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<?xml version="1.0" encoding="utf-8"?>
<!-- Copyright (C) 2012 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
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distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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<metadata xmlns="http://schemas.android.com/service/camera/metadata/"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:schemaLocation="http://schemas.android.com/service/camera/metadata/ metadata_properties.xsd">
<tags>
<tag id="AWB">
Needed for auto white balance
</tag>
<tag id="BC">
Needed for backwards compatibility with old Java API
</tag>
<tag id="V1">
New features for first camera 2 release (API1)
</tag>
<tag id="ADV">
<!-- TODO: fill the tag description -->
</tag>
<tag id="DNG">
Needed for DNG file support
</tag>
<tag id="EXIF">
<!-- TODO: fill the tag description -->
</tag>
</tags>
<namespace name="android">
<section name="colorCorrection">
<controls>
<entry name="mode" type="byte" enum="true">
<enum>
<value>TRANSFORM_MATRIX
<notes>Use the android.colorCorrection.transform matrix
to do color conversion</notes>
</value>
<value>FAST
<notes>Must not slow down frame rate relative to raw
bayer output</notes>
</value>
<value>HIGH_QUALITY
<notes>Frame rate may be reduced by high
quality</notes>
</value>
</enum>
</entry>
<entry name="transform" type="float"
type_notes="3x3 float matrix in row-major order"
container="array">
<array>
<size>3</size>
<size>3</size>
</array>
<description>A transform matrix to chromatically adapt
pixels in the CIE XYZ (1931) color space from the scene
illuminant to the sRGB-standard
D65-illuminant</description>
<range>Output values are expected to be in the range
(0,1)</range>
<notes>Values outside (0,1) should be clamped. Need to
provide utilities to go from CCT (+hue?), or (x,y) white
point, (or AWB mode) to matrix; use linear Bradford
algorithm.</notes>
</entry>
</controls>
<dynamic>
<clone entry="android.colorCorrection.mode"
kind="controls"></clone>
</dynamic>
</section>
<section name="control">
<controls>
<entry name="aeAntibandingMode" type="byte" enum="true">
<enum>
<value>OFF</value>
<value>50HZ</value>
<value>60HZ</value>
<value>AUTO</value>
</enum>
<description>Enum for controlling
antibanding</description>
<range>
android.control.aeAvailableAntibandingModes</range>
</entry>
<entry name="aeExposureCompensation" type="int32">
<description>Adjustment to AE target image
brightness</description>
<units>count of positive/negative EV steps</units>
<notes>For example, if EV step is 0.333, '6' will mean an
exposure compensation of +2 EV; -3 will mean an exposure
compensation of -1</notes>
<tag id="BC" />
</entry>
<entry name="aeLock" type="byte" enum="true">
<enum>
<value>OFF
<notes>Autoexposure lock is disabled; the AE algorithm
is free to update its parameters.</notes></value>
<value>ON
<notes>Autoexposure lock is enabled; the AE algorithm
must not update the exposure and sensitivity parameters
while the lock is active</notes></value>
</enum>
<description>Whether AE is currently locked to its latest
calculated values</description>
<notes>Note that even when AE is locked, the flash may be
fired if the AE mode is ON_AUTO_FLASH / ON_ALWAYS_FLASH /
ON_AUTO_FLASH_REDEYE.</notes>
<tag id="BC" />
</entry>
<entry name="aeMode" type="byte" enum="true">
<enum>
<value>OFF
<notes>Autoexposure is disabled; sensor.exposureTime
and sensor.sensitivity are used</notes>
</value>
<value>ON
<notes>Autoexposure is active, no flash
control</notes>
</value>
<value>ON_AUTO_FLASH
<notes>if flash exists Autoexposure is active, auto
flash control; flash may be fired when precapture
trigger is activated, and for captures for which
captureIntent = STILL_CAPTURE</notes></value>
<value>ON_ALWAYS_FLASH
<notes>if flash exists Autoexposure is active, auto
flash control for precapture trigger and always flash
when captureIntent = STILL_CAPTURE</notes></value>
<value>ON_AUTO_FLASH_REDEYE
<notes>optional Automatic red eye reduction with flash.
