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

 page.title=Porting Android to Devices
 @jd:body

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     Unless required by applicable law or agreed to in writing, software
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 <div id="qv-wrapper">
   <div id="qv">
     <h2>In this document</h2>
     <ol id="auto-toc">
     </ol>
   </div>
 </div>

   <p>Android provides you with the freedom to implement your own device specifications
   and the drivers to support them. The hardware abstraction layer (HAL) gives you a
   standard way to create software hooks in between the Android
   platform stack and your hardware. In addition, the Android operating system
   is open-sourced to help you through your device's bringup.</p>

   <p>To ensure that your devices maintain a high level of quality and offers a consistent
   experience for your users, they must must also
   pass the tests in the compatibility test suite (CTS). CTS ensures that anyone
   building a device meets a quality standard that ensures apps run reliably well
   and gives users a good experience. For more information, see the
   <a href="{@docRoot}compatibility/index.html">Compatibility</a> section.</p>

  <h2>Android Low-Level System Architecture</h2>

 <p>Before you begin porting Android to your hardware, it is important to have an
 understanding of how Android works at a high level. Because your drivers and HAL code interact
 with many layers of Android code, this understanding can help you find
 your way through the many layers of code that are available to you through the AOSP
 (Android Open Source Project) source tree. The following diagram shows a system
 level view of how Android works:
 </p>

 <img src="images/system-architecture.png">

 <p class="img-caption"><strong>Figure 1.</strong> Android System Architecture</p>

   <h4>Application framework</h4>
   <p>This is the level that most application developers concern themselves with. You should be
     aware of the APIs available to developers as many of them map 1:1 to the underlying HAL
     interfaces and can provide information as to how to implement your driver.
   </p>

   <h4>Binder IPC</h4>
   <p>
   The Binder Inter-Process Communication mechanism allows the application framework to
   cross process boundaries and call into the Android system services code. This basically allows
   high level framework APIs to interact with Android's system services. At the application framework level, all
   of this communication is hidden from the developer and things appear to "just work."
   </p>

   <h4>System services</h4>
   <p>Most of the functionality exposed through the application framework APIs  must
     communicate with some sort of system service to access the underlying hardware. Services
     are divided into modular components with focused functionality
     such as the Window Manager, Search Service, or Notification Manager. System services are grouped
     into two buckets: system and media. The system services include things such as the Window or
     Notification Manager. The media services include all the services involved in playing and
     recording media.
   </p>

 <h4>Hardware abstraction layer (HAL)</h4>
 <p>The HAL serves as a standard interface that allows the Android system to call into the device
   driver layer while being agnostic about the lower-level implementations of your drivers and hardware.
   You must implement the corresponding HAL (and driver) for the particular piece of hardware that your product
   provides. Android does not mandate a standard interaction between your HAL implementation and your device drivers, so
   you have free reign to do what is best for your situation. However, you must abide by the contract
   defined in each hardware-specific HAL interface for the Android system to be able
   to correctly interact with your hardware. HAL implementations are typically built into
   shared library modules (<code>.so</code> files).
 </p>
 <h4>Linux Kernel</h4>
 <p>For the most part, developing your device drivers is the same as developing a typical Linux device driver.
   Android uses a specialized version of the Linux kernel with a few special additions such as
   wakelocks, a memory management system that is more agressive in preserving memory,
   the Binder IPC driver, and other features that are important for a mobile embedded platform like Android.
   These additions have less to do with driver development than with the system's functionality. You can use any version of the kernel that you want as long as it supports the required features, such as the binder driver. However, we recommend
   using the latest version of the Android kernel. For the latest Android kernel, see
   <a href="{@docRoot}source/building-kernels.html" >Building Kernels</a>.
 </p>
	page.title=Porting Android to Devices
	@jd:body

	<!--
	Copyright 2013 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.
	-->
	<div id="qv-wrapper">
	<div id="qv">
	<h2>In this document</h2>
	<ol id="auto-toc">
	</ol>
	</div>
	</div>

	<p>Android provides you with the freedom to implement your own device specifications
	and the drivers to support them. The hardware abstraction layer (HAL) gives you a
	standard way to create software hooks in between the Android
	platform stack and your hardware. In addition, the Android operating system
	is open-sourced to help you through your device's bringup.</p>

	<p>To ensure that your devices maintain a high level of quality and offers a consistent
	experience for your users, they must must also
	pass the tests in the compatibility test suite (CTS). CTS ensures that anyone
	building a device meets a quality standard that ensures apps run reliably well
	and gives users a good experience. For more information, see the
	<a href="{@docRoot}compatibility/index.html">Compatibility</a> section.</p>

	<h2>Android Low-Level System Architecture</h2>

	<p>Before you begin porting Android to your hardware, it is important to have an
	understanding of how Android works at a high level. Because your drivers and HAL code interact
	with many layers of Android code, this understanding can help you find
	your way through the many layers of code that are available to you through the AOSP
	(Android Open Source Project) source tree. The following diagram shows a system
	level view of how Android works:
	</p>

	<img src="images/system-architecture.png">

	<p class="img-caption"><strong>Figure 1.</strong> Android System Architecture</p>

	<h4>Application framework</h4>
	<p>This is the level that most application developers concern themselves with. You should be
	aware of the APIs available to developers as many of them map 1:1 to the underlying HAL
	interfaces and can provide information as to how to implement your driver.
	</p>

	<h4>Binder IPC</h4>
	<p>
	The Binder Inter-Process Communication mechanism allows the application framework to
	cross process boundaries and call into the Android system services code. This basically allows
	high level framework APIs to interact with Android's system services. At the application framework level, all
	of this communication is hidden from the developer and things appear to "just work."
	</p>

	<h4>System services</h4>
	<p>Most of the functionality exposed through the application framework APIs must
	communicate with some sort of system service to access the underlying hardware. Services
	are divided into modular components with focused functionality
	such as the Window Manager, Search Service, or Notification Manager. System services are grouped
	into two buckets: system and media. The system services include things such as the Window or
	Notification Manager. The media services include all the services involved in playing and
	recording media.
	</p>

	<h4>Hardware abstraction layer (HAL)</h4>
	<p>The HAL serves as a standard interface that allows the Android system to call into the device
	driver layer while being agnostic about the lower-level implementations of your drivers and hardware.
	You must implement the corresponding HAL (and driver) for the particular piece of hardware that your product
	provides. Android does not mandate a standard interaction between your HAL implementation and your device drivers, so
	you have free reign to do what is best for your situation. However, you must abide by the contract
	defined in each hardware-specific HAL interface for the Android system to be able
	to correctly interact with your hardware. HAL implementations are typically built into
	shared library modules (<code>.so</code> files).
	</p>
	<h4>Linux Kernel</h4>
	<p>For the most part, developing your device drivers is the same as developing a typical Linux device driver.
	Android uses a specialized version of the Linux kernel with a few special additions such as
	wakelocks, a memory management system that is more agressive in preserving memory,
	the Binder IPC driver, and other features that are important for a mobile embedded platform like Android.
	These additions have less to do with driver development than with the system's functionality. You can use any version of the kernel that you want as long as it supports the required features, such as the binder driver. However, we recommend
	using the latest version of the Android kernel. For the latest Android kernel, see
	<a href="{@docRoot}source/building-kernels.html" >Building Kernels</a>.
	</p>