одного и того же условия.

1.1.3. Идентификатор требования в разделе 2

Идентификаторы требований в разделе 2 состоят из двух частей. Первый соответствует идентификатору раздела, как описано выше. Вторая часть определяет форм-фактор и конкретные требования к форм-фактору.

идентификатор раздела, за которым следует идентификатор требования, описанный выше.

  • Идентификатор в разделе 2 состоит из: идентификатора раздела/идентификатора типа устройства – идентификатора состояния – идентификатора требования (например, 7.4.3/A-0-1).

2. Типы устройств

Проект Android с открытым исходным кодом предоставляет программный стек, который можно использовать для различных типов устройств и форм-факторов. Для обеспечения безопасности на устройствах ожидается, что программный стек, включая любую замену ОС или альтернативную реализацию ядра, будет выполняться в безопасной среде, как описано в разделе 9 и других разделах данного CDD. Есть несколько типов устройств, которые имеют относительно более развитую экосистему распространения приложений.

В этом разделе описаны эти типы устройств, а также дополнительные требования и рекомендации, применимые к каждому типу устройств.

Все реализации устройств Android, которые не соответствуют ни одному из описанных типов устройств, ДОЛЖНЫ по-прежнему соответствовать всем требованиям, указанным в других разделах настоящего определения совместимости.

2.1 Конфигурации устройства

Основные различия в конфигурации оборудования в зависимости от типа устройства см. в требованиях к конкретным устройствам, приведенных ниже в этом разделе.

2.2. Требования к портативным устройствам

Портативное устройство Android — это реализация устройства Android, которое обычно используется, удерживая его в руке, например mp3-плеер, телефон или планшет.

Реализации устройств Android классифицируются как портативные устройства, если они соответствуют всем следующим критериям:

  • Имейте источник питания, обеспечивающий мобильность, например аккумулятор.
  • Иметь физический размер диагонали экрана в диапазоне от 3,3 дюйма (или 2,5 дюйма для реализаций устройств, поставляемых с уровнем API 29 или более ранней версии) до 8 дюймов.

Дополнительные требования в остальной части этого раздела относятся только к реализациям портативных устройств Android.

Примечание. Требования, не применимые к планшетам Android, отмечены знаком *.

2.2.1. Аппаратное обеспечение

Реализации портативных устройств:

  • [ 7.1 .1.1/H-0-1] ДОЛЖЕН иметь хотя бы один Android-совместимый дисплей, отвечающий всем требованиям, описанным в этом документе.
  • [ 7.1 .1.3/H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ предоставить пользователям возможность изменять размер дисплея (плотность экрана).

  • [ 7.1 .1.1/H-0-2] ДОЛЖЕН поддерживать состав графических буферов графического процессора, по крайней мере, такого же размера, как самое высокое разрешение любого встроенного дисплея.

Если реализации карманных устройств поддерживают программный поворот экрана, они:

  • [ 7.1 .1.1/H-1-1]* ДОЛЖЕН обеспечить размер логического экрана, доступного для сторонних приложений, не менее 2 дюймов по короткой стороне(-ам) и 2,7 дюйма по длинной стороне(-ам). Устройства, поставляемые с Android API уровня 29 или более ранней версии, МОГУТ быть освобождены от этого требования.

Если реализации портативных устройств не поддерживают программный поворот экрана, они:

  • [ 7.1 .1.1/H-2-1]* ДОЛЖЕН обеспечить размер логического экрана, доступного для сторонних приложений, не менее 2,7 дюйма по короткому краю(ам). Устройства, поставляемые с Android API уровня 29 или более ранней версии, МОГУТ быть освобождены от этого требования.

Если реализации портативных устройств заявляют о поддержке дисплеев с расширенным динамическим диапазоном через Configuration.isScreenHdr() , они:

  • [ 7.1.4.5/H-1-1 ] ДОЛЖЕН рекламироваться поддержка расширений EGL_EXT_gl_colorspace_bt2020_pq , EGL_EXT_surface_SMPTE2086_metadata , EGL_EXT_surface_CTA861_3_metadata , VK_EXT_swapchain_colorspace и VK_EXT_hdr_metadata .

Реализации портативных устройств:

  • [ 7.1 .4.6/H-0-1] ДОЛЖЕН сообщать, поддерживает ли устройство возможность профилирования графического процессора, через системное свойство graphics.gpu.profiler.support .

Если реализации карманных устройств объявляют о поддержке через системное свойство graphics.gpu.profiler.support , они:

Реализации портативных устройств:

  • [ 7.1 .5/H-0-1] ДОЛЖЕН включать поддержку режима совместимости устаревших приложений, реализованного исходным открытым исходным кодом Android. То есть реализации устройств НЕ ДОЛЖНЫ изменять триггеры или пороговые значения, при которых активируется режим совместимости, и НЕ ДОЛЖНЫ изменять поведение самого режима совместимости.
  • [ 7.2 .1/H-0-1] ДОЛЖЕН включать поддержку сторонних приложений редактора метода ввода (IME).
  • [ 7.2 .3/H-0-2] ДОЛЖЕН отправлять как обычное, так и длительное нажатие функции Back ( KEYCODE_BACK ) в приложение переднего плана. Эти события НЕ ДОЛЖНЫ использоваться системой и МОГУТ быть инициированы внешними устройствами Android (например, внешней аппаратной клавиатурой, подключенной к устройству Android).
  • [ 7.2 .3/H-0-3] ДОЛЖНА обеспечивать функцию «Домой» на всех Android-совместимых дисплеях, на которых имеется главный экран.
  • [ 7.2 .3/H-0-4] ДОЛЖНА обеспечивать функцию «Назад» на всех дисплеях, совместимых с Android, и функцию «Недавние» хотя бы на одном из дисплеев, совместимых с Android.
  • [ 7.2 .4/H-0-1] ДОЛЖЕН поддерживать ввод с помощью сенсорного экрана.
  • [ 7.2 .4/H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ запустить выбранное пользователем вспомогательное приложение, другими словами, приложение, которое реализует VoiceInteractionService, или действие, обрабатывающее ACTION_ASSIST при длительном нажатии KEYCODE_MEDIA_PLAY_PAUSE или KEYCODE_HEADSETHOOK если действие на переднем плане не обрабатывает эти события длительного нажатия.
  • [ 7.3 .1/H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ включить 3-осевой акселерометр.

Если реализации портативных устройств включают 3-осевой акселерометр, они:

  • [ 7.3 .1/H-1-1] ДОЛЖЕН иметь возможность сообщать о событиях с частотой не менее 100 Гц.

Если реализации карманных устройств включают в себя приемник GPS/GNSS и сообщают об этом приложениям с помощью функционального флага android.hardware.location.gps , они:

  • [ 7.3 .3/H-2-1] ДОЛЖЕН сообщать об измерениях GNSS, как только они будут обнаружены, даже если местоположение, рассчитанное с помощью GPS/GNSS, еще не сообщается.
  • [ 7.3.3 /H-2-2] ДОЛЖНЫ сообщать псевдодальности GNSS и скорости псевдодальностей, которые в условиях открытого неба после определения местоположения, в неподвижном состоянии или при движении с ускорением менее 0,2 метра в секунду в квадрате, достаточны для расчета положение в пределах 20 метров и скорость в пределах 0,2 метра в секунду, по крайней мере, в 95% случаев.

Если реализации портативных устройств включают в себя 3-осевой гироскоп, они:

  • [ 7.3 .4/H-3-1] ДОЛЖЕН иметь возможность сообщать о событиях с частотой не менее 100 Гц.
  • [ 7.3.4 /H-3-2] ДОЛЖЕН быть способен измерять изменения ориентации со скоростью до 1000 градусов в секунду.

Реализации портативных устройств, которые могут совершать голосовые вызовы и указывать в getPhoneType любое значение, кроме PHONE_TYPE_NONE :

  • [ 7.3 .8/H] ДОЛЖЕН включать датчик приближения.

Реализации портативных устройств:

  • [ 7.3.11 /H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ поддерживать датчик положения с 6 степенями свободы.
  • [ 7.4 .3/H] СЛЕДУЕТ включать поддержку Bluetooth и Bluetooth LE.

Если устройства поддерживают протокол сети Wi-Fi Neighbor Awareness (NAN), объявив PackageManager.FEATURE_WIFI_AWARE , и местоположение Wi-Fi (время приема-передачи Wi-Fi — RTT), объявив PackageManager.FEATURE_WIFI_RTT , то они:

  • [ 7.4 .2.5/H-1-1] ДОЛЖЕН сообщать дальность с точностью до +/- 1 метра при полосе пропускания 160 МГц в 68-м процентиле (как рассчитано с помощью функции кумулятивного распределения), +/- 2 метра при полосе пропускания 80 МГц на 68-м процентиле, +/-4 метра при полосе пропускания 40 МГц на 68-м процентиле и +/-8 метров при полосе пропускания 20 МГц на 68-м процентиле на расстояниях 10 см, 1 м, 3 м и 5 м, как наблюдается через WifiRttManager#startRanging Android API .

  • [ 7.4 .2.5/H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ сообщать о расстоянии с точностью до +/- 1 метра при полосе пропускания 160 МГц на 90-м процентиле (как рассчитывается с помощью функции кумулятивного распределения), +/- 2 метра на Полоса пропускания 80 МГц в 90-м процентиле, +/- 4 метра при полосе пропускания 40 МГц в 90-м процентиле и +/- 8 метров при полосе пропускания 20 МГц в 90-м процентиле на расстоянии 10 см, как наблюдалось с помощью WifiRttManager#startRanging Android API .

НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ выполнить действия по настройке измерений, указанные в разделе «Калибровка присутствия» .

Если реализации карманных устройств включают логическое устройство камеры, в котором перечислены возможности с помощью CameraMetadata.REQUEST_AVAILABLE_CAPABILITIES_LOGICAL_MULTI_CAMERA , они:

  • [ 7.5 .4/H-1-1] ДОЛЖНО иметь нормальное поле зрения (FOV) по умолчанию и ДОЛЖНО составлять от 50 до 95 градусов.

Реализации портативных устройств:

  • [ 7.6 .1/H-0-1] ДОЛЖНО иметь не менее 4 ГБ энергонезависимого хранилища, доступного для личных данных приложения (так называемого раздела «/data»).
  • [ 7.6 .1/H-0-2] ДОЛЖЕН возвращать «истину» для ActivityManager.isLowRamDevice() , когда для ядра и пользовательского пространства доступно менее 1 ГБ памяти.

Если реализации карманных устройств декларируют поддержку только 32-битного ABI:

  • [ 7.6 .1/H-1-1] Память, доступная ядру и пользовательскому пространству, ДОЛЖНА быть не менее 416 МБ, если дисплей по умолчанию использует разрешения кадрового буфера до qHD (например, FWVGA).

  • [ 7.6 .1/H-2-1] Память, доступная ядру и пользовательскому пространству, ДОЛЖНА быть не менее 592 МБ, если дисплей по умолчанию использует разрешения кадрового буфера до HD+ (например, HD, WSVGA).

  • [ 7.6 .1/H-3-1] Память, доступная ядру и пользовательскому пространству, ДОЛЖНА быть не менее 896 МБ, если дисплей по умолчанию использует разрешения кадрового буфера до FHD (например, WSXGA+).

  • [ 7.6 .1/H-4-1] Память, доступная ядру и пользовательскому пространству, ДОЛЖНА быть не менее 1344 МБ, если дисплей по умолчанию использует разрешения кадрового буфера до QHD (например, QWXGA).

Если реализации карманных устройств декларируют поддержку любого 64-битного ABI (с 32-битным ABI или без него):

  • [ 7.6 .1/H-5-1] Память, доступная ядру и пользовательскому пространству, ДОЛЖНА быть не менее 816 МБ, если дисплей по умолчанию использует разрешения кадрового буфера до qHD (например, FWVGA).

  • [ 7.6 .1/H-6-1] Память, доступная ядру и пользовательскому пространству, ДОЛЖНА быть не менее 944 МБ, если дисплей по умолчанию использует разрешения кадрового буфера до HD+ (например, HD, WSVGA).

  • [ 7.6 .1/H-7-1] Память, доступная ядру и пользовательскому пространству, ДОЛЖНА быть не менее 1280 МБ, если дисплей по умолчанию использует разрешения кадрового буфера до FHD (например, WSXGA+).

  • [ 7.6 .1/H-8-1] Память, доступная ядру и пользовательскому пространству, ДОЛЖНА быть не менее 1824 МБ, если дисплей по умолчанию использует разрешения кадрового буфера до QHD (например, QWXGA).

Обратите внимание, что «память, доступная ядру и пользовательскому пространству» выше, относится к пространству памяти, предоставляемому в дополнение к любой памяти, уже выделенной для аппаратных компонентов, таких как радио, видео и т. д., которые не находятся под контролем ядра в реализациях устройств.

Если реализации портативных устройств включают менее или равный 1 ГБ памяти, доступной для ядра и пользовательского пространства, они:

  • [ 7.6 .1/H-9-1] ДОЛЖЕН объявить флаг функции android.hardware.ram.low .
  • [ 7.6 .1/H-9-2] ДОЛЖЕН иметь не менее 1,1 ГБ энергонезависимого хранилища для личных данных приложения (также известного как раздел «/data»).

Если реализации портативных устройств включают более 1 ГБ памяти, доступной для ядра и пользовательского пространства, они:

  • [ 7.6 .1/H-10-1] ДОЛЖНО иметь не менее 4 ГБ энергонезависимого хранилища, доступного для личных данных приложения (так называемого раздела «/data»).
  • СЛЕДУЕТ объявить флаг функции android.hardware.ram.normal .

Если реализации портативных устройств включают более или равный 2 ГБ и менее 4 ГБ памяти, доступной для ядра и пользовательского пространства, они:

  • [7.6.1/H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ поддерживать только 32-битное пользовательское пространство (как приложения, так и системный код)

Если реализации портативных устройств включают менее 2 ГБ памяти, доступной для ядра и пользовательского пространства, они:

  • [7.6.1/H-1-1] ДОЛЖЕН поддерживать только один ABI (только 64-битный или только 32-битный).

Реализации портативных устройств:

  • [ 7.6 .2/H-0-1] НЕ ДОЛЖНО предоставлять общее хранилище приложений размером менее 1 ГиБ.
  • [ 7.7 .1/H] ДОЛЖЕН включать порт USB, поддерживающий периферийный режим.

Если реализации портативных устройств включают порт USB, поддерживающий периферийный режим, они:

  • [ 7.7 .1/H-1-1] ДОЛЖЕН реализовать API Android Open Accessory (AOA).

Если реализации карманных устройств включают порт USB, поддерживающий режим хоста, они:

  • [ 7.7 .2/H-1-1] ДОЛЖЕН реализовать класс USB-аудио , как описано в документации Android SDK.

Реализации портативных устройств:

  • [ 7.8 .1/H-0-1] ДОЛЖЕН включать микрофон.
  • [ 7.8 .2/H-0-1] ДОЛЖЕН иметь аудиовыход и объявлять android.hardware.audio.output .

Если реализации портативных устройств способны удовлетворить все требования к производительности для поддержки режима VR и включают его поддержку, они:

  • [ 7.9 .1/H-1-1] ДОЛЖЕН объявить флаг функции android.hardware.vr.high_performance .
  • [ 7.9 .1/H-1-2] ДОЛЖНО включать приложение, реализующее android.service.vr.VrListenerService , которое может быть включено приложениями VR через android.app.Activity#setVrModeEnabled .

Если реализации портативных устройств включают один или несколько портов USB-C в режиме хоста и реализуют (аудиокласс USB), в дополнение к требованиям, указанным в разделе 7.7.2 , они:

  • [ 7.8.2.2/H-1-1 ] ДОЛЖЕН обеспечивать следующее программное сопоставление кодов HID:
Функция Сопоставления Контекст Поведение
А Страница использования HID : 0x0C
Использование HID : 0x0CD
Ключ ядра : KEY_PLAYPAUSE
Ключ Android : KEYCODE_MEDIA_PLAY_PAUSE
Воспроизведение мультимедиа Ввод : Короткое нажатие.
Выход : Воспроизведение или пауза.
Ввод : Длительное нажатие
Вывод : Запустить голосовую команду.
Отправляет : android.speech.action.VOICE_SEARCH_HANDS_FREE , если устройство заблокировано или его экран выключен. В противном случае отправляет android.speech.RecognizerIntent.ACTION_WEB_SEARCH
Входящий звонок Ввод : Короткое нажатие.
Вывод : принять вызов
Ввод : Длительное нажатие
Вывод : Отклонить вызов
Текущий звонок Ввод : Короткое нажатие.
Выход : Завершить вызов.
Ввод : Длительное нажатие
Выход : отключить или включить микрофон.
Б Страница использования HID : 0x0C
Использование HID : 0x0E9
Ключ ядра : KEY_VOLUMEUP
Ключ Android : VOLUME_UP
Воспроизведение мультимедиа, текущий вызов Ввод : короткое или длинное нажатие.
Выход : увеличивает громкость системы или гарнитуры.
С Страница использования HID : 0x0C
Использование HID : 0x0EA
Ключ ядра : KEY_VOLUMEDOWN
Ключ Android : VOLUME_DOWN
Воспроизведение мультимедиа, текущий вызов Ввод : короткое или длинное нажатие.
Выход : Уменьшает громкость системы или гарнитуры.
Д Страница использования HID : 0x0C
Использование HID : 0x0CF
Ключ ядра : KEY_VOICECOMMAND
Ключ Android : KEYCODE_VOICE_ASSIST
Все. Может быть запущен в любом случае. Ввод : короткое или длинное нажатие.
Вывод : Запустить голосовую команду.
  • [ 7.8 .2.2/H-1-2] ДОЛЖЕН запускать ACTION_HEADSET_PLUG при вставке штекера, но только после того, как аудиоинтерфейсы USB и конечные точки были правильно пронумерованы, чтобы определить тип подключенного терминала.

При обнаружении аудиоразъема USB типа 0x0302 они:

  • [ 7.8 .2.2/H-2-1] ДОЛЖЕН транслировать Intent ACTION_HEADSET_PLUG с дополнительным значением «микрофона», установленным на 0.

При обнаружении аудиоразъема USB типа 0x0402 они:

  • [ 7.8 .2.2/H-3-1] ДОЛЖЕН транслировать Intent ACTION_HEADSET_PLUG с дополнительным параметром «микрофон», установленным на 1.

Когда API AudioManager.getDevices() вызывается при подключенном периферийном устройстве USB, они:

  • [ 7.8 .2.2/H-4-1] ДОЛЖНО указать устройство типа AudioDeviceInfo.TYPE_USB_HEADSET и роль isSink(), если поле типа аудиотерминала USB равно 0x0302.

  • [ 7.8 .2.2/H-4-2] ДОЛЖНО указать устройство типа AudioDeviceInfo.TYPE_USB_HEADSET и роль isSink(), если поле типа аудиотерминала USB равно 0x0402.

  • [ 7.8 .2.2/H-4-3] ДОЛЖНО указать устройство типа AudioDeviceInfo.TYPE_USB_HEADSET и роль isSource(), если поле типа аудиотерминала USB равно 0x0402.

  • [ 7.8 .2.2/H-4-4] ДОЛЖНО указать устройство типа AudioDeviceInfo.TYPE_USB_DEVICE и роль isSink(), если поле типа аудиотерминала USB равно 0x603.

  • [ 7.8 .2.2/H-4-5] ДОЛЖНО указать устройство типа AudioDeviceInfo.TYPE_USB_DEVICE и роль isSource(), если поле типа аудиотерминала USB равно 0x604.

  • [ 7.8 .2.2/H-4-6] ДОЛЖНО указать устройство типа AudioDeviceInfo.TYPE_USB_DEVICE и роль isSink(), если поле типа аудиотерминала USB равно 0x400.

  • [ 7.8 .2.2/H-4-7] ДОЛЖНО указать устройство типа AudioDeviceInfo.TYPE_USB_DEVICE и роль isSource(), если поле типа аудиотерминала USB равно 0x400.

  • [ 7.8 .2.2/H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ при подключении аудиопериферийного устройства USB-C выполнять перечисление дескрипторов USB, идентифицировать типы терминалов и транслировать намерение ACTION_HEADSET_PLUG менее чем за 1000 миллисекунд.

Если реализации портативных устройств объявляют android.hardware.audio.output и android.hardware.microphone , они:

  • [ 5.6 /H-1-1] ДОЛЖНА иметь среднюю непрерывную задержку в обоих направлениях 500 миллисекунд или менее в течение 5 измерений со средним абсолютным отклонением менее 50 мс по следующим путям передачи данных: «динамик-микрофон», 3.5 адаптер шлейфа мм (если поддерживается), шлейф USB (если поддерживается).

  • [ 5.6 /H-1-2] ДОЛЖНА иметь среднюю задержку перехода между тональными сигналами 500 миллисекунд или менее в течение как минимум 5 измерений по каналу передачи данных от динамика к микрофону.

Если реализации портативных устройств включают хотя бы один тактильный привод, они:

Линейный резонансный привод (LRA) представляет собой пружинную систему с одной массой, которая имеет доминирующую резонансную частоту, при которой масса перемещается в направлении желаемого движения.

Если реализации портативных устройств включают хотя бы один линейный резонансный привод, они:

  • [ 7.10 /H]* СЛЕДУЕТ переместить тактильный привод по оси X (влево-вправо) в книжной ориентации.

Если реализации портативных устройств имеют тактильный привод, который представляет собой линейный резонансный привод по оси X (LRA), они:

  • [ 7.10 /H]* ДОЛЖНО иметь резонансную частоту LRA оси X ниже 200 Гц.

Если реализации портативных устройств следуют отображению тактильных констант, они:

2.2.2. Мультимедиа

Реализации портативных устройств ДОЛЖНЫ поддерживать следующие форматы кодирования и декодирования звука и делать их доступными для сторонних приложений:

  • [ 5.1 /H-0-1] АМР-НБ
  • [ 5.1 /H-0-2] АМР-ВБ
  • [ 5.1 /H-0-3] Профиль MPEG-4 AAC (AAC LC)
  • [ 5.1 /H-0-4] Профиль MPEG-4 HE AAC (AAC+)
  • [ 5.1 /H-0-5] AAC ELD (улучшенный AAC с малой задержкой)

Реализации портативных устройств ДОЛЖНЫ поддерживать следующие форматы кодирования видео и делать их доступными для сторонних приложений:

  • [ 5.2 /H-0-1] H.264 AVC
  • [ 5.2 /H-0-2] ВП8

Реализации портативных устройств ДОЛЖНЫ поддерживать следующие форматы декодирования видео и делать их доступными для сторонних приложений:

  • [ 5.3 /H-0-1] H.264 AVC
  • [ 5.3 /H-0-2] H.265 HEVC
  • [ 5.3 /H-0-3] MPEG-4 SP
  • [ 5.3 /H-0-4] ВП8
  • [ 5.3 /H-0-5] ВП9

2.2.3. Программное обеспечение

Реализации портативных устройств:

  • [ 3.2.3.1 /H-0-1] ДОЛЖНО иметь приложение, которое обрабатывает намерения ACTION_GET_CONTENT , ACTION_OPEN_DOCUMENT , ACTION_OPEN_DOCUMENT_TREE и ACTION_CREATE_DOCUMENT , как описано в документах SDK, и предоставляет пользователю возможность доступа к данным поставщика документов с помощью DocumentsProvider API.
  • [ 3.2.3.1 /H-0-2]* ДОЛЖЕН предварительно загрузить одно или несколько приложений или компонентов службы с обработчиком намерений для всех шаблонов фильтров общедоступных намерений, определенных следующими намерениями приложения, перечисленными здесь .
  • [ 3.2.3.1 /H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ предварительно загрузить приложение электронной почты, которое может обрабатывать намерения ACTION_SENDTO , ACTION_SEND или ACTION_SEND_MULTIPLE для отправки электронного письма.
  • [ 3.4 .1/H-0-1] ДОЛЖЕН обеспечивать полную реализацию API android.webkit.Webview .
  • [ 3.4 .2/H-0-1] ДОЛЖНО включать отдельное приложение-браузер для просмотра веб-страниц обычными пользователями.
  • [ 3.8 .1/H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ реализовать программу запуска по умолчанию, которая поддерживает закрепление в приложении ярлыков, виджетов и функций виджетов .
  • [ 3.8 .1/H-SR-2] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ реализовать средство запуска по умолчанию, которое обеспечивает быстрый доступ к дополнительным ярлыкам, предоставляемым сторонними приложениями, через API ShortcutManager .
  • [ 3.8 .1/H-SR-3] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ включить приложение запуска по умолчанию, которое отображает значки вместо значков приложений.
  • [ 3.8 .2/H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ поддерживать виджеты сторонних приложений.
  • [ 3.8 .3/H-0-1] ДОЛЖЕН разрешать сторонним приложениям уведомлять пользователей о заметных событиях через классы API Notification и NotificationManager .
  • [ 3.8 .3/H-0-2] ДОЛЖЕН поддерживать расширенные уведомления.
  • [ 3.8.3 /H-0-3] ДОЛЖЕН поддерживать хедз-ап уведомления.
  • [ 3.8 .3/H-0-4] ДОЛЖЕН включать оттенок уведомлений, предоставляющий пользователю возможность напрямую контролировать (например, отвечать, откладывать, отклонять, блокировать) уведомления с помощью возможностей пользователя, таких как кнопки действий или панель управления, как это реализовано. в АОСП.
  • [ 3.8 .3/H-0-5] ДОЛЖЕН отображать варианты, предоставленные с помощью RemoteInput.Builder setChoices() в тени уведомлений.
  • [ 3.8 .3/H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ отображать первый вариант, предоставленный с помощью RemoteInput.Builder setChoices() в тени уведомлений без дополнительного взаимодействия с пользователем.
  • [ 3.8 .3/H-SR-2] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ отображать все варианты, предоставленные с помощью RemoteInput.Builder setChoices() в тени уведомлений, когда пользователь разворачивает все уведомления в тени уведомлений.
  • [ 3.8 .3.1/H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ отображать действия, для которых Notification.Action.Builder.setContextual установлен как true в строке с ответами, отображаемыми Notification.Remoteinput.Builder.setChoices .
  • [ 3.8.4 /H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ реализовать на устройстве помощника для выполнения действия Assist .

Если реализации портативных устройств поддерживают уведомления MediaStyle, они:

  • [ 3.8 .3.1/H-SR-2] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ предоставить пользователю возможность (например, переключатель выходов), доступ к которой осуществляется из пользовательского интерфейса системы, что позволяет пользователям переключаться между соответствующими доступными маршрутами мультимедиа (например, устройствами Bluetooth и маршрутами, предоставляемыми для MediaRouter2Manager ), когда приложение отправляет уведомление MediaStyle с токеном MediaSession .

Если реализации портативных устройств поддерживают действие Assist, они:

  • [ 3.8 .4/H-SR-2] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ использовать длительное нажатие клавиши HOME в качестве назначенного взаимодействия для запуска вспомогательного приложения, как описано в разделе 7.2.3 . ДОЛЖЕН запустить выбранное пользователем вспомогательное приложение, другими словами, приложение, которое реализует VoiceInteractionService или действие, обрабатывающее намерение ACTION_ASSIST .

Если реализации портативных устройств поддерживают conversation notifications и группируют их в отдельный раздел от уведомлений о предупреждениях и молчаливых уведомлениях о неразговоре, они:

  • [ 3.8 .4/H-1-1]* ДОЛЖНЫ отображать уведомления о разговорах перед уведомлениями о неразговорах, за исключением текущих уведомлений о приоритетных службах и уведомлений о важности:высокий уровень .

Если реализации портативных устройств Android поддерживают экран блокировки, они:

  • [ 3.8 .10/H-1-1] ДОЛЖНЫ отображать уведомления на экране блокировки, включая шаблон мультимедийных уведомлений.

Если реализации портативных устройств поддерживают безопасный экран блокировки, они:

Если реализации портативных устройств включают поддержку ControlsProviderService и Control API и позволяют сторонним приложениям публиковать элементы управления устройствами , то они:

  • [ 3.8.16 /H-1-1] ДОЛЖЕН объявить флаг функции android.software.controls и установить для него значение true .
  • [ 3.8 .16/H-1-2] ДОЛЖЕН предоставлять пользователю возможность добавлять, редактировать, выбирать и управлять любимыми элементами управления устройством пользователя из элементов управления, зарегистрированных сторонними приложениями через ControlsProviderService и API Control . .
  • [ 3.8 .16/H-1-3] ДОЛЖЕН предоставить доступ к этим возможностям пользователя в течение трех взаимодействий с панелью запуска по умолчанию.
  • [ 3.8 .16/H-1-4] ДОЛЖНО точно отображать в этой пользовательской возможности имя и значок каждого стороннего приложения, которое предоставляет элементы управления через API ControlsProviderService а также любые указанные поля, предоставляемые API Control .

  • [ 3.8 .16/H-1-5] ДОЛЖЕН предоставить пользователю возможность отказаться от назначенных приложением тривиальных элементов управления устройством с аутентификацией из элементов управления, зарегистрированных сторонними приложениями через ControlsProviderService и Control Control.isAuthRequired API.

И наоборот, если реализации портативных устройств не реализуют такие элементы управления, они:

Если реализации портативных устройств не работают в режиме задачи блокировки , при копировании содержимого в буфер обмена они:

  • [3.8.17/H-1-1] ДОЛЖЕН предоставить пользователю подтверждение того, что данные были скопированы в буфер обмена (например, миниатюра или предупреждение «Содержимое скопировано»). Кроме того, включите сюда указание, будут ли данные буфера обмена синхронизироваться между устройствами.

Реализации портативных устройств:

  • [ 3.10 /H-0-1] ДОЛЖЕН поддерживать сторонние службы доступности.
  • [ 3.10 /H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ предварительно загрузить на устройство службы специальных возможностей, сопоставимые с функциональностью Switch Access и TalkBack (для языков, поддерживаемых предустановленным механизмом преобразования текста в речь), как это предусмотрено в Talkback проект с открытым исходным кодом .
  • [ 3.11 /H-0-1] ДОЛЖЕН поддерживать установку сторонних модулей TTS.
  • [ 3.11 /H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ включить механизм TTS, поддерживающий языки, доступные на устройстве.
  • [ 3.13 /H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ включить компонент пользовательского интерфейса быстрых настроек.

Если реализации портативных устройств Android декларируют поддержку FEATURE_BLUETOOTH или FEATURE_WIFI , они:

  • [ 3.16 /H-1-1] ДОЛЖЕН поддерживать функцию сопряжения с сопутствующими устройствами.

Если функция навигации предоставляется как действие на экране, основанное на жестах:

  • [ 7.2 .3/H] Зона распознавания жестов для функции «Домой» ДОЛЖНА быть не выше 32 dp по высоте от нижнего края экрана.

Если реализации портативных устройств предоставляют функцию навигации в виде жеста из любого места на левом и правом краях экрана:

  • [ 7.2 .3/H-0-1] Область жестов функции навигации ДОЛЖНА быть шириной менее 40 dp с каждой стороны. По умолчанию область жестов ДОЛЖНА иметь ширину 24 dp.

Если реализации портативных устройств поддерживают безопасный экран блокировки и имеют не менее 2 ГБ памяти, доступной для ядра и пользовательского пространства, они:

  • [3.9/H-1-2] ДОЛЖНО объявить поддержку управляемых профилей с помощью функционального флага android.software.managed_users .

Если реализации портативных устройств Android заявляют о поддержке камеры через android.hardware.camera.any они:

Если приложение настроек реализации портативного устройства реализует функцию разделения с использованием внедрения активности, то они:

  • [3.2.3.1/ H-1-1] ДОЛЖНО иметь действие, которое обрабатывает намерение Settings#ACTION_SETTINGS_EMBED_DEEP_LINK_ACTIVITY, когда функция разделения включена. Действие ДОЛЖНО быть защищено с помощью android.permission.LAUNCH_MULTI_PANE_SETTINGS_DEEP_LINK и оно ДОЛЖНО запускать действие намерения, проанализированного из Settings#EXTRA_SETTINGS_EMBEDDED_DEEP_LINK_INTENT_URI .

2.2.4. Производительность и мощность

  • [ 8.1 /H-0-1] Стабильная задержка кадра . Непостоянная задержка кадров или задержка рендеринга кадров НЕ ДОЛЖНЫ возникать чаще, чем 5 кадров в секунду, и ДОЛЖНЫ быть ниже 1 кадра в секунду.
  • [ 8.1 /H-0-2] Задержка пользовательского интерфейса . Реализации устройств ДОЛЖНЫ обеспечивать низкую задержку взаимодействия с пользователем за счет прокрутки списка из 10 000 записей списка, как это определено набором тестов совместимости Android (CTS), менее чем за 36 секунд.
  • [ 8.1 /H-0-3] Переключение задач . Если запущено несколько приложений, повторный запуск уже работающего приложения после его запуска ДОЛЖЕН занимать менее 1 секунды.

Реализации портативных устройств:

  • [ 8.2 /H-0-1] ДОЛЖЕН обеспечивать скорость последовательной записи не менее 5 МБ/с.
  • [ 8.2 /H-0-2] ДОЛЖЕН обеспечивать скорость произвольной записи не менее 0,5 МБ/с.
  • [ 8.2 /H-0-3] ДОЛЖЕН обеспечивать скорость последовательного чтения не менее 15 МБ/с.
  • [ 8.2 /H-0-4] ДОЛЖЕН обеспечивать скорость произвольного чтения не менее 3,5 МБ/с.

Если реализации карманных устройств включают функции улучшения управления питанием устройства, включенные в AOSP, или расширения функций, включенных в AOSP, они:

  • [ 8.3 /H-1-1] ДОЛЖЕН предоставлять пользователю возможность включать и отключать функцию экономии заряда батареи.
  • [ 8.3 /H-1-2] ДОЛЖЕН предоставлять пользователю возможность отображать все приложения, освобожденные от режимов энергосбережения и режима ожидания приложения.

Реализации портативных устройств:

  • [ 8.4 /H-0-1] ДОЛЖЕН предоставить профиль мощности для каждого компонента, который определяет значение текущего потребления для каждого аппаратного компонента и приблизительный разряд батареи, вызванный компонентами с течением времени, как описано на сайте Android Open Source Project.
  • [ 8.4 /H-0-2] ДОЛЖЕН сообщать все значения потребляемой мощности в миллиампер-часах (мАч).
  • [ 8.4 /H-0-3] ДОЛЖЕН сообщать о энергопотреблении ЦП для каждого UID процесса. Проект Android с открытым исходным кодом соответствует этому требованию благодаря реализации модуля ядра uid_cputime .
  • [ 8.4 /H-0-4] ДОЛЖНО предоставить разработчику приложения доступ к этому энергопотреблению с помощью команды оболочки adb shell dumpsys batterystats .
  • [ 8.4 /H] СЛЕДУЕТ отнести к самому аппаратному компоненту, если невозможно приписать энергопотребление аппаратного компонента приложению.

Если реализации портативных устройств включают в себя экран или видеовыход, они:

  • [ 8.4 /H-1-1] ДОЛЖЕН соблюдать намерение android.intent.action.POWER_USAGE_SUMMARY и отображать меню настроек, показывающее это энергопотребление.

Реализации портативных устройств:

  • [ 8.5 /H-0-1] ДОЛЖЕН предоставить пользователю в меню «Настройки» возможность остановить приложение, в котором запущена служба переднего плана, и отобразить все приложения, в которых есть активные службы переднего плана, а также продолжительность каждой из этих служб с момента ее запустился, как описано в документе SDK .
    • Некоторые приложения МОГУТ быть освобождены от остановки или включения в такие возможности для пользователей, как описано в документе SDK .

2.2.5. Модель безопасности

Реализации портативных устройств:

  • [ 9.1 /H-0-1] ДОЛЖЕН разрешить сторонним приложениям доступ к статистике использования через разрешение android.permission.PACKAGE_USAGE_STATS и предоставить доступный пользователю механизм для предоставления или отзыва доступа к таким приложениям в ответ на разрешение android.settings.ACTION_USAGE_ACCESS_SETTINGS намерение.

Реализации портативных устройств:

  • [ 9.11 /H-0-2] ДОЛЖНО выполнить резервное копирование реализации хранилища ключей в изолированной среде выполнения.
  • [ 9.11 /H-0-3] ДОЛЖНЫ иметь реализации криптографических алгоритмов RSA, AES, ECDSA и HMAC, а также хеш-функций семейства MD5, SHA1 и SHA-2 для правильной поддержки поддерживаемых алгоритмов системы Android Keystore в безопасной области. изолирован от кода, работающего в ядре и выше. Безопасная изоляция ДОЛЖНА блокировать все потенциальные механизмы, с помощью которых код ядра или пользовательского пространства может получить доступ к внутреннему состоянию изолированной среды, включая DMA. Вышестоящий проект Android с открытым исходным кодом (AOSP) отвечает этому требованию, используя реализацию Trusty , но альтернативными вариантами являются другое решение на базе ARM TrustZone или проверенная третьей стороной безопасная реализация правильной изоляции на основе гипервизора.
  • [ 9.11 /H-0-4] ДОЛЖЕН выполнить аутентификацию экрана блокировки в изолированной среде выполнения и только в случае успеха разрешить использование ключей, привязанных к аутентификации. Учетные данные экрана блокировки ДОЛЖНЫ храниться таким образом, чтобы только изолированная среда выполнения могла выполнять аутентификацию экрана блокировки. Вышестоящий проект Android с открытым исходным кодом предоставляет уровень абстракции оборудования Gatekeeper (HAL) и Trusty, которые можно использовать для удовлетворения этого требования.
  • [ 9.11 /H-0-5] ДОЛЖНА поддерживать аттестацию ключа, при которой ключ подписи аттестации защищен безопасным оборудованием, а подписывание выполняется на защищенном оборудовании. Ключи подписи аттестации ДОЛЖНЫ быть общими для достаточно большого количества устройств, чтобы предотвратить использование ключей в качестве идентификаторов устройств. Один из способов удовлетворения этого требования — использовать один и тот же ключ аттестации, пока не будет произведено не менее 100 000 единиц данного SKU. Если произведено более 100 000 единиц SKU, для каждых 100 000 единиц МОЖЕТ использоваться другой ключ.
  • [9/H-0-1] ДОЛЖЕН объявить функцию «android.hardware.security.model.совместимость».

Обратите внимание: если реализация устройства уже запущена в более ранней версии Android, такое устройство освобождается от требования иметь хранилище ключей, поддерживаемое изолированной средой выполнения, и поддерживать аттестацию ключей, если только оно не объявляет функцию android.hardware.fingerprint , которая требуется хранилище ключей, поддерживаемое изолированной средой выполнения.

Когда реализации портативных устройств поддерживают безопасный экран блокировки, они:

  • [ 9.11 /H-1-1] ДОЛЖЕН позволять пользователю выбирать кратчайший тайм-аут сна, то есть время перехода из разблокированного состояния в заблокированное, составляющее 15 секунд или меньше.
  • [ 9.11 /H-1-2] ДОЛЖЕН предоставлять пользователю возможность скрывать уведомления и отключать все формы аутентификации, за исключением первичной аутентификации, описанной в 9.11.1 Экран безопасной блокировки . AOSP соответствует требованию режима блокировки.

Если реализации портативных устройств включают несколько пользователей и не объявляют флаг функции android.hardware.telephony , они:

  • [ 9.5 /H-2-1] ДОЛЖНЫ поддерживать профили с ограниченным доступом — функцию, которая позволяет владельцам устройств управлять дополнительными пользователями и их возможностями на устройстве. С помощью профилей с ограниченным доступом владельцы устройств могут быстро настроить отдельные среды для работы дополнительных пользователей, а также иметь возможность управлять более детальными ограничениями в приложениях, доступных в этих средах.

Если реализации портативных устройств включают несколько пользователей и объявляют флаг функции android.hardware.telephony , они:

  • [ 9.5 /H-3-1] НЕ ДОЛЖЕН поддерживать ограниченные профили, но ДОЛЖЕН согласовываться с реализацией элементов управления AOSP, чтобы разрешить / запретить другим пользователям доступ к голосовым вызовам и SMS.

Android через системный API VoiceInteractionService поддерживает механизм безопасного постоянного обнаружения горячих слов без указания доступа к микрофону.

Если реализации портативных устройств поддерживают системный API HotwordDetectionService или другой механизм обнаружения горячих слов без указания доступа к микрофону, они:

  • [9.8/H-1-1] НЕОБХОДИМО убедиться, что служба обнаружения горячих слов может передавать данные только в Систему или ContentCaptureService.
  • [9.8/H-1-2] НЕОБХОДИМО убедиться, что служба обнаружения горячих слов может передавать только аудиоданные микрофона или полученные от него данные на системный сервер через API HotwordDetectionService или в ContentCaptureService через API ContentCaptureManager .
  • [9.8/H-1-3] НЕ ДОЛЖЕН передавать звук с микрофона продолжительностью более 30 секунд для отдельного аппаратно инициируемого запроса к службе обнаружения горячих слов.
  • [9.8/H-1-4] НЕ ДОЛЖНО предоставлять буферизованный звук микрофона длительностью более 8 секунд для отдельного запроса к службе обнаружения горячих слов.
  • [9.8/H-1-5] НЕ ДОЛЖНО передавать буферизованный звук микрофона длительностью более 30 секунд в службу голосового взаимодействия или аналогичный объект.
  • [9.8/H-1-6] НЕ ДОЛЖНО допускать передачу более 100 байтов неаудиоданных из службы обнаружения «горячих слов» при каждом успешном результате «горячего слова».
  • [9.8/H-1-7] НЕ ДОЛЖНО допускать передачу более 5 бит данных из службы обнаружения «горячих слов» при каждом отрицательном результате «горячего слова».
  • [9.8/H-1-8] ДОЛЖНА разрешать передачу данных из службы обнаружения горячих слов только по запросу на проверку горячих слов от системного сервера.
  • [9.8/H-1-9] НЕ ДОЛЖНО позволять устанавливаемому пользователем приложению предоставлять услугу обнаружения горячих слов.
  • [9.8/H-1-10] НЕ ДОЛЖНО отображать в пользовательском интерфейсе количественные данные об использовании микрофона службой обнаружения горячих слов.
  • [9.8/H-1-11] ДОЛЖНО регистрировать количество байтов, включенных в каждую передачу от службы обнаружения горячих слов, чтобы обеспечить возможность проверки исследователям безопасности.
  • [9.8/H-1-12] ДОЛЖЕН поддерживать режим отладки, который регистрирует необработанное содержимое каждой передачи от службы обнаружения горячих слов, чтобы обеспечить возможность проверки исследователям безопасности.
  • [9.8/H-1-14] ДОЛЖЕН отображать индикатор микрофона, как описано в разделе 9.8.2 , когда успешный результат «горячего слова» передается в службу голосового взаимодействия или аналогичный объект.
  • [9.8/H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ уведомлять пользователей перед настройкой приложения в качестве поставщика службы обнаружения горячих слов.
  • [9.8/H-SR-2] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ запретить передачу неструктурированных данных из службы обнаружения горячих слов.
  • [9.8/H-SR-3] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ перезапускать процесс, на котором размещена служба обнаружения горячих слов, по крайней мере, один раз в час или каждые 30 событий, запускающих оборудование, в зависимости от того, что наступит раньше.

Если реализации устройства включают приложение, которое использует системный API HotwordDetectionService или аналогичный механизм для обнаружения горячих слов без индикации использования микрофона, приложение:

  • [9.8/H-2-1] ДОЛЖЕН предоставлять явное уведомление пользователю для каждой поддерживаемой ключевой фразы.
  • [9.8/H-2-2] НЕ ДОЛЖНО сохранять необработанные аудиоданные или данные, полученные из них, посредством службы обнаружения горячих слов.
  • [9.8/H-2-3] НЕ ДОЛЖНЫ передавать из службы обнаружения горячих слов аудиоданные, данные, которые можно использовать для восстановления (полностью или частично) аудио, или аудиоконтент, не связанный с самим горячим словом, за исключением ContentCaptureService .

Если реализации карманных устройств объявляют android.hardware.microphone , они:

  • [ 9.8.2 /H-4-1] ДОЛЖЕН отображать индикатор микрофона, когда приложение получает доступ к аудиоданным с микрофона, но не тогда, когда доступ к микрофону осуществляется только HotwordDetectionService , SOURCE_HOTWORD , ContentCaptureService или приложениями, выполняющими роли, указанные в разделе 9.1 с идентификатором CDD [C-4-X].
  • [ 9.8.2 /H-4-2] ДОЛЖЕН отображать список последних и активных приложений с использованием микрофона, возвращенный из PermissionManager.getIndicatorAppOpUsageData() , вместе со всеми связанными с ними сообщениями об атрибуции.

Если реализации карманных устройств объявляют android.hardware.camera.any , они:

  • [ 9.8.2 /H-5-1] ДОЛЖЕН отображать индикатор камеры, когда приложение обращается к данным камеры в реальном времени, но не тогда, когда к камере обращаются только приложения, выполняющие роли, указанные в разделе 9.1, с идентификатором CDD. [С-4-Х].
  • [ 9.8.2 /H-5-2] ДОЛЖНО отображать недавние и активные приложения с использованием камеры, возвращенные из PermissionManager.getIndicatorAppOpUsageData() , а также любые связанные с ними сообщения об атрибуции.

2.2.6. Совместимость инструментов и опций разработчика

Реализации портативных устройств (* Не применимо для планшетов):

  • [ 6.1 /H-0-1]* ДОЛЖЕН поддерживать команду оболочки cmd testharness .

Реализации портативных устройств (* Не применимо для планшетов):

  • Перфетто
    • [ 6.1 /H-0-2]* ДОЛЖЕН предоставить пользователю оболочки двоичный файл /system/bin/perfetto , который cmdline соответствует документации perfetto .
    • [ 6.1 /H-0-3]* Бинарный файл perfetto ДОЛЖЕН принимать в качестве входных данных конфигурацию protobuf, соответствующую схеме, определенной в документации perfetto .
    • [ 6.1 /H-0-4]* Бинарный файл perfetto ДОЛЖЕН записать в качестве вывода трассировку protobuf, соответствующую схеме, определенной в документации perfetto .
    • [ 6.1 /H-0-5]* ДОЛЖЕН предоставить через двоичный файл perfetto как минимум источники данных, описанные в документации perfetto .
    • [ 6.1 /H-0-6]* Демон трассировки perfetto ДОЛЖЕН быть включен по умолчанию (системное свойство persist.traced.enable ).

2.2.7. Класс производительности портативных носителей

См. раздел 7.11 для определения класса производительности носителя.

2.2.7.1. СМИ

Если реализации портативных устройств возвращают android.os.Build.VERSION_CODES.S для android.os.Build.VERSION_CODES.MEDIA_PERFORMANCE_CLASS , то они:

  • ДОЛЖЕН соответствовать требованиям к носителям, перечисленным в разделе 2.2.7.1 CDD Android 12.

Если реализации портативных устройств возвращают android.os.Build.VERSION_CODES.T для android.os.Build.VERSION_CODES.MEDIA_PERFORMANCE_CLASS , то они:

  • [5.1/H-1-1] ДОЛЖНО объявлять максимальное количество сеансов аппаратного видеодекодера, которые могут выполняться одновременно в любой комбинации кодеков, с помощью методов CodecCapabilities.getMaxSupportedInstances() и VideoCapabilities.getSupportedPerformancePoints() .
  • [5.1/H-1-2] ДОЛЖЕН поддерживать 6 экземпляров сеансов аппаратного видеодекодера (AVC, HEVC, VP9, ​​AV1 или новее) в любой комбинации кодеков, работающих одновременно с разрешением 1080p при 30 кадрах в секунду.
  • [5.1/H-1-3] ДОЛЖНО объявлять максимальное количество сеансов аппаратного кодирования видео, которые могут выполняться одновременно в любой комбинации кодеков, с помощью методов CodecCapabilities.getMaxSupportedInstances() и VideoCapabilities.getSupportedPerformancePoints() .
  • [5.1/H-1-4] ДОЛЖЕН поддерживать 6 экземпляров сеансов аппаратного кодирования видео (AVC, HEVC, VP9, ​​AV1 или новее) в любой комбинации кодеков, работающих одновременно с разрешением 1080p при 30 кадрах в секунду.
  • [5.1/H-1-5] ДОЛЖНО объявлять максимальное количество сеансов аппаратного кодирования и декодера видео, которые могут выполняться одновременно в любой комбинации кодеков, с помощью методов CodecCapabilities.getMaxSupportedInstances() и VideoCapabilities.getSupportedPerformancePoints() .
  • [5.1/H-1-6] ДОЛЖНО поддерживать 6 экземпляров сеансов аппаратного видеодекодера и аппаратного видеокодера (AVC, HEVC, VP9, ​​AV1 или новее) в любой комбинации кодеков, работающих одновременно с разрешением 1080p при 30 кадрах в секунду.
  • [5.1/H-1-7] ДОЛЖНА иметь задержку инициализации кодека 40 мс или меньше для сеанса кодирования видео 1080p или меньше для всех аппаратных видеокодеров при нагрузке. Загрузка здесь определяется как одновременный сеанс перекодирования только видео с разрешением 1080p на 720p с использованием аппаратных видеокодеков вместе с инициализацией записи аудио-видео 1080p. Для кодека Dolby Vision задержка инициализации кодека ДОЛЖНА составлять 50 мс или меньше.
  • [5.1/H-1-8] ДОЛЖНА иметь задержку инициализации кодека 30 мс или меньше для сеанса кодирования звука со скоростью 128 кбит/с или ниже для всех аудиокодеров при нагрузке. Загрузка здесь определяется как одновременный сеанс перекодирования только видео с разрешением 1080p на 720p с использованием аппаратных видеокодеков вместе с инициализацией записи аудио-видео 1080p.
  • [5.1/H-1-9] ДОЛЖНЫ поддерживать 2 экземпляра сеансов безопасного аппаратного видеодекодера (AVC, HEVC, VP9, ​​AV1 или новее) в любой комбинации кодеков, работающих одновременно с разрешением 1080p при 30 кадрах в секунду.
  • [5.1/H-1-10] ДОЛЖНЫ поддерживать 3 экземпляра незащищенных сеансов аппаратного видеодекодера вместе с 1 экземпляром сеанса защищенного аппаратного видеодекодера (всего 4 экземпляра) (AVC, HEVC, VP9, ​​AV1 или новее) в любом кодеке. комбинация работает одновременно с разрешением 1080p и частотой 30 кадров в секунду.
  • [5.1/H-1-11] ДОЛЖЕН поддерживать безопасный декодер для каждого аппаратного декодера AVC, HEVC, VP9 или AV1 на устройстве.
  • [5.1/H-1-12] ДОЛЖНА иметь задержку инициализации кодека 40 мс или меньше для сеанса декодирования видео 1080p или меньше для всех аппаратных видеодекодеров при нагрузке. Загрузка здесь определяется как одновременный сеанс перекодирования только видео с разрешением 1080p на 720p с использованием аппаратных видеокодеков вместе с инициализацией воспроизведения аудио-видео 1080p. Для кодека Dolby Vision задержка инициализации кодека ДОЛЖНА составлять 50 мс или меньше.
  • [5.1/H-1-13] ДОЛЖНА иметь задержку инициализации кодека 30 мс или меньше для сеанса декодирования звука со скоростью 128 кбит/с или ниже для всех аудиодекодеров при нагрузке. Загрузка здесь определяется как одновременный сеанс перекодирования только видео с разрешением 1080p на 720p с использованием аппаратных видеокодеков вместе с инициализацией воспроизведения аудио-видео 1080p.
  • [5.1/H-1-14] ДОЛЖЕН поддерживать аппаратный декодер AV1 Main 10, уровень 4.1.
  • [5.1/H-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ поддерживать Film Grain для аппаратного декодера AV1.
  • [5.1/H-1-15] ДОЛЖЕН иметь как минимум один аппаратный видеодекодер с поддержкой 4K60.
  • [5.1/H-1-16] ДОЛЖЕН иметь хотя бы один аппаратный видеокодер с поддержкой 4K60.
  • [5.3/H-1-1] НЕ ДОЛЖНО пропадать более чем на 1 кадр за 10 секунд (т. е. падение кадров менее 0,167 процента) для видеосеанса с разрешением 1080p и частотой 60 кадров в секунду под нагрузкой. Нагрузка определяется как одновременный сеанс перекодирования только видео с разрешением 1080p на 720p с использованием аппаратных видеокодеков, а также воспроизведение звука AAC со скоростью 128 кбит/с.
  • [5.3/H-1-2] НЕ ДОЛЖНО пропадать более чем на 1 кадр за 10 секунд во время изменения разрешения видео в видеосеансе со скоростью 60 кадров в секунду под нагрузкой. Нагрузка определяется как одновременный сеанс перекодирования только видео с разрешением 1080p на 720p с использованием аппаратных видеокодеков, а также воспроизведение звука AAC со скоростью 128 кбит/с.
  • [5.6/H-1-1] ДОЛЖНА иметь задержку ответа на тональный сигнал 80 миллисекунд или меньше при использовании теста ответного сигнала OboeTester или теста ответного сигнала CTS Verifier.
  • [5.6/H-1-2] ДОЛЖНА иметь двустороннюю задержку аудио 80 миллисекунд или меньше по крайней мере по одному поддерживаемому каналу передачи данных.
  • [5.6/H-1-3] ДОЛЖЕН поддерживать >=24-битный звук для стереовыхода через аудиоразъемы 3,5 мм, если они имеются, и через USB-аудио, если поддерживается на всем пути передачи данных для малой задержки и потоковой конфигурации. Для конфигурации с низкой задержкой AAudio должно использоваться приложением в режиме обратного вызова с низкой задержкой. Для конфигурации потоковой передачи приложение должно использовать Java AudioTrack. Как в конфигурации с низкой задержкой, так и в конфигурации потоковой передачи выходной приемник HAL должен принимать AUDIO_FORMAT_PCM_24_BIT , AUDIO_FORMAT_PCM_24_BIT_PACKED , AUDIO_FORMAT_PCM_32_BIT или AUDIO_FORMAT_PCM_FLOAT в качестве целевого выходного формата.
  • [5.6/H-1-4] ДОЛЖНЫ поддерживать >= 4-канальные аудиоустройства USB (это используется DJ-контроллерами для предварительного просмотра песен.)
  • [5.6/H-1-5] ДОЛЖНЫ поддерживать MIDI-устройства, соответствующие классу, и объявлять флаг функции MIDI.
  • [5.7/H-1-2] ДОЛЖЕН поддерживать MediaDrm.SECURITY_LEVEL_HW_SECURE_ALL с указанными ниже возможностями расшифровки контента.
Минимальный размер выборки 4 МБ
Минимальное количество подвыборок — H264 или HEVC 32
Минимальное количество подвыборок – VP9 9
Минимальное количество подвыборок — AV1 288
Минимальный размер буфера подвыборки 1 МиБ
Минимальный размер общего криптобуфера 500 КиБ
Минимальное количество одновременных сеансов 30
Минимальное количество ключей за сеанс 20
Минимальное общее количество ключей (все сеансы) 80
Минимальное общее количество ключей DRM (все сеансы) 6
Размер сообщения 16 КиБ
Расшифрованные кадры в секунду 60 кадров в секунду

2.2.7.2. Камера

Если реализации портативных устройств возвращают android.os.Build.VERSION_CODES.S для android.os.Build.VERSION_CODES.MEDIA_PERFORMANCE_CLASS , то они:

  • ДОЛЖЕН соответствовать требованиям к камере, перечисленным в разделе 2.2.7.2 CDD Android 12.

Если реализации портативных устройств возвращают android.os.Build.VERSION_CODES.T для android.os.Build.VERSION_CODES.MEDIA_PERFORMANCE_CLASS , то они:

  • [7.5/H-1-1] ДОЛЖНА иметь основную заднюю камеру с разрешением не менее 12 мегапикселей, поддерживающую захват видео со скоростью 4k при 30 кадрах в секунду. Основная задняя камера — это задняя камера с наименьшим идентификатором камеры.
  • [7.5/H-1-2] ДОЛЖНА иметь основную фронтальную камеру с разрешением не менее 5 мегапикселей и поддержкой захвата видео с разрешением 1080p при 30 кадрах в секунду. Основная фронтальная камера — это фронтальная камера с наименьшим идентификатором камеры.
  • [7.5/H-1-3] ДОЛЖНО поддерживать свойство android.info.supportedHardwareLevel со значением FULL или выше для задней основной камеры и LIMITED или выше для передней основной камеры.
  • [7.5/H-1-4] ДОЛЖЕН поддерживать CameraMetadata.SENSOR_INFO_TIMESTAMP_SOURCE_REALTIME для обеих основных камер.
  • [7.5/H-1-5] ДОЛЖНА иметь задержку захвата JPEG камерой 2 < 1000 мс для разрешения 1080p, измеренную с помощью теста производительности камеры CTS в условиях освещения ITS (3000K) для обеих основных камер.
  • [7.5/H-1-6] ДОЛЖНА иметь задержку запуска камеры 2 (открытая камера до первого кадра предварительного просмотра) < 500 мс, как измерено с помощью теста производительности камеры CTS в условиях освещения ITS (3000K) для обеих основных камер.
  • [7.5/H-1-8] ДОЛЖНЫ поддерживать CameraMetadata.REQUEST_AVAILABLE_CAPABILITIES_RAW и android.graphics.ImageFormat.RAW_SENSOR для основной задней камеры.
  • [7.5/H-1-9] ДОЛЖНА иметь основную камеру, обращенную назад, с поддержкой разрешения 720p или 1080p при частоте 240 кадров в секунду.
  • [7.5/H-1-10] ДОЛЖНО иметь минимальное значение ZOOM_RATIO < 1,0 для основных камер, если в том же направлении находится сверхширокоугольная камера RGB.
  • [7.5/H-1-11] ДОЛЖНО реализовать параллельную потоковую передачу вперед и назад на основных камерах.
  • [7.5/H-1-12] ДОЛЖЕН поддерживать CONTROL_VIDEO_STABILIZATION_MODE_PREVIEW_STABILIZATION для основной задней камеры.
  • [7.5/H-1-13] ДОЛЖНА поддерживать возможность LOGICAL_MULTI_CAMERA для основной задней камеры, если имеется более 1 задней камеры RGB.
  • [7.5/H-1-14] ДОЛЖНА поддерживать возможность STREAM_USE_CASE как для основной передней, так и для основной задней камеры.

2.2.7.3. Аппаратное обеспечение

Если реализации портативных устройств возвращают android.os.Build.VERSION_CODES.S для android.os.Build.VERSION_CODES.MEDIA_PERFORMANCE_CLASS , то они:

  • ДОЛЖЕН соответствовать требованиям к оборудованию, перечисленным в разделе 2.2.7.3 CDD Android 12.

Если реализации портативных устройств возвращают android.os.Build.VERSION_CODES.T для android.os.Build.VERSION_CODES.MEDIA_PERFORMANCE_CLASS , то они:

  • [7.1.1.1/H-2-1] ДОЛЖНО иметь разрешение экрана не менее 1080p.
  • [7.1.1.3/H-2-1] ДОЛЖНО иметь плотность экрана не менее 400 точек на дюйм.
  • [7.6.1/H-2-1] ДОЛЖНО иметь не менее 8 ГБ физической памяти.

2.2.7.4. Производительность

Если реализации портативных устройств возвращают android.os.Build.VERSION_CODES.S для android.os.Build.VERSION_CODES.MEDIA_PERFORMANCE_CLASS , то они:

  • ДОЛЖЕН соответствовать требованиям к производительности, перечисленным в разделе 2.2.7.4 CDD Android 12.

Если реализации портативных устройств возвращают android.os.Build.VERSION_CODES.T для android.os.Build.VERSION_CODES.MEDIA_PERFORMANCE_CLASS , то они:

  • [8.2/H-1-1] ДОЛЖЕН обеспечивать скорость последовательной записи не менее 125 МБ/с.
  • [8.2/H-1-2] ДОЛЖЕН обеспечивать скорость произвольной записи не менее 10 МБ/с.
  • [8.2/H-1-3] ДОЛЖЕН обеспечивать скорость последовательного чтения не менее 250 МБ/с.
  • [8.2/H-1-4] ДОЛЖЕН обеспечивать скорость произвольного чтения не менее 40 МБ/с.

2.3. Требования к телевидению

Устройство Android Television относится к реализации устройства Android, которое представляет собой развлекательный интерфейс для просмотра цифровых мультимедиа, фильмов, игр, приложений и/или телепередач в прямом эфире для пользователей, сидящих на расстоянии примерно десяти футов («откинутый назад» или «пользователь ростом 10 футов»). интерфейс").

Реализации устройств Android классифицируются как телевизоры, если они соответствуют всем следующим критериям:

  • Предоставили механизм удаленного управления отображаемым пользовательским интерфейсом на дисплее, который может находиться в десяти футах от пользователя.
  • Иметь встроенный экран с длиной диагонали более 24 дюймов ИЛИ включать порт видеовыхода, например VGA, HDMI, DisplayPort или беспроводной порт для отображения.

Дополнительные требования в оставшейся части этого раздела относятся только к реализациям устройств Android Television.

2.3.1. Аппаратное обеспечение

Реализации телевизионных устройств:

  • [ 7.2.2 /T-0-1] ДОЛЖЕН поддерживать D-pad .
  • [ 7.2 .3/T-0-1] ДОЛЖЕН обеспечивать функции «Домой» и «Назад».
  • [ 7.2 .3/T-0-2] ДОЛЖЕН отправлять как обычное, так и длительное нажатие функции Back ( KEYCODE_BACK ) в приложение переднего плана.
  • [ 7.2 .6.1/T-0-1] ДОЛЖЕН включать поддержку игровых контроллеров и объявлять флаг функции android.hardware.gamepad .
  • [ 7.2 .7/T] СЛЕДУЕТ предоставить пульт дистанционного управления, с помощью которого пользователи могут получить доступ к несенсорной навигации и вводу основных навигационных клавиш .

Если реализации телевизионных устройств включают в себя 3-осевой гироскоп, они:

  • [ 7.3 .4/T-1-1] ДОЛЖЕН иметь возможность сообщать о событиях с частотой не менее 100 Гц.
  • [ 7.3.4 /T-1-2] ДОЛЖЕН быть способен измерять изменения ориентации со скоростью до 1000 градусов в секунду.

Реализации телевизионных устройств:

  • [ 7.4.3 /T-0-1] ДОЛЖЕН поддерживать Bluetooth и Bluetooth LE.
  • [ 7.6 .1/T-0-1] ДОЛЖНО иметь не менее 4 ГБ энергонезависимого хранилища, доступного для личных данных приложения (так называемого раздела «/data»).

Если реализации телевизионных устройств включают порт USB, поддерживающий режим хоста, они:

  • [ 7.5 .3/T-1-1] ДОЛЖЕН включать поддержку внешней камеры, которая подключается через этот USB-порт, но не обязательно всегда подключена.

Если реализации телевизионного устройства являются 32-битными:

  • [ 7.6 .1/T-1-1] Память, доступная ядру и пользовательскому пространству, ДОЛЖНА быть не менее 896 МБ, если используется любая из следующих плотностей:

    • 400 точек на дюйм или выше на маленьких/обычных экранах
    • xhdpi или выше на больших экранах
    • tvdpi или выше на очень больших экранах

Если реализации ТВ-устройства являются 64-битными:

  • [ 7.6 .1/T-2-1] Память, доступная ядру и пользовательскому пространству, ДОЛЖНА быть не менее 1280 МБ, если используется любая из следующих плотностей:

    • 400 точек на дюйм или выше на маленьких/обычных экранах
    • xhdpi или выше на больших экранах
    • tvdpi или выше на очень больших экранах

Обратите внимание, что «память, доступная ядру и пользовательскому пространству» выше, относится к пространству памяти, предоставляемому в дополнение к любой памяти, уже выделенной для аппаратных компонентов, таких как радио, видео и т. д., которые не находятся под контролем ядра в реализациях устройств.

Реализации телевизионных устройств:

  • [ 7.8 .1/T] ДОЛЖЕН включать микрофон.
  • [ 7.8 .2/T-0-1] ДОЛЖЕН иметь аудиовыход и объявлять android.hardware.audio.output .

2.3.2. Мультимедиа

Реализации телевизионных устройств ДОЛЖНЫ поддерживать следующие форматы кодирования и декодирования звука и делать их доступными для сторонних приложений:

  • [ 5.1 /T-0-1] Профиль MPEG-4 AAC (AAC LC)
  • [ 5.1 /T-0-2] Профиль MPEG-4 HE AAC (AAC+)
  • [ 5.1 /T-0-3] AAC ELD (улучшенный AAC с малой задержкой)

Реализации телевизионных устройств ДОЛЖНЫ поддерживать следующие форматы кодирования видео и делать их доступными для сторонних приложений:

  • [ 5.2 /Т-0-1] H.264
  • [ 5.2 /Т-0-2] ВП8

Реализации телевизионных устройств:

  • [ 5.2 .2/T-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ поддерживать кодирование H.264 видео с разрешением 720p и 1080p при частоте 30 кадров в секунду.

Реализации телевизионных устройств ДОЛЖНЫ поддерживать следующие форматы декодирования видео и делать их доступными для сторонних приложений:

  • [ 5.3.3 /Т-0-1] MPEG-4 SP
  • [ 5.3.4 /T-0-2] H.264 AVC
  • [ 5.3.5 /T-0-3] H.265 HEVC
  • [ 5.3.6 /Т-0-4] ВП8
  • [ 5.3.7 /Т-0-5] ВП9
  • [ 5.3.1 /Т-0-6] MPEG-2

Реализации телевизионных устройств ДОЛЖНЫ поддерживать декодирование MPEG-2, как подробно описано в разделе 5.3.1, со стандартной частотой кадров и разрешением видео до и включительно:

  • [ 5.3.1 /T-1-1] HD 1080p при 29,97 кадрах в секунду с высоким уровнем основного профиля.
  • [ 5.3.1 /T-1-2] HD 1080i с частотой 59,94 кадра в секунду и основным профилем высокого уровня. Они ДОЛЖНЫ выполнить деинтерлейсинг чересстрочного видео MPEG-2 и сделать его доступным для сторонних приложений.

Реализации телевизионных устройств ДОЛЖНЫ поддерживать декодирование H.264, как подробно описано в разделе 5.3.4, со стандартной частотой кадров и разрешением видео до и включительно:

  • [ 5.3.4 /T-1-1] HD 1080p при 60 кадрах в секунду с базовым профилем
  • [ 5.3.4 /T-1-2] HD 1080p при 60 кадрах в секунду с основным профилем
  • [ 5.3.4 /T-1-3] HD 1080p при 60 кадрах в секунду с высоким профилем уровня 4.2

Реализации телевизионных устройств с аппаратными декодерами H.265 ДОЛЖНЫ поддерживать декодирование H.265, как подробно описано в разделе 5.3.5, со стандартной частотой кадров видео и разрешением до и включительно:

  • [ 5.3.5 /T-1-1] HD 1080p при 60 кадрах в секунду с основным профилем уровня 4.1

Если реализации телевизионных устройств с аппаратными декодерами H.265 поддерживают декодирование H.265 и профиль декодирования UHD, они:

  • [ 5.3.5 /T-2-1] ДОЛЖЕН поддерживать профиль декодирования UHD со скоростью 60 кадров в секунду с профилем основного уровня Main10 Level 5.

Реализации телевизионных устройств ДОЛЖНЫ поддерживать декодирование VP8, как подробно описано в разделе 5.3.6, со стандартной частотой кадров видео и разрешением до:

  • [ 5.3.6 /T-1-1] Профиль декодирования HD 1080p со скоростью 60 кадров в секунду

Реализации телевизионных устройств с аппаратными декодерами VP9 ДОЛЖНЫ поддерживать декодирование VP9, ​​как подробно описано в разделе 5.3.7, со стандартной частотой кадров видео и разрешениями до и включительно:

  • [ 5.3.7 /T-1-1] HD 1080p при 60 кадрах в секунду с профилем 0 (глубина цвета 8 бит)

Если реализации телевизионных устройств с аппаратными декодерами VP9 поддерживают декодирование VP9 и профиль декодирования UHD, они:

  • [ 5.3.7 /T-2-1] ДОЛЖЕН поддерживать профиль декодирования UHD со скоростью 60 кадров в секунду с профилем 0 (глубина цвета 8 бит).
  • [ 5.3.7 /T-SR1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ поддерживать профиль декодирования UHD со скоростью 60 кадров в секунду с профилем 2 (глубина цвета 10 бит).