If deemed necessary, red eye reduction sequence should
fire when precapture trigger is activated, and final
flash should fire when captureIntent =
STILL_CAPTURE</notes></value>
</enum>
<description>Whether AE is currently updating the sensor
exposure and sensitivity fields</description>
<range>android.control.aeAvailableModes</range>
<notes>Only effective if android.control.mode =
AUTO</notes>
<tag id="BC" />
</entry>
<entry name="aeRegions" type="int32" container="array">
<array>
<size>5</size>
<size>area_count</size>
</array>
<description>List of areas to use for
metering</description>
<notes>Each area is a rectangle plus weight: xmin, ymin,
xmax, ymax, weight. The coordinate system is based on the
active pixel array, with (0,0) being the top-left of the
active pixel array, and
(android.sensor.info.activeArraySize.width,
android.sensor.info.activeArraySize.height) being the
bottom-right point of the active pixel array. The weight
should be nonnegative. If all regions have 0 weight, then
no specific metering area needs to be used by the HAL. If
the metering region is outside the current
android.scaler.cropRegion, the HAL should ignore the
sections outside the region and output the used sections
in the frame metadata</notes>
<tag id="BC" />
</entry>
<entry name="aeTargetFpsRange" type="int32"
container="array">
<array>
<size>2</size>
</array>
<description>Range over which fps can be adjusted to
maintain exposure</description>
<range>android.control.aeAvailableTargetFpsRanges</range>
<notes>Only constrains AE algorithm, not manual control
of android.sensor.exposureTime</notes>
<tag id="BC" />
</entry>
<entry name="afMode" type="byte" enum="true">
<enum>
<value>OFF
<notes>The 3A routines do not control the lens;
android.lens.focusPosition is controlled by the
application</notes></value>
<value>AUTO
<notes>if lens is not fixed focus. Use
android.lens.minimumFocusDistance to determine if lens
is fixed focus In this mode, the lens does not move
unless the autofocus trigger action is called. When
that trigger is activated, AF must transition to
ACTIVE_SCAN, then to the outcome of the scan (FOCUSED
or NOT_FOCUSED). Triggering cancel AF resets the lens
position to default, and sets the AF state to
INACTIVE.</notes></value>
<value>MACRO
<notes>In this mode, the lens does not move unless the
autofocus trigger action is called. When that trigger
is activated, AF must transition to ACTIVE_SCAN, then
to the outcome of the scan (FOCUSED or NOT_FOCUSED).
Triggering cancel AF resets the lens position to
default, and sets the AF state to
INACTIVE.</notes></value>
<value>CONTINUOUS_VIDEO
<notes>In this mode, the AF algorithm modifies the lens
position continually to attempt to provide a
constantly-in-focus image stream. The focusing behavior
should be suitable for good quality video recording;
typically this means slower focus movement and no
overshoots. When the AF trigger is not involved, the AF
algorithm should start in INACTIVE state, and then
transition into PASSIVE_SCAN and PASSIVE_FOCUSED states
as appropriate. When the AF trigger is activated, the
algorithm should immediately transition into AF_FOCUSED
or AF_NOT_FOCUSED as appropriate, and lock the lens
position until a cancel AF trigger is received. Once
cancel is received, the algorithm should transition
back to INACTIVE and resume passive scan. Note that
this behavior is not identical to CONTINUOUS_PICTURE,
since an ongoing PASSIVE_SCAN must immediately be
canceled.</notes></value>
<value>CONTINUOUS_PICTURE
<notes>In this mode, the AF algorithm modifies the lens
position continually to attempt to provide a
constantly-in-focus image stream. The focusing behavior
should be suitable for still image capture; typically
this means focusing as fast as possible. When the AF
trigger is not involved, the AF algorithm should start
in INACTIVE state, and then transition into
PASSIVE_SCAN and PASSIVE_FOCUSED states as appropriate
as it attempts to maintain focus. When the AF trigger
is activated, the algorithm should finish its
PASSIVE_SCAN if active, and then transition into
AF_FOCUSED or AF_NOT_FOCUSED as appropriate, and lock
the lens position until a cancel AF trigger is
received. When the AF cancel trigger is activated, the
algorithm should transition back to INACTIVE and then
act as if it has just been started.</notes></value>
<value>EDOF
<notes>Extended depth of field (digital focus). AF
trigger is ignored, AF state should always be
INACTIVE.</notes></value>
</enum>
<description>Whether AF is currently enabled, and what
mode it is set to</description>
<tag id="BC" />
</entry>
<entry name="afRegions" type="int32" container="array">
<array>
<size>5</size>
<size>area_count</size>
</array>
<description>List of areas to use for focus
estimation</description>
<notes>Each area is a rectangle plus weight: xmin, ymin,
xmax, ymax, weight. The coordinate system is based on the
