src/devices/storage/index.jd - platform/docs/source.android.com - Git at Google

 page.title=Storage
 @jd:body

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     Copyright 2015 The Android Open Source Project

     Licensed under the Apache License, Version 2.0 (the "License");
     you may not use this file except in compliance with the License.
     You may obtain a copy of the License at

         http://www.apache.org/licenses/LICENSE-2.0

     Unless required by applicable law or agreed to in writing, software
     distributed under the License is distributed on an "AS IS" BASIS,
     WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
     See the License for the specific language governing permissions and
     limitations under the License.
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 <img style="float: right; margin: 0px 15px 15px 15px;" src="images/ape_fwk_hal_extstor.png" alt="Android external storage HAL icon"/>

 <p>Android supports devices with external storage, which is defined to be a
 case-insensitive filesystem with immutable POSIX permission classes and
 modes. External storage can be provided by physical media (such as an SD
 card), or by exposing a portion of internal storage through an emulation
 layer. Devices may contain multiple instances of external storage.</p>

 <p>Access to external storage is protected by various Android
 permissions. Starting in Android 1.0, write access is protected with the
 <code>WRITE_EXTERNAL_STORAGE</code> permission. Starting in Android 4.1,
 read access is protected with the <code>READ_EXTERNAL_STORAGE</code>
 permission.</p>

 <p>Starting in Android 4.4, the owner, group and modes of files on external
 storage devices are now synthesized based on directory structure. This
 enables apps to manage their package-specific directories on external
 storage without requiring they hold the broad
 <code>WRITE_EXTERNAL_STORAGE</code> permission. For example, the app with
 package name <code>com.example.foo</code> can now freely access
 <code>Android/data/com.example.foo/</code> on external storage devices with
 no permissions. These synthesized permissions are accomplished by wrapping
 raw storage devices in a FUSE daemon.</p>

 <p>Since external storage offers minimal protection for stored data, system
 code should not store sensitive data on external storage. Specifically,
 configuration and log files should only be stored on internal storage where
 they can be effectively protected.</p>


 <h2 id="multiple-external-storage-devices">Multiple external storage devices</h2>

 <p>Starting in Android 4.4, multiple external storage devices are surfaced
 to developers through <code>Context.getExternalFilesDirs()</code>,
 <code>Context.getExternalCacheDirs()</code>, and
 <code>Context.getObbDirs()</code>.</p>

 </p>External storage devices surfaced through these APIs must be a
 semi-permanent part of the device (such as an SD card slot in a battery
 compartment). Developers expect data stored in these locations to be
 available over long periods of time. For this reason, transient storage
 devices (such as USB mass storage drives) should not be surfaced through
 these APIs.</p>

 <p>The <code>WRITE_EXTERNAL_STORAGE</code> permission must only grant write
 access to the primary external storage on a device. Apps must not be
 allowed to write to secondary external storage devices, except in their
 package-specific directories as allowed by synthesized
 permissions. Restricting writes in this way ensures the system can clean
 up files when applications are uninstalled.</p>


 <h2 id="multi-user-external-storage">Multi-user external storage</h2>

 <p>Starting in Android 4.2, devices can support multiple users, and external
 storage must meet the following constraints:</p>

 <ul>
 <li>Each user must have their own isolated primary external storage, and
 must not have access to the primary external storage of other users.</li>
 <li>The <code>/sdcard</code> path must resolve to the correct user-specific
 primary external storage based on the user a process is running as.</li>
 <li>Storage for large OBB files in the <code>Android/obb</code> directory
 may be shared between multiple users as an optimization.</li>
 <li>Secondary external storage must not be writable by apps, except in
 package-specific directories as allowed by synthesized permissions.</li>
 </ul>

 <p>The default platform implementation of this feature leverages Linux kernel
 namespaces to create isolated mount tables for each Zygote-forked process,
 and then uses bind mounts to offer the correct user-specific primary external
 storage into that private namespace.</p>

 <p>At boot, the system mounts a single emulated external storage FUSE daemon
 at <code>EMULATED_STORAGE_SOURCE</code>, which is hidden from apps. After
 the Zygote forks, it bind mounts the appropriate user-specific subdirectory
 from under the FUSE daemon to <code>EMULATED_STORAGE_TARGET</code> so that
 external storage paths resolve correctly for the app. Because an app lacks
 accessible mount points for other users' storage, they can only access
 storage for the user it was started as.</p>

 <p>This implementation also uses the shared subtree kernel feature to
 propagate mount events from the default root namespace into app namespaces,
 which ensures that features like ASEC containers and OBB mounting continue
 working correctly. It does this by mounting the rootfs as shared, and then
 remounting it as slave after each Zygote namespace is created.</p>
	page.title=Storage
	@jd:body