Реализации телевизионных устройств:

  • [ 5.5 /T-0-1] ДОЛЖЕН включать поддержку основной громкости системы и ослабления громкости цифрового аудиовыхода на поддерживаемых выходах, за исключением сквозного вывода сжатого аудио (когда на устройстве не выполняется декодирование звука).

Если реализации телевизионных устройств не имеют встроенного дисплея, а поддерживают внешний дисплей, подключенный через HDMI, они:

  • [ 5.8 /T-0-1] НЕОБХОДИМО установить режим вывода HDMI, чтобы выбрать максимальное разрешение, которое может поддерживаться с частотой обновления 50 Гц или 60 Гц.
  • [ 5.8 /T-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ предоставить настраиваемый пользователем переключатель частоты обновления HDMI.
  • [ 5.8 ] СЛЕДУЕТ установить частоту обновления режима вывода HDMI на 50 Гц или 60 Гц, в зависимости от частоты обновления видео для региона, в котором продается устройство.

Если реализации телевизионных устройств не имеют встроенного дисплея, а поддерживают внешний дисплей, подключенный через HDMI, они:

  • [ 5.8 /T-1-1] ДОЛЖЕН поддерживать HDCP 2.2.

Если реализации телевизионных устройств не поддерживают декодирование UHD, а вместо этого поддерживают внешний дисплей, подключенный через HDMI, они:

  • [ 5.8 /T-2-1] ДОЛЖЕН поддерживать HDCP 1.4.

2.3.3. Программное обеспечение

Реализации телевизионных устройств:

  • [ 3 /T-0-1] ДОЛЖНЫ объявить функции android.software.leanback и android.hardware.type.television .
  • [ 3.2.3.1 /T-0-1] ДОЛЖЕН предварительно загрузить в одно или несколько приложений или компонентов службы обработчик намерений для всех шаблонов фильтров общедоступных намерений, определенных следующими намерениями приложения, перечисленными здесь .
  • [ 3.4 .1/T-0-1] ДОЛЖЕН обеспечивать полную реализацию API android.webkit.Webview .

Если реализации устройств Android Television поддерживают экран блокировки, они:

  • [ 3.8 .10/T-1-1] ДОЛЖНЫ отображать уведомления на экране блокировки, включая шаблон мультимедийных уведомлений.

Реализации телевизионных устройств:

  • [ 3.8 .14/T-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ поддерживать многооконный режим «картинка в картинке» (PIP).
  • [ 3.10 /T-0-1] ДОЛЖЕН поддерживать сторонние службы доступности.
  • [ 3.10 /T-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ предварительно загрузить на устройство службы специальных возможностей, сопоставимые с функциональностью Switch Access и TalkBack (для языков, поддерживаемых предустановленным механизмом преобразования текста в речь), как это предусмотрено в Talkback проект с открытым исходным кодом .

Если реализации телевизионных устройств сообщают о функции android.hardware.audio.output , они:

  • [ 3.11 /T-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ включить механизм TTS, поддерживающий языки, доступные на устройстве.
  • [ 3.11 /T-1-1] ДОЛЖЕН поддерживать установку сторонних модулей TTS.

Реализации телевизионных устройств:

  • [ 3.12 /T-0-1] ДОЛЖЕН поддерживать структуру ТВ-входа.

2.3.4. Производительность и мощность

  • [ 8.1 /T-0-1] Постоянная задержка кадра . Непостоянная задержка кадров или задержка рендеринга кадров НЕ ДОЛЖНЫ возникать чаще, чем 5 кадров в секунду, и ДОЛЖНЫ быть ниже 1 кадра в секунду.
  • [ 8.2 /T-0-1] ДОЛЖЕН обеспечивать скорость последовательной записи не менее 5 МБ/с.
  • [ 8.2 /T-0-2] ДОЛЖЕН обеспечивать скорость произвольной записи не менее 0,5 МБ/с.
  • [ 8.2 /T-0-3] ДОЛЖЕН обеспечивать скорость последовательного чтения не менее 15 МБ/с.
  • [ 8.2 /T-0-4] ДОЛЖЕН обеспечивать скорость произвольного чтения не менее 3,5 МБ/с.

Если реализации телевизионных устройств включают функции улучшения управления питанием устройства, включенные в AOSP, или расширения функций, включенных в AOSP, они:

  • [ 8.3 /T-1-1] ДОЛЖЕН предоставлять пользователю возможность включать и отключать функцию экономии заряда батареи.

Если реализации телевизионных устройств не имеют батареи, они:

Если реализации телевизионных устройств имеют батарею, они:

  • [ 8.3 /T-1-3] ДОЛЖЕН предоставлять пользователю возможность отображать все приложения, освобожденные от режимов энергосбережения и режима ожидания приложения.

Реализации телевизионных устройств:

  • [ 8.4 /T-0-1] ДОЛЖЕН предоставить профиль мощности для каждого компонента, который определяет значение текущего потребления для каждого аппаратного компонента и приблизительный разряд батареи, вызванный компонентами с течением времени, как описано на сайте Android Open Source Project.
  • [ 8.4 /T-0-2] ДОЛЖЕН сообщать все значения потребляемой мощности в миллиампер-часах (мАч).
  • [ 8.4 /T-0-3] ДОЛЖЕН сообщать о энергопотреблении ЦП для каждого UID процесса. Проект Android с открытым исходным кодом соответствует этому требованию благодаря реализации модуля ядра uid_cputime .
  • [ 8.4 /T] СЛЕДУЕТ отнести к самому аппаратному компоненту, если невозможно приписать энергопотребление аппаратного компонента приложению.
  • [ 8.4 /T-0-4] ДОЛЖНО предоставить разработчику приложения доступ к этому энергопотреблению с помощью команды оболочки adb shell dumpsys batterystats .

2.3.5. Модель безопасности

Реализации телевизионных устройств:

  • [ 9.11 /T-0-1] ДОЛЖНО выполнить резервное копирование реализации хранилища ключей в изолированной среде выполнения.
  • [ 9.11 /T-0-2] ДОЛЖНЫ иметь реализации криптографических алгоритмов RSA, AES, ECDSA и HMAC, а также хеш-функций семейства MD5, SHA1 и SHA-2 для правильной поддержки поддерживаемых алгоритмов системы Android Keystore в надежно изолированной области. из кода, работающего в ядре и выше. Безопасная изоляция ДОЛЖНА блокировать все потенциальные механизмы, с помощью которых код ядра или пользовательского пространства может получить доступ к внутреннему состоянию изолированной среды, включая DMA. Вышестоящий проект Android с открытым исходным кодом (AOSP) отвечает этому требованию, используя реализацию Trusty , но альтернативными вариантами являются другое решение на базе ARM TrustZone или проверенная третьей стороной безопасная реализация правильной изоляции на основе гипервизора.
  • [ 9.11 /T-0-3] ДОЛЖЕН выполнить аутентификацию экрана блокировки в изолированной среде выполнения и только в случае успеха разрешить использование ключей, привязанных к аутентификации. Учетные данные экрана блокировки ДОЛЖНЫ храниться таким образом, чтобы только изолированная среда выполнения могла выполнять аутентификацию экрана блокировки. Вышестоящий проект Android с открытым исходным кодом предоставляет уровень абстракции оборудования Gatekeeper (HAL) и Trusty, которые можно использовать для удовлетворения этого требования.
  • [ 9.11 /T-0-4] ДОЛЖЕН поддерживать аттестацию ключа, где ключ подписи аттестации защищен безопасным оборудованием, а подписывание выполняется на защищенном оборудовании. Ключи подписи аттестации ДОЛЖНЫ быть общими для достаточно большого количества устройств, чтобы предотвратить использование ключей в качестве идентификаторов устройств. Один из способов удовлетворения этого требования — использовать один и тот же ключ аттестации, пока не будет произведено не менее 100 000 единиц данного SKU. Если произведено более 100 000 единиц SKU, для каждых 100 000 единиц МОЖЕТ использоваться другой ключ.
  • [9/T-0-1] ДОЛЖЕН объявить функцию «android.hardware.security.model.совместимость».

Обратите внимание: если реализация устройства уже запущена в более ранней версии Android, такое устройство освобождается от требования иметь хранилище ключей, поддерживаемое изолированной средой выполнения, и поддерживать аттестацию ключей, если только оно не объявляет функцию android.hardware.fingerprint , которая требуется хранилище ключей, поддерживаемое изолированной средой выполнения.

Если реализации телевизионных устройств поддерживают безопасный экран блокировки, они:

  • [ 9.11 /T-1-1] ДОЛЖЕН позволять пользователю выбирать тайм-аут сна для перехода из разблокированного в заблокированное состояние с минимально допустимым тайм-аутом до 15 секунд или меньше.

Если реализации телевизионных устройств включают несколько пользователей и не объявляют флаг функции android.hardware.telephony , они:

  • [ 9.5 /T-2-1] ДОЛЖНЫ поддерживать ограниченные профили — функцию, которая позволяет владельцам устройств управлять дополнительными пользователями и их возможностями на устройстве. С помощью профилей с ограниченным доступом владельцы устройств могут быстро настроить отдельные среды для работы дополнительных пользователей, а также иметь возможность управлять более детальными ограничениями в приложениях, доступных в этих средах.

Если реализации телевизионных устройств включают несколько пользователей и объявляют флаг функции android.hardware.telephony , они:

  • [ 9.5 /T-3-1] НЕ ДОЛЖЕН поддерживать профили с ограниченным доступом, но ДОЛЖЕН согласовываться с реализацией элементов управления AOSP, чтобы разрешить/запретить другим пользователям доступ к голосовым вызовам и SMS.

Если реализации телевизионных устройств объявляют android.hardware.microphone , они:

  • [ 9.8.2 /T-4-1] ДОЛЖЕН отображать индикатор микрофона, когда приложение получает доступ к аудиоданным с микрофона, но не тогда, когда доступ к микрофону осуществляется только с помощью HotwordDetectionService, SOURCE_HOTWORD, ContentCaptureService или приложений, содержащих роли, вызываемые в Раздел 9.1 Разрешения с идентификатором CDD C-3-X].
  • [ 9.8.2 /T-4-2] НЕ ДОЛЖНО скрывать индикатор микрофона для системных приложений, которые имеют видимые пользовательские интерфейсы или прямое взаимодействие с пользователем.

Если реализации телевизионных устройств объявляют android.hardware.camera.any , они:

  • [ 9.8.2 /T-5-1] ДОЛЖЕН отображать индикатор камеры, когда приложение получает доступ к данным камеры в реальном времени, но не тогда, когда доступ к камере осуществляется только приложениями, имеющими роли, указанные в Разделе 9.1 Разрешения с CDD. идентификатор [C-3-X].
  • [ 9.8.2 /T-5-2] НЕ ДОЛЖНО скрывать индикатор камеры для системных приложений, которые имеют видимые пользовательские интерфейсы или прямое взаимодействие с пользователем.

2.3.6. Совместимость инструментов и опций разработчика

Реализации телевизионных устройств:

  • Перфетто
    • [ 6.1 /T-0-1] ДОЛЖЕН предоставить пользователю оболочки двоичный файл /system/bin/perfetto , который cmdline соответствует документации perfetto .
    • [ 6.1 /T-0-2] Бинарный файл perfetto ДОЛЖЕН принимать в качестве входных данных конфигурацию protobuf, соответствующую схеме, определенной в документации perfetto .
    • [ 6.1 /T-0-3] Бинарный файл perfetto ДОЛЖЕН записать в качестве вывода трассировку protobuf, соответствующую схеме, определенной в документации perfetto .
    • [ 6.1 /T-0-4] ДОЛЖЕН предоставлять через двоичный файл perfetto как минимум источники данных, описанные в документации perfetto .

2.4. Требования к просмотру

Устройство Android Watch — это реализация устройства Android, предназначенная для ношения на теле, например, на запястье.

Реализации устройств Android классифицируются как часы, если они соответствуют всем следующим критериям:

  • Иметь экран с физической длиной диагонали в диапазоне от 1,1 до 2,5 дюйма.
  • Предусмотрите механизм для ношения на теле.

Дополнительные требования в оставшейся части этого раздела относятся только к реализациям устройств Android Watch.

2.4.1. Аппаратное обеспечение

Посмотрите реализации устройства:

  • [ 7.1.1.1/W-0-1 ] ДОЛЖЕН иметь экран с физическим размером диагонали в диапазоне от 1,1 до 2,5 дюйма.

  • [ 7.2.3 /W-0-1] ДОЛЖНА иметь функцию «Домой», доступную пользователю, и функцию «Назад», за исключением случаев, когда она находится в UI_MODE_TYPE_WATCH .

  • [ 7.2 .4/W-0-1] ДОЛЖЕН поддерживать ввод с помощью сенсорного экрана.

  • [ 7.3 .1/W-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ включить 3-осевой акселерометр.

Если реализации устройства Watch включают в себя приемник GPS/GNSS и сообщают об этом приложениям с помощью функционального флага android.hardware.location.gps , они:

  • [ 7.3 .3/W-1-1] ДОЛЖЕН сообщать об измерениях GNSS, как только они будут обнаружены, даже если местоположение, рассчитанное с помощью GPS/GNSS, еще не сообщается.
  • [ 7.3.3 /W-1-2] ДОЛЖНЫ сообщать псевдодальности GNSS и скорости псевдодальностей, которые в условиях открытого неба после определения местоположения, в неподвижном состоянии или при движении с ускорением менее 0,2 метра в секунду в квадрате, достаточны для расчета положение в пределах 20 метров и скорость в пределах 0,2 метра в секунду, по крайней мере, в 95% случаев.

Если реализации устройств Watch включают в себя 3-осевой гироскоп, они:

  • [ 7.3.4 /W-2-1] ДОЛЖЕН быть способен измерять изменения ориентации со скоростью до 1000 градусов в секунду.

Посмотрите реализации устройств:

  • [ 7.4 .3/W-0-1] ДОЛЖЕН поддерживать Bluetooth.

  • [ 7.6 .1/W-0-1] ДОЛЖЕН иметь не менее 1 ГБ энергонезависимого хранилища, доступного для личных данных приложения (также известного как раздел «/data»).

  • [ 7.6 .1/W-0-2] ДОЛЖЕН иметь не менее 416 МБ памяти, доступной для ядра и пользовательского пространства.

  • [ 7.8 .1/W-0-1] ДОЛЖЕН включать микрофон.

  • [ 7.8 .2/W] МОЖЕТ иметь аудиовыход.

2.4.2. Мультимедиа

Никаких дополнительных требований.

2.4.3. Программное обеспечение

Посмотрите реализации устройства:

  • [ 3 /W-0-1] ДОЛЖЕН объявить функцию android.hardware.type.watch .
  • [ 3 /W-0-2] ДОЛЖЕН поддерживать uiMode = UI_MODE_TYPE_WATCH .
  • [ 3.2.3.1 /W-0-1] ДОЛЖЕН предварительно загрузить в одно или несколько приложений или компонентов службы обработчик намерений для всех шаблонов фильтров общедоступных намерений, определенных следующими намерениями приложения, перечисленными здесь .

Посмотрите реализации устройства:

  • [ 3.8.4 /W-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ реализовать на устройстве помощника для выполнения действия Assist .

Посмотрите реализации устройств, в которых объявлен флаг функции android.hardware.audio.output :

  • [ 3.10 /W-1-1] ДОЛЖЕН поддерживать сторонние службы доступности.
  • [ 3.10 /W-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ предварительно загрузить на устройство службы специальных возможностей, сопоставимые с функциональностью Switch Access и TalkBack (для языков, поддерживаемых предустановленным механизмом преобразования текста в речь), как это предусмотрено в Talkback проект с открытым исходным кодом .

Если реализации устройств Watch сообщают о функции android.hardware.audio.output, они:

  • [ 3.11 /W-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ включить механизм TTS, поддерживающий языки, доступные на устройстве.

  • [ 3.11 /W-0-1] ДОЛЖЕН поддерживать установку сторонних модулей TTS.

2.4.4. Производительность и мощность

Если реализации устройств Watch включают функции улучшения управления питанием устройства, включенные в AOSP, или расширения функций, включенных в AOSP, они:

  • [ 8.3 /W-SR-1] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ предоставить пользователям возможность отображать все приложения, освобожденные от режимов энергосбережения и режима ожидания приложения.
  • [ 8.3 /W-SR-2] НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ предоставить пользователю возможность включать и отключать функцию экономии заряда батареи.

Посмотрите реализации устройства:

  • [ 8.4 /W-0-1] ДОЛЖЕН предоставить профиль мощности для каждого компонента, который определяет значение текущего потребления для каждого аппаратного компонента и приблизительный разряд батареи, вызванный компонентами с течением времени, как описано на сайте Android Open Source Project.
  • [ 8.4 /W-0-2] ДОЛЖЕН сообщать все значения потребляемой мощности в миллиампер-часах (мАч).
  • [ 8.4 /W-0-3] ДОЛЖЕН сообщать о энергопотреблении ЦП для каждого UID процесса. Проект Android с открытым исходным кодом соответствует этому требованию благодаря реализации модуля ядра uid_cputime .
  • [ 8.4 /W-0-4] ДОЛЖНО предоставить разработчику приложения доступ к этому энергопотреблению с помощью команды оболочки adb shell dumpsys batterystats .
  • [ 8.4 /w] следует приписать к самому аппаратному компоненту, если не может приписать использование электроэнергии аппаратного компонента в приложение.

2.4.5. Модель безопасности

Смотреть реализации устройств:

  • [9/w-0-1] должен объявить функцию android.hardware.security.model.compatible .

Если реализации устройств Watch включают в себя несколько пользователей и не объявляют флаг android.hardware.telephony , они: они: они:

  • [ 9.5 /W-1-1] должен поддерживать ограниченные профили, функцию, которая позволяет владельцам устройств управлять дополнительными пользователями и их возможностями на устройстве. С помощью профилей с ограниченным доступом владельцы устройств могут быстро настроить отдельные среды для работы дополнительных пользователей, а также иметь возможность управлять более детальными ограничениями в приложениях, доступных в этих средах.

Если реализации устройств Watch включают в себя несколько пользователей и объявляют флаг android.hardware.telephony , они: они:

  • [ 9.5 /w-2-1] не должны поддерживать ограниченные профили, но должны соответствовать реализации AOSP управления, чтобы позволить /отключить других пользователей от доступа к голосовым вызовам и SMS.

2.5. Автомобильные требования

Android Automotive реализация относится к тому, что головный блок транспортного средства под управлением Android в качестве операционной системы для части или всей системы и/или информационно -развлекательной функции.

Реализации устройств Android классифицируются как автомобиль, если они объявляют функцию android.hardware.type.automotive или соответствуют всем следующим критериям.

  • Встроены как часть или подключаются к автомобильному транспортному средству.
  • Используют экран в строке сидений водителя в качестве основного дисплея.

Дополнительные требования в остальной части этого раздела являются специфичными для реализаций Android автомобильных устройств.

2.5.1. Аппаратное обеспечение

Реализации автомобильных устройств:

  • [ 7.1 .1.1/A-0-1] должен иметь экран не менее 6 дюймов в физическом диагональном размере.
  • [ 7.1 .1.1/A-0-2] должен иметь макет размера экрана не менее 750 DP x 480 DP.

  • [ 7.2 .3/a-0-1] должны обеспечить домашнюю функцию и могут обеспечить обратно и последние функции.

  • [ 7.2 .3/A-0-2] должны отправлять как нормальное, так и длинное событие нажатия обратной функции ( KEYCODE_BACK ) на приложение переднего плана.

  • [ 7.3 /a-0-1] должен реализовать и сообщать GEAR_SELECTION , NIGHT_MODE , PERF_VEHICLE_SPEED и PARKING_BRAKE_ON .

  • [ 7.3 /A-0-2] Значение флага NIGHT_MODE должно соответствовать режиму дневного /ночного режима приборной панели и должно основываться на вводе датчика окружающего света. Основной датчик окружающего света может быть таким же, как фотометр .

  • [ 7.3 /A-0-3] должен предоставить датчику дополнительную информацию поля TYPE_SENSOR_PLACEMENT как часть SensoradditionalInfo для каждого предоставленного датчика.

  • [ 7.3 /a-sr1] May Dead Scrouge Location путем слияния GPS /GNSS с дополнительными датчиками. Если местоположение мертвым, считается, настоятельно рекомендуется реализовать и сообщать о соответствующих типах датчиков и/или идентификаторах свойства транспортного средства .

  • [ 7.3 /A-0-4] Местоположение, запрашиваемое через местоположение ManageManager#requestLocationUpdates (), не должно соответствовать карте.

  • [ 7.3 .1/A-0-4] должен соответствовать системе координат CAR CAR CAR.

  • [ 7.3 /a-sr-1] решительно выполнены, чтобы включить 3-осевой акселерометр и 3-осевой гироскоп.

  • [ 7.3 /a-sr-2] решительно выполнены для реализации и отчетности датчика TYPE_HEADING .

Если реализации автомобильных устройств поддерживают OpenGL ES 3.1, они:

  • [ 7.1 .4.1/A-0-1] должен объявить OpenGL ES 3,1 или выше.
  • [ 7.1 .4.1/a-0-2] должен поддерживать Vulkan 1.1.
  • [ 7.1 .4.1/a-0-3] должны включать погрузчик Vulkan и экспорт всех символов.

Если реализации автомобильных устройств включают акселерометр, они:

  • [ 7.3 .1/A-1-1] должен быть в состоянии сообщать о событиях до частоты не менее 100 Гц.

Если реализации устройства включают акселерометр 3-осадного, они:

  • [ 7.3 .1/a-sr-1] настоятельно рекомендуется реализовать композитный датчик для ограниченного акселерометра.

Если реализации автомобильных устройств включают акселерометр с менее чем 3 осей, они:

  • [ 7.3 .1/a-1-3] должен реализовать и сообщать о датчике TYPE_ACCELEROMETER_LIMITED_AXES .
  • [ 7.3 .1/a-1-4] должен реализовать и сообщать о TYPE_ACCELEROMETER_LIMITED_AXES_UNCALIBRATED .

Если реализации автомобильных устройств включают гироскоп, они:

  • [ 7.3 .4/A-2-1] должен быть в состоянии сообщать о событиях до частоты не менее 100 Гц.
  • [ 7.3 .4/A-2-3] должен быть способен измерять изменения ориентации до 250 градусов в секунду.
  • [ 7.3 .4/a-sr-1] настоятельно рекомендуется настройка диапазона измерения гироскопа на +/- 250 д.ps, чтобы максимизировать возможное разрешение.

Если реализации автомобильных устройств включают 3-осевой гироскоп, они: они:

  • [ 7.3 .4/A-SR-2] настоятельно рекомендуется реализовать композитный датчик для ограниченного гироскопа.

Если реализации автомобильных устройств включают гироскоп с менее чем 3-осом, они:

  • [ 7.3 .4/a-4-1] должен реализовать и сообщать о датчике TYPE_GYROSCOPE_LIMITED_AXES .
  • [ 7.3 .4/a-4-2] должен реализовать и сообщать TYPE_GYROSCOPE_LIMITED_AXES_UNCALIBRATED

Если реализации автомобильных устройств включают приемник GPS/GNSS, но не включайте подключение к данным сотовой сети, они: они:

  • [ 7.3 .3/A-3-1] должен определить местоположение в первый раз, когда приемник GPS/GNSS включается или после 4+ дней в течение 60 секунд.
  • [ 7.3 .3/a-3-2] должен соответствовать критериям времени на первое место, как описано в 7.3.3/C-1-2 и 7.3.3/C-1-6 для всех других запросов местоположения ( т.е. запросы, которые не являются первыми, когда когда -либо или после 4+ дней). Требование 7.3.3/C-1-2 обычно выполняется в транспортных средствах без подключения к сотовой сети, используя прогнозы Orbit GNSS, рассчитанные на приемнике, или используя последнее известное местоположение транспортного средства вместе с возможностью мертвого расплаты на AT AT минимум 60 секунд с точностью позиции, удовлетворяющей 7.3.3/C-1-3 , или комбинацией обоих.

Если реализации автомобильных устройств включают датчик TYPE_HEADING , они:

  • [ 7.3 .4/A-4-3] должен быть в состоянии сообщать о событиях до частоты не менее 1 Гц.
  • [ 7.3 .4/a-sr-3] решительно сообщили о событиях до частоты не менее 10 Гц.
  • Должен быть в отношении истинного севера.
  • Должен быть доступен, даже когда транспортное средство все еще.
  • Должно иметь разрешение не менее 1 градуса.

Реализации автомобильных устройств:

  • [ 7.4 .3/A-0-1] должен поддерживать Bluetooth и должен поддерживать Bluetooth Le.
  • [ 7.4 .3/A-0-2] Android Automotive реализации должны поддерживать следующие профили Bluetooth:
    • Телефон звонит по профилю без рук (HFP).
    • Воспроизведение средств массовой информации по профилю распространения аудио (A2DP).
    • Управление воспроизведением медиа над профилем дистанционного управления (AVRCP).
    • Свяжитесь с обменом, используя профиль доступа к телефонной книге (PBAP).
  • [ 7.4 .3/a-sr-1] настоятельно рекомендуется поддержать профиль доступа сообщений (MAP).

  • [ 7.4 .5/a] должна включать поддержку подключения данных на основе сотовой сети.

  • [ 7.4 .5/a] может использовать системную API NetworkCapabilities#NET_CAPABILITY_OEM_PAID Constant для сетей, которые должны быть доступны для системных приложений.

Внешний вид камера - это камера, которая изображает сцены за пределами реализации устройства, например, камера заднего вида.

Реализации автомобильных устройств:

  • Должен включать одну или несколько камер внешнего вида.

Если реализации автомобильных устройств включают камеру внешнего вида, для такой камеры, они:

  • [ 7.5 /A-1-1] не должны иметь внешний вид камеры, доступные через API-интерфейсы камеры Android , если они не соответствуют требованиям ядра камеры.
  • [ 7.5 /A-SR-1] настоятельно рекомендуется не вращать или не зеркально отражать предварительный просмотр камеры.

  • [ 7.5 /A-SR-2] настоятельно рекомендуется иметь разрешение не менее 1,3 мегапикселей.

  • Должен иметь либо фиксированное фокус, либо оборудование EDOF (расширенная глубина поле).

  • Может иметь аппаратный автофокусированный или программный автофокус, реализованный в драйвере камеры.

Если реализации автомобильных устройств включают одну или несколько камер внешнего вида и службу системы внешнего вида (EVS), то для такой камеры они: они:

  • [ 7.5 /A-2-1] не должны вращаться или горизонтально отражать предварительный просмотр камеры.

Реализации автомобильных устройств:

  • Может включать одну или несколько камер, которые доступны для сторонних приложений.

Если реализации автомобильных устройств включают хотя бы одну камеру и сделайте ее доступными для сторонних приложений, то они:

  • [ 7.5 /A-3-1] должен сообщить о флаге функции android.hardware.camera.any .
  • [ 7.5 /A-3-2] не должны объявлять камеру как системную камеру .
  • Может поддерживать внешние камеры, описанные в разделе 7.5.3 .
  • Может включать функции (такие как автофокусировка и т. Д.), Доступные для камер обращаются к задней части, как описано в разделе 7.5.1 .

Реализации автомобильных устройств:

  • [ 7.6 .1/a-0-1] должно иметь не менее 4 ГБ нелетую хранилища для частных данных (aka »/data»).

  • [ 7.6 .1/a] должен отформатировать раздел данных, чтобы предложить улучшенную производительность и долговечность при хранении Flash, например, с использованием файловой системы f2fs .

Если реализации автомобильных устройств обеспечивают общее внешнее хранилище через часть внутреннего непонимательного хранилища, они: они:

  • [ 7.6 .1/A-SR-1] настоятельно рекомендуется уменьшить накладные расходы ввода/вывода на операциях, выполняемых на внешней памяти, например, с помощью SDCardFS .

Если реализации автомобильных устройств 64-битная:

  • [ 7.6 .1/A-2-1] Память, доступная для ядра и пользователя, должна составлять не менее 816 МБ, если используется какая-либо из следующих плотностей:

    • 280dpi или ниже на небольших/нормальных экранах
    • LDPI или ниже на очень больших экранах
    • MDPI или ниже на больших экранах
  • [ 7.6 .1/a-2-2] Память, доступная для ядра и пользователя, должна быть не менее 944 МБ, если используется какая-либо из следующих плотностей:

    • xhdpi или выше на небольших/нормальных экранах
    • HDPI или выше на больших экранах
    • MDPI или выше на очень больших экранах
  • [ 7.6 .1/A-2-3] Память, доступная для ядра и пользователя, должна составлять не менее 1280 МБ, если используется какая-либо из следующих плотностей:

    • 400DPI или выше на небольших/нормальных экранах
    • xhdpi или выше на больших экранах
    • TVDPI или выше на очень больших экранах
  • [ 7.6 .1/A-2-4] Память, доступная для ядра и пользователя, должна быть не менее 1824 МБ, если используется какая-либо из следующих плотностей:

    • 560dpi или выше на небольших/нормальных экранах
    • 400DPI или выше на больших экранах
    • xhdpi или выше на очень больших экранах

Обратите внимание, что «память, доступная ядру и пользовательскому пространству» выше, относится к пространству памяти, предоставляемому в дополнение к любой памяти, уже выделенной для аппаратных компонентов, таких как радио, видео и т. д., которые не находятся под контролем ядра в реализациях устройств.

Реализации автомобильных устройств:

  • [ 7.7 .1/a] должен включать в себя периферийный режим USB -порта.

Реализации автомобильных устройств:

  • [ 7.8 .1/a-0-1] должен включать микрофон.

Реализации автомобильных устройств:

  • [ 7.8 .2/a-0-1] должен иметь аудио-вывод и объявлять android.hardware.audio.output .

2.5.2. Мультимедиа

Реализации автомобильных устройств должны поддерживать следующие форматы кодирования и декодирования звука и сделать их доступными для сторонних приложений:

  • [ 5.1 /A-0-1] профиль AAC MPEG-4 (AAC LC)
  • [ 5.1 /A-0-2] MPEG-4 HE AAC Profile (AAC+)
  • [ 5.1 /A-0-3] AAC ELD (ACNADAD LOW DOLSE AAC)

Реализации автомобильных устройств должны поддерживать следующие форматы кодирования видео и сделать их доступными для сторонних приложений:

  • [ 5.2 /A-0-1] H.264 AVC
  • [ 5.2 /A-0-2] VP8

Реализации автомобильных устройств должны поддерживать следующие форматы декодирования видео и сделать их доступными для сторонних приложений:

  • [ 5.3 /A-0-1] H.264 AVC
  • [ 5.3 /A-0-2] MPEG-4 SP
  • [ 5.3 /A-0-3] VP8
  • [ 5.3 /A-0-4] VP9

Реализации автомобильных устройств настоятельно рекомендуются для поддержки следующего видео декодирования:

  • [ 5.3 /a-sr-1] H.265 HEVC

2.5.3. Программное обеспечение

Реализации автомобильных устройств:

  • [ 3 /A-0-1] должен объявить функцию android.hardware.type.automotive .

  • [ 3 /a-0-2] должен поддерживать uimode = UI_MODE_TYPE_CAR .

  • [ 3 /A-0-3] должен поддерживать все общедоступные API в android.car.* Пространство имен.

Если реализации автомобильных устройств предоставит проприетарную API с использованием android.car.CarPropertyManager с android.car.VehiclePropertyIds , они:

  • [ 3 /A-1-1] не должны прикреплять особые привилегии к использованию системного приложения этих свойств или предотвратить использование этих свойств сторонних приложений.
  • [ 3 /A-1-2] не должны повторять свойство транспортного средства, которое уже существует в SDK .

Реализации автомобильных устройств:

  • [ 3.2 .1/A-0-1] должен поддерживать и обеспечивать соблюдение всех констант разрешений, как задокументировано на странице справочной справки автомобильного разрешения .

  • [ 3.2.3.1 /A-0-1] должен предварительно загружать одно или несколько приложений или компонентов сервиса с помощью обработчика намерения, для всех шаблонов фильтра общественного фильтра, определенных следующими приложениями, указанными здесь .

  • [ 3.4 .1/a-0-1] должен обеспечить полную реализацию API android.webkit.Webview .

  • [ 3.8 .3/A-0-1] должны отображать уведомления, которые используют API Notification.CarExtender . Carextender по запросу сторонних приложений.

  • [ 3.8 .4/A-SR-1] настоятельно рекомендуется реализовать помощника на устройстве для обработки действий по оказанию помощи .

Если реализации автомобильных устройств включают кнопку нажатия на разговор, они:

  • [ 3.8 .4/A-1-1] должен использовать короткое нажатие кнопки «Нажатие к раз» в качестве назначенного взаимодействия для запуска приложения, отобранного пользователем, другими словами, приложение, которое реализует VoiceInteractionService .

Реализации автомобильных устройств:

  • [ 3.8.3.1 /a-0-1] должен правильно отображать ресурсы, как описано в документации Notifications on Automotive OS SDK.
  • [ 3.8.3.1 /A-0-2] должен отображать Play и Mute для уведомления о действиях вместо тех, которые предоставляются через Notification.Builder.addAction()
  • [ 3.8.3.1 /a] должно ограничивать использование богатых задач управления, таких как элементы управления каналом. Может использовать доступность пользовательского интерфейса для приложения для уменьшения контроля.

Если реализации автомобильных устройств поддерживают свойства пользователя HAL, они:

Реализации автомобильных устройств:

  • [ 3.14 /A-0-1] должны включать в себя структуру пользовательского интерфейса для поддержки сторонних приложений с использованием API-интерфейсов медиа, как описано в разделе 3.14 .
  • [ 3.14 /A-0-2] должен позволить пользователю безопасно взаимодействовать с приложениями для медиа во время вождения.
  • [ 3.14 /A- CAR_EXTRA_MEDIA_PACKAGE ] должен поддерживать неявное действие CAR_INTENT_ACTION_MEDIA_TEMPLATE .
  • [ 3.14 /a-0-4] должен предоставить доступность для перемещения в применение медиа-приложения, но должно включать его только тогда, когда автомобильные ограничения не действуют.
  • [ 3.14 /A-0-5] должен отображать сообщения об ошибках , установленные приложениями для носителя, и должен поддерживать необязательные Extras ERROR_RESOLUTION_ACTION_LABEL и ERROR_RESOLUTION_ACTION_INTENT .
  • [ 3.14 /A-0-6] должен поддерживать поисковую доступность в приложении для приложений, которые поддерживают поиск.
  • [ 3.14 /A-0-7] должен уважать CONTENT_STYLE_BROWSABLE_HINT и CONTENT_STYLE_PLAYABLE_HINT определения при отображении иерархии Mediabrowser .

Если реализации автомобильных устройств включают в себя приложение по умолчанию, они: они:

Реализации автомобильных устройств:

  • [ 3.8 /a] может ограничить запросы приложения ввести режим полного экрана, как описано в immersive documentation .
  • [ 3.8 /a] может всегда держать панель состояния и навигационную строку видимой.
  • [ 3.8 /a] может ограничить запросы применения, чтобы изменить цвета, стоящие за элементами пользовательского интерфейса системы, чтобы обеспечить четко ясно видно эти элементы.

2.5.4. Производительность и мощность

Реализации автомобильных устройств:

  • [ 8.2 /a-0-1] должны сообщать о количестве байтов, которые прочитали и записаны в нелетуальное хранилище в соответствии с UID каждого процесса, чтобы статистика была доступна для разработчиков через системный API android.car.storagemonitoring.CarStorageMonitoringManager . Проект с открытым исходным кодом Android соответствует требованиям через модуль ядра uid_sys_stats .
  • [ 8.3 /A-1-3] должен поддерживать режим гаража .
  • [ 8.3 /a] должен быть в режиме гаража не менее 15 минут после каждого диска, если только:
    • Батарея осушается.
    • Никаких холостовых заданий не запланировано.
    • Драйвер выходит из режима гаража.
  • [ 8.4 /A-0-1] должен предоставить профиль мощности для каждого компонента, который определяет значение потребления тока для каждого аппаратного компонента и приблизительного слива аккумулятора, вызванного компонентами с течением времени, как задокументировано на сайте проекта с открытым исходным кодом Android.
  • [ 8.4 /a-0-2] должны сообщать о всех ценностях энергопотребления в миллиамперсера (MAH).
  • [ 8.4 /A-0-3] должны сообщать о энергопотреблении процессора на UID каждого процесса. Проект Android с открытым исходным кодом соответствует этому требованию благодаря реализации модуля ядра uid_cputime .
  • [ 8.4 /a] следует приписывать сам аппаратный компонент, если не может привести к приложению использование аппаратного компонента.
  • [ 8.4 /A-0-4] должно сделать это использование мощности доступным через команду Shell adb shell dumpsys batterystats для разработчика приложения.

2.5.5. Модель безопасности

Если реализации автомобильных устройств поддерживают нескольких пользователей, они:

Если реализации автомобильных устройств объявит android.hardware.camera.any , то они:

  • [ 9.8.2 /A-2-1] должен отображать индикатор камеры, когда приложение обращается к данным с живой камерой, но не в том случае, когда камера доступна только при приложении (-ах), удерживая роли, вызовые в разделе 9.1 с CDD Идентификатор [C-3-X].
  • [ 9.8.2 /A-2-2] не должны скрывать индикатор камеры для системных приложений, которые имеют видимые пользовательские интерфейсы или прямое взаимодействие с пользователем.

Реализации автомобильных устройств:

  • [ 9.11 /a-0-1] должен резервным копированием реализации хранилища ключей с изолированной средой выполнения.
  • [ 9.11 /A-0-2] должны иметь реализацию RSA, AES, ECDSA и HMAC Cryptographic Algorithms и HASH Family Family и SHA-2 для правильной поддержки поддерживаемых алгоритмов системы Android-KeyStor из кода, работающего на ядре и выше. Безопасная изоляция ДОЛЖНА блокировать все потенциальные механизмы, с помощью которых код ядра или пользовательского пространства может получить доступ к внутреннему состоянию изолированной среды, включая DMA. Вышестоящий проект Android с открытым исходным кодом (AOSP) отвечает этому требованию, используя реализацию Trusty , но альтернативными вариантами являются другое решение на базе ARM TrustZone или проверенная третьей стороной безопасная реализация правильной изоляции на основе гипервизора.
  • [ 9.11 /A-0-3] должен выполнить аутентификацию экрана блокировки в изолированной среде выполнения, и только при успешной, разрешайте использовать ключи, связанные с аутентификацией. Учетные данные экрана блокировки ДОЛЖНЫ храниться таким образом, чтобы только изолированная среда выполнения могла выполнять аутентификацию экрана блокировки. Вышестоящий проект Android с открытым исходным кодом предоставляет уровень абстракции оборудования Gatekeeper (HAL) и Trusty, которые можно использовать для удовлетворения этого требования.
  • [ 9.11 /A-0-4] должен поддерживать ключевую аттестацию, где ключ подписи аттестации защищен безопасным оборудованием, а подписание выполняется в защищенном оборудовании. Ключи подписи аттестации должны быть разделены на достаточно большое количество устройств, чтобы предотвратить использование клавиш в качестве идентификаторов устройства. Один из способов удовлетворения этого требования — использовать один и тот же ключ аттестации, пока не будет произведено не менее 100 000 единиц данного SKU. Если произведено более 100 000 единиц SKU, для каждых 100 000 единиц МОЖЕТ использоваться другой ключ.
  • [9/A-0-1] должен объявить функцию «android.hardware.security.model.compatible».

Обратите внимание: если реализация устройства уже запущена в более ранней версии Android, такое устройство освобождается от требования иметь хранилище ключей, поддерживаемое изолированной средой выполнения, и поддерживать аттестацию ключей, если только оно не объявляет функцию android.hardware.fingerprint , которая требуется хранилище ключей, поддерживаемое изолированной средой выполнения.

Реализации автомобильных устройств:

  • [ 9.14 /a-0-1] должны привратнить сообщения от подсистем Android Framework, например, разрешенные типы сообщений и источники сообщений.
  • [ 9.14 /a-0-2] должен сторожевый борт против атак отказа в обслуживании от Android-Framework или сторонних приложений. Это охраняет против вредоносного программного обеспечения, затопляя сеть транспортных средств трафиком, что может привести к неисправным подсистемам транспортных средств.

2.5.6. Совместимость инструментов и опций разработчика

Реализации автомобильных устройств:

  • Перфетто
    • [ 6.1 /a-0-1] Должен подвергнуть A /system/bin/perfetto Binary пользователю Shell, который Cmdline соответствует документации Perfetto .
    • [ 6.1 /a-0-2] Двоиц Perfetto должен принять в качестве ввода конфигурации Protobuf, которая соответствует схеме, определенной в документации Perfetto .
    • [ 6.1 /A-0-3] Двоиц Perfetto должен писать в качестве вывода трассировки Protobuf, которая соответствует схеме, определенной в документации Perfetto .
    • [ 6.1 /A-0-4] должны предоставить через двоичный файл перфетто, по крайней мере, источники данных, описанные в документации Perfetto .

2.6. Требования к планшетам

Устройство планшета Android относится к реализации устройства Android, которая обычно соответствует всем следующим критериям:

  • Используется, держась в обеих руках.
  • Не имеет раскладной или конвертируемой конфигурации.
  • Физические реализации клавиатуры, используемые с помощью устройства подключения с помощью стандартного соединения (например, USB, Bluetooth).
  • Имеет источник питания, который обеспечивает мобильность, такой как батарея.
  • Имеет размер дисплея экрана, превышающий 7 ”и менее 18 дюймов, измеренный по диагонали.

Реализации планшетных устройств имеют аналогичные требования к реализациям портативных устройств. Исключения обозначены * в этом разделе и отмечены для справки в этом разделе.

2.6.1. Аппаратное обеспечение

Гироскоп

Если реализации планшетных устройств включают 3-осевой гироскоп, они: они:

  • [ 7.3 .4/Tab-1-1] должен быть способен измерять изменения ориентации до 1000 градусов в секунду.

Минимальная память и хранилище (раздел 7.6.1)

Плотность экрана, перечисленные для небольших/нормальных экранов в портативных требованиях, не применимы к планшетам.

Периферийный режим USB (раздел 7.7.1)

Если реализации устройств планшетных устройств включают в себя периферийный режим USB -порта, они: они: они:

  • [ 7.7.1 /Tab] может реализовать API Android Open Accessous (AOA).

Режим виртуальной реальности (раздел 7.9.1)

Высокая производительность виртуальной реальности (раздел 7.9.2)

Требования к виртуальной реальности не применимы к планшетам.

2.6.2. Модель безопасности

Ключи и учетные данные (раздел 9.11)

См. Раздел [ 9.11 ].

Если реализации планшетных устройств включают в себя несколько пользователей и не объявляют флаг функции android.hardware.telephony , они: они:

  • [ 9.5 /T-1-1] должен поддерживать ограниченные профили, функцию, которая позволяет владельцам устройств управлять дополнительными пользователями и их возможностями на устройстве. С помощью профилей с ограниченным доступом владельцы устройств могут быстро настроить отдельные среды для работы дополнительных пользователей, а также иметь возможность управлять более детальными ограничениями в приложениях, доступных в этих средах.

Если реализации планшетных устройств включают в себя несколько пользователей и объявляют флаг android.hardware.telephony , они: они: они:

  • [ 9.5 /T-2-1] не должны поддерживать ограниченные профили, но должны соответствовать реализации AOSP управления, чтобы позволить /отключить других пользователей добраться до голосовых вызовов и SMS.

2.6.2. Программное обеспечение

  • [ 3.2.3.1 /TAB-0-1] должен предварительно загружать одно или несколько приложений или компонентов обслуживания с помощью обработчика намерения, для всех шаблонов фильтра общественного фильтра, определенных следующими намерениями приложения, указанными здесь .

3. Программное обеспечение

3.1. Совместимость управляемого API

Управляемая среда выполнения Dalvik Bytecode является основным средством для приложений Android. Интерфейс программирования приложений Android (API) - это набор интерфейсов Android Platform, подвергшихся воздействию приложений, работающих в управляемой среде времени выполнения.

Реализации устройства:

  • [C-0-1] должны предоставить полные реализации, включая все документированные поведения, любого документированного API, обнародованного Android SDK или любым API, украшенным маркером «@systemapi» в исходном коде Android вверх по течению.

  • [C-0-2] должен поддерживать/сохранить все классы, методы и связанные элементы, отмеченные аннотацией Testapi (@Testapi).

  • [C-0-3] не должны опускаться какими-либо управляемыми API, изменять интерфейсы API или подписи, отклоняться от документированного поведения или включать в себя NO-OPS, за исключением случаев, которые конкретно разрешены этим определением совместимости.

  • [C-0-4] все равно должен сохранять присутствие API и вести себя разумно, даже если некоторые аппаратные функции, для которых Android включает в себя API, опущены. См. Раздел 7 для конкретных требований для этого сценария.

  • [C-0-5] не должны разрешать сторонним приложениям использовать не-SDK-интерфейсы, которые определяются как методы и поля в языковых пакетах Java, которые находятся в группе Boot Class в AOSP и не являются частью части Public SDK. Это включает в себя API, украшенные аннотацией @hide , но не с помощью @SystemAPI , как описано в документах SDK и частных членах класса Package и Package Private.

  • [C-0-6] должен поставлять с каждым не SDK-интерфейсом в одних и тех же ограниченных списках, которые предоставляются через предварительные и отрицательные флаги в prebuilts/runtime/appcompat/hiddenapi-flags.csv AOSP.

  • [C-0-7] должен поддерживать подписанный механизм динамического обновления конфигурации для удаления не-SDK-интерфейсов из ограниченного списка путем внедрения подписанной конфигурации в любой APK, используя существующие общедоступные ключи, присутствующие в AOSP.

    Однако они:

    • Может, если скрытый API отсутствует или реализуется по -разному в реализации устройства, переместите скрытый API в отрицатель или пропустите его из всех ограниченных списков.
    • Может, если скрытый API еще не существует в AOSP, добавьте скрытый API в любой из ограниченных списков.

3.1.1. Android расширения

Android поддерживает расширение управляемой поверхности API определенного уровня API, обновляя удлинительную версию для этого уровня API. API android.os.ext.SdkExtensions.getExtensionVersion(int apiLevel) возвращает расширную версию предоставленного apiLevel , если есть расширения для этого уровня API.

Реализации устройств Android:

  • [C-0-1] должен предварительно загружать реализацию AOSP как общей библиотеки, так и услуг ExtShared ExtServices с версиями, превышающими или равны минимальным версиям, разрешенным для каждого уровня API. Например, реализации устройств Android 7.0, запуск уровня API 24 должен включать в себя хотя бы версию 1.

  • [C-0-2] должен вернуть только допустимый номер версии расширения, который был определен AOSP.

  • [C-0-3] должны поддерживать все API, определенные в версиях расширения, возвращаемых android.os.ext.SdkExtensions.getExtensionVersion(int apiLevel) так же, как и другие управляемые API, следуя требованиям в разделе 3.1 .

3.1.2. Библиотека Android

Из -за Apache HTTP Client Demercation , реализации устройств:

  • [C-0-1] не должен размещать библиотеку org.apache.http.legacy в Bootclasspath.
  • [C-0-2] Должен добавить библиотеку org.apache.http.legacy в приложение Classpath только тогда, когда приложение удовлетворяет одному из следующих условий:
    • Цели API Уровень 28 или ниже.
    • В своем манифесте заявляет, что ей нужна библиотека, установив атрибут android:name <uses-library> to org.apache.http.legacy .

Реализация AOSP соответствует этим требованиям.

3.2. Совместимость с программным API

В дополнение к управляемым API-интерфейсам из Раздела 3.1 Android также включает в себя значительный «мягкий» API только для выполнения в виде таких вещей, как намерения, разрешения и аналогичные аспекты приложений Android, которые не могут быть применены во время компиляции приложения.

3.2.1. Разрешения

  • [C-0-1] Реалеры устройства должны поддерживать и обеспечивать соблюдение всех констант разрешений, как задокументировано на справочной странице разрешения . Обратите внимание, что в разделе 9 перечислены дополнительные требования, связанные с моделью безопасности Android.

3.2.2. Построить параметры

API -интерфейсы Android включают в себя ряд констант на классе Android.os.Build , которые предназначены для описания текущего устройства.

  • [C-0-1] Для обеспечения последовательных, значимых значений в реализациях устройств приведенная ниже таблица включает дополнительные ограничения на форматы этих значений, которым должны соответствовать реализации устройства.
Параметр Подробности
Версия Версия системы Android в настоящее время в настоящее время в формате, читаемом человеком. В этом поле должно быть одно из строковых значений, определенных в разрешенных строках версий для Android 13 .
Версия.sdk Версия системы Android в настоящее время в настоящее время в формате, доступном для стороннего кода приложения. Для Android 13 это поле должно иметь целочисленное значение 13_int.
Версия.sdk_int Версия системы Android в настоящее время в настоящее время в формате, доступном для стороннего кода приложения. Для Android 13 это поле должно иметь целочисленное значение 13_int.
Версия.incremental Значение, выбранное реализатором устройства, определяющего конкретную сборку в настоящее время эксплуатационной системы Android, в формате, читаемом человеком. Это значение не должно быть повторно использовано для различных сборок, доступных для конечных пользователей. Типичное использование этого поля заключается в том, чтобы указать, какой номер сборки или идентификатор изменения источника использовался для создания сборки. Значение этого поля должно быть кодируемо как 7-битный ASCII для печати и соответствовать регулярному выражению «^ [^: \/~]+$».
ДОСКА Значение, выбранное реализатором устройства, определяющее конкретное внутреннее оборудование, используемое устройством, в формате читаемого человека. Возможное использование этого поля заключается в том, чтобы указать конкретный пересмотр платы, включающего устройство. Значение этого поля должно быть кодируемо как 7-битный ASCII и соответствовать регулярному выражению «^[a-za-z0-9 _-]+$».
БРЕНД Значение, отражающее название бренда, связанное с устройством, как известное конечным пользователям. Должен быть в формате, читаемом человеком и должен представлять производителя устройства или бренда компании, при котором устройство продается. Значение этого поля должно быть кодируемо как 7-битный ASCII и соответствовать регулярному выражению «^[a-za-z0-9 _-]+$».
Поддержанный_абис Имя набора инструкций (тип процессора + соглашение ABI) нативного кода. См . Раздел 3.3. Нативная совместимость API .
Поддержанный_32_BIT_ABIS Имя набора инструкций (тип процессора + соглашение ABI) нативного кода. См . Раздел 3.3. Нативная совместимость API .
Поддержанный_64_BIT_ABIS Имя второго набора инструкций (тип процессора + соглашение ABI) нативного кода. См . Раздел 3.3. Нативная совместимость API .
CPU_ABI Имя набора инструкций (тип процессора + соглашение ABI) нативного кода. См . Раздел 3.3. Нативная совместимость API .
CPU_ABI2 Имя второго набора инструкций (тип процессора + соглашение ABI) нативного кода. См . Раздел 3.3. Нативная совместимость API .
УСТРОЙСТВО Значение, выбранное реализатором устройства, содержащим имя разработки или кодовое имя, определяющее конфигурацию аппаратных функций и промышленного проектирования устройства. Значение этого поля должно быть кодируемо как 7-битный ASCII и соответствовать регулярному выражению «^[a-za-z0-9 _-]+$». Это имя устройства не должно меняться в течение срока службы продукта.
ОТПЕЧАТКИ ПАЛЬЦЕВ Строка, которая уникально идентифицирует эту сборку. Это должно быть достаточно человеко читаемым. Он должен следовать этому шаблону:

$ (Бренд)/$ (продукт)/
$ (Устройство): $ (version.release)/$ (id)/$ (version.incremental): $ (type)/$ (теги)

Например:

acme/myproduct/
MyDevice: 13/LMYXX/3359: userDebug/test-keys

Отпечаток пальца не должен включать в себя персонажи пробелов. Значение этого поля должно быть кодируемо как 7-битный ASCII.

АППАРАТНОЕ ОБЕСПЕЧЕНИЕ Имя оборудования (из командной строки ядра или /proc). Это должно быть достаточно человеко читаемым. Значение этого поля должно быть кодируемо как 7-битный ASCII и соответствовать регулярному выражению «^[a-za-z0-9 _-]+$».
ХОЗЯИН Строка, которая уникально идентифицирует хост, на котором была построена сборка, в читаемом человеческом формате. Нет никаких требований к конкретному формату этого поля, за исключением того, что он не должен быть нулевой или пустой строкой ("").
ИДЕНТИФИКАТОР Идентификатор, выбранный реализатором устройства для обозначения конкретного выпуска, в читаемой человеке формате. Это поле может быть таким же, как Android.os.build.version.incremental, но должно иметь значение, достаточно значимое для конечных пользователей, чтобы различать сборки программного обеспечения. Значение этого поля должно быть кодируемо как 7-битный ASCII и соответствовать регулярному выражению «^[a-za-z0-9 ._-]+$».
ПРОИЗВОДИТЕЛЬ Торговое название производителя оригинального оборудования (OEM) продукта. Нет никаких требований к конкретному формату этого поля, за исключением того, что он не должен быть нулевой или пустой строкой (""). Это поле не должно меняться в течение жизни продукта.
Soc_manufacturer Торговля имени производителя первичной системы на чипе (SOC), используемой в продукте. Устройства с тем же производителем SOC должны использовать одинаковое постоянное значение. Пожалуйста, попросите производителя SOC для правильной константы. Значение этого поля должно быть кодируемо как 7-битный ASCII, должно соответствовать регулярному выражению «^([0-9A-Za-Z]+)», не должно запускаться или заканчиваться пробелом и не должно быть равным « неизвестный". Это поле не должно меняться в течение жизни продукта.
Soc_model Название модели первичной системы на чипе (SOC), используемое в продукте. Устройства с той же моделью SOC должны использовать одинаковое постоянное значение. Пожалуйста, попросите производителя SOC для правильной константы. Значение этого поля должно быть кодируемо как 7-битный ASCII и соответствовать регулярному выражению «^([0-9A-Za-Z ._/+-]+) $», не должно запускаться или заканчиваться пробелом и должен Не быть равным «неизвестным». Это поле не должно меняться в течение жизни продукта.
МОДЕЛЬ Значение, выбранное реализатором устройства, содержащим имя устройства, как известное конечному пользователю. Это должно быть то же имя, под которым устройство продается и продается конечным пользователям. Нет никаких требований к конкретному формату этого поля, за исключением того, что он не должен быть нулевой или пустой строкой (""). Это поле не должно меняться в течение жизни продукта.
ПРОДУКТ Значение, выбранное реализатором устройства, содержащим имя разработки или кодовое имя конкретного продукта (SKU), которое должно быть уникальным в том же бренде. Должен быть читаемым человеком, но не обязательно предназначен для представления конечными пользователями. Значение этого поля должно быть кодируемо как 7-битный ASCII и соответствовать регулярному выражению «^[a-za-z0-9 _-]+$». Это название продукта не должно меняться в течение жизни продукта.
ODM_SKU Необязательное значение, выбранное реализатором устройства, которое содержит SKU (блок сохранения акций), используемый для отслеживания конкретных конфигураций устройства, например, любые периферийные устройства, включенные в устройство при продаже. Значение этого поля должно быть кодируемо как 7-битный ASCII и соответствовать регулярному выражению ^([0-9A-Za-z.,_-]+)$ .
СЕРИАЛ Должен вернуть «неизвестный».
ТЕГИ Разделенный запятой список тегов, выбранных реализатором устройства, который еще больше различает сборку. Теги должны быть кодируются как 7-битный ASCII и соответствовать регулярному выражению «^[a-za-z0-9 ._-]+» и должны иметь одно из значений, соответствующих трем типичным конфигурациям подписания платформы Android: выпуск- Ключи, Dev-Keys и Test-Keys.
ВРЕМЯ Значение, представляющее временную метку, когда произошла сборка.
ТИП Значение, выбранное реализатором устройства, указывающим конфигурацию времени выполнения сборки. В этом поле должно быть одно из значений, соответствующих трем типичным конфигурациям времени выполнения Android: Пользователь, пользователь, или ENG.
ПОЛЬЗОВАТЕЛЬ Имя или идентификатор пользователя пользователя (или автоматизированного пользователя), который сгенерировал сборку. Нет никаких требований к конкретному формату этого поля, за исключением того, что он не должен быть нулевой или пустой строкой ("").
Security_Patch Значение, указывающее уровень патча безопасности сборки. Это должно означать, что сборка ни в коем случае не уязвима ни к одной из вопросов, описанных через обозначенный бюллетень Android Public Security. Он должен быть в формате [yyyy-mm-dd], соответствующий определенной строке, документированной в бюллетене Android Public Security или в Android Security Advisory , например «2015-11-01».
Base_os Значение, представляющее параметр отпечатка пальца сборки, которая в противном случае идентична этой сборке, за исключением исправлений, представленных в бюллетене Android Public Security. Он должен сообщить о правильном значении, и если такой сборки не существует, сообщите о пустой строке ("").
Загрузчик Значение, выбранное реализатором устройства, определяющее конкретную версию внутреннего загрузчика, используемой в устройстве, в формате читаемого человека. Значение этого поля должно быть кодируемо как 7-битный ASCII и соответствовать регулярному выражению «^[a-za-z0-9 ._-]+$».
getradioversion () Должен (быть или вернуть) значение, выбранное реализатором устройства, определяющим конкретную внутреннюю версию радио/модем, используемой в устройстве, в формате читаемого человека. Если у устройства нет внутреннего радио/модемного модем, оно должно вернуть NULL. Значение этого поля должно быть кодируемо как 7-битный ASCII и соответствовать регулярному выражению «^[a-za-z0-9 ._-,]+$».
getSerial () Должен (быть или вернуть) аппаратный серийный номер, который должен быть доступен и уникален на разных устройствах с той же моделью и производителем. Значение этого поля должно быть кодируемо как 7-битный ASCII и соответствовать регулярному выражению «^[a-za-z0-9]+$».

3.2.3. Совместимость намерений

3.2.3.1. Общее применение намерения

Android Intent позволяет компонентам приложения запросить функциональность у других компонентов Android. Проект Android Upstream включает в себя список приложений, которые реализуют несколько шаблонов намерений для выполнения общих действий.

Реализации устройства:

  • [C-SR-1] настоятельно рекомендуется предварительно загружать одно или несколько приложений или компонентов обслуживания с обработчиком намерений, для всех моделей фильтра общественного фильтра, определенных следующими намерениями приложения, перечисленными здесь, и обеспечить выполнение, т.е. Общие намерения применения, как описано в SDK.

Пожалуйста, обратитесь к разделу 2 для обязательного применения для каждого типа устройства.

3.2.3.2. Разрешение намерений
  • [C-0-1] Поскольку Android является расширяемой платформой, реализации устройств должны разрешать каждому шаблону намерения, на которые ссылается в разделе 3.2.3.1 , за исключением настройки, быть переопределенными сторонними приложениями. Реализация с открытым исходным кодом Android Android позволяет по умолчанию.

  • [C-0-2] Реалеры устройства не должны прикреплять особые привилегии к использованию системных приложений этих моделей намерений или предотвращать привязанность сторонних приложений и предполагать контроль этих моделей. Этот запрет, в частности, включает, но не ограничивается отключением пользовательского интерфейса «Chooser», который позволяет пользователю выбирать между несколькими приложениями, которые обрабатывают один и тот же шаблон намерения.

  • [C-0-3] Реализации устройств должны предоставить пользовательскому интерфейсу для пользователей для изменения действия по умолчанию для намерений.

  • Тем не менее, реализации устройств могут предоставлять действия по умолчанию для конкретных шаблонов URI (например, http://play.google.com), когда действие по умолчанию обеспечивает более конкретный атрибут для URI Data. Например, шаблон фильтра намерения, с указанием URI DATA «http://www.android.com», является более конкретной, чем шаблон ядра браузера для «http: //».

Android также включает в себя механизм для сторонних приложений, чтобы объявить авторитетное приложение по умолчанию, связывающее поведение для определенных типов веб-URI. Когда такие авторитетные объявления определяются в шаблонах фильтра приложения, реализации устройств:

  • [C-0-4] должен попытаться проверить любые фильтры намерения, выполнив шаги проверки, определенные в спецификации цифровых активов , в соответствии с помощью менеджера пакетов в проекте с открытым исходным кодом Android Android.
  • [C-0-5] должен попытаться подтвердить фильтры намерения во время установки приложения и установить все успешно проверенные фильтры URI намерения в качестве обработчиков приложений по умолчанию для своих URI.
  • Может установить конкретные фильтры URI намерения в качестве обработчиков приложений по умолчанию для своих URI, если они успешно проверены, но другие кандидаты URI фильтры проваливают проверку. Если реализация устройства делает это, оно должно предоставить пользователю соответствующие переоценки шаблона в URI в меню «Настройки».
  • Должен предоставить пользователю элементы управления приложениями в приложении в настройках следующим образом:
    • [C-0-6] Пользователь должен иметь возможность целостно переопределить приложение по умолчанию, связывает поведение для приложения: всегда открывать, всегда спрашивать или никогда не открывать, что должно применяться ко всем кандидатным фильтрам намерения URI одинаково.
    • [C-0-7] Пользователь должен иметь возможность увидеть список фильтров кандидата URI.
    • Реализация устройства может предоставить пользователю возможность переопределить конкретные фильтры для намерения кандидата, которые были успешно проверены, на основе фильтра для каждого.
    • [C-0-8] Реализация устройства должна предоставить пользователям возможность просматривать и переопределять отдельные фильтры намерения кандидата, если реализация устройства позволяет некоторым кандидатам на намерения URI добиться проверки, в то время как некоторые другие могут потерпеть неудачу.
3.2.3.3. Промыслы имен намерений
  • [C-0-1] Device implementations MUST NOT include any Android component that honors any new intent or broadcast intent patterns using an ACTION, CATEGORY, or other key string in the android.* or com.android.* namespace.
  • [C-0-2] Device implementers MUST NOT include any Android components that honor any new intent or broadcast intent patterns using an ACTION, CATEGORY, or other key string in a package space belonging to another organization.
  • [C-0-3] Device implementers MUST NOT alter or extend any of the intent patterns listed in section 3.2.3.1 .
  • Device implementations MAY include intent patterns using namespaces clearly and obviously associated with their own organization. This prohibition is analogous to that specified for Java language classes in section 3.6 .
3.2.3.4. Broadcast Intents

Third-party applications rely on the platform to broadcast certain intents to notify them of changes in the hardware or software environment.

Реализации устройства:

  • [C-0-1] MUST broadcast the public broadcast intents listed here in response to appropriate system events as described in the SDK documentation. Note that this requirement is not conflicting with section 3.5 as the limitation for background applications are also described in the SDK documentation. Also certain broadcast intents are conditional upon hardware support, if the device supports the necessary hardware they MUST broadcast the intents and provide the behavior inline with SDK documentation.
3.2.3.5. Условные намерения приложения

Android includes settings that provide users an easy way to select their default applications, for example for Home screen or SMS.

Where it makes sense, device implementations MUST provide a similar settings menu and be compatible with the intent filter pattern and API methods described in the SDK documentation as below.

If device implementations report android.software.home_screen , they:

If device implementations report android.hardware.telephony.calling, they:

If device implementations report android.hardware.nfc.hce , they:

If device implementations report android.hardware.nfc , they:

If device implementations report android.hardware.bluetooth , they:

If device implementations support the DND feature, they:

  • [C-6-1] MUST implement an activity that would respond to the intent ACTION_NOTIFICATION_POLICY_ACCESS_SETTINGS , which for implementations with UI_MODE_TYPE_NORMAL it MUST be an activity where the user can grant or deny the app access to DND policy configurations.

If device implementations allow users to use third-party input methods on the device, they:

If device implementations support third-party accessibility services, they:

  • [C-8-1] MUST honor the android.settings.ACCESSIBILITY_SETTINGS intent to provide a user-accessible mechanism to enable and disable the third-party accessibility services alongside the preloaded accessibility services.

If device implementations include support for Wi-Fi Easy Connect and expose the functionality to third-party apps, they:

If device implementations provide the data saver mode, they:

If device implementations do not provide the data saver mode, they:

If device implementations declare support for the camera via android.hardware.camera.any , they:

If device implementations report android.software.device_admin , they:

If device implementations declare the android.software.autofill feature flag, they:

If device implementations include a pre-installed app or wish to allow third-party apps to access the usage statistics, they:

  • [C-SR-2] are STRONGLY RECOMMENDED provide user-accessible mechanism to grant or revoke access to the usage stats in response to the android.settings.ACTION_USAGE_ACCESS_SETTINGS intent for apps that declare the android.permission.PACKAGE_USAGE_STATS permission.

If device implementations intend to disallow any apps, including pre-installed apps, from accessing the usage statistics, they:

  • [C-15-1] MUST still have an activity that handles the android.settings.ACTION_USAGE_ACCESS_SETTINGS intent pattern but MUST implement it as a no-op, that is to have an equivalent behavior as when the user is declined for access.

If device implementations surface links to the activities specified by AutofillService_passwordsActivity in Settings or links to user passwords through a similar mechanism, they:

  • [C-16-1] MUST surface such links for all installed autofill services.

  • [C-17-1] [Moved to 2.2.3]

If device implementations support the VoiceInteractionService and have more than one application using this API installed at a time, they:

If device implementations report the feature android.hardware.audio.output , they:

  • [C-SR-3] Are STRONGLY RECOMMENDED to honor android.intent.action.TTS_SERVICE, android.speech.tts.engine.INSTALL_TTS_DATA & android.speech.tts.engine.GET_SAMPLE_TEXT intents have an activity to provide fulfillment for these intents as described in SDK here .

Android includes support for interactive screensavers, previously referred to as Dreams. Screen Savers allow users to interact with applications when a device connected to a power source is idle or docked in a desk dock. Device Implementations:

  • SHOULD include support for screen savers and provide a settings option for users to configure screen savers in response to the android.settings.DREAM_SETTINGS intent.

3.2.4. Activities on secondary/multiple displays

If device implementations allow launching normal Android Activities on more than one display, they:

  • [C-1-1] MUST set the android.software.activities_on_secondary_displays feature flag.
  • [C-1-2] MUST guarantee API compatibility similar to an activity running on the primary display.
  • [C-1-3] MUST land the new activity on the same display as the activity that launched it, when the new activity is launched without specifying a target display via the ActivityOptions.setLaunchDisplayId() API.
  • [C-1-4] MUST destroy all activities, when a display with the Display.FLAG_PRIVATE flag is removed.
  • [C-1-5] MUST securely hide content on all screens when the device is locked with a secure lock screen, unless the app opts in to show on top of lock screen using Activity#setShowWhenLocked() API.
  • SHOULD have android.content.res.Configuration which corresponds to that display in order to be displayed, operate correctly, and maintain compatibility if an activity is launched on secondary display.

If device implementations allow launching normal Android Activities on secondary displays and a secondary display has the android.view.Display.FLAG_PRIVATE flag:

  • [C-3-1] Only the owner of that display, system, and activities that are already on that display MUST be able to launch to it. Everyone can launch to a display that has android.view.Display.FLAG_PUBLIC flag.

3.3. Native API Compatibility

Native code compatibility is challenging. For this reason, device implementers are:

  • [C-SR-1] STRONGLY RECOMMENDED to use the implementations of the libraries listed below from the upstream Android Open Source Project.

3.3.1. Application Binary Interfaces

Managed Dalvik bytecode can call into native code provided in the application .apk file as an ELF .so file compiled for the appropriate device hardware architecture. As native code is highly dependent on the underlying processor technology, Android defines a number of Application Binary Interfaces (ABIs) in the Android NDK.