active pixel array, with (0,0) being the top-left of the
active pixel array, and
(android.sensor.info.activeArraySize.width,
android.sensor.info.activeArraySize.height) being the
bottom-right point of the active pixel array. The weight
should be nonnegative. If all regions have 0 weight, then
no specific focus area needs to be used by the HAL. If
the focusing region is outside the current
android.scaler.cropRegion, the HAL should ignore the
sections outside the region and output the used sections
in the frame metadata</notes>
<tag id="BC" />
</entry>
<entry name="awbLock" type="byte" enum="true">
<enum>
<value>OFF
<notes>Auto-whitebalance lock is disabled; the AWB
algorithm is free to update its parameters if in AUTO
mode.</notes></value>
<value>ON
<notes>Auto-whitebalance lock is enabled; the AWB
algorithm must not update the exposure and sensitivity
parameters while the lock is active</notes></value>
</enum>
<description>Whether AWB is currently locked to its
latest calculated values</description>
<notes>Note that AWB lock is only meaningful for AUTO
mode; in other modes, AWB is already fixed to a specific
setting</notes>
<tag id="BC" />
</entry>
<entry name="awbMode" type="byte" enum="true">
<enum>
<value>OFF</value>
<value>AUTO</value>
<value>INCANDESCENT</value>
<value>FLUORESCENT</value>
<value>WARM_FLUORESCENT</value>
<value>DAYLIGHT</value>
<value>CLOUDY_DAYLIGHT</value>
<value>TWILIGHT</value>
<value>SHADE</value>
</enum>
<description>Whether AWB is currently setting the color
transform fields, and what its illumination target
is</description>
<notes>[BC - AWB lock,AWB modes]</notes>
<tag id="BC" />
<tag id="AWB" />
</entry>
<entry name="awbRegions" type="int32" container="array">
<array>
<size>5</size>
<size>area_count</size>
</array>
<description>List of areas to use for illuminant
estimation</description>
<notes>Only used in AUTO mode. Each area is a rectangle
plus weight: xmin, ymin, xmax, ymax, weight. The
coordinate system is based on the active pixel array,
with (0,0) being the top-left of the active pixel array,
and (android.sensor.info.activeArraySize.width,
android.sensor.info.activeArraySize.height) being the
bottom-right point of the active pixel array. The weight
should be nonnegative. If all regions have 0 weight, then
no specific metering area needs to be used by the HAL. If
the metering region is outside the current
android.scaler.cropRegion, the HAL should ignore the
sections outside the region and output the used sections
in the frame metadata</notes>
<tag id="BC" />
</entry>
<entry name="captureIntent" type="byte" enum="true">
<enum>
<value>CUSTOM
<notes>This request doesn't fall into the other
categories. Default to preview-like
behavior.</notes></value>
<value>PREVIEW
<notes>This request is for a preview-like usecase. The
precapture trigger may be used to start off a metering
w/flash sequence</notes></value>
<value>STILL_CAPTURE
<notes>This request is for a still capture-type
usecase.</notes></value>
<value>VIDEO_RECORD
<notes>This request is for a video recording
usecase.</notes></value>
<value>VIDEO_SNAPSHOT
<notes>This request is for a video snapshot (still
image while recording video) usecase</notes></value>
<value>ZERO_SHUTTER_LAG
<notes>This request is for a ZSL usecase; the
application will stream full-resolution images and
reprocess one or several later for a final
capture</notes></value>
</enum>
<description>Information to 3A routines about the purpose
of this capture, to help decide optimal 3A
strategy</description>
<range>all must be supported</range>
<notes>Only used if android.control.mode != OFF.</notes>
<tag id="BC" />
</entry>
<entry name="effectMode" type="byte" enum="true">
<enum>
<value>OFF</value>
<value optional="true">MONO</value>
<value optional="true">NEGATIVE</value>
<value optional="true">SOLARIZE</value>
<value optional="true">SEPIA</value>
<value optional="true">POSTERIZE</value>
<value optional="true">WHITEBOARD</value>
<value optional="true">BLACKBOARD</value>
<value optional="true">AQUA</value>
</enum>
<description>Whether any special color effect is in use.
Only used if android.control.mode != OFF</description>
<range>android.control.availableEffects</range>
<tag id="BC" />
</entry>
<entry name="mode" type="byte" enum="true">
<enum>
<value>OFF
<notes>Full application control of pipeline. All 3A
routines are disabled, no other settings in
android.control.* have any effect</notes></value>
<value>AUTO
<notes>Use settings for each individual 3A routine.
Manual control of capture parameters is disabled. All
controls in android.control.* besides sceneMode take
effect</notes></value>
<value>USE_SCENE_MODE
<notes>Use specific scene mode. Enabling this disables
control.aeMode, control.awbMode and control.afMode
controls; the HAL must ignore those settings while
USE_SCENE_MODE is active (except for FACE_PRIORITY
scene mode). Other control entries are still active.
