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 page.title=Fingerprint HAL
 @jd:body

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

 <h2 id=overview>Overview</h2>

 <p>If a device has a fingerprint sensor, a user can enroll one or more
 fingerprints and then use their fingerprints to unlock the device and perform
 other tasks.</p>

 <p>Android uses the Fingerprint Hardware Abstraction Layer (HAL) to connect to a
 vendor-specific library and fingerprint hardware, e.g. a fingerprint sensor.</p>

 <p>To implement the Fingerprint HAL, you must implement
 <a href="#major_functions_in_the_fingerprint_hal">functions</a>
 in <code>fingerprint.h</code> (<code>/hardware/libhardware/include/hardware/fingerprint.h</code>)
 in a vendor-specific library; please see the comments in
 the <a href="https://android.googlesource.com/platform/hardware/libhardware/+/master/include/hardware/fingerprint.h"><code>fingerprint.h</code></a> file.</p>

 <h3 id=fingerprint_matching_flow>Fingerprint matching flow</h3>

 <p>The following is a high-level flow for fingerprint matching. This flow assumes
 that a fingerprint already has been enrolled on the device, i.e. the
 vendor-specific library already has enrolled a template for the fingerprint.
 Also see <a href="index.html">Authentication</a>.</p>

 <p>The fingerprint sensor of a device generally is idle. But in response to a call
 to the <code>authenticate</code> or <code>enroll</code> function, the fingerprint
 sensor listens for a touch (and perhaps the screen
 wakes up when a user touches the fingerprint sensor).</p>

 <ol>
   <li>The user places a finger on the fingerprint sensor, and the vendor-specific
 library determines if there is a match based on the current set of enrolled
 templates.
   <li>The result of step 1 is passed to the Fingerprint HAL, which notifies
 <code>fingerprintd</code> (the Fingerprint daemon) of a fingerprint authentication.
 </ol>

 <p>Note that as more templates are stored on a single device, the time needed for
 matching is increased.</p>

 <h2 id=architecture>Architecture</h2>

 <p>The <strong>Fingerprint HAL</strong> interacts with the following components:</p>

 <ul>
   <li><strong>FingerprintManager API</strong>. Interacts directly with an app in an app process.
   <ul>
     <li>Each app has an instance of FingerprintManager.
     <li>FingerprintManager is a wrapper that communicates with FingerprintService.
   </ul>
   <li><strong>FingerprintService</strong>. A singleton service that operates in the system
   process, which handles
 communication with <code>fingerprintd</code>.
   <li><strong>fingerprintd (Fingerprint daemon)</strong>. A C/C++ implementation of the
   binder interface from FingerprintService. The
 <code>fingerprintd</code> daemon operates in its own process and wraps the Fingerprint HAL
 vendor-specific library.
   <li><strong>Fingerprint HAL vendor-specific library</strong>. A hardware vendor's
   implementation of the Fingerprint HAL. The
 vendor-specific library communicates with the device-specific hardware.
   <li><strong>Keystore API and Keymaster</strong>. These components provide hardware-backed cryptography
   for secure key storage
   in a Trusted Execution Environment (TEE).
 </ul>

 <p>As shown in the following diagram, a vendor-specific HAL implementation needs
 to use the communication protocol required by a TEE.</p>

 <img src="../images/fingerprint-data-flow.png" alt="Data flow for fingerprint authentication" id="figure1" />

 <p class="img-caption"><strong>Figure 1.</strong> High-level data flow for fingerprint authentication</p>

 <p>Thus, raw images and processed fingerprint features must not be passed in
 untrusted memory. All such biometric data needs to be secured within sensor
 hardware or trusted memory. (Memory inside the TEE is considered as trusted
 memory; memory outside the TEE is considered untrusted.)</p>

 <p>Rooting must not compromise biometric data.</p>

 <p>As shown in the following diagram, <code>fingerprintd</code> makes calls through the
 Fingerprint HAL to the vendor-specific library to enroll fingerprints and
 perform other operations.</p>

 <img src="../images/fingerprint-daemon.png" alt="Interaction with fingerprintd" id="figure2" />
 <p class="img-caption"><strong>Figure 2.</strong> Interaction of the
 fingerprint daemon (<code>fingerprintd</code>) with the fingerprint vendor-specific library</p>

 <h2 id=fingerprint_implementation_guidelines>Fingerprint implementation guidelines</h2>

 <p>The guidelines in this section are intended to ensure the following:</p>

 <ul>
   <li>Fingerprint data is not leaked
   <li>Fingerprint data is removed when a user is removed from a device
 </ul>