Реализации устройства:

  • [C-0-1] MUST be compatible with one or more defined Android NDK ABIs .
  • [C-0-2] MUST include support for code running in the managed environment to call into native code, using the standard Java Native Interface (JNI) semantics.
  • [C-0-3] MUST be source-compatible (ie header-compatible) and binary-compatible (for the ABI) with each required library in the list below.
  • [C-0-5] MUST accurately report the native Application Binary Interface (ABI) supported by the device, via the android.os.Build.SUPPORTED_ABIS , android.os.Build.SUPPORTED_32_BIT_ABIS , and android.os.Build.SUPPORTED_64_BIT_ABIS parameters, each a comma separated list of ABIs ordered from the most to the least preferred one.
  • [C-0-6] MUST report, via the above parameters, a subset of the following list of ABIs and MUST NOT report any ABI not on the list.

  • [C-0-7] MUST make all the following libraries, providing native APIs, available to apps that include native code:

    • libaaudio.so (AAudio native audio support)
    • libamidi.so (native MIDI support, if feature android.software.midi is claimed as described in Section 5.9)
    • libandroid.so (native Android activity support)
    • libc (C library)
    • libcamera2ndk.so
    • libdl (dynamic linker)
    • libEGL.so (native OpenGL surface management)
    • libGLESv1_CM.so (OpenGL ES 1.x)
    • libGLESv2.so (OpenGL ES 2.0)
    • libGLESv3.so (OpenGL ES 3.x)
    • libicui18n.so
    • libicuuc.so
    • libjnigraphics.so
    • liblog (Android logging)
    • libmediandk.so (native media APIs support)
    • libm (math library)
    • libneuralnetworks.so (Neural Networks API)
    • libOpenMAXAL.so (OpenMAX AL 1.0.1 support)
    • libOpenSLES.so (OpenSL ES 1.0.1 audio support)
    • libRS.so
    • libstdc++ (Minimal support for C++)
    • libvulkan.so (Vulkan)
    • libz (Zlib compression)
    • JNI interface
  • [C-0-8] MUST NOT add or remove the public functions for the native libraries listed above.

  • [C-0-9] MUST list additional non-AOSP libraries exposed directly to third-party apps in /vendor/etc/public.libraries.txt .

  • [C-0-10] MUST NOT expose any other native libraries, implemented and provided in AOSP as system libraries, to third-party apps targeting API level 24 or higher as they are reserved.

  • [C-0-11] MUST export all the OpenGL ES 3.1 and Android Extension Pack function symbols, as defined in the NDK, through the libGLESv3.so library. Note that while all the symbols MUST be present, section 7.1.4.1 describes in more detail the requirements for when the full implementation of each corresponding functions are expected.

  • [C-0-12] MUST export function symbols for the core Vulkan 1.0 function symbols, as well as the VK_KHR_surface , VK_KHR_android_surface , VK_KHR_swapchain , VK_KHR_maintenance1 , and VK_KHR_get_physical_device_properties2 extensions through the libvulkan.so library. Note that while all the symbols MUST be present, section 7.1.4.2 describes in more detail the requirements for when the full implementation of each corresponding functions are expected.

  • SHOULD be built using the source code and header files available in the upstream Android Open Source Project

Note that future releases of Android may introduce support for additional ABIs.

3.3.2. 32-bit ARM Native Code Compatibility

If device implementations report the support of the armeabi ABI, they:

  • [C-3-1] MUST also support armeabi-v7a and report its support, as armeabi is only for backwards compatibility with older apps.

If device implementations report the support of the armeabi-v7a ABI, for apps using this ABI, they:

  • [C-2-1] MUST include the following lines in /proc/cpuinfo , and SHOULD NOT alter the values on the same device, even when they are read by other ABIs.

    • Features: , followed by a list of any optional ARMv7 CPU features supported by the device.
    • CPU architecture: , followed by an integer describing the device's highest supported ARM architecture (eg, "8" for ARMv8 devices).
  • [C-2-2] MUST always keep the following operations available, even in the case where the ABI is implemented on an ARMv8 architecture, either through native CPU support or through software emulation:

    • SWP and SWPB instructions.
    • CP15ISB, CP15DSB, and CP15DMB barrier operations.
  • [C-2-3] MUST include support for the Advanced SIMD (aka NEON) extension.

3.4. Web Compatibility

3.4.1. WebView Compatibility

If device implementations provide a complete implementation of the android.webkit.Webview API, they:

  • [C-1-1] MUST report android.software.webview .
  • [C-1-2] MUST use the Chromium Project build from the upstream Android Open Source Project on the Android 13 branch for the implementation of the android.webkit.WebView API.
  • [C-1-3] The user agent string reported by the WebView MUST be in this format:

    Mozilla/5.0 (Linux; Android $(VERSION); [$(MODEL)] [Build/$(BUILD)]; wv) AppleWebKit/537.36 (KHTML, like Gecko) Version/4.0 $(CHROMIUM_VER) Mobile Safari/537.36

    • The value of the $(VERSION) string MUST be the same as the value for android.os.Build.VERSION.RELEASE.
    • The $(MODEL) string MAY be empty, but if it is not empty it MUST have the same value as android.os.Build.MODEL.
    • "Build/$(BUILD)" MAY be omitted, but if it is present the $(BUILD) string MUST be the same as the value for android.os.Build.ID.
    • The value of the $(CHROMIUM_VER) string MUST be the version of Chromium in the upstream Android Open Source Project.
    • Device implementations MAY omit Mobile in the user agent string.
  • The WebView component SHOULD include support for as many HTML5 features as possible and if it supports the feature SHOULD conform to the HTML5 specification .

  • [C-1-4] MUST render the provided content or remote URL content in a process that is distinct from the application that instantiates the WebView. Specifically the separate renderer process MUST hold lower privilege, run as a separate user ID, have no access to the app's data directory, have no direct network access, and only have access to the minimum-required system services over Binder. The AOSP implementation of WebView meets this requirement.

Note that if device implementations are 32-bit or declare the feature flag android.hardware.ram.low , they are exempted from C-1-3.

3.4.2. Browser Compatibility

If device implementations include a standalone Browser application for general web browsing, they:

  • [C-1-1] MUST support each of these APIs associated with HTML5:
  • [C-1-2] MUST support the HTML5/W3C webstorage API and SHOULD support the HTML5/W3C IndexedDB API . Note that as the web development standards bodies are transitioning to favor IndexedDB over webstorage, IndexedDB is expected to become a required component in a future version of Android.
  • MAY ship a custom user agent string in the standalone Browser application.
  • SHOULD implement support for as much of HTML5 as possible on the standalone Browser application (whether based on the upstream WebKit Browser application or a third-party replacement).

However, If device implementations do not include a standalone Browser application, they:

  • [C-2-1] MUST still support the public intent patterns as described in section 3.2.3.1 .

3.5. API Behavioral Compatibility

Реализации устройства:

  • [C-0-9] MUST ensure that API behavioral compatibility is applied for all installed apps unless they are restricted as described in Section 3.5.1 .
  • [C-0-10] MUST NOT implement the allowlisting approach that ensures API behavioral compatibility only for apps that are selected by device implementers.

The behaviors of each of the API types (managed, soft, native, and web) must be consistent with the preferred implementation of the upstream Android Open Source Project . Some specific areas of compatibility are:

  • [C-0-1] Devices MUST NOT change the behavior or semantics of a standard intent.
  • [C-0-2] Devices MUST NOT alter the lifecycle or lifecycle semantics of a particular type of system component (such as Service, Activity, ContentProvider, etc.).
  • [C-0-3] Devices MUST NOT change the semantics of a standard permission.
  • Devices MUST NOT alter the limitations enforced on background applications. More specifically, for background apps:
    • [C-0-4] they MUST stop executing callbacks that are registered by the app to receive outputs from the GnssMeasurement and GnssNavigationMessage .
    • [C-0-5] they MUST rate-limit the frequency of updates that are provided to the app through the LocationManager API class or the WifiManager.startScan() method.
    • [C-0-6] if the app is targeting API level 25 or higher, they MUST NOT allow to register broadcast receivers for the implicit broadcasts of standard Android intents in the app's manifest, unless the broadcast intent requires a "signature" or "signatureOrSystem" protectionLevel permission or are on the exemption list .
    • [C-0-7] if the app is targeting API level 25 or higher, they MUST stop the app's background services, just as if the app had called the services' stopSelf() method, unless the app is placed on a temporary allowlist to handle a task that's visible to the user.
    • [C-0-8] if the app is targeting API level 25 or higher, they MUST release the wakelocks the app holds.
  • [C-0-11] Devices MUST return the following security providers as the first seven array values from the Security.getProviders() method, in the given order and with the given names (as returned by Provider.getName() ) and classes, unless the app has modified the list via insertProviderAt() or removeProvider() . Devices MAY return additional providers after the specified list of providers below.
    1. AndroidNSSP - android.security.net.config.NetworkSecurityConfigProvider
    2. AndroidOpenSSL - com.android.org.conscrypt.OpenSSLProvider
    3. CertPathProvider - sun.security.provider.CertPathProvider
    4. AndroidKeyStoreBCWorkaround - android.security.keystore.AndroidKeyStoreBCWorkaroundProvider
    5. BC - com.android.org.bouncycastle.jce.provider.BouncyCastleProvider
    6. HarmonyJSSE - com.android.org.conscrypt.JSSEProvider
    7. AndroidKeyStore - android.security.keystore.AndroidKeyStoreProvider

The above list is not comprehensive. The Compatibility Test Suite (CTS) tests significant portions of the platform for behavioral compatibility, but not all. It is the responsibility of the implementer to ensure behavioral compatibility with the Android Open Source Project. For this reason, device implementers SHOULD use the source code available via the Android Open Source Project where possible, rather than re-implement significant parts of the system.

3.5.1. Application Restriction

If device implementations implement a proprietary mechanism to restrict apps (eg changing or restricting API behaviors that are described in the SDK) and that mechanism is more restrictive than the Restricted App Standby Bucket , they:

  • [C-1-1] MUST allow the user to see the list of restricted apps.
  • [C-1-2] MUST provide user affordance to turn on / off all of these proprietary restrictions on each app.
  • [C-1-3] MUST not automatically apply these proprietary restrictions without evidence of poor system health behavior, but MAY apply the restrictions on apps upon detection of poor system health behavior like stuck wakelocks, long running services, and other criteria. The criteria MAY be determined by device implementers but MUST be related to the app's impact on the system health. Other criteria that are not purely related to the system health, such as the app's lack of popularity in the market, MUST NOT be used as criteria.

  • [C-1-4] MUST not automatically apply these proprietary restrictions for apps when a user has turned off app restrictions manually, and MAY suggest the user to apply these proprietary restrictions.

  • [C-1-5] MUST inform users if these proprietary restrictions are applied to an app automatically. Such information MUST be provided in the 24-hour period preceding the application of these proprietary restrictions.

  • [C-1-6] MUST return true for the ActivityManager.isBackgroundRestricted() method for any API calls from an app.

  • [C-1-7] MUST NOT restrict the top foreground app that is explicitly used by the user.

  • [C-1-8] MUST suspend these proprietary restrictions on an app whenever a user starts to explicitly use the app, making it the top foreground application.

  • [C-1-10] MUST provide a public and clear document or website that describes how proprietary restrictions are applied. This document or website MUST be linkable from the Android SDK documents and MUST include:

    • Triggering conditions for proprietary restrictions.
    • What and how an app can be restricted.
    • How an app can be exempted from such restrictions.
    • How an app can request an exemption from proprietary restrictions, if they support such an exemption for apps the user can install.

If an app is pre-installed on the device and has never been explicitly used by a user for more than 30 days, [C-1-3] [C-1-5] are exempted.

If device implementations extend the app restrictions that are implemented in AOSP, they:

  • [C-2-1]MUST follow the implementation described in this document .

3.5.2. Application Hibernation

If device implementations include App Hibernation that is included in AOSP or extends the feature that is included in AOSP, then they:

  • [C-1-1] MUST meet all the requirements in section 3.5.1 except for [C-1-6] and [C-1-3].
  • [C-1-2] MUST only apply the restriction on the app for a user when there is evidence that the user has not used the app for some period of time. This duration is STRONGLY RECOMMENDED to be one month or longer. Usage MUST be defined by either explicit user interaction via the UsageStats#getLastTimeVisible() API or anything that would cause an app to leave the force-stopped state, including service bindings, content provider bindings, explicit broadcasts, etc., which will be tracked by a new API UsageStats#getLastTimeAnyComponentUsed().
  • [C-1-3] MUST only apply restrictions affecting all device users when there is evidence that the package has not been used by ANY user for some period of time. This duration is STRONGLY RECOMMENDED to be one month or longer.
  • [C-1-4] MUST NOT render the app unable to respond to activity intents, service bindings, content provider requests, or explicit broadcasts.

App Hibernation in AOSP meets the above requirements.

3.6. API Namespaces

Android follows the package and class namespace conventions defined by the Java programming language. To ensure compatibility with third-party applications, device implementers MUST NOT make any prohibited modifications (see below) to these package namespaces:

  • java.*
  • javax.*
  • sun.*
  • android.*
  • androidx.*
  • com.android.*

That is, they:

  • [C-0-1] MUST NOT modify the publicly exposed APIs on the Android platform by changing any method or class signatures, or by removing classes or class fields.
  • [C-0-2] MUST NOT add any publicly exposed elements (such as classes or interfaces, or fields or methods to existing classes or interfaces) or Test or System APIs to the APIs in the above namespaces. A "publicly exposed element" is any construct that is not decorated with the "@hide" marker as used in the upstream Android source code.

Device implementers MAY modify the underlying implementation of the APIs, but such modifications:

  • [C-0-3] MUST NOT impact the stated behavior and Java-language signature of any publicly exposed APIs.
  • [C-0-4] MUST NOT be advertised or otherwise exposed to developers.

However, device implementers MAY add custom APIs outside the standard Android namespace, but the custom APIs:

  • [C-0-5] MUST NOT be in a namespace owned by or referring to another organization. For instance, device implementers MUST NOT add APIs to the com.google.* or similar namespace: only Google may do so. Similarly, Google MUST NOT add APIs to other companies' namespaces.
  • [C-0-6] MUST be packaged in an Android shared library so that only apps that explicitly use them (via the <uses-library> mechanism) are affected by the increased memory usage of such APIs.

Device implementers MAY add custom APIs in native languages, outside of the NDK APIs, but the custom APIs:

  • [C-1-1] MUST NOT be in a NDK library or a library owned by another organization as described here .

If a device implementer proposes to improve one of the package namespaces above (such as by adding useful new functionality to an existing API, or adding a new API), the implementer SHOULD visit source.android.com and begin the process for contributing changes and code, according to the information on that site.

Note that the restrictions above correspond to standard conventions for naming APIs in the Java programming language; this section simply aims to reinforce those conventions and make them binding through inclusion in this Compatibility Definition.

3.7. Runtime Compatibility

Реализации устройства:

  • [C-0-1] MUST support the full Dalvik Executable (DEX) format and Dalvik bytecode specification and semantics .

  • [C-0-2] MUST configure Dalvik runtimes to allocate memory in accordance with the upstream Android platform, and as specified by the following table. (See section 7.1.1 for screen size and screen density definitions.)

  • SHOULD use Android RunTime (ART), the reference upstream implementation of the Dalvik Executable Format, and the reference implementation's package management system.

  • SHOULD run fuzz tests under various modes of execution and target architectures to assure the stability of the runtime. Refer to JFuzz and DexFuzz in the Android Open Source Project website.

Note that memory values specified below are considered minimum values and device implementations MAY allocate more memory per application.

Screen Layout Screen Density Minimum Application Memory
Android Watch 120 dpi (ldpi) 32 МБ
140 dpi (140dpi)
160 dpi (mdpi)
180 dpi (180dpi)
200 dpi (200dpi)
213 dpi (tvdpi)
220 dpi (220dpi) 36 МБ
240 dpi (hdpi)
280 dpi (280dpi)
320 dpi (xhdpi) 48 МБ
360 dpi (360dpi)
400 dpi (400dpi) 56MB
420 dpi (420dpi) 64MB
480 dpi (xxhdpi) 88MB
560 dpi (560dpi) 112MB
640 dpi (xxxhdpi) 154 МБ
small/normal 120 dpi (ldpi) 32 МБ
140 dpi (140dpi)
160 dpi (mdpi)
180 dpi (180dpi) 48 МБ
200 dpi (200dpi)
213 dpi (tvdpi)
220 dpi (220dpi)
240 dpi (hdpi)
280 dpi (280dpi)
320 dpi (xhdpi) 80MB
360 dpi (360dpi)
400 dpi (400dpi) 96 МБ
420 dpi (420dpi) 112MB
480 dpi (xxhdpi) 128MB
560 dpi (560dpi) 192MB
640 dpi (xxxhdpi) 256 МБ
большой 120 dpi (ldpi) 32 МБ
140 dpi (140dpi) 48 МБ
160 dpi (mdpi)
180 dpi (180dpi) 80MB
200 dpi (200dpi)
213 dpi (tvdpi)
220 dpi (220dpi)
240 dpi (hdpi)
280 dpi (280dpi) 96 МБ
320 dpi (xhdpi) 128MB
360 dpi (360dpi) 160 МБ
400 dpi (400dpi) 192MB
420 dpi (420dpi) 228MB
480 dpi (xxhdpi) 256 МБ
560 dpi (560dpi) 384MB
640 dpi (xxxhdpi) 512 МБ
большой 120 dpi (ldpi) 48 МБ
140 dpi (140dpi) 80MB
160 dpi (mdpi)
180 dpi (180dpi) 96 МБ
200 dpi (200dpi)
213 dpi (tvdpi)
220 dpi (220dpi)
240 dpi (hdpi)
280 dpi (280dpi) 144MB
320 dpi (xhdpi) 192MB
360 dpi (360dpi) 240 МБ
400 dpi (400dpi) 288MB
420 dpi (420dpi) 336MB
480 dpi (xxhdpi) 384MB
560 dpi (560dpi) 576MB
640 dpi (xxxhdpi) 768MB

3.8. Совместимость пользовательского интерфейса

3.8.1. Launcher (Home Screen)

Android includes a launcher application (home screen) and support for third-party applications to replace the device launcher (home screen).

If device implementations allow third-party applications to replace the device home screen, they:

  • [C-1-1] MUST declare the platform feature android.software.home_screen .
  • [C-1-2] MUST return the AdaptiveIconDrawable object when the third-party application use <adaptive-icon> tag to provide their icon, and the PackageManager methods to retrieve icons are called.

If device implementations include a default launcher that supports in-app pinning of shortcuts, they:

Conversely, if device implementations do not support in-app pinning of shortcuts, they:

If device implementations implement a default launcher that provides quick access to the additional shortcuts provided by third-party apps through the ShortcutManager API, they:

  • [C-4-1] MUST support all documented shortcut features (eg static and dynamic shortcuts, pinning shortcuts) and fully implement the APIs of the ShortcutManager API class.

If device implementations include a default launcher app that shows badges for the app icons, they:

  • [C-5-1] MUST respect the NotificationChannel.setShowBadge() API method. In other words, show a visual affordance associated with the app icon if the value is set as true , and do not show any app icon badging scheme when all of the app's notification channels have set the value as false .
  • MAY override the app icon badges with their proprietary badging scheme when third-party applications indicate support of the proprietary badging scheme through the use of proprietary APIs, but SHOULD use the resources and values provided through the notification badges APIs described in the SDK , such as the Notification.Builder.setNumber() and the Notification.Builder.setBadgeIconType() API.

If device implementations support monochrome icons, these icons:

  • [C-6-1] MUST be used only when a user explicitly enables them (eg via Settings or wallpaper picker menu).

3.8.2. Виджеты

Android supports third-party app widgets by defining a component type and corresponding API and lifecycle that allows applications to expose an “AppWidget” to the end user.

If device implementations support third-party app widgets, they:

  • [C-1-1] MUST declare support for platform feature android.software.app_widgets .
  • [C-1-2] MUST include built-in support for AppWidgets and expose user interface affordances to add, configure, view, and remove AppWidgets.
  • [C-1-3] MUST be capable of rendering widgets that are 4 x 4 in the standard grid size. See the App Widget DesignGuidelines in the Android SDK documentation for details.
  • MAY support application widgets on the lock screen.

If device implementations support third-party app widgets and in-app pinning of shortcuts, they:

3.8.3. Уведомления

Android includes Notification and NotificationManager APIs that allow third-party app developers to notify users of notable events and attract users' attention using the hardware components (eg sound, vibration and light) and software features (eg notification shade, system bar) of the device .

3.8.3.1. Presentation of Notifications

If device implementations allow third-party apps to notify users of notable events , they:

  • [C-1-1] MUST support notifications that use hardware features, as described in the SDK documentation, and to the extent possible with the device implementation hardware. For instance, if a device implementation includes a vibrator, it MUST correctly implement the vibration APIs. If a device implementation lacks hardware, the corresponding APIs MUST be implemented as no-ops. This behavior is further detailed in section 7 .
  • [C-1-2] MUST correctly render all resources (icons, animation files, etc.) provided for in the APIs, or in the Status/System Bar icon style guide , although they MAY provide an alternative user experience for notifications than that provided by the reference Android Open Source implementation.
  • [C-1-3] MUST honor and implement properly the behaviors described for the APIs to update, remove and group notifications.
  • [C-1-4] MUST provide the full behavior of the NotificationChannel API documented in the SDK.
  • [C-1-5] MUST provide a user affordance to block and modify a certain third-party app's notification per each channel and app package level.
  • [C-1-6] MUST also provide a user affordance to display deleted notification channels.
  • [C-1-7] MUST correctly render all resources (images, stickers, icons, etc.) provided through Notification.MessagingStyle alongside the notification text without additional user interaction. For example, MUST show all resources including icons provided through android.app.Person in a group conversation that is set through setGroupConversation .
  • [C-SR-1] Are STRONGLY RECOMMENDED to provide an affordance for the user to control the notifications that are exposed to apps that have been granted the Notification Listener permission. The granularity MUST be so that the user can control for each such notification listener what notification types are bridged to this listener. The types MUST include "conversations", "alerting", "silent", and "important ongoing" notifications.
  • [C-SR-2] Are STRONGLY RECOMMENDED provide an affordance for users to specify apps to exclude from notifying any specific notification listener.
  • [C-SR-3] Are STRONGLY RECOMMENDED to automatically surface a user affordance to block a certain third-party app's notification per each channel and app package level after the user dismisses that notification multiple times.
  • SHOULD support rich notifications.
  • SHOULD present some higher priority notifications as heads-up notifications.
  • SHOULD have a user affordance to snooze notifications.
  • MAY only manage the visibility and timing of when third-party apps can notify users of notable events to mitigate safety issues such as driver distraction.

Android 11 introduces support for conversation notifications, which are notifications that use MessagingStyle and provides a published People Shortcut ID.

Реализации устройства:

  • [C-SR-4] Are STRONGLY RECOMMENDED to group and display conversation notifications ahead of non conversation notifications with the exception of ongoing foreground service notifications and importance:high notifications.

If device implementations support conversation notifications and the app provides the required data for bubbles , they:

  • [C-SR-5] Are STRONGLY RECOMMENDED to display this conversation as a bubble. The AOSP implementation meets these requirements with the default System UI, Settings, and Launcher.

If device implementations support rich notifications, they:

  • [C-2-1] MUST use the exact resources as provided through the Notification.Style API class and its subclasses for the presented resource elements.
  • SHOULD present each and every resource element (eg icon, title and summary text) defined in the Notification.Style API class and its subclasses.

Heads up notifications are notifications that are presented to the user as they come in independently of the surface the user is on. If device implementations support heads-up notifications, then they:

  • [C-3-1] MUST use the heads-up notification view and resources as described in the Notification.Builder API class when heads-up notifications are presented.
  • [C-3-2] MUST display the actions provided through Notification.Builder.addAction() together with the notification content without additional user interaction as described in the SDK .
3.8.3.2. Notification Listener Service

Android includes the NotificationListenerService APIs that allow apps (once explicitly enabled by the user) to receive a copy of all notifications as they are posted or updated.

Реализации устройства:

  • [C-0-1] MUST correctly and promptly update notifications in their entirety to all such installed and user-enabled listener services, including any and all metadata attached to the Notification object.
  • [C-0-2] MUST respect the snoozeNotification() API call, and dismiss the notification and make a callback after the snooze duration that is set in the API call.

If device implementations have a user affordance to snooze notifications, they:

  • [C-1-1] MUST reflect the snoozed notification status properly through the standard APIs such as NotificationListenerService.getSnoozedNotifications() .
  • [C-1-2] MUST make this user affordance available to snooze notifications from each installed third-party app's, unless they are from persistent/foreground services.
3.8.3.3. DND (Do not Disturb)/ Priority Mode

If device implementations support the DND feature (also called Priority Mode), they:

  • [C-1-1] MUST, for when the device implementation has provided a means for the user to grant or deny third-party apps to access the DND policy configuration, display Automatic DND rules created by applications alongside the user-created and pre-defined rules.
  • [C-1-3] MUST honor the suppressedVisualEffects values passed along the NotificationManager.Policy and if an app has set any of the SUPPRESSED_EFFECT_SCREEN_OFF or SUPPRESSED_EFFECT_SCREEN_ON flags, it SHOULD indicate to the user that the visual effects are suppressed in the DND settings menu.

3.8.4. Assist API's

Android includes the Assist APIs to allow applications to elect how much information of the current context is shared with the assistant on the device.

If device implementations support the Assist action, they:

  • [C-2-1] MUST indicate clearly to the end user when the context is shared, by either:
    • Each time the assist app accesses the context, displaying a white light around the edges of the screen that meet or exceed the duration and brightness of the Android Open Source Project implementation.
    • For the preinstalled assist app, providing a user affordance less than two navigations away from the default voice input and assistant app settings menu , and only sharing the context when the assist app is explicitly invoked by the user through a hotword or assist navigation key input.
  • [C-2-2] The designated interaction to launch the assist app as described in section 7.2.3 MUST launch the user-selected assist app, in other words the app that implements VoiceInteractionService , or an activity handling the ACTION_ASSIST intent.

3.8.5. Alerts and Toasts

Applications can use the Toast API to display short non-modal strings to the end user that disappear after a brief period of time, and use the TYPE_APPLICATION_OVERLAY window type API to display alert windows as an overlay over other apps.

If device implementations include a screen or video output, they:

  • [C-1-1] MUST provide a user affordance to block an app from displaying alert windows that use the TYPE_APPLICATION_OVERLAY . The AOSP implementation meets this requirement by having controls in the notification shade.

  • [C-1-2] MUST honor the Toast API and display Toasts from applications to end users in some highly visible manner.

3.8.6. Темы

Android provides “themes” as a mechanism for applications to apply styles across an entire Activity or application.

Android includes a “Holo” and "Material" theme family as a set of defined styles for application developers to use if they want to match the Holo theme look and feel as defined by the Android SDK.

If device implementations include a screen or video output, they:

  • [C-1-1] MUST NOT alter any of the Holo theme attributes exposed to applications.
  • [C-1-2] MUST support the “Material” theme family and MUST NOT alter any of the Material theme attributes or their assets exposed to applications.
  • [C-1-3] MUST either set the "sans-serif" font family to Roboto version 2.x for the languages that Roboto supports, or provide a user affordance to change the font used for the "sans-serif" font family to Roboto version 2.x for the languages that Roboto supports.

  • [C-1-4] MUST generate dynamic color tonal palettes as specified in the AOSP documentation of Settings.THEME_CUSTOMIZATION_OVERLAY_PACKAGES (see android.theme.customization.system_palette and android.theme.customization.theme_style ).

  • [C-1-5] MUST generate dynamic color tonal palettes using color theme styles enumerated in the Settings.THEME_CUSTOMIZATION_OVERLAY_PACKAGES documentation (see android.theme.customization.theme_styles ), namely TONAL_SPOT , VIBRANT , EXPRESSIVE , SPRITZ , RAINBOW , FRUIT_SALAD .

    "Source color" used to generate dynamic color tonal palettes when sent with android.theme.customization.system_palette (as documented in Settings.THEME_CUSTOMIZATION_OVERLAY_PACKAGES ).

  • [C-1-6] MUST have a CAM16 chroma value of 5 or larger.

    • SHOULD be derived from the wallpaper via com.android.systemui.monet.ColorScheme#getSeedColors , which provides multiple valid source colors to pick one from.

    • SHOULD use the value 0xFF1B6EF3 , if none of the provided colors meet the above source color requirement.

Android also includes a “Device Default” theme family as a set of defined styles for application developers to use if they want to match the look and feel of the device theme as defined by the device implementer.

Android supports a variant theme with translucent system bars, which allows application developers to fill the area behind the status and navigation bar with their app content. To enable a consistent developer experience in this configuration, it is important the status bar icon style is maintained across different device implementations.

If device implementations include a system status bar, they:

  • [C-2-1] MUST use white for system status icons (such as signal strength and battery level) and notifications issued by the system, unless the icon is indicating a problematic status or an app requests a light status bar using the WindowInsetsController#APPEARANCE_LIGHT_STATUS_BARS flag.
  • [C-2-2] Android device implementations MUST change the color of the system status icons to black (for details, refer to R.style ) when an app requests a light status bar.

3.8.7. Live Wallpapers

Android defines a component type and corresponding API and lifecycle that allows applications to expose one or more “Live Wallpapers” to the end user. Live wallpapers are animations, patterns, or similar images with limited input capabilities that display as a wallpaper, behind other applications.

Hardware is considered capable of reliably running live wallpapers if it can run all live wallpapers, with no limitations on functionality, at a reasonable frame rate with no adverse effects on other applications. If limitations in the hardware cause wallpapers and/or applications to crash, malfunction, consume excessive CPU or battery power, or run at unacceptably low frame rates, the hardware is considered incapable of running live wallpaper. As an example, some live wallpapers may use an OpenGL 2.0 or 3.x context to render their content. Live wallpaper will not run reliably on hardware that does not support multiple OpenGL contexts because the live wallpaper use of an OpenGL context may conflict with other applications that also use an OpenGL context.

  • Device implementations capable of running live wallpapers reliably as described above SHOULD implement live wallpapers.

If device implementations implement live wallpapers, they:

  • [C-1-1] MUST report the platform feature flag android.software.live_wallpaper.

3.8.8. Переключение активности

The upstream Android source code includes the overview screen , a system-level user interface for task switching and displaying recently accessed activities and tasks using a thumbnail image of the application's graphical state at the moment the user last left the application.

Device implementations including the recents function navigation key as detailed in section 7.2.3 MAY alter the interface.

Если реализации устройства, включающие навигационную клавишу функции недавних событий, как подробно описано в разделе 7.2.3, изменяют интерфейс, они:

  • [C-1-1] MUST support at least up to 7 displayed activities.
  • SHOULD at least display the title of 4 activities at a time.
  • [C-1-2] MUST implement the screen pinning behavior and provide the user with a settings menu to toggle the feature.
  • SHOULD display highlight color, icon, screen title in recents.
  • SHOULD display a closing affordance ("x") but MAY delay this until user interacts with screens.
  • SHOULD implement a shortcut to switch easily to the previous activity.
  • SHOULD trigger the fast-switch action between the two most recently used apps, when the recents function key is tapped twice.
  • SHOULD trigger the split-screen multiwindow-mode, if supported, when the recents functions key is long pressed.
  • MAY display affiliated recents as a group that moves together.
  • [C-SR-1] Are STRONGLY RECOMMENDED to use the upstream Android user interface (or a similar thumbnail-based interface) for the overview screen.

3.8.9. Input Management

Android includes support for Input Management and support for third-party input method editors.

If device implementations allow users to use third-party input methods on the device, they:

  • [C-1-1] MUST declare the platform feature android.software.input_methods and support IME APIs as defined in the Android SDK documentation.

3.8.10. Lock Screen Media Control

The Remote Control Client API is deprecated from Android 5.0 in favor of the Media Notification Template that allows media applications to integrate with playback controls that are displayed on the lock screen.

3.8.11. Screen savers (previously Dreams)

See section 3.2.3.5 for settings intent to congfigure screen savers.

3.8.12. Расположение

If device implementations include a hardware sensor (eg GPS) that is capable of providing the location coordinates, they

3.8.13. Unicode and Font

Android includes support for the emoji characters defined in Unicode 10.0 .

If device implementations include a screen or video output, they:

  • [C-1-1] MUST be capable of rendering these emoji characters in color glyph.
  • [C-1-2] MUST include support for:
    • Roboto 2 font with different weights—sans-serif-thin, sans-serif-light, sans-serif-medium, sans-serif-black, sans-serif-condensed, sans-serif-condensed-light for the languages available on the устройство.
    • Full Unicode 7.0 coverage of Latin, Greek, and Cyrillic, including the Latin Extended A, B, C, and D ranges, and all glyphs in the currency symbols block of Unicode 7.0.
  • [C-1-3] MUST NOT remove or modify NotoColorEmoji.tff in the system image. (It is acceptable to add a new emoji font to override emoji in NotoColorEmoji.tff)
  • SHOULD support the skin tone and diverse family emojis as specified in the Unicode Technical Report #51 .

If device implementations include an IME, they:

  • SHOULD provide an input method to the user for these emoji characters.

Android includes support to render Myanmar fonts. Myanmar has several non-Unicode compliant fonts, commonly known as “Zawgyi,” for rendering Myanmar languages.

If device implementations include support for Burmese, they:

  • [C-2-1] MUST render text with Unicode compliant font as default; non-Unicode compliant font MUST NOT be set as default font unless the user chooses it in the language picker.
  • [C-2-2] MUST support a Unicode font and a non-Unicode compliant font if a non-Unicode compliant font is supported on the device. Non-Unicode compliant font MUST NOT remove or overwrite the Unicode font.
  • [C-2-3] MUST render text with non-Unicode compliant font ONLY IF a language code with script code Qaag is specified (eg my-Qaag). No other ISO language or region codes (whether assigned, unassigned, or reserved) can be used to refer to non-Unicode compliant font for Myanmar. App developers and web page authors can specify my-Qaag as the designated language code as they would for any other language.

3.8.14. Мультиокна

If device implementations have the capability to display multiple activities at the same time, they:

  • [C-1-1] MUST implement such multi-window mode(s) in accordance with the application behaviors and APIs described in the Android SDK multi-window mode support documentation and meet the following requirements:
  • [C-1-2] MUST honor android:resizeableActivity that is set by an app in the AndroidManifest.xml file as described in this SDK .
  • [C-1-3] MUST NOT offer split-screen or freeform mode if the screen height is less than 440 dp and the screen width is less than 440 dp.
  • [C-1-4] An activity MUST NOT be resized to a size smaller than 220dp in multi-window modes other than picture-in-picture.
  • Device implementations with screen size xlarge SHOULD support freeform mode.

If device implementations support multi-window mode(s), and the split screen mode, they:

  • [C-2-2] MUST crop the docked activity of a split-screen multi-window but SHOULD show some content of it, if the Launcher app is the focused window.
  • [C-2-3] MUST honor the declared AndroidManifestLayout_minWidth and AndroidManifestLayout_minHeight values of the third-party launcher application and not override these values in the course of showing some content of the docked activity.

If device implementations support multi-window mode(s) and picture-in-picture multi-window mode, they:

  • [C-3-1] MUST launch activities in picture-in-picture multi-window mode when the app is: * Targeting API level 26 or higher and declares android:supportsPictureInPicture * Targeting API level 25 or lower and declares both android:resizeableActivity and android:supportsPictureInPicture .
  • [C-3-2] MUST expose the actions in their SystemUI as specified by the current PIP activity through the setActions() API.
  • [C-3-3] MUST support aspect ratios greater than or equal to 1:2.39 and less than or equal to 2.39:1, as specified by the PIP activity through the setAspectRatio() API.
  • [C-3-4] MUST use KeyEvent.KEYCODE_WINDOW to control the PIP window; if PIP mode is not implemented, the key MUST be available to the foreground activity.
  • [C-3-5] MUST provide a user affordance to block an app from displaying in PIP mode; the AOSP implementation meets this requirement by having controls in the notification shade.
  • [C-3-6] MUST allocate the following minimum width and height for the PIP window when an application does not declare any value for AndroidManifestLayout_minWidth and AndroidManifestLayout_minHeight :

    • Devices with the Configuration.uiMode that is set other than UI_MODE_TYPE_TELEVISION MUST allocate a minimum width and height of 108 dp.
    • Devices with the Configuration.uiMode that is set to UI_MODE_TYPE_TELEVISION MUST allocate a minimum width of 240 dp and a minimum height of 135 dp.

3.8.15. Display Cutout

Android supports a Display Cutout as described in the SDK document. The DisplayCutout API defines an area on the edge of the display that may not be functional for an application due to a display cutout or curved display on the edge(s).

If device implementations include display cutout(s), they:

  • [C-1-5] MUST NOT have cutout(s) if the device's aspect ratio is 1.0(1:1).
  • [C-1-2] MUST NOT have more than one cutout per edge.
  • [C-1-3] MUST honor the display cutout flags set by the app through the WindowManager.LayoutParams API as described in the SDK.
  • [C-1-4] MUST report correct values for all cutout metrics defined in the DisplayCutout API.

3.8.16. Элементы управления устройством

Android includes ControlsProviderService and Control APIs to allow third-party applications to publish device controls for quick status and action for users.

See Section 2_2_3 for device-specific requirements.

3.8.17. Буфер обмена

Реализации устройства:

  • [C-0-1] MUST NOT send clipboard data to any component, activity, service, or across any network connection, without explicit user action (eg, pressing a button on the overlay) or indication of content being sent, except for services mentioned in 9.8.6 Content Capture and App Search .

If device implementations generate a user-visible preview when content is copied to the clipboard for any ClipData item where ClipData.getDescription().getExtras() contains android.content.extra.IS_SENSITIVE , they:

  • [C-1-1] MUST redact the user visible preview

The AOSP reference implementation satisfies these clipboard requirements.

3.9. Администрирование устройства

Android includes features that allow security-aware applications to perform device administration functions at the system level, such as enforcing password policies or performing remote wipe, through the Android Device Administration API .

If device implementations implement the full range of device administration policies defined in the Android SDK documentation, they:

  • [C-1-1] MUST declare android.software.device_admin .
  • [C-1-2] MUST support device owner provisioning as described in section 3.9.1 and section 3.9.1.1 .

3.9.1 Device Provisioning

3.9.1.1 Device owner provisioning

If device implementations declare android.software.device_admin , they:

  • [C-1-1] MUST support enrolling a Device Policy Client (DPC) as a Device Owner app as described below:
    • When the device implementation has neither users nor user data configured, it:
      • [C-1-5] MUST enroll the DPC application as the Device Owner app or enable the DPC app to choose whether to become a Device Owner or a Profile Owner, if the device declares Near-Field Communications (NFC) support via the feature flag android.hardware.nfc and receives an NFC message containing a record with MIME type MIME_TYPE_PROVISIONING_NFC .
      • [C-1-8] MUST send the ACTION_GET_PROVISIONING_MODE intent after device owner provisioning is triggered so that the DPC app can choose whether to become a Device Owner or a Profile Owner, depending on the values of android.app.extra.PROVISIONING_ALLOWED_PROVISIONING_MODES , unless it can be determined from context that there is only one valid option.
      • [C-1-9] MUST send the ACTION_ADMIN_POLICY_COMPLIANCE intent to the Device Owner app if a Device Owner is established during provisioning regardless of the provisioning method used. The user must not be able to proceed in the Setup Wizard until the Device Owner app finishes.
    • When the device implementation has users or user data, it:
      • [C-1-7] MUST not enroll any DPC application as the Device Owner App any more.
  • [C-1-2] MUST show an appropriate disclosure notice (such as referenced in AOSP ) and obtain affirmative consent from the end user prior to an app being set as Device Owner, unless the device is programmatically configured for retail demo mode prior to on-screen, end-user interaction.

If device implementations declare android.software.device_admin , but also include a proprietary device management solution and provide a mechanism to promote an application configured in their solution as a "Device Owner equivalent" to the standard "Device Owner" as recognized by the standard Android DevicePolicyManager APIs, they:

  • [C-2-1] MUST have a process in place to verify that the specific app being promoted belongs to a legitimate enterprise device management solution and has been configured in the proprietary solution to have the rights equivalent as a "Device Owner".
  • [C-2-2] MUST show the same AOSP Device Owner consent disclosure as the flow initiated by android.app.action.PROVISION_MANAGED_DEVICE prior to enrolling the DPC application as "Device Owner".
  • [C-2-3] MUST NOT hard code the consent or prevent the use of other device owner apps.
3.9.1.2 Managed profile provisioning

If device implementations declare android.software.managed_users , they:

3.9.2 Managed Profile Support

If device implementations declare android.software.managed_users , they:

  • [C-1-1] MUST support managed profiles via the android.app.admin.DevicePolicyManager APIs.
  • [C-1-2] MUST allow one and only one managed profile to be created .
  • [C-1-3] MUST use an icon badge (similar to the AOSP upstream work badge) to represent the managed applications and widgets and other badged UI elements like Recents & Notifications.
  • [C-1-4] MUST display a notification icon (similar to the AOSP upstream work badge) to indicate when user is within a managed profile application.
  • [C-1-5] MUST display a toast indicating that the user is in the managed profile if and when the device wakes up (ACTION_USER_PRESENT) and the foreground application is within the managed profile.
  • [C-1-6] Where a managed profile exists, MUST show a visual affordance in the Intent 'Chooser' to allow the user to forward the intent from the managed profile to the primary user or vice versa, if enabled by the Device Policy Контроллер.
  • [C-1-7] Where a managed profile exists, MUST expose the following user affordances for both the primary user and the managed profile:
    • Separate accounting for battery, location, mobile data and storage usage for the primary user and managed profile.
    • Independent management of VPN Applications installed within the primary user or managed profile.
    • Independent management of applications installed within the primary user or managed profile.
    • Independent management of accounts within the primary user or managed profile.
  • [C-1-8] MUST ensure the preinstalled dialer, contacts and messaging applications can search for and look up caller information from the managed profile (if one exists) alongside those from the primary profile, if the Device Policy Controller permits it.
  • [C-1-9] MUST ensure that it satisfies all the security requirements applicable for a device with multiple users enabled (see section 9.5 ), even though the managed profile is not counted as another user in addition to the primary user.

If device implementations declare android.software.managed_users and android.software.secure_lock_screen , they:

  • [C-2-1] MUST support the ability to specify a separate lock screen meeting the following requirements to grant access to apps running in a managed profile only.
  • When contacts from the managed profile are displayed in the preinstalled call log, in-call UI, in-progress and missed-call notifications, contacts and messaging apps they SHOULD be badged with the same badge used to indicate managed profile applications.

3.9.3 Managed User Support

If device implementations declare android.software.managed_users , they:

  • [C-1-1] MUST provide a user affordance to logout from the current user and switch back to the primary user in multiple-user session when isLogoutEnabled returns true . The user affordance MUST be accessible from the lockscreen without unlocking the device.

If device implementations declare android.software.device_admin and provide an on-device user affordance to add additional secondary Users , they:

  • [C-SR-1] Are STRONGLY RECOMMENDED show the same AOSP Device Owner consent disclosures that were shown in the flow initiated by android.app.action.PROVISION_MANAGED_DEVICE , prior to allowing accounts to be added in the new secondary User, so users understand that the device is managed.

3.9.4 Device Policy Management Role Requirements

If device implementations report android.software.device_admin or android.software.managed_users , then they:

  • [C-1-1] MUST support the device policy management role as defined in section 9.1 . The application that holds the device policy management role MAY be defined by setting config_devicePolicyManagement to the package name. The package name MUST be followed by : and the signing certificate unless the application is preloaded.

If a package name is not defined for config_devicePolicyManagement as described above:

If a package name is defined for config_devicePolicyManagement as described above:

  • [C-3-1] The application MUST be installed on all profiles for a user .
  • [C-3-2] Device implementations MAY define an application that updates the device policy management role holder before provisioning by setting config_devicePolicyManagementUpdater .

If a package name is defined for config_devicePolicyManagementUpdater as described above:

  • [C-4-1] The application MUST be preinstalled on the device.
  • [C-4-2] The application MUST implement an intent filter which resolves android.app.action.UPDATE_DEVICE_POLICY_MANAGEMENT_ROLE_HOLDER .

3.10. Доступность

Android provides an accessibility layer that helps users with disabilities to navigate their devices more easily. In addition, Android provides platform APIs that enable accessibility service implementations to receive callbacks for user and system events and generate alternate feedback mechanisms, such as text-to-speech, haptic feedback, and trackball/d-pad navigation.

If device implementations support third-party accessibility services, they:

  • [C-1-1] MUST provide an implementation of the Android accessibility framework as described in the accessibility APIs SDK documentation.
  • [C-1-2] MUST generate accessibility events and deliver the appropriate AccessibilityEvent to all registered AccessibilityService implementations as documented in the SDK.
  • [C-1-4] MUST provide a user affordance to control accessibility services that declare the AccessibilityServiceInfo.FLAG_REQUEST_ACCESSIBILITY_BUTTON . Note that for device implementations with a system navigation bar, they SHOULD allow the user to have the option for a button in the system's navigation bar to control these services.

If device implementations include preinstalled accessibility services, they:

  • [C-2-1] MUST implement these preinstalled accessibility services as Direct Boot Aware apps when the data storage is encrypted with File Based Encryption (FBE).
  • SHOULD provide a mechanism in the out-of-box setup flow for users to enable relevant accessibility services, as well as options to adjust the font size, display size and magnification gestures.

3.11. Text-to-Speech

Android includes APIs that allow applications to make use of text-to-speech (TTS) services and allows service providers to provide implementations of TTS services.

If device implementations reporting the feature android.hardware.audio.output, they:

If device implementations support installation of third-party TTS engines, they:

  • [C-2-1] MUST provide user affordance to allow the user to select a TTS engine for use at system level.

3.12. Структура ТВ-входа

Android Television Framework (TIF) упрощает доставку живого контента на телевизионные устройства Android. TIF предоставляет стандартный API для создания входных модулей, которые управляют телевизионными устройствами Android.

If device implementations support TIF, they:

  • [C-1-1] MUST declare the platform feature android.software.live_tv .
  • [C-1-2] MUST support all TIF APIs such that an application which uses these APIs and the third-party TIF-based inputs service can be installed and used on the device.

3.13. Быстрые настройки

Android provides a Quick Settings UI component that allows quick access to frequently used or urgently needed actions.

If device implementations include a Quick Settings UI component and support third-party Quick Settings, they:

  • [C-1-1] MUST allow the user to add or remove the tiles provided through the quicksettings APIs from a third-party app.
  • [C-1-2] MUST NOT automatically add a tile from a third-party app directly to the Quick Settings.
  • [C-1-3] MUST display all the user-added tiles from third-party apps alongside the system-provided quick setting tiles.

3.14. Media UI

If device implementations include non-voice-activated applications (the Apps) that interact with third-party applications through MediaBrowser or MediaSession , the Apps:

  • [C-1-2] MUST clearly display icons obtained via getIconBitmap() or getIconUri() and titles obtained via getTitle() as described in MediaDescription . May shorten titles to comply with safety regulations (eg driver distraction).

  • [C-1-3] MUST show the third-party application icon whenever displaying content provided by this third-party application.

  • [C-1-4] MUST allow the user to interact with the entire MediaBrowser hierarchy. MAY restrict the access to part of the hierarchy to comply with safety regulations (eg driver distraction), but MUST NOT give preferential treatment based on content or content provider.

  • [C-1-5] MUST consider double tap of KEYCODE_HEADSETHOOK or KEYCODE_MEDIA_PLAY_PAUSE as KEYCODE_MEDIA_NEXT for MediaSession.Callback#onMediaButtonEvent .

3.15. Instant Apps

If device implementations support Instant Apps, they MUST satisfy the following requirements:

  • [C-1-1] Instant Apps MUST only be granted permissions that have the android:protectionLevel set to "instant" .
  • [C-1-2] Instant Apps MUST NOT interact with installed apps via implicit intents unless one of the following is true:
    • The component's intent pattern filter is exposed and has CATEGORY_BROWSABLE
    • The action is one of ACTION_SEND, ACTION_SENDTO, ACTION_SEND_MULTIPLE
    • The target is explicitly exposed with android:visibleToInstantApps
  • [C-1-3] Instant Apps MUST NOT interact explicitly with installed apps unless the component is exposed via android:visibleToInstantApps.
  • [C-1-4] Installed Apps MUST NOT see details about Instant Apps on the device unless the Instant App explicitly connects to the installed application.
  • Device implementations MUST provide the following user affordances for interacting with Instant Apps. The AOSP meets the requirements with the default System UI, Settings, and Launcher. Реализации устройства:

    • [C-1-5] MUST provide a user affordance to view and delete Instant Apps locally cached for each individual app package.
    • [C-1-6] MUST provide a persistent user notification that can be collapsed while an Instant App is running in the foreground. This user notification MUST include that Instant Apps do not require installation and provide a user affordance that directs the user to the application info screen in Settings. For Instant Apps launched via web intents, as defined by using an intent with action set to Intent.ACTION_VIEW and with a scheme of "http" or "https", an additional user affordance SHOULD allow the user not to launch the Instant App and launch the associated link with the configured web browser, if a browser is available on the device.
    • [C-1-7] MUST allow running Instant Apps to be accessed from the Recents function if the Recents function is available on the device.
  • [C-1-8] MUST preload one or more applications or service components with an intent handler for the intents listed in the SDK here and make the intents visible for Instant Apps.

3.16. Companion Device Pairing

Android includes support for companion device pairing to more effectively manage association with companion devices and provides the CompanionDeviceManager API for apps to access this feature.

If device implementations support the companion device pairing feature, they:

  • [C-1-1] MUST declare the feature flag FEATURE_COMPANION_DEVICE_SETUP .
  • [C-1-2] MUST ensure the APIs in the android.companion package is fully implemented.
  • [C-1-3] MUST provide user affordances for the user to select/confirm a companion device is present and operational.

3.17. Heavyweight Apps

If device implementations declare the feature FEATURE_CANT_SAVE_STATE , then they:

  • [C-1-1] MUST have only one installed app that specifies cantSaveState running in the system at a time. If the user leaves such an app without explicitly exiting it (for example by pressing home while leaving an active activity the system, instead of pressing back with no remaining active activities in the system), then device implementations MUST prioritize that app in RAM as they do for other things that are expected to remain running, such as foreground services. While such an app is in the background, the system can still apply power management features to it, such as limiting CPU and network access.
  • [C-1-2] MUST provide a UI affordance to chose the app that won't participate in the normal state save/restore mechanism once the user launches a second app declared with cantSaveState attribute.
  • [C-1-3] MUST NOT apply other changes in policy to apps that specify cantSaveState , such as changing CPU performance or changing scheduling prioritization.

If device implementations don't declare the feature FEATURE_CANT_SAVE_STATE , then they:

  • [C-1-1] MUST ignore the cantSaveState attribute set by apps and MUST NOT change the app behavior based on that attribute.

3.18. Контакты

Android includes Contacts Provider APIs to allow applications to manage contact information stored on the device. Contact data that is entered directly into the device is typically synchronized with a web service, but the data MAY also only reside locally on the device. Contacts that are only stored on the device are referred to as local contacts.

RawContacts are "associated with" or "stored in" an Account when the ACCOUNT_NAME , and ACCOUNT_TYPE , columns for the raw contacts match the corresponding Account.name and Account.type fields of the account.

Default local account : an account for raw contacts that are only stored on the device and not associated with an Account in the AccountManager , which are created with null values for the ACCOUNT_NAME , and ACCOUNT_TYPE , columns.

Custom local account : an account for raw contacts that are only stored on the device and not associated with an Account in the AccountManager, which are created with at least one non-null value for the ACCOUNT_NAME , and ACCOUNT_TYPE , columns.

Реализации устройства:

  • [C-SR-1] Are STRONGLY RECOMMENDED to not create custom local accounts .

If device implementations use a custom local account :

  • [C-1-1] The ACCOUNT_NAME , of the custom local account MUST be returned by ContactsContract.RawContacts.getLocalAccountName
  • [C-1-2] The ACCOUNT_TYPE , of the custom local account MUST be returned by ContactsContract.RawContacts.getLocalAccountType
  • [C-1-3] Raw contacts that are inserted by third party applications with the default local account (ie by setting null values for ACCOUNT_NAME and ACCOUNT_TYPE ) MUST be inserted to the custom local account .
  • [C-1-4] Raw contacts inserted into the custom local account MUST not be removed when accounts are added or removed.
  • [C-1-5] Delete operations performed against the custom local account MUST result in raw contacts being purged immediately (as if the CALLER_IS_SYNCADAPTER param was set to true), even if the CALLER\_IS\_SYNCADAPTER param was set to false or not указано.

4. Application Packaging Compatibility

Devices implementations:

  • [C-0-1] MUST be capable of installing and running Android “.apk” files as generated by the “aapt” tool included in the official Android SDK .

    • As the above requirement may be challenging, device implementations are RECOMMENDED to use the AOSP reference implementation's package management system.
  • [C-0-2] MUST support verifying “.apk” files using the APK Signature Scheme v3.1, APK Signature Scheme v3 , APK Signature Scheme v2 and JAR signing .

  • [C-0-3] MUST NOT extend either the .apk , Android Manifest , Dalvik bytecode , or RenderScript bytecode formats in such a way that would prevent those files from installing and running correctly on other compatible devices.

  • [C-0-4] MUST NOT allow apps other than the current "installer of record" for the package to silently uninstall the app without any user confirmation, as documented in the SDK for the DELETE_PACKAGE permission. The only exceptions are the system package verifier app handling PACKAGE_NEEDS_VERIFICATION intent and the storage manager app handling ACTION_MANAGE_STORAGE intent.

  • [C-0-5] MUST have an activity that handles the android.settings.MANAGE_UNKNOWN_APP_SOURCES intent.

  • [C-0-6] MUST NOT install application packages from unknown sources, unless the app that requests the installation meets all the following requirements:

    • It MUST declare the REQUEST_INSTALL_PACKAGES permission or have the android:targetSdkVersion set at 24 or lower.
    • It MUST have been granted permission by the user to install apps from unknown sources.
  • SHOULD provide a user affordance to grant/revoke the permission to install apps from unknown sources per application, but MAY choose to implement this as a no-op and return RESULT_CANCELED for startActivityForResult() , if the device implementation does not want to allow users to have this choice. However, even in such cases, they SHOULD indicate to the user why there is no such choice presented.

  • [C-0-7] MUST display a warning dialog with the warning string that is provided through the system API PackageManager.setHarmfulAppWarning to the user before launching an activity in an application that has been marked by the same system API PackageManager.setHarmfulAppWarning as potentially вредный.

  • SHOULD provide a user affordance to choose to uninstall or launch an application on the warning dialog.

  • [C-0-8] MUST implement support for Incremental File System as documented here .

  • [C-0-9] MUST support verifying .apk files using the APK Signature Scheme v4 and APK Signature Scheme v4.1.

5. Multimedia Compatibility

Реализации устройства:

  • [C-0-1] MUST support the media formats, encoders, decoders, file types, and container formats defined in section 5.1 for each and every codec declared by MediaCodecList .
  • [C-0-2] MUST declare and report support of the encoders, decoders available to third-party applications via MediaCodecList .
  • [C-0-3] MUST be able to properly decode and make available to third-party apps all the formats it can encode. This includes all bitstreams that its encoders generate and the profiles reported in its CamcorderProfile .

Реализации устройства:

  • SHOULD aim for minimum codec latency, in others words, they
    • SHOULD NOT consume and store input buffers and return input buffers only once processed.
    • SHOULD NOT hold onto decoded buffers for longer than as specified by the standard (eg SPS).
    • SHOULD NOT hold onto encoded buffers longer than required by the GOP structure.

All of the codecs listed in the section below are provided as software implementations in the preferred Android implementation from the Android Open Source Project.

Please note that neither Google nor the Open Handset Alliance make any representation that these codecs are free from third-party patents. Those intending to use this source code in hardware or software products are advised that implementations of this code, including in open source software or shareware, may require patent licenses from the relevant patent holders.

5.1. Медиакодеки

5.1.1. Audio Encoding

See more details in 5.1.3. Audio Codecs Details .

If device implementations declare android.hardware.microphone , they MUST support encoding the following audio formats and make them available to third-party apps:

  • [C-1-1] PCM/WAVE
  • [C-1-2] FLAC
  • [C-1-3] Opus

All audio encoders MUST support:

5.1.2. Audio Decoding

See more details in 5.1.3. Audio Codecs Details .

If device implementations declare support for the android.hardware.audio.output feature, they must support decoding the following audio formats:

  • [C-1-1] MPEG-4 AAC Profile (AAC LC)
  • [C-1-2] MPEG-4 HE AAC Profile (AAC+)
  • [C-1-3] MPEG-4 HE AACv2 Profile (enhanced AAC+)
  • [C-1-4] AAC ELD (enhanced low delay AAC)
  • [C-1-11] xHE-AAC (ISO/IEC 23003-3 Extended HE AAC Profile, which includes the USAC Baseline Profile, and ISO/IEC 23003-4 Dynamic Range Control Profile)
  • [C-1-5] FLAC
  • [C-1-6] MP3
  • [C-1-7] MIDI
  • [C-1-8] Vorbis
  • [C-1-9] PCM/WAVE including high-resolution audio formats up to 24 bits, 192 kHz sample rate, and 8 channels. Note that this requirement is for decoding only, and that a device is permitted to downsample and downmix during the playback phase.
  • [C-1-10] Opus

If device implementations support the decoding of AAC input buffers of multichannel streams (ie more than two channels) to PCM through the default AAC audio decoder in the android.media.MediaCodec API, the following MUST be supported:

  • [C-2-1] Decoding MUST be performed without downmixing (eg a 5.0 AAC stream must be decoded to five channels of PCM, a 5.1 AAC stream must be decoded to six channels of PCM).
  • [C-2-2] Dynamic range metadata MUST be as defined in "Dynamic Range Control (DRC)" in ISO/IEC 14496-3, and the android.media.MediaFormat DRC keys to configure the dynamic range-related behaviors of the audio decoder. The AAC DRC keys were introduced in API 21, and are: KEY_AAC_DRC_ATTENUATION_FACTOR , KEY_AAC_DRC_BOOST_FACTOR , KEY_AAC_DRC_HEAVY_COMPRESSION , KEY_AAC_DRC_TARGET_REFERENCE_LEVEL and KEY_AAC_ENCODED_TARGET_LEVEL .
  • [C-SR-1] It is STRONGLY RECOMMENDED that requirements C-2-1 and C-2-2 above are satisfied by all AAC audio decoders.

When decoding USAC audio, MPEG-D (ISO/IEC 23003-4):

  • [C-3-1] Loudness and DRC metadata MUST be interpreted and applied according to MPEG-D DRC Dynamic Range Control Profile Level 1.
  • [C-3-2] The decoder MUST behave according to the configuration set with the following android.media.MediaFormat keys: KEY_AAC_DRC_TARGET_REFERENCE_LEVEL and KEY_AAC_DRC_EFFECT_TYPE .

MPEG-4 AAC, HE AAC, and HE AACv2 profile decoders:

  • MAY support loudness and dynamic range control using ISO/IEC 23003-4 Dynamic Range Control Profile.

If ISO/IEC 23003-4 is supported and if both ISO/IEC 23003-4 and ISO/IEC 14496-3 metadata are present in a decoded bitstream, then:

  • ISO/IEC 23003-4 metadata SHALL take precedence.

All audio decoders MUST support outputting:

If device implementations support the decoding of AAC input buffers of multichannel streams (ie more than two channels) to PCM through the default AAC audio decoder in the android.media.MediaCodec API, then the following MUST be supported:

  • [C-7-1] MUST be able to be configured by the application using the decoding with the key KEY_MAX_OUTPUT_CHANNEL_COUNT to control whether the content is downmixed to stereo (when using a value of 2) or is output using the native number of channels (when using a value equal or greater to that number). For instance a value of 6 or greater would configure a decoder to output 6 channels when fed 5.1 content.
  • [C-7-2] When decoding, the decoder MUST advertise the channel mask being used on the output format with the KEY_CHANNEL_MASK key, using the android.media.AudioFormat constants (example: CHANNEL_OUT_5POINT1 ).

If device implementations support audio decoders other than the default AAC audio decoder and are capable of outputting multi-channel audio (ie more than 2 channels) when fed compressed multi-channel content, then:

  • [C-SR-2] The decoder is STRONGLY RECOMMENDED to be able to be configured by the application using the decoding with the key KEY_MAX_OUTPUT_CHANNEL_COUNT to control whether the content is downmixed to stereo (when using a value of 2) or is output using the native number of channels (when using a value equal or greater to that number). For instance a value of 6 or greater would configure a decoder to output 6 channels when fed 5.1 content.
  • [C-SR-3] When decoding, the decoder is STRONGLY RECOMMENDED to advertise the channel mask being used on the output format with the KEY_CHANNEL_MASK key, using the android.media.AudioFormat constants (example: CHANNEL_OUT_5POINT1 ).

5.1.3. Audio Codecs Details

Format/Codec Подробности File Types/Container Formats to be supported
MPEG-4 AAC Profile
(AAC LC)
Support for mono/stereo/5.0/5.1 content with standard sampling rates from 8 to 48 kHz.
  • 3GPP (.3gp)
  • MPEG-4 (.mp4, .m4a)
  • ADTS raw AAC (.aac, ADIF not supported)
  • MPEG-TS (.ts, not seekable, decode only)
  • Matroska (.mkv, decode only)
MPEG-4 HE AAC Profile (AAC+) Support for mono/stereo/5.0/5.1 content with standard sampling rates from 16 to 48 kHz.
  • 3GPP (.3gp)
  • MPEG-4 (.mp4, .m4a)
MPEG-4 HE AACv2
Profile (enhanced AAC+)
Support for mono/stereo/5.0/5.1 content with standard sampling rates from 16 to 48 kHz.
  • 3GPP (.3gp)
  • MPEG-4 (.mp4, .m4a)
AAC ELD (enhanced low delay AAC) Support for mono/stereo content with standard sampling rates from 16 to 48 kHz.
  • 3GPP (.3gp)
  • MPEG-4 (.mp4, .m4a)
USAC Support for mono/stereo content with standard sampling rates from 7.35 to 48 kHz. MPEG-4 (.mp4, .m4a)
АМР-НБ 4.75 to 12.2 kbps sampled @ 8 kHz 3GPP (.3gp)
УПП-ВБ 9 rates from 6.60 kbit/s to 23.85 kbit/s sampled @ 16 kHz, as defined at AMR-WB, Adaptive Multi-Rate - Wideband Speech Codec 3GPP (.3gp)
ФЛАК For both encoder and decoder: at least Mono and Stereo modes MUST be supported. Sample rates up to 192 kHz MUST be supported; 16-bit and 24-bit resolution MUST be supported. FLAC 24-bit audio data handling MUST be available with floating point audio configuration.
  • FLAC (.flac)
  • MPEG-4 (.mp4, .m4a, decode only)
  • Matroska (.mkv, decode only)
МП3 Mono/Stereo 8-320Kbps constant (CBR) or variable bitrate (VBR)
  • MP3 (.mp3)
  • MPEG-4 (.mp4, .m4a, decode only)
  • Matroska (.mkv, decode only)
МИДИ MIDI Type 0 and 1. DLS Version 1 and 2. XMF and Mobile XMF. Support for ringtone formats RTTTL/RTX, OTA, and iMelody
  • Type 0 and 1 (.mid, .xmf, .mxmf)
  • RTTTL/RTX (.rtttl, .rtx)
  • iMelody (.imy)
Vorbis Decoding: Support for mono, stereo, 5.0 and 5.1 content with sampling rates of 8000, 12000, 16000, 24000, and 48000 Hz.
Encoding: Support for mono and stereo content with sampling rates of 8000, 12000, 16000, 24000, and 48000 Hz.
  • Ogg (.ogg)
  • MPEG-4 (.mp4, .m4a, decode only)
  • Matroska (.mkv)
  • Webm (.webm)
PCM/WAVE PCM codec MUST support 16-bit linear PCM and 16-bit float. WAVE extractor must support 16-bit, 24-bit, 32-bit linear PCM and 32-bit float (rates up to limit of hardware). Sampling rates MUST be supported from 8 kHz to 192 kHz. WAVE (.wav)
Опус Decoding: Support for mono, stereo, 5.0 and 5.1 content with sampling rates of 8000, 12000, 16000, 24000, and 48000 Hz.
Encoding: Support for mono and stereo content with sampling rates of 8000, 12000, 16000, 24000, and 48000 Hz.
  • Ogg (.ogg)
  • MPEG-4 (.mp4, .m4a, decode only)
  • Matroska (.mkv)
  • Webm (.webm)

5.1.4. Кодирование изображения

See more details in 5.1.6. Image Codecs Details .

Device implementations MUST support encoding the following image encoding:

  • [C-0-1] JPEG
  • [C-0-2] PNG
  • [C-0-3] WebP

If device implementations support HEIC encoding via android.media.MediaCodec for media type MIMETYPE_IMAGE_ANDROID_HEIC , they:

5.1.5. Декодирование изображения

See more details in 5.1.6. Image Codecs Details .

Device implementations MUST support decoding the following image encoding:

  • [C-0-1] JPEG
  • [C-0-2] GIF
  • [C-0-3] PNG
  • [C-0-4] BMP
  • [C-0-5] WebP
  • [C-0-6] Raw

If device implementations support HEVC video decoding, they: * [C-1-1] MUST support HEIF (HEIC) image decoding.

Image decoders that support a high bit-depth format (9+ bits per channel):

  • [C-2-1] MUST support outputting an 8-bit equivalent format if requested by the application, for example, via the ARGB_8888 config of android.graphics.Bitmap .

5.1.6. Подробности о кодеках изображения

Format/Codec Подробности Supported File Types/Container Formats
JPEG Base+progressive JPEG (.jpg)
гифка GIF (.gif)
PNG PNG (.png)
БМП BMP (.bmp)
WebP WebP (.webp)
Сырой ARW (.arw), CR2 (.cr2), DNG (.dng), NEF (.nef), NRW (.nrw), ORF (.orf), PEF (.pef), RAF (.raf), RW2 (.rw2), SRW (.srw)
ХИФ Image, Image collection, Image sequence HEIF (.heif), HEIC (.heic)

Image encoder and decoders exposed through the MediaCodec API

  • [C-1-1] MUST support YUV420 8:8:8 flexible color format ( COLOR_FormatYUV420Flexible ) through CodecCapabilities .

  • [C-SR-1] STRONGLY RECOMMENDED to support RGB888 color format for input Surface mode.

  • [C-1-3] MUST support at least one of a planar or semiplanar YUV420 8:8:8 color format: COLOR_FormatYUV420PackedPlanar (equivalent to COLOR_FormatYUV420Planar ) or COLOR_FormatYUV420PackedSemiPlanar (equivalent to COLOR_FormatYUV420SemiPlanar ). They are STRONGLY RECOMMENDED to support both.

5.1.7. Video Codecs

  • For acceptable quality of web video streaming and video-conference services, device implementations SHOULD use a hardware VP8 codec that meets the requirements .

If device implementations include a video decoder or encoder:

  • [C-1-1] Video codecs MUST support output and input bytebuffer sizes that accommodate the largest feasible compressed and uncompressed frame as dictated by the standard and configuration but also not overallocate.

  • [C-1-2] Video encoders and decoders MUST support YUV420 8:8:8 flexible color formats ( COLOR_FormatYUV420Flexible ) through CodecCapabilities .

  • [C-1-3] Video encoders and decoders MUST support at least one of a planar or semiplanar YUV420 8:8:8 color format: COLOR_FormatYUV420PackedPlanar (equivalent to COLOR_FormatYUV420Planar ) or COLOR_FormatYUV420PackedSemiPlanar (equivalent to COLOR_FormatYUV420SemiPlanar ). They are STRONGLY RECOMMENDED to support both.

  • [C-SR-1] Video encoders and decoders are STRONGLY RECOMMENDED to support at least one of a hardware optimized planar or semiplanar YUV420 8:8:8 color format (YV12, NV12, NV21 or equivalent vendor optimized format.)