This setting can only be used if availableSceneModes !=
UNSUPPORTED</notes></value>
</enum>
<description>Overall mode of 3A control
routines</description>
<range>all must be supported</range>
<tag id="BC" />
</entry>
<entry name="sceneMode" type="byte" enum="true">
<enum>
<value id="0">UNSUPPORTED</value>
<value>FACE_PRIORITY
<notes>if face detection support exists Use face
detection data to drive 3A routines. If face detection
statistics are disabled, should still operate correctly
(but not return face detection statistics to the
framework). Unlike the other scene modes, aeMode,
awbMode, and afMode remain active when FACE_PRIORITY is
set. This is due to compatibility concerns with the old
camera API</notes></value>
<value optional="true">ACTION</value>
<value optional="true">PORTRAIT</value>
<value optional="true">LANDSCAPE</value>
<value optional="true">NIGHT</value>
<value optional="true">NIGHT_PORTRAIT</value>
<value optional="true">THEATRE</value>
<value optional="true">BEACH</value>
<value optional="true">SNOW</value>
<value optional="true">SUNSET</value>
<value optional="true">STEADYPHOTO</value>
<value optional="true">FIREWORKS</value>
<value optional="true">SPORTS</value>
<value optional="true">PARTY</value>
<value optional="true">CANDLELIGHT</value>
<value optional="true">BARCODE</value>
</enum>
<description>Which scene mode is active when
android.control.mode = SCENE_MODE</description>
<range>android.control.availableSceneModes</range>
<tag id="BC" />
</entry>
<entry name="videoStabilizationMode" type="byte" enum="true">
<enum>
<value>OFF</value>
<value>ON</value>
</enum>
<description>Whether video stabilization is
active</description>
<notes>If enabled, video stabilization can modify the
android.scaler.cropRegion to keep the video stream
stabilized</notes>
<tag id="BC" />
</entry>
</controls>
<static>
<entry name="aeAvailableAntibandingModes" type="byte"
type_notes="list of enums" container="array">
<array>
<size>n</size>
</array>
<description>Which set of antibanding modes are
supported</description>
</entry>
<entry name="aeAvailableModes" type="byte"
type_notes="list of enums" container="array">
<array>
<size>n</size>
</array>
<description>Which subset of AE modes is
supported</description>
<range>OFF, ON must be supported.
ON_AUTO_FLASH/ON_ALWAYS_FLASH must be supported if flash
unit is available</range>
</entry>
<entry name="aeAvailableTargetFpsRanges" type="int32"
type_notes="list of pairs of frame rates"
container="array">
<array>
<size>2</size>
<size>n</size>
</array>
<description>List of frame rate ranges supported by the
AE algorithm/hardware</description>
</entry>
<entry name="aeCompensationRange" type="int32"
container="array">
<array>
<size>2</size>
</array>
<description>Maximum and minimum exposure compensation
setting, in counts of
android.control.aeCompensationStepSize</description>
<range>At least (-2,2)/(exp compensation step
size)</range>
<tag id="BC" />
</entry>
<entry name="aeCompensationStep" type="rational">
<description>Smallest step by which exposure compensation
can be changed</description>
<range>&lt;= 1/2</range>
<tag id="BC" />
</entry>
<entry name="afAvailableModes" type="byte"
type_notes="List of enums" container="array">
<array>
<size>n</size>
</array>
<description>List of AF modes that can be
selected</description>
<range>OFF must be included. AUTO must be supported if
lens allows for changing focus</range>
<tag id="BC" />
</entry>
<entry name="availableEffects" type="byte"
type_notes="list of enums" container="array">
<array>
<size>n</size>
</array>
<description>what subset of the full color effect enum
list is supported</description>
<range>OFF must be listed</range>
<tag id="BC" />
</entry>
<entry name="availableSceneModes" type="byte"
type_notes="list of enums from android.control.sceneMode, plus UNSUPPORTED to indicate no scene modes are supported"
container="array">
<array>
<size>n</size>
</array>
<description>what subset of the scene mode enum list is
supported.</description>
<range>SCENE_MODE_FACE_PRIORITY must be supported if face
detection is supported</range>
<tag id="BC" />
</entry>
<entry name="availableVideoStabilizationModes" type="byte"
type_notes="List of enums." container="array">
<array>
<size>n</size>
</array>
<description>List of video stabilization modes that can
be supported</description>
<range>OFF must be included</range>
<tag id="BC" />
</entry>
<entry name="awbAvailableModes" type="byte">
<units>List of enums (android.control.awbMode)</units>
<range>OFF, AUTO must be included</range>
<tag id="BC" />
</entry>
<entry name="maxRegions" type="int32">
<description>For AE, AWB, and AF, how many individual
regions can be listed for metering?</description>
<range>&gt;= 1</range>
<tag id="BC" />
</entry>
<entry name="sceneModeOverrides" type="byte"
container="array">
<array>
<size>3</size>
<size>lengthavailablescenemodes</size>
</array>
<description>List of AE, AWB, and AF modes to use for
each available scene mode</description>
<range>For each listed scene mode, lists the aeMode,
awbMode, and afMode that the HAL wants to use for that
scene mode. For each entry, the order is {aeMode,
awbMode, afMode} in order of increasing index</range>
<notes>When a scene mode is enabled, the HAL is expected
to override aeMode, awbMode, and afMode with its
preferred settings for that scene mode. To simplify
communication with old camera API applications, the
service wants this override list in the static metadata.
The order of this list matches that of
availableSceneModes, with 3 entires for each scene mode.
