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 page.title=Security
 @jd:body
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     Copyright 2015 The Android Open Source Project

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     you may not use this file except in compliance with the License.
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     distributed under the License is distributed on an "AS IS" BASIS,
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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 incorporates industry-leading security features and works with
 developers and device implementers to keep the Android platform and ecosystem
 safe. A robust security model is essential to enable a vigorous ecosystem of
 applications and devices built on and around the Android platform and supported
 by cloud services. As a result, through its entire development lifecycle,
 Android has been subject to a rigorous security program.
 </p>
 <p>
 <strong>Android is designed to be open</strong>. Android applications use
 advanced hardware and software, as well as local and served data, exposed
 through the platform to bring innovation and value to consumers. To realize that
 value, the platform offers an application environment that protects the
 confidentiality, integrity, and availability of users, data, applications, the
 device, and the network.
 </p>
 <p>
 Securing an open platform requires a strong security architecture and rigorous
 security programs. Android was designed with multi-layered security that is
 flexible enough to support an open platform while still protecting all users of
 the platform. For information about reporting security issues and the update
 process, see <a href="{@docRoot}security/overview/updates-resources.html">Security
 Updates and Resources</a>.
 </p>
 <p>
 <strong>Android is designed for developers</strong>. Security controls were
 designed to reduce the burden on developers. Security-savvy developers can
 easily work with and rely on flexible security controls. Developers less
 familiar with security will be protected by safe defaults.
 </p>
 <p>
 In addition to providing a stable platform to build upon, Android gives
 additional support to developers in a number of ways. The Android security team
 looks for potential vulnerabilities in apps and suggests ways to fix those
 issues. For devices with Google Play, Play Services delivers security updates
 for critical software libraries, such as OpenSSL, which is used to secure
 application communications. Android security released a tool for testing SSL
 (<a href="https://github.com/google/nogotofail">nogotofail</a>) that helps
 developers find potential security issues on whichever platform they are
 developing.
 </p>
 <p>
 More information for Android app developers can be found on
 <a href="https://developer.android.com/training/best-security.html">developer.android.com</a>.
 </p>
 <p>
 <strong>Android is designed for users</strong>. Users are provided visibility
 into permissions requested by each application and control over those
 permissions. This design includes the expectation that attackers would attempt
 to perform common attacks, such as social engineering attacks to convince device
 users to install malware, and attacks on third-party applications on Android.
 Android was designed to both reduce the probability of these attacks and greatly
 limit the impact of the attack in the event it was successful. Android security
 continues to progress once the device is in the user's hands: Android works with
 <a href="{@docRoot}security/overview/acknowledgements.html">partners and the
 public</a> to provide patches for any Android device that is continuing to
 receive security updates.
 </p>
 <p>
 More information for end users can be found in the <a
 href="https://support.google.com/nexus/answer/6172890">Nexus help center</a> or
 your device manufacturer’s help center.
 </p>
 <p>
 This documentation outlines the goals of the Android security program, describes
 the fundamentals of the Android security architecture, and answers the most
 pertinent questions for system architects and security analysts. It focuses on
 the security features of Android's core platform and does not discuss security
 issues that are unique to specific applications, such as those related to the
 browser or SMS application.
 </p>

 <h2 id="background">Background</h2>
 <p>
 Android provides an open source platform and application environment for mobile
 devices.
 </p>
 <p>
 The sections and pages below describe the security features of the Android
 platform. <em>Figure 1</em> summarizes the security components and
 considerations of the various levels of the Android software stack. Each
 component assumes that the components below are properly secured. With the
 exception of a small amount of Android OS code running as root, all code above
 the Linux Kernel is restricted by the Application Sandbox.
 </p>