  • [C-1-5] Video decoders that support a high bit-depth format (9+ bits per channel) MUST support outputting an 8-bit equivalent format if requested by the application. This MUST be reflected by supporting an YUV420 8:8:8 color format via android.media.MediaCodecInfo .

If device implementations advertise HDR profile support through Display.HdrCapabilities , they:

  • [C-2-1] MUST support HDR static metadata parsing and handling.

If device implementations advertise intra refresh support through FEATURE_IntraRefresh in the MediaCodecInfo.CodecCapabilities class, they:

  • [C-3-1] MUST support the refresh periods in the range of 10 - 60 frames and accurately operate within 20% of configured refresh period.

Unless the application specifies otherwise using the KEY_COLOR_FORMAT format key, video decoder implementations:

  • [C-4-1] MUST default to the color format optimized for hardware display if configured using Surface output.
  • [C-4-2] MUST default to a YUV420 8:8:8 color format optimized for CPU reading if configured to not use Surface output.

5.1.8. Список видеокодеков

Format/Codec Подробности File Types/Container Formats to be supported
H.263
  • 3GPP (.3gp)
  • MPEG-4 (.mp4)
  • Matroska (.mkv, decode only)
H.264 AVC See section 5.2 and 5.3 for details
  • 3GPP (.3gp)
  • MPEG-4 (.mp4)
  • MPEG-2 TS (.ts, not seekable)
  • Matroska (.mkv, decode only)
H.265 HEVC See section 5.3 for details
  • MPEG-4 (.mp4)
  • Matroska (.mkv, decode only)
MPEG-2 Main Profile
  • MPEG2-TS (.ts, not seekable)
  • MPEG-4 (.mp4, decode only)
  • Matroska (.mkv, decode only)
MPEG-4 SP
  • 3GPP (.3gp)
  • MPEG-4 (.mp4)
  • Matroska (.mkv, decode only)
ВП8 See section 5.2 and 5.3 for details
ВП9 See section 5.3 for details

5.1.9. Media Codec Security

Device implementations MUST ensure compliance with media codec security features as described below.

Android includes support for OMX, a cross-platform multimedia acceleration API, as well as Codec 2.0, a low-overhead multimedia acceleration API.

If device implementations support multimedia, they:

  • [C-1-1] MUST provide support for media codecs either via OMX or Codec 2.0 APIs (or both) as in the Android Open Source Project and not disable or circumvent the security protections. This specifically does not mean that every codec MUST use either the OMX or Codec 2.0 API, only that support for at least one of these APIs MUST be available, and support for the available APIs MUST include the security protections present.
  • [C-SR-1] Are STRONGLY RECOMMENDED to include support for Codec 2.0 API.

If device implementations do not support the Codec 2.0 API, they:

  • [C-2-1] MUST include the corresponding OMX software codec from the Android Open Source Project (if it is available) for each media format and type (encoder or decoder) supported by the device.
  • [C-2-2] Codecs that have names starting with "OMX.google." MUST be based on their Android Open Source Project source code.
  • [C-SR-2] Are STRONGLY RECOMMENDED that the OMX software codecs run in a codec process that does not have access to hardware drivers other than memory mappers.

If device implementations support Codec 2.0 API, they:

  • [C-3-1] MUST include the corresponding Codec 2.0 software codec from the Android Open Source Project (if it is available) for each media format and type (encoder or decoder) supported by the device.
  • [C-3-2] MUST house the Codec 2.0 software codecs in the software codec process as provided in the Android Open Source Project to make it possible to more narrowly grant access to software codecs.
  • [C-3-3] Codecs that have names starting with "c2.android." MUST be based on their Android Open Source Project source code.

5.1.10. Media Codec Characterization

If device implementations support media codecs, they:

  • [C-1-1] MUST return correct values of media codec characterization via the MediaCodecInfo API.

В частности:

  • [C-1-2] Codecs with names starting with "OMX." MUST use the OMX APIs and have names that conform to OMX IL naming guidelines.
  • [C-1-3] Codecs with names starting with "c2." MUST use the Codec 2.0 API and have names that conform to Codec 2.0 naming guidelines for Android.
  • [C-1-4] Codecs with names starting with "OMX.google." or "c2.android." MUST NOT be characterized as vendor or as hardware-accelerated.
  • [C-1-5] Codecs that run in a codec process (vendor or system) that have access to hardware drivers other than memory allocators and mappers MUST NOT be characterized as software-only.
  • [C-1-6] Codecs not present in the Android Open Source Project or not based on the source code in that project MUST be characterized as vendor.
  • [C-1-7] Codecs that utilize hardware acceleration MUST be characterized as hardware accelerated.
  • [C-1-8] Codec names MUST NOT be misleading. For example, codecs named "decoders" MUST support decoding, and those named "encoders" MUST support encoding. Codecs with names containing media formats MUST support those formats.

If device implementations support video codecs:

  • [C-2-1] All video codecs MUST publish achievable frame rate data for the following sizes if supported by the codec:
SD (low quality) SD (high quality) HD 720p HD 1080p UHD
Video resolution
  • 176 x 144 px (H263, MPEG2, MPEG4)
  • 352 x 288 px (MPEG4 encoder, H263, MPEG2)
  • 320 x 180 px (VP8, VP8)
  • 320 x 240 px (other)
  • 704 x 576 px (H263)
  • 640 x 360 px (VP8, VP9)
  • 640 x 480 px (MPEG4 encoder)
  • 720 x 480 px (other)
  • 1408 x 1152 px (H263)
  • 1280 x 720 px (other)
1920 x 1080 px (other than MPEG4) 3840 x 2160 px (HEVC, VP9)
  • [C-2-2] Video codecs that are characterized as hardware accelerated MUST publish performance points information. They MUST each list all supported standard performance points (listed in PerformancePoint API), unless they are covered by another supported standard performance point.
  • Additionally they SHOULD publish extended performance points if they support sustained video performance other than one of the standard ones listed.

5.2. Кодирование видео

If device implementations support any video encoder and make it available to third-party apps, they:

  • SHOULD NOT be, over two sliding windows, more than 15% over the bitrate between intraframe (I-frame) intervals.
  • SHOULD NOT be more than 100% over the bitrate over a sliding window of 1 second.

If device implementations include an embedded screen display with the diagonal length of at least 2.5 inches or include a video output port or declare the support of a camera via the android.hardware.camera.any feature flag, they:

  • [C-1-1] MUST include the support of at least one of the VP8 or H.264 video encoders, and make it available for third-party applications.
  • SHOULD support both VP8 and H.264 video encoders, and make it available for third-party applications.

If device implementations support any of the H.264, VP8, VP9 or HEVC video encoders and make it available to third-party applications, they:

  • [C-2-1] MUST support dynamically configurable bitrates.
  • SHOULD support variable frame rates, where video encoder SHOULD determine instantaneous frame duration based on the timestamps of input buffers, and allocate its bit bucket based on that frame duration.

If device implementations support the MPEG-4 SP video encoder and make it available to third-party apps, they:

  • SHOULD support dynamically configurable bitrates for the supported encoder.

If device implementations provide hardware accelerated video or image encoders, and support one or more attached or pluggable hardware camera(s) exposed through the android.camera APIs:

  • [C-4-1] all hardware accelerated video and image encoders MUST support encoding frames from the hardware camera(s).
  • SHOULD support encoding frames from the hardware camera(s) through all video or image encoders.

If device implementations provide HDR encoding, they:

  • [C-SR-1] are STRONGLY RECOMMENDED to provide a plugin for the seamless transcoding API to convert from HDR format to SDR format.

5.2.1. H.263

If device implementations support H.263 encoders and make it available to third-party apps, they:

  • [C-1-1] MUST support Baseline Profile Level 45.
  • SHOULD support dynamically configurable bitrates for the supported encoder.

5.2.2. H.264

If device implementations support H.264 codec, they:

  • [C-1-1] MUST support Baseline Profile Level 3. However, support for ASO (Arbitrary Slice Ordering), FMO (Flexible Macroblock Ordering) and RS (Redundant Slices) is OPTIONAL. Moreover, to maintain compatibility with other Android devices, it is RECOMMENDED that ASO, FMO and RS are not used for Baseline Profile by encoders.
  • [C-1-2] MUST support the SD (Standard Definition) video encoding profiles in the following table.
  • SHOULD support Main Profile Level 4.
  • SHOULD support the HD (High Definition) video encoding profiles as indicated in the following table.

If device implementations report support of H.264 encoding for 720p or 1080p resolution videos through the media APIs, they:

  • [C-2-1] MUST support the encoding profiles in the following table.
SD (Low quality) SD (High quality) HD 720p HD 1080p
Video resolution 320 х 240 пикселей 720 x 480 px 1280 х 720 пикселей 1920 x 1080 px
Video frame rate 20 fps 30 кадров в секунду 30 кадров в секунду 30 кадров в секунду
Video bitrate 384 Kbps 2 Mbps 4 Mbps 10 Мбит/с

5.2.3. ВП8

If device implementations support VP8 codec, they:

  • [C-1-1] MUST support the SD video encoding profiles.
  • SHOULD support the following HD (High Definition) video encoding profiles.
  • [C-1-2] MUST support writing Matroska WebM files.
  • SHOULD provide a hardware VP8 codec that meets the WebM project RTC hardware coding requirements , to ensure acceptable quality of web video streaming and video-conference services.

If device implementations report support of VP8 encoding for 720p or 1080p resolution videos through the media APIs, they:

  • [C-2-1] MUST support the encoding profiles in the following table.
SD (Low quality) SD (High quality) HD 720p HD 1080p
Video resolution 320 x 180 px 640 x 360 px 1280 х 720 пикселей 1920 x 1080 px
Video frame rate 30 кадров в секунду 30 кадров в секунду 30 кадров в секунду 30 кадров в секунду
Video bitrate 800 Kbps 2 Mbps 4 Mbps 10 Мбит/с

5.2.4. ВП9

If device implementations support VP9 codec, they:

  • [C-1-2] MUST support Profile 0 Level 3.
  • [C-1-1] MUST support writing Matroska WebM files.
  • [C-1-3] MUST generate CodecPrivate data.
  • SHOULD support the HD decoding profiles as indicated in the following table.
  • [C-SR-1] are STRONGLY RECOMMENDED to support the HD decoding profiles as indicated in the following table if there is a hardware encoder.
СД HD 720p HD 1080p UHD
Video resolution 720 x 480 px 1280 х 720 пикселей 1920 x 1080 px 3840 х 2160 пикселей
Video frame rate 30 кадров в секунду 30 кадров в секунду 30 кадров в секунду 30 кадров в секунду
Video bitrate 1.6 Mbps 4 Mbps 5 Мбит/с 20 Мбит/с

If device implementations claim to support Profile 2 or Profile 3 through the Media APIs:

  • Support for 12-bit format is OPTIONAL.

5.2.5. H.265

If device implementations support H.265 codec, they:

  • [C-1-1] MUST support Main Profile Level 3.
  • SHOULD support the HD encoding profiles as indicated in the following table.
  • [C-SR-1] are STRONGLY RECOMMENDED to support the HD encoding profiles as indicated in the following table if there is a hardware encoder.
СД HD 720p HD 1080p UHD
Video resolution 720 x 480 px 1280 х 720 пикселей 1920 x 1080 px 3840 х 2160 пикселей
Video frame rate 30 кадров в секунду 30 кадров в секунду 30 кадров в секунду 30 кадров в секунду
Video bitrate 1.6 Mbps 4 Mbps 5 Мбит/с 20 Мбит/с

5.3. Video Decoding

If device implementations support VP8, VP9, H.264, or H.265 codecs, they:

  • [C-1-1] MUST support dynamic video resolution and frame rate switching through the standard Android APIs within the same stream for all VP8, VP9, H.264, and H.265 codecs in real time and up to the maximum resolution supported by each codec on the device.

5.3.1. MPEG-2

If device implementations support MPEG-2 decoders, they:

  • [C-1-1] MUST support the Main Profile High Level.

5.3.2. H.263

If device implementations support H.263 decoders, they:

  • [C-1-1] MUST support Baseline Profile Level 30 and Level 45.

5.3.3. MPEG-4

If device implementations with MPEG-4 decoders, they:

  • [C-1-1] MUST support Simple Profile Level 3.

5.3.4. H.264

If device implementations support H.264 decoders, they:

  • [C-1-1] MUST support Main Profile Level 3.1 and Baseline Profile. Support for ASO (Arbitrary Slice Ordering), FMO (Flexible Macroblock Ordering) and RS (Redundant Slices) is OPTIONAL.
  • [C-1-2] MUST be capable of decoding videos with the SD (Standard Definition) profiles listed in the following table and encoded with the Baseline Profile and Main Profile Level 3.1 (including 720p30).
  • SHOULD be capable of decoding videos with the HD (High Definition) profiles as indicated in the following table.

If the height that is reported by the Display.getSupportedModes() method is equal or greater than the video resolution, device implementations:

  • [C-2-1] MUST support the HD 720p video decoding profiles in the following table.
  • [C-2-2] MUST support the HD 1080p video decoding profiles in the following table.
SD (Low quality) SD (High quality) HD 720p HD 1080p
Video resolution 320 х 240 пикселей 720 x 480 px 1280 х 720 пикселей 1920 x 1080 px
Video frame rate 30 кадров в секунду 30 кадров в секунду 60 кадров в секунду 30 fps (60 fps Television )
Video bitrate 800 Kbps 2 Mbps 8 Mbps 20 Мбит/с

5.3.5. H.265 (HEVC)

If device implementations support H.265 codec, they:

  • [C-1-1] MUST support the Main Profile Level 3 Main tier and the SD video decoding profiles as indicated in the following table.
  • SHOULD support the HD decoding profiles as indicated in the following table.
  • [C-1-2] MUST support the HD decoding profiles as indicated in the following table if there is a hardware decoder.

If the height that is reported by the Display.getSupportedModes() method is equal to or greater than the video resolution, then:

  • [C-2-1] Device implementations MUST support at least one of H.265 or VP9 decoding of 720, 1080 and UHD profiles.
SD (Low quality) SD (High quality) HD 720p HD 1080p UHD
Video resolution 352 x 288 px 720 x 480 px 1280 х 720 пикселей 1920 x 1080 px 3840 х 2160 пикселей
Video frame rate 30 кадров в секунду 30 кадров в секунду 30 кадров в секунду 30/60 fps (60 fps Television with H.265 hardware decoding ) 60 кадров в секунду
Video bitrate 600 Kbps 1.6 Mbps 4 Mbps 5 Мбит/с 20 Мбит/с

If device implementations claim to support an HDR Profile through the Media APIs:

  • [C-3-1] Device implementations MUST accept the required HDR metadata from the application, as well as support extracting and outputting the required HDR metadata from the bitstream and/or container.
  • [C-3-2] Device implementations MUST properly display HDR content on the device screen or on a standard video output port (eg, HDMI).

5.3.6. ВП8

If device implementations support VP8 codec, they:

  • [C-1-1] MUST support the SD decoding profiles in the following table.
  • SHOULD use a hardware VP8 codec that meets the requirements .
  • SHOULD support the HD decoding profiles in the following table.

If the height as reported by the Display.getSupportedModes() method is equal or greater than the video resolution, then:

  • [C-2-1] Device implementations MUST support 720p profiles in the following table.
  • [C-2-2] Device implementations MUST support 1080p profiles in the following table.
SD (Low quality) SD (High quality) HD 720p HD 1080p
Video resolution 320 x 180 px 640 x 360 px 1280 х 720 пикселей 1920 x 1080 px
Video frame rate 30 кадров в секунду 30 кадров в секунду 30 fps (60 fps Television ) 30 (60 fps Television )
Video bitrate 800 Kbps 2 Mbps 8 Mbps 20 Мбит/с

5.3.7. ВП9

If device implementations support VP9 codec, they:

  • [C-1-1] MUST support the SD video decoding profiles as indicated in the following table.
  • SHOULD support the HD decoding profiles as indicated in the following table.

If device implementations support VP9 codec and a hardware decoder:

  • [C-2-1] MUST support the HD decoding profiles as indicated in the following table.

If the height that is reported by the Display.getSupportedModes() method is equal to or greater than the video resolution, then:

  • [C-3-1] Device implementations MUST support at least one of VP9 or H.265 decoding of the 720, 1080 and UHD profiles.
SD (Low quality) SD (High quality) HD 720p HD 1080p UHD
Video resolution 320 x 180 px 640 x 360 px 1280 х 720 пикселей 1920 x 1080 px 3840 х 2160 пикселей
Video frame rate 30 кадров в секунду 30 кадров в секунду 30 кадров в секунду 30 fps (60 fps Television with VP9 hardware decoding ) 60 кадров в секунду
Video bitrate 600 Kbps 1.6 Mbps 4 Mbps 5 Мбит/с 20 Мбит/с

If device implementations claim to support VP9Profile2 or VP9Profile3 through the 'CodecProfileLevel' media APIs:

  • Support for 12-bit format is OPTIONAL.

If device implementations claim to support an HDR Profile ( VP9Profile2HDR , VP9Profile2HDR10Plus , VP9Profile3HDR , VP9Profile3HDR10Plus ) through the media APIs:

  • [C-4-1] Device implementations MUST accept the required HDR metadata ( KEY_HDR_STATIC_INFO for all HDR profiles, as well as 'KEY_HDR10_PLUS_INFO' for HDR10Plus profiles) from the application. They also MUST support extracting and outputting the required HDR metadata from the bitstream and/or container.
  • [C-4-2] Device implementations MUST properly display HDR content on the device screen or on a standard video output port (eg, HDMI).

5.3.8. Dolby Vision

If device implementations declare support for the Dolby Vision decoder through HDR_TYPE_DOLBY_VISION , they:

  • [C-1-1] MUST provide a Dolby Vision-capable extractor.
  • [C-1-2] MUST properly display Dolby Vision content on the device screen or on a standard video output port (eg, HDMI).
  • [C-1-3] MUST set the track ID of backward-compatible base-layer(s) (if present) to be the same as the combined Dolby Vision layer's track ID.

5.3.9. АВ1

If device implementations support AV1 codec, they:

  • [C-1-1] MUST support Profile 0 including 10-bit content.

5.4. Аудиозапись

While some of the requirements outlined in this section are listed as SHOULD since Android 4.3, the Compatibility Definition for future versions are planned to change these to MUST. Existing and new Android devices are STRONGLY RECOMMENDED to meet these requirements that are listed as SHOULD, or they will not be able to attain Android compatibility when upgraded to the future version.

5.4.1. Raw Audio Capture and Microphone Information

If device implementations declare android.hardware.microphone , they:

  • [C-1-1] MUST allow capture of raw audio content for any AudioRecord or AAudio INPUT stream that is opened successfully. At a minimum, the following characteristics MUST be supported:

  • SHOULD allow capture of raw audio content with the following characteristics:

    • Format : Linear PCM, 16-bit and 24-bit
    • Sampling rates : 8000, 11025, 16000, 22050, 24000, 32000, 44100, 48000 Hz
    • Channels : As many channels as the number of microphones on the device
  • [C-1-2] MUST capture at above sample rates without up-sampling.

  • [C-1-3] MUST include an appropriate anti-aliasing filter when the sample rates given above are captured with down-sampling.

  • SHOULD allow AM radio and DVD quality capture of raw audio content, which means the following characteristics:

    • Format : Linear PCM, 16-bit
    • Sampling rates : 22050, 48000 Hz
    • Channels : Stereo
  • [C-1-4] MUST honor the MicrophoneInfo API and properly fill in information for the available microphones on device accessible to the third-party applications via the AudioManager.getMicrophones() API, for active AudioRecord using MediaRecorder.AudioSources DEFAULT , MIC , CAMCORDER , VOICE_RECOGNITION , VOICE_COMMUNICATION , UNPROCESSED , or VOICE_PERFORMANCE .

If device implementations allow AM radio and DVD quality capture of raw audio content, they:

  • [C-2-1] MUST capture without up-sampling at any ratio higher than 16000:22050 or 44100:48000.
  • [C-2-2] MUST include an appropriate anti-aliasing filter for any up-sampling or down-sampling.

5.4.2. Захват для распознавания голоса

If device implementations declare android.hardware.microphone , they:

  • [C-1-1] MUST capture android.media.MediaRecorder.AudioSource.VOICE_RECOGNITION audio source at one of the sampling rates, 44100 and 48000.
  • [C-1-2] MUST, by default, disable any noise reduction audio processing when recording an audio stream from the AudioSource.VOICE_RECOGNITION audio source.
  • [C-1-3] MUST, by default, disable any automatic gain control when recording an audio stream from the AudioSource.VOICE_RECOGNITION audio source.

  • SHOULD exhibit approximately flat amplitude-versus-frequency characteristics in the mid-frequency range: specifically ±3dB from 100 Hz to 4000 Hz for each and every microphone used to record the voice recognition audio source.

  • [C-SR-1] are STRONGLY RECOMMENDED to exhibit amplitude levels in the low frequency range: specifically from ±20 dB from 30 Hz to 100 Hz compared to the mid-frequency range for each and every microphone used to record the voice recognition audio источник.

  • [C-SR-2] are STRONGLY RECOMMENDED to exhibit amplitude levels in the high frequency range: specifically from ±30 dB from 4000 Hz to 22 KHz compared to the mid-frequency range for each and every microphone used to record the voice recognition audio источник.

  • SHOULD set audio input sensitivity such that a 1000 Hz sinusoidal tone source played at 90 dB Sound Pressure Level (SPL) (measured next to the microphone) yields an ideal response of RMS 2500 within a range of 1770 and 3530 for 16 bit-samples (or -22.35 db ±3dB Full Scale for floating point/double precision samples) for each and every microphone used to record the voice recognition audio source.

  • SHOULD record the voice recognition audio stream so that the PCM amplitude levels linearly track input SPL changes over at least a 30 dB range from -18 dB to +12 dB re 90 dB SPL at the microphone.

  • SHOULD record the voice recognition audio stream with total harmonic distortion (THD) less than 1% for 1 kHz at 90 dB SPL input level at the microphone.

If device implementations declare android.hardware.microphone and noise suppression (reduction) technologies tuned for speech recognition, they:

  • [C-2-1] MUST allow this audio effect to be controllable with the android.media.audiofx.NoiseSuppressor API.
  • [C-2-2] MUST uniquely identify each noise suppression technology implementation via the AudioEffect.Descriptor.uuid field.

5.4.3. Capture for Rerouting of Playback

The android.media.MediaRecorder.AudioSource class includes the REMOTE_SUBMIX audio source.

If device implementations declare both android.hardware.audio.output and android.hardware.microphone , they:

  • [C-1-1] MUST properly implement the REMOTE_SUBMIX audio source so that when an application uses the android.media.AudioRecord API to record from this audio source, it captures a mix of all audio streams except for the following:

    • AudioManager.STREAM_RING
    • AudioManager.STREAM_ALARM
    • AudioManager.STREAM_NOTIFICATION

5.4.4. Acoustic Echo Canceler

If device implementations declare android.hardware.microphone , they:

  • SHOULD implement an Acoustic Echo Canceler (AEC) technology tuned for voice communication and applied to the capture path when capturing using AudioSource.VOICE_COMMUNICATION .

If device implementations provides an Acoustic Echo Canceler which is inserted in the capture audio path when AudioSource.VOICE_COMMUNICATION is selected, they:

5.4.5. Concurrent Capture

If device implementations declare android.hardware.microphone ,they MUST implement concurrent capture as described in this document . Конкретно:

  • [C-1-1] MUST allow concurrent access to microphone by an accessibility service capturing with AudioSource.VOICE_RECOGNITION and at least one application capturing with any AudioSource .
  • [C-1-2] MUST allow concurrent access to microphone by a pre-installed application that holds an Assistant role and at least one application capturing with any AudioSource except for AudioSource.VOICE_COMMUNICATION or AudioSource.CAMCORDER .
  • [C-1-3] MUST silence the audio capture for any other application, except for an accessibility service, while an application is capturing with AudioSource.VOICE_COMMUNICATION or AudioSource.CAMCORDER . However, when an app is capturing via AudioSource.VOICE_COMMUNICATION then another app can capture the voice call if it is a privileged (pre-installed) app with permission CAPTURE_AUDIO_OUTPUT .
  • [C-1-4] If two or more applications are capturing concurrently and if neither app has an UI on top, the one that started capture the most recently receives audio.

5.4.6. Microphone Gain Levels [Moved to 5.4.2]

5.5. Воспроизведение аудио

Android includes the support to allow apps to playback audio through the audio output peripheral as defined in section 7.8.2.

5.5.1. Raw Audio Playback

If device implementations declare android.hardware.audio.output , they:

  • [C-1-1] MUST allow playback of raw audio content with the following characteristics:

    • Source formats : Linear PCM, 16-bit, 8-bit, float
    • Channels : Mono, Stereo, valid multichannel configurations with up to 8 channels
    • Sampling rates (in Hz) :
      • 8000, 11025, 16000, 22050, 24000, 32000, 44100, 48000 at the channel configurations listed above
      • 96000 in mono and stereo

5.5.2. Аудио эффекты

Android provides an API for audio effects for device implementations.

If device implementations declare the feature android.hardware.audio.output , they:

  • [C-1-1] MUST support the EFFECT_TYPE_EQUALIZER and EFFECT_TYPE_LOUDNESS_ENHANCER implementations controllable through the AudioEffect subclasses Equalizer and LoudnessEnhancer .
  • [C-1-2] MUST support the visualizer API implementation, controllable through the Visualizer class.
  • [C-1-3] MUST support the EFFECT_TYPE_DYNAMICS_PROCESSING implementation controllable through the AudioEffect subclass DynamicsProcessing .
  • SHOULD support the EFFECT_TYPE_BASS_BOOST , EFFECT_TYPE_ENV_REVERB , EFFECT_TYPE_PRESET_REVERB , and EFFECT_TYPE_VIRTUALIZER implementations controllable through the AudioEffect sub-classes BassBoost , EnvironmentalReverb , PresetReverb , and Virtualizer .
  • [C-SR-1] Are STRONGLY RECOMMENDED to support effects in floating-point and multichannel.

5.5.3. Audio Output Volume

Реализации автомобильных устройств:

  • SHOULD allow adjusting audio volume separately per each audio stream using the content type or usage as defined by AudioAttributes and car audio usage as publicly defined in android.car.CarAudioManager .

5.5.4. Audio Offload

If device implementations support audio offload playback , they:

  • [C-SR-1] Are STRONGLY RECOMMENDED to trim the played gapless audio content between two clips with the same format when specified by the AudioTrack gapless API and the media container for MediaPlayer.

5.6. Задержка звука

Audio latency is the time delay as an audio signal passes through a system. Many classes of applications rely on short latencies, to achieve real-time sound effects.

For the purposes of this section, use the following definitions:

  • output latency . The interval between when an application writes a frame of PCM-coded data and when the corresponding sound is presented to the environment at an on-device transducer or the signal leaves the device via a port and can be observed externally.
  • cold output latency . The time between starting an output stream and the presentation time of the first frame based on timestamps, when the audio output system has been idle and powered down prior to the request.
  • continuous output latency . The output latency for subsequent frames, after the device is playing audio.
  • input latency . The interval between when a sound is presented by environment to device at an on-device transducer or signal enters the device via a port and when an application reads the corresponding frame of PCM-coded data.
  • lost input . The initial portion of an input signal that is unusable or unavailable.
  • cold input latency . The time between starting the stream and when the first valid frame is received, when the audio input system has been idle and powered down prior to the request.
  • continuous input latency . The input latency for subsequent frames, while the device is capturing audio.
  • continuous round-trip latency . The sum of continuous input latency plus continuous output latency plus one buffer period. The buffer period allows time for the app to process the signal and time for the app to mitigate phase difference between input and output streams.
  • OpenSL ES PCM buffer queue API . The set of PCM-related OpenSL ES APIs within Android NDK .
  • AAudio native audio API . The set of AAudio APIs within Android NDK .
  • Timestamp . A pair consisting of a relative frame position within a stream and the estimated time when that frame enters or leaves the audio processing pipeline on the associated endpoint. See also AudioTimestamp .
  • glitch . A temporary interruption or incorrect sample value in the audio signal, typically caused by a buffer underrun for output, buffer overrun for input, or any other source of digital or analog noise.
  • mean absolute deviation . The average of the absolute value of the deviations from the mean for a set of values.
  • tap-to-tone latency . The time between when the screen is tapped and when a tone generated as a result of that tap is heard on the speaker.

If device implementations declare android.hardware.audio.output , they MUST meet or exceed the following requirements:

  • [C-1-1] The output timestamp returned by AudioTrack.getTimestamp and AAudioStream_getTimestamp is accurate to +/- 2 ms.
  • [C-1-2] Cold output latency of 500 milliseconds or less.

  • [C-1-3] Opening an output stream using AAudioStreamBuilder_openStream() MUST take less than 1000 milliseconds.

If device implementations declare android.hardware.audio.output they are STRONGLY RECOMMENDED to meet or exceed the following requirements:

  • [C-SR-1] Cold output latency of 100 milliseconds or less over the speaker data path.
  • [C-SR-2] Tap-to-tone latency of 80 milliseconds or less.

  • [C-SR-4] The output timestamp returned by AudioTrack.getTimestamp and AAudioStream_getTimestamp is accurate to +/- 1 ms.

If device implementations meet the above requirements, after any initial calibration, when using the AAudio native audio API, for continuous output latency and cold output latency over at least one supported audio output device, they are:

If device implementations do not meet the requirements for low-latency audio via the AAudio native audio API, they:

  • [C-2-1] MUST NOT report support for low-latency audio.

If device implementations include android.hardware.microphone , they MUST meet these input audio requirements:

  • [C-3-1] Limit the error in input timestamps, as returned by AudioRecord.getTimestamp or AAudioStream_getTimestamp , to +/- 2 ms. "Error" here means the deviation from the correct value.

  • [C-3-2] Cold input latency of 500 milliseconds or less.

  • [C-3-3] Opening an input stream using AAudioStreamBuilder_openStream() MUST take less than 1000 milliseconds.

If device implementations include android.hardware.microphone , they are STRONGLY RECOMMENDED to meet these input audio requirements:

  • [C-SR-8] Cold input latency of 100 milliseconds or less over the microphone data path.

  • [C-SR-11] Limit the error in input timestamps, as returned by AudioRecord.getTimestamp or AAudioStream_getTimestamp , to +/- 1 ms.

If device implementations declare android.hardware.audio.output and android.hardware.microphone , they:

  • [C-SR-12] Are STRONGLY RECOMMENDED to have a Mean Continuous Round-Trip Latency of 50 milliseconds or less over 5 measurements, with a Mean Absolute Deviation less than 10 msec, over at least one supported path.

5.7. Network Protocols

Device implementations MUST support the media network protocols for audio and video playback as specified in the Android SDK documentation.

For each codec and container format that a device implementation is required to support, the device implementation:

  • [C-1-1] MUST support that codec or container over HTTP and HTTPS.

  • [C-1-2] MUST support the corresponding media segment formats as shown in the media segment formats table below over HTTP Live Streaming draft protocol, Version 7 .

  • [C-1-3] MUST support the corresponding RTSP payload formats as shown in the RTSP table below. For exceptions please see the table footnotes in section 5.1 .

Media Segment Formats

Segment formats Ссылка(и) Required codec support
MPEG-2 Transport Stream ISO 13818 Video codecs:
  • H264 AVC
  • MPEG-4 SP
  • MPEG-2
See section 5.1.8 for details on H264 AVC, MPEG2-4 SP,
and MPEG-2.

Audio codecs:

  • ААС
See section 5.1.3 for details on AAC and its variants.
AAC with ADTS framing and ID3 tags ISO 13818-7 See section 5.1.1 for details on AAC and its variants
WebVTT WebVTT

RTSP (RTP, SDP)

Имя профиля Ссылка(и) Required codec support
H264 AVC RFC 6184 See section 5.1.8 for details on H264 AVC
MP4A-LATM RFC 6416 See section 5.1.3 for details on AAC and its variants
H263-1998 RFC 3551
RFC 4629
RFC 2190
See section 5.1.8 for details on H263
H263-2000 RFC 4629 See section 5.1.8 for details on H263
АМР RFC 4867 See section 5.1.3 for details on AMR-NB
УПП-ВБ RFC 4867 See section 5.1.3 for details on AMR-WB
MP4V-ES RFC 6416 See section 5.1.8 for details on MPEG-4 SP
mpeg4-generic RFC 3640 See section 5.1.3 for details on AAC and its variants
MP2T RFC 2250 See MPEG-2 Transport Stream underneath HTTP Live Streaming for details

5.8. Secure Media

If device implementations support secure video output and are capable of supporting secure surfaces, they:

  • [C-1-1] MUST declare support for Display.FLAG_SECURE .

If device implementations declare support for Display.FLAG_SECURE and support wireless display protocol, they:

  • [C-2-1] MUST secure the link with a cryptographically strong mechanism such as HDCP 2.x or higher for the displays connected through wireless protocols such as Miracast.

If device implementations declare support for Display.FLAG_SECURE and support wired external display, they:

  • [C-3-1] MUST support HDCP 1.2 or higher for all external displays connected via a user-accessible wired port.

5.9. Musical Instrument Digital Interface (MIDI)

If device implementations report support for feature android.software.midi via the android.content.pm.PackageManager class, they:

  • [C-1-1] MUST support MIDI over all MIDI-capable hardware transports for which they provide generic non-MIDI connectivity, where such transports are:

  • [C-1-2] MUST support the inter-app MIDI software transport (virtual MIDI devices)

  • [C-1-3] MUST include libamidi.so (native MIDI support)

  • SHOULD support MIDI over USB peripheral mode, section 7.7

5.10. Профессиональное аудио

If device implementations report support for feature android.hardware.audio.pro via the android.content.pm.PackageManager class, they:

  • [C-1-1] MUST report support for feature android.hardware.audio.low_latency .
  • [C-1-2] MUST have the continuous round-trip audio latency, as defined in section 5.6 Audio Latency of 25 milliseconds or less over at least one supported path.
  • [C-1-3] MUST include a USB port(s) supporting USB host mode and USB peripheral mode.
  • [C-1-4] MUST report support for feature android.software.midi .
  • [C-1-5] MUST meet latencies and USB audio requirements using the AAudio native audio API and AAUDIO_PERFORMANCE_MODE_LOW_LATENCY .
  • [C-1-6] MUST have Cold output latency of 200 milliseconds or less.
  • [C-1-7] MUST have Cold input latency of 200 milliseconds or less.
  • [C-1-8] MUST have an average Tap-to-tone latency of 80 milliseconds or less over at least 5 measurements over the speaker to microphone data path.
  • [C-SR-1] Are STRONGLY RECOMMENDED to meet latencies as defined in section 5.6 Audio Latency , of 20 milliseconds or less, over 5 measurements with a Mean Absolute Deviation less than 5 milliseconds over the speaker to microphone path.
  • [C-SR-2] Are STRONGLY RECOMMENDED to meet the Pro Audio requirements for continuous round-trip audio latency, cold input latency and cold output latency and USB audio requirements using the AAudio native audio API over the MMAP path.
  • [C-SR-3] Are STRONGLY RECOMMENDED to provide a consistent level of CPU performance while audio is active and CPU load is varying. This should be tested using the Android app SynthMark . SynthMark uses a software synthesizer running on a simulated audio framework that measures system performance. See the SynthMark documentation for an explanation of the benchmarks. The SynthMark app needs to be run using the “Automated Test” option and achieve the following results:

    • voicemark.90 >= 32 voices
    • latencymark.fixed.little <= 15 msec
    • latencymark.dynamic.little <= 50 msec
  • SHOULD minimize audio clock inaccuracy and drift relative to standard time.

  • SHOULD minimize audio clock drift relative to the CPU CLOCK_MONOTONIC when both are active.

  • SHOULD minimize audio latency over on-device transducers.

  • SHOULD minimize audio latency over USB digital audio.

  • SHOULD document audio latency measurements over all paths.

  • SHOULD minimize jitter in audio buffer completion callback entry times, as this affects usable percentage of full CPU bandwidth by the callback.

  • SHOULD provide zero audio glitches under normal use at reported latency.

  • SHOULD provide zero inter-channel latency difference.

  • SHOULD minimize MIDI mean latency over all transports.

  • SHOULD minimize MIDI latency variability under load (jitter) over all transports.

  • SHOULD provide accurate MIDI timestamps over all transports.

  • SHOULD minimize audio signal noise over on-device transducers, including the period immediately after cold start.

  • SHOULD provide zero audio clock difference between the input and output sides of corresponding end-points, when both are active. Examples of corresponding end-points include the on-device microphone and speaker, or the audio jack input and output.

  • SHOULD handle audio buffer completion callbacks for the input and output sides of corresponding end-points on the same thread when both are active, and enter the output callback immediately after the return from the input callback. Or if it is not feasible to handle the callbacks on the same thread, then enter the output callback shortly after entering the input callback to permit the application to have a consistent timing of the input and output sides.

  • SHOULD minimize the phase difference between HAL audio buffering for the input and output sides of corresponding end-points.

  • SHOULD minimize touch latency.

  • SHOULD minimize touch latency variability under load (jitter).

If device implementations meet all of the above requirements, they:

If device implementations include a 4 conductor 3.5mm audio jack, they:

If device implementations omit a 4 conductor 3.5mm audio jack and include a USB port(s) supporting USB host mode, they:

  • [C-3-1] MUST implement the USB audio class.
  • [C-3-2] MUST have a mean Continuous Round-trip Audio Latency of 25 milliseconds or less, over 5 measurements with a Mean Absolute Deviation less than 5 milliseconds over the USB host mode port using USB audio class. (This can be measured using a USB-3.5mm adapter and an Audio Loopback Dongle, or using a USB audio interface with patch cables connecting the inputs to outputs).
  • [C-SR-6] Are STRONGLY RECOMMENDED to support simultaneous I/O up to 8 channels each direction, 96 kHz sample rate, and 24-bit or 32-bit depth, when used with USB audio peripherals that also support these requirements.
  • [C-SR-7] Are STRONGLY RECOMMENDED to meet this group of requirements using the AAudio native audio API over the MMAP path.

If device implementations include an HDMI port, they:

  • SHOULD support output in stereo and eight channels at 20-bit or 24-bit depth and 192 kHz without bit-depth loss or resampling, in at least one configuration.

5.11. Capture for Unprocessed

Android includes support for recording of unprocessed audio via the android.media.MediaRecorder.AudioSource.UNPROCESSED audio source. In OpenSL ES, it can be accessed with the record preset SL_ANDROID_RECORDING_PRESET_UNPROCESSED .

If device implementations intent to support unprocessed audio source and make it available to third-party apps, they:

  • [C-1-1] MUST report the support through the android.media.AudioManager property PROPERTY_SUPPORT_AUDIO_SOURCE_UNPROCESSED .

  • [C-1-2] MUST exhibit approximately flat amplitude-versus-frequency characteristics in the mid-frequency range: specifically ±10 dB from 100 Hz to 7000 Hz for each and every microphone used to record the unprocessed audio source.

  • [C-1-3] MUST exhibit amplitude levels in the low frequency range: specifically from ±20 dB from 5 z to 100 Hz compared to the mid-frequency range for each and every microphone used to record the unprocessed audio source.

  • [C-1-4] MUST exhibit amplitude levels in the high frequency range: specifically from ±30 dB from 7000 Hz to 22 KHz compared to the mid-frequency range for each and every microphone used to record the unprocessed audio source.

  • [C-1-5] MUST set audio input sensitivity such that a 1000 Hz sinusoidal tone source played at 94 dB Sound Pressure Level (SPL) yields a response with RMS of 520 for 16 bit-samples (or -36 dB Full Scale for floating point/double precision samples) for each and every microphone used to record the unprocessed audio source.

  • [C-1-6] MUST have a signal-to-noise ratio (SNR) at 60 dB or higher for each and every microphone used to record the unprocessed audio source. (whereas the SNR is measured as the difference between 94 dB SPL and equivalent SPL of self noise, A-weighted).

  • [C-1-7] MUST have a total harmonic distortion (THD) less than be less than 1% for 1 kHZ at 90 dB SPL input level at each and every microphone used to record the unprocessed audio source.

  • [C-1-8] MUST not have any other signal processing (eg Automatic Gain Control, High Pass Filter, or Echo cancellation) in the path other than a level multiplier to bring the level to desired range. Другими словами:

    • [C-1-9] If any signal processing is present in the architecture for any reason, it MUST be disabled and effectively introduce zero delay or extra latency to the signal path.
    • [C-1-10] The level multiplier, while allowed to be on the path, MUST NOT introduce delay or latency to the signal path.

All SPL measurements are made directly next to the microphone under test. For multiple microphone configurations, these requirements apply to each microphone.

If device implementations declare android.hardware.microphone but do not support unprocessed audio source, they:

  • [C-2-1] MUST return null for the AudioManager.getProperty(PROPERTY_SUPPORT_AUDIO_SOURCE_UNPROCESSED) API method, to properly indicate the lack of support.
  • [C-SR-1] are still STRONGLY RECOMMENDED to satisfy as many of the requirements for the signal path for the unprocessed recording source.

5.12. HDR-видео

Android 13 supports the HDR technologies as described in an upcoming document.

Pixel Format

If a video decoder advertises support for COLOR_FormatYUVP010, then:

  • [C-1-1] MUST support the P010 format for CPU-read (ImageReader, MediaImage, ByteBuffer). In Android 13, P010 is relaxed to allow arbitrary stride for the Y and UV planes.

  • [C-1-2] The P010 output buffer MUST be able to be sampled by the GPU (when allocated with GPU_SAMPLING usage). This enables GPU composition and custom tone mapping by apps.

If a video decoder advertises support for COLOR_Format32bitABGR2101010, it:

  • [C-2-1] MUST support the RGBA_1010102 format for output surface and CPU-readable (ByteBuffer output).

If a video encoder advertises support for COLOR_FormatYUVP010, it:

  • [C-3-1] MUST support the P010 format for input surface and CPU-writeable (ImageWriter, MediaImage, ByteBuffer) input.

If a video encoder advertises support for COLOR_Format32bitABGR2101010, it:

  • [C-4-1] MUST support RGBA_1010102 format for input surface and CPU-writeable (ImageWriter, ByteBuffer) input. Note: Converting between various transfer curves is NOT required for encoders.

HDR Capture Requirements

For all video encoders that support HDR profiles, device implementations:

  • [C-5-1] MUST NOT assume that the HDR metadata is precise. For example, the encoded frame could have pixels beyond the peak luminance level, or the histogram might not be representative of the frame.

  • SHOULD aggregate HDR dynamic metadata to generate appropriate HDR static metadata for encoded streams, and they should output it at the end of each encoding session.

If device implementations support HDR capture using the CamcorderProfile APIs then they:

  • [C-6-1] MUST support HDR capture through the Camera2 APIs as well.

  • [C-6-2] MUST support at least one hardware-accelerated video encoder for each HDR technology supported.

  • [C-6-3] MUST support (at the minimum) HLG capture.

  • [C-6-4] MUST support writing the HDR metadata (if applicable to the HDR technology) into the captured video file. For AV1, HEVC, and DolbyVision this means including the metadata into the encoded bitstream.

  • [C-6-5] MUST support P010 and COLOR_FormatYUVP010.

  • [C-6-6] MUST support HDR to SDR tone mapping in the default hardware-accelerated decoder for the captured profile. In other words, if a device can capture HDR10+ HEVC, the default HEVC decoder MUST be able to decode the captured stream in SDR.

HDR Editing Requirements

If device implementations include video encoders that support HDR editing, then they:

  • SHOULD use minimal latency for generating the HDR metadata when not present, and SHOULD gracefully handle situations where the metadata is present for some frames and not for others. This metadata SHOULD be precise (for example, represent the actual peak luminance and histogram of the frame).

If device implementation includes codecs that support FEATURE_HdrEditing, then those codecs:

  • [C-7-1] MUST support at least one HDR profile.

  • [C-7-2] MUST support FEATURE_HdrEditing for all HDR profiles advertised by that codec. In other words, they MUST support generating HDR metadata when not present for all HDR profiles supported that use HDR metadata.

  • [C-7-3] MUST support the following video encoder input formats that fully preserve the HDR decoded signal:

    • RGBA_1010102 (already in the target transfer curve) for both input surface and ByteBuffer and MUST advertise support for COLOR_Format32bitABGR2101010.

If device implementation includes codecs that support FEATURE_HdrEditing, then the device:

  • [C-7-4] MUST advertise support for EXT_YUV_target OpenGL extension.

6. Developer Tools and Options Compatibility

6.1. Инструменты разработчика

Реализации устройства:

  • [C-0-1] MUST support the Android Developer Tools provided in the Android SDK.
  • Android Debug Bridge (adb)

    • [C-0-2] MUST support adb as documented in the Android SDK and the shell commands provided in the AOSP, which can be used by app developers, including dumpsys cmd stats
    • [C-0-11] MUST support the shell command cmd testharness . Upgrading device implementations from an earlier Android version without a persistent data block MAY be exempted from C-0-11.
    • [C-0-3] MUST NOT alter the format or the contents of device system events (batterystats , diskstats, fingerprint, graphicsstats, netstats, notification, procstats) logged via the dumpsys command.
    • [C-0-10] MUST record, without omission, and make the following events accessible and available to the cmd stats shell command and the StatsManager System API class.
      • ActivityForegroundStateChanged
      • AnomalyDetected
      • AppBreadcrumbReported
      • AppCrashOccurred
      • AppStartOccurred
      • BatteryLevelChanged
      • BatterySaverModeStateChanged
      • BleScanResultReceived
      • BleScanStateChanged
      • ChargingStateChanged
      • DeviceIdleModeStateChanged
      • ForegroundServiceStateChanged
      • GpsScanStateChanged
      • JobStateChanged
      • PluggedStateChanged
      • ScheduledJobStateChanged
      • ScreenStateChanged
      • SyncStateChanged
      • SystemElapsedRealtime
      • UidProcessStateChanged
      • WakelockStateChanged
      • WakeupAlarmOccurred
      • WifiLockStateChanged
      • WifiMulticastLockStateChanged
      • WifiScanStateChanged
    • [C-0-4] MUST have the device-side adb daemon be inactive by default and there MUST be a user-accessible mechanism to turn on the Android Debug Bridge.
    • [C-0-5] MUST support secure adb. Android includes support for secure adb. Secure adb enables adb on known authenticated hosts.
    • [C-0-6] MUST provide a mechanism allowing adb to be connected from a host machine. Конкретно:

    If device implementations without a USB port support peripheral mode, they:

    • [C-3-1] MUST implement adb via local-area network (such as Ethernet or Wi-Fi).
    • [C-3-2] MUST provide drivers for Windows 7, 8 and 10, allowing developers to connect to the device using the adb protocol.

    If device implementations support adb connections to a host machine via Wi-Fi or Ethernet, they:

    • [C-4-1] MUST have the AdbManager#isAdbWifiSupported() method return true .

    If device implementations support adb connections to a host machine via Wi-Fi or Ethernet, and includes at least one camera, they:

    • [C-5-1] MUST have the AdbManager#isAdbWifiQrSupported() method return true .
  • Dalvik Debug Monitor Service (ddms)

    • [C-0-7] MUST support all ddms features as documented in the Android SDK. As ddms uses adb, support for ddms SHOULD be inactive by default, but MUST be supported whenever the user has activated the Android Debug Bridge, as above.
  • SysTrace

    • [C-0-9] MUST support the systrace tool as documented in the Android SDK. Systrace must be inactive by default and there MUST be a user-accessible mechanism to turn on Systrace.
  • Перфетто

    • [C-SR-1] Are STRONGLY RECOMMENDED to expose a /system/bin/perfetto binary to the shell user which cmdline complies with the perfetto documentation .
    • [C-SR-2] The perfetto binary is STRONGLY RECOMMENDED to accept as input a protobuf config that complies with the schema defined in the perfetto documentation .
    • [C-SR-3] The perfetto binary is STRONGLY RECOMMENDED to write as output a protobuf trace that complies with the schema defined in the perfetto documentation .
    • [C-SR-4] Are STRONGLY RECOMMENDED to provide, through the perfetto binary, at least the data sources described in the perfetto documentation .
  • Low Memory Killer

    • [C-0-12] MUST write a LMK_KILL_OCCURRED_FIELD_NUMBER Atom to the statsd log when an app is terminated by the Low Memory Killer .
  • Test Harness Mode If device implementations support the shell command cmd testharness and run cmd testharness enable , they:

    • [C-2-1] MUST return true for ActivityManager.isRunningInUserTestHarness()
    • [C-2-2] MUST implement Test Harness Mode as described in Test Harness Mode documentation .
  • GPU work information

    Реализации устройства:

    • [C-0-13] MUST implement the shell command dumpsys gpu --gpuwork to display the aggregated GPU work data returned by the power/gpu_work_period kernel tracepoint, or display no data if the tracepoint is not supported. The AOSP implementation is frameworks/native/services/gpuservice/gpuwork/ .

If device implementations report the support of Vulkan 1.0 or higher via the android.hardware.vulkan.version feature flags, they:

  • [C-1-1] MUST provide an affordance for the app developer to enable/disable GPU debug layers.
  • [C-1-2] MUST, when the GPU debug layers are enabled, enumerate layers in libraries provided by external tools (ie not part of the platform or application package) found in debuggable applications' base directory to support vkEnumerateInstanceLayerProperties() and vkCreateInstance() API methods.

6.2. Параметры разработчика

Android includes support for developers to configure application development-related settings.

Device implementations MUST provide a consistent experience for Developer Options, they:

  • [C-0-1] MUST honor the android.settings.APPLICATION_DEVELOPMENT_SETTINGS intent to show application development-related settings. The upstream Android implementation hides the Developer Options menu by default and enables users to launch Developer Options after pressing seven (7) times on the Settings > About Device > Build Number menu item.
  • [C-0-2] MUST hide Developer Options by default.
  • [C-0-3] MUST provide a clear mechanism that does not give preferential treatment to one third-party app as opposed to another to enable Developer Options. MUST provide a public visible document or website that describes how to enable Developer Options. This document or website MUST be linkable from the Android SDK documents.
  • SHOULD have an ongoing visual notification to the user when Developer Options is enabled and the safety of the user is of concern.
  • MAY temporarily limit access to the Developer Options menu, by visually hiding or disabling the menu, to prevent distraction for scenarios where the safety of the user is of concern.

7. Hardware Compatibility

If a device includes a particular hardware component that has a corresponding API for third-party developers:

  • [C-0-1] The device implementation MUST implement that API as described in the Android SDK documentation.

If an API in the SDK interacts with a hardware component that is stated to be optional and the device implementation does not possess that component:

  • [C-0-2] Complete class definitions (as documented by the SDK) for the component APIs MUST still be presented.
  • [C-0-3] The API's behaviors MUST be implemented as no-ops in some reasonable fashion.
  • [C-0-4] API methods MUST return null values where permitted by the SDK documentation.
  • [C-0-5] API methods MUST return no-op implementations of classes where null values are not permitted by the SDK documentation.
  • [C-0-6] API methods MUST NOT throw exceptions not documented by the SDK documentation.
  • [C-0-7] Device implementations MUST consistently report accurate hardware configuration information via the getSystemAvailableFeatures() and hasSystemFeature(String) methods on the android.content.pm.PackageManager class for the same build fingerprint.

A typical example of a scenario where these requirements apply is the telephony API: Even on non-phone devices, these APIs must be implemented as reasonable no-ops.

7.1. Дисплей и графика

Android includes facilities that automatically adjust application assets and UI layouts appropriately for the device to ensure that third-party applications run well on a variety of hardware configurations . On the Android-compatible display(s) where all third-party Android-compatible applications can run, device implementations MUST properly implement these APIs and behaviors, as detailed in this section.

The units referenced by the requirements in this section are defined as follows:

  • physical diagonal size . The distance in inches between two opposing corners of the illuminated portion of the display.
  • dots per inch (dpi) . The number of pixels encompassed by a linear horizontal or vertical span of 1”. Where dpi values are listed, both horizontal and vertical dpi must fall within the range.
  • aspect ratio . The ratio of the pixels of the longer dimension to the shorter dimension of the screen. For example, a display of 480x854 pixels would be 854/480 = 1.779, or roughly “16:9”.
  • density-independent pixel (dp) . The virtual pixel unit normalized to a 160 dpi screen, calculated as: pixels = dps * (density/160).

7.1.1. Screen Configuration

7.1.1.1. Размер и форма экрана

The Android UI framework supports a variety of different logical screen layout sizes, and allows applications to query the current configuration's screen layout size via Configuration.screenLayout with the SCREENLAYOUT_SIZE_MASK and Configuration.smallestScreenWidthDp .

Реализации устройства:

  • [C-0-1] MUST report the correct layout size for the Configuration.screenLayout as defined in the Android SDK documentation. Specifically, device implementations MUST report the correct logical density-independent pixel (dp) screen dimensions as below:

    • Devices with the Configuration.uiMode set as any value other than UI_MODE_TYPE_WATCH, and reporting a small size for the Configuration.screenLayout , MUST have at least 426 dp x 320 dp.
    • Devices reporting a normal size for the Configuration.screenLayout , MUST have at least 480 dp x 320 dp.
    • Devices reporting a large size for the Configuration.screenLayout , MUST have at least 640 dp x 480 dp.
    • Devices reporting a xlarge size for the Configuration.screenLayout , MUST have at least 960 dp x 720 dp.
  • [C-0-2] MUST correctly honor applications' stated support for screen sizes through the < supports-screens > attribute in the AndroidManifest.xml, as described in the Android SDK documentation.

  • MAY have the Android-compatible display(s) with rounded corners.

If device implementations support UI_MODE_TYPE_NORMAL and include Android-compatible display(s) with rounded corners, they:

  • [C-1-1] MUST ensure that at least one of the following requirements is met:

    • The radius of the rounded corners is less than or equal to 38 dp.
    • When a 15 dp by 15 dp box is anchored at each corner of the logical display, at least one pixel of each box is visible on the screen.
  • SHOULD include user affordance to switch to the display mode with the rectangular corners.

If device implementations include an Android-compatible display(s) that is foldable, or includes a folding hinge between multiple display panels and makes such display(s) available to render third-party apps, they:

If device implementations include an Android-compatible display(s) that is foldable, or includes a folding hinge between multiple display panels and if the hinge or fold crosses a fullscreen application window, they:

  • [C-3-1] MUST report the position, bounds and state of hinge or fold through extensions or sidecar APIs to the application.

For details on correctly implementing the sidecar or extension APIs refer to the public documentation of Window Manager Jetpack .

7.1.1.2. Соотношение сторон экрана

While there is no restriction to the aspect ratio of the physical display for the Android-compatible display(s), the aspect ratio of the logical display where third-party apps are rendered, which can be derived from the height and width values reported through the view.Display APIs and Configuration APIs, MUST meet the following requirements:

  • [C-0-1] Device implementations with Configuration.uiMode set to UI_MODE_TYPE_NORMAL MUST have an aspect ratio value less than or equal to 1.86 (roughly 16:9), unless the app meets one of the following conditions:

  • [C-0-3] Device implementations with the Configuration.uiMode set as UI_MODE_TYPE_WATCH MUST have an aspect ratio value set as 1.0 (1:1).

7.1.1.3. Screen Density

The Android UI framework defines a set of standard logical densities to help application developers target application resources.

  • [C-0-1] By default, device implementations MUST report only one of the Android framework densities that are listed on DisplayMetrics through the DENSITY_DEVICE_STABLE API and this value MUST NOT change at any time; however, the device MAY report a different arbitrary density according to the display configuration changes made by the user (for example, display size) set after initial boot.

  • Device implementations SHOULD define the standard Android framework density that is numerically closest to the physical density of the screen, unless that logical density pushes the reported screen size below the minimum supported. If the standard Android framework density that is numerically closest to the physical density results in a screen size that is smaller than the smallest supported compatible screen size (320 dp width), device implementations SHOULD report the next lowest standard Android framework density.

If there is an affordance to change the display size of the device:

  • [C-1-1] The display size MUST NOT be scaled any larger than 1.5 times the native density or produce an effective minimum screen dimension smaller than 320dp (equivalent to resource qualifier sw320dp), whichever comes first.
  • [C-1-2] Display size MUST NOT be scaled any smaller than 0.85 times the native density.
  • To ensure good usability and consistent font sizes, it is RECOMMENDED that the following scaling of Native Display options be provided (while complying with the limits specified above)
    • Small: 0.85x
    • Default: 1x (Native display scale)
    • Large: 1.15x
    • Larger: 1.3x
    • Largest 1.45x

7.1.2. Display Metrics

If device implementations include the Android-compatible display(s) or video output to the Android-compatible display screen(s), they:

If device implementations does not include an embedded screen or video output, they:

  • [C-2-1] MUST report correct values of the Android-compatible display as defined in the android.util.DisplayMetrics API for the emulated default view.Display .

7.1.3. Ориентация экрана

Реализации устройства:

  • [C-0-1] MUST report which screen orientations they support ( android.hardware.screen.portrait and/or android.hardware.screen.landscape ) and MUST report at least one supported orientation. For example, a device with a fixed orientation landscape screen, such as a television or laptop, SHOULD only report android.hardware.screen.landscape .
  • [C-0-2] MUST report the correct value for the device's current orientation, whenever queried via the android.content.res.Configuration.orientation , android.view.Display.getOrientation() , or other APIs.

If device implementations support both screen orientations, they:

  • [C-1-1] MUST support dynamic orientation by applications to either portrait or landscape screen orientation. That is, the device must respect the application's request for a specific screen orientation.
  • [C-1-2] MUST NOT change the reported screen size or density when changing orientation.
  • MAY select either portrait or landscape orientation as the default.

7.1.4. 2D and 3D Graphics Acceleration

7.1.4.1 OpenGL ES

Реализации устройства:

  • [C-0-1] MUST correctly identify the supported OpenGL ES versions (1.1, 2.0, 3.0, 3.1, 3.2) through the managed APIs (such as via the GLES10.getString() method) and the native APIs.
  • [C-0-2] MUST include the support for all the corresponding managed APIs and native APIs for every OpenGL ES versions they identified to support.

If device implementations include a screen or video output, they:

  • [C-1-1] MUST support both OpenGL ES 1.1 and 2.0, as embodied and detailed in the Android SDK documentation .
  • [C-SR-1] Are STRONGLY RECOMMENDED to support OpenGL ES 3.1.
  • SHOULD support OpenGL ES 3.2.

The OpenGL ES dEQP tests are partitioned into a number of test lists, each with an associated date/version number. These are in the Android source tree at external/deqp/android/cts/main/glesXX-main-YYYY-MM-DD.txt . A device that supports OpenGL ES at a self-reported level indicates that it can pass the dEQP tests in all test lists from this level and earlier.

If device implementations support any of the OpenGL ES versions, they:

  • [C-2-1] MUST report via the OpenGL ES managed APIs and native APIs any other OpenGL ES extensions they have implemented, and conversely MUST NOT report extension strings that they do not support.
  • [C-2-2] MUST support the EGL_KHR_image , EGL_KHR_image_base , EGL_ANDROID_image_native_buffer , EGL_ANDROID_get_native_client_buffer , EGL_KHR_wait_sync , EGL_KHR_get_all_proc_addresses , EGL_ANDROID_presentation_time , EGL_KHR_swap_buffers_with_damage , EGL_ANDROID_recordable , and EGL_ANDROID_GLES_layers extensions.
  • [C-2-3] MUST report the maximum version of the OpenGL ES dEQP tests supported via the android.software.opengles.deqp.level feature flag.
  • [C-2-4] MUST at least support version 132383489 (from Mar 1st, 2020) as reported in the android.software.opengles.deqp.level feature flag.
  • [C-2-5] MUST pass all OpenGL ES dEQP Tests in the test lists between version 132383489 and the version specified in the android.software.opengles.deqp.level feature flag, for each supported OpenGL ES version.
  • [C-SR-2] Are STRONGLY RECOMMENDED to support the EGL_KHR_partial_update and OES_EGL_image_external extensions.
  • SHOULD accurately report via the getString() method, any texture compression format that they support, which is typically vendor-specific.
  • SHOULD support the EGL_IMG_context_priority and EGL_EXT_protected_content extensions.

If device implementations declare support for OpenGL ES 3.0, 3.1, or 3.2, they:

  • [C-3-1] MUST export the corresponding function symbols for these version in addition to the OpenGL ES 2.0 function symbols in the libGLESv2.so library.
  • [C-SR-3] Are STRONGLY RECOMMENDED to support the OES_EGL_image_external_essl3 extension.

If device implementations support OpenGL ES 3.2, they:

  • [C-4-1] MUST support the OpenGL ES Android Extension Pack in its entirety.

If device implementations support the OpenGL ES Android Extension Pack in its entirety, they:

  • [C-5-1] MUST identify the support through the android.hardware.opengles.aep feature flag.

If device implementations expose support for the EGL_KHR_mutable_render_buffer extension, they:

  • [C-6-1] MUST also support the EGL_ANDROID_front_buffer_auto_refresh extension.
7.1.4.2 Vulkan

Android includes support for Vulkan , a low-overhead, cross-platform API for high-performance 3D graphics.

If device implementations support OpenGL ES 3.1, they:

  • [C-SR-1] Are STRONGLY RECOMMENDED to include support for Vulkan 1.3.
  • [C-4-1] MUST NOT support a Vulkan variant version (ie the variant part of the Vulkan core version MUST be zero).

If device implementations include a screen or video output, they:

  • [C-SR-2] Are STRONGLY RECOMMENDED to include support for Vulkan 1.3.

The Vulkan dEQP tests are partitioned into a number of test lists, each with an associated date/version. These are in the Android source tree at external/deqp/android/cts/main/vk-main-YYYY-MM-DD.txt . A device that supports Vulkan at a self-reported level indicates that it can pass the dEQP tests in all test lists from this level and earlier.

If device implementations include support for Vulkan 1.0 or higher, they:

  • [C-1-1] MUST report the correct integer value with the android.hardware.vulkan.level and android.hardware.vulkan.version feature flags.
  • [C-1-2] MUST enumerate, at least one VkPhysicalDevice for the Vulkan native API vkEnumeratePhysicalDevices() .
  • [C-1-3] MUST fully implement the Vulkan 1.0 APIs for each enumerated VkPhysicalDevice .
  • [C-1-4] MUST enumerate layers, contained in native libraries named as libVkLayer*.so in the application package's native library directory, through the Vulkan native APIs vkEnumerateInstanceLayerProperties() and vkEnumerateDeviceLayerProperties() .
  • [C-1-5] MUST NOT enumerate layers provided by libraries outside of the application package, or provide other ways of tracing or intercepting the Vulkan API, unless the application has the android:debuggable attribute set as true .
  • [C-1-6] MUST report all extension strings that they do support via the Vulkan native APIs , and conversely MUST NOT report extension strings that they do not correctly support.
  • [C-1-7] MUST support the VK_KHR_surface, VK_KHR_android_surface, VK_KHR_swapchain, and VK_KHR_incremental_present extensions.
  • [C-1-8] MUST report the maximum version of the Vulkan dEQP Tests supported via the android.software.vulkan.deqp.level feature flag.
  • [C-1-9] MUST at least support version 132317953 (from Mar 1st, 2019) as reported in the android.software.vulkan.deqp.level feature flag.
  • [C-1-10] MUST pass all Vulkan dEQP Tests in the test lists between version 132317953 and the version specified in the android.software.vulkan.deqp.level feature flag.
  • [C-1-11] MUST NOT enumerate support for the VK_KHR_video_queue, VK_KHR_video_decode_queue, or VK_KHR_video_encode_queue extensions.
  • [C-SR-3] Are STRONGLY RECOMMENDED to support the VK_KHR_driver_properties and VK_GOOGLE_display_timing extensions.
  • SHOULD support VkPhysicalDeviceProtectedMemoryFeatures and VK_EXT_global_priority .
  • [C-1-12] MUST NOT enumerate support for the VK_KHR_performance_query extension.
  • [C-SR-4] Are STRONGLY RECOMMENDED to satisfy the requirements specified by the Android Baseline 2021 profile.

If device implementations do not include support for Vulkan 1.0, they:

  • [C-2-1] MUST NOT declare any of the Vulkan feature flags (eg android.hardware.vulkan.level , android.hardware.vulkan.version ).
  • [C-2-2] MUST NOT enumerate any VkPhysicalDevice for the Vulkan native API vkEnumeratePhysicalDevices() .

If device implementations include support for Vulkan 1.1 and declare any of the Vulkan feature flags, they:

  • [C-3-1] MUST expose support for the SYNC_FD external semaphore and handle types and the VK_ANDROID_external_memory_android_hardware_buffer extension.
7.1.4.3 RenderScript
  • [C-0-1] Device implementations MUST support Android RenderScript , as detailed in the Android SDK documentation.
7.1.4.4 2D Graphics Acceleration

Android includes a mechanism for applications to declare that they want to enable hardware acceleration for 2D graphics at the Application, Activity, Window, or View level through the use of a manifest tag android:hardwareAccelerated or direct API calls.

Реализации устройства:

  • [C-0-1] MUST enable hardware acceleration by default, and MUST disable hardware acceleration if the developer so requests by setting android:hardwareAccelerated="false” or disabling hardware acceleration directly through the Android View APIs.
  • [C-0-2] MUST exhibit behavior consistent with the Android SDK documentation on hardware acceleration .

Android includes a TextureView object that lets developers directly integrate hardware-accelerated OpenGL ES textures as rendering targets in a UI hierarchy.

Реализации устройства:

  • [C-0-3] MUST support the TextureView API, and MUST exhibit consistent behavior with the upstream Android implementation.
7.1.4.5 Wide-gamut Displays

If device implementations claim support for wide-gamut displays through Configuration.isScreenWideColorGamut() , they:

  • [C-1-1] MUST have a color-calibrated display.
  • [C-1-2] MUST have a display whose gamut covers the sRGB color gamut entirely in CIE 1931 xyY space.
  • [C-1-3] MUST have a display whose gamut has an area of at least 90% of DCI-P3 in CIE 1931 xyY space.
  • [C-1-4] MUST support OpenGL ES 3.1 or 3.2 and report it properly.
  • [C-1-5] MUST advertise support for the EGL_KHR_no_config_context , EGL_EXT_pixel_format_float , EGL_KHR_gl_colorspace , EGL_EXT_gl_colorspace_scrgb , EGL_EXT_gl_colorspace_scrgb_linear , EGL_EXT_gl_colorspace_display_p3 , EGL_EXT_gl_colorspace_display_p3_linear , and EGL_EXT_gl_colorspace_display_p3_passthrough extensions.
  • [C-SR-1] Are STRONGLY RECOMMENDED to support GL_EXT_sRGB .

Conversely, if device implementations do not support wide-gamut displays, they:

  • [C-2-1] SHOULD cover 100% or more of sRGB in CIE 1931 xyY space, although the screen color gamut is undefined.

7.1.5. Legacy Application Compatibility Mode

Android specifies a “compatibility mode” in which the framework operates in a 'normal' screen size equivalent (320dp width) mode for the benefit of legacy applications not developed for old versions of Android that pre-date screen-size independence.

7.1.6. Screen Technology

The Android platform includes APIs that allow applications to render rich graphics to an Android-compatible display. Devices MUST support all of these APIs as defined by the Android SDK unless specifically allowed in this document.

All of a device implementation's Android-compatible displays:

  • [C-0-1] MUST be capable of rendering 16-bit color graphics.
  • SHOULD support displays capable of 24-bit color graphics.
  • [C-0-2] MUST be capable of rendering animations.
  • [C-0-3] MUST have a pixel aspect ratio (PAR) between 0.9 and 1.15. That is, the pixel aspect ratio MUST be near square (1.0) with a 10 ~ 15% tolerance.

7.1.7. Secondary Displays

Android includes support for secondary Android-compatible displays to enable media sharing capabilities and developer APIs for accessing external displays.

If device implementations support an external display either via a wired, wireless, or an embedded additional display connection, they:

  • [C-1-1] MUST implement the DisplayManager system service and API as described in the Android SDK documentation.

7.2. Input Devices

Реализации устройства:

7.2.1. Клавиатура

If device implementations include support for third-party Input Method Editor (IME) applications, they:

Реализации устройства:

  • [C-0-1] MUST NOT include a hardware keyboard that does not match one of the formats specified in android.content.res.Configuration.keyboard (QWERTY or 12-key).
  • SHOULD include additional soft keyboard implementations.
  • MAY include a hardware keyboard.