The overrides listed for SCENE_MODE_FACE_PRIORITY are
ignored, since for that mode, the application-set aeMode,
awbMode, and afMode are used instead, like they are when
android.control.mode is AUTO. It is recommended that for
FACE_PRIORITY, the overrides should be set to 0. As an
example, if availableSceneModes is { FACE_PRIORITY,
ACTION, NIGHT }, then the service expects this field to
have 9 entries; for example { 0 , 0, 0, ON_AUTO_FLASH,
AUTO, CONTINUOUS_PICTURE, ON_AUTO_FLASH, INCANDESCENT,
AUTO }</notes>
<tag id="BC" />
</entry>
</static>
<dynamic>
<entry name="aePrecaptureId" type="int32">
<description>The ID sent with the latest
CAMERA2_TRIGGER_PRECAPTURE_METERING call</description>
<notes>Must be 0 if no
CAMERA2_TRIGGER_PRECAPTURE_METERING trigger received yet
by HAL. Always updated even if AE algorithm ignores the
trigger</notes>
</entry>
<clone entry="android.control.aeRegions" kind="controls">
</clone>
<entry name="aeState" type="byte" enum="true">
<enum>
<value>INACTIVE
<notes>AE is off</notes></value>
<value>SEARCHING
<notes>AE doesn't yet have a good set of control values
for the current scene</notes></value>
<value>CONVERGED
<notes>AE has a good set of control values for the
current scene</notes></value>
<value>LOCKED
<notes>AE has been locked (aeMode =
LOCKED)</notes></value>
<value>FLASH_REQUIRED
<notes>AE has a good set of control values, but flash
needs to be fired for good quality still
capture</notes></value>
<value>PRECAPTURE
<notes>AE has been asked to do a precapture sequence
(through the
trigger_action(CAMERA2_TRIGGER_PRECAPTURE_METERING)
call), and is currently executing it. Once PRECAPTURE
completes, AE will transition to CONVERGED or
FLASH_REQUIRED as appropriate</notes></value>
</enum>
<description>Current state of AE algorithm</description>
<notes>Whenever the AE algorithm state changes, a
MSG_AUTOEXPOSURE notification must be send if a
notification callback is registered.</notes>
</entry>
<clone entry="android.control.afMode" kind="controls">
</clone>
<clone entry="android.control.afRegions" kind="controls">
</clone>
<entry name="afState" type="byte" enum="true">
<enum>
<value>INACTIVE
<notes>AF off or has not yet tried to scan/been asked
to scan</notes></value>
<value>PASSIVE_SCAN
<notes>if CONTINUOUS_* modes are supported AF is
currently doing an AF scan initiated by a continuous
autofocus mode</notes></value>
<value>PASSIVE_FOCUSED
<notes>if CONTINUOUS_* modes are supported AF currently
believes it is in focus, but may restart scanning at
any time.</notes></value>
<value>ACTIVE_SCAN
<notes>if AUTO or MACRO modes are supported AF is doing
an AF scan because it was triggered by AF
trigger</notes></value>
<value>FOCUSED_LOCKED
<notes>if any AF mode besides OFF is supported AF
believes it is focused correctly and is
locked</notes></value>
<value>NOT_FOCUSED_LOCKED
<notes>if any AF mode besides OFF is supported AF has
failed to focus successfully and is
locked</notes></value>
</enum>
<description>Current state of AF algorithm</description>
<notes>Whenever the AF algorithm state changes, a
MSG_AUTOFOCUS notification must be send if a notification
callback is registered.</notes>
</entry>
<entry name="afTriggerId" type="int32">
<description>The ID sent with the latest
CAMERA2_TRIGGER_AUTOFOCUS call</description>
<notes>Must be 0 if no CAMERA2_TRIGGER_AUTOFOCUS trigger
received yet by HAL. Always updated even if AF algorithm
ignores the trigger</notes>
</entry>
<clone entry="android.control.awbMode" kind="controls">
</clone>
<clone entry="android.control.awbRegions" kind="controls">
</clone>
<entry name="awbState" type="byte" enum="true">
<enum>
<value>INACTIVE
<notes>AWB is not in auto mode</notes></value>
<value>SEARCHING
<notes>AWB doesn't yet have a good set of control
values for the current scene</notes></value>
<value>CONVERGED
<notes>AWB has a good set of control values for the
current scene</notes></value>
<value>LOCKED
<notes>AE has been locked (aeMode =
LOCKED)</notes></value>
</enum>
<description>Current state of AWB algorithm</description>
<notes>Whenever the AWB algorithm state changes, a
MSG_AUTOWHITEBALANCE notification must be send if a
notification callback is registered.</notes>
</entry>