 <p><img alt="Figure 1: Android software stack" src="images/android_software_stack.png" /></p>
 <p  class="img-caption">
 <strong>Figure 1</strong>. Android software stack.
 </p>
 <p>
 The main Android platform building blocks are:
 </p>
 <ul>
   <li><strong>Device hardware</strong>: Android runs on a wide range of hardware
   configurations including smart phones, tablets, watches, automobiles, smart TVs,
   OTT gaming boxes, and set-top-boxes. Android is processor-agnostic, but it does
   take advantage of some hardware-specific security capabilities such as ARM
   eXecute-Never.</li>
   <li><strong>Android operating system</strong>: The core operating system is
   built on top of the Linux kernel. All device resources, like camera functions,
   GPS data, Bluetooth functions, telephony functions, network connections, etc.
   are accessed through the operating system.</li>
   <li><strong>Android Application Runtime</strong>: Android applications are most
   often written in the Java programming language and run in the Android runtime
   (ART). However, many applications, including core Android services and
   applications, are native applications or include native libraries. Both ART and
   native applications run within the same security environment, contained within
   the Application Sandbox. Applications get a dedicated part of the filesystem in
   which they can write private data, including databases and raw files.</li>
 </ul>
 <p>
 Android applications extend the core Android operating system. There are two
 primary sources for applications:
 </p>
 <ul>
   <li><strong>Pre-installed applications</strong>: Android includes a set of
   pre-installed applications including phone, email, calendar, web browser, and
   contacts. These function both as user applications and to provide key device
   capabilities that can be accessed by other applications. Pre-installed
   applications may be part of the open source Android platform, or they may be
   developed by a device manufacturer for a specific device.</li>
   <li><strong>User-installed applications</strong>: Android provides an open
   development environment that supports any third-party application. Google Play
   offers users hundreds of thousands of applications.</li>
 </ul>

 <h2 id="google-security-services">Google security services</h2>
 <p>
 Google provides a set of cloud-based services that are available to compatible
 Android devices with <a href="https://www.android.com/gms/">Google Mobile
 Services</a>. While these services are not part of the Android Open Source
 Project, they are included on many Android devices. For more information on
 some of these services, see Android Security’s
 <a href="http://static.googleusercontent.com/media/source.android.com/en//security/reports/Google_Android_Security_2015_Report_Final.pdf">2015
 Year in Review</a>.
 </p>
 <p>
 The primary Google security services are:
 </p>
 <ul>
   <li><strong>Google Play</strong>: Google Play is a collection of services that
   allow users to discover, install, and purchase applications from their Android
   device or the web. Google Play makes it easy for developers to reach Android
   users and potential customers. Google Play also provides community review,
   application
   <a href="https://developer.android.com/guide/publishing/licensing.html">license
   verification</a>, application security scanning, and other security services.</li>
   <li><strong>Android updates</strong>: The Android update service delivers new
   capabilities and security updates to selected Android devices, including updates
   through the web or over the air (OTA).</li>
   <li><strong>Application services</strong>: Frameworks that allow Android
   applications to use cloud capabilities such as (<a
   href="https://developer.android.com/guide/topics/data/backup.html">backing
   up</a>) application data and settings and cloud-to-device messaging
   (<a href="https://developers.google.com/cloud-messaging/">C2DM</a>) for push
   messaging.</li>
   <li><strong>Verify Apps</strong>: Warn or automatically block the installation
   of harmful applications, and continually scan applications on the device,
   warning about or removing
   <a href="https://support.google.com/accounts/answer/2812853">harmful apps</a>.
   </li>
   <li><strong>SafetyNet</strong>: A privacy preserving intrusion detection system
   to assist Google tracking and mitigating known security threats in addition to
   identifying new security threats.</li>
   <li><strong>SafetyNet Attestation</strong>: Third-party API to determine
   whether the device is CTS compatible. <a
   href="http://developer.android.com/training/safetynet/index.html">Attestation</a>
   can also assist identify the Android app communicating with the app server.</li>
   <li><strong>Android Device Manager</strong>: A
   <a href="https://www.google.com/android/devicemanager">web app</a> and
   <a href="https://play.google.com/store/apps/details?id=com.google.android.apps.adm">Android
   app</a> to locate lost or stolen device.</li>
 </ul>