 <p>Here are the guidelines:</p>

 <ol>
   <li>Raw fingerprint data or derivatives (e.g. templates) must never be accessible
 from outside the sensor driver or Trusted Execution Environment (TEE). Hardware
 access must be limited to the TEE, if the hardware supports it, and must be protected by
 an SELinux policy. That is, the Serial Peripheral Interface (SPI) channel must
 be accessible only to the TEE, and there must be an explicit SELinux policy on
 all device files.
   <li>Fingerprint acquisition, enrollment and recognition must occur inside the TEE.
   <li>Only the encrypted form of the fingerprint data can be stored on the file
 system, even if the file system itself is encrypted.
   <li>Fingerprint templates must be signed with a private, device-specific key, for
 example with AES, with at least the absolute file-system path, group and finger
 ID such that template files are inoperable on another device or for anyone
 other than the user that enrolled them on the same device. For example, copying
 the fingerprint data from a different user on the same device, or from another
 device, must not work.
   <li>Implementations must either use the file system path provided by the
   <code>set_active_group()</code> function or provide a way to erase all user template data when the user
 is removed. It is strongly recommended that fingerprint template files
 be stored as encrypted in the path provided. If this is infeasible due to TEE
 storage requirements, then the implementer must add hooks to ensure removal of
 the data when the user is removed.
 </ol>

 <h2 id=major_functions_in_the_fingerprint_hal>Major functions in the Fingerprint HAL</h2>

 <p>Below are the major functions in the <code>/hardware/libhardware/include/hardware/fingerprint.h</code> file; see the detailed descriptions in that
 file.</p>

 <ul>
   <li><strong>enroll.</strong> Switches the HAL state machine to start the collection and storage of a
 fingerprint template. As soon as enrollment is complete, or after a timeout,
 the HAL state machine is returned to the idle state.
   <li><strong>pre_enroll.</strong> Generates a unique token to indicate the start of a fingerprint enrollment.
 Provides a token to the <code>enroll</code> function to ensure there was prior authentication, e.g. using a password. The
 token is wrapped and, for example, HMAC'd, once the device credential is
 confirmed, to prevent tampering. The token must be checked during enrollment to
 verify that the token is still valid.
   <li><strong>get_authenticator_id.</strong> Returns a token associated with the current fingerprint set.
   <li><strong>cancel.</strong> Cancels any pending enroll or authenticate operations. The HAL state machine
 is returned to the idle state.
   <li><strong>enumerate.</strong> Synchronous call for enumerating all known fingerprint templates.
   <li><strong>remove.</strong> Deletes a fingerprint template.
   <li><strong>set_active_group.</strong> Restricts a HAL operation to a set of fingerprints that belong to a specified
 group (identified by a group identifier, or GID).
   <li><strong>authenticate.</strong> Authenticates a fingerprint-related operation (identified by an operation ID).
   <li><strong>set_notify.</strong> Registers a user function that will get notifications from the HAL. If the HAL
 state machine is in a busy state, the function is blocked until the HAL leaves
 the busy state.
 </ul>
	page.title=Fingerprint HAL
	@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>

	<h2 id=overview>Overview</h2>

	<p>If a device has a fingerprint sensor, a user can enroll one or more
	fingerprints and then use their fingerprints to unlock the device and perform
	other tasks.</p>

	<p>Android uses the Fingerprint Hardware Abstraction Layer (HAL) to connect to a
	vendor-specific library and fingerprint hardware, e.g. a fingerprint sensor.</p>

	<p>To implement the Fingerprint HAL, you must implement
	<a href="#major_functions_in_the_fingerprint_hal">functions</a>
	in <code>fingerprint.h</code> (<code>/hardware/libhardware/include/hardware/fingerprint.h</code>)
	in a vendor-specific library; please see the comments in
	the <a href="https://android.googlesource.com/platform/hardware/libhardware/+/master/include/hardware/fingerprint.h"><code>fingerprint.h</code></a> file.</p>

	<h3 id=fingerprint_matching_flow>Fingerprint matching flow</h3>

	<p>The following is a high-level flow for fingerprint matching. This flow assumes
	that a fingerprint already has been enrolled on the device, i.e. the
	vendor-specific library already has enrolled a template for the fingerprint.
	Also see <a href="index.html">Authentication</a>.</p>

	<p>The fingerprint sensor of a device generally is idle. But in response to a call
	to the <code>authenticate</code> or <code>enroll</code> function, the fingerprint
	sensor listens for a touch (and perhaps the screen
	wakes up when a user touches the fingerprint sensor).</p>

	<ol>
	<li>The user places a finger on the fingerprint sensor, and the vendor-specific
	library determines if there is a match based on the current set of enrolled
	templates.
	<li>The result of step 1 is passed to the Fingerprint HAL, which notifies
	<code>fingerprintd</code> (the Fingerprint daemon) of a fingerprint authentication.
	</ol>

	<p>Note that as more templates are stored on a single device, the time needed for
	matching is increased.</p>

	<h2 id=architecture>Architecture</h2>

	<p>The <strong>Fingerprint HAL</strong> interacts with the following components:</p>