<clone entry="android.control.mode" kind="controls">
</clone>
</dynamic>
</section>
<section name="demosaic">
<controls>
<entry name="mode" type="byte" enum="true">
<enum>
<value>FAST
<notes>Minimal or no slowdown of frame rate compared to
Bayer RAW output</notes></value>
<value>HIGH_QUALITY
<notes>High-quality may reduce output frame
rate</notes></value>
</enum>
<description>Controls the quality of the demosaicing
processing</description>
<tag id="V1" />
</entry>
</controls>
</section>
<section name="edge">
<controls>
<entry name="mode" type="byte" enum="true">
<enum>
<value>OFF
<notes>No edge enhancement is applied</notes></value>
<value>FAST
<notes>Must not slow down frame rate relative to raw
bayer output</notes></value>
<value>HIGH_QUALITY
<notes>Frame rate may be reduced by high
quality</notes></value>
</enum>
<description>Operation mode for edge
enhancement</description>
</entry>
<entry name="strength" type="byte">
<description>Control the amount of edge enhancement
applied to the images</description>
<units>1-10; 10 is maximum sharpening</units>
</entry>
</controls>
<dynamic>
<clone entry="android.edge.mode" kind="controls"></clone>
</dynamic>
</section>
<section name="flash">
<controls>
<entry name="firingPower" type="byte">
<description>Power for flash firing/torch</description>
<units>10 is max power; 0 is no flash. Linear</units>
<range>0 - 10</range>
<notes>Power for snapshot may use a different scale than
for torch mode. Only one entry for torch mode will be
used</notes>
<tag id="V1" />
</entry>
<entry name="firingTime" type="int64">
<description>Firing time of flash relative to start of
exposure</description>
<units>nanoseconds</units>
<range>0-(exposure time-flash duration)</range>
<notes>Clamped to (0, exposure time - flash
duration).</notes>
<tag id="V1" />
</entry>
<entry name="mode" type="byte" enum="true">
<enum>
<value>OFF
<notes>Do not fire the flash for this
capture</notes></value>
<value>SINGLE
<notes>if android.flash.available is true Fire flash
for this capture based on firingPower,
firingTime.</notes></value>
<value>TORCH
<notes>if android.flash.available is true Flash
continuously on, power set by
firingPower</notes></value>
</enum>
<description>Select flash operation mode</description>
<tag id="BC" />
</entry>
</controls>
<static>
<namespace name="info">
<entry name="available" type="byte">
<description>Whether this camera has a
flash</description>
<units>boolean (0 = false, otherwise true)</units>
<notes>If no flash, none of the flash controls do
anything. All other metadata should return 0</notes>
<tag id="BC" />
</entry>
<entry name="chargeDuration" type="int64">
<description>Time taken before flash can fire
again</description>
<units>nanoseconds</units>
<range>0-1e9</range>
<notes>1 second too long/too short for recharge? Should
this be power-dependent?</notes>
<tag id="V1" />
</entry>
</namespace>
<entry name="colorTemperature" type="byte">
<description>The x,y whitepoint of the
flash</description>
<units>pair of floats</units>
<range>0-1 for both</range>
<tag id="ADV" />
</entry>
<entry name="maxEnergy" type="byte">
<description>Max energy output of the flash for a full
power single flash</description>
<units>lumen-seconds</units>
<range>&gt;= 0</range>
<tag id="ADV" />
</entry>
</static>
<dynamic>
<clone entry="android.flash.firingPower" kind="controls">
</clone>
<clone entry="android.flash.firingTime" kind="controls">
</clone>
<clone entry="android.flash.mode" kind="controls"></clone>
<entry name="state" type="byte" enum="true">
<enum>
<value>UNAVAILABLE
<notes>No flash on camera</notes></value>
<value>CHARGING
<notes>if android.flash.available is true Flash is
charging and cannot be fired</notes></value>
<value>READY
<notes>if android.flash.available is true Flash is
ready to fire</notes></value>
<value>FIRED
<notes>if android.flash.available is true Flash fired
for this capture</notes></value>
</enum>
<description>Current state of the flash
unit</description>
</entry>
</dynamic>
</section>
<section name="geometric">
<controls>
<entry name="mode" type="byte" enum="true">
<enum>
<value>OFF
<notes>No geometric correction is
applied</notes></value>
<value>FAST
<notes>Must not slow down frame rate relative to raw