 <h2 id="security-program-overview">Security program overview</h2>
 <p>
 The key components of the Android Security Program include:
 </p>
 <ul>
   <li><strong>Design review</strong>: The Android security process begins early in
   the development lifecycle with the creation of a rich and configurable security
   model and design. Each major feature of the platform is reviewed by engineering
   and security resources, with appropriate security controls integrated into the
   architecture of the system.</li>
   <li><strong>Penetration testing and code review</strong>: During the development
   of the platform, Android-created and open source components are subject to
   vigorous security reviews. These reviews are performed by the Android Security
   Team, Google’s Information Security Engineering team, and independent security
   consultants. The goal of these reviews is to identify weaknesses and possible
   vulnerabilities well before major releases, and to simulate the types of
   analysis that will be performed by external security experts upon release.</li>
   <li><strong>Open source and community review</strong>: The Android Open Source
   Project enables broad security review by any interested party. Android also uses
   open source technologies that have undergone significant external security
   review, such as the Linux kernel. Google Play provides a forum for users and
   companies to provide information about specific applications directly to users.</li>
   <li><strong>Incident Response</strong>: Even with all of these precautions,
   security issues may occur after shipping, which is why the Android project has
   created a comprehensive security response process. Full-time Android security
   team members monitor Android-specific and the general security community for
   discussion of potential vulnerabilities and review
   <a href="{@docRoot}security/overview/updates-resources.html#android_security_bug_lifecycle">security
   bugs</a> filed on the Android bug database. Upon the discovery of legitimate
   issues, the Android team has a response process that enables the rapid
   mitigation of vulnerabilities to ensure that potential risk to all Android users
   is minimized. These cloud-supported responses can include updating the Android
   platform (over-the-air updates), removing applications from Google Play, and
   removing applications from devices in the field.</li>
   <li><strong>Monthly security updates</strong>: The Android security team
   provides <a href="{@docRoot}security/bulletin/index.html">monthly
   updates</a> to Google Nexus devices and all of our device manufacturing
   partners.</li>
 </ul>

 <h2 id="platform-security-architecture">Platform security architecture</h2>
 <p>
 Android seeks to be the most secure and usable operating system for mobile
 platforms by re-purposing traditional operating system security controls to:
 </p>
 <ul>
   <li>Protect application and user data</li>
   <li>Protect system resources (including the network)</li>
   <li>Provide application isolation from the system, other applications, and from
   the user</li>
 </ul>
 <p>
 To achieve these objectives, Android provides these key security features:
 </p>
 <ul>
   <li>Robust security at the OS level through the Linux kernel</li>
   <li>Mandatory application sandbox for all applications</li>
   <li>Secure interprocess communication</li>
   <li>Application signing</li>
   <li>Application-defined and user-granted permissions</li>
 </ul>
	page.title=Security
	@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.
	-->
	<div id="qv-wrapper">
	<div id="qv">
	<h2>In this document</h2>
	<ol id="auto-toc"></ol>
	</div>
	</div>

	<p>
	Android incorporates industry-leading security features and works with
	developers and device implementers to keep the Android platform and ecosystem
	safe. A robust security model is essential to enable a vigorous ecosystem of
	applications and devices built on and around the Android platform and supported
	by cloud services. As a result, through its entire development lifecycle,
	Android has been subject to a rigorous security program.
	</p>
	<p>
	<strong>Android is designed to be open</strong>. Android applications use
	advanced hardware and software, as well as local and served data, exposed
	through the platform to bring innovation and value to consumers. To realize that
	value, the platform offers an application environment that protects the
	confidentiality, integrity, and availability of users, data, applications, the
	device, and the network.
	</p>
	<p>
	Securing an open platform requires a strong security architecture and rigorous
	security programs. Android was designed with multi-layered security that is
	flexible enough to support an open platform while still protecting all users of
	the platform. For information about reporting security issues and the update
	process, see <a href="{@docRoot}security/overview/updates-resources.html">Security
	Updates and Resources</a>.
	</p>
	<p>
	<strong>Android is designed for developers</strong>. Security controls were
	designed to reduce the burden on developers. Security-savvy developers can
	easily work with and rely on flexible security controls. Developers less
	familiar with security will be protected by safe defaults.
	</p>
	<p>
	In addition to providing a stable platform to build upon, Android gives
	additional support to developers in a number of ways. The Android security team
	looks for potential vulnerabilities in apps and suggests ways to fix those
	issues. For devices with Google Play, Play Services delivers security updates
	for critical software libraries, such as OpenSSL, which is used to secure
	application communications. Android security released a tool for testing SSL
	(<a href="https://github.com/google/nogotofail">nogotofail</a>) that helps
	developers find potential security issues on whichever platform they are
	developing.
	</p>
	<p>
	More information for Android app developers can be found on
	<a href="https://developer.android.com/training/best-security.html">developer.android.com</a>.
	</p>
	<p>
	<strong>Android is designed for users</strong>. Users are provided visibility
	into permissions requested by each application and control over those
	permissions. This design includes the expectation that attackers would attempt
	to perform common attacks, such as social engineering attacks to convince device
	users to install malware, and attacks on third-party applications on Android.
	Android was designed to both reduce the probability of these attacks and greatly
	limit the impact of the attack in the event it was successful. Android security
	continues to progress once the device is in the user's hands: Android works with
	<a href="{@docRoot}security/overview/acknowledgements.html">partners and the
	public</a> to provide patches for any Android device that is continuing to
	receive security updates.
	</p>
	<p>
	More information for end users can be found in the <a
	href="https://support.google.com/nexus/answer/6172890">Nexus help center</a> or
	your device manufacturer’s help center.
	</p>
	<p>
	This documentation outlines the goals of the Android security program, describes
	the fundamentals of the Android security architecture, and answers the most
	pertinent questions for system architects and security analysts. It focuses on
	the security features of Android's core platform and does not discuss security
	issues that are unique to specific applications, such as those related to the
	browser or SMS application.
	</p>