7.2.2. Non-touch Navigation

Android includes support for d-pad, trackball, and wheel as mechanisms for non-touch navigation.

Реализации устройства:

If device implementations lack non-touch navigations, they:

  • [C-1-1] MUST provide a reasonable alternative user interface mechanism for the selection and editing of text, compatible with Input Management Engines. The upstream Android open source implementation includes a selection mechanism suitable for use with devices that lack non-touch navigation inputs.

7.2.3. Навигационные клавиши

The Home , Recents , and Back functions typically provided via an interaction with a dedicated physical button or a distinct portion of the touch screen, are essential to the Android navigation paradigm and therefore, device implementations:

  • [C-0-1] MUST provide a user affordance to launch installed applications that have an activity with the <intent-filter> set with ACTION=MAIN and CATEGORY=LAUNCHER or CATEGORY=LEANBACK_LAUNCHER for Television device implementations. The Home function SHOULD be the mechanism for this user affordance.
  • SHOULD provide buttons for the Recents and Back function.

If the Home, Recents, or Back functions are provided, they:

  • [C-1-1] MUST be accessible with a single action (eg tap, double-click or gesture) when any of them are accessible.
  • [C-1-2] MUST provide a clear indication of which single action would trigger each function. Having a visible icon imprinted on the button, showing a software icon on the navigation bar portion of the screen, or walking the user through a guided step-by-step demo flow during the out-of-box setup experience are examples of such an индикация.

Реализации устройства:

  • [C-SR-1] are STRONGLY RECOMMENDED to not provide the input mechanism for the Menu function as it is deprecated in favor of action bar since Android 4.0.

  • [C-SR-2] Are STRONGLY RECOMMENDED to provide all navigation functions as cancellable. 'Cancellable' is defined as the user's ability to prevent the navigation function from executing (eg going home, going back, etc.) if the swipe is not released past a certain threshold.

If device implementations provide the Menu function, they:

  • [C-2-1] MUST display the action overflow button whenever the action overflow menu popup is not empty and the action bar is visible.
  • [C-2-2] MUST NOT modify the position of the action overflow popup displayed by selecting the overflow button in the action bar, but MAY render the action overflow popup at a modified position on the screen when it is displayed by selecting the Menu функция.

If device implementations do not provide the Menu function, for backwards compatibility, they: * [C-3-1] MUST make the Menu function available to applications when targetSdkVersion is less than 10, either by a physical button, a software key, or жесты. This Menu function should be accessible unless hidden together with other navigation functions.

If device implementations provide the Assist function , they:

  • [C-4-1] MUST make the Assist function accessible with a single action (eg tap, double-click or gesture) when other navigation keys are accessible.
  • [C-SR-3] STRONGLY RECOMMENDED to use long press on HOME function as this designated interaction.

If device implementations use a distinct portion of the screen to display the navigation keys, they:

  • [C-5-1] Navigation keys MUST use a distinct portion of the screen, not available to applications, and MUST NOT obscure or otherwise interfere with the portion of the screen available to applications.
  • [C-5-2] MUST make available a portion of the display to applications that meets the requirements defined in section 7.1.1 .
  • [C-5-3] MUST honor the flags set by the app through the View.setSystemUiVisibility() API method, so that this distinct portion of the screen (aka the navigation bar) is properly hidden away as documented in the SDK.

Если функция навигации предоставляется как действие на экране, основанное на жестах:

If a navigation function is provided from anywhere on the left and right edges of the current orientation of the screen:

  • [C-7-1] The navigation function MUST be Back and provided as a swipe from both left and right edges of the current orientation of the screen.
  • [C-7-2] If custom swipeable system panels are provided on the left or right edges, they MUST be placed within the top 1/3rd of the screen with a clear, persistent visual indication that dragging in would invoke the aforementioned panels, and hence not Back. A system panel MAY be configured by a user such that it lands below the top 1/3rd of the screen edge(s) but the system panel MUST NOT use longer than 1/3rd of the edge(s).
  • [C-7-3] When the foreground app has either the View.SYSTEM_UI_FLAG_IMMERSIVE, View.SYSTEM_UI_FLAG_IMMERSIVE_STICKY, WindowInsetsController.BEHAVIOR_DEFAULT, or WindowInsetsController.BEHAVIOR_SHOW_TRANSIENT_BARS_BY_SWIPE flags set, swiping from the edges MUST behave as implemented in AOSP, which is documented in the SDK .
  • [C-7-4] When the foreground app has either the View.SYSTEM_UI_FLAG_IMMERSIVE, View.SYSTEM_UI_FLAG_IMMERSIVE_STICKY, WindowInsetsController.BEHAVIOR_DEFAULT, or WindowInsetsController.BEHAVIOR_SHOW_TRANSIENT_BARS_BY_SWIPE flags set, custom swipeable system panels MUST be hidden until the user brings in or un-dims the system bars (aka navigation and status bar) as implemented in AOSP.

If the back navigation function is provided and the user cancels the Back gesture, then:

  • [C-8-1] OnBackInvokedCallback.onBackCancelled() MUST be called.
  • [C-8-2] OnBackInvokedCallback.onBackInvoked() MUST NOT be called.
  • [C-8-3] KEYCODE_BACK event MUST NOT be dispatched.

If the back navigation function is provided but the foreground application does NOT have an OnBackInvokedCallback registered, then:

  • The system SHOULD provide an animation for the foreground application that suggests that the user is going back, as provided in AOSP.

If device implementations provide support for the system API setNavBarMode to allow any system app with android.permission.STATUS_BAR permission to set the navigation bar mode, then they:

  • [C-9-1] MUST provide support for kid-friendly icons or button-based navigation as provided in the AOSP code.

7.2.4. Touchscreen Input

Android includes support for a variety of pointer input systems, such as touchscreens, touch pads, and fake touch input devices. Touchscreen-based device implementations are associated with a display such that the user has the impression of directly manipulating items on screen. Since the user is directly touching the screen, the system does not require any additional affordances to indicate the objects being manipulated.

Реализации устройства:

  • SHOULD have a pointer input system of some kind (either mouse-like or touch).
  • SHOULD support fully independently tracked pointers.

If device implementations include a touchscreen (single-touch or better) on a primary Android-compatible display, they:

  • [C-1-1] MUST report TOUCHSCREEN_FINGER for the Configuration.touchscreen API field.
  • [C-1-2] MUST report the android.hardware.touchscreen and android.hardware.faketouch feature flags.

If device implementations include a touchscreen that can track more than a single touch on a primary Android-compatible display, they:

  • [C-2-1] MUST report the appropriate feature flags android.hardware.touchscreen.multitouch , android.hardware.touchscreen.multitouch.distinct , android.hardware.touchscreen.multitouch.jazzhand corresponding to the type of the specific touchscreen on the устройство.

If device implementations rely on an external input device such as mouse or trackball (ie not directly touching the screen) for input on a primary Android-compatible display and meet the fake touch requirements in section 7.2.5 , they:

  • [C-3-1] MUST NOT report any feature flag starting with android.hardware.touchscreen .
  • [C-3-2] MUST report only android.hardware.faketouch .
  • [C-3-3] MUST report TOUCHSCREEN_NOTOUCH for the Configuration.touchscreen API field.

7.2.5. Fake Touch Input

Fake touch interface provides a user input system that approximates a subset of touchscreen capabilities. For example, a mouse or remote control that drives an on-screen cursor approximates touch, but requires the user to first point or focus then click. Numerous input devices like the mouse, trackpad, gyro-based air mouse, gyro-pointer, joystick, and multi-touch trackpad can support fake touch interactions. Android includes the feature constant android.hardware.faketouch, which corresponds to a high-fidelity non-touch (pointer-based) input device such as a mouse or trackpad that can adequately emulate touch-based input (including basic gesture support), and indicates that the device supports an emulated subset of touchscreen functionality.

If device implementations do not include a touchscreen but include another pointer input system which they want to make available, they:

  • SHOULD declare support for the android.hardware.faketouch feature flag.

If device implementations declare support for android.hardware.faketouch , they:

  • [C-1-1] MUST report the absolute X and Y screen positions of the pointer location and display a visual pointer on the screen.
  • [C-1-2] MUST report touch event with the action code that specifies the state change that occurs on the pointer going down or up on the screen .
  • [C-1-3] MUST support pointer down and up on an object on the screen, which allows users to emulate tap on an object on the screen.
  • [C-1-4] MUST support pointer down, pointer up, pointer down then pointer up in the same place on an object on the screen within a time threshold, which allows users to emulate double tap on an object on the screen.
  • [C-1-5] MUST support pointer down on an arbitrary point on the screen, pointer move to any other arbitrary point on the screen, followed by a pointer up, which allows users to emulate a touch drag.
  • [C-1-6] MUST support pointer down then allow users to quickly move the object to a different position on the screen and then pointer up on the screen, which allows users to fling an object on the screen.

If device implementations declare support for android.hardware.faketouch.multitouch.distinct , they:

  • [C-2-1] MUST declare support for android.hardware.faketouch .
  • [C-2-2] MUST support distinct tracking of two or more independent pointer inputs.

If device implementations declare support for android.hardware.faketouch.multitouch.jazzhand , they:

  • [C-3-1] MUST declare support for android.hardware.faketouch .
  • [C-3-2] MUST support distinct tracking of 5 (tracking a hand of fingers) or more pointer inputs fully independently.

7.2.6. Game Controller Support

7.2.6.1. Button Mappings

Реализации устройства:

  • [C-1-1] MUST be capable to map HID events to the corresponding InputEvent constants as listed in the below tables. The upstream Android implementation satisfies this requirement.

If device implementations embed a controller or ship with a separate controller in the box that would provide means to input all the events listed in the below tables, they:

  • [C-2-1] MUST declare the feature flag android.hardware.gamepad
Кнопка HID Usage 2 Android Button
А 1 0x09 0x0001 KEYCODE_BUTTON_A (96)
Б 1 0x09 0x0002 KEYCODE_BUTTON_B (97)
х 1 0x09 0x0004 KEYCODE_BUTTON_X (99)
Y 1 0x09 0x0005 KEYCODE_BUTTON_Y (100)
D-pad up 1
D-pad down 1
0x01 0x0039 3 AXIS_HAT_Y 4
D-pad left 1
D-pad right 1
0x01 0x0039 3 AXIS_HAT_X 4
Left shoulder button 1 0x09 0x0007 KEYCODE_BUTTON_L1 (102)
Right shoulder button 1 0x09 0x0008 KEYCODE_BUTTON_R1 (103)
Left stick click 1 0x09 0x000E KEYCODE_BUTTON_THUMBL (106)
Right stick click 1 0x09 0x000F KEYCODE_BUTTON_THUMBR (107)
Назад 1 0x0c 0x0224 KEYCODE_BACK (4)

1 KeyEvent

2 The above HID usages must be declared within a Game pad CA (0x01 0x0005).

3 This usage must have a Logical Minimum of 0, a Logical Maximum of 7, a Physical Minimum of 0, a Physical Maximum of 315, Units in Degrees, and a Report Size of 4. The logical value is defined to be the clockwise rotation away from the vertical axis; for example, a logical value of 0 represents no rotation and the up button being pressed, while a logical value of 1 represents a rotation of 45 degrees and both the up and left keys being pressed.

4 MotionEvent

Analog Controls 1 HID Usage Android Button
Left Trigger 0x02 0x00C5 AXIS_LTRIGGER
Right Trigger 0x02 0x00C4 AXIS_RTRIGGER
Left Joystick 0x01 0x0030
0x01 0x0031
AXIS_X
AXIS_Y
Right Joystick 0x01 0x0032
0x01 0x0035
AXIS_Z
AXIS_RZ

1 MotionEvent

7.2.7. Пульт дистанционного управления

See Section 2.3.1 for device-specific requirements.

7.3. Датчики

If device implementations include a particular sensor type that has a corresponding API for third-party developers, the device implementation MUST implement that API as described in the Android SDK documentation and the Android Open Source documentation on sensors .

Реализации устройства:

  • [C-0-1] MUST accurately report the presence or absence of sensors per the android.content.pm.PackageManager class.
  • [C-0-2] MUST return an accurate list of supported sensors via the SensorManager.getSensorList() and similar methods.
  • [C-0-3] MUST behave reasonably for all other sensor APIs (for example, by returning true or false as appropriate when applications attempt to register listeners, not calling sensor listeners when the corresponding sensors are not present; etc.).

If device implementations include a particular sensor type that has a corresponding API for third-party developers, they:

  • [C-1-1] MUST report all sensor measurements using the relevant International System of Units (metric) values for each sensor type as defined in the Android SDK documentation.
  • [C-1-2] MUST report sensor data with a maximum latency of 100 milliseconds + 2 * sample_time for the case of a sensor stream with a maximum requested latency of 0 ms when the application processor is active. This delay does not include any filtering delays.
  • [C-1-3] MUST report the first sensor sample within 400 milliseconds + 2 * sample_time of the sensor being activated. It is acceptable for this sample to have an accuracy of 0.
  • [C-1-4] For any API indicated by the Android SDK documentation to be a continuous sensor , device implementations MUST continuously provide periodic data samples that SHOULD have a jitter below 3%, where jitter is defined as the standard deviation of the difference of the reported timestamp values between consecutive events.
  • [C-1-5] MUST ensure that the sensor event stream MUST NOT prevent the device CPU from entering a suspend state or waking up from a suspend state.
  • [C-1-6] MUST report the event time in nanoseconds as defined in the Android SDK documentation, representing the time the event happened and synchronized with the SystemClock.elapsedRealtimeNano() clock.
  • [C-SR-1] Are STRONGLY RECOMMENDED to have timestamp synchronization error below 100 milliseconds, and SHOULD have timestamp synchronization error below 1 millisecond.
  • When several sensors are activated, the power consumption SHOULD NOT exceed the sum of the individual sensor's reported power consumption.

The list above is not comprehensive; the documented behavior of the Android SDK and the Android Open Source Documentations on sensors is to be considered authoritative.

If device implementations include a particular sensor type that has a corresponding API for third-party developers, they:

  • [C-1-6] MUST set a non-zero resolution for all sensors, and report the value via the Sensor.getResolution() API method.

Some sensor types are composite, meaning they can be derived from data provided by one or more other sensors. (Examples include the orientation sensor and the linear acceleration sensor.)

Реализации устройства:

  • SHOULD implement these sensor types, when they include the prerequisite physical sensors as described in sensor types .

If device implementations include a composite sensor, they:

  • [C-2-1] MUST implement the sensor as described in the Android Open Source documentation on composite sensors .

If device implementations include a particular sensor type that has a corresponding API for third-party developers and the sensor only reports one value, then device implementations:

  • [C-3-1] MUST set the resolution to 1 for the sensor and report the value via the Sensor.getResolution() API method.

If device implementations include a particular sensor type which supports SensorAdditionalInfo#TYPE_VEC3_CALIBRATION and the sensor is exposed to third-party developers, they:

  • [C-4-1] MUST NOT include any fixed, factory-determined calibration parameters in the data provided.

If device implementations include a combination of 3-axis accelerometer, a 3-axis gyroscope sensor, or a magnetometer sensor, they are:

  • [C-SR-2] STRONGLY RECOMMENDED to ensure the accelerometer, gyroscope and magnetometer have a fixed relative position, such that if the device is transformable (eg foldable), the sensor axes remain aligned and consistent with the sensor coordinate system throughout all possible device transformation states.

7.3.1. Акселерометр

Реализации устройства:

  • [C-SR-1] Are STRONGLY RECOMMENDED to include a 3-axis accelerometer.

If device implementations include an accelerometer, they:

  • [C-1-1] MUST be able to report events up to a frequency of at least 50 Hz.
  • [C-1-3] MUST comply with the Android sensor coordinate system as detailed in the Android APIs.
  • [C-1-4] MUST be capable of measuring from freefall up to four times the gravity(4g) or more on any axis.
  • [C-1-5] MUST have a resolution of at least 12-bits.
  • [C-1-6] MUST have a standard deviation no greater than 0.05 m/s^, where the standard deviation should be calculated on a per axis basis on samples collected over a period of at least 3 seconds at the fastest sampling rate.
  • SHOULD report events up to at least 200 Hz.
  • SHOULD have a resolution of at least 16-bits.
  • SHOULD be calibrated while in use if the characteristics changes over the life cycle and compensated, and preserve the compensation parameters between device reboots.
  • SHOULD be temperature compensated.

Если реализации устройства включают акселерометр 3-осадного, они:

  • [C-2-1] MUST implement and report TYPE_ACCELEROMETER sensor.
  • [C-SR-4] Are STRONGLY RECOMMENDED to implement the TYPE_SIGNIFICANT_MOTION composite sensor.
  • [C-SR-5] Are STRONGLY RECOMMENDED to implement and report TYPE_ACCELEROMETER_UNCALIBRATED sensor. Android devices are STRONGLY RECOMMENDED to meet this requirement so they will be able to upgrade to the future platform release where this might become REQUIRED.
  • SHOULD implement the TYPE_SIGNIFICANT_MOTION , TYPE_TILT_DETECTOR , TYPE_STEP_DETECTOR , TYPE_STEP_COUNTER composite sensors as described in the Android SDK document.

If device implementations include an accelerometer with less than 3 axes, they:

  • [C-3-1] MUST implement and report TYPE_ACCELEROMETER_LIMITED_AXES sensor.
  • [C-SR-6] Are STRONGLY_RECOMMENDED to implement and report TYPE_ACCELEROMETER_LIMITED_AXES_UNCALIBRATED sensor.

If device implementations include a 3-axis accelerometer and any of the TYPE_SIGNIFICANT_MOTION , TYPE_TILT_DETECTOR , TYPE_STEP_DETECTOR , TYPE_STEP_COUNTER composite sensors are implemented:

  • [C-4-1] The sum of their power consumption MUST always be less than 4 mW.
  • SHOULD each be below 2 mW and 0.5 mW for when the device is in a dynamic or static condition.

If device implementations include a 3-axis accelerometer and a 3-axis gyroscope sensor, they:

  • [C-5-1] MUST implement the TYPE_GRAVITY and TYPE_LINEAR_ACCELERATION composite sensors.
  • [C-SR-7] Are STRONGLY RECOMMENDED to implement the TYPE_GAME_ROTATION_VECTOR composite sensor.

If device implementations include a 3-axis accelerometer, a 3-axis gyroscope sensor, and a magnetometer sensor, they:

  • [C-6-1] MUST implement a TYPE_ROTATION_VECTOR composite sensor.

7.3.2. Magnetometer

Реализации устройства:

  • [C-SR-1] Are STRONGLY RECOMMENDED to include a 3-axis magnetometer (compass).

If device implementations include a 3-axis magnetometer, they:

  • [C-1-1] MUST implement the TYPE_MAGNETIC_FIELD sensor.
  • [C-1-2] MUST be able to report events up to a frequency of at least 10 Hz and SHOULD report events up to at least 50 Hz.
  • [C-1-3] MUST comply with the Android sensor coordinate system as detailed in the Android APIs.
  • [C-1-4] MUST be capable of measuring between -900 µT and +900 µT on each axis before saturating.
  • [C-1-5] MUST have a hard iron offset value less than 700 µT and SHOULD have a value below 200 µT, by placing the magnetometer far from dynamic (current-induced) and static (magnet-induced) magnetic fields.
  • [C-1-6] MUST have a resolution equal or denser than 0.6 µT.
  • [C-1-7] MUST support online calibration and compensation of the hard iron bias, and preserve the compensation parameters between device reboots.
  • [C-1-8] MUST have the soft iron compensation applied—the calibration can be done either while in use or during the production of the device.
  • [C-1-9] MUST have a standard deviation, calculated on a per axis basis on samples collected over a period of at least 3 seconds at the fastest sampling rate, no greater than 1.5 µT; SHOULD have a standard deviation no greater than 0.5 µT.
  • [C-1-10] MUST implement the TYPE_MAGNETIC_FIELD_UNCALIBRATED sensor.

If device implementations include a 3-axis magnetometer, an accelerometer sensor, and a 3-axis gyroscope sensor, they:

  • [C-2-1] MUST implement a TYPE_ROTATION_VECTOR composite sensor.

If device implementations include a 3-axis magnetometer, an accelerometer, they:

  • MAY implement the TYPE_GEOMAGNETIC_ROTATION_VECTOR sensor.

If device implementations include a 3-axis magnetometer, an accelerometer and TYPE_GEOMAGNETIC_ROTATION_VECTOR sensor, they:

  • [C-3-1] MUST consume less than 10 mW.
  • SHOULD consume less than 3 mW when the sensor is registered for batch mode at 10 Hz.

7.3.3. GPS

Реализации устройства:

  • [C-SR-1] Are STRONGLY RECOMMENDED to include a GPS/GNSS receiver.

If device implementations include a GPS/GNSS receiver and report the capability to applications through the android.hardware.location.gps feature flag, they:

  • [C-1-1] MUST support location outputs at a rate of at least 1 Hz when requested via LocationManager#requestLocationUpdate .
  • [C-1-2] MUST be able to determine the location in open-sky conditions (strong signals, negligible multipath, HDOP < 2) within 10 seconds (fast time to first fix), when connected to a 0.5 Mbps or faster data speed internet connection. This requirement is typically met by the use of some form of Assisted or Predicted GPS/GNSS technique to minimize GPS/GNSS lock-on time (Assistance data includes Reference Time, Reference Location and Satellite Ephemeris/Clock).
    • [C-1-6] After making such a location calculation, device implementations MUST determine its location, in open sky, within 5 seconds, when location requests are restarted, up to an hour after the initial location calculation, even when the subsequent request is made without a data connection, and/or after a power cycle.
  • In open sky conditions after determining the location, while stationary or moving with less than 1 meter per second squared of acceleration:

    • [C-1-3] MUST be able to determine location within 20 meters, and speed within 0.5 meters per second, at least 95% of the time.
    • [C-1-4] MUST simultaneously track and report via GnssStatus.Callback at least 8 satellites from one constellation.
    • SHOULD be able to simultaneously track at least 24 satellites, from multiple constellations (eg GPS + at least one of Glonass, Beidou, Galileo).
  • [C-SR-2] Are STRONGLY RECOMMENDED to continue to deliver normal GPS/GNSS location outputs through GNSS Location Provider API's during an emergency phone call.

  • [C-SR-3] Are STRONGLY RECOMMENDED to report GNSS measurements from all constellations tracked (as reported in GnssStatus messages), with the exception of SBAS.

  • [C-SR-4] Are STRONGLY RECOMMENDED to report AGC, and Frequency of GNSS measurement.

  • [C-SR-5] Are STRONGLY RECOMMENDED to report all accuracy estimates (including Bearing, Speed, and Vertical) as part of each GPS/GNSS location.

  • [C-SR-6] Are STRONGLY RECOMMENDED to report GNSS measurements, as soon as they are found, even if a location calculated from GPS/GNSS is not yet reported.

  • [C-SR-7] Are STRONGLY RECOMMENDED to report GNSS pseudoranges and pseudorange rates, that, in open-sky conditions after determining the location, while stationary or moving with less than 0.2 meter per second squared of acceleration, are sufficient to calculate position within 20 meters, and speed within 0.2 meters per second, at least 95% of the time.

7.3.4. Гироскоп

Реализации устройства:

  • [C-SR-1] Are STRONGLY RECOMMENDED to include a gyroscope sensor.

If device implementations include a gyroscope, they:

  • [C-1-1] MUST be able to report events up to a frequency of at least 50 Hz.
  • [C-1-4] MUST have a resolution of 12-bits or more.
  • [C-1-5] MUST be temperature compensated.
  • [C-1-6] MUST be calibrated and compensated while in use, and preserve the compensation parameters between device reboots.
  • [C-1-7] MUST have a variance no greater than 1e-7 rad^2 / s^2 per Hz (variance per Hz, or rad^2 / s). The variance is allowed to vary with the sampling rate, but MUST be constrained by this value. In other words, if you measure the variance of the gyro at 1 Hz sampling rate it SHOULD be no greater than 1e-7 rad^2/s^2.
  • [C-SR-2] Calibration error is STRONGLY RECOMMENDED to be less than 0.01 rad/s when device is stationary at room temperature.
  • [C-SR-3] Are STRONGLY RECOMMENDED to have a resolution of 16-bits or more.
  • SHOULD report events up to at least 200 Hz.

If device implementations include a 3-axis gyroscope, they:

If device implementations include a gyroscope with less than 3 axes, they:

  • [C-3-1] MUST implement and report TYPE_GYROSCOPE_LIMITED_AXES sensor.
  • [C-SR-5] Are STRONGLY_RECOMMENDED to implement and report TYPE_GYROSCOPE_LIMITED_AXES_UNCALIBRATED sensor.

If device implementations include a 3-axis gyroscope, an accelerometer sensor and a magnetometer sensor, they:

  • [C-4-1] MUST implement a TYPE_ROTATION_VECTOR composite sensor.

If device implementations include a 3-axis accelerometer and a 3-axis gyroscope sensor, they:

  • [C-5-1] MUST implement the TYPE_GRAVITY and TYPE_LINEAR_ACCELERATION composite sensors.
  • [C-SR-6] Are STRONGLY RECOMMENDED to implement the TYPE_GAME_ROTATION_VECTOR composite sensor.

7.3.5. Барометр

Реализации устройства:

  • [C-SR-1] Are STRONGLY RECOMMENDED to include a barometer (ambient air pressure sensor).

If device implementations include a barometer, they:

  • [C-1-1] MUST implement and report TYPE_PRESSURE sensor.
  • [C-1-2] MUST be able to deliver events at 5 Hz or greater.
  • [C-1-3] MUST be temperature compensated.
  • [C-SR-2] STRONGLY RECOMMENDED to be able to report pressure measurements in the range 300hPa to 1100hPa.
  • SHOULD have an absolute accuracy of 1hPa.
  • SHOULD have a relative accuracy of 0.12hPa over 20hPa range (equivalent to ~1m accuracy over ~200m change at sea level).

7.3.6. Термометр

If device implementations include an ambient thermometer (temperature sensor), they:

  • [C-1-1] MUST define SENSOR_TYPE_AMBIENT_TEMPERATURE for the ambient temperature sensor and the sensor MUST measure the ambient (room/vehicle cabin) temperature from where the user is interacting with the device in degrees Celsius.

If device implementations include a thermometer sensor that measures a temperature other than ambient temperature, such as CPU temperature, they:

If device implementations include a sensor for monitoring skin temperature, then they:

7.3.7. Фотометр

  • Device implementations MAY include a photometer (ambient light sensor).

7.3.8. Датчик приближения

  • Device implementations MAY include a proximity sensor.

If device implementations include a proximity sensor and they report only a binary “near” or “far” reading, they:

  • [C-1-1] MUST measure the proximity of an object in the same direction as the screen. That is, the proximity sensor MUST be oriented to detect objects close to the screen, as the primary intent of this sensor type is to detect a phone in use by the user. If device implementations include a proximity sensor with any other orientation, it MUST NOT be accessible through this API.
  • [C-1-2] MUST have 1-bit of accuracy or more.
  • [C-1-3] MUST use 0 centimeters as the near reading and 5 centimeters as the far reading.
  • [C-1-4] MUST report a maximum range and resolution of 5.

7.3.9. High Fidelity Sensors

If device implementations include a set of higher quality sensors as defined in this section, and make available them to third-party apps, they:

  • [C-1-1] MUST identify the capability through the android.hardware.sensor.hifi_sensors feature flag.

If device implementations declare android.hardware.sensor.hifi_sensors , they:

  • [C-2-1] MUST have a TYPE_ACCELEROMETER sensor which:

    • MUST have a measurement range between at least -8g and +8g, and is STRONGLY RECOMMENDED to have a measurement range between at least -16g and +16g.
    • MUST have a measurement resolution of at least 2048 LSB/g.
    • MUST have a minimum measurement frequency of 12.5 Hz or lower.
    • MUST have a maximum measurement frequency of 400 Hz or higher; SHOULD support the SensorDirectChannel RATE_VERY_FAST .
    • MUST have a measurement noise not above 400 μg/√Hz.
    • MUST implement a non-wake-up form of this sensor with a buffering capability of at least 3000 sensor events.
    • MUST have a batching power consumption not worse than 3 mW.
    • [C-SR-1] Is STRONGLY RECOMMENDED to have 3dB measurement bandwidth of at least 80% of Nyquist frequency, and white noise spectrum within this bandwidth.
    • SHOULD have an acceleration random walk less than 30 μg √Hz tested at room temperature.
    • SHOULD have a bias change vs. temperature of ≤ +/- 1 mg/°C.
    • SHOULD have a best-fit line non-linearity of ≤ 0.5%, and sensitivity change vs. temperature of ≤ 0.03%/C°.
    • SHOULD have cross-axis sensitivity of < 2.5 % and variation of cross-axis sensitivity < 0.2% in device operation temperature range.
  • [C-2-2] MUST have a TYPE_ACCELEROMETER_UNCALIBRATED with the same quality requirements as TYPE_ACCELEROMETER .

  • [C-2-3] MUST have a TYPE_GYROSCOPE sensor which:

    • MUST have a measurement range between at least -1000 and +1000 dps.
    • MUST have a measurement resolution of at least 16 LSB/dps.
    • MUST have a minimum measurement frequency of 12.5 Hz or lower.
    • MUST have a maximum measurement frequency of 400 Hz or higher; SHOULD support the SensorDirectChannel RATE_VERY_FAST .
    • MUST have a measurement noise not above 0.014°/s/√Hz.
    • [C-SR-2] Is STRONGLY RECOMMENDED to have 3dB measurement bandwidth of at least 80% of Nyquist frequency, and white noise spectrum within this bandwidth.
    • SHOULD have a rate random walk less than 0.001 °/s √Hz tested at room temperature.
    • SHOULD have a bias change vs. temperature of ≤ +/- 0.05 °/ s / °C.
    • SHOULD have a sensitivity change vs. temperature of ≤ 0.02% / °C.
    • SHOULD have a best-fit line non-linearity of ≤ 0.2%.
    • SHOULD have a noise density of ≤ 0.007 °/s/√Hz.
    • SHOULD have calibration error less than 0.002 rad/s in temperature range 10 ~ 40 ℃ when device is stationary.
    • SHOULD have g-sensitivity less than 0.1°/s/g.
    • SHOULD have cross-axis sensitivity of < 4.0 % and cross-axis sensitivity variation < 0.3% in device operation temperature range.
  • [C-2-4] MUST have a TYPE_GYROSCOPE_UNCALIBRATED with the same quality requirements as TYPE_GYROSCOPE .

  • [C-2-5] MUST have a TYPE_GEOMAGNETIC_FIELD sensor which:

    • MUST have a measurement range between at least -900 and +900 μT.
    • MUST have a measurement resolution of at least 5 LSB/uT.
    • MUST have a minimum measurement frequency of 5 Hz or lower.
    • MUST have a maximum measurement frequency of 50 Hz or higher.
    • MUST have a measurement noise not above 0.5 uT.
  • [C-2-6] MUST have a TYPE_MAGNETIC_FIELD_UNCALIBRATED with the same quality requirements as TYPE_GEOMAGNETIC_FIELD and in addition:

    • MUST implement a non-wake-up form of this sensor with a buffering capability of at least 600 sensor events.
    • [C-SR-3] Is STRONGLY RECOMMENDED to have white noise spectrum from 1 Hz to at least 10 Hz when the report rate is 50 Hz or higher.
  • [C-2-7] MUST have a TYPE_PRESSURE sensor which:

    • MUST have a measurement range between at least 300 and 1100 hPa.
    • MUST have a measurement resolution of at least 80 LSB/hPa.
    • MUST have a minimum measurement frequency of 1 Hz or lower.
    • MUST have a maximum measurement frequency of 10 Hz or higher.
    • MUST have a measurement noise not above 2 Pa/√Hz.
    • MUST implement a non-wake-up form of this sensor with a buffering capability of at least 300 sensor events.
    • MUST have a batching power consumption not worse than 2 mW.
  • [C-2-8] MUST have a TYPE_GAME_ROTATION_VECTOR sensor.

  • [C-2-9] MUST have a TYPE_SIGNIFICANT_MOTION sensor which:

    • MUST have a power consumption not worse than 0.5 mW when device is static and 1.5 mW when device is moving.
  • [C-2-10] MUST have a TYPE_STEP_DETECTOR sensor which:

    • MUST implement a non-wake-up form of this sensor with a buffering capability of at least 100 sensor events.
    • MUST have a power consumption not worse than 0.5 mW when device is static and 1.5 mW when device is moving.
    • MUST have a batching power consumption not worse than 4 mW.
  • [C-2-11] MUST have a TYPE_STEP_COUNTER sensor which:

    • MUST have a power consumption not worse than 0.5 mW when device is static and 1.5 mW when device is moving.
  • [C-2-12] MUST have a TILT_DETECTOR sensor which:

    • MUST have a power consumption not worse than 0.5 mW when device is static and 1.5 mW when device is moving.
  • [C-2-13] The event timestamp of the same physical event reported by the Accelerometer, Gyroscope, and Magnetometer MUST be within 2.5 milliseconds of each other. The event timestamp of the same physical event reported by the Accelerometer and Gyroscope SHOULD be within 0.25 milliseconds of each other.

  • [C-2-14] MUST have Gyroscope sensor event timestamps on the same time base as the camera subsystem and within 1 milliseconds of error.

  • [C-2-15] MUST deliver samples to applications within 5 milliseconds from the time when the data is available on any of the above physical sensors to the application.

  • [C-2-16] MUST NOT have a power consumption higher than 0.5 mW when device is static and 2.0 mW when device is moving when any combination of the following sensors are enabled:

    • SENSOR_TYPE_SIGNIFICANT_MOTION
    • SENSOR_TYPE_STEP_DETECTOR
    • SENSOR_TYPE_STEP_COUNTER
    • SENSOR_TILT_DETECTORS
  • [C-2-17] MAY have a TYPE_PROXIMITY sensor, but if present MUST have a minimum buffer capability of 100 sensor events.

Note that all power consumption requirements in this section do not include the power consumption of the Application Processor. It is inclusive of the power drawn by the entire sensor chain—the sensor, any supporting circuitry, any dedicated sensor processing system, etc.

If device implementations include direct sensor support, they:

  • [C-3-1] MUST correctly declare support of direct channel types and direct report rates level through the isDirectChannelTypeSupported and getHighestDirectReportRateLevel API.
  • [C-3-2] MUST support at least one of the two sensor direct channel types for all sensors that declare support for sensor direct channel.
  • SHOULD support event reporting through sensor direct channel for primary sensor (non-wakeup variant) of the following types:
    • TYPE_ACCELEROMETER
    • TYPE_ACCELEROMETER_UNCALIBRATED
    • TYPE_GYROSCOPE
    • TYPE_GYROSCOPE_UNCALIBRATED
    • TYPE_MAGNETIC_FIELD
    • TYPE_MAGNETIC_FIELD_UNCALIBRATED

7.3.10. Биометрические датчики

For additional background on Measuring Biometric Unlock Security, please see Measuring Biometric Security documentation .

If device implementations include a secure lock screen, they:

  • SHOULD include a biometric sensor

Biometric sensors can be classified as Class 3 (formerly Strong ), Class 2 (formerly Weak ), or Class 1 (formerly Convenience ) based on their spoof and imposter acceptance rates, and on the security of the biometric pipeline. This classification determines the capabilities the biometric sensor has to interface with the platform and with third-party applications. Sensors need to meet additional requirements as detailed below if they wish to be classified as either Class 1 , Class 2 or Class 3 . Both Class 2 and Class 3 biometrics get additional capabilities as detailed below.

If device implementations make a biometric sensor available to third-party applications via android.hardware.biometrics.BiometricManager , android.hardware.biometrics.BiometricPrompt , and android.provider.Settings.ACTION_BIOMETRIC_ENROLL , they:

  • [C-4-1] MUST meet the requirements for Class 3 or Class 2 biometric as defined in this document.
  • [C-4-2] MUST recognize and honor each parameter name defined as a constant in the Authenticators class and any combinations thereof. Conversely, MUST NOT honor or recognize integer constants passed to the canAuthenticate(int) and setAllowedAuthenticators(int) methods other than those documented as public constants in Authenticators and any combinations thereof.
  • [C-4-3] MUST implement the ACTION_BIOMETRIC_ENROLL action on devices that have either Class 3 or Class 2 biometrics. This action MUST only present the enrollment entry points for Class 3 or Class 2 biometrics.

If device implementations support passive biometrics, they:

  • [C-5-1] MUST by default require an additional confirmation step (eg a button press).
  • [C-SR-1] Are STRONGLY RECOMMENDED to have a setting to allow users to override application preference and always require accompanying confirmation step.
  • [C-SR-2] Are STRONGLY RECOMMENDED to have the confirm action be secured such that an operating system or kernel compromise cannot spoof it. For example, this means that the confirm action based on a physical button is routed through an input-only general-purpose input/output (GPIO) pin of a secure element (SE) that cannot be driven by any other means than a physical button нажимать.
  • [C-5-2] MUST additionally implement an implicit authentication flow (without confirmation step) corresponding to setConfirmationRequired(boolean) , which applications can set to utilize for sign-in flows.

If device implementations have multiple biometric sensors, they:

  • [C-SR-3] Are STRONGLY RECOMMENDED to require only one biometric be confirmed per authentication (eg if both fingerprint and face sensors are available on the device, onAuthenticationSucceeded should be sent after any one of them is confirmed).

In order for device implementations to allow access to keystore keys to third-party applications, they:

  • [C-6-1] MUST meet the requirements for Class 3 as defined in this section below.
  • [C-6-2] MUST present only Class 3 biometrics when the authentication requires BIOMETRIC_STRONG , or the authentication is invoked with a CryptoObject .

If device implementations wish to treat a biometric sensor as Class 1 (formerly Convenience ), they:

  • [C-1-1] MUST have a false acceptance rate less than 0.002%.
  • [C-1-2] MUST disclose that this mode may be less secure than a strong PIN, pattern, or password and clearly enumerate the risks of enabling it, if the spoof and imposter acceptance rates are higher than 7% as measured by the Android Biometrics Test Protocols .
  • [C-1-9] MUST challenge the user for the recommended primary authentication (eg PIN, pattern, password) after no more than twenty false trials and no less than ninety-second backoff time for biometric verification - where a false trial is one with an adequate capture quality (BIOMETRIC_ACQUIRED_GOOD) that does not match an enrolled biometric.
  • [C-SR-4] Are STRONGLY RECOMMENDED to lower the total number of false trials for biometric verification specified in [C-1-9] if the spoof and imposter acceptance rates are higher than 7% as measure by the Android Biometrics Test Protocols .
  • [C-1-3] MUST rate limit attempts for biometric verification - where a false trial is one with an adequate capture quality ( BIOMETRIC_ACQUIRED_GOOD ) that does not match an enrolled biometric.
  • [C-SR-5] Are STRONGLY RECOMMENDED to rate limit attempts for at least 30 seconds after five false trials for biometric verification for the maximum number of false trials per [C-1-9] - where a false trial is one with an adequate capture quality (BIOMETRIC_ACQUIRED_GOOD) that does not match an enrolled biometric.
  • [C-SR-6] Are STRONGLY RECOMMENDED to have all rate limiting logic in TEE.
  • [C-1-10] MUST disable biometrics once primary authentication backoff has first triggered as described in [C-0-2] of section 9.11.
  • [C-1-11] MUST have a spoof and imposter acceptance rate not higher than 30%, with (1) a spoof and imposter acceptance rate for Level A presentation attack instrument (PAI) species not higher than 30%, and (2) a spoof and imposter acceptance rate of Level B PAI species not higher than 40%, as measured by the Android Biometrics Test Protocols.
  • [C-1-4] MUST prevent adding new biometrics without first establishing a chain of trust by having the user confirm existing or add a new device credential (PIN/pattern/password) that's secured by TEE; the Android Open Source Project implementation provides the mechanism in the framework to do so.
  • [C-1-5] MUST completely remove all identifiable biometric data for a user when the user's account is removed (including via a factory reset).
  • [C-1-6] MUST honor the individual flag for that biometric (ie DevicePolicyManager.KEYGUARD_DISABLE_FINGERPRINT , DevicePolicymanager.KEYGUARD_DISABLE_FACE , or DevicePolicymanager.KEYGUARD_DISABLE_IRIS ).
  • [C-1-7] MUST challenge the user for the recommended primary authentication (eg PIN, pattern, password) once every 24 hours or less. Note: Upgrading devices launched on Android version 9 or earlier MUST challenge the user for the recommended primary authentication (eg PIN, pattern, password) once every 72 hours or less.
  • [C-1-8] MUST challenge the user for the recommended primary authentication (eg: PIN, pattern, password) or Class 3 (STRONG) biometric after one of the following:
    • a 4-hour idle timeout period, OR
    • 3 failed biometric authentication attempts.
    • The idle timeout period and the failed authentication count is reset after any successful confirmation of the device credentials. Note: Upgrading devices launched on Android version 9 or earlier MAY be exempted from C-1-8.
  • [C-SR-7] Are STRONGLY RECOMMENDED to use the logic in the framework provided by the Android Open Source Project to enforce constraints specified in [C-1-7] and [C-1-8] for new devices.
  • [C-SR-8] Are STRONGLY RECOMMENDED to have a false rejection rate of less than 10%, as measured on the device.
  • [C-SR-9] Are STRONGLY RECOMMENDED to have a latency below 1 second, measured from when the biometric is detected, until the screen is unlocked, for each enrolled biometric.

If device implementations wish to treat a biometric sensor as Class 2 (formerly Weak ), they:

  • [C-2-1] MUST meet all requirements for Class 1 above.

  • [C-2-2] MUST have a spoof and imposter acceptance rate not higher than 20%, with (1) a spoof and imposter acceptance rate for Level A presentation attack instrument (PAI) species not higher than 20%, and (2) a spoof and imposter acceptance rate of Level B PAI species not higher than 30%, as measured by the Android Biometrics Test Protocols .

  • [C-2-3] MUST perform the biometric matching in an isolated execution environment outside Android user or kernel space, such as the Trusted Execution Environment (TEE), or on a chip with a secure channel to the isolated execution environment.

  • [C-2-4] MUST have all identifiable data encrypted and cryptographically authenticated such that they cannot be acquired, read or altered outside of the isolated execution environment or a chip with a secure channel to the isolated execution environment as documented in the implementation guidelines on the Android Open Source Project site.

  • [C-2-5] For camera based biometrics, while biometric based authentication or enrollment is happening:

    • MUST operate the camera in a mode that prevents camera frames from being read or altered outside the isolated execution environment or a chip with a secure channel to the isolated execution environment.
    • Для решений с одной камерой RGB кадры камеры МОГУТ быть читаемы вне изолированной среды выполнения для поддержки таких операций, как предварительный просмотр для регистрации, но НЕ ДОЛЖНЫ быть изменены.
  • [C-2-6] MUST NOT enable third-party applications to distinguish between individual biometric enrollments.

  • [C-2-7] MUST NOT allow unencrypted access to identifiable biometric data or any data derived from it (such as embeddings) to the Application Processor outside the context of the TEE. Upgrading devices launched on Android version 9 or earlier are not exempted from C-2-7.

  • [C-2-8] MUST have a secure processing pipeline such that an operating system or kernel compromise cannot allow data to be directly injected to falsely authenticate as the user. Note: If device implementations are already launched on Android version 9 or earlier and cannot meet the requirement C-2-8 through a system software update, they MAY be exempted from the requirement.

  • [C-SR-10] Are STRONGLY RECOMMENDED to include liveness detection for all biometric modalities and attention detection for Face biometrics.

  • [C-2-9] MUST make the biometric sensor available to third-party applications.

If device implementations wish to treat a biometric sensor as Class 3 (formerly Strong ), they:

  • [C-3-1] MUST meet all the requirements of Class 2 above, except for [C-1-7] and [C-1-8].
  • [C-3-2] MUST have a hardware-backed keystore implementation.
  • [C-3-3] MUST have a spoof and imposter acceptance rate not higher than 7%, with (1) a spoof and imposter acceptance rate for Level A presentation attack instrument (PAI) species not higher than 7%, and (2) a spoof and imposter acceptance rate of Level B PAI species not higher than 20%, as measured by the Android Biometrics Test Protocols .
  • [C-3-4] MUST challenge the user for the recommended primary authentication (eg PIN, pattern, password) once every 72 hours or less.
  • [C-3-5] MUST re-generate Authenticator ID for all Class 3 biometrics supported on device if any of them is re-enrolled.
  • [C-3-6] Must enable biometric-backed keystore keys to third-party applications.

If device implementations contain an under-display fingerprint sensor (UDFPS), they:

  • [C-SR-11] Are STRONGLY RECOMMENDED to prevent the touchable area of the UDFPS from interfering with 3-button navigation( which some users might require for accessibility purposes).

7.3.11. Pose Sensor

Реализации устройства:

  • MAY support pose sensor with 6 degrees of freedom.

If device implementations support pose sensor with 6 degrees of freedom, they:

  • [C-1-1] MUST implement and report TYPE_POSE_6DOF sensor.
  • [C-1-2] MUST be more accurate than the rotation vector alone.

7.3.12. Hinge Angle Sensor

If device implementations support a hinge angle sensor, they:

7.3.13. IEEE 802.1.15.4 [Moved to 7.4.9]

7.4. Возможность подключения к данным

7.4.1. Телефония

“Telephony” as used by the Android APIs and this document refers specifically to hardware related to placing voice calls and sending SMS messages via a GSM or CDMA network. While these voice calls may or may not be packet-switched, they are for the purposes of Android considered independent of any data connectivity that may be implemented using the same network. In other words, the Android “telephony” functionality and APIs refer specifically to voice calls and SMS. For instance, device implementations that cannot place calls or send/receive SMS messages are not considered a telephony device, regardless of whether they use a cellular network for data connectivity.

  • Android MAY be used on devices that do not include telephony hardware. That is, Android is compatible with devices that are not phones.

If device implementations include GSM or CDMA telephony, they:

  • [C-1-1] MUST declare the android.hardware.telephony feature flag and other sub-feature flags according to the technology.
  • [C-1-2] MUST implement full support for the API for that technology.
  • SHOULD allow all available cellular service types (2G, 3G, 4G, 5G, etc.) during emergency calls (regardless of the network types set by SetAllowedNetworkTypeBitmap() ).

If device implementations do not include telephony hardware, they:

  • [C-2-1] MUST implement the full APIs as no-ops.

If device implementations support eUICCs or eSIMs/embedded SIMs and include a proprietary mechanism to make eSIM functionality available for third-party developers, they:

If device implementations don't set the system property ro.telephony.iwlan\_operation\_mode to 'legacy', then they:

If device implementations support a single IP Multimedia Subsystem (IMS) registration for both multimedia telephony service (MMTEL) and rich communication service (RCS) features and are expected to comply with cellular carrier requirements regarding using a single IMS registration for all IMS signalling traffic, они:

If device implementations report the android.hardware.telephony feature, then:

If the device implementations report the android.hardware.telephony feature and provide a system status bar, then:

  • [C-7-1] MUST select a representative active subscription for a given group UUID to display to the user in any affordances that provide SIM status information. Examples of such affordances include the status bar cellular signal icon or quick settings tile.
  • [C-SR-1] It is STRONGLY RECOMMENDED that the representative subscription is chosen to be the active data subscription unless the device is in a voice call, during which it is STRONGLY RECOMMENDED that the representative subscription is the active voice subscription.

If device implementations report the android.hardware.telephony feature, then:

  • [C-6-7] MUST be capable of opening and concurrently utilizing the maximum number of logical channels (20 in total) for each UICC per ETSI TS 102 221.
  • [C-6-8] MUST NOT apply any of the following behaviors to active carrier apps (as designated by TelephonyManager#getCarrierServicePackageName ) automatically or without explicit user confirmation:
    • Revoke or limit network access
    • Revoke permissions
    • Restrict background or foreground app execution beyond the existing power management features included in AOSP
    • Disable or uninstall the app

If device implementations report the android.hardware.telephony feature and all active, non-opportunistic subscriptions that share a group UUID are disabled, physically removed from the device, or marked opportunistic, then the device:

  • [C-8-1] MUST automatically disable all remaining active opportunistic subscriptions in the same group.

If device implementations include GSM telephony but not CDMA telephony, they:

If the device implementations support eUICCs with multiple ports and profiles, they:

7.4.1.1. Number Blocking Compatibility

If device implementations report the android.hardware.telephony.calling feature, they:

  • [C-1-1] MUST include number blocking support
  • [C-1-2] MUST fully implement BlockedNumberContract and the corresponding API as described in the SDK documentation.
  • [C-1-3] MUST block all calls and messages from a phone number in 'BlockedNumberProvider' without any interaction with apps. The only exception is when number blocking is temporarily lifted as described in the SDK documentation.

  • [C-1-4] MUST write to the platform call log provider for a blocked call and MUST filter calls with BLOCKED_TYPE out of the default call log view in the pre-installed dialer app.

  • [C-1-5] MUST NOT write to the Telephony provider for a blocked message.

  • [C-1-6] MUST implement a blocked numbers management UI, which is opened with the intent returned by TelecomManager.createManageBlockedNumbersIntent() method.

  • [C-1-7] MUST NOT allow secondary users to view or edit the blocked numbers on the device as the Android platform assumes the primary user to have full control of the telephony services, a single instance, on the device. All blocking related UI MUST be hidden for secondary users and the blocked list MUST still be respected.

  • SHOULD migrate the blocked numbers into the provider when a device updates to Android 7.0.

  • SHOULD provide a user affordance to show blocked calls in the pre-installed dialer app.

7.4.1.2. Telecom API

If device implementations report android.hardware.telephony.calling , they:

  • [C-1-1] MUST support the ConnectionService APIs described in the SDK .
  • [C-1-2] MUST display a new incoming call and provide user affordance to accept or reject the incoming call when the user is on an ongoing call that is made by a third-party app that does not support the hold feature specified via CAPABILITY_SUPPORT_HOLD .
  • [C-1-3] MUST have an application that implements InCallService .
  • [C-SR-1] Are STRONGLY RECOMMENDED to notify the user that answering an incoming call will drop an ongoing call.

    The AOSP implementation meets these requirements by a heads-up notification which indicates to the user that answering an incoming call will cause the other call to be dropped.

  • [C-SR-2] Are STRONGLY RECOMMENDED to preload the default dialer app that shows a call log entry and the name of a third-party app in its call log when the third-party app sets the EXTRA_LOG_SELF_MANAGED_CALLS extras key on its PhoneAccount to true .

  • [C-SR-3] Are STRONGLY RECOMMENDED to handle the audio headset's KEYCODE_MEDIA_PLAY_PAUSE and KEYCODE_HEADSETHOOK events for the android.telecom APIs as below:

7.4.1.3. Cellular NAT-T Keepalive Offload

Реализации устройства:

  • SHOULD include support for Cellular keepalive offload.

If device implementations include support for Cellular keepalive offload and exposes the functionality to third-party apps, they:

  • [C-1-1] MUST support the SocketKeepAlive API.
  • [C-1-2] MUST support at least one concurrent keepalive slot over cellular.
  • [C-1-3] MUST support as many concurrent cellular keepalive slots as are supported by the Cellular Radio HAL.
  • [C-SR-1] Are STRONGLY RECOMMENDED to support at least three cellular keepalive slots per radio instance.

If device implementations do not include support for cellular keepalive offload, they:

  • [C-2-1] MUST return ERROR_UNSUPPORTED.

7.4.2. IEEE 802.11 (Wi-Fi)

Реализации устройства:

  • SHOULD include support for one or more forms of 802.11.

If device implementations include support for 802.11 and expose the functionality to a third-party application, they:

  • [C-1-1] MUST implement the corresponding Android API.
  • [C-1-2] MUST report the hardware feature flag android.hardware.wifi .
  • [C-1-3] MUST implement the multicast API as described in the SDK documentation.
  • [C-1-4] MUST support multicast DNS (mDNS) and MUST NOT filter mDNS packets (224.0.0.251) at any time of operation including:
    • Even when the screen is not in an active state.
    • For Android Television device implementations, even when in standby power states.
  • [C-1-5] MUST NOT treat the WifiManager.enableNetwork() API method call as a sufficient indication to switch the currently active Network that is used by default for application traffic and is returned by ConnectivityManager API methods such as getActiveNetwork and registerDefaultNetworkCallback . In other words, they MAY only disable the Internet access provided by any other network provider (eg mobile data) if they successfully validate that the Wi-Fi network is providing Internet access.
  • [C-1-6] Are STRONGLY RECOMMENDED to, when the ConnectivityManager.reportNetworkConnectivity() API method is called, re-evaluate the Internet access on the Network and, once the evaluation determines that the current Network no longer provides Internet access, switch to any other available network (eg mobile data) that provides Internet access.
  • [C-1-7] MUST randomize the source MAC address and sequence number of probe request frames, once at the beginning of each scan, while STA is disconnected.
  • [C-1-8] MUST use one consistent MAC address (SHOULD NOT randomize MAC address halfway through a scan).
  • [C-1-9] MUST iterate probe request sequence number as normal (sequentially) between the probe requests in a scan.
  • [C-1-10] MUST randomize Probe request sequence number between the last probe request of a scan and the first probe request of the next scan.
  • [C-SR-1] Are STRONGLY RECOMMENDED to randomize the source MAC address used for all STA communication to an Access Point (AP) while associating and associated.
    • The device MUST use a different randomized MAC address for each SSID (FQDN for Passpoint) it communicates with.
    • The device MUST provide the user with an option to control the randomization per SSID (FQDN for Passpoint) with non randomized and randomized options, and MUST set the default mode for new Wi-Fi configurations to be randomized.
  • [C-SR-2] Are STRONGLY RECOMMENDED to use a random BSSID for any AP that they create.
    • The MAC address MUST be randomized and persisted per SSID used by the AP.
    • УСТРОЙСТВО МОЖЕТ предоставить пользователю возможность отключить эту функцию. Если такая опция предусмотрена, рандомизация ДОЛЖНА быть включена по умолчанию.

If device implementations include support for Wi-Fi power save mode as defined in IEEE 802.11 standard, they:

  • SHOULD turn off Wi-Fi power save mode whenever an app acquires WIFI_MODE_FULL_HIGH_PERF lock or WIFI_MODE_FULL_LOW_LATENCY lock via WifiManager.createWifiLock() and WifiManager.WifiLock.acquire() APIs and the lock is active.
  • [C-3-2] The average round trip latency between the device and an access point while the device is in a Wi-Fi Low Latency Lock ( WIFI_MODE_FULL_LOW_LATENCY ) mode MUST be smaller than the latency during a Wi-Fi High Perf Lock ( WIFI_MODE_FULL_HIGH_PERF ) mode.
  • [C-SR-3] Are STRONGLY RECOMMENDED to minimize Wi-Fi round trip latency whenever a Low Latency Lock ( WIFI_MODE_FULL_LOW_LATENCY ) is acquired and takes effect.

If device implementations support Wi-Fi and use Wi-Fi for location scanning, they:

7.4.2.1. Wi-Fi прямой

Реализации устройства:

  • SHOULD include support for Wi-Fi Direct (Wi-Fi peer-to-peer).

If device implementations include support for Wi-Fi Direct, they:

  • [C-1-1] MUST implement the corresponding Android API as described in the SDK documentation.
  • [C-1-2] MUST report the hardware feature android.hardware.wifi.direct .
  • [C-1-3] MUST support regular Wi-Fi operation.
  • [C-1-4] MUST support Wi-Fi and Wi-Fi Direct operations concurrently.
  • [C-SR-1] Are STRONGLY RECOMMENDED to randomize the source MAC address for all newly formed Wi-Fi Direct connections.

Реализации устройства:

If device implementations include support for TDLS and TDLS is enabled by the WiFiManager API, they:

  • [C-1-1] MUST declare support for TDLS through WifiManager.isTdlsSupported .
  • SHOULD use TDLS only when it is possible AND beneficial.
  • SHOULD have some heuristic and NOT use TDLS when its performance might be worse than going through the Wi-Fi access point.
7.4.2.3. Wi-Fi Aware

Реализации устройства:

If device implementations include support for Wi-Fi Aware and expose the functionality to third-party apps, then they:

  • [C-1-1] MUST implement the WifiAwareManager APIs as described in the SDK documentation .
  • [C-1-2] MUST declare the android.hardware.wifi.aware feature flag.
  • [C-1-3] MUST support Wi-Fi and Wi-Fi Aware operations concurrently.
  • [C-1-4] MUST randomize the Wi-Fi Aware management interface address at intervals no longer than 30 minutes and whenever Wi-Fi Aware is enabled unless an Aware ranging operation is ongoing or an Aware data-path is active (randomization is not expected for as long as the data-path is active).

If device implementations include support for Wi-Fi Aware and Wi-Fi Location as described in Section 7.4.2.5 and exposes these functionalities to third-party apps, then they:

7.4.2.4. Wi-Fi Passpoint

If device implementations include support for 802.11 (Wi-Fi) they:

  • [C-1-1] MUST include support for Wi-Fi Passpoint .
  • [C-1-2] MUST implement the Passpoint related WifiManager APIs as described in the SDK documentation .
  • [C-1-3] MUST support IEEE 802.11u standard, specifically related to Network Discovery and Selection, such as Generic Advertisement Service (GAS) and Access Network Query Protocol (ANQP).
  • [C-1-4] MUST declare android.hardware.wifi.passpoint feature flag.
  • [C-1-5] MUST follow the AOSP implementation to discover, match and associate to Passpoint networks.
  • [C-1-6] MUST support at least the following subset of device provisioning protocols as defined in the Wi-Fi Alliance Passpoint R2: EAP-TTLS authentication and SOAP-XML.
  • [C-1-7] MUST process the AAA server certificate as described in Hotspot 2.0 R3 specification.
  • [C-1-8] MUST support user control of provisioning through the Wi-Fi picker.
  • [C-1-9] MUST keep Passpoint configurations persistent across reboots.
  • [C-SR-1] Are STRONGLY RECOMMENDED to support the terms and conditions acceptance feature.
  • [C-SR-2] Are STRONGLY RECOMMENDED to support the Venue information feature.

If a global Passpoint disable user control switch is provided, implementations:

  • [C-3-1] MUST enable Passpoint by default.
7.4.2.5. Wi-Fi Location (Wi-Fi Round Trip Time - RTT)

Реализации устройства:

If device implementations include support for Wi-Fi Location and expose the functionality to third-party apps, then they:

  • [C-1-1] MUST implement the WifiRttManager APIs as described in the SDK documentation .
  • [C-1-2] MUST declare the android.hardware.wifi.rtt feature flag.
  • [C-1-3] MUST randomize the source MAC address for each RTT burst which is executed while the Wi-Fi interface on which the RTT is being executed is not associated to an Access Point.
  • [C-1-4] MUST be accurate to within 2 meters at 80 MHz bandwidth at the 68th percentile (as calculated with the Cumulative Distribution Function).
  • [C-SR-1] Are STRONGLY RECOMMENDED to report it accurately to within 1.5 meters at 80 MHz bandwidth at the 68th percentile (as calculated with the Cumulative Distribution Function).
7.4.2.6. Wi-Fi Keepalive Offload

Реализации устройства:

  • SHOULD include support for Wi-Fi keepalive offload.

If device implementations include support for Wi-Fi keepalive offload and expose the functionality to third-party apps, they:

  • [C-1-1] MUST support the SocketKeepAlive API.
  • [C-1-2] MUST support at least three concurrent keepalive slots over Wi-Fi.

If device implementations do not include support for Wi-Fi keepalive offload, they:

7.4.2.7. Wi-Fi Easy Connect (Device Provisioning Protocol)

Реализации устройства:

If device implementations include support for Wi-Fi Easy Connect and expose the functionality to third-party apps, they:

7.4.2.8. Enterprise Wi-Fi Server Certificate Validation

If the Wi-Fi server certificate is not validated or the Wi-Fi server domain name is not set, device implementations:

  • [C-SR-1] Are STRONGLY RECOMMENDED not to provide the user an option to manually add Enterprise Wi-Fi network in the Settings app.
7.4.2.9. Trust On First Use (TOFU)

If device implementations support Trust on first usage (TOFU) and allow the user to define WPA/WPA2/WPA3-Enterprise configurations, then they:

  • [C-4-1] MUST provide the user an option to select to use TOFU.

7.4.3. Bluetooth

If device implementations support Bluetooth Audio profile, they:

  • SHOULD support Advanced Audio Codecs and Bluetooth Audio Codecs (eg LDAC) with A2DP.

If device implementations support HFP, A2DP and AVRCP, they:

  • SHOULD support at least 5 total connected devices.

If device implementations declare android.hardware.vr.high_performance feature, they:

  • [C-1-1] MUST support Bluetooth 4.2 and Bluetooth LE Data Length Extension.

Android includes support for Bluetooth and Bluetooth Low Energy .

If device implementations include support for Bluetooth and Bluetooth Low Energy, they:

  • [C-2-1] MUST declare the relevant platform features ( android.hardware.bluetooth and android.hardware.bluetooth_le respectively) and implement the platform APIs.
  • SHOULD implement relevant Bluetooth profiles such as A2DP, AVRCP, OBEX, HFP, etc. as appropriate for the device.

If device implementations include support for Bluetooth Low Energy (BLE), they:

  • [C-3-1] MUST declare the hardware feature android.hardware.bluetooth_le .
  • [C-3-2] MUST enable the GATT (generic attribute profile) based Bluetooth APIs as described in the SDK documentation and android.bluetooth .
  • [C-3-3] MUST report the correct value for BluetoothAdapter.isOffloadedFilteringSupported() to indicate whether the filtering logic for the ScanFilter API classes is implemented.
  • [C-3-4] MUST report the correct value for BluetoothAdapter.isMultipleAdvertisementSupported() to indicate whether Low Energy Advertising is supported.
  • [C-3-5] MUST implement a Resolvable Private Address (RPA) timeout no longer than 15 minutes and rotate the address at timeout to protect user privacy when device is actively using BLE for scanning or advertising. To prevent timing attacks, timeout intervals MUST also be randomized between 5 and 15 minutes.
  • SHOULD support offloading of the filtering logic to the bluetooth chipset when implementing the ScanFilter API .
  • SHOULD support offloading of the batched scanning to the bluetooth chipset.
  • SHOULD support multi advertisement with at least 4 slots.

If device implementations support Bluetooth LE and use Bluetooth LE for location scanning, they:

  • [C-4-1] MUST provide a user affordance to enable/disable the value read through the System API BluetoothAdapter.isBleScanAlwaysAvailable() .

If device implementations include support for Bluetooth LE and Hearing Aids Profile, as described in Hearing Aid Audio Support Using Bluetooth LE , they:

If device implementations include support for Bluetooth or Bluetooth Low Energy, they:

  • [C-6-1] MUST restrict access to any Bluetooth metadata (such as scan results) which could be used to derive the location of the device, unless the requesting app successfully passes an android.permission.ACCESS_FINE_LOCATION permission check based on its current foreground/background state.

If device implementations include support for Bluetooth or Bluetooth Low Energy and the app manifest does not include a declaration from the developer stating that they are not deriving location from Bluetooth, then, they:

If device implementations return true for the BluetoothAdapter.isLeAudioSupported() API, then they:

  • [C-7-1] MUST support unicast client.
  • [C-7-2] MUST support 2M PHY.
  • [C-7-3] MUST support LE Extended advertising.
  • [C-7-4] MUST support at least 2 CIS connections in a CIG.
  • [C-7-5] MUST enable BAP unicast client, CSIP set coordinator, MCP server, VCP controller, CCP server simultaneously.
  • [C-SR-1] Are STRONGLY RECOMMENDED to enable HAP unicast client.

If device implementations return true for the BluetoothAdapter.isLeAudioBroadcastSourceSupported() API, then they:

  • [C-8-1] MUST support at least 2 BIS links in a BIG.
  • [C-8-2] MUST enable BAP broadcast source, BAP broadcast assistant simultaneously.
  • [C-8-3] MUST support LE Periodic advertising.

If device implementations return true for the BluetoothAdapter.isLeAudioBroadcastAssistantSupported() API, then they:

  • [C-9-1] MUST support PAST (Periodic Advertising Sync Transfer).
  • [C-9-2] MUST support LE Periodic advertising.

If device implementations declare FEATURE_BLUETOOTH_LE , they:

  • [C-10-1] MUST have RSSI measurements be within +/-9dB for 95% of the measurements at 1m distance from a reference device transmitting at ADVERTISE_TX_POWER_HIGH in line of sight environment.
  • [C-10-2] MUST include Rx/Tx corrections to reduce per-channel deviations so that the measurements on each of the 3 channels, on each of the antennas (if multiple are used), are within +/-3dB of one another for 95% of the measurements.
  • [C-SR-2] Are STRONGLY RECOMMENDED to measure and compensate for Rx offset to ensure the median BLE RSSI is -60dBm +/-10 dB at 1m distance from a reference device transmitting at ADVERTISE_TX_POWER_HIGH , where devices are oriented such that they are on 'parallel planes' with screens facing the same direction.
  • [C-SR-3] Are STRONGLY RECOMMENDED to measure and compensate for Tx offset to ensure the median BLE RSSI is -60dBm +/-10 dB when scanning from a reference device positioned at 1m distance and transmitting at ADVERTISE_TX_POWER_HIGH , where devices are oriented such that they are on 'parallel planes' with screens facing the same direction.

НАСТОЯТЕЛЬНО РЕКОМЕНДУЕТСЯ выполнить действия по настройке измерений, указанные в разделе «Калибровка присутствия» .

If device implementations support Bluetooth version 5.0, then they:

  • [C-SR-4] Are STRONGLY RECOMMENDED to provide support for:
    • LE 2M PHY
    • LE Codec PHY
    • LE Advertising Extension
    • Periodic advertising
    • At least 10 advertisement sets
    • At least 8 LE concurrent connections. Each connection can be in either connection topology roles.
    • LE Link Layer Privacy
    • A "resolving list" size of at least 8 entries

7.4.4. Near-Field Communications

Реализации устройства:

  • SHOULD include a transceiver and related hardware for Near-Field Communications (NFC).
  • [C-0-1] MUST implement android.nfc.NdefMessage and android.nfc.NdefRecord APIs even if they do not include support for NFC or declare the android.hardware.nfc feature as the classes represent a protocol-independent data representation format .

If device implementations include NFC hardware and plan to make it available to third-party apps, they:

  • [C-1-1] MUST report the android.hardware.nfc feature from the android.content.pm.PackageManager.hasSystemFeature() method .
  • MUST be capable of reading and writing NDEF messages via the following NFC standards as below:
  • [C-1-2] MUST be capable of acting as an NFC Forum reader/writer (as defined by the NFC Forum technical specification NFCForum-TS-DigitalProtocol-1.0) via the following NFC standards:
    • NfcA (ISO14443-3A)
    • NfcB (ISO14443-3B)
    • NfcF (JIS X 6319-4)
    • IsoDep (ISO 14443-4)
    • NFC Forum Tag Types 1, 2, 3, 4, 5 (defined by the NFC Forum)
  • [C-SR-1] STRONGLY RECOMMENDED to be capable of reading and writing NDEF messages as well as raw data via the following NFC standards. Note that while the NFC standards are stated as STRONGLY RECOMMENDED, the Compatibility Definition for a future version is planned to change these to MUST. These standards are optional in this version but will be required in future versions. Existing and new devices that run this version of Android are very strongly encouraged to meet these requirements now so they will be able to upgrade to the future platform releases.

  • [C-1-13] MUST poll for all supported technologies while in NFC discovery mode.

  • SHOULD be in NFC discovery mode while the device is awake with the screen active and the lock-screen unlocked.

  • SHOULD be capable of reading the barcode and URL (if encoded) of Thinfilm NFC Barcode products.

Note that publicly available links are not available for the JIS, ISO, and NFC Forum specifications cited above.

Android includes support for NFC Host Card Emulation (HCE) mode.

If device implementations include an NFC controller chipset capable of HCE (for NfcA and/or NfcB) and support Application ID (AID) routing, they:

  • [C-2-1] MUST report the android.hardware.nfc.hce feature constant.
  • [C-2-2] MUST support NFC HCE APIs as defined in the Android SDK.