bayer output</notes></value>
<value>HIGH_QUALITY
<notes>Frame rate may be reduced by high
quality</notes></value>
</enum>
<description>Operating mode of geometric
correction</description>
</entry>
<entry name="strength" type="byte">
<description>Control the amount of shading correction
applied to the images</description>
<units>unitless: 1-10; 10 is full shading
compensation</units>
<tag id="ADV" />
</entry>
</controls>
</section>
<section name="hotPixel">
<controls>
<entry name="mode" type="byte" enum="true">
<enum>
<value>OFF
<notes>No hot pixel correction can be
applied</notes></value>
<value>FAST
<notes>Frame rate must not be reduced compared to raw
Bayer output</notes></value>
<value>HIGH_QUALITY
<notes>Frame rate may be reduced by high
quality</notes></value>
</enum>
<description>Set operational mode for hot pixel
correction</description>
<tag id="V1" />
</entry>
</controls>
<static>
<namespace name="info">
<entry name="map" type="int32"
type_notes="list of coordinates based on android.sensor.pixelArraySize"
container="array">
<array>
<size>2</size>
<size>n</size>
</array>
<description>Location of hot/defective pixels on
sensor</description>
<tag id="ADV" />
</entry>
</namespace>
</static>
<dynamic>
<clone entry="android.hotPixel.mode" kind="controls">
<tag id="V1" />
</clone>
</dynamic>
</section>
<section name="jpeg">
<controls>
<entry name="gpsCoordinates" type="double"
type_notes="latitude, longitude, altitude. First two in degrees, the third in meters"
container="array">
<array>
<size>3</size>
</array>
<description>GPS coordinates to include in output JPEG
EXIF</description>
<range>(-180 - 180], [-90,90], [-inf, inf]</range>
<tag id="BC" />
</entry>
<entry name="gpsProcessingMethod" type="byte">
<description>32 characters describing GPS algorithm to
include in EXIF</description>
<units>UTF-8 null-terminated string</units>
<tag id="BC" />
</entry>
<entry name="gpsTimestamp" type="int64">
<description>Time GPS fix was made to include in
EXIF</description>
<units>UTC in seconds since January 1, 1970</units>
<tag id="BC" />
</entry>
<entry name="orientation" type="int32">
<description>Orientation of JPEG image to
write</description>
<units>Degrees in multiples of 90</units>
<range>0, 90, 180, 270</range>
<tag id="BC" />
</entry>
<entry name="quality" type="byte">
<description>Compression quality of the final JPEG
image</description>
<range>1-100; larger is higher quality</range>
<notes>85-95 is typical usage range</notes>
<tag id="BC" />
</entry>
<entry name="thumbnailQuality" type="byte">
<description>Compression quality of JPEG
thumbnail</description>
<range>1-100; larger is higher quality</range>
<tag id="BC" />
</entry>
<entry name="thumbnailSize" type="int32" container="array">
<array>
<size>2</size>
</array>
<description>Resolution of embedded JPEG
thumbnail</description>
<range>from android.jpeg.availableThumbnailSizes</range>
<tag id="BC" />
</entry>
</controls>
<static>
<entry name="availableThumbnailSizes" type="int32"
type_notes="list of resolution pairs" container="array">
<array>
<size>2</size>
<size>n</size>
</array>
<description>Supported resolutions for the JPEG
thumbnail</description>
<range>Must include at least one valid resolution, plus
(0,0) for no thumbnail generation</range>
<tag id="BC" />
</entry>
<entry name="maxSize" type="int32">
<description>Maximum size in bytes for the compressed
JPEG buffer</description>
<range>Must be large enough to fit any JPEG produced by
the camera</range>
<notes>This is used for sizing the gralloc buffers for
JPEG</notes>
</entry>
</static>
<dynamic>
<clone entry="android.jpeg.gpsCoordinates" kind="controls">
</clone>
<clone entry="android.jpeg.gpsProcessingMethod"
kind="controls"></clone>
<clone entry="android.jpeg.gpsTimestamp" kind="controls">
</clone>
<clone entry="android.jpeg.orientation" kind="controls">
</clone>
<clone entry="android.jpeg.quality" kind="controls">
</clone>
<entry name="size" type="int32">
<description>The size of the compressed JPEG image, in
bytes</description>
<range>&gt;= 0</range>
<notes>If no JPEG output is produced for the request,
this must be 0. Otherwise, this describes the real size
of the compressed JPEG image placed in the output stream.