	<h2 id="background">Background</h2>
	<p>
	Android provides an open source platform and application environment for mobile
	devices.
	</p>
	<p>
	The sections and pages below describe the security features of the Android
	platform. <em>Figure 1</em> summarizes the security components and
	considerations of the various levels of the Android software stack. Each
	component assumes that the components below are properly secured. With the
	exception of a small amount of Android OS code running as root, all code above
	the Linux Kernel is restricted by the Application Sandbox.
	</p>

	<p><img alt="Figure 1: Android software stack" src="images/android_software_stack.png" /></p>
	<p class="img-caption">
	<strong>Figure 1</strong>. Android software stack.
	</p>
	<p>
	The main Android platform building blocks are:
	</p>
	<ul>
	<li><strong>Device hardware</strong>: Android runs on a wide range of hardware
	configurations including smart phones, tablets, watches, automobiles, smart TVs,
	OTT gaming boxes, and set-top-boxes. Android is processor-agnostic, but it does
	take advantage of some hardware-specific security capabilities such as ARM
	eXecute-Never.</li>
	<li><strong>Android operating system</strong>: The core operating system is
	built on top of the Linux kernel. All device resources, like camera functions,
	GPS data, Bluetooth functions, telephony functions, network connections, etc.
	are accessed through the operating system.</li>
	<li><strong>Android Application Runtime</strong>: Android applications are most
	often written in the Java programming language and run in the Android runtime
	(ART). However, many applications, including core Android services and
	applications, are native applications or include native libraries. Both ART and
	native applications run within the same security environment, contained within
	the Application Sandbox. Applications get a dedicated part of the filesystem in
	which they can write private data, including databases and raw files.</li>
	</ul>
	<p>
	Android applications extend the core Android operating system. There are two
	primary sources for applications:
	</p>
	<ul>
	<li><strong>Pre-installed applications</strong>: Android includes a set of
	pre-installed applications including phone, email, calendar, web browser, and
	contacts. These function both as user applications and to provide key device
	capabilities that can be accessed by other applications. Pre-installed
	applications may be part of the open source Android platform, or they may be
	developed by a device manufacturer for a specific device.</li>
	<li><strong>User-installed applications</strong>: Android provides an open
	development environment that supports any third-party application. Google Play
	offers users hundreds of thousands of applications.</li>
	</ul>