If device implementations include an NFC controller chipset capable of HCE for NfcF, and implement the feature for third-party applications, they:

  • [C-3-1] MUST report the android.hardware.nfc.hcef feature constant.
  • [C-3-2] MUST implement the NfcF Card Emulation APIs as defined in the Android SDK.

If device implementations include general NFC support as described in this section and support MIFARE technologies (MIFARE Classic, MIFARE Ultralight, NDEF on MIFARE Classic) in the reader/writer role, they:

  • [C-4-1] MUST implement the corresponding Android APIs as documented by the Android SDK.
  • [C-4-2] MUST report the feature com.nxp.mifare from the android.content.pm.PackageManager.hasSystemFeature () method. Note that this is not a standard Android feature and as such does not appear as a constant in the android.content.pm.PackageManager class.

7.4.5. Networking protocols and APIs

7.4.5.1. Minimum Network Capability

Реализации устройства:

  • [C-0-1] MUST include support for one or more forms of data networking. Specifically, device implementations MUST include support for at least one data standard capable of 200 Kbit/sec or greater. Examples of technologies that satisfy this requirement include EDGE, HSPA, EV-DO, 802.11g, Ethernet and Bluetooth PAN.
  • SHOULD also include support for at least one common wireless data standard, such as 802.11 (Wi-Fi), when a physical networking standard (such as Ethernet) is the primary data connection.
  • MAY implement more than one form of data connectivity.
7.4.5.2. IPv6

Реализации устройства:

  • [C-0-2] MUST include an IPv6 networking stack and support IPv6 communication using the managed APIs, such as java.net.Socket and java.net.URLConnection , as well as the native APIs, such as AF_INET6 sockets.
  • [C-0-3] MUST enable IPv6 by default.
    • MUST ensure that IPv6 communication is as reliable as IPv4, for example:
      • [C-0-4] MUST maintain IPv6 connectivity in doze mode.
      • [C-0-5] Rate-limiting MUST NOT cause the device to lose IPv6 connectivity on any IPv6-compliant network that uses RA lifetimes of at least 180 seconds.
  • [C-0-6] MUST provide third-party applications with direct IPv6 connectivity to the network when connected to an IPv6 network, without any form of address or port translation happening locally on the device. Both managed APIs such as Socket#getLocalAddress or Socket#getLocalPort ) and NDK APIs such as getsockname() or IPV6_PKTINFO MUST return the IP address and port that is actually used to send and receive packets on the network and is visible as the source ip and port to internet (web) servers.

The required level of IPv6 support depends on the network type, as shown in the following requirements.

If device implementations support Wi-Fi, they:

  • [C-1-1] MUST support dual-stack and IPv6-only operation on Wi-Fi.

If device implementations support Ethernet, they:

  • [C-2-1] MUST support dual-stack and IPv6-only operation on Ethernet.

If device implementations support Cellular data, they:

  • [C-3-1] MUST support IPv6 operation (IPv6-only and possibly dual-stack) on cellular.

If device implementations support more than one network type (eg, Wi-Fi and cellular data), they:

  • [C-4-1] MUST simultaneously meet the above requirements on each network when the device is simultaneously connected to more than one network type.
7.4.5.3. Captive Portals

A captive portal refers to a network that requires sign-in in order to obtain internet access.

If device implementations provide a complete implementation of the android.webkit.Webview API , they:

  • [C-1-1] MUST provide a captive portal application to handle the intent ACTION_CAPTIVE_PORTAL_SIGN_IN and display the captive portal login page, by sending that intent, on call to the System API ConnectivityManager#startCaptivePortalApp(Network, Bundle) .
  • [C-1-2] MUST perform detection of captive portals and support login through the captive portal application when the device is connected to any network type, including cellular/mobile network, WiFi, Ethernet or Bluetooth.
  • [C-1-3] MUST support logging in to captive portals using cleartext DNS when the device is configured to use private DNS strict mode.
  • [C-1-4] MUST use encrypted DNS as per the SDK documentation for android.net.LinkProperties.getPrivateDnsServerName and android.net.LinkProperties.isPrivateDnsActive for all network traffic that is not explicitly communicating with the captive portal.
  • [C-1-5] MUST ensure that, while the user is logging in to a captive portal, the default network used by applications (as returned by ConnectivityManager.getActiveNetwork , ConnectivityManager.registerDefaultNetworkCallback , and used by default by Java networking APIs such as java.net.Socket, and native APIs such as connect()) is any other available network that provides internet access, if available.

7.4.6. Sync Settings

Реализации устройства:

7.4.7. Экономия данных

If device implementations include a metered connection, they are:

  • [C-SR-1] STRONGLY RECOMMENDED to provide the data saver mode.

If device implementations provide the data saver mode, they:

  • [C-1-1] MUST support all the APIs in the ConnectivityManager class as described in the SDK documentation

If device implementations do not provide the data saver mode, they:

7.4.8. Secure Elements

If device implementations support Open Mobile API -capable secure elements and make them available to third-party apps, they:

7.4.9. СШП

If device implementations include support for 802.1.15.4 and expose the functionality to a third-party application, then they:

  • [C-1-1] MUST implement the corresponding Android API in android.uwb.
  • [C-1-2] MUST report the hardware feature flag android.hardware.uwb.
  • [C-1-3] MUST support all the relevant UWB profiles defined in Android implementation.
  • [C-1-4] MUST provide a user affordance to allow the user to toggle the UWB radio on/off state.
  • [C-1-5] MUST enforce that apps using UWB radio hold UWB_RANGING permission (under NEARBY_DEVICES permission group).
  • [C-SR-1] Are STRONGLY RECOMMENDED to pass the relevant conformance and certification tests defined by standard organizations, including FIRA , CCC and CSA .

    • [C-1-6] MUST ensure the distance measurements are within +/-15 cm for 95% of the measurements in the line of sight environment at 1m distance in a non-reflective chamber.
    • [C-1-7] MUST ensure that the median of the distance measurements at 1m from the reference device is within [0.75m, 1.25m], where ground truth distance is measured from the top edge of the DUT held face up and tilted 45 градусов.
    • [C-SR-2] Are STRONGLY RECOMMENDED to follow the measurement setup steps specified in Presence Calibration .

7.5. Камеры

If device implementations include at least one camera, they:

  • [C-1-1] MUST declare the android.hardware.camera.any feature flag.
  • [C-1-2] MUST be possible for an application to simultaneously allocate 3 RGBA_8888 bitmaps equal to the size of the images produced by the largest-resolution camera sensor on the device, while camera is open for the purpose of basic preview and still захватывать.
  • [C-1-3] MUST ensure that the preinstalled default camera application handling intents MediaStore.ACTION_IMAGE_CAPTURE , MediaStore.ACTION_IMAGE_CAPTURE_SECURE , or MediaStore.ACTION_VIDEO_CAPTURE , is responsible for removing the user location in the image metadata before sending it to the receiving application when the receiving application does not have ACCESS_FINE_LOCATION .

If device implementations support HDR 10-bit output capability, then they:

  • [C-2-1] MUST support at least the HLG HDR profile for every camera device that supports 10-bit output.
  • [C-2-2] MUST support 10-bit output for either the primary rear-facing or the primary front-facing camera.
  • [C-SR-1] Are STRONGLY RECOMMENDED to support 10-bit output for both primary cameras.
  • [C-2-3] MUST support the same HDR profiles for all BACKWARD_COMPATIBLE-capable physical sub-cameras of a logical camera, and the logical camera itself.

For Logical camera devices which support 10-bit HDR that implement the android.hardware.camera2.CaptureRequest#CONTROL_ZOOM_RATIO API, they:

  • [C-3-1] MUST support switching between all the backwards-compatible physical cameras via the CONTROL_ZOOM_RATIO control on the logical camera.

7.5.1. Задняя камера

A rear-facing camera is a camera located on the side of the device opposite the display; that is, it images scenes on the far side of the device, like a traditional camera.

Реализации устройства:

  • SHOULD include a rear-facing camera.

If device implementations include at least one rear-facing camera, they:

  • [C-1-1] MUST report the feature flag android.hardware.camera and android.hardware.camera.any .
  • [C-1-2] MUST have a resolution of at least 2 megapixels.
  • SHOULD have either hardware auto-focus or software auto-focus implemented in the camera driver (transparent to application software).
  • MAY have fixed-focus or EDOF (extended depth of field) hardware.
  • MAY include a flash.

If the camera includes a flash:

  • [C-2-1] the flash lamp MUST NOT be lit while an android.hardware.Camera.PreviewCallback instance has been registered on a Camera preview surface, unless the application has explicitly enabled the flash by enabling the FLASH_MODE_AUTO or FLASH_MODE_ON attributes of a Camera.Parameters object. Note that this constraint does not apply to the device's built-in system camera application, but only to third-party applications using Camera.PreviewCallback .

7.5.2. Фронтальная камера

A front-facing camera is a camera located on the same side of the device as the display; that is, a camera typically used to image the user, such as for video conferencing and similar applications.

Реализации устройства:

  • MAY include a front-facing camera.

If device implementations include at least one front-facing camera, they:

  • [C-1-1] MUST report the feature flag android.hardware.camera.any and android.hardware.camera.front .
  • [C-1-2] MUST have a resolution of at least VGA (640x480 pixels).
  • [C-1-3] MUST NOT use a front-facing camera as the default for the Camera API and MUST NOT configure the API to treat a front-facing camera as the default rear-facing camera, even if it is the only camera на устройстве.
  • [C-1-4] The camera preview MUST be mirrored horizontally relative to the orientation specified by the application when the current application has explicitly requested that the Camera display be rotated via a call to the android.hardware.Camera.setDisplayOrientation() method . Conversely, the preview MUST be mirrored along the device's default horizontal axis when the current application does not explicitly request that the Camera display be rotated via a call to the android.hardware.Camera.setDisplayOrientation() method.
  • [C-1-5] MUST NOT mirror the final captured still image or video streams returned to application callbacks or committed to media storage.
  • [C-1-6] MUST mirror the image displayed by the postview in the same manner as the camera preview image stream.
  • MAY include features (such as auto-focus, flash, etc.) available to rear-facing cameras as described in section 7.5.1 .

If device implementations are capable of being rotated by user (such as automatically via an accelerometer or manually via user input):

  • [C-2-1] The camera preview MUST be mirrored horizontally relative to the device's current orientation.

7.5.3. Внешняя камера

Реализации устройства:

  • MAY include support for an external camera that is not necessarily always connected.

If device implementations include support for an external camera, they:

  • [C-1-1] MUST declare the platform feature flag android.hardware.camera.external and android.hardware camera.any .
  • [C-1-2] MUST support USB Video Class (UVC 1.0 or higher) if the external camera connects through the USB host port.
  • [C-1-3] MUST pass camera CTS tests with a physical external camera device connected. Details of camera CTS testing are available at source.android.com .
  • SHOULD support video compressions such as MJPEG to enable transfer of high-quality unencoded streams (ie raw or independently compressed picture streams).
  • MAY support multiple cameras.
  • MAY support camera-based video encoding.

If camera-based video encoding is supported:

  • [C-2-1] A simultaneous unencoded / MJPEG stream (QVGA or greater resolution) MUST be accessible to the device implementation.

7.5.4. Поведение API камеры

Android includes two API packages to access the camera, the newer android.hardware.camera2 API expose lower-level camera control to the app, including efficient zero-copy burst/streaming flows and per-frame controls of exposure, gain, white balance gains, color conversion, denoising, sharpening, and more.

The older API package, android.hardware.Camera , is marked as deprecated in Android 5.0 but as it should still be available for apps to use. Android device implementations MUST ensure the continued support of the API as described in this section and in the Android SDK.

All features that are common between the deprecated android.hardware.Camera class and the newer android.hardware.camera2 package MUST have equivalent performance and quality in both APIs. For example, with equivalent settings, autofocus speed and accuracy must be identical, and the quality of captured images must be the same. Features that depend on the different semantics of the two APIs are not required to have matching speed or quality, but SHOULD match as closely as possible.

Device implementations MUST implement the following behaviors for the camera-related APIs, for all available cameras. Реализации устройства:

  • [C-0-1] MUST use android.hardware.PixelFormat.YCbCr_420_SP for preview data provided to application callbacks when an application has never called android.hardware.Camera.Parameters.setPreviewFormat(int) .
  • [C-0-2] MUST further be in the NV21 encoding format when an application registers an android.hardware.Camera.PreviewCallback instance and the system calls the onPreviewFrame() method and the preview format is YCbCr_420_SP, the data in the byte[] passed into onPreviewFrame() . That is, NV21 MUST be the default.
  • [C-0-3] MUST support the YV12 format (as denoted by the android.graphics.ImageFormat.YV12 constant) for camera previews for both front- and rear-facing cameras for android.hardware.Camera . (The hardware video encoder and camera may use any native pixel format, but the device implementation MUST support conversion to YV12.)
  • [C-0-4] MUST support the android.hardware.ImageFormat.YUV_420_888 and android.hardware.ImageFormat.JPEG formats as outputs through the android.media.ImageReader API for android.hardware.camera2 devices that advertise REQUEST_AVAILABLE_CAPABILITIES_BACKWARD_COMPATIBLE capability in android.request.availableCapabilities .
  • [C-0-5] MUST still implement the full Camera API included in the Android SDK documentation, regardless of whether the device includes hardware autofocus or other capabilities. For instance, cameras that lack autofocus MUST still call any registered android.hardware.Camera.AutoFocusCallback instances (even though this has no relevance to a non-autofocus camera.) Note that this does apply to front-facing cameras; for instance, even though most front-facing cameras do not support autofocus, the API callbacks must still be “faked” as described.
  • [C-0-6] MUST recognize and honor each parameter name defined as a constant in the android.hardware.Camera.Parameters class and the android.hardware.camera2.CaptureRequest class. Conversely, device implementations MUST NOT honor or recognize string constants passed to the android.hardware.Camera.setParameters() method other than those documented as constants on the android.hardware.Camera.Parameters . That is, device implementations MUST support all standard Camera parameters if the hardware allows, and MUST NOT support custom Camera parameter types. For instance, device implementations that support image capture using high dynamic range (HDR) imaging techniques MUST support camera parameter Camera.SCENE_MODE_HDR .
  • [C-0-7] MUST report the proper level of support with the android.info.supportedHardwareLevel property as described in the Android SDK and report the appropriate framework feature flags .
  • [C-0-8] MUST also declare its individual camera capabilities of android.hardware.camera2 via the android.request.availableCapabilities property and declare the appropriate feature flags ; MUST define the feature flag if any of its attached camera devices supports the feature.
  • [C-0-9] MUST broadcast the Camera.ACTION_NEW_PICTURE intent whenever a new picture is taken by the camera and the entry of the picture has been added to the media store.
  • [C-0-10] MUST broadcast the Camera.ACTION_NEW_VIDEO intent whenever a new video is recorded by the camera and the entry of the picture has been added to the media store.
  • [C-0-11] MUST have all cameras accessible via the deprecated android.hardware.Camera API also accessible via the android.hardware.camera2 API.
  • [C-0-12] MUST ensure that the facial appearance is NOT altered, including but not limited to altering facial geometry, facial skin tone, or facial skin smoothening for any android.hardware.camera2 or android.hardware.Camera API.
  • [C-SR-1] For devices with multiple RGB cameras facing in the same direction, are STRONGLY RECOMMENDED to support a logical camera device that lists capability CameraMetadata.REQUEST_AVAILABLE_CAPABILITIES_LOGICAL_MULTI_CAMERA , consisting of all of the RGB cameras facing that direction as physical sub-devices .

If device implementations provide a proprietary camera API to 3rd-party apps, they:

7.5.5. Ориентация камеры

If device implementations have a front- or a rear-facing camera, such camera(s):

  • [C-1-1] MUST be oriented so that the long dimension of the camera aligns with the screen's long dimension. That is, when the device is held in the landscape orientation, cameras MUST capture images in the landscape orientation. This applies regardless of the device's natural orientation; that is, it applies to landscape-primary devices as well as portrait-primary devices.

Devices that fulfill all of the following criteria are exempt from the requirement above:

  • The device implements variable-geometry screens, such as foldable or hinged displays.
  • When the device's fold or hinge state changes, the device switches between portrait-primary to landscape-primary (or vice-versa) orientations.

7.6. Память и хранение

7.6.1. Minimum Memory and Storage

Реализации устройства:

  • [C-0-1] MUST include a Download Manager that applications MAY use to download data files and they MUST be capable of downloading individual files of at least 100MB in size to the default "cache" location.

7.6.2. Application Shared Storage

Реализации устройства:

  • [C-0-1] MUST offer storage to be shared by applications, also often referred as "shared external storage", "application shared storage" or by the Linux path "/sdcard" it is mounted on.
  • [C-0-2] MUST be configured with shared storage mounted by default, in other words "out of the box", regardless of whether the storage is implemented on an internal storage component or a removable storage medium (eg Secure Digital card slot ).
  • [C-0-3] MUST mount the application shared storage directly on the Linux path sdcard or include a Linux symbolic link from sdcard to the actual mount point.
  • [C-0-4] MUST enable scoped storage by default for all apps targeting API level 29 or above, except in the following situation:
    • When the app has requested android:requestLegacyExternalStorage="true" in their manifest.
  • [C-0-5] MUST redact location metadata, such as GPS Exif tags, stored in media files when those files are accessed through MediaStore , except when the calling app holds the ACCESS_MEDIA_LOCATION permission.

Device implementations MAY meet the above requirements using either of the following:

  • User-accessible removable storage, such as a Secure Digital (SD) card slot.
  • A portion of the internal (non-removable) storage as implemented in the Android Open Source Project (AOSP).

If device implementations use removable storage to satisfy the above requirements, they:

  • [C-1-1] MUST implement a toast or pop-up user interface warning the user when there is no storage medium inserted in the slot.
  • [C-1-2] MUST include a FAT-formatted storage medium (eg SD card) or show on the box and other material available at time of purchase that the storage medium has to be purchased separately.

If device implementations use a portion of the non-removable storage to satisfy the above requirements, they:

  • SHOULD use the AOSP implementation of the internal application shared storage.
  • MAY share the storage space with the application private data.

If device implementations have a USB port with USB peripheral mode support, they:

  • [C-3-1] MUST provide a mechanism to access the data on the application shared storage from a host computer.
  • SHOULD expose content from both storage paths transparently through Android's media scanner service and android.provider.MediaStore .
  • MAY use USB mass storage, but SHOULD use Media Transfer Protocol to satisfy this requirement.

If device implementations have a USB port with USB peripheral mode and support Media Transfer Protocol, they:

  • SHOULD be compatible with the reference Android MTP host, Android File Transfer .
  • SHOULD report a USB device class of 0x00.
  • SHOULD report a USB interface name of 'MTP'.

7.6.3. Adoptable Storage

If the device is expected to be mobile in nature unlike Television, device implementations are:

  • [C-SR-1] STRONGLY RECOMMENDED to implement the adoptable storage in a long-term stable location, since accidentally disconnecting them can cause data loss/corruption.

If the removable storage device port is in a long-term stable location, such as within the battery compartment or other protective cover, device implementations are:

7.7. USB

If device implementations have a USB port, they:

  • SHOULD support USB peripheral mode and SHOULD support USB host mode.
  • SHOULD support disabling data signaling over USB.

7.7.1. USB peripheral mode

If device implementations include a USB port supporting peripheral mode:

  • [C-1-1] The port MUST be connectable to a USB host that has a standard type-A or type-C USB port.
  • [C-1-2] MUST report the correct value of iSerialNumber in USB standard device descriptor through android.os.Build.SERIAL .
  • [C-1-3] MUST detect 1.5A and 3.0A chargers per the Type-C resistor standard and MUST detect changes in the advertisement if they support Type-C USB.
  • [C-SR-1] The port SHOULD use micro-B, micro-AB or Type-C USB form factor. Existing and new Android devices are STRONGLY RECOMMENDED to meet these requirements so they will be able to upgrade to the future platform releases.
  • [C-SR-2] The port SHOULD be located on the bottom of the device (according to natural orientation) or enable software screen rotation for all apps (including home screen), so that the display draws correctly when the device is oriented with the port at bottom. Existing and new Android devices are STRONGLY RECOMMENDED to meet these requirements so they will be able to upgrade to future platform releases.
  • [C-SR-3] SHOULD implement support to draw 1.5 A current during HS chirp and traffic as specified in the USB Battery Charging specification, revision 1.2 . Existing and new Android devices are STRONGLY RECOMMENDED to meet these requirements so they will be able to upgrade to the future platform releases.
  • [C-SR-4] STRONGLY RECOMMENDED to not support proprietary charging methods that modify Vbus voltage beyond default levels, or alter sink/source roles as such may result in interoperability issues with the chargers or devices that support the standard USB Power Delivery methods. While this is called out as "STRONGLY RECOMMENDED", in future Android versions we might REQUIRE all type-C devices to support full interoperability with standard type-C chargers.
  • [C-SR-5] STRONGLY RECOMMENDED to support Power Delivery for data and power role swapping when they support Type-C USB and USB host mode.
  • SHOULD support Power Delivery for high-voltage charging and support for Alternate Modes such as display out.
  • SHOULD implement the Android Open Accessory (AOA) API and specification as documented in the Android SDK documentation.

If device implementations include a USB port and implement the AOA specification, they:

  • [C-2-1] MUST declare support for the hardware feature android.hardware.usb.accessory .
  • [C-2-2] The USB mass storage class MUST include the string "android" at the end of the interface description iInterface string of the USB mass storage

7.7.2. USB host mode

If device implementations include a USB port supporting host mode, they:

  • [C-1-1] MUST implement the Android USB host API as documented in the Android SDK and MUST declare support for the hardware feature android.hardware.usb.host .
  • [C-1-2] MUST implement support to connect standard USB peripherals, in other words, they MUST either:
    • Have an on-device type C port or ship with cable(s) adapting an on-device proprietary port to a standard USB type-C port (USB Type-C device).
    • Have an on-device type A or ship with cable(s) adapting an on-device proprietary port to a standard USB type-A port.
    • Have an on-device micro-AB port, which SHOULD ship with a cable adapting to a standard type-A port.
  • [C-1-3] MUST NOT ship with an adapter converting from USB type A or micro-AB ports to a type-C port (receptacle).
  • [C-SR-1] Are STRONGLY RECOMMENDED to implement the USB audio class as documented in the Android SDK documentation.
  • SHOULD support charging the connected USB peripheral device while in host mode; advertising a source current of at least 1.5A as specified in the Termination Parameters section of the USB Type-C Cable and Connector Specification Revision 1.2 for USB Type-C connectors or using Charging Downstream Port(CDP) output current range as specified in the USB Battery Charging specifications, revision 1.2 for Micro-AB connectors.
  • SHOULD implement and support USB Type-C standards.

If device implementations include a USB port supporting host mode and the USB audio class, they:

  • [C-2-1] MUST support the USB HID class .
  • [C-2-2] MUST support the detection and mapping of the following HID data fields specified in the USB HID Usage Tables and the Voice Command Usage Request to the KeyEvent constants as below:
    • Usage Page (0xC) Usage ID (0x0CD): KEYCODE_MEDIA_PLAY_PAUSE
    • Usage Page (0xC) Usage ID (0x0E9): KEYCODE_VOLUME_UP
    • Usage Page (0xC) Usage ID (0x0EA): KEYCODE_VOLUME_DOWN
    • Usage Page (0xC) Usage ID (0x0CF): KEYCODE_VOICE_ASSIST

If device implementations include a USB port supporting host mode and the Storage Access Framework (SAF), they:

  • [C-3-1] MUST recognize any remotely connected MTP (Media Transfer Protocol) devices and make their contents accessible through the ACTION_GET_CONTENT , ACTION_OPEN_DOCUMENT , and ACTION_CREATE_DOCUMENT intents. .

If device implementations include a USB port supporting host mode and USB Type-C, they:

  • [C-4-1] MUST implement Dual Role Port functionality as defined by the USB Type-C specification (section 4.5.1.3.3). For Dual Role Ports, On devices that include a 3.5mm audio jack, the USB sink detection (host mode) MAY be off by default but it MUST be possible for the user to enable it.
  • [C-SR-2] STRONGLY RECOMMENDED to support DisplayPort, SHOULD support USB SuperSpeed Data Rates, and are STRONGLY RECOMMENDED to support Power Delivery for data and power role swapping.
  • [C-SR-3] STRONGLY RECOMMENDED to NOT support Audio Adapter Accessory Mode as described in the Appendix A of the USB Type-C Cable and Connector Specification Revision 1.2 .
  • SHOULD implement the Try.* model that is most appropriate for the device form factor. For example a handheld device SHOULD implement the Try.SNK model.

7.8. Аудио

7.8.1. Микрофон

If device implementations include a microphone, they:

  • [C-1-1] MUST report the android.hardware.microphone feature constant.
  • [C-1-2] MUST meet the audio recording requirements in section 5.4 .
  • [C-1-3] MUST meet the audio latency requirements in section 5.6 .
  • [C-SR-1] Are STRONGLY RECOMMENDED to support near-ultrasound recording as described in section 7.8.3 .

If device implementations omit a microphone, they:

  • [C-2-1] MUST NOT report the android.hardware.microphone feature constant.
  • [C-2-2] MUST implement the audio recording API at least as no-ops, per section 7 .

7.8.2. Audio Output

If device implementations include a speaker or an audio/multimedia output port for an audio output peripheral such as a 4 conductor 3.5mm audio jack or USB host mode port using USB audio class , they:

  • [C-1-1] MUST report the android.hardware.audio.output feature constant.
  • [C-1-2] MUST meet the audio playback requirements in section 5.5 .
  • [C-1-3] MUST meet the audio latency requirements in section 5.6 .
  • [C-SR-1] STRONGLY RECOMMENDED to support near-ultrasound playback as described in section 7.8.3 .

If device implementations do not include a speaker or audio output port, they:

  • [C-2-1] MUST NOT report the android.hardware.audio.output feature.
  • [C-2-2] MUST implement the Audio Output related APIs as no-ops at least.

For the purposes of this section, an "output port" is a physical interface such as a 3.5mm audio jack, HDMI, or USB host mode port with USB audio class. Support for audio output over radio-based protocols such as Bluetooth, WiFi, or cellular network does not qualify as including an "output port".

7.8.2.1. Analog Audio Ports

In order to be compatible with the headsets and other audio accessories using the 3.5mm audio plug across the Android ecosystem, if device implementations include one or more analog audio ports, they:

  • [C-SR-1] Are STRONGLY RECOMMENDED to include at least one of the audio port(s) to be a 4 conductor 3.5mm audio jack.

If device implementations have a 4 conductor 3.5mm audio jack, they:

  • [C-1-1] MUST support audio playback to stereo headphones and stereo headsets with a microphone.
  • [C-1-2] MUST support TRRS audio plugs with the CTIA pin-out order.
  • [C-1-3] MUST support the detection and mapping to the keycodes for the following 3 ranges of equivalent impedance between the microphone and ground conductors on the audio plug:
    • 70 ohm or less : KEYCODE_HEADSETHOOK
    • 210-290 ohm : KEYCODE_VOLUME_UP
    • 360-680 ohm : KEYCODE_VOLUME_DOWN
  • [C-1-4] MUST trigger ACTION_HEADSET_PLUG upon a plug insert, but only after all contacts on plug are touching their relevant segments on the jack.
  • [C-1-5] MUST be capable of driving at least 150mV ± 10% of output voltage on a 32 ohm speaker impedance.
  • [C-1-6] MUST have a microphone bias voltage between 1.8V ~ 2.9V.
  • [C-1-7] MUST detect and map to the keycode for the following range of equivalent impedance between the microphone and ground conductors on the audio plug:
    • 110-180 ohm: KEYCODE_VOICE_ASSIST
  • [C-SR-2] Are STRONGLY RECOMMENDED to support audio plugs with the OMTP pin-out order.
  • [C-SR-3] Are STRONGLY RECOMMENDED to support audio recording from stereo headsets with a microphone.

If device implementations have a 4 conductor 3.5mm audio jack and support a microphone, and broadcast the android.intent.action.HEADSET_PLUG with the extra value microphone set as 1, they:

  • [C-2-1] MUST support the detection of microphone on the plugged in audio accessory.
7.8.2.2. Digital Audio Ports

See Section 2.2.1 for device-specific requirements.

7.8.3. Near-Ultrasound

Near-Ultrasound audio is the 18.5 kHz to 20 kHz band.

Реализации устройства:

If PROPERTY_SUPPORT_MIC_NEAR_ULTRASOUND is "true", the following requirements MUST be met by the VOICE_RECOGNITION and UNPROCESSED audio sources:

  • [C-1-1] The microphone's mean power response in the 18.5 kHz to 20 kHz band MUST be no more than 15 dB below the response at 2 kHz.
  • [C-1-2] The microphone's unweighted signal to noise ratio over 18.5 kHz to 20 kHz for a 19 kHz tone at -26 dBFS MUST be no lower than 50 dB.

If PROPERTY_SUPPORT_SPEAKER_NEAR_ULTRASOUND is "true":

  • [C-2-1] The speaker's mean response in 18.5 kHz - 20 kHz MUST be no lower than 40 dB below the response at 2 kHz.

7.8.4. Signal Integrity

Реализации устройства:

  • SHOULD provide a glitch-free audio signal path for both input and output streams on handheld devices, as defined by zero glitches measured during a test of one minute per path. Test using OboeTester “Automated Glitch Test”.

The test requires an audio loopback dongle , used directly in a 3.5mm jack, and/or in combination with a USB-C to 3.5mm adapter. All audio output ports SHOULD be tested.

OboeTester currently supports AAudio paths, so the following combinations SHOULD be tested for glitches using AAudio:

Perf Mode Совместное использование Out Sample Rate In Chans Out Chans
LOW_LATENCY ЭКСКЛЮЗИВ НЕУКАЗАНО 1 2
LOW_LATENCY ЭКСКЛЮЗИВ НЕУКАЗАНО 2 1
LOW_LATENCY ОБЩИЙ НЕУКАЗАНО 1 2
LOW_LATENCY ОБЩИЙ НЕУКАЗАНО 2 1
НИКТО ОБЩИЙ 48000 1 2
НИКТО ОБЩИЙ 48000 2 1
НИКТО ОБЩИЙ 44100 1 2
НИКТО ОБЩИЙ 44100 2 1
НИКТО ОБЩИЙ 16000 1 2
НИКТО ОБЩИЙ 16000 2 1

A reliable stream SHOULD meet the following criteria for Signal to Noise Ratio (SNR) and Total Harmonic Distortion (THD) for 2000 Hz sine.

Преобразователь КНИ ОСШ
primary built-in speaker, measured using an external reference microphone < 3.0% >= 50 dB
primary built-in microphone, measured using an external reference speaker < 3.0% >= 50 dB
built-in analog 3.5 mm jacks, tested using loopback adapter < 1% >= 60 dB
USB adapters supplied with the phone, tested using loopback adapter < 1.0% >= 60 dB

7.9. Виртуальная реальность

Android includes APIs and facilities to build "Virtual Reality" (VR) applications including high quality mobile VR experiences. Device implementations MUST properly implement these APIs and behaviors, as detailed in this section.

7.9.1. Virtual Reality Mode

Android includes support for VR Mode , a feature which handles stereoscopic rendering of notifications and disables monocular system UI components while a VR application has user focus.

7.9.2. Virtual Reality Mode - High Performance

If device implementations support VR mode, they:

  • [C-1-1] MUST have at least 2 physical cores.
  • [C-1-2] MUST declare the android.hardware.vr.high_performance feature.
  • [C-1-3] MUST support sustained performance mode.
  • [C-1-4] MUST support OpenGL ES 3.2.
  • [C-1-5] MUST support android.hardware.vulkan.level 0.
  • SHOULD support android.hardware.vulkan.level 1 or higher.
  • [C-1-6] MUST implement EGL_KHR_mutable_render_buffer , EGL_ANDROID_front_buffer_auto_refresh , EGL_ANDROID_get_native_client_buffer , EGL_KHR_fence_sync , EGL_KHR_wait_sync , EGL_IMG_context_priority , EGL_EXT_protected_content , EGL_EXT_image_gl_colorspace , and expose the extensions in the list of available EGL extensions.
  • [C-1-8] MUST implement GL_EXT_multisampled_render_to_texture2 , GL_OVR_multiview , GL_OVR_multiview2 , GL_EXT_protected_textures , and expose the extensions in the list of available GL extensions.
  • [C-SR-1] Are STRONGLY RECOMMENDED to implement GL_EXT_external_buffer , GL_EXT_EGL_image_array , GL_OVR_multiview_multisampled_render_to_texture , and expose the extensions in the list of available GL extensions.
  • [C-SR-2] Are STRONGLY RECOMMENDED to support Vulkan 1.1.
  • [C-SR-3] Are STRONGLY RECOMMENDED to implement VK_ANDROID_external_memory_android_hardware_buffer , VK_GOOGLE_display_timing , VK_KHR_shared_presentable_image , and expose it in the list of available Vulkan extensions.
  • [C-SR-4] Are STRONGLY RECOMMENDED to expose at least one Vulkan queue family where flags contain both VK_QUEUE_GRAPHICS_BIT and VK_QUEUE_COMPUTE_BIT , and queueCount is at least 2.
  • [C-1-7] The GPU and display MUST be able to synchronize access to the shared front buffer such that alternating-eye rendering of VR content at 60fps with two render contexts will be displayed with no visible tearing artifacts.
  • [C-1-9] MUST implement support for AHardwareBuffer flags AHARDWAREBUFFER_USAGE_GPU_DATA_BUFFER , AHARDWAREBUFFER_USAGE_SENSOR_DIRECT_DATA and AHARDWAREBUFFER_USAGE_PROTECTED_CONTENT as described in the NDK.
  • [C-1-10] MUST implement support for AHardwareBuffer s with any combination of the usage flags AHARDWAREBUFFER_USAGE_GPU_COLOR_OUTPUT , AHARDWAREBUFFER_USAGE_GPU_SAMPLED_IMAGE , AHARDWAREBUFFER_USAGE_PROTECTED_CONTENT for at least the following formats: AHARDWAREBUFFER_FORMAT_R5G6B5_UNORM , AHARDWAREBUFFER_FORMAT_R8G8B8A8_UNORM , AHARDWAREBUFFER_FORMAT_R10G10B10A2_UNORM , AHARDWAREBUFFER_FORMAT_R16G16B16A16_FLOAT .
  • [C-SR-5] Are STRONGLY RECOMMENDED to support the allocation of AHardwareBuffer s with more than one layer and flags and formats specified in C-1-10.
  • [C-1-11] MUST support H.264 decoding at least 3840 x 2160 at 30fps, compressed to an average of 40Mbps (equivalent to 4 instances of 1920 x1080 at 30 fps-10 Mbps or 2 instances of 1920 x 1080 at 60 fps-20 Mbps).
  • [C-1-12] MUST support HEVC and VP9, MUST be capable of decoding at least 1920 x 1080 at 30 fps compressed to an average of 10 Mbps and SHOULD be capable of decoding 3840 x 2160 at 30 fps-20 Mbps (equivalent to 4 instances of 1920 x 1080 at 30 fps-5 Mbps).
  • [C-1-13] MUST support HardwarePropertiesManager.getDeviceTemperatures API and return accurate values for skin temperature.
  • [C-1-14] MUST have an embedded screen, and its resolution MUST be at least 1920 x 1080.
  • [C-SR-6] Are STRONGLY RECOMMENDED to have a display resolution of at least 2560 x 1440.
  • [C-1-15] The display MUST update at least 60 Hz while in VR Mode.
  • [C-1-17] The display MUST support a low-persistence mode with ≤ 5 milliseconds persistence, persistence being defined as the amount of time for which a pixel is emitting light.
  • [C-1-18] MUST support Bluetooth 4.2 and Bluetooth LE Data Length Extension section 7.4.3 .
  • [C-1-19] MUST support and properly report Direct Channel Type for all of the following default sensor types:
    • TYPE_ACCELEROMETER
    • TYPE_ACCELEROMETER_UNCALIBRATED
    • TYPE_GYROSCOPE
    • TYPE_GYROSCOPE_UNCALIBRATED
    • TYPE_MAGNETIC_FIELD
    • TYPE_MAGNETIC_FIELD_UNCALIBRATED
  • [C-SR-7] Are STRONGLY RECOMMENDED to support the TYPE_HARDWARE_BUFFER direct channel type for all Direct Channel Types listed above.
  • [C-1-21] MUST meet the gyroscope, accelerometer, and magnetometer related requirements for android.hardware.hifi_sensors , as specified in section 7.3.9 .
  • [C-SR-8] Are STRONGLY RECOMMENDED to support the android.hardware.sensor.hifi_sensors feature.
  • [C-1-22] MUST have end-to-end motion to photon latency not higher than 28 milliseconds.
  • [C-SR-9] Are STRONGLY RECOMMENDED to have end-to-end motion to photon latency not higher than 20 milliseconds.
  • [C-1-23] MUST have first-frame ratio, which is the ratio between the brightness of pixels on the first frame after a transition from black to white and the brightness of white pixels in steady state, of at least 85%.
  • [C-SR-10] Are STRONGLY RECOMMENDED to have first-frame ratio of at least 90%.
  • MAY provide an exclusive core to the foreground application and MAY support the Process.getExclusiveCores API to return the numbers of the cpu cores that are exclusive to the top foreground application.

If exclusive core is supported, then the core:

  • [C-2-1] MUST not allow any other userspace processes to run on it (except device drivers used by the application), but MAY allow some kernel processes to run as necessary.

7.10. Haptics

See Section 2.2.1 for device-specific requirements.

7.11. Media Performance Class

The media performance class of the device implementation can be obtained from the android.os.Build.VERSION_CODES.MEDIA_PERFORMANCE_CLASS API. Requirements for media performance class are defined for each Android version starting with R (version 30). The special value of 0 designates that the device is not of a media performance class.

If device implementations return non-zero value for android.os.Build.VERSION_CODES.MEDIA_PERFORMANCE_CLASS , they:

  • [C-1-1] MUST return at least a value of android.os.Build.VERSION_CODES.R .

  • [C-1-2] MUST be a handheld device implementation.

  • [C-1-3] MUST meet all requirements for "Media Performance Class" described in section 2.2.7 .

In other words, media performance class in Android T is only defined for handheld devices at version T, S or R.

See section 2.2.7 for device-specific requirements.

8. Performance and Power

Some minimum performance and power criteria are critical to the user experience and impact the baseline assumptions developers would have when developing an app.

8.1. User Experience Consistency

A smooth user interface can be provided to the end user if there are certain minimum requirements to ensure a consistent frame rate and response times for applications and games. Device implementations, depending on the device type, MAY have measurable requirements for the user interface latency and task switching as described in section 2 .

8.2. File I/O Access Performance

Providing a common baseline for a consistent file access performance on the application private data storage ( /data partition) allows app developers to set a proper expectation that would help their software design. Device implementations, depending on the device type, MAY have certain requirements described in section 2 for the following read and write operations:

  • Sequential write performance . Measured by writing a 256MB file using 10MB write buffer.
  • Random write performance . Measured by writing a 256MB file using 4KB write buffer.
  • Sequential read performance . Measured by reading a 256MB file using 10MB write buffer.
  • Random read performance . Measured by reading a 256MB file using 4KB write buffer.

8.3. Power-Saving Modes

If device implementations include features to improve device power management that are included in AOSP (eg App Standby Bucket, Doze) or extend the features to apply stronger restrictions than the RESTRICTED App Standby Bucket , they:

  • [C-1-1] MUST NOT deviate from the AOSP implementation for the triggering, maintenance, wakeup algorithms and the use of global system settings or DeviceConfig of App Standby and Doze power-saving modes.
  • [C-1-2] MUST NOT deviate from the AOSP implementation for the use of global settings or DeviceConfig to manage the throttling of jobs, alarm and network for apps in each bucket for App standby.
  • [C-1-3] MUST NOT deviate from the AOSP implementation for the number of the App Standby Buckets used for App Standby.
  • [C-1-4] MUST implement App Standby Buckets and Doze as described in Power Management .
  • [C-1-5] MUST return true for PowerManager.isPowerSaveMode() when the device is on power save mode.
  • [C-1-6] MUST provide user affordance to display all apps that are exempted from App Standby and Doze power-saving modes or any battery optimizations and MUST implement the ACTION_REQUEST_IGNORE_BATTERY_OPTIMIZATIONS intent to ask the user to allow an app to ignore battery optimizations.
  • [C-SR-1] Are STRONGLY RECOMMENDED to provide user affordance to enable and disable the battery saver feature.
  • [C-SR-2] Are STRONGLY RECOMMENDED to provide user affordance to display all apps that are exempted from App Standby and Doze power-saving modes.

If device implementations extend power management features that are included in AOSP and that extension applies more stringent restrictions than the Rare App Standby Bucket , refer to section 3.5.1 .

In addition to the power-saving modes, Android device implementations MAY implement any or all of the 4 sleeping power states as defined by the Advanced Configuration and Power Interface (ACPI).

If device implementations implement S4 power states as defined by the ACPI, they:

  • [C-1-1] MUST enter this state only after the user has taken an explicit action to put the device in an inactive state (eg by closing a lid that is physically part of the device or turning off a vehicle or television) and before the user re-activates the device (eg by opening the lid or turning the vehicle or television back on).

If device implementations implement S3 power states as defined by the ACPI, they:

  • [C-2-1] MUST meet C-1-1 above, or, MUST enter S3 state only when third-party applications do not need the system resources (eg the screen, CPU).

    Conversely, MUST exit from S3 state when third-party applications need the system resources, as described on this SDK.

    For example, while the third-party applications request to keep the screen on through FLAG_KEEP_SCREEN_ON or keep CPU running through PARTIAL_WAKE_LOCK , the device MUST NOT enter S3 state unless, as described in C-1-1, the user has taken explicit action to put the device in an inactive state. Conversely, at a time when a task that third-party apps implement through JobScheduler is triggered or Firebase Cloud Messaging is delivered to third-party apps, the device MUST exit the S3 state unless the user has put the device in an inactive state. These are not comprehensive examples and AOSP implements extensive wake-up signals that trigger a wakeup from this state.

8.4. Power Consumption Accounting

A more accurate accounting and reporting of the power consumption provides the app developer both the incentives and the tools to optimize the power usage pattern of the application.

Реализации устройства:

  • [C-SR-1] STRONGLY RECOMMENDED to provide a per-component power profile that defines the current consumption value for each hardware component and the approximate battery drain caused by the components over time as documented in the Android Open Source Project site.
  • [C-SR-2] STRONGLY RECOMMENDED to report all power consumption values in milliampere hours (mAh).
  • [C-SR-3] STRONGLY RECOMMENDED to report CPU power consumption per each process's UID. Проект Android с открытым исходным кодом соответствует этому требованию благодаря реализации модуля ядра uid_cputime .
  • [C-SR-4] STRONGLY RECOMMENDED to make this power usage available via the adb shell dumpsys batterystats shell command to the app developer.
  • SHOULD be attributed to the hardware component itself if unable to attribute hardware component power usage to an application.

8.5. Consistent Performance

Performance can fluctuate dramatically for high-performance long-running apps, either because of the other apps running in the background or the CPU throttling due to temperature limits. Android includes programmatic interfaces so that when the device is capable, the top foreground application can request that the system optimize the allocation of the resources to address such fluctuations.

Реализации устройства:

If device implementations report support of Sustained Performance Mode, they:

  • [C-1-1] MUST provide the top foreground application a consistent level of performance for at least 30 minutes, when the app requests it.
  • [C-1-2] MUST honor the Window.setSustainedPerformanceMode() API and other related APIs.

If device implementations include two or more CPU cores, they:

  • SHOULD provide at least one exclusive core that can be reserved by the top foreground application.

If device implementations support reserving one exclusive core for the top foreground application, they:

  • [C-2-1] MUST report through the Process.getExclusiveCores() API method the ID numbers of the exclusive cores that can be reserved by the top foreground application.
  • [C-2-2] MUST not allow any user space processes except the device drivers used by the application to run on the exclusive cores, but MAY allow some kernel processes to run as necessary.

If device implementations do not support an exclusive core, they:

9. Security Model Compatibility

Реализации устройства:

  • [C-0-1] MUST implement a security model consistent with the Android platform security model as defined in Security and Permissions reference document in the APIs in the Android developer documentation.

  • [C-0-2] MUST support installation of self-signed applications without requiring any additional permissions/certificates from any third parties/authorities.

If device implementations declare the android.hardware.security.model.compatible feature, they:

  • [C-1-1] MUST support the requirements listed in the following subsections.

9.1. Разрешения

Реализации устройства:

  • [C-0-1] MUST support the Android permissions model and the Android Roles Model as defined in the Android developer documentation. Specifically, they MUST enforce each permission and role defined as described in the SDK documentation; no permissions and no roles may be omitted, altered, or ignored.

  • MAY add additional permissions, provided the new permission ID strings are not in the android.\* namespace.

  • [C-0-2] Permissions with a protectionLevel of PROTECTION_FLAG_PRIVILEGED MUST only be granted to apps preinstalled in the privileged path(s) of the system image (as well as APEX files ) and be within the subset of the explicitly allowlisted permissions for each приложение. The AOSP implementation meets this requirement by reading and honoring the allowlisted permissions for each app from the files in the etc/permissions/ path and using the system/priv-app path as the privileged path.

Permissions with a protection level of dangerous are runtime permissions. Applications with targetSdkVersion > 22 request them at runtime.

Реализации устройства:

  • [C-0-3] MUST show a dedicated interface for the user to decide whether to grant the requested runtime permissions and also provide an interface for the user to manage runtime permissions.
  • [C-0-4] MUST have one and only one implementation of both user interfaces. If the device implementation supports a companion device, the companion device MAY provide an additional interface.
  • [C-0-5] MUST NOT grant any runtime permissions to apps unless:

    • They are installed at time of device shipment, AND
    • The user's consent can be obtained before the application uses the permission,

      ИЛИ

    • The runtime permissions are granted by the default permission grant policy or for holding a platform role .

  • [C-0-6] MUST grant the android.permission.RECOVER_KEYSTORE permission only to system apps that register a properly secured Recovery Agent. A properly secured Recovery Agent is defined as an on-device software agent that synchronizes with an off-device remote storage, that is equipped with secure hardware with protection equivalent or stronger than what is described in Google Cloud Key Vault Service to prevent brute-force attacks on the lockscreen knowledge factor.

Реализации устройства:

  • [C-0-7] MUST adhere to Android location permission properties when an app requests the location or physical activity data through standard Android API or proprietary mechanism. Such data includes but not limited to:

    • Device's location (eg latitude and longitude) as described in section 9.8.8 .
    • Information that can be used to determine or estimate the device's location (eg SSID, BSSID, Cell ID, or location of the network that the device is connected to).
    • User's physical activity or classification of the physical activity.

More specifically, device implementations:

  • [C-0-8] MUST obtain user consent to allow an app to access the location or physical activity data.
  • [C-0-9] MUST grant a runtime permission ONLY to the app that holds sufficient permission as described on SDK. For example, TelephonyManager#getServiceState requires android.permission.ACCESS_FINE_LOCATION ).

The only exceptions to the Android location permission properties above are for apps not accessing Location to derive or identify user location; конкретно:

  • When apps hold the RADIO_SCAN_WITHOUT_LOCATION permission.
  • For device configuration and setup purposes, where system apps hold the NETWORK_SETTINGS or NETWORK_SETUP_WIZARD permission.

Permissions can be marked as restricted altering their behavior.

  • [C-0-10] Permissions marked with the flag hardRestricted MUST NOT be granted to an app unless:

    • An app APK file is in the system partition.
    • The user assigns a role that is associated with the hardRestricted permissions to an app.
    • The installer grants the hardRestricted to an app.
    • An app is granted the hardRestricted on an earlier Android version.
  • [C-0-11] Apps holding a softRestricted permission MUST get only limited access and MUST NOT gain full access until allowlisted as described in the SDK, where full and limited access is defined for each softRestricted permission (for example, READ_EXTERNAL_STORAGE ).

  • [C-0-12] MUST NOT provide any custom functions or APIs to bypass the permission restrictions defined in setPermissionPolicy and setPermissionGrantState APIs.

  • [C-0-13] MUST use the AppOpsManager APIs to record and track each and every programmatic access of data protected by dangerous permissions from Android activities and services.

  • [C-0-14] MUST only assign roles to applications with functionalities that meet the role requirements.

  • [C-0-15] MUST not define roles that are duplicates or superset functionality of roles defined by the platform.

If devices report android.software.managed_users , they:

  • [C-1-1] MUST NOT have the following permissions silently granted by the admin:
    • Location (ACCESS_BACKGROUND_LOCATION, ACCESS_COARSE_LOCATION, ACCESS_FINE_LOCATION).
    • Camera (CAMERA)
    • Microphone (RECORD_AUDIO)
    • Body sensor (BODY_SENSORS)
    • Physical activity (ACTIVITY_RECOGNITION)

If device implementations provide a user affordance to choose which apps can draw on top of other apps with an activity that handles the ACTION_MANAGE_OVERLAY_PERMISSION intent, they:

  • [C-2-1] MUST ensure that all activities with intent filters for the ACTION_MANAGE_OVERLAY_PERMISSION intent have the same UI screen, regardless of the initiating app or any information it provides.

If device implementations report android.software.device_admin, they:

  • [C-3-1] MUST show a disclaimer during fully managed device setup (device owner setup) stating that the IT admin will have the ability to allow apps to control settings on the phone including microphone, camera and location, with options for user to continue setup or exit setup UNLESS the admin has opted out of control of permissions on the device.

If device implementations pre-install any packages that hold any of the System UI Intelligence , System Ambient Audio Intelligence , System Audio Intelligence , System Notification Intelligence , System Text Intelligence , or System Visual Intelligence roles, the packages:

  • [C-4-1] MUST fulfill all requirements outlined for device implementations in section "9.8.6 Content Capture".
  • [C-4-2] MUST NOT have android.permission.INTERNET permission. This is stricter than the STRONGLY RECOMMENDED listed in section 9.8.6.
  • [C-4-3] MUST NOT bind to other apps, except for the following system apps: Bluetooth, Contacts, Media, Telephony, SystemUI, and components providing Internet APIs.This is stricter than the STRONGLY RECOMMENDED listed in section 9.8.6 .

9.2. UID and Process Isolation

Реализации устройства:

  • [C-0-1] MUST support the Android application sandbox model, in which each application runs as a unique Unixstyle UID and in a separate process.
  • [C-0-2] MUST support running multiple applications as the same Linux user ID, provided that the applications are properly signed and constructed, as defined in the Security and Permissions reference .

9.3. Filesystem Permissions

Реализации устройства:

9.4. Alternate Execution Environments

Device implementations MUST keep consistency of the Android security and permission model, even if they include runtime environments that execute applications using some other software or technology than the Dalvik Executable Format or native code. Другими словами:

  • [C-0-1] Alternate runtimes MUST themselves be Android applications, and abide by the standard Android security model, as described elsewhere in section 9 .

  • [C-0-2] Alternate runtimes MUST NOT be granted access to resources protected by permissions not requested in the runtime's AndroidManifest.xml file via the < uses-permission > mechanism.

  • [C-0-3] Alternate runtimes MUST NOT permit applications to make use of features protected by Android permissions restricted to system applications.

  • [C-0-4] Alternate runtimes MUST abide by the Android sandbox model and installed applications using an alternate runtime MUST NOT reuse the sandbox of any other app installed on the device, except through the standard Android mechanisms of shared user ID and signing certificate .

  • [C-0-5] Alternate runtimes MUST NOT launch with, grant, or be granted access to the sandboxes corresponding to other Android applications.

  • [C-0-6] Alternate runtimes MUST NOT be launched with, be granted, or grant to other applications any privileges of the superuser (root), or of any other user ID.

  • [C-0-7] When the .apk files of alternate runtimes are included in the system image of device implementations, it MUST be signed with a key distinct from the key used to sign other applications included with the device implementations.

  • [C-0-8] When installing applications, alternate runtimes MUST obtain user consent for the Android permissions used by the application.

  • [C-0-9] When an application needs to make use of a device resource for which there is a corresponding Android permission (such as Camera, GPS, etc.), the alternate runtime MUST inform the user that the application will be able to access that resource.

  • [C-0-10] When the runtime environment does not record application capabilities in this manner, the runtime environment MUST list all permissions held by the runtime itself when installing any application using that runtime.

  • Alternate runtimes SHOULD install apps via the PackageManager into separate Android sandboxes (Linux user IDs, etc.).

  • Alternate runtimes MAY provide a single Android sandbox shared by all applications using the alternate runtime.

9.5. Многопользовательская поддержка

Android includes support for multiple users and provides support for full user isolation and clone user profiles with partial isolation(ie single additional user profile of type android.os.usertype.profile.CLONE ).

  • Device implementations MAY but SHOULD NOT enable multi-user if they use removable media for primary external storage.

If device implementations include support for multiple users, they:

  • [C-1-2] MUST, for each user, implement a security model consistent with the Android platform security model as defined in Security and Permissions reference document in the APIs.
  • [C-1-3] MUST have separate and isolated shared application storage (aka /sdcard ) directories for each user instance.
  • [C-1-4] MUST ensure that applications owned by and running on behalf a given user cannot list, read, or write to the files owned by any other user, even if the data of both users are stored on the same volume or filesystem.
  • [C-1-5] MUST encrypt the contents of the SD card when multiuser is enabled using a key stored only on non-removable media accessible only to the system if device implementations use removable media for the external storage APIs. As this will make the media unreadable by a host PC, device implementations will be required to switch to MTP or a similar system to provide host PCs with access to the current user's data.

If device implementations include support for multiple users, then for all users except users specifically created for running dual instances of the same app, they:

  • [C-2-1] MUST have separate and isolated shared application storage (aka /sdcard) directories for each user instance.
  • [C-2-2] MUST ensure that applications owned by and running on behalf of a given user cannot list, read, or write to the files owned by any other user, even if the data of both users are stored on the same volume or filesystem.

Device implementations MAY create a single additional user profile of type android.os.usertype.profile.CLONE against the primary user (and only against the primary user) for the purpose of running dual instances of the same app. These dual instances share partially isolated storage, are presented to the end user in the launcher at the same time and appear in the same recents view. For example, this could be used to support the user installing two separate instances of a single app on a dual-SIM device.

If device implementations create the additional user profile discussed above, then they:

  • [C-3-1] MUST only provide access to storage or data that is either already accessible to the parent user profile or is directly owned by this additional user profile.
  • [C-3-2] MUST NOT have this as a work profile.
  • [C-3-3] MUST have isolated private app data directories from the parent user account.
  • [C-3-4] MUST NOT allow the additional user profile to be created if there is a Device Owner provisioned (see section 3.9.1) or allow a Device Owner to be provisioned without removing the additional user profile first.

9.6. Premium SMS Warning

Android includes support for warning users of any outgoing premium SMS message . Premium SMS messages are text messages sent to a service registered with a carrier that may incur a charge to the user.

Если реализации устройств декларируют поддержку android.hardware.telephony , они:

  • [C-1-1] MUST warn users before sending a SMS message to numbers identified by regular expressions defined in /data/misc/sms/codes.xml file in the device. The upstream Android Open Source Project provides an implementation that satisfies this requirement.

9.7. Функции безопасности

Device implementations MUST ensure compliance with security features in both the kernel and platform as described below.

The Android Sandbox includes features that use the Security-Enhanced Linux (SELinux) mandatory access control (MAC) system, seccomp sandboxing, and other security features in the Linux kernel. Реализации устройства:

  • [C-0-1] MUST maintain compatibility with existing applications, even when SELinux or any other security features are implemented below the Android framework.
  • [C-0-2] MUST NOT have a visible user interface when a security violation is detected and successfully blocked by the security feature implemented below the Android framework, but MAY have a visible user interface when an unblocked security violation occurs resulting in a successful exploit.
  • [C-0-3] MUST NOT make SELinux or any other security features implemented below the Android framework configurable to the user or app developer.
  • [C-0-4] MUST NOT allow an application that can affect another application through an API (such as a Device Administration API) to configure a policy that breaks compatibility.
  • [C-0-5] MUST split the media framework into multiple processes so that it is possible to more narrowly grant access for each process as described in the Android Open Source Project site.
  • [C-0-6] MUST implement a kernel application sandboxing mechanism which allows filtering of system calls using a configurable policy from multithreaded programs. The upstream Android Open Source Project meets this requirement through enabling the seccomp-BPF with threadgroup synchronization (TSYNC) as described in the Kernel Configuration section of source.android.com .

Kernel integrity and self-protection features are integral to Android security. Реализации устройства:

  • [C-0-7] MUST implement kernel stack buffer overflow protection mechanisms. Examples of such mechanisms are CC_STACKPROTECTOR_REGULAR and CONFIG_CC_STACKPROTECTOR_STRONG .
  • [C-0-8] MUST implement strict kernel memory protections where executable code is read-only, read-only data is non-executable and non-writable, and writable data is non-executable (eg CONFIG_DEBUG_RODATA or CONFIG_STRICT_KERNEL_RWX ).
  • [C-0-9] MUST implement static and dynamic object size bounds checking of copies between user-space and kernel-space (eg CONFIG_HARDENED_USERCOPY ) on devices originally shipping with API level 28 or higher.
  • [C-0-10] MUST NOT execute user-space memory when executing in the kernel mode (eg hardware PXN, or emulated via CONFIG_CPU_SW_DOMAIN_PAN or CONFIG_ARM64_SW_TTBR0_PAN ) on devices originally shipping with API level 28 or higher.
  • [C-0-11] MUST NOT read or write user-space memory in the kernel outside of normal usercopy access APIs (eg hardware PAN, or emulated via CONFIG_CPU_SW_DOMAIN_PAN or CONFIG_ARM64_SW_TTBR0_PAN ) on devices originally shipping with API level 28 or higher.
  • [C-0-12] MUST implement kernel page table isolation if the hardware is vulnerable to CVE-2017-5754 on all devices originally shipping with API level 28 or higher (eg CONFIG_PAGE_TABLE_ISOLATION or CONFIG_UNMAP_KERNEL_AT_EL0 ).
  • [C-0-13] MUST implement branch prediction hardening if the hardware is vulnerable to CVE-2017-5715 on all devices originally shipping with API level 28 or higher (eg CONFIG_HARDEN_BRANCH_PREDICTOR ).
  • [C-SR-1] STRONGLY RECOMMENDED to keep kernel data which is written only during initialization marked read-only after initialization (eg __ro_after_init ).
  • [C-SR-2] Are STRONGLY RECOMMENDED to randomize the layout of the kernel code and memory, and to avoid exposures that would compromise the randomization (eg CONFIG_RANDOMIZE_BASE with bootloader entropy via the /chosen/kaslr-seed Device Tree node or EFI_RNG_PROTOCOL ) .

  • [C-SR-3] Are STRONGLY RECOMMENDED to enable control flow integrity (CFI) in the kernel to provide additional protection against code-reuse attacks (eg CONFIG_CFI_CLANG and CONFIG_SHADOW_CALL_STACK ).

  • [C-SR-4] Are STRONGLY RECOMMENDED not to disable Control-Flow Integrity (CFI), Shadow Call Stack (SCS) or Integer Overflow Sanitization (IntSan) on components that have it enabled.

  • [C-SR-5] Are STRONGLY RECOMMENDED to enable CFI, SCS, and IntSan for any additional security-sensitive userspace components as explained in CFI and IntSan .

  • [C-SR-6] Are STRONGLY RECOMMENDED to enable stack initialization in the kernel to prevent uses of uninitialized local variables ( CONFIG_INIT_STACK_ALL or CONFIG_INIT_STACK_ALL_ZERO ). Also, device implementations SHOULD NOT assume the value used by the compiler to initialize the locals.

  • [C-SR-7] Are STRONGLY RECOMMENDED to enable heap initialization in the kernel to prevent uses of uninitialized heap allocations ( CONFIG_INIT_ON_ALLOC_DEFAULT_ON ) and they SHOULD NOT assume the value used by the kernel to initialize those allocations.

If device implementations use a Linux kernel that is capable of supporting SELinux, they:

  • [C-1-1] MUST implement SELinux.
  • [C-1-2] MUST set SELinux to global enforcing mode.
  • [C-1-3] MUST configure all domains in enforcing mode. No permissive mode domains are allowed, including domains specific to a device/vendor.
  • [C-1-4] MUST NOT modify, omit, or replace the neverallow rules present within the system/sepolicy folder provided in the upstream Android Open Source Project (AOSP) and the policy MUST compile with all neverallow rules present, for both AOSP SELinux domains as well as device/vendor specific domains.
  • [C-1-5] MUST run third-party applications targeting API level 28 or higher in per-application SELinux sandboxes with per-app SELinux restrictions on each application's private data directory.
  • SHOULD retain the default SELinux policy provided in the system/sepolicy folder of the upstream Android Open Source Project and only further add to this policy for their own device-specific configuration.

If device implementations use kernel other than Linux or Linux without SELinux, they:

  • [C-2-1] MUST use a mandatory access control system that is equivalent to SELinux.

If device implementations use I/O devices capable of DMA, they:

  • [C-SR-9] Are STRONGLY RECOMMENDED to isolate each I/O device capable of DMA, using an IOMMU (egthe ARM SMMU).

Android contains multiple defense-in-depth features that are integral to device security. In addition, Android focuses on reducing key classes of common bugs that contribute to poor quality and security.

In order to reduce memory bugs, device implementations:

  • [C-SR-10] Are STRONGLY RECOMMENDED to be tested using userspace memory error detection tools like MTE for ARMv9 devices, HWASan for ARMv8+ devices or ASan for other device types.
  • [C-SR-11] Are STRONGLY RECOMMENDED to be tested using kernel memory error detection tools like KASAN (CONFIG_KASAN, CONFIG_KASAN_HW_TAGS for ARMv9 devices, CONFIG_KASAN_SW_TAGS for ARMv8 devices or CONFIG_KASAN_GENERIC for other device types).
  • [C-SR-12] Are STRONGLY RECOMMENDED to be using memory error detection tools in production like MTE, GWP-ASan and KFENCE.

If device implementations use an Arm TrustZone-based TEE, they:

  • [C-SR-13] Are STRONGLY RECOMMENDED to use a standard protocol for memory sharing, between Android and the TEE, like Arm Firmware Framework for Armv8-A (FF-A).
  • [C-SR-14] Are STRONGLY RECOMMENDED to restrict trusted applications to only accessing memory which has been explicitly shared with them via the above protocol. If the device has support for the Arm S-EL2 exception level, this should be enforced by the secure partition manager. Otherwise, this should be enforced by the TEE OS.

9.8. Конфиденциальность

9.8.1. Usage History

Android stores the history of the user's choices and manages such history by UsageStatsManager .

Реализации устройства:

  • [C-0-1] MUST keep a reasonable retention period of such user history.
  • [C-SR-1] Are STRONGLY RECOMMENDED to keep the 14 days retention period as configured by default in the AOSP implementation.

Android stores the system events using the StatsLog identifiers, and manages such history via the StatsManager and the IncidentManager System API.

Реализации устройства:

  • [C-0-2] MUST only include the fields marked with DEST_AUTOMATIC in the incident report created by the System API class IncidentManager .
  • [C-0-3] MUST not use the system event identifiers to log any other event than what is described in the StatsLog SDK documents. If additional system events are logged, they MAY use a different atom identifier in the range between 100,000 and 200,000.

9.8.2. Запись

Реализации устройства:

  • [C-0-1] MUST NOT preload or distribute software components out-of-box that send the user's private information (eg keystrokes, text displayed on the screen, bugreport) off the device without the user's consent or clear ongoing notifications.
  • [C-0-2] MUST display and obtain explicit user consent allowing any sensitive information that is displayed on the user's screen to be captured whenever screen casting or screen recording is enabled via MediaProjection or proprietary APIs. MUST NOT provide users an affordance to disable future display of the user consent.
  • [C-0-3] MUST have an ongoing notification to the user while screen casting or screen recording is enabled. AOSP meets this requirement by showing an ongoing notification icon in the status bar.

If device implementations include functionality in the system that either captures the contents displayed on the screen and/or records the audio stream played on the device other than via the System API ContentCaptureService , or other proprietary means described in Section 9.8.6 Content Capture , they :

  • [C-1-1] MUST have an ongoing notification to the user whenever this functionality is enabled and actively capturing/recording.

If device implementations include a component enabled out-of-box, capable of recording ambient audio and/or record the audio played on the device to infer useful information about user's context, they:

  • [C-2-1] MUST NOT store in persistent on-device storage or transmit off the device the recorded raw audio or any format that can be converted back into the original audio or a near facsimile, except with explicit user consent.

A “microphone indicator” refers to a view on screen, which is constantly visible to the user and cannot be obscured, which users understand as a microphone is in use(through unique text, color, icon, or some combination).

A “camera indicator” refers to a view on screen, which is constantly visible to the user and cannot be obscured, which users understand as a camera is in use (through unique text, color, icon, or some combination).

After the first one second displayed, an indicator can change visually, such as becoming smaller, and is not required to show as originally presented and understood.

The microphone indicator may be merged with an actively displayed camera indicator, provided that text, icons, or colors indicate to the user that microphone use has begun.

The camera indicator may be merged with an actively displayed microphone indicator, provided that text, icons, or colors indicate to the user that the camera use has begun.

If device implementations declare android.hardware.microphone , they:

  • [C-SR-1] Are STRONGLY RECOMMENDED to display microphone indicator when an app is accessing audio data from the microphone, but not when the microphone is only accessed by HotwordDetectionService , SOURCE_HOTWORD , ContentCaptureService , or app(s) holding the roles called out in Section 9.1 Permissions with CDD identifier [C-3-X]. .
  • [C-SR-2] Are STRONGLY RECOMMENDED to display the list of Recent and Active apps using microphone as returned from PermissionManager.getIndicatorAppOpUsageData() , along with any attribution messages associated with them.
  • [C-SR-3] Are STRONGLY RECOMMENDED to not hide the microphone indicator for system apps that have visible user interfaces or direct user interaction.

If device implementations declare android.hardware.camera.any , they:

  • [C-SR-4] Are STRONGLY RECOMMENDED to display camera indicator when an app is accessing live camera data, but not when the camera is only being accessed by app(s) holding the roles called out in Section 9.1 Permissions with CDD identifier [C-3-X].
  • [C-SR-5] Are STRONGLY RECOMMENDED to display Recent and Active apps using camera as returned from PermissionManager.getIndicatorAppOpUsageData() , along with any attribution messages associated with them.
  • [C-SR-6] Are STRONGLY RECOMMENDED to not hide the camera indicator for system apps that have visible user interfaces or direct user interaction.

9.8.3. Возможности подключения

If device implementations have a USB port with USB peripheral mode support, they:

  • [C-1-1] MUST present a user interface asking for the user's consent before allowing access to the contents of the shared storage over the USB port.

9.8.4. Network Traffic

Реализации устройства:

  • [C-0-1] MUST preinstall the same root certificates for the system-trusted Certificate Authority (CA) store as provided in the upstream Android Open Source Project.
  • [C-0-2] MUST ship with an empty user root CA store.
  • [C-0-3] MUST display a warning to the user indicating the network traffic may be monitored, when a user root CA is added.

If device traffic is routed through a VPN, device implementations:

  • [C-1-1] MUST display a warning to the user indicating either:
    • That network traffic may be monitored.
    • That network traffic is being routed through the specific VPN application providing the VPN.

If device implementations have a mechanism, enabled out-of-box by default, that routes network data traffic through a proxy server or VPN gateway (for example, preloading a VPN service with android.permission.CONTROL_VPN granted), they:

  • [C-2-1] MUST ask for the user's consent before enabling that mechanism, unless that VPN is enabled by the Device Policy Controller via the DevicePolicyManager.setAlwaysOnVpnPackage() , in which case the user does not need to provide a separate consent, but MUST only be notified.

If device implementations implement a user affordance to toggle on the "always-on VPN" function of a 3rd-party VPN app, they:

  • [C-3-1] MUST disable this user affordance for apps that do not support always-on VPN service in the AndroidManifest.xml file via setting the SERVICE_META_DATA_SUPPORTS_ALWAYS_ON attribute to false .