	<!--
	Copyright 2015 The Android Open Source Project

	Licensed under the Apache License, Version 2.0 (the "License");
	you may not use this file except in compliance with the License.
	You may obtain a copy of the License at

	http://www.apache.org/licenses/LICENSE-2.0

	Unless required by applicable law or agreed to in writing, software
	distributed under the License is distributed on an "AS IS" BASIS,
	WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	See the License for the specific language governing permissions and
	limitations under the License.
	-->

	<img style="float: right; margin: 0px 15px 15px 15px;" src="images/ape_fwk_hal_extstor.png" alt="Android external storage HAL icon"/>

	<p>Android supports devices with external storage, which is defined to be a
	case-insensitive filesystem with immutable POSIX permission classes and
	modes. External storage can be provided by physical media (such as an SD
	card), or by exposing a portion of internal storage through an emulation
	layer. Devices may contain multiple instances of external storage.</p>

	<p>Access to external storage is protected by various Android
	permissions. Starting in Android 1.0, write access is protected with the
	<code>WRITE_EXTERNAL_STORAGE</code> permission. Starting in Android 4.1,
	read access is protected with the <code>READ_EXTERNAL_STORAGE</code>
	permission.</p>

	<p>Starting in Android 4.4, the owner, group and modes of files on external
	storage devices are now synthesized based on directory structure. This
	enables apps to manage their package-specific directories on external
	storage without requiring they hold the broad
	<code>WRITE_EXTERNAL_STORAGE</code> permission. For example, the app with
	package name <code>com.example.foo</code> can now freely access
	<code>Android/data/com.example.foo/</code> on external storage devices with
	no permissions. These synthesized permissions are accomplished by wrapping
	raw storage devices in a FUSE daemon.</p>

	<p>Since external storage offers minimal protection for stored data, system
	code should not store sensitive data on external storage. Specifically,
	configuration and log files should only be stored on internal storage where
	they can be effectively protected.</p>


	<h2 id="multiple-external-storage-devices">Multiple external storage devices</h2>

	<p>Starting in Android 4.4, multiple external storage devices are surfaced
	to developers through <code>Context.getExternalFilesDirs()</code>,
	<code>Context.getExternalCacheDirs()</code>, and
	<code>Context.getObbDirs()</code>.</p>

	</p>External storage devices surfaced through these APIs must be a
	semi-permanent part of the device (such as an SD card slot in a battery
	compartment). Developers expect data stored in these locations to be
	available over long periods of time. For this reason, transient storage
	devices (such as USB mass storage drives) should not be surfaced through
	these APIs.</p>

	<p>The <code>WRITE_EXTERNAL_STORAGE</code> permission must only grant write
	access to the primary external storage on a device. Apps must not be
	allowed to write to secondary external storage devices, except in their
	package-specific directories as allowed by synthesized
	permissions. Restricting writes in this way ensures the system can clean
	up files when applications are uninstalled.</p>


	<h2 id="multi-user-external-storage">Multi-user external storage</h2>

	<p>Starting in Android 4.2, devices can support multiple users, and external
	storage must meet the following constraints:</p>

	<ul>
	<li>Each user must have their own isolated primary external storage, and
	must not have access to the primary external storage of other users.</li>
	<li>The <code>/sdcard</code> path must resolve to the correct user-specific
	primary external storage based on the user a process is running as.</li>
	<li>Storage for large OBB files in the <code>Android/obb</code> directory
	may be shared between multiple users as an optimization.</li>
	<li>Secondary external storage must not be writable by apps, except in
	package-specific directories as allowed by synthesized permissions.</li>
	</ul>

	<p>The default platform implementation of this feature leverages Linux kernel
	namespaces to create isolated mount tables for each Zygote-forked process,
	and then uses bind mounts to offer the correct user-specific primary external
	storage into that private namespace.</p>

	<p>At boot, the system mounts a single emulated external storage FUSE daemon
	at <code>EMULATED_STORAGE_SOURCE</code>, which is hidden from apps. After
	the Zygote forks, it bind mounts the appropriate user-specific subdirectory
	from under the FUSE daemon to <code>EMULATED_STORAGE_TARGET</code> so that
	external storage paths resolve correctly for the app. Because an app lacks
	accessible mount points for other users' storage, they can only access
	storage for the user it was started as.</p>

	<p>This implementation also uses the shared subtree kernel feature to
	propagate mount events from the default root namespace into app namespaces,
	which ensures that features like ASEC containers and OBB mounting continue
	working correctly. It does this by mounting the rootfs as shared, and then
	remounting it as slave after each Zygote namespace is created.</p>