	<h2 id="google-security-services">Google security services</h2>
	<p>
	Google provides a set of cloud-based services that are available to compatible
	Android devices with <a href="https://www.android.com/gms/">Google Mobile
	Services</a>. While these services are not part of the Android Open Source
	Project, they are included on many Android devices. For more information on
	some of these services, see Android Security’s
	<a href="http://static.googleusercontent.com/media/source.android.com/en//security/reports/Google_Android_Security_2015_Report_Final.pdf">2015
	Year in Review</a>.
	</p>
	<p>
	The primary Google security services are:
	</p>
	<ul>
	<li><strong>Google Play</strong>: Google Play is a collection of services that
	allow users to discover, install, and purchase applications from their Android
	device or the web. Google Play makes it easy for developers to reach Android
	users and potential customers. Google Play also provides community review,
	application
	<a href="https://developer.android.com/guide/publishing/licensing.html">license
	verification</a>, application security scanning, and other security services.</li>
	<li><strong>Android updates</strong>: The Android update service delivers new
	capabilities and security updates to selected Android devices, including updates
	through the web or over the air (OTA).</li>
	<li><strong>Application services</strong>: Frameworks that allow Android
	applications to use cloud capabilities such as (<a
	href="https://developer.android.com/guide/topics/data/backup.html">backing
	up</a>) application data and settings and cloud-to-device messaging
	(<a href="https://developers.google.com/cloud-messaging/">C2DM</a>) for push
	messaging.</li>
	<li><strong>Verify Apps</strong>: Warn or automatically block the installation
	of harmful applications, and continually scan applications on the device,
	warning about or removing
	<a href="https://support.google.com/accounts/answer/2812853">harmful apps</a>.
	</li>
	<li><strong>SafetyNet</strong>: A privacy preserving intrusion detection system
	to assist Google tracking and mitigating known security threats in addition to
	identifying new security threats.</li>
	<li><strong>SafetyNet Attestation</strong>: Third-party API to determine
	whether the device is CTS compatible. <a
	href="http://developer.android.com/training/safetynet/index.html">Attestation</a>
	can also assist identify the Android app communicating with the app server.</li>
	<li><strong>Android Device Manager</strong>: A
	<a href="https://www.google.com/android/devicemanager">web app</a> and
	<a href="https://play.google.com/store/apps/details?id=com.google.android.apps.adm">Android
	app</a> to locate lost or stolen device.</li>
	</ul>

	<h2 id="security-program-overview">Security program overview</h2>
	<p>
	The key components of the Android Security Program include:
	</p>
	<ul>
	<li><strong>Design review</strong>: The Android security process begins early in
	the development lifecycle with the creation of a rich and configurable security
	model and design. Each major feature of the platform is reviewed by engineering
	and security resources, with appropriate security controls integrated into the
	architecture of the system.</li>
	<li><strong>Penetration testing and code review</strong>: During the development
	of the platform, Android-created and open source components are subject to
	vigorous security reviews. These reviews are performed by the Android Security
	Team, Google’s Information Security Engineering team, and independent security
	consultants. The goal of these reviews is to identify weaknesses and possible
	vulnerabilities well before major releases, and to simulate the types of
	analysis that will be performed by external security experts upon release.</li>
	<li><strong>Open source and community review</strong>: The Android Open Source
	Project enables broad security review by any interested party. Android also uses
	open source technologies that have undergone significant external security
	review, such as the Linux kernel. Google Play provides a forum for users and
	companies to provide information about specific applications directly to users.</li>
	<li><strong>Incident Response</strong>: Even with all of these precautions,
	security issues may occur after shipping, which is why the Android project has
	created a comprehensive security response process. Full-time Android security
	team members monitor Android-specific and the general security community for
	discussion of potential vulnerabilities and review
	<a href="{@docRoot}security/overview/updates-resources.html#android_security_bug_lifecycle">security
	bugs</a> filed on the Android bug database. Upon the discovery of legitimate
	issues, the Android team has a response process that enables the rapid
	mitigation of vulnerabilities to ensure that potential risk to all Android users
	is minimized. These cloud-supported responses can include updating the Android
	platform (over-the-air updates), removing applications from Google Play, and
	removing applications from devices in the field.</li>
	<li><strong>Monthly security updates</strong>: The Android security team
	provides <a href="{@docRoot}security/bulletin/index.html">monthly
	updates</a> to Google Nexus devices and all of our device manufacturing
	partners.</li>
	</ul>

	<h2 id="platform-security-architecture">Platform security architecture</h2>
	<p>
	Android seeks to be the most secure and usable operating system for mobile
	platforms by re-purposing traditional operating system security controls to:
	</p>
	<ul>
	<li>Protect application and user data</li>
	<li>Protect system resources (including the network)</li>
	<li>Provide application isolation from the system, other applications, and from
	the user</li>
	</ul>
	<p>
	To achieve these objectives, Android provides these key security features:
	</p>
	<ul>
	<li>Robust security at the OS level through the Linux kernel</li>
	<li>Mandatory application sandbox for all applications</li>
	<li>Secure interprocess communication</li>
	<li>Application signing</li>
	<li>Application-defined and user-granted permissions</li>
	</ul>