	<ul>
	<li><strong>FingerprintManager API</strong>. Interacts directly with an app in an app process.
	<ul>
	<li>Each app has an instance of FingerprintManager.
	<li>FingerprintManager is a wrapper that communicates with FingerprintService.
	</ul>
	<li><strong>FingerprintService</strong>. A singleton service that operates in the system
	process, which handles
	communication with <code>fingerprintd</code>.
	<li><strong>fingerprintd (Fingerprint daemon)</strong>. A C/C++ implementation of the
	binder interface from FingerprintService. The
	<code>fingerprintd</code> daemon operates in its own process and wraps the Fingerprint HAL
	vendor-specific library.
	<li><strong>Fingerprint HAL vendor-specific library</strong>. A hardware vendor's
	implementation of the Fingerprint HAL. The
	vendor-specific library communicates with the device-specific hardware.
	<li><strong>Keystore API and Keymaster</strong>. These components provide hardware-backed cryptography
	for secure key storage
	in a Trusted Execution Environment (TEE).
	</ul>

	<p>As shown in the following diagram, a vendor-specific HAL implementation needs
	to use the communication protocol required by a TEE.</p>

	<img src="../images/fingerprint-data-flow.png" alt="Data flow for fingerprint authentication" id="figure1" />

	<p class="img-caption"><strong>Figure 1.</strong> High-level data flow for fingerprint authentication</p>

	<p>Thus, raw images and processed fingerprint features must not be passed in
	untrusted memory. All such biometric data needs to be secured within sensor
	hardware or trusted memory. (Memory inside the TEE is considered as trusted
	memory; memory outside the TEE is considered untrusted.)</p>

	<p>Rooting must not compromise biometric data.</p>

	<p>As shown in the following diagram, <code>fingerprintd</code> makes calls through the
	Fingerprint HAL to the vendor-specific library to enroll fingerprints and
	perform other operations.</p>

	<img src="../images/fingerprint-daemon.png" alt="Interaction with fingerprintd" id="figure2" />
	<p class="img-caption"><strong>Figure 2.</strong> Interaction of the
	fingerprint daemon (<code>fingerprintd</code>) with the fingerprint vendor-specific library</p>

	<h2 id=fingerprint_implementation_guidelines>Fingerprint implementation guidelines</h2>

	<p>The guidelines in this section are intended to ensure the following:</p>

	<ul>
	<li>Fingerprint data is not leaked
	<li>Fingerprint data is removed when a user is removed from a device
	</ul>

	<p>Here are the guidelines:</p>

	<ol>
	<li>Raw fingerprint data or derivatives (e.g. templates) must never be accessible
	from outside the sensor driver or Trusted Execution Environment (TEE). Hardware
	access must be limited to the TEE, if the hardware supports it, and must be protected by
	an SELinux policy. That is, the Serial Peripheral Interface (SPI) channel must
	be accessible only to the TEE, and there must be an explicit SELinux policy on
	all device files.
	<li>Fingerprint acquisition, enrollment and recognition must occur inside the TEE.
	<li>Only the encrypted form of the fingerprint data can be stored on the file
	system, even if the file system itself is encrypted.
	<li>Fingerprint templates must be signed with a private, device-specific key, for
	example with AES, with at least the absolute file-system path, group and finger
	ID such that template files are inoperable on another device or for anyone
	other than the user that enrolled them on the same device. For example, copying
	the fingerprint data from a different user on the same device, or from another
	device, must not work.
	<li>Implementations must either use the file system path provided by the
	<code>set_active_group()</code> function or provide a way to erase all user template data when the user
	is removed. It is strongly recommended that fingerprint template files
	be stored as encrypted in the path provided. If this is infeasible due to TEE
	storage requirements, then the implementer must add hooks to ensure removal of
	the data when the user is removed.
	</ol>

	<h2 id=major_functions_in_the_fingerprint_hal>Major functions in the Fingerprint HAL</h2>

	<p>Below are the major functions in the <code>/hardware/libhardware/include/hardware/fingerprint.h</code> file; see the detailed descriptions in that
	file.</p>

	<ul>
	<li><strong>enroll.</strong> Switches the HAL state machine to start the collection and storage of a
	fingerprint template. As soon as enrollment is complete, or after a timeout,
	the HAL state machine is returned to the idle state.
	<li><strong>pre_enroll.</strong> Generates a unique token to indicate the start of a fingerprint enrollment.
	Provides a token to the <code>enroll</code> function to ensure there was prior authentication, e.g. using a password. The
	token is wrapped and, for example, HMAC'd, once the device credential is
	confirmed, to prevent tampering. The token must be checked during enrollment to
	verify that the token is still valid.
	<li><strong>get_authenticator_id.</strong> Returns a token associated with the current fingerprint set.
	<li><strong>cancel.</strong> Cancels any pending enroll or authenticate operations. The HAL state machine
	is returned to the idle state.
	<li><strong>enumerate.</strong> Synchronous call for enumerating all known fingerprint templates.
	<li><strong>remove.</strong> Deletes a fingerprint template.
	<li><strong>set_active_group.</strong> Restricts a HAL operation to a set of fingerprints that belong to a specified
	group (identified by a group identifier, or GID).
	<li><strong>authenticate.</strong> Authenticates a fingerprint-related operation (identified by an operation ID).
	<li><strong>set_notify.</strong> Registers a user function that will get notifications from the HAL. If the HAL
	state machine is in a busy state, the function is blocked until the HAL leaves
	the busy state.
	</ul>