9.8.5. Device Identifiers

Реализации устройства:

  • [C-0-1] MUST prevent access to the device serial number and, where applicable, IMEI/MEID, SIM serial number, and International Mobile Subscriber Identity (IMSI) from an app, unless it meets one of the following requirements:
    • is a signed carrier app that is verified by device manufacturers.
    • has been granted the READ_PRIVILEGED_PHONE_STATE permission.
    • has carrier privileges as defined in UICC Carrier Privileges .
    • is a device owner or profile owner that has been granted the READ_PHONE_STATE permission.
    • (For SIM serial number/ICCID only) has the local regulations requirement that the app detect changes in the subscriber's identity.

Android, through the System API ContentCaptureService , AugmentedAutofillService , AppSearchGlobalManager.query , or by other proprietary means, supports a mechanism for device implementations to capture the following application data interactions between the applications and the user:

  • Text and graphics rendered on-screen, including but not limited to, notifications and assist data via AssistStructure API.
  • Media data, such as audio or video, recorded or played by the device.
  • Input events (eg key, mouse, gesture, voice, video, and accessibility).
  • Any other events that an application provides to the system via the Content Capture API or or AppSearchManager API a similarly capable Android and proprietary API.
  • Any text or other data sent via the TextClassifier API to the System TextClassifier ie to the system service to understand the meaning of text, as well as generating predicted next actions based on the text.
  • Data indexed by the platform AppSearch implementation, including but not limited to text, graphics, media data or other similar data.

If device implementations capture the data above, they:

  • [C-1-1] MUST encrypt all such data when stored in the device. This encryption MAY be carried out using Android File Based Encryption, or any of the ciphers listed as API version 26+ described in Cipher SDK .
  • [C-1-2] MUST NOT back up either raw or encrypted data using Android backup methods or any other back up methods.
  • [C-1-3] MUST only send all such data and the log of the device using a privacy-preserving mechanism. The privacy-preserving mechanism is defined as “those which allow only analysis in aggregate and prevent matching of logged events or derived outcomes to individual users”, to prevent any per-user data being introspectable (eg, implemented using a differential privacy technology such as RAPPOR ).
  • [C-1-4] MUST NOT associate such data with any user identity (such as Account ) on the device, except with explicit user consent each time the data is associated.
  • [C-1-5] MUST NOT share such data with other OS components that don't follow requirements outlined in the current section (9.8.6 Content Capture), except with explicit user consent every time it is shared.
  • [C-1-6] MUST provide user affordance to erase such data that the ContentCaptureService or the proprietary means collects if the data is stored in any form on the device.
  • [C-1-7] MUST provide a user affordance to opt-out of the data, collected via AppSearch or proprietary means from being shown in android platform eg launcher.
  • [C-SR-1] Are STRONGLY RECOMMENDED NOT to request the INTERNET permission.
  • [C-SR-2] Are STRONGLY RECOMMENDED to only access the internet through structured APIs backed by publicly available open-source implementations.

If device implementations include a service that implements the System API ContentCaptureService , AppSearchManager.index , or any proprietary service that captures the data as described as above, they:

  • [C-2-1] MUST NOT allow users to replace the services with a user-installable application or service and MUST only allow the preinstalled services to capture such data.
  • [C-2-2] MUST NOT allow any apps other than the preinstalled services mechanism to be able to capture such data.
  • [C-2-3] MUST provide user affordance to disable the services.
  • [C-2-4] MUST NOT omit user affordance to manage Android permissions that are held by the services and follow Android permissions model as described in Section 9.1. Разрешение .
  • [C-SR-3] Are STRONGLY RECOMMENDED to keep the services separate from other system components(eg not binding the service or sharing process IDs) except for the following:

    • Telephony, Contacts, System UI, and Media

Android, through SpeechRecognizer#onDeviceSpeechRecognizer() provides ability to perform speech recognition on the device, without involving the network. Any implementation of on-device SpeechRecognizer MUST follow the policies outlined in this section.

9.8.7. Clipboard Access

Реализации устройства:

  • [C-0-1] MUST NOT return a clipped data from the clipboard (eg via the ClipboardManager API) unless the 3rd-party app is the default IME or is the app that currently has focus.
  • [C-0-2] MUST clear clipboard data at most 60 minutes after it has last been placed in a clipboard or read from a clipboard.

9.8.8. Расположение

Location includes information in the Android Location class( such as Latitude, Longitude, Altitude), as well as identifiers that can be converted to Location. Location can be as fine as DGPS (Differential Global Positioning System) or as coarse as country level locations (like the country code location - MCC - Mobile Country Code).

The following is a list of location types that either directly derive a user's location or can be converted to a user's location. This is not a comprehensive list, but should be used as an example on what Location can directly or indirectly be derived from:

  • GPS/GNSS/DGPS/PPP
    • Global Positioning Solution or Global Navigation Satellite System or Differential Global Positioning Solution
    • This also includes Raw GNSS Measurements and GNSS Status
      • Fine Location can be derived from the Raw GNSS Measurements
  • Wireless Technologies with unique identifiers such as:
    • WiFi access points (MAC, BSSID, Name, or SSID)
    • Bluetooth/BLE (MAC, BSSID, Name, or SSID)
    • UWB (MAC, BSSID, Name, or SSID)
    • Cell Tower ID (3G, 4G, 5G… Iincluding all future Cellular Modem technologies that have unique identifiers)

As a primary point of reference, see the Android APIs which require ACCESS_FINE_Location or ACCESS_COARSE_Location permissions.

Реализации устройства:

  • [C-0-1] MUST NOT turn on/off device location setting and Wi-Fi/Bluetooth scanning settings without explicit user consent or user initiation.
  • [C-0-2] MUST provide the user affordance to access location related information including recent location requests, app level permissions and usage of Wi-Fi/Bluetooth scanning for determining location.
  • [C-0-3] MUST ensure that the application using Emergency Location Bypass API [LocationRequest.setLocationSettingsIgnored()] is a user initiated emergency session (eg dial 911 or text to 911). For Automotive however, a vehicle MAY initiate an emergency session without active user interaction in the case a crash/accident is detected (eg to satisfy eCall requirements).
  • [C-0-4] MUST preserve the Emergency Location Bypass API's ability to bypass device location settings without changing the settings.
  • [C-0-5] MUST schedule a notification that reminds the user after an app in the background has accessed their location using the [ ACCESS_BACKGROUND_LOCATION ] permission.

9.8.9. Установленные приложения

Android apps targeting API level 30 or above cannot see details about other installed apps by default (see Package visibility in the Android SDK documentation).

Реализации устройства:

  • [C-0-1] MUST NOT expose to any app targeting API level 30 or above details about any other installed app, unless the app is already able to see details about the other installed app through the managed APIs. This includes but is not limited to details exposed by any custom APIs added by the device implementer, or accessible via the filesystem.
  • [C-0-2] MUST NOT give to any app, read or write access to files in any other app's dedicated, app-specific directory within external storage. The only exceptions are as follows:
    • The external storage provider authority (eg apps like DocumentsUI).
    • Download Provider which uses the “downloads” provider authority for downloading files to app storage.
    • Platform-signed media transfer protocol (MTP) apps which use the privileged permission ACCESS_MTP to enable transferring files to another device.
    • Apps which install other apps and have the permission INSTALL_PACKAGES can access only “obb” directories for the purpose of managing APK expansion files .

9.8.10. Отчет об ошибках подключения

If device implementations declare the android.hardware.telephony feature flag, they:

  • [C-1-1] MUST support generating connectivity bug reports via BUGREPORT_MODE_TELEPHONY with BugreportManager.
  • [C-1-2] MUST obtain user consent every time BUGREPORT_MODE_TELEPHONY is used to generate a report and MUST NOT prompt the user to consent to all future requests from the application.
  • [C-1-3] MUST NOT return the generated report to the requesting app without explicit user consent.
  • [C-1-4] Reports generated using BUGREPORT_MODE_TELEPHONY MUST contain at least the following information:
    • TelephonyDebugService dump
    • TelephonyRegistry dump
    • WifiService dump
    • ConnectivityService dump
    • A dump of the calling package's CarrierService instance (if bound)
    • Radio log buffer
  • [C-1-5] MUST NOT include the following in the generated reports:
    • Any kind of information that isn't directly related to connectivity debugging.
    • Any kind of user-installed application traffic logs or detailed profiles of user-installed applications/packages (UIDs are okay, package names are not).
  • MAY include additional information that is not associated with any user identity. (eg vendor logs).

If device implementations include additional information (eg vendor logs) in bug reports and that information has privacy/security/battery/storage/memory impact, they:

  • [C-SR-1] Are STRONGLY RECOMMENDED to have a developer setting defaulted to disabled. The AOSP reference implementation meets this by providing the Enable verbose vendor logging option in developer settings to include additional device-specific vendor logs in the bug reports.

9.8.11. Data blobs sharing

Android, through BlobStoreManager allows apps to contribute data blobs to the System to be shared with a selected set of apps.

If device implementations support shared data blobs as described in the SDK documentation , they:

9.8.12. Music Recognition

Android, through the System API MusicRecognitionManager, supports a mechanism for device implementations to request music recognition, given an audio record, and delegate the music recognition to a privileged app implementing the MusicRecognitionService API.

If device implementations include a service that implements the System API MusicRecognitionManager or any proprietary service that streams audio data as described as above, they:

  • [C-1-1] MUST enforce that the caller of MusicRecognitionManager holds the MANAGE_MUSIC_RECOGNITION permission
  • [C-1-2] MUST enforce that a single, pre-installed, music recognition application implements MusicRecognitionService.
  • [C-1-3] MUST NOT allow users to replace the MusicRecognitionManagerService or MusicRecognitionService with a user-installable application or service.
  • [C-1-4] MUST ensure that when MusicRecognitionManagerService accesses the audio record and forwards it to the application implementing the MusicRecognitionService, the audio access is tracked via invocations of AppOpsManager.noteOp / startOp .

If device implementations of MusicRecognitionManagerService or MusicRecognitionService store any audio data captured, they:

  • [C-2-1] MUST NOT store any raw audio or audio fingerprints on disk at all, or in memory for longer than 14 days.
  • [C-2-2] MUST NOT share such data beyond the MusicRecognitionService, except with explicit user consent every time it is shared.

9.8.13. SensorPrivacyManager

If device implementations provide the user a software affordance to turn off the camera and/or microphone input for the device implementation, they:

  • [C-1-1] MUST accurately return 'true' for the relevant supportsSensorToggle() API method.
  • [C-1-2] MUST, when an app tries to access a blocked microphone or camera, present the user with a non-dismissable user affordance that clearly indicates that the sensor is blocked and requires a choice to continue blocking or unblock as per the AOSP implementation which meets this requirement.
  • [C-1-3] MUST only pass blank (or fake) camera and audio data to apps and not report an error code due to the user not turning on the camera nor microphone via the user affordance presented per [C-1-2 ] выше.

9.9. Шифрование хранения данных

All devices MUST meet the requirements of section 9.9.1. Devices which launched on an API level earlier than that of this document are exempted from the requirements of sections 9.9.2 and 9.9.3; instead they MUST meet the requirements in section 9.9 of the Android Compatibility Definition document corresponding to the API level on which the device launched.

9.9.1. Direct Boot

Реализации устройства:

  • [C-0-1] MUST implement the Direct Boot mode APIs even if they do not support Storage Encryption.

  • [C-0-2] The ACTION_LOCKED_BOOT_COMPLETED and ACTION_USER_UNLOCKED Intents MUST still be broadcast to signal Direct Boot aware applications that Device Encrypted (DE) and Credential Encrypted (CE) storage locations are available for user.

9.9.2. Encryption requirements

Реализации устройства:

  • [C-0-1] MUST encrypt the application private data ( /data partition), as well as the application shared storage partition ( /sdcard partition) if it is a permanent, non-removable part of the device.
  • [C-0-2] MUST enable the data storage encryption by default at the time the user has completed the out-of-box setup experience.
  • [C-0-3] MUST meet the above data storage encryption requirement by implementing one of the following two encryption methods:

9.9.3. Encryption Methods

If device implementations are encrypted, they:

  • [C-1-1] MUST boot up without challenging the user for credentials and allow Direct Boot aware apps to access to the Device Encrypted (DE) storage after the ACTION_LOCKED_BOOT_COMPLETED message is broadcasted.
  • [C-1-2] MUST only allow access to Credential Encrypted (CE) storage after the user has unlocked the device by supplying their credentials (eg. passcode, pin, pattern or fingerprint) and the ACTION_USER_UNLOCKED message is broadcasted.
  • [C-1-13] MUST NOT offer any method to unlock the CE protected storage without either the user-supplied credentials, a registered escrow key or a resume on reboot implementation meeting the requirements in section 9.9.4 .
  • [C-1-4] MUST use Verified Boot.
9.9.3.1. Шифрование файлов с шифрованием метаданных

If device implementations use File Based Encryption with Metadata Encryption, they:

  • [C-1-5] MUST encrypt file contents and filesystem metadata using AES-256-XTS or Adiantum. AES-256-XTS refers to the Advanced Encryption Standard with a 256-bit cipher key length, operated in XTS mode; the full length of the key is 512 bits. Adiantum refers to Adiantum-XChaCha12-AES, as specified at https://github.com/google/adiantum. Filesystem metadata is data such as file sizes, ownership, modes, and extended attributes (xattrs).
  • [C-1-6] MUST encrypt file names using AES-256-CBC-CTS or Adiantum.
  • [C-1-12] If the device has Advanced Encryption Standard (AES) instructions (such as ARMv8 Cryptography Extensions on ARM-based devices, or AES-NI on x86-based devices) then the AES-based options above for file name, file contents, and filesystem metadata encryption MUST be used, not Adiantum.
  • [C-1-13] MUST use a cryptographically strong and non-reversible key derivation function (eg HKDF-SHA512) to derive any needed subkeys (eg per-file keys) from the CE and DE keys. "Cryptographically strong and non-reversible" means that the key derivation function has a security strength of at least 256 bits and behaves as a pseudorandom function family over its inputs.
  • [C-1-14] MUST NOT use the same File Based Encryption (FBE) keys or subkeys for different cryptographic purposes (eg for both encryption and key derivation, or for two different encryption algorithms).
  • [C-1-15] MUST ensure that all non-deleted blocks of encrypted file contents on persistent storage were encrypted using combinations of encryption key and initialization vector (IV) that depend on both the file and the offset within the file. In addition, all such combinations MUST be distinct, except where the encryption is done using inline encryption hardware that only supports an IV length of 32 bits.
  • [C-1-16] MUST ensure that all non-deleted encrypted filenames on persistent storage in distinct directories were encrypted using distinct combinations of encryption key and initialization vector (IV).
  • [C-1-17] MUST ensure that all encrypted filesystem metadata blocks on persistent storage were encrypted using distinct combinations of encryption key and initialization vector (IV).

  • Keys protecting CE and DE storage areas and filesystem metadata:

    • [C-1-7] MUST be cryptographically bound to a hardware-backed Keystore. This keystore MUST be bound to Verified Boot and the device's hardware root of trust.
    • [C-1-8] CE keys MUST be bound to a user's lock screen credentials.
    • [C-1-9] CE keys MUST be bound to a default passcode when the user has not specified lock screen credentials.
    • [C-1-10] MUST be unique and distinct, in other words no user's CE or DE key matches any other user's CE or DE keys.
    • [C-1-11] MUST use the mandatorily supported ciphers, key lengths and modes.
    • [C-1-12] MUST be securely erased during bootloader unlock and lock as described here .
  • SHOULD make preinstalled essential apps (eg Alarm, Phone, Messenger) Direct Boot aware.

The upstream Android Open Source project provides a preferred implementation of File Based Encryption based on the Linux kernel "fscrypt" encryption feature, and of Metadata Encryption based on the Linux kernel "dm-default-key" feature.

9.9.3.2. Per-User Block-Level Encryption

If device implementations use per-user block-level encryption, they:

  • [C-1-1] MUST enable multi-user support as described in section 9.5.
  • [C-1-2] MUST provide per-user partitions, either using raw partitions or logical volumes.
  • [C-1-3] MUST use unique and distinct encryption keys per-user for encryption of the underlying block devices.
  • [C-1-4] MUST use AES-256-XTS for block-level encryption of the user partitions.

  • The keys protecting the per-user block-level encrypted devices:

    • [C-1-5] MUST be cryptographically bound to a hardware-backed Keystore. This keystore MUST be bound to Verified Boot and the device's hardware root of trust.
    • [C-1-6] MUST be bound to the corresponding user's lock screen credentials.

Per-user block-level encryption can be implemented using the Linux kernel "dm-crypt" feature over per-user partitions.

9.9.4. Resume on Reboot

Resume on Reboot allows unlocking the CE storage of all apps, including those that do not yet support Direct Boot, after a reboot initiated by an OTA. This feature enables users to receive notifications from installed apps after the reboot.

An implementation of Resume-on-Reboot must continue to ensure that when a device falls into an attacker's hands, it is extremely difficult for that attacker to recover the user's CE-encrypted data, even if the device is powered on, CE storage is unlocked, and the user has unlocked the device after receiving an OTA. For insider attack resistance, we also assume the attacker gains access to broadcast cryptographic signing keys.

Конкретно:

  • [C-0-1] CE storage MUST NOT be readable even for the attacker who physically has the device and then has these capabilities and limitations:

    • Can use the signing key of any vendor or company to sign arbitrary messages.
    • Can cause an OTA to be received by the device.
    • Can modify the operation of any hardware (AP, flash etc) except as detailed below, but such modification involves a delay of at least an hour and a power cycle that destroys RAM contents.
    • Cannot modify the operation of tamper-resistant hardware (eg Titan M).
    • Cannot read the RAM of the live device.
    • Cannot obtain the user's credential (PIN, pattern, password) or otherwise cause it to be entered.

By way of example, a device implementation that implements and complies with all of the descriptions found here will be compliant with [C-0-1].

9.10. Целостность устройства

The following requirements ensure there is transparency to the status of the device integrity. Реализации устройства:

  • [C-0-1] MUST correctly report through the System API method PersistentDataBlockManager.getFlashLockState() whether their bootloader state permits flashing of the system image.

  • [C-0-2] MUST support Verified Boot for device integrity.

If device implementations are already launched without supporting Verified Boot on an earlier version of Android and can not add support for this feature with a system software update, they MAY be exempted from the requirement.

Проверенная загрузка — это функция, гарантирующая целостность программного обеспечения устройства. Если реализации устройств поддерживают эту функцию, они:

  • [C-1-1] MUST declare the platform feature flag android.software.verified_boot .
  • [C-1-2] MUST perform verification on every boot sequence.
  • [C-1-3] MUST start verification from an immutable hardware key that is the root of trust and go all the way up to the system partition.
  • [C-1-4] MUST implement each stage of verification to check the integrity and authenticity of all the bytes in the next stage before executing the code in the next stage.
  • [C-1-5] MUST use verification algorithms as strong as current recommendations from NIST for hashing algorithms (SHA-256) and public key sizes (RSA-2048).
  • [C-1-6] MUST NOT allow boot to complete when system verification fails, unless the user consents to attempt booting anyway, in which case the data from any non-verified storage blocks MUST not be used.
  • [C-1-7] MUST NOT allow verified partitions on the device to be modified unless the user has explicitly unlocked the bootloader.
  • [C-SR-1] If there are multiple discrete chips in the device (eg radio, specialized image processor), the boot process of each of those chips is STRONGLY RECOMMENDED to verify every stage upon booting.
  • [C-1-8] MUST use tamper-evident storage: for storing whether the bootloader is unlocked. Tamper-evident storage means that the bootloader can detect if the storage has been tampered with from inside Android.
  • [C-1-9] MUST prompt the user, while using the device, and require physical confirmation before allowing a transition from bootloader locked mode to bootloader unlocked mode.
  • [C-1-10] MUST implement rollback protection for partitions used by Android (eg boot, system partitions) and use tamper-evident storage for storing the metadata used for determining the minimum allowable OS version.
  • [C-1-11] MUST securely erase all user data during bootloader unlock and lock, as per '9.12. Data Deletion' (including the userdata partition and any NVRAM spaces).
  • [C-SR-2] Are STRONGLY RECOMMENDED to verify all privileged app APK files with a chain of trust rooted in partitions protected by Verified Boot.
  • [C-SR-3] Are STRONGLY RECOMMENDED to verify any executable artifacts loaded by a privileged app from outside its APK file (such as dynamically loaded code or compiled code) before executing them or STRONGLY RECOMMENDED not to execute them at all.
  • SHOULD implement rollback protection for any component with persistent firmware (eg modem, camera) and SHOULD use tamper-evident storage for storing the metadata used for determining the minimum allowable version.

If device implementations are already launched without supporting C-1-8 through C-1-11 on an earlier version of Android and can not add support for these requirements with a system software update, they MAY be exempted from the requirements.

The upstream Android Open Source Project provides a preferred implementation of this feature in the external/avb/ repository, which can be integrated into the bootloader used for loading Android.

Реализации устройства:

  • [C-0-3] MUST support cryptographically verifying file content against a trusted key without reading the whole file.
  • [C-0-4] MUST NOT allow the read requests on a protected file to succeed when the read content do not verify against a trusted key.

If device implementations are already launched without the ability to verify file content against a trusted key on an earlier Android version and can not add support for this feature with a system software update, they MAY be exempted from the requirement. The upstream Android Open Source project provides a preferred implementation of this feature based on the Linux kernel fs-verity feature.

Реализации устройства:

If device implementations support the Android Protected Confirmation API they:

  • [C-3-1] MUST report true for the ConfirmationPrompt.isSupported() API.

  • [C-3-2] MUST ensure that code running in the Android OS including its kernel, malicious or otherwise, cannot generate a positive response without user interaction.

  • [C-3-3] MUST ensure that the user has been able to review and approve the prompted message even in the event that the Android OS, including its kernel, is compromised.

9.11. Ключи и учетные данные

The Android Keystore System allows app developers to store cryptographic keys in a container and use them in cryptographic operations through the KeyChain API or the Keystore API . Реализации устройства:

  • [C-0-1] MUST allow at least 8,192 keys to be imported or generated.
  • [C-0-2] The lock screen authentication MUST implement a time interval between failed attempts. With n as the failed attempt count, the time interval MUST be at least 30 seconds for 9 < n < 30. For n > 29, the time interval value MUST be at least 30*2^floor((n-30)/10)) seconds or at least 24 hours, whichever is smaller.
  • SHOULD not limit the number of keys that can be generated

When the device implementation supports a secure lock screen, it:

  • [C-1-1] MUST back up the keystore implementation with an isolated execution environment.
  • [C-1-2] MUST have implementations of RSA, AES, ECDSA, ECDH (if IKeyMintDevice is supported), 3DES, and HMAC cryptographic algorithms and MD5, SHA1, and SHA-2 family hash functions to properly support the Android Keystore system's supported algorithms in an area that is securely isolated from the code running on the kernel and above. Безопасная изоляция ДОЛЖНА блокировать все потенциальные механизмы, с помощью которых код ядра или пользовательского пространства может получить доступ к внутреннему состоянию изолированной среды, включая DMA. Вышестоящий проект Android с открытым исходным кодом (AOSP) отвечает этому требованию, используя реализацию Trusty , но альтернативными вариантами являются другое решение на базе ARM TrustZone или проверенная третьей стороной безопасная реализация правильной изоляции на основе гипервизора.
  • [C-1-3] MUST perform the lock screen authentication in the isolated execution environment and only when successful, allow the authentication-bound keys to be used. Учетные данные экрана блокировки ДОЛЖНЫ храниться таким образом, чтобы только изолированная среда выполнения могла выполнять аутентификацию экрана блокировки. Вышестоящий проект Android с открытым исходным кодом предоставляет уровень абстракции оборудования Gatekeeper (HAL) и Trusty, которые можно использовать для удовлетворения этого требования.
  • [C-1-4] MUST support key attestation where the attestation signing key is protected by secure hardware and signing is performed in secure hardware. The attestation signing keys MUST be shared across large enough number of devices to prevent the keys from being used as device identifiers. Один из способов удовлетворения этого требования — использовать один и тот же ключ аттестации, пока не будет произведено не менее 100 000 единиц данного SKU. Если произведено более 100 000 единиц SKU, для каждых 100 000 единиц МОЖЕТ использоваться другой ключ.

Обратите внимание: если реализация устройства уже запущена в более ранней версии Android, такое устройство освобождается от требования иметь хранилище ключей, поддерживаемое изолированной средой выполнения, и поддерживать аттестацию ключей, если только оно не объявляет функцию android.hardware.fingerprint , которая требуется хранилище ключей, поддерживаемое изолированной средой выполнения.

  • [C-1-5] MUST allow the user to choose the Sleep timeout for transition from the unlocked to the locked state, with a minimum allowable timeout up to 15 seconds. Automotive devices, that lock the screen whenever the head unit is turned off or the user is switched, MAY NOT have the Sleep timeout configuration.
  • [C-1-6] MUST support one of the following:
    • IKeymasterDevice 3.0,
    • IKeymasterDevice 4.0,
    • IKeymasterDevice 4.1,
    • IKeyMintDevice version 1, or
    • IKeyMintDevice version 2.
  • [C-SR-1] Is STRONGLY RECOMMENDED to support IKeyMintDevice version 1.

9.11.1. Экран безопасной блокировки, аутентификация и виртуальные устройства

The AOSP implementation follows a tiered authentication model where a knowledge-factory based primary authentication can be backed by either a secondary strong biometric, or by weaker tertiary modalities.

Реализации устройства:

  • [C-SR-1] Are STRONGLY RECOMMENDED to set only one of the following as the primary authentication method:
    • A numerical PIN
    • An alphanumerical password
    • A swipe pattern on a grid of exactly 3x3 dots

Note that the above authentication methods are referred as the recommended primary authentication methods in this document.

If device implementations add or modify the recommended primary authentication methods and use a new authentication method as a secure way to lock the screen, the new authentication method:

If device implementations add or modify the authentication methods to unlock the lock screen if based on a known secret and use a new authentication method to be treated as a secure way to lock the screen:

  • [C-3-1] The entropy of the shortest allowed length of inputs MUST be greater than 10 bits.
  • [C-3-2] The maximum entropy of all possible inputs MUST be greater than 18 bits.
  • [C-3-3] The new authentication method MUST NOT replace any of the recommended primary authentication methods (ie PIN, pattern, password) implemented and provided in AOSP.
  • [C-3-4] The new authentication method MUST be disabled when the Device Policy Controller (DPC) application has set the password requirements policy via the DevicePolicyManager.setRequiredPasswordComplexity() with a more restrictive complexity constant than PASSWORD_COMPLEXITY_NONE or via the DevicePolicyManager.setPasswordQuality() method with a more restrictive constant than PASSWORD_QUALITY_BIOMETRIC_WEAK .
  • [C-3-5] New authentication methods MUST either fall back to the recommended primary authentication methods (ie PIN, pattern, password) once every 72 hours or less OR clearly disclose to the user that some data will not be backed up in order to preserve the privacy of their data.

If device implementations add or modify the recommended primary authentication methods to unlock the lock screen and use a new authentication method that is based on biometrics to be treated as a secure way to lock the screen, the new method:

  • [C-4-1] MUST meet all requirements described in section 7.3.10 for Class 1 (formerly Convenience ).
  • [C-4-2] MUST have a fall-back mechanism to use one of the recommended primary authentication methods which is based on a known secret.
  • [C-4-3] MUST be disabled and only allow the recommended primary authentication to unlock the screen when the Device Policy Controller (DPC) application has set the keyguard feature policy by calling the method DevicePolicyManager.setKeyguardDisabledFeatures() , with any of the associated biometric flags (ie KEYGUARD_DISABLE_BIOMETRICS , KEYGUARD_DISABLE_FINGERPRINT , KEYGUARD_DISABLE_FACE , or KEYGUARD_DISABLE_IRIS ).

If the biometric authentication methods do not meet the requirements for Class 3 (formerly Strong ) as described in section 7.3.10 :

  • [C-5-1] The methods MUST be disabled if the Device Policy Controller (DPC) application has set the password requirements quality policy via the DevicePolicyManager.setRequiredPasswordComplexity() with a more restrictive complexity bucket than PASSWORD_COMPLEXITY_LOW or using DevicePolicyManager.setPasswordQuality() method with a more restrictive quality constant than PASSWORD_QUALITY_BIOMETRIC_WEAK .
  • [C-5-2] The user MUST be challenged for the recommended primary authentication (eg: PIN, pattern, password) as described in [C-1-7] and [C-1-8] in section 7.3.10 .
  • [C-5-3] The methods MUST NOT be treated as a secure lock screen, and MUST meet the requirements that start with C-8 in this section below.

If device implementations add or modify the authentication methods to unlock the lock screen and a new authentication method is based on a physical token or the location:

  • [C-6-1] They MUST have a fall-back mechanism to use one of the recommended primary authentication methods which is based on a known secret and meet the requirements to be treated as a secure lock screen.
  • [C-6-2] The new method MUST be disabled and only allow one of the recommended primary authentication methods to unlock the screen when the Device Policy Controller (DPC) application has set the policy with either:
  • [C-6-3] The user MUST be challenged for one of the recommended primary authentication methods (egPIN, pattern, password) at least once every 4 hours or less. When a physical token meets the requirements for TrustAgent implementations in CX, timeout restrictions defined in C-9-5 apply instead.
  • [C-6-4] The new method MUST NOT be treated as a secure lock screen and MUST follow the constraints listed in C-8 below.

Если реализации устройств имеют безопасный экран блокировки и включают один или несколько агентов доверия, реализующих системный API TrustAgentService , они:

  • [C-7-1] MUST have clear indication in the settings menu and on the lock screen when device lock is deferred or can be unlocked by trust agent(s). For example, AOSP meets this requirement by showing a text description for the "Automatically lock setting" and "Power button instantly locks" in the settings menu and a distinguishable icon on the lock screen.
  • [C-7-2] MUST respect and fully implement all trust agent APIs in the DevicePolicyManager class, such as the KEYGUARD_DISABLE_TRUST_AGENTS constant.
  • [C-7-3] MUST NOT fully implement the TrustAgentService.addEscrowToken() function on a device that is used as a primary personal device (eg handheld) but MAY fully implement the function on device implementations that are typically shared (eg Android Television or Automotive device).
  • [C-7-4] MUST encrypt all stored tokens added by TrustAgentService.addEscrowToken() .
  • [C-7-5] MUST NOT store the encryption key or escrow token on the same device where the key is used. For example, it is allowed for a key stored on a phone to unlock a user account on a TV. For Automotive devices, it is not allowed for the escrow token to be stored on any part of the vehicle.
  • [C-7-6] MUST inform the user about the security implications before enabling the escrow token to decrypt the data storage.
  • [C-7-7] MUST have a fall-back mechanism to use one of the recommended primary authentication methods.
  • [C-7-8] The user MUST be challenged for one of the recommended primary authentication (eg: PIN, pattern, password) methods at least once every 72 hours or less unless the safety of the user (eg driver distraction) is of беспокойство.
  • [C-7-9] The user MUST be challenged for one of the recommended primary authentication (eg: PIN, pattern, password) methods as described in [C-1-7] and [C-1-8] in section 7.3.10 , unless the safety of the user (eg driver distraction) is of concern.
  • [C-7-10] MUST NOT be treated as a secure lock screen and MUST follow the constraints listed in C-8 below.
  • [C-7-11] MUST NOT allow TrustAgents on primary personal devices (eg: handheld) to unlock the device, and can only use them to keep an already unlocked device in the unlocked state for up to a maximum of 4 hours. The default implementation of TrustManagerService in AOSP meets this requirement.
  • [C-7-12] MUST use a cryptographically secure (eg UKEY2) communication channel to pass the escrow token from the storage device to the target device.

If device implementations add or modify the authentication methods to unlock the lock screen that is not a secure lock screen as described above, and use a new authentication method to unlock the keyguard:

If device implementations allow applications to create secondary virtual displays and do not support associated input events, such as via VirtualDeviceManager , they:

  • [C-9-1] MUST lock these secondary virtual display(s) when the device's default display is locked, and unlock these secondary virtual display(s) when the device's default display is unlocked.

If device implementations allow applications to create secondary virtual displays and support associated input events, such as via VirtualDeviceManager , they:

  • [C-10-1] MUST support separate lock states per virtual device
  • [C-10-2] MUST disconnect all virtual devices upon idle timeout
  • [C-10-3] MUST have an idle timeout
  • [C-10-4] MUST lock all displays when the user initiates a lockdown , including via the lockdown user affordance required for handheld devices (see Section 2.2.5[9.11/H-1-2] )
  • [C-10-5] MUST have separate virtual device instances per user
  • [C-10-6] MUST disable the creation of associated input events via VirtualDeviceManager when indicated by DevicePolicyManager.setNearbyAppStreamingPolicy
  • [C-10-7] MUST use a separate clipboard solely for each virtual device (or disable the clipboard for virtual devices)
  • [C-10-11] MUST disable authentication UI on virtual devices, including knowledge factor entry and biometric prompt
  • [C-10-12] MUST restrict intents initiated from a virtual device to display only on the same virtual device
  • [C-10-13] MUST not use a virtual device lock state as user authentication authorization with the Android Keystore System. See KeyGenParameterSpec.Builder.setUserAuthentication* .

When device implementations allow the user to transfer the primary authentication knowledge-factor from a source device to a target device, such as for initial setup of the target device, they:

  • [C-11-1] MUST encrypt the knowledge-factor with protection guarantees similar to those described in the Google Cloud Key Vault Service security whitepaper when transferring the knowledge-factor from the source device to the target device such that the knowledge-factor cannot be remotely decrypted or used to remotely unlock either device.
  • [C-11-2] MUST, on the source device , ask the user to confirm the knowledge-factor of the source device before transferring the knowledge-factor to the target device.
  • [C-11-3] MUST, on a target device lacking any set primary authentication knowledge-factor, ask the user to confirm a transferred knowledge-factor on the target device before setting that knowledge-factor as the primary authentication knowledge-factor for the target device and before making available any data transferred from a source device.

If device implementations have a secure lock screen and include one or more trust agents, which call the TrustAgentService.grantTrust() System API with the FLAG_GRANT_TRUST_TEMPORARY_AND_RENEWABLE flag they:

  • [C-12-1] MUST only call grantTrust() with the flag when connected to a proximate physical device with a lockscreen of its own, and when the user has authenticated their identity against that lockscreen. Proximate devices can use on-wrist or on-body detection mechanisms after a one-time user unlock to satisfy the user authentication requirement.
  • [C-12-2] MUST put the device implementation into the TrustState.TRUSTABLE state when the screen is turned off (such as via a button press or display time out) and the TrustAgent has not revoked trust. The AOSP satisfies this requirement.
  • [C-12-3] MUST only move the device from TrustState.TRUSTABLE to the TrustState.TRUSTED state if the TrustAgent is still granting trust based on the requirements in C-12-1.
  • [C-12-4] MUST call TrustManagerService.revokeTrust()
    • After a maximum of 24 hours from granting trust, or
    • After an 8 hour idle window, or
    • If the implementations are not using cryptographically secure and accurate ranging as defined in [C-12-5], when the underlying connection to the proximate physical device is lost.
  • [C-12-5] Implementations relying on secure and accurate ranging to meet the requirements of [C-12-4] MUST use one of the following solutions:
    • Implementations using UWB:
    • Implementations using Wi-Fi Neighborhood Awareness Networking (NAN):
      • MUST meet the accuracy requirements in 2.2.1 [7.4.2.5/H-SR-1], use the 160 MHz bandwidth (or higher), and follow the measurement setup steps specified in Presence Calibration .
      • MUST use Secure LTF as defined in IEEE 802.11az .

If device implementations allow applications to create secondary virtual displays and support associated input events such as via VirtualDeviceManager and the displays are not marked with VIRTUAL_DISPLAY_FLAG_SECURE, they:

  • [C-13-8] MUST block activities with the attribute android:canDisplayOnRemoteDevices or the meta-data android.activity.can_display_on_remote_devices set to false from being started on the virtual device.
  • [C-13-9] MUST block activities which do not explicitly enable streaming and which indicate they show sensitive content, including via SurfaceView#setSecure, FLAG_SECURE, or SYSTEM_FLAG_HIDE_NON_SYSTEM_OVERLAY_WINDOWS, from being started on the virtual device.

If device implementations support separate display power states through DeviceStateManager AND support separate display lock states through KeyguardDisplayManager , they:

  • [C-SR-2] Are STRONGLY RECOMMENDED to utilize a credential meeting requirements defined in section 9.11.1 or a Biometric meeting at least Class 1 specifications defined in section 7.3.10 to allow independent unlocking from the default device display.
  • [C-SR-3] Are STRONGLY RECOMMENDED to constrain separate display unlock via a defined display timeout.
  • [C-SR-4] Are STRONGLY RECOMMENDED to allow user to globally lock all displays through lockdown from primary handheld device.

9.11.2. Сейф

The Android Keystore System allows app developers to store cryptographic keys in a dedicated secure processor as well as the isolated execution environment described above. Such a dedicated secure processor is called "StrongBox". Requirements C-1-3 through C-1-11 below define the requirements a device must meet to qualify as a StrongBox.

Device implementations that have a dedicated secure processor:

  • [C-SR-1] Are STRONGLY RECOMMENDED to support StrongBox. StrongBox will likely become a requirement in a future release.

If device implementations support StrongBox, they:

  • [C-1-1] MUST declare FEATURE_STRONGBOX_KEYSTORE .

  • [C-1-2] MUST provide dedicated secure hardware that is used to back keystore and secure user authentication. The dedicated secure hardware may be used for other purposes as well.

  • [C-1-3] MUST have a discrete CPU that shares no cache, DRAM, coprocessors or other core resources with the application processor (AP).

  • [C-1-4] MUST ensure that any peripherals shared with the AP cannot alter StrongBox processing in any way, or obtain any information from the StrongBox. The AP MAY disable or block access to StrongBox.

  • [C-1-5] MUST have an internal clock with reasonable accuracy (+-10%) that is immune to manipulation by the AP.

  • [C-1-6] MUST have a true random number generator that produces uniformly-distributed and unpredictable output.

  • [C-1-7] MUST have tamper resistance, including resistance against physical penetration, and glitching.

  • [C-1-8] MUST have side-channel resistance, including resistance against leaking information via power, timing, electromagnetic radiation, and thermal radiation side channels.

  • [C-1-9] MUST have secure storage which ensures confidentiality, integrity, authenticity, consistency, and freshness of the contents. The storage MUST NOT be able to be read or altered, except as permitted by the StrongBox APIs.

  • To validate compliance with [C-1-3] through [C-1-9], device implementations:

    • [C-1-10] MUST include the hardware that is certified against the Secure IC Protection Profile BSI-CC-PP-0084-2014 or evaluated by a nationally accredited testing laboratory incorporating High attack potential vulnerability assessment according to the Common Criteria Application of Attack Potential to Smartcards .
    • [C-1-11] MUST include the firmware that is evaluated by a nationally accredited testing laboratory incorporating High attack potential vulnerability assessment according to the Common Criteria Application of Attack Potential to Smartcards .
    • [C-SR-2] Are STRONGLY RECOMMENDED to include the hardware that is evaluated using a Security Target, Evaluation Assurance Level (EAL) 5, augmented by AVA_VAN.5. EAL 5 certification will likely become a requirement in a future release.
    • [C-SR-3] Are STRONGLY RECOMMENDED to provide insider attack resistance (IAR), which means that an insider with access to firmware signing keys cannot produce firmware that causes the StrongBox to leak secrets, to bypass functional security requirements or otherwise enable access to sensitive user data. The recommended way to implement IAR is to allow firmware updates only when the primary user password is provided via the IAuthSecret HAL.

9.11.3. Identity Credential

The Identity Credential System is defined and achieved by implementing all APIs in the android.security.identity.* package. These APIs allows app developers to store and retrieve user identity documents. Реализации устройства:

  • [C-SR-1] are STRONGLY RECOMMENDED to implement the Identity Credential System.

If device implementations implement the Identity Credential System, they:

  • [C-1-1] MUST return non-null for the IdentityCredentialStore#getInstance() method.

  • [C-1-2] MUST implement the Identity Credential System (eg the android.security.identity.* APIs) with code communicating with a trusted application in an area that is securely isolated from the code running on the kernel and above. Безопасная изоляция ДОЛЖНА блокировать все потенциальные механизмы, с помощью которых код ядра или пользовательского пространства может получить доступ к внутреннему состоянию изолированной среды, включая DMA.

  • [C-1-3] The cryptographic operations needed to implement the Identity Credential System (eg the android.security.identity.* APIs) MUST be performed entirely in the trusted application and private key material MUST never leave the isolated execution environment unless specifically required by higher-level APIs (eg the createEphemeralKeyPair() method).

  • [C-1-4] The trusted application MUST be implemented in a way such that its security properties are not affected (eg credential data is not released unless access control conditions are satisfied, MACs can't be produced for arbitrary data) even if Android is misbehaving or compromised.

The upstream Android Open Source Project provides a reference implementation of a trusted application ( libeic ) that can be used to implement the Identity Credential system.

9.12. Data Deletion

All device implementations:

  • [C-0-1] MUST provide users a mechanism to perform a "Factory Data Reset".
  • [C-0-2] MUST delete all data on the userdata file system when performing a "Factory Data Reset".
  • [C-0-3] MUST delete the data in such a way that will satisfy relevant industry standards such as NIST SP800-88 when performing a "Factory Data Reset".
  • [C-0-4] MUST trigger the above "Factory Data Reset" process when the DevicePolicyManager.wipeData() API is called by the primary user's Device Policy Controller app.
  • MAY provide a fast data wipe option that conducts only a logical data erase.

9.13. Safe Boot Mode

Android provides Safe Boot Mode, which allows users to boot up into a mode where only preinstalled system apps are allowed to run and all third-party apps are disabled. This mode, known as "Safe Boot Mode", provides the user the capability to uninstall potentially harmful third-party apps.

Device implementations are:

  • [C-SR-1] STRONGLY RECOMMENDED to implement Safe Boot Mode.

If device implementations implement Safe Boot Mode, they:

  • [C-1-1] MUST provide the user an option to enter Safe Boot Mode in such a way that is uninterruptible from third-party apps installed on the device, except when the third-party app is a Device Policy Controller and has set the UserManager.DISALLOW_SAFE_BOOT flag as true.

  • [C-1-2] MUST provide the user the capability to uninstall any third-party apps within Safe Mode.

  • SHOULD provide the user an option to enter Safe Boot Mode from the boot menu using a workflow that is different from that of a normal boot.

9.14. Automotive Vehicle System Isolation

Android Automotive devices are expected to exchange data with critical vehicle subsystems by using the vehicle HAL to send and receive messages over vehicle networks such as CAN bus.

The data exchange can be secured by implementing security features below the Android framework layers to prevent malicious or unintentional interaction with these subsystems.

9.15. Subscription Plans

"Subscription plans" refer to the billing relationship plan details provided by a mobile carrier through SubscriptionManager.setSubscriptionPlans() .

All device implementations:

  • [C-0-1] MUST return subscription plans only to the mobile carrier app that has originally provided them.
  • [C-0-2] MUST NOT remotely back up or upload subscription plans.
  • [C-0-3] MUST only allow overrides, such as SubscriptionManager.setSubscriptionOverrideCongested() , from the mobile carrier app currently providing valid subscription plans.

9.16. Application Data Migration

If device implementations include a capability to migrate data from a device to another device and do not limit the application data it copies to what is configured by the application developer in the manifest via android:fullBackupContent attribute, they:

  • [C-1-1] MUST NOT initiate transfers of application data from devices on which the user has not set a primary authentication as described in 9.11.1 Secure Lock Screen and Authentication .
  • [C-1-2] MUST securely confirm the primary authentication on the source device and confirm with the user intent to copy the data on the source device before any data is transferred.
  • [C-1-3] MUST use security key attestation to ensure that both the source device and the target device in the device-to-device migration are legitimate Android devices and have a locked bootloader.
  • [C-1-4] MUST only migrate application data to the same application on the target device, with the same package name AND signing certificate.
  • [C-1-5] MUST show an indication that the source device has had data migrated by a device-to-device data migration in the settings menu. A user SHOULD NOT be able to remove this indication.

9.17. Платформа виртуализации Android

If the device implements support for the Android Virtualization Framework APIs ( android.system.virtualmachine.* ), the Android host:

  • [C-1-1] MUST support all the APIs defined by the android.system.virtualmachine.* package.
  • [C-1-2] MUST NOT modify the Android SELinux and permission model for the management of Protected Virtual Machines.
  • [C-1-3] MUST NOT modify, omit, or replace the neverallow rules present within the system/sepolicy provided in the upstream Android Open Source Project (AOSP) and the policy MUST compile with all neverallow rules present.
  • [C-1-4] MUST NOT allow untrusted code (eg 3p apps) to create and run a Protected Virtual Machine. Note: This might change in future Android releases.
  • [C-1-5] MUST NOT allow a Protected Virtual Machine to execute code that is not part of the factory image or their updates. Anything that is not covered by Android Verified Boot (eg files downloaded from the Internet or sideloaded) MUST NOT be allowed to be run in a Protected Virtual Machine.

If the device implements support for the Android Virtualization Framework APIs ( android.system.virtualmachine.* ), then any Protected Virtual Machine instance:

  • [C-2-1] MUST be able to run all operating systems available in the virtualization APEX in a Protected Virtual Machine.
  • [C-2-2] MUST NOT allow a Protected Virtual Machine to run an operating system that is not signed by the device implementor or OS vendor.
  • [C-2-3] MUST NOT allow a Protected Virtual Machine to execute data as code (eg SELinux neverallow execmem).
  • [C-2-4] НЕ ДОЛЖНО изменять, опускать или заменять правила Neverallow, присутствующие в системе/sepolicy/microdroid, представленной в исходном проекте Android с открытым исходным кодом (AOSP).
  • [C-2-5] MUST implement Protected Virtual Machine defense-in-depth mechanisms (eg SELinux for pVMs) even for non-Microdroid operating systems.
  • [C-2-6] MUST ensure that the pVM firmware refuses to boot if it cannot verify the initial image.
  • [C-2-7] MUST ensure that the pVM firmware refuses to boot if the integrity of the instance.img is compromised.

If the device implements support for the Android Virtualization Framework APIs ( android.system.virtualmachine.* ), then the hypervisor:

  • [C-3-1] MUST NOT allow any pVM to have access to a page belonging to another entity (ie other pVM or hypervisor), unless explicitly shared by the page owner. This includes the host VM. This applies to both CPU and DMA accesses.
  • [C-3-2] MUST wipe a page after it is used by a VM and before it is returned to the host (eg the pVM is destroyed).
  • [C-3-3] MUST ensure that the pVM firmware is loaded and executed prior to any code in a pVM.
  • [C-3-4] MUST ensure that BCC and CDIs provided to a pVM instance can only be derived by that particular instance.

If the device implements support for the Android Virtualization Framework APIs, then across all areas:

  • [C-4-1] MUST NOT provide functionality to a pVM that allows bypassing the Android Security Model.

If the device implements support for the Android Virtualization Framework APIs, then:

  • [C-5-1] MUST support Isolated Compilation of an ART runtime update.

If the device implements support for the Android Virtualization Framework APIs, then for Key Management:

  • [C-6-1] ДОЛЖНА рутировать цепочку DICE в точке, которую пользователь не может изменить, даже на разблокированных устройствах. (Чтобы гарантировать, что его нельзя подделать).
  • [C-6-2] MUST do DICE properly ie provide the correct values.

10. Software Compatibility Testing

Device implementations MUST pass all tests described in this section. However, note that no software test package is fully comprehensive. For this reason, device implementers are STRONGLY RECOMMENDED to make the minimum number of changes as possible to the reference and preferred implementation of Android available from the Android Open Source Project. This will minimize the risk of introducing bugs that create incompatibilities requiring rework and potential device updates.

10.1. Набор тестов совместимости

Реализации устройства:

  • [C-0-1] MUST pass the Android Compatibility Test Suite (CTS) available from the Android Open Source Project, using the final shipping software on the device.

  • [C-0-2] MUST ensure compatibility in cases of ambiguity in CTS and for any reimplementations of parts of the reference source code.

The CTS is designed to be run on an actual device. Like any software, the CTS may itself contain bugs. The CTS will be versioned independently of this Compatibility Definition, and multiple revisions of the CTS may be released for Android 13.

Реализации устройства:

  • [C-0-3] MUST pass the latest CTS version available at the time the device software is completed.

  • SHOULD use the reference implementation in the Android Open Source tree as much as possible.

10.2. CTS-верификатор

The CTS Verifier is included with the Compatibility Test Suite, and is intended to be run by a human operator to test functionality that cannot be tested by an automated system, such as correct functioning of a camera and sensors.

Реализации устройства:

  • [C-0-1] MUST correctly execute all applicable cases in the CTS verifier.

The CTS Verifier has tests for many kinds of hardware, including some hardware that is optional.

Реализации устройства:

  • [C-0-2] MUST pass all tests for hardware that they possess; for instance, if a device possesses an accelerometer, it MUST correctly execute the Accelerometer test case in the CTS Verifier.

Test cases for features noted as optional by this Compatibility Definition Document MAY be skipped or omitted.

  • [C-0-2] Every device and every build MUST correctly run the CTS Verifier, as noted above. However, since many builds are very similar, device implementers are not expected to explicitly run the CTS Verifier on builds that differ only in trivial ways. Specifically, device implementations that differ from an implementation that has passed the CTS Verifier only by the set of included locales, branding, etc. MAY omit the CTS Verifier test.

11. Updatable Software

  • [C-0-1] Device implementations MUST include a mechanism to replace the entirety of the system software. The mechanism need not perform "live" upgrades—that is, a device restart MAY be required. Any method can be used, provided that it can replace the entirety of the software preinstalled on the device. For instance, any of the following approaches will satisfy this requirement:

    • "Over-the-air (OTA)" downloads with offline update via reboot.
    • "Tethered" updates over USB from a host PC.
    • "Offline" updates via a reboot and update from a file on removable storage.
  • [C-0-2] The update mechanism used MUST support updates without wiping user data. That is, the update mechanism MUST preserve application private data and application shared data. Note that the upstream Android software includes an update mechanism that satisfies this requirement.

  • [C-0-3] The entire update MUST be signed and the on-device update mechanism MUST verify the update and signature against a public key stored on device.

  • [C-SR-1] The signing mechanism is STRONGLY RECOMMENDED to hash the update with SHA-256 and validate the hash against the public key using ECDSA NIST P-256.

If the device implementations includes support for an unmetered data connection such as 802.11 or Bluetooth PAN (Personal Area Network) profile, then, they:

  • [C-1-1] MUST support OTA downloads with offline update via reboot.

Device implementations SHOULD verify that the system image is binary identical to the expected result following an OTA. The block-based OTA implementation in the upstream Android Open Source Project, added since Android 5.1, satisfies this requirement.

Also, device implementations SHOULD support A/B system updates . The AOSP implements this feature using the boot control HAL.

If an error is found in a device implementation after it has been released but within its reasonable product lifetime that is determined in consultation with the Android Compatibility Team to affect the compatibility of third-party applications, then:

  • [C-2-1] The device implementer MUST correct the error via a software update available that can be applied per the mechanism just described.

Android includes features that allow the Device Owner app (if present) to control the installation of system updates. If the system update subsystem for devices report android.software.device_admin then, they:

12. Document Changelog

The following is a summary of changes to the Compatibility Definition in this release:

4 октября 2023 г.

2. Типы устройств

  • 2.2.5. Security Model :

    See revision

    • [9.8/H-1-14] MUST display the microphone indicator, as described in section 9.8.2 [9.8/C-3-1] , when a successful hotword result is transmitted to the voice

  • 2.2.7.1 Media :

    See revision

    • [5.1/H-1-7] ДОЛЖНА иметь задержку инициализации кодека 40 мс или меньше для сеанса кодирования видео 1080p или меньше для всех аппаратных видеокодеров при нагрузке. Загрузка здесь определяется как одновременный сеанс перекодирования только видео с разрешением 1080p на 720p с использованием аппаратных видеокодеков вместе с инициализацией записи аудио-видео 1080p. Для кодека Dolby Vision задержка инициализации кодека ДОЛЖНА составлять 50 мс или меньше.

    • [5.1/H-1-12] ДОЛЖНА иметь задержку инициализации кодека 40 мс или меньше для сеанса декодирования видео 1080p или меньше для всех аппаратных видеодекодеров при нагрузке. Загрузка здесь определяется как одновременный сеанс перекодирования только видео с разрешением 1080p на 720p с использованием аппаратных видеокодеков вместе с инициализацией воспроизведения аудио-видео 1080p. Для кодека Dolby Vision задержка инициализации кодека ДОЛЖНА составлять 50 мс или меньше.

    • [5.1/H-1-13] ДОЛЖНА иметь задержку инициализации кодека 30 мс или меньше для сеанса декодирования звука со скоростью 128 кбит/с или ниже для всех аудиодекодеров при нагрузке. Загрузка здесь определяется как одновременный сеанс перекодирования только видео с разрешением 1080p на 720p с использованием аппаратных видеокодеков вместе с инициализацией воспроизведения аудио-видео 1080p.

7.4. Возможность подключения к данным

9.11. Ключи и учетные данные

  • 9.11.2. StrongBox :

    See revision

    is provided via the IAuthSecret HAL.

    Removed IAR will become a MUST requirement in Android 14.

26 июня 2023 г.

2. Типы устройств

  • 2.2.1. Аппаратное обеспечение

    • Removed requirements 7.2.3/H-0-5, 7.2.3/H-0-6, 7.2.3/H-0-7

    • Other update:

      See revision

      It is STRONGLY RECOMMENDED to follow the measurement setup steps specified in Presence Calibration Requirements .

  • 2.5.1. Аппаратное обеспечение

    See revision

    If Automotive device implementations are 32-bit:

    • [7.6.1/A-1-1] The memory available to the kernel and userspace MUST be at least 512MB if any of the following densities are used:

      • 280dpi or lower on small/normal screens
      • ldpi or lower on extra large screens
      • mdpi or lower on large screens
    • [7.6.1/A-1-2] The memory available to the kernel and userspace MUST be at least 608MB if any of the following densities are used:

      • xhdpi or higher on small/normal screens
      • hdpi or higher on large screens
      • mdpi or higher on extra large screens
    • [7.6.1/A-1-3] The memory available to the kernel and userspace MUST be at least 896MB if any of the following densities are used:

      • 400DPI или выше на небольших/нормальных экранах
      • xhdpi или выше на больших экранах
      • TVDPI или выше на очень больших экранах
    • [7.6.1/A-1-4] The memory available to the kernel and userspace MUST be at least 1344MB if any of the following densities are used:

      • 560dpi or higher on small/normal screens
      • 400dpi or higher on large screens
      • xhdpi or higher on extra large screens

3. Software

7. Hardware Compatibility

9. Security Model Compatibility

  • 9.1 Permissions

    See revision

    Реализации устройства:

    • [C-0-5] MUST NOT grant any runtime permissions to preinstalled apps unless:

      • They are installed at time of device shipment, AND
      • The user's consent can be obtained before the application uses it the permission ,

      ИЛИ

      • The runtime permissions are granted by the default permission grant policy or for holding a platform role . associated with an intent pattern for which the preinstalled application is set as the default handler .

  • 9.11. Ключи и учетные данные

    • Removed requirements [C-13-10] and 9.11.4.

20 марта 2023 г.

2. Типы устройств

3. Software

  • 3.18. Контакты

    See revision

    Default account for new contacts: Contacts Provider provides APIs to manage the setting of the default account when creating a new contact.

    If device implementations preload a contacts app, then the pre-loaded contacts app:

    • [C-2-1] MUST handle the intent ContactsContract.Settings.ACTION_SET_DEFAULT_ACCOUNT to launch a UI for account selection and save the setting to Contacts Provider when an account is selected.

    • [C-2-2] MUST honor the default account setting when handling Intent.ACTION_INSERT and Intent.ACTION_INSERT_OR_EDIT for the ContactsContracts.Contacts.CONTENT_TYPE and ContactsContract.RawContacts.CONTENT_TYPE by initially selecting the account.

    End new requirements

  • 3.2.3.5. Условные намерения приложения

    See revision

    [Moved to 2.2.3]

    If device implementation's Settings application implements a split functionality , using activity embedding, then they:

    End new requirements

6. Developer Tools and Options Compatibility

7. Hardware Compatibility

  • 7.3.13. IEEE 802.1.15.4 (СШП)

    See revision

    [Moved to 7.4.9]

    If device implementations include support for 802.1.15.4 and expose the functionality to a third-party application, they:

    • [C-1-1] MUST implement the corresponding Android API in android.uwb.
    • [C-1-2] MUST report the hardware feature flag android.hardware.uwb.
    • [C-1-3] MUST support all the relevant UWB profiles defined in Android implementation.
    • [C-1-4] MUST provide a user affordance to allow the user to toggle the UWB radio on/off state.
    • [C-1-5] MUST enforce that apps using UWB radio hold UWB_RANGING permission (under NEARBY_DEVICES permission group).
    • [C-1-6] Are STRONGLY RECOMMENDED to pass the relevant conformance and certification tests defined by standard organizations, including FIRA , CCC and CSA .

    End new requirements

  • 7.4.1. Телефония

    See revision

    If device implementations include GSM or CDMA telephony report the android.hardware.telephony feature , then:

    If the device implementations include GSM or CDMA telephony report the android.hardware.telephony feature and provide a system status bar, then:

    • [C- 6 -7 -1 ] MUST select a representative active subscription for a given group UUID to display to the user in any affordances that provide SIM status information. Examples of such affordances include the status bar cellular signal icon or quick settings tile.
    • [C-SR-1] It is STRONGLY RECOMMENDED that the representative subscription is chosen to be the active data subscription unless the device is in a voice call, during which it is STRONGLY RECOMMENDED that the representative subscription is the active voice subscription.

    If device implementations include GSM or CDMA telephony report the android.hardware.telephony feature , then:

    • [C-6- 8 7 ] MUST be capable of opening and concurrently utilizing the maximum number of logical channels (20 in total) for each UICC per ETSI TS 102 221.
    • [C-6- 10 8 ] MUST NOT apply any of the following behaviors to active carrier apps (as designated by TelephonyManager#getCarrierServicePackageName ) automatically or without explicit user confirmation:
      • Revoke or limit network access
      • Revoke permissions
      • Restrict background or foreground app execution beyond the existing power management features included in AOSP
      • Disable or uninstall the app

    If device implementations include GSM or CDMA telephony report the android.hardware.telephony feature and all active, non-opportunistic subscriptions that share a group UUID are disabled,vphysically removed from the device, or marked opportunistic, then the device:

    • [C- 7 8 -1] MUST automatically disable all remaining active opportunistic subscriptions in the same group.

    If device implementations include GSM telephony but not CDMA telephony, they:

    If the device implementations support eUICCs with multiple ports and profiles, they:

  • 7.4.9. СШП

    See revision

    If device implementations report support for feature android.hardware.uwb via the android.content.pm.PackageManager class, If device implementations include support for 802.1.15.4 and expose the functionality to a third-party application, then they:

    • [C-1-1] MUST implement the corresponding Android API in android.uwb.
    • [C-1-2] MUST report the hardware feature flag android.hardware.uwb.
    • [C-1-3] MUST support all the relevant UWB profiles defined in Android implementation.
    • [C-1-4] MUST provide a user affordance to allow the user to toggle the UWB radio on/off state.
    • [C-1-5] MUST enforce that apps using UWB radio hold UWB_RANGING permission (under NEARBY_DEVICES permission group).
    • [C-SR-1] Are STRONGLY RECOMMENDED to pass the relevant conformance and certification tests defined by standard organizations, including FIRA , CCC and CSA .
    • [C-1- 1 6 ] MUST ensure the distance measurements are within +/-15 cm for 95% of the measurements in the line of sight environment at 1m distance in a non-reflective chamber.
    • [C-1- 2 7 ] MUST ensure that the median of the distance measurements at 1m from the reference device is within [0.75m, 1.25m], where ground truth distance is measured from the top edge of the DUT held face up and tilted 45 degrees.
    • [C-SR-2] Are STRONGLY RECOMMENDED to follow the measurement setup steps specified in Presence Calibration Requirements .

    It is STRONGLY RECOMMENDED to follow the measurement setup steps specified in Presence Calibration Requirements .

    End new requirements

  • 7.8.2.2. Digital Audio Ports

    See revision

    In order to be compatible with the headsets and other audio accessories using USB-C connectors and implementing (USB audio class) across the Android ecosystem as defined in Android USB headset specification .

19 октября 2022 г.

2. Типы устройств

  • 2.2.3 Software

    See revision

    Если реализации портативных устройств не работают в режиме задачи блокировки , при копировании содержимого в буфер обмена они:

    • [3.8.17/H-1-1] MUST present a confirmation to the user that data has been copied to the clipboard (eg, a thumbnail or alert of “Content copied.”). Кроме того, включите сюда указание, будут ли данные буфера обмена синхронизироваться между устройствами.

3. Software

  • 3.2.3.5. Условные намерения приложения

    See revision

    If device implementation's Settings application implements a split functionality , using activity embedding, then they:

    If device implementations support the VoiceInteractionService and have more than one application using this API installed at a time, they:

  • 3.4.1 Webview Compatibility

    See revision

    • [C-1-4] MUST render the' provided content or remote URL content in a process that is distinct from the application that instantiates the WebView. Specifically the separate renderer process MUST hold lower privilege, run as a separate user ID, have no access to the app's data directory, have no direct network access, and only have access to the minimum-required system services over Binder. The AOSP implementation of WebView meets this requirement.

7. Hardware Compatibility

  • 7.4.2 IEEE 802.11 (Wi-Fi)

    See revision

    If device implementations include support for Wi-Fi power save mode as defined in IEEE 802.11 standard, they:

  • 7.4.3 Bluetooth

    See revision

    If device implementations include support for Bluetooth Low Energy (BLE), they:

    • [C-3-5] MUST implement a Resolvable Private Address (RPA) timeout no longer than 15 minutes and rotate the address at timeout to protect user privacy when device is actively using BLE for scanning or advertising. To prevent timing attacks, timeout intervals MUST also be randomized between 5 and 15 minutes.

  • 7.5.5 Camera Orientation

    See revision

    If device implementations have a front- or a rear-facing camera, such camera(s):

    • [C-1-1] MUST be oriented so that the long dimension of the camera aligns with the screen's long dimension. That is, when the device is held in the landscape orientation, cameras MUST capture images in the landscape orientation. This applies regardless of the device's natural orientation; that is, it applies to landscape-primary devices as well as portrait-primary devices.

    Devices that fulfill all of the following criteria are exempt from the requirement above:

    • The device implements variable-geometry screens, such as foldable or hinged displays.
    • When the device's fold or hinge state changes, the device switches between portrait-primary to landscape-primary (or vice-versa) orientations.

    End new requirements

9. Security Model Compatibility

  • 9.11 Keys and Credentials

    See revision

    When the device implementation supports a secure lock screen, it:

    • [C-1-6] MUST support IKeymasterDevice 4.0, IKeymasterDevice 4.1, IKeyMintDevice version 1 or IKeyMintDevice version 2.

  • 9.17 Android Virtualization Framework

    See revision

    If the device implements support for the Android Virtualization Framework APIs ( android.system.virtualmachine.* ), the Android host:

    • [C-1-3] MUST NOT modify, omit, or replace the neverallow rules present within the system/sepolicy provided in the upstream Android Open Source Project (AOSP) and the policy MUST compile with all neverallow rules present.

    If the device implements support for the Android Virtualization Framework APIs ( android.system.virtualmachine.* ), then any Protected Virtual Machine instance:

    • [C-2-4] НЕ ДОЛЖНО изменять, опускать или заменять правила Neverallow, присутствующие в системе/sepolicy/microdroid, представленной в исходном проекте Android с открытым исходным кодом (AOSP).

    If the device implements support for the Android Virtualization Framework APIs, then for Key Management:

    • [C-6-2] MUST do DICE properly ie provide the correct values. But it might not have to go to that level of detail.

15 августа 2022 г.

2. Типы устройств

  • 2.2.1 Hardware : Changes to hardware requirements as follows.

    • Input devices:

      See revision

      Реализации портативных устройств:

      • [ 7.2 .3/H-0-5] MUST call OnBackInvokedCallback.onBackStarted() on the current focused window when the back gesture starts or the back button ( KEYCODE_BACK ) is pressed DOWN.
      • [ 7.2 .3/H-0-6] MUST call OnBackInvokedCallback.onBackInvoked() when the back gesture is committed or the Back button is released (UP).
      • [ 7.2 .3/H-0-7] MUST call OnBackInvokedCallback.onBackCancelled() when the back gesture is not committed or the KEYCODE_BACK event is canceled.

      End new requirements

      If devices support WiFi Neighbor Awareness Networking (NAN) protocol by declaring PackageManager.FEATURE_WIFI_AWARE and Wi-Fi Location (Wi-Fi Round Trip Time — RTT) by declaring PackageManager.FEATURE_WIFI_RTT , then they:

      • [ 7.4 .2.5/H-1-1] ДОЛЖЕН сообщать дальность с точностью до +/- 1 метра при полосе пропускания 160 МГц в 68-м процентиле (как рассчитано с помощью функции кумулятивного распределения), +/- 2 метра при полосе пропускания 80 МГц на 68-м процентиле, +/-4 метра при полосе пропускания 40 МГц на 68-м процентиле и +/-8 метров при полосе пропускания 20 МГц на 68-м процентиле на расстояниях 10 см, 1 м, 3 м и 5 м, как наблюдается через WifiRttManager#startRanging Android API .

      • [ 7.4 .2.5/H-SR] Are STRONGLY RECOMMENDED to report the range accurately to within +/-1 meter at 160 MHz bandwidth at the 90th percentile (as calculated with the Cumulative Distribution Function), +/-2 meters at 80 MHz bandwidth at the 90th percentile, +/-4 meters at 40 MHz bandwidth at the 90th percentile, and +/-8 meters at 20 MHz bandwidth at the 90th percentile at distances of 10 cm, as observed via the WifiRttManager#startRanging Android API .

      It is STRONGLY RECOMMENDED to follow the measurement setup steps specified in Presence Calibration Requirements .

      End new requirements

    • Audio latency:

      See revision

      If Handheld device implementations declare android.hardware.audio.output and android.hardware.microphone , they:

      • [ 5.6 /H-1-1] MUST have a Mean Continuous Round-Trip latency of 500 800 milliseconds or less over 5 measurements, with a Mean Absolute Deviation less than 50 100 ms, over the following data paths: "speaker to microphone", 3.5 mm loopback adapter (if supported), USB loopback (if supported). at least one supported path.

      • [ 5.6 /H-1-1] MUST have an average Tap-to-tone latency of 500 milliseconds or less over at least 5 measurements over the speaker to microphone data path.

      End new requirements

    • Haptic inputs:

      See revision

      If Handheld device implementations include at least one haptic actuator, they:

      • [ 7.10 /H]* SHOULD NOT use an eccentric rotating mass (ERM) haptic actuator (vibrator).
      • [ 7.10 /H]* SHOULD position the placement of the actuator near the location where the device is typically held or touched by hands.
      • [ 7.10 /H]* SHOULD implement all public constants for clear haptics in android.view.HapticFeedbackConstants namely (CLOCK_TICK, CONTEXT_CLICK, KEYBOARD_PRESS, KEYBOARD_RELEASE, KEYBOARD_TAP, LONG_PRESS, TEXT_HANDLE_MOVE, VIRTUAL_KEY, VIRTUAL_KEY_RELEASE, CONFIRM, REJECT, GESTURE_START and GESTURE_END).
      • [ 7.10 /H]* SHOULD implement all public constants for clear haptics in android.os.VibrationEffect namely (EFFECT_TICK, EFFECT_CLICK, EFFECT_HEAVY_CLICK and EFFECT_DOUBLE_CLICK) and all feasible public PRIMITIVE_* constants for rich haptics in android.os.VibrationEffect.Composition namely (PRIMITIVE_CLICK and PRIMITIVE_TICK) (CLICK, TICK, LOW_TICK, QUICK_FALL, QUICK_RISE, SLOW_RISE, SPIN, THUD). Some of these primitives, such as LOW_TICK and SPIN may only be feasible if the vibrator can support relatively low frequencies.

      End new requirements

      • [ 7.10 /H]* SHOULD use these linked haptic constants mappings .

      End new requirements

      If Handheld device implementations include at least one linear resonant actuator, they:

      • [ 7.10 /H]* SHOULD move the haptic actuator in the X-axis (left-right) of portrait orientation.

      • [ 7.10 /H]* СЛЕДУЕТ проверить и при необходимости обновить резервную конфигурацию для неподдерживаемых примитивов, как описано в руководстве по реализации констант.

      • [7.10/H]* SHOULD provide fallback support to mitigate the risk of failure as described here .

  • 2.2.3 Software :

    • Auth Trivial Device Cotntrols:

      See revision

      • [ 3.8 .16/H-1-5] ДОЛЖЕН предоставить пользователю возможность отказаться от назначенных приложением тривиальных элементов управления устройством с аутентификацией из элементов управления, зарегистрированных сторонними приложениями через ControlsProviderService и Control Control.isAuthRequired API.

    • MediaStyle Notifications:

      See revision

      Если реализации портативных устройств поддерживают уведомления MediaStyle, они:

      • [3.8.3.1/H-1-SR] Are STRONGLY RECOMMENDED to provide a user affordance(eg “output switcher”) accessed from system UI that allows users to switch among appropriate available media routes(eg bluetooth devices and routes provided to MediaRouter2Manager ) when an app posts a MediaStyle notification with a MediaSession token .

  • 2.2.4 Performance and Power : New requirement for apps that run foreground services.

    See revision

    Реализации портативных устройств:

    • [ 8.5 /H-0-1] MUST provide a user affordance in the Settings menu with the ability to stop an app that is running a foreground service and display all apps that have active foreground services and the duration of each of these services since it started as described in the SDK document .
      • Some apps MAY be exempted from being stopped or being listed in such a user affordance as described in the SDK document .

    End new requirements

  • 2.2.7.1 Media : Updates to the Handheld Requirements Media section as follows:

    See revision

    If Handheld device implementations return android.os.Build.VERSION_CODES.T for android.os.Build.VERSION_CODES.MEDIA_PERFORMANCE_CLASS , then they:

    • [5.1/H-1-1] ДОЛЖНО объявлять максимальное количество сеансов аппаратного видеодекодера, которые могут выполняться одновременно в любой комбинации кодеков, с помощью методов CodecCapabilities.getMaxSupportedInstances() и VideoCapabilities.getSupportedPerformancePoints() .
    • [5.1/H-1-2] MUST support 6 instances of hardware video decoder sessions (AVC, HEVC, VP9, AV1 or later) in any codec combination running concurrently at 1080p resolution@30 fps.
    • [5.1/H-1-3] ДОЛЖНО объявлять максимальное количество сеансов аппаратного кодирования видео, которые могут выполняться одновременно в любой комбинации кодеков, с помощью методов CodecCapabilities.getMaxSupportedInstances() и VideoCapabilities.getSupportedPerformancePoints() .
    • [5.1/H-1-4] MUST support 6 instances of hardware video encoder sessions (AVC, HEVC, VP9, AV1 or later) in any codec combination running concurrently at 1080p resolution@30fps.
    • [5.1/H-1-5] ДОЛЖНО объявлять максимальное количество сеансов аппаратного кодирования и декодера видео, которые могут выполняться одновременно в любой комбинации кодеков, с помощью методов CodecCapabilities.getMaxSupportedInstances() и VideoCapabilities.getSupportedPerformancePoints() .
    • [5.1/H-1-6] MUST support 6 instances of hardware video decoder and hardware video encoder sessions (AVC, HEVC, VP9, AV1 or later) in any codec combination running concurrently at 1080p@30fps resolution.
    • [5.1/H-1-7] ДОЛЖНА иметь задержку инициализации кодека 40 мс или меньше для сеанса кодирования видео 1080p или меньше для всех аппаратных видеокодеров при нагрузке. Загрузка здесь определяется как одновременный сеанс перекодирования только видео с разрешением 1080p на 720p с использованием аппаратных видеокодеков вместе с инициализацией записи аудио-видео 1080p.
    • [5.1/H-1-8] ДОЛЖНА иметь задержку инициализации кодека 30 мс или меньше для сеанса кодирования звука со скоростью 128 кбит/с или ниже для всех аудиокодеров при нагрузке. Загрузка здесь определяется как одновременный сеанс перекодирования только видео с разрешением 1080p на 720p с использованием аппаратных видеокодеков вместе с инициализацией записи аудио-видео 1080p.
    • [5.1/H-1-9] MUST support 2 instances of secure hardware video decoder sessions (AVC, HEVC, VP9, AV1 or later) in any codec combination running concurrently at 1080p resolution@30 fps.
    • [5.1/H-1-10] MUST support 3 instances of non-secure hardware video decoder sessions together with 1 instance of secure hardware video decoder session (4 instances total) (AVC, HEVC, VP9, AV1 or later) in any codec combination running concurrently at 1080p resolution@30fps.
    • [5.1/ H-1-11] MUST support a secure decoder for every hardware AVC, HEVC, VP9 or AV1 decoder on the device.
    • [5.1/H-1-12] MUST have a video decoder initialization latency of 40 ms or less.
    • [5.1/H-1-13] MUST have an audio decoder initialization latency of 30 ms or less.
    • [5.1/H-1-14] MUST support AV1 hardware decoder Main 10, Level 4.1.
    • [5.1/H-SR] Are Strongly Recommended to support Film Grain for AV1 hardware decoder.
    • [5.1/H-1-15] ДОЛЖЕН иметь как минимум один аппаратный видеодекодер с поддержкой 4K60.
    • [5.1/H-1-16] ДОЛЖЕН иметь хотя бы один аппаратный видеокодер с поддержкой 4K60.
    • [5.3/H-1-1] MUST NOT drop more than 1 frame in 10 seconds (ie less than 0.167 percent frame drop) for a 1080p 60 fps video session under load. Load is defined as a concurrent 1080p to 720p video-only transcoding session using hardware video codecs, as well as a 128 kbps AAC audio playback.
    • [5.3/H-1-2] MUST NOT drop more than 1 frame in 10 seconds during a video resolution change in a 60 fps video session under load. Load is defined as a concurrent 1080p to 720p video-only transcoding session using hardware video codecs, as well as a 128 kbps AAC audio playback.
    • [5.6/H-1-1] MUST have a tap-to-tone latency of 80 milliseconds or less using the OboeTester tap-to-tone test or CTS Verifier tap-to-tone test.
    • [5.6/H-1-2] ДОЛЖНА иметь двустороннюю задержку аудио 80 миллисекунд или меньше по крайней мере по одному поддерживаемому каналу передачи данных.
    • [5.6/H-1-3] MUST support >=24-bit audio for stereo output over 3.5 mm audio jacks if present and over USB audio if supported through the entire data path for low latency and streaming configurations. Для конфигурации с низкой задержкой AAudio должно использоваться приложением в режиме обратного вызова с низкой задержкой. Для конфигурации потоковой передачи приложение должно использовать Java AudioTrack. Как в конфигурации с низкой задержкой, так и в конфигурации потоковой передачи выходной приемник HAL должен принимать AUDIO_FORMAT_PCM_24_BIT , AUDIO_FORMAT_PCM_24_BIT_PACKED , AUDIO_FORMAT_PCM_32_BIT или AUDIO_FORMAT_PCM_FLOAT в качестве целевого выходного формата.
    • [5.6/H-1-4] MUST support >=4 channel USB audio devices (This is used by DJ controllers for previewing songs.)
    • [5.6/H-1-5] ДОЛЖНЫ поддерживать MIDI-устройства, соответствующие классу, и объявлять флаг функции MIDI.
    • [5.7/H-1-2] ДОЛЖЕН поддерживать MediaDrm.SECURITY_LEVEL_HW_SECURE_ALL с указанными ниже возможностями расшифровки контента.
    Минимальный размер выборки 4 МБ
    Минимальное количество подвыборок — H264 или HEVC 32
    Минимальное количество подвыборок – VP9 9
    Минимальное количество подвыборок — AV1 288
    Минимальный размер буфера подвыборки 1 МиБ
    Минимальный размер общего криптобуфера 500 КиБ
    Минимальное количество одновременных сеансов 30
    Минимальное количество ключей за сеанс 20
    Минимальное общее количество ключей (все сеансы) 80
    Минимальное общее количество ключей DRM (все сеансы) 6
    Размер сообщения 16 КиБ
    Расшифрованные кадры в секунду 60 кадров в секунду

    End new requirements

  • 2.2.7.2 Camera : Updates to the Media Performance Class Camera requirements.

    See revision

    If Handheld device implementations return android.os.Build.VERSION_CODES.T for android.os.Build.VERSION_CODES.MEDIA_PERFORMANCE_CLASS , then they:

    • [7.5/H-1-1] MUST have a primary rear facing camera with a resolution of at least 12 megapixels supporting video capture at 4k@30fps. Основной задней камерой-это камера с задней частью с самого низкого идентификатора камеры.
    • [7.5/H-1-2] MUST have a primary front facing camera with a resolution of at least 5 megapixels and support video capture at 1080p@30fps. Основная фронтальная камера-это фронтальная камера с самым низким идентификатором камеры.
    • [7.5/H-1-3] MUST support android.info.supportedHardwareLevel property as FULL or better for both primary cameras.
    • [7.5/H-1-4] MUST support CameraMetadata.SENSOR_INFO_TIMESTAMP_SOURCE_REALTIME for both primary cameras.
    • [7.5/H-1-5] MUST have camera2 JPEG capture latency < 1000 ms for 1080p resolution as measured by the CTS camera PerformanceTest under ITS lighting conditions (3000K) for both primary cameras.
    • [7.5/H-1-6] MUST have camera2 startup latency (open camera to first preview frame) < 500 ms as measured by the CTS camera PerformanceTest under ITS lighting conditions (3000K) for both primary cameras.
    • [7.5/H-1-8] MUST support CameraMetadata.REQUEST_AVAILABLE_CAPABILITIES_RAW and android.graphics.ImageFormat.RAW_SENSOR for the primary back camera.
    • [7.5/H-1-9] MUST have a rear-facing primary camera supporting 720p or 1080p @ 240fps.
    • [7.5/H-1-10] MUST have min ZOOM_RATIO < 1.0 for the primary cameras if there is an ultrawide RGB camera facing the same direction.
    • [7.5/H-1-11] MUST implement concurrent front-back streaming on primary cameras.
    • [7.5/H-1-12] MUST support CONTROL_VIDEO_STABILIZATION_MODE_PREVIEW_STABILIZATION for both primary front and primary back camera.
    • [7.5/H-1-13] MUST support LOGICAL_MULTI_CAMERA capability for the primary cameras if there are greater than 1 RGB cameras facing the same direction.
    • [7.5/H-1-14] MUST support STREAM_USE_CASE capability for both primary front and primary back camera.

    End new requirements

  • 2.2.7.3 Hardware : Updates to the Media Performance Class requirements for Hardware.

    See revision

    If Handheld device implementations return android.os.Build.VERSION_CODES.T for android.os.Build.VERSION_CODES.MEDIA_PERFORMANCE_CLASS , then they:

    • [7.1.1.1/h-2-1] должно иметь разрешение экрана не менее 1080p.
    • [7.1.1.3/H-2-1] MUST have screen density of at least 400 dpi.
    • [7.6.1/H-2-1] MUST have at least 8 GB of physical memory.

    End new requirements

  • 2.2.7.4 Performance : Updates to the Media Performance Class for Performance.

    See revision

    If Handheld device implementations return android.os.Build.VERSION_CODES.T for android.os.Build.VERSION_CODES.MEDIA_PERFORMANCE_CLASS , then they:

    • [8.2/H-1-1] MUST ensure a sequential write performance of at least 125 MB/s.
    • [8.2/H-1-2] должен обеспечить случайную производительность записи не менее 10 МБ/с.
    • [8.2/H-1-3] должен обеспечить последовательную производительность чтения не менее 250 МБ/с.
    • [8.2/H-1-4] MUST ensure a random read performance of at least 40 MB/s.

    End new requirements

  • 2.5.1 Hardware : Updates to the 3-axis accelerometer and 3-axis gyroscope requirements, as well as the exterior-view camera requirements.

    See revision

    Реализации автомобильных устройств:

    • [ 7.3 .1/A-0-4] должен соответствовать системе координат CAR CAR CAR.
    • [ 7.3 /A-SR] Are STRONGLY_RECOMMENDED to include a 3-axis accelerometer and 3-axis gyroscope.
    • [ 7.3 /A-SR] Are STRONGLY_RECOMMENDED to implement and report TYPE_HEADING sensor.

    Если реализации автомобильных устройств включают акселерометр, они:

    • [ 7.3 .1/A-1-1] должен быть в состоянии сообщать о событиях до частоты не менее 100 Гц.

    Если реализации устройства включают акселерометр 3-осадного, они:

    • [ 7.3 .1/A-SR] Are STRONGLY RECOMMENDED to implement the composite sensor for limited axes accelerometer.

    Если реализации автомобильных устройств включают акселерометр с менее чем 3 осей, они:

    • [ 7.3 .1/a-1-3] должен реализовать и сообщать о датчике TYPE_ACCELEROMETER_LIMITED_AXES .
    • [ 7.3 .1/a-1-4] должен реализовать и сообщать о TYPE_ACCELEROMETER_LIMITED_AXES_UNCALIBRATED .

    Если реализации автомобильных устройств включают гироскоп, они:

    • [ 7.3 .4/A-2-1] должен быть в состоянии сообщать о событиях до частоты не менее 100 Гц.
    • [ 7.3 .4/A-2-3] должен быть способен измерять изменения ориентации до 250 градусов в секунду.
    • [ 7.3 .4/A-SR] Are STRONGLY RECOMMENDED to configure the gyroscope's measurement range to +/-250dps in order to maximize the resolution possible.

    End new requirements

    Если реализации автомобильных устройств включают 3-осевой гироскоп, они: они:

    • [ 7.3 .4/A-SR] Are STRONGLY RECOMMENDED to implement the composite sensor for limited axes gyroscope.

    Если реализации автомобильных устройств включают гироскоп с менее чем 3-осом, они:

    • [ 7.3 .4/a-4-1] должен реализовать и сообщать о датчике TYPE_GYROSCOPE_LIMITED_AXES .
    • [ 7.3 .4/a-4-2] должен реализовать и сообщать TYPE_GYROSCOPE_LIMITED_AXES_UNCALIBRATED

    Если реализации автомобильных устройств включают датчик TYPE_HEADING , они:

    • [ 7.3 .4/A-4-3] должен быть в состоянии сообщать о событиях до частоты не менее 1 Гц.
    • [ 7.3 .4/A-SR] STRONGLY_RECOMMENDED to report events up to a frequency of at least 10 Hz.
    • Должен быть в отношении истинного севера.
    • Должен быть доступен, даже когда транспортное средство все еще.
    • Должно иметь разрешение не менее 1 градуса.

    End new requirements

    An exterior view camera is a camera that images scenes outside of the device implementation, like the rearview camera a dashcam .

    If Automotive device implementations include an exterior view camera, for such a camera, they:

    • [ 7.5 .5/A-SR] Are STRONGLY RECOMMENDED to be oriented so that the long dimension of the camera aligns with the horizon.

    • MAY have either hardware auto-focus or software auto-focus implemented in the camera driver.

    If automotive device implementations include one or more exterior view cameras, and load Exterior View System (EVS) service, then for such a camera, they:

    • [ 7.5 /A-2-1] MUST NOT rotate or horizontally mirror the camera preview.

    Реализации автомобильных устройств:

    • MAY include one or more cameras that are available to third party applications.

    If automotive device implementations include at least one camera and make it available to third party applications then, they:

    • [ 7.5 /A-3-1] MUST report the feature flag android.hardware.camera.any .
    • [ 7.5 /A-3-2] MUST not declare the camera as a system camera .
    • MAY support external cameras described in section 7.5.3 .
    • MAY include features (such as auto-focus, etc.) available to rear-facing cameras as described in section 7.5.1 .

    End new requirements

  • 2.5.5 Security Model : New requirements for camera permissions for automotive devices.

    See revision

    If Automotive device implementations declare android.hardware.camera.any , then they:

    • [ 9.8.2 /A-2-1] MUST display the camera indicator when an app is accessing live camera data, but not when the camera is only being accessed by app(s) holding the roles called out in Section 9.1 Permissions with CDD Идентификатор [C-3-X].

    • [ 9.8.2 /A-2-2] MUST not hide the camera indicator for system apps that have visible user interfaces or direct user interaction.

    End new requirements

  • 2.6.1 Tablet Requirements — Hardware : Update to tablet screen size requirements.

    See revision

    An Android Tablet device refers to an Android device implementation that typically meets all the following criteria:

    • Has a screen display size greater than 7” and less than 18", measured diagonally.

    Размер экрана

    • [ 7.1 .1.1/Tab-0-1] MUST have a screen in the range of 7 to 18 inches.

3. Software

  • 3.2.2 Build Parameters : Updated ASCII characters in getSerial() .

    See revision

    • [C-0-1] To provide consistent, meaningful values across device implementations, the table below includes additional restrictions on the formats of these values to which device implementations MUST conform.
    Параметр Подробности
    getSerial() MUST (be or return) a hardware serial number, which MUST be available and unique across devices with the same MODEL and MANUFACTURER. The value of this field MUST be encodable as 7-bit ASCII and match the regular expression “^[a-zA-Z0-9]+$” .

  • 3.2.3.5 Conditional Application Intents : Update to requirements for conditional application intents.

    See revision

    If device implementations include a large display (generally having display width and height of 600dp+) and supports split functionality , then they:

    End new requirements

  • 3.5.1 Application Restriction : Updates to application restrictions.

    See revision

    If device implementations implement a proprietary mechanism to restrict apps (eg changing or restricting API behaviors that are described in the SDK) and that mechanism is more restrictive than the Restricted App Standby Bucket , they:

    • [C-1-1] MUST allow the user to see the list of restricted apps.
    • [C-1-2] MUST provide user affordance to turn on / off all of these proprietary restrictions on each app.
    • [C-1-3] MUST not automatically apply these proprietary restrictions without evidence of poor system health behavior, but MAY apply the restrictions on apps upon detection of poor system health behavior like stuck wakelocks, long running services, and other criteria. The criteria MAY be determined by device implementers but MUST be related to the app's impact on the system health. Other criteria that are not purely related to the system health, such as the app's lack of popularity in the market, MUST NOT be used as criteria.
    • [C-1-4] MUST not automatically apply these proprietary restrictions for apps when a user has turned off app restrictions manually, and MAY suggest the user to apply these proprietary restrictions.
    • [C-1-5] MUST inform users if these proprietary restrictions are applied to an app automatically. Such information MUST be provided in the 24-hour period preceding the application of these proprietary restrictions.

    • [C-1-6] MUST return true for the ActivityManager.isBackgroundRestricted() method for any API calls from an app.

    • [C-1-7] MUST NOT restrict the top foreground app that is explicitly used by the user.

    • [C-1-8] MUST suspend these proprietary restrictions on an app whenever a user starts to explicitly use the app, making it the top foreground application.

    • [C-1-9] MUST report all these proprietary restrictions events via UsageStats.

    • [C-1-10] MUST provide a public and clear document or website that describes how proprietary restrictions are applied. This document or website MUST be linkable from the Android SDK documents and MUST include:

      • Triggering conditions for proprietary restrictions.
      • What and how an app can be restricted.
      • How an app can be exempted from such restrictions.
      • How an app can request an exemption from proprietary restrictions, if they support such an exemption for apps the user can install.

    If an app is pre-installed on the device and has never been explicitly used by a user for more than 30 days, [C-1-3] [C-1-5] are exempted.

    End new requirements

  • 3.8.1 Launcher (Home Screen) : Updates to support for monochrome/adaptive-icon .

    See revision

    If device implementations support monochrome icons, these icons:

    • [C-6-1] MUST be used only when a user explicitly enables them (eg via Settings or wallpaper picker menu).

    End new requirements

  • 3.8.2 Widgets : Update to third-party app widget presence in the Launcher.

    See revision

    If device implementations support third-party app widgets, they:

    • [C-1-2] MUST include built-in support for AppWidgets and expose user interface affordances to add, configure, view, and remove AppWidgets directly within the Launcher.

  • 3.8.3.1 Presentation of Notifications : Clarifying the definition of heads-up notifications.

    See revision

    Heads up notifications are notifications that are presented to the user as they come in independently of the surface the user is on.

  • 3.8.3.3 DND (Do not Disturb) / Priority Mode : Update to include Priority Mode in DND (Do Not Disturb) requirements.

    See revision

    3.8.3.3. DND (Do not Disturb) / Priority Mode

    If device implementations support the DND feature (also called Priority Mode), they:

  • 3.8.6 Themes : New requirements for dynamic color tonal palettes.

    See revision

    If device implementations include a screen or video output, they:

    • [C-1-4] MUST generate dynamic color tonal palettes as specified in the AOSP documentation of Settings.THEME_CUSTOMIZATION_OVERLAY_PACKAGES (see android.theme.customization.system_palette and android.theme.customization.theme_style ).

    • [C-1-5] MUST generate dynamic color tonal palettes using color theme styles enumerated in the Settings.THEME_CUSTOMIZATION_OVERLAY_PACKAGES documentation (see android.theme.customization.theme_styles ), namely TONAL_SPOT , VIBRANT , EXPRESSIVE , SPRITZ , RAINBOW , FRUIT_SALAD .

      "Source color" used to generate dynamic color tonal palettes when sent with android.theme.customization.system_palette (as documented in Settings.THEME_CUSTOMIZATION_OVERLAY_PACKAGES ).

    • [C-1-6] MUST have a CAM16 chroma value of 5 or larger.

      • SHOULD be derived from the wallpaper via com.android.systemui.monet.ColorScheme#getSeedColors , which provides multiple valid source colors to pick one from.

      • SHOULD use the value 0xFF1B6EF3 , if none of the provided colors meet the above source color requirement.

    End new requirements

  • 3.8.17 Clipboard : Added new requirements section for content on the clipboard.

    See revision

    3.8.17. Буфер обмена

    Реализации устройства:

    • [C-0-1] MUST NOT send clipboard data to any component, activity, service, or across any network connection, without explicit user action (eg, pressing a button on the overlay), except for services mentioned in 9.8.6 Content Capture and App Search .

    If device implementations generate a user-visible preview when content is copied to the clipboard for any ClipData item where ClipData.getDescription().getExtras() contains android.content.extra.IS_SENSITIVE , they:

    • [C-1-1] MUST redact the user visible preview

    The AOSP reference implementation satisfies these clipboard requirements.

    End new requirements

  • 3.9.1.1 Device Owner Provisioning : Updates to device owner provisioning requirements.

    See revision

    If device implementations declare android.software.device_admin , they:

    • [C-1-1] MUST support enrolling a Device Policy Client (DPC) as a Device Owner app as described below:
      • When the device implementation has neither users nor user data configured, it:
        • [C-1-5] MUST enroll the DPC application as the Device Owner app or enable the DPC app to choose whether to become a Device Owner or a Profile Owner, if the device declares Near-Field Communications (NFC) support via the feature flag android.hardware.nfc and receives an NFC message containing a record with MIME type MIME_TYPE_PROVISIONING_NFC .
        • [C-1-8] MUST send the ACTION_GET_PROVISIONING_MODE intent after device owner provisioning is triggered so that the DPC app can choose whether to become a Device Owner or a Profile Owner, depending on the values of android.app.extra.PROVISIONING_ALLOWED_PROVISIONING_MODES , unless it can be determined from context that there is only one valid option. (such as for NFC based provisioning where Profile Owner provisioning is not supported).
        • [C-1-9] MUST send the ACTION_ADMIN_POLICY_COMPLIANCE intent to the Device Owner app if a Device Owner is established during provisioning regardless of the provisioning method used. The user must not be able to proceed in the Setup Wizard until the Device Owner app finishes.
      • When the device implementation has users or user data, it:
        • [C-1-7] MUST not enroll any DPC application as the Device Owner App any more.
    • [C-1-2] MUST show an appropriate disclosure notice (such as referenced in AOSP ) and obtain affirmative consent from the end user prior to an app being set as Device Owner, unless the device is programmatically configured for retail demo mode prior to on-screen, end-user interaction. require some affirmative action before or during the provisioning process to consent to an app being set as Device Owner. Consent can be via user action or by some programmatic means but appropriate disclosure notice (as referenced in AOSP) MUST be shown before device owner provisioning is initiated. Also, the programmatic device owner consent mechanism used (by enterprises) for device owner provisioning MUST NOT interfere with the Out-Of-Box Experience for non-enterprise use.
    • [C-1-3] MUST NOT hard code the consent or prevent the use of other device owner apps.

    If device implementations declare android.software.device_admin , but also include a proprietary Device Owner device management solution and provide a mechanism to promote an application configured in their solution as a "Device Owner equivalent" to the standard "Device Owner" as recognized by the standard Android DevicePolicyManager APIs, they:

    • [C-2-1] MUST have a process in place to verify that the specific app being promoted belongs to a legitimate enterprise device management solution and has been configured in the proprietary solution to have the rights equivalent as a "Device Owner".
    • [C-2-2] MUST show the same AOSP Device Owner consent disclosure as the flow initiated by android.app.action.PROVISION_MANAGED_DEVICE prior to enrolling the DPC application as "Device Owner".
    • [C-2-3] MUST NOT hard code the consent or prevent the use of other device owner apps.
    • MAY have user data on the device prior to enrolling the DPC application as "Device Owner".

  • 3.9.4 Device Management Role Requirements : Added a section for Device Management Role Requirements.

    See revision

    3.9.4 Device Policy Management Role Requirements

    If device implementations report android.software.device_admin or android.software.managed_users , then they:

    • [C-1-1] MUST support the device policy management role as defined in section 9.1 . The application that holds the device policy management role MAY be defined by setting config_devicePolicyManagement to the package name. The package name MUST be followed by : and the signing certificate unless the application is preloaded.

    If a package name is not defined for config_devicePolicyManagement as described above:

    If a package name is defined for config_devicePolicyManagement as described above:

    • [C-3-1] The application MUST be installed on all profiles for a user .
    • [C-3-2] Device implementations MAY define an application that updates the device policy management role holder before provisioning by setting config_devicePolicyManagementUpdater .

    If a package name is defined for config_devicePolicyManagementUpdater as described above:

    • [C-4-1] The application MUST be preinstalled on the device.
    • [C-4-2] The application MUST implement an intent filter which resolves android.app.action.UPDATE_DEVICE_POLICY_MANAGEMENT_ROLE_HOLDER .

    End new requirements

  • 3.18 Contacts : Adding information for new contacts.

    See revision

    Default account for new contacts: Contacts Provider provides APIs to manage the setting of the default account when creating a new contact.

    If device implementations preload a contacts app, then the pre-loaded contacts app:

    • [C-2-1] MUST handle the intent ContactsContract.Settings.ACTION_SET_DEFAULT_ACCOUNT to launch a UI for account selection and save the setting to Contacts Provider when an account is selected.

    • [C-2-2] MUST honor the default account setting when handling Intent.ACTION_INSERT and Intent.ACTION_INSERT_OR_EDIT for the ContactsContracts.Contacts.CONTENT_TYPE and ContactsContract.RawContacts.CONTENT_TYPE by initially selecting the account.

    End new requirements

4. Application Packaging Compatibility

5. Multimedia Compatibility

  • 5.1.2 Audio Decoding : Added new requirements for decoders capable of outputting mutli-channel audio.

    See revision

    If device implementations support the decoding of AAC input buffers of multichannel streams (ie more than two channels) to PCM through the default AAC audio decoder in the android.media.MediaCodec API, then the following MUST be supported:

    • [C-7-1] MUST be able to be configured by the application using the decoding with the key KEY_MAX_OUTPUT_CHANNEL_COUNT to control whether the content is downmixed to stereo (when using a value of 2) or is output using the native number of channels (when using a value equal or greater to that number). For instance a value of 6 or greater would configure a decoder to output 6 channels when fed 5.1 content.
    • [C-7-2] When decoding, the decoder MUST advertise the channel mask being used on the output format with the KEY_CHANNEL_MASK key, using the android.media.AudioFormat constants (example: CHANNEL_OUT_5POINT1 ).

    If device implementations support audio decoders other than the default AAC audio decoder and are capable of outputting multi-channel audio (ie more than 2 channels) when fed compressed multi-channel content, then:

    • [C-SR] The decoder is STRONGLY RECOMMENDED to be able to be configured by the application using the decoding with the key KEY_MAX_OUTPUT_CHANNEL_COUNT to control whether the content is downmixed to stereo (when using a value of 2) or is output using the native number of channels (when using a value equal or greater to that number). For instance a value of 6 or greater would configure a decoder to output 6 channels when fed 5.1 content.
    • [C-SR] When decoding, the decoder is STRONGLY RECOMMENDED to advertise the channel mask being used on the output format with the KEY_CHANNEL_MASK key, using the android.media.AudioFormat constants (example: CHANNEL_OUT_5POINT1 ).

    End new requirements

  • 5.4.1 Raw Audio Capture and Microphone Information : Updates to supported audio sources for audio input streams.

    See revision

    If device implementations declare android.hardware.microphone , they:

  • 5.4.2 Capture for Voice Recognition : Updated requirements for voice recognition audio stream and added requirements for microphone gain levels.

    See revision

    If device implementations declare android.hardware.microphone , they:

    • SHOULD record the voice recognition audio stream with approximately flat amplitude versus frequency characteristics: specifically, ±3 dB, from 100 Hz to 4000 Hz.
    • SHOULD record the voice recognition audio stream with input sensitivity set such that a 90 dB sound power level (SPL) source at 1000 Hz yields RMS of 2500 for 16-bit samples.

    • SHOULD exhibit approximately flat amplitude-versus-frequency characteristics in the mid-frequency range: specifically ±3dB from 100 Hz to 4000 Hz for each and every microphone used to record the voice recognition audio source.
    • [C-SR] are STRONGLY RECOMMENDED to exhibit amplitude levels in the low frequency range: specifically from ±20 dB from 30 Hz to 100 Hz compared to the mid-frequency range for each and every microphone used to record the voice recognition audio source.
    • [C-SR] are STRONGLY RECOMMENDED to exhibit amplitude levels in the high frequency range: specifically from ±30 dB from 4000 Hz to 22 KHz compared to the mid-frequency range for each and every microphone used to record the voice recognition audio source.
    • SHOULD set audio input sensitivity such that a 1000 Hz sinusoidal tone source played at 90 dB Sound Pressure Level (SPL) (measured next to the microphone) yields an ideal response of RMS 2500 within a range of 1770 and 3530 for 16 bit-samples (or -22.35 db ±3dB Full Scale for floating point/double precision samples) for each and every microphone used to record the voice recognition audio source.

    End new requirements

  • 5.4.6 Microphone Gain Levels : Moved requirements for Microphone Gain Levels to section 5.4.2.

    See revision

    5.4.6. Microphone Gain Levels [Moved to 5.4.2]

    If device implementations declare android.hardware.microphone , they:

    • SHOULD exhibit approximately flat amplitude-versus-frequency characteristics in the mid-frequency range: specifically ±3dB from 100 Hz to 4000 Hz for each and every microphone used to record the voice recognition audio source.
    • [C-SR] are STRONGLY RECOMMENDED to exhibit amplitude levels in the low frequency range: specifically from ±20 dB from 5 Hz to 100 Hz compared to the mid-frequency range for each and every microphone used to record the voice recognition audio source.
    • [C-SR] are STRONGLY RECOMMENDED to exhibit amplitude levels in the high frequency range: specifically from ±30 dB from 4000 Hz to 22 KHz compared to the mid-frequency range for each and every microphone used to record the voice recognition audio source.
    • SHOULD set audio input sensitivity such that a 1000 Hz sinusoidal tone source played at 90 dB Sound Pressure Level (SPL) yields a response with RMS of 2500 for 16 bit-samples (or -22.35 dB Full Scale for floating point/double precision samples) for each and every microphone used to record the voice recognition audio source.

  • 5.5.4 Audio Offload : Updates to the audio offload playback requirements.

    See revision

    If device implementations support audio offload playback , they:

    • [C-SR] Are STRONGLY RECOMMENDED to trim the played gapless audio content between two clips with the same format when specified by the AudioTrack gapless API and the media container for MediaPlayer.

  • 5.6 Audio Latency : Updates to the audio latency requirements.

    See revision

    For the purposes of this section, use the following definitions:

    • cold output jitter . The variability among separate measurements of cold output latency values.
    • cold input jitter . The variability among separate measurements of cold input latency values.

    If device implementations declare android.hardware.audio.output , they MUST meet or exceed the following requirements:

    • [C-1-2] Cold output latency of 500 milliseconds or less.
    • [C-1-3] Opening an output stream using AAudioStreamBuilder_openStream() MUST take less than 1000 milliseconds.

    If device implementations declare android.hardware.audio.output they are STRONGLY RECOMMENDED to meet or exceed the following requirements:

    • [C-SR] Cold output latency of 100 milliseconds or less over the speaker data path. Existing and new devices that run this version of Android are VERY STRONGLY RECOMMENDED to meet these requirements now. In a future platform release, we will require Cold output latency of 200 ms or less as a MUST.
    • [C-SR] Minimize the cold output jitter.

    If device implementations include android.hardware.microphone , they MUST meet these input audio requirements:

    • [C-3-2] Cold input latency of 500 milliseconds or less.
    • [C-3-3] Opening an input stream using AAudioStreamBuilder_openStream() MUST take less than 1000 milliseconds.

    If device implementations include android.hardware.microphone , they are STRONGLY RECOMMENDED to meet these input audio requirements:

    • [C-SR] Cold input latency of 100 milliseconds or less over the microphone data path. Existing and new devices that run this version of Android are VERY STRONGLY RECOMMENDED to meet these requirements now. In a future platform release we will require Cold input latency of 200 ms or less as a MUST.

    • [C-SR] Continuous input latency of 30 milliseconds or less.
    • [C-SR] Minimize the cold input jitter.

  • 5.10 Professional Audio : Updates to audio latency requirements for professional audio support.

    See revision

    If device implementations report support for feature android.hardware.audio.pro via the android.content.pm.PackageManager class, they:

    • [C-1-2] MUST have the continuous round-trip audio latency, as defined in section 5.6 Audio Latency of 25 milliseconds or less and SHOULD be 10 milliseconds or less over at least one supported path.
    • [C-1-5] MUST meet latencies and USB audio requirements using the AAudio native audio API and AAUDIO_PERFORMANCE_MODE_LOW_LATENCY .
    • [C-1-8] MUST have an average Tap-to-tone latency of 80 milliseconds or less over at least 5 measurements over the speaker to microphone data path.
    • [C-SR] Are STRONGLY RECOMMENDED to provide a consistent level of CPU performance while audio is active and CPU load is varying. This should be tested using the Android app SynthMark . SynthMark uses a software synthesizer running on a simulated audio framework that measures system performance. See the SynthMark documentation for an explanation of the benchmarks. The SynthMark app needs to be run using the “Automated Test” option and achieve the following results: * voicemark.90 >= 32 voices * latencymark.fixed.little <= 15 msec * latencymark.dynamic.little <= 50 msec
    • SHOULD have a latency from touch input to audio output of less than or equal to 40 ms.

    If device implementations include a 4 conductor 3.5mm audio jack, they:

    • [C-2-1] MUST have a mean Continuous Round-trip Audio Latency, as defined in section 5.6 Audio Latency , of 20 milliseconds or less, over 5 measurements with a Mean Absolute Deviation less than 5 milliseconds over the audio jack path using an audio loopback dongle .

  • 5.12 HDR Video : Added a new section for HDR Video requirements.

6. Developer Tools and Options Compatibility

  • 6.1 Developer Tools : Updates to connectivity and GPU Kernel requirements.

    See revision

    If device implementations support adb connections to a host machine via Wi-Fi or Ethernet , they:

    • [C-4-1] MUST have the AdbManager#isAdbWifiSupported() method return true .

    If device implementations support adb connections to a host machine via Wi-Fi or Ethernet , and includes at least one camera, they:

    • [C-5-1] MUST have the AdbManager#isAdbWifiQrSupported() method return true .

    • GPU work information

      Реализации устройства:

      • [C-6-1] MUST implement the shell command dumpsys gpu --gpuwork to display the aggregated GPU work data returned by the power/gpu_work_period kernel tracepoint, or display no data if the tracepoint is not supported. The AOSP implementation is frameworks/native/services/gpuservice/gpuwork/ .

    End new requirements

7. Hardware Compatibility

  • 7.1.4.1 OpenGL ES : Update to recommended extensions.

    See revision

    If device implementations support any of the OpenGL ES versions, they:

    • SHOULD support the EGL_IMG_context_priority and EGL_EXT_protected_content extensions.

    End new requirements

  • 7.1.4.2 Vulkan : Updates to version supported for Vulkan.

    See revision

    If device implementations support OpenGL ES 3.1, they:

    • [SR] Are STRONGLY RECOMMENDED to include support for Vulkan 1.3 . Vulkan 1.1
    • MUST NOT support a Vulkan Variant version (ie the variant part of the Vulkan core version MUST be zero).

    If device implementations include a screen or video output, they:

    • [SR] Are STRONGLY RECOMMENDED to include support for Vulkan 1.3 . Vulkan 1.1

    If device implementations include support for Vulkan 1.0 or higher, they:

    • SHOULD support VkPhysicalDeviceProtectedMemoryFeatures and VK_EXT_global_priority .
    • [C-1-12] MUST NOT enumerate support for the VK_KHR_performance_query extension.
    • [C-SR] Are STRONGLY RECOMMENDED to satisfy the requirements specified by the Android Baseline 2021 profile.

  • 7.2.3 Navigation Keys :

    See revision

    Реализации устройства:

    • [C-SR] Are STRONGLY RECOMMENDED to provide all navigation functions as cancellable. 'Cancellable' is defined as the user's ability to prevent the navigation function from executing (eg going home, going back, etc.) if the swipe is not released past a certain threshold.

    End new requirements

    If the back navigation function is provided and the user cancels the Back gesture, then:

    • [C-8-1] OnBackInvokedCallback.onBackCancelled() MUST be called.
    • [C-8-2] OnBackInvokedCallback.onBackInvoked() MUST NOT be called.
    • [C-8-3] KEYCODE_BACK event MUST NOT be dispatched.

    If the back navigation function is provided but the foreground application does NOT have an OnBackInvokedCallback registered, then:

    • The system SHOULD provide an animation for the foreground application that suggests that the user is going back, as provided in AOSP.

    If device implementations provide support for the system API setNavBarMode to allow any system app with android.permission.STATUS_BAR permission to set the navigation bar mode, then they:

    • [C-9-1] MUST provide support for kid-friendly icons or button-based navigation as provided in the AOSP code.

    End new requirements

  • 7.3.1 Accelerometer : Updates to sensor requirements for accelerometers.

    See revision

    If device implementations include an accelerometer, a 3-axis accelerometer, they:

    • [C-1-2] MUST implement and report TYPE_ACCELEROMETER sensor.
    • [SR] are STRONGLY RECOMMENDED to implement the TYPE_SIGNIFICANT_MOTION composite sensor.
    • [SR] are STRONGLY RECOMMENDED to implement and report TYPE_ACCELEROMETER_UNCALIBRATED sensor. Android devices are STRONGLY RECOMMENDED to meet this requirement so they will be able to upgrade to the future platform release where this might become REQUIRED.
    • SHOULD implement the TYPE_SIGNIFICANT_MOTION , TYPE_TILT_DETECTOR , TYPE_STEP_DETECTOR , TYPE_STEP_COUNTER composite sensors as described in the Android SDK document.

    Если реализации устройства включают акселерометр 3-осадного, они:

    • [C-2-1] MUST implement and report TYPE_ACCELEROMETER sensor.
    • [C-SR] Are STRONGLY RECOMMENDED to implement the TYPE_SIGNIFICANT_MOTION composite sensor.
    • [C-SR] Are STRONGLY RECOMMENDED to implement and report TYPE_ACCELEROMETER_UNCALIBRATED sensor. Android devices are STRONGLY RECOMMENDED to meet this requirement so they will be able to upgrade to the future platform release where this might become REQUIRED.
    • SHOULD implement the TYPE_SIGNIFICANT_MOTION , TYPE_TILT_DETECTOR , TYPE_STEP_DETECTOR , TYPE_STEP_COUNTER composite sensors as described in the Android SDK document.

    If device implementations include an accelerometer with less than 3 axes, they:

    • [C-3-1] MUST implement and report TYPE_ACCELEROMETER_LIMITED_AXES sensor.
    • [C-SR] Are STRONGLY_RECOMMENDED to implement and report TYPE_ACCELEROMETER_LIMITED_AXES_UNCALIBRATED sensor.

    End new requirements

    If device implementations include a 3-axis accelerometer and any of the TYPE_SIGNIFICANT_MOTION , TYPE_TILT_DETECTOR , TYPE_STEP_DETECTOR , TYPE_STEP_COUNTER composite sensors are implemented:

    • [C-4-1] The sum of their power consumption MUST always be less than 4 mW.

    If device implementations include a 3-axis accelerometer and a 3-axis gyroscope sensor, they:

    • [C-5-1] MUST implement the TYPE_GRAVITY and TYPE_LINEAR_ACCELERATION composite sensors.

    If device implementations include a 3-axis accelerometer, a 3-axis gyroscope sensor, and a magnetometer sensor, they:

    • [C-6-1] MUST implement a TYPE_ROTATION_VECTOR composite sensor.

  • 7.3.4 Gyroscopes : Updates to sensor requirements for gyroscopes.

    See revision

    If device implementations include a gyroscope, they:

    • [C-1-1] MUST be able to report events up to a frequency of at least 50 Hz.
    • [C-1-4] MUST have a resolution of 12-bits or more.
    • [C-1-5] MUST be temperature compensated.
    • [C-1-6] MUST be calibrated and compensated while in use, and preserve the compensation parameters between device reboots.
    • [C-1-7] MUST have a variance no greater than 1e-7 rad^2 / s^2 per Hz (variance per Hz, or rad^2 / s). The variance is allowed to vary with the sampling rate, but MUST be constrained by this value. In other words, if you measure the variance of the gyro at 1 Hz sampling rate it SHOULD be no greater than 1e-7 rad^2/s^2.
    • [C-SR] Calibration error is STRONGLY RECOMMENDED to be less than 0.01 rad/s when device is stationary at room temperature.
    • [C-SR] Are STRONGLY RECOMMENDED to have a resolution of 16-bits or more.
    • SHOULD report events up to at least 200 Hz.

    End new requirements

    If device implementations include a 3-axis gyroscope, they:

    • [C-2-1] MUST implement the TYPE_GYROSCOPE sensor.

    If device implementations include a gyroscope with less than 3 axes, they:

    • [C-3-1] MUST implement and report TYPE_GYROSCOPE_LIMITED_AXES sensor.
    • [C-SR] Are STRONGLY_RECOMMENDED to implement and report TYPE_GYROSCOPE_LIMITED_AXES_UNCALIBRATED sensor.

    End new requirements

    If device implementations include a 3-axis gyroscope, an accelerometer sensor and a magnetometer sensor, they:

    • [C-4-1] MUST implement a TYPE_ROTATION_VECTOR composite sensor.

    If device implementations include a 3-axis accelerometer and a 3-axis gyroscope sensor, they:

    • [C-5-1] MUST implement the TYPE_GRAVITY and TYPE_LINEAR_ACCELERATION composite sensors.

  • 7.3.10 Biometric Sensors : Updates to sensor requirements for biometric sensors.

    See revision

    Biometric sensors can be classified as Class 3 (formerly Strong ), Class 2 (formerly Weak ), or Class 1 (formerly Convenience ) based on their spoof and imposter acceptance rates, and on the security of the biometric pipeline. This classification determines the capabilities the biometric sensor has to interface with the platform and with third-party applications. Sensors need to meet additional requirements as detailed below if they wish to be classified as either Class 1 , Class 2 or Class 3 . Sensors are classified as Class 1 by default, and need to meet additional requirements as detailed below if they wish to be classified as either Class 2 or Class 3 . Both Class 2 and Class 3 biometrics get additional capabilities as detailed below.

    If device implementations wish to treat a biometric sensor as Class 1 (formerly Convenience ), they:

    • [C-1-11] MUST have a spoof and imposter acceptance rate not higher than 30%, with (1) a spoof and imposter acceptance rate for Level A presentation attack instrument (PAI) species not higher than 30%, and (2) a spoof and imposter acceptance rate of Level B PAI species not higher than 40%, as measured by the Android Biometrics Test Protocols.

    End new requirements

    If device implementations wish to treat a biometric sensor as Class 2 (formerly Weak ), they:

    • [C-2-2] MUST have a spoof and imposter acceptance rate not higher than 20%, with (1) a spoof and imposter acceptance rate for Level A presentation attack instrument (PAI) species not higher than 20%, and (2) a spoof and imposter acceptance rate of Level B PAI species not higher than 30%, as measured by the Android Biometrics Test Protocols .

    If device implementations wish to treat a biometric sensor as Class 3 (formerly Strong ), they:

    • [C-3-3] MUST have a spoof and imposter acceptance rate not higher than 7%, with (1) a spoof and imposter acceptance rate for Level A presentation attack instrument (PAI) species not higher than 7%, and (2) a spoof and imposter acceptance rate of Level B PAI species not higher than 20%, as measured by the Android Biometrics Test Protocols .

  • 7.3.13 IEEE 802.1.15.4 (UWB) : Added a new requirements section for UWB.

    See revision

    7.3.13. IEEE 802.1.15.4 (СШП)

    If device implementations include support for 802.1.15.4 and expose the functionality to a third-party application, they:

    • [C-1-1] MUST implement the corresponding Android API in android.uwb.
    • [C-1-2] MUST report the hardware feature flag android.hardware.uwb.
    • [C-1-3] MUST support all the relevant UWB profiles defined in Android implementation.
    • [C-1-4] MUST provide a user affordance to allow the user to toggle the UWB radio on/off state.
    • [C-1-5] MUST enforce that apps using UWB radio hold UWB_RANGING permission (under NEARBY_DEVICES permission group).
    • [C-1-6] Are STRONGLY RECOMMENDED to pass the relevant conformance and certification tests defined by standard organizations, including FIRA , CCC and CSA .

    End new requirements

  • 7.4.1 Telephony : Updates to telephony requirements for GSM and CDMA telephony, and cellular usage settings.

    See revision

    If device implementations support eUICCs or eSIMs/embedded SIMs and include a proprietary mechanism to make eSIM functionality available for third-party developers, they:

    If device implementations include GSM or CDMA telephony, then:

    If the device device implementations include GSM or CDMA telephony and provide a system status bar, then:

    • [C-6-7] MUST select a representative active subscription for a given group UUID to display to the user in any affordances that provide SIM status information. Examples of such affordances include the status bar cellular signal icon or quick settings tile.
    • [C-SR] It is STRONGLY RECOMMENDED that the representative subscription is chosen to be the active data subscription unless the device is in a voice call, during which it is STRONGLY RECOMMENDED that the representative subscription is the active voice subscription.

    If device implementations include GSM or CDMA telephony, then:

    • [C-6-8] MUST be capable of opening and concurrently utilizing the maximum number of logical channels (20 in total) for each UICC per ETSI TS 102 221.
    • [C-6-10] MUST NOT apply any of the following behaviors to active carrier apps (as designated by TelephonyManager#getCarrierServicePackageName ) automatically or without explicit user confirmation:
      • Revoke or limit network access
      • Revoke permissions
      • Restrict background or foreground app execution beyond the existing power management features included in AOSP
      • Disable or uninstall the app

    If device device implementations include GSM or CDMA telephony and all active, non-opportunistic subscriptions that share a group UUID are disabled, physically removed from the device, or marked opportunistic, then the device:

    • [C-7-1] MUST automatically disable all remaining active opportunistic subscriptions in the same group.

    If device implementations include GSM telephony but not CDMA telephony, they:

    If the device implementations support eUICCs with multiple ports and profiles, they:

    End new requirements

  • 7.4.1.1 Number Blocking Compatibility : Updates to the number blocking requirements.

    See revision

    If device implementations report the android.hardware.telephony feature , they:

    • [C-1-4] MUST write to the platform call log provider for a blocked call and MUST filter calls with BLOCKED_TYPE out of the default call log view in the pre-installed dialer app.
    • SHOULD provide a user affordance to show blocked calls in the pre-installed dialer app.

    End new requirements

  • 7.4.1.3 Cellular NAT-T Keepalive Offload : New section for Cellular NAT-T Keepalive Offload.

    See revision

    7.4.1.3. Cellular NAT-T Keepalive Offload

    Реализации устройства:

    • SHOULD include support for Cellular keepalive offload.

    If device implementations include support for Cellular keepalive offload and exposes the functionality to third-party apps, they:

    • [C-1-1] MUST support the SocketKeepAlive API.
    • [C-1-2] MUST support at least one concurrent keepalive slot over cellular.
    • [C-1-3] MUST support as many concurrent cellular keepalive slots as are supported by the Cellular Radio HAL.
    • [C-SR] Are STRONGLY RECOMMENDED to support at least three cellular keepalive slots per radio instance.

    If device implementations do not include support for cellular keepalive offload, they:

    • [C-2-1] MUST return ERROR_UNSUPPORTED.

    End new requirements

  • 7.4.2.5 Wi-Fi Location (Wi-Fi Round Trip Time - RTT) : Updates to Wi-Fi location accuracy.

    See revision

    If device implementations include support for Wi-Fi Location and expose the functionality to third-party apps, then they:

    • [C-1-4] MUST be accurate to within 2 meters at 80 MHz bandwidth at the 68th percentile (as calculated with the Cumulative Distribution Function).
    • [C-SR] Are STRONGLY RECOMMENDED to report it accurately to within 1.5 meters at 80 MHz bandwidth at the 68th percentile (as calculated with the Cumulative Distribution Function).

    End new requirements

  • 7.4.2.6 Wi-Fi Keepalive Offload : Updated to add cellular keepalive offload requirements.

    See revision

    Реализации устройства:

    • SHOULD include support for Wi-Fi keepalive offload.

    If device implementations include support for Wi-Fi keepalive offload and expose the functionality to third-party apps, they:

    • [C-1-1] MUST support the SocketKeepAlive API.
    • [C-1-2] MUST support at least three concurrent keepalive slots over Wi-Fi
      and at least one keepalive slot over cellular.

    If device implementations do not include support for Wi-Fi keepalive offload, they:

  • 7.4.2.9 Trust On First Use (TOFU) : Added Trust on First Use requirements section.

    See revision

    7.4.2.9 Trust On First Use (TOFU)

    If device implementations support Trust on first usage (TOFU) and allow the user to define WPA/WPA2/WPA3-Enterprise configurations, then they:

    • [C-4-1] MUST provide the user an option to select to use TOFU.

    End new requirements

  • 7.4.3 Bluetooth : Update to Bluetooth requirements.

    See revision

    If device implementations support Bluetooth Audio profile, they:

    • SHOULD support Advanced Audio Codecs and Bluetooth Audio Codecs (eg LDAC) with A2DP.

    If device implementations return true for the BluetoothAdapter.isLeAudioSupported() API, then they:

    • [C-7-1] MUST support unicast client.
    • [C-7-2] MUST support 2M PHY.
    • [C-7-3] MUST support LE Extended advertising.
    • [C-7-4] MUST support at least 2 CIS connections in a CIG.
    • [C-7-5] MUST enable BAP unicast client, CSIP set coordinator, MCP server, VCP controller, CCP server simultaneously.
    • [C-SR] Are STRONGLY RECOMMENDED to enable HAP unicast client.

    If device implementations return true for the BluetoothAdapter.isLeAudioBroadcastSourceSupported() API, then they:

    • [C-8-1] MUST support at least 2 BIS links in a BIG.
    • [C-8-2] MUST enable BAP broadcast source, BAP broadcast assistant simultaneously.
    • [C-8-3] MUST support LE Periodic advertising.

    If device implementations return true for the BluetoothAdapter.isLeAudioBroadcastAssistantSupported() API, then they:

    • [C-9-1] MUST support PAST (Periodic Advertising Sync Transfer).
    • [C-9-2] MUST support LE Periodic advertising.

    If device implementations declare FEATURE_BLUETOOTH_LE , they:

    • [C-10-1] MUST have RSSI measurements be within +/-9dB for 95% of the measurements at 1m distance from a reference device transmitting at ADVERTISE_TX_POWER_HIGH in line of sight environment.
    • [C-10-2] MUST include Rx/Tx corrections to reduce per-channel deviations so that the measurements on each of the 3 channels, on each of the antennas (if multiple are used), are within +/-3dB of one another for 95% of the measurements.
    • [C-SR] Are STRONGLY RECOMMENDED to measure and compensate for Rx offset to ensure the median BLE RSSI is -60dBm +/-10 dB at 1m distance from a reference device transmitting at ADVERTISE_TX_POWER_HIGH , where devices are oriented such that they are on 'parallel planes' with screens facing the same direction.
    • [C-SR] Are STRONGLY RECOMMENDED to measure and compensate for Tx offset to ensure the median BLE RSSI is -60dBm +/-10 dB when scanning from a reference device positioned at 1m distance and transmitting at ADVERTISE_TX_POWER_HIGH , where devices are oriented such that they are on 'parallel planes' with screens facing the same direction.

    It is STRONGLY RECOMMENDED to follow the measurement setup steps specified in Presence Calibration Requirements .

    If device implementations support Bluetooth version 5.0, then they:

    • [C-SR] Are STRONGLY RECOMMENDED to provide support for:
      • LE 2M PHY
      • LE Codec PHY
      • LE Advertising Extension
      • Periodic advertising
      • At least 10 advertisement sets
      • At least 8 LE concurrent connections. Each connection can be in either connection topology roles.
      • LE Link Layer Privacy
      • A "resolving list" size of at least 8 entries

    End new requirements

  • 7.4.9 UWB : Added a requirements section for UWB hardware.

    See revision

    7.4.9. СШП

    If device implementations report support for feature android.hardware.uwb via the android.content.pm.PackageManager class, then they:

    • [C-1-1] MUST ensure the distance measurements are within +/-15 cm for 95% of the measurements in the line of sight environment at 1m distance in a non-reflective chamber.
    • [C-1-2] MUST ensure that the median of the distance measurements at 1m from the reference device is within [0.75m, 1.25m], where ground truth distance is measured from the top edge of the DUT held face up and tilted 45 градусов.

    It is STRONGLY RECOMMENDED to follow the measurement setup steps specified in Presence Calibration Requirements .

    End new requirements

  • 7.5 Cameras : Updates to the requirements for HDR 10-bit output capability.

    See revision

    If device implementations support HDR 10-bit output capability, then they:

    • [C-2-1] MUST support at least the HLG HDR profile for every camera device that supports 10-bit output.
    • [C-2-2] MUST support 10-bit output for either the primary rear-facing or the primary front-facing camera.
    • [C-SR] Are STRONGLY RECOMMENDED to support 10-bit output for both primary cameras.
    • [C-2-3] MUST support the same HDR profiles for all BACKWARD_COMPATIBLE-capable physical sub-cameras of a logical camera, and the logical camera itself.

    For Logical camera devices which support 10-bit HDR that implement the android.hardware.camera2.CaptureRequest#CONTROL_ZOOM_RATIO API, they:

    • [C-3-1] MUST support switching between all the backwards-compatible physical cameras via the CONTROL_ZOOM_RATIO control on the logical camera.

    End new requirements

  • 7.7.2 USB Host Mode : Revisions for dual role ports.

    See revision

    If device implementations include a USB port supporting host mode and USB Type-C, they:

    • [C-4-1] MUST implement Dual Role Port functionality as defined by the USB Type-C specification (section 4.5.1.3.3). For Dual Role Ports, On devices that include a 3.5mm audio jack, the USB sink detection (host mode) MAY be off by default but it MUST be possible for the user to enable it.

  • 7.11 Media Performance Class : Updated to include Android T.

    See revision

    If device implementations return non-zero value for android.os.Build.VERSION_CODES.MEDIA_PERFORMANCE_CLASS , they:

    • [C-1-3] MUST meet all requirements for "Media Performance Class" described in section 2.2.7 .

    In other words, media performance class in Android T is only defined for handheld devices at version T, S or R.

    End new requirements

    See section 2.2.7 for device-specific requirements.

9. Security Model Compatibility

  • 9.1 Permissions : Extend accepted paths for permissions allowlists for preinstalled apps to APEX files.

    See revision

    • [C-0-2] Permissions with a protectionLevel of PROTECTION_FLAG_PRIVILEGED MUST only be granted to apps preinstalled in the privileged path(s) of the system image (as well as APEX files ) and be within the subset of the explicitly allowlisted permissions for each приложение. The AOSP implementation meets this requirement by reading and honoring the allowlisted permissions for each app from the files in the etc/permissions/ path and using the system/priv-app path as the privileged path.

  • 9.7 Security Features : Updates to initialization requirements to maintain kernel integrity.

    See revision

    Kernel integrity and self-protection features are integral to Android security. Реализации устройства:

    • [C-SR] Are STRONGLY RECOMMENDED to enable stack initialization in the kernel to prevent uses of uninitialized local variables ( CONFIG_INIT_STACK_ALL or CONFIG_INIT_STACK_ALL_ZERO ). Also, device implementations SHOULD NOT assume the value used by the compiler to initialize the locals.

    End new requirements

  • 9.8.7 Privacy — Clipboard Access : Automatically clear clipboard data after 60 minutes following a cut/copy/paste activity to protect user privacy.

    See revision

    Реализации устройства:

    • [C-0-1] MUST NOT return a clipped data from the clipboard (eg via the ClipboardManager API) unless the 3rd-party app is the default IME or is the app that currently has focus.
    • [C-0-2] MUST clear clipboard data at most 60 minutes after it has last been placed in a clipboard or read from a clipboard.

  • 9.11 Keys and Credentials : Updates to the secure lock screen requirements, including the addition of ECDH and 3DES to crypto algorithms.

    See revision

    When the device implementation supports a secure lock screen, it:

    • [C-1-2] MUST have implementations of RSA, AES, ECDSA, ECDH (if IKeyMintDevice is supported), 3DES, and HMAC cryptographic algorithms and MD5, SHA1, and SHA-2 family hash functions to properly support the Android Keystore system's supported algorithms in an area that is securely isolated from the code running on the kernel and above. Безопасная изоляция ДОЛЖНА блокировать все потенциальные механизмы, с помощью которых код ядра или пользовательского пространства может получить доступ к внутреннему состоянию изолированной среды, включая DMA. Вышестоящий проект Android с открытым исходным кодом (AOSP) отвечает этому требованию, используя реализацию Trusty , но альтернативными вариантами являются другое решение на базе ARM TrustZone или проверенная третьей стороной безопасная реализация правильной изоляции на основе гипервизора.

  • 9.11.1 Secure Lock Screen, Authentication, and Virtual Devices : Added requirements section for virtual devices and authentication transfers.

    See revision

    If device implementations add or modify the authentication methods to unlock the lock screen and a new authentication method is based on a physical token or the location:

    • [C-6-3] The user MUST be challenged for one of the recommended primary authentication methods (egPIN, pattern, password) at least once every 4 hours or less. When a physical token meets the requirements for TrustAgent implementations in CX, timeout restrictions defined in C-9-5 apply instead.

    If device implementations allow applications to create secondary virtual displays and do not support associated input events, such as via VirtualDeviceManager , they:

    • [C-9-1] MUST lock these secondary virtual display(s) when the device's default display is locked, and unlock these secondary virtual display(s) when the device's default display is unlocked.

    If device implementations allow applications to create secondary virtual displays and support associated input events, such as via VirtualDeviceManager , they:

    • [C-10-1] MUST support separate lock states per virtual device
    • [C-10-2] MUST disconnect all virtual devices upon idle timeout
    • [C-10-3] MUST have an idle timeout
    • [C-10-4] MUST lock all displays when the user initiates a lockdown , including via the lockdown user affordance required for handheld devices (see Section 2.2.5[9.11/H-1-2] )
    • [C-10-5] MUST have separate virtual device instances per user
    • [C-10-6] MUST disable the creation of associated input events via VirtualDeviceManager when indicated by DevicePolicyManager.setNearbyAppStreamingPolicy
    • [C-10-7] MUST use a separate clipboard solely for each virtual device (or disable the clipboard for virtual devices)
    • [C-10-11] MUST disable authentication UI on virtual devices, including knowledge factor entry and biometric prompt
    • [C-10-12] MUST restrict intents initiated from a virtual device to display only on the same virtual device
    • [C-10-13] MUST not use a virtual device lock state as user authentication authorization with the Android Keystore System. See KeyGenParameterSpec.Builder.setUserAuthentication* .

    When device implementations allow the user to transfer the primary authentication knowledge-factor from a source device to a target device, such as for initial setup of the target device, they:

    • [C-11-1] MUST encrypt the knowledge-factor with protection guarantees similar to those described in the Google Cloud Key Vault Service security whitepaper when transferring the knowledge-factor from the source device to the target device such that the knowledge-factor cannot be remotely decrypted or used to remotely unlock either device.
    • [C-11-2] MUST, on the source device , ask the user to confirm the knowledge-factor of the source device before transferring the knowledge-factor to the target device.
    • [C-11-3] MUST, on a target device lacking any set primary authentication knowledge-factor, ask the user to confirm a transferred knowledge-factor on the target device before setting that knowledge-factor as the primary authentication knowledge-factor for the target device and before making available any data transferred from a source device.

    If device implementations have a secure lock screen and include one or more trust agents, which call the TrustAgentService.grantTrust() System API with the FLAG_GRANT_TRUST_TEMPORARY_AND_RENEWABLE flag they:

    • [C-12-1] MUST only call grantTrust() with the flag when connected to a proximate physical device with a lockscreen of its own, and when the user has authenticated their identity against that lockscreen. Proximate devices can use on-wrist or on-body detection mechanisms after a one-time user unlock to satisfy the user authentication requirement.
    • [C-12-2] MUST put the device implementation into the TrustState.TRUSTABLE state when the screen is turned off (such as via a button press or display time out) and the TrustAgent has not revoked trust. The AOSP satisfies this requirement.
    • [C-12-3] MUST only move the device from TrustState.TRUSTABLE to the TrustState.TRUSTED state if the TrustAgent is still granting trust based on the requirements in C-12-1.
    • [C-12-4] MUST call TrustManagerService.revokeTrust() after a maximum of 24 hours from granting trust, an 8 hour idle window, or when the underlying connection to the proximate physical device is lost.

    If device implementations allow applications to create secondary virtual displays and support associated input events such as via VirtualDeviceManager and the displays are not marked with VIRTUAL_DISPLAY_FLAG_SECURE, they:

    • [C-13-8] MUST block activities with the attribute android:canDisplayOnRemoteDevices or the meta-data android.activity.can_display_on_remote_devices set to false from being started on the virtualdevice.
    • [C-13-9] MUST block activities which do not explicitly enable streaming and which indicate they show sensitive content, including via SurfaceView#setSecure, FLAG_SECURE, or SYSTEM_FLAG_HIDE_NON_SYSTEM_OVERLAY_WINDOWS, from being started on the virtual device.
    • [C-13-10] MUST disable installation of apps initiated from virtual devices.

    End new requirements

  • 9.11.2 Strongbox : Making insider attack resistance (IAR) a necessary requirement.

    See revision

    To validate compliance with [C-1-3] through [C-1-9], device implementations:

    • [C-SR] are STRONGLY RECOMMENDED to provide insider attack resistance (IAR), which means that an insider with access to firmware signing keys cannot produce firmware that causes the StrongBox to leak secrets, to bypass functional security requirements or otherwise enable access to sensitive данные пользователя. The recommended way to implement IAR is to allow firmware updates only when the primary user password is provided via the IAuthSecret HAL. IAR will become a MUST requirement in Android 14.

  • 9.11.3 Identity Credential : Added information about the Identity Credential system reference implementation.

    See revision

    The Identity Credential System is defined and achieved by implementing all APIs in the android.security.identity.* package. These APIs allows app developers to store and retrieve user identity documents. Реализации устройства:

    The upstream Android Open Source Project provides a reference implementation of a trusted application ( libeic ) that can be used to implement the Identity Credential system.

    End new requirements

  • 9.11.4 ID Attestation : Added a section for ID attestation requirement.

    See revision

    9.11.4. ID Attestation

    Device implementations MUST support ID attestation .

    End new requirements

  • 9.17 Android Virtualization Framework : Added a requirements section for Android Virtualization Framework.

    See revision

    9.17. Платформа виртуализации Android

    If the device implements support for the Android Virtualization Framework APIs ( android.system.virtualmachine.* ), the Android host:

    • [C-1-1] MUST support all the APIs defined by the android.system.virtualmachine.* package.
    • [C-1-2] MUST NOT modify the Android SELinux and permission model for the management of Protected Virtual Machines.
    • [C-1-3] MUST NOT modify, omit, or replace the neverallow rules present within the system/sepolicy provided in the upstream Android Open Source Project (AOSP) and the policy MUST compile with all neverallow rules present.
    • [C-1-4] MUST NOT allow untrusted code (eg 3p apps) to create and run a Protected Virtual Machine. Note: This might change in future Android releases.
    • [C-1-5] MUST NOT allow a Protected Virtual Machine to execute code that is not part of the factory image or their updates. Anything that is not covered by Android Verified Boot (eg files downloaded from the Internet or sideloaded) MUST NOT be allowed to be run in a Protected Virtual Machine.

    If the device implements support for the Android Virtualization Framework APIs ( android.system.virtualmachine.* ), then any Protected Virtual Machine instance:

    • [C-2-1] MUST be able to run all operating systems available in the virtualization APEX in a Protected Virtual Machine.
    • [C-2-2] MUST NOT allow a Protected Virtual Machine to run an operating system that is not signed by the device implementor or OS vendor.
    • [C-2-3] MUST NOT allow a Protected Virtual Machine to execute data as code (eg SELinux neverallow execmem).
    • [C-2-4] НЕ ДОЛЖНО изменять, опускать или заменять правила Neverallow, присутствующие в системе/sepolicy/microdroid, представленной в исходном проекте Android с открытым исходным кодом (AOSP).
    • [C-2-5] MUST implement Protected Virtual Machine defense-in-depth mechanisms (eg SELinux for pVMs) even for non-Microdroid operating systems.
    • [C-2-6] MUST ensure that the pVM firmware refuses to boot if it cannot verify the initial image.
    • [C-2-7] MUST ensure that the pVM firmware refuses to boot if the integrity of the instance.img is compromised.

    If the device implements support for the Android Virtualization Framework APIs ( android.system.virtualmachine.* ), then the hypervisor:

    • [C-3-1] MUST NOT allow any pVM to have access to a page belonging to another entity (ie other pVM or hypervisor), unless explicitly shared by the page owner. This includes the host VM. This applies to both CPU and DMA accesses.
    • [C-3-2] MUST wipe a page after it is used by a VM and before it is returned to the host (eg the pVM is destroyed).
    • [C-3-3] MUST ensure that the pVM firmware is loaded and executed prior to any code in a pVM.
    • [C-3-4] MUST ensure that BCC and CDIs provided to a pVM instance can only be derived by that particular instance.

    If the device implements support for the Android Virtualization Framework APIs, then across all areas:

    • [C-4-1] MUST NOT provide functionality to a pVM that allows bypassing the Android Security Model.

    If the device implements support for the Android Virtualization Framework APIs, then:

    • [C-5-1] MUST support Isolated Compilation of an ART runtime update.

    If the device implements support for the Android Virtualization Framework APIs, then for Key Management:

    • [C-6-1] ДОЛЖНА рутировать цепочку DICE в точке, которую пользователь не может изменить, даже на разблокированных устройствах. (Чтобы гарантировать, что его нельзя подделать).
    • [C-6-2] MUST do DICE properly ie provide the correct values. But it might not have to go to that level of detail.

    End new requirements

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