More specifically, if android.jpeg.maxSize = 1000000, and
a specific capture has android.jpeg.size = 500000, then
the output buffer from the JPEG stream will be 1000000
bytes, of which the first 500000 make up the real
data.</notes>
</entry>
<clone entry="android.jpeg.thumbnailQuality"
kind="controls"></clone>
<clone entry="android.jpeg.thumbnailSize" kind="controls">
</clone>
</dynamic>
</section>
<section name="lens">
<controls>
<entry name="aperture" type="float">
<description>Size of the lens aperture</description>
<units>f-number (f/NNN)</units>
<range>android.lens.info.availableApertures</range>
<notes>Will not be supported on most devices. Can only
pick from supported list</notes>
<tag id="V1" />
</entry>
<entry name="filterDensity" type="float">
<description>State of lens neutral density
filter(s)</description>
<units>number of stops of filtering</units>
<range>android.lens.info.availableFilterDensities</range>
<notes>Will not be supported on most devices. Can only
pick from supported list</notes>
<tag id="V1" />
</entry>
<entry name="focalLength" type="float">
<description>Lens optical zoom setting</description>
<units>focal length in mm</units>
<range>&gt; 0</range>
<notes>Will not be supported on most devices.</notes>
<tag id="V1" />
</entry>
<entry name="focusDistance" type="float">
<description>Distance to plane of sharpest focus,
measured from frontmost surface of the lens</description>
<units>diopters (1/m)</units>
<range>&gt;= 0</range>
<notes>0 = infinity focus. Used value should be clamped
to (0,minimum focus distance)</notes>
<tag id="BC" />
<tag id="V1" />
</entry>
<entry name="opticalStabilizationMode" type="byte" enum="true">
<enum>
<value>OFF</value>
<value optional="true">ON</value>
</enum>
<description>Whether optical image stabilization is
enabled.</description>
<range>android.lens.availableOpticalStabilization</range>
<notes>Will not be supported on most devices.</notes>
<tag id="V1" />
</entry>
</controls>
<static>
<namespace name="info">
<entry name="availableApertures" type="float"
container="array">
<array>
<size>n</size>
</array>
<description>List of supported aperture
values</description>
<range>one entry required, &gt; 0</range>
<notes>If variable aperture not available, only setting
should be for the fixed aperture</notes>
<tag id="V1" />
</entry>
<entry name="availableFilterDensities" type="float"
container="array">
<array>
<size>n</size>
</array>
<description>List of supported ND filter
values</description>
<range>one entry required, &gt;= 0</range>
<notes>If not available, only setting is 0. Otherwise,
lists the available exposure index values for dimming
(2 would mean the filter is set to reduce incoming
light by two stops)</notes>
<tag id="V1" />
</entry>
<entry name="availableFocalLengths" type="float"
type_notes="the list of available focal lengths"
container="array">
<array>
<size>n</size>
</array>
<description>If fitted with optical zoom, what focal
lengths are available. If not, the static focal
length</description>
<range>&gt; 0</range>
<notes>If optical zoom not supported, only one value
should be reported</notes>
<tag id="BC" />
<tag id="V1" />
</entry>
<entry name="availableOpticalStabilization" type="byte"
type_notes="list of enums" container="array">
<array>
<size>n</size>
</array>
<description>List of supported optical image
stabilization modes</description>
<tag id="V1" />
</entry>
<entry name="geometricCorrectionMap" type="float"
type_notes="2D array of destination coordinate pairs for uniform grid points in source image, per color channel. Size in the range of 2x3x40x30"
container="array">
<array>
<size>2</size>
<size>3</size>
<size>n</size>
<size>m</size>
</array>
<description>A low-resolution map for correction of
geometric distortions and chromatic aberrations, per
color channel</description>
<range>N, M &gt;= 2</range>
<notes>[DNG wants a function instead]. What's easiest
for implementers? With an array size (M, N), entry (i,
j) provides the destination for pixel (i/(M-1) * width,
j/(N-1) * height). Data is row-major, with each array
entry being ( (X, Y)_r, (X, Y)_g, (X, Y)_b ) )</notes>
<tag id="DNG" />
</entry>
<entry name="geometricCorrectionMapSize" type="int32"
type_notes="width and height of geometric correction map"
container="array">
<array>
<size>2</size>
</array>
<description>Dimensions of geometric correction
map</description>
<range>Both values &gt;= 2</range>
<tag id="V1" />
</entry>
<entry name="hyperfocalDistance" type="float">
<description>Hyperfocal distance for this lens; set to
0 if fixed focus</description>
<units>diopters</units>
<range>&gt;= 0</range>
<notes>The hyperfocal distance is used for the old
API's 'fixed' setting</notes>
<tag id="BC" />
</entry>
<entry name="minimumFocusDistance" type="float">
<description>Shortest distance from frontmost surface
of the lens that can be focused correctly</description>
<units>diopters</units>
<range>&gt;= 0</range>
<notes>If the lens is fixed-focus, this should be
0</notes>
<tag id="V1" />
</entry>
<entry name="shadingMap" type="float"
type_notes="2D array of float gain factors per channel to correct for lens falloff. Should be on the order of 3x40x30"
container="array">
<array>
<size>3</size>
<size>n</size>
<size>m</size>
</array>
<description>A low-resolution map of lens shading, per
color channel</description>
<range>Each gain factor is &gt;= 1</range>
<notes>Assume bilinear interpolation of map. The least
shaded section of the image should have a gain factor
of 1; all other sections should have gains above
1.</notes>
<tag id="DNG" />
</entry>
<entry name="shadingMapSize" type="int32"
type_notes="width and height of lens shading map"
container="array">
<array>
<size>2</size>
</array>
<description>Dimensions of lens shading
map</description>
<range>Both values &gt;= 1</range>
<tag id="V1" />
</entry>
</namespace>
<entry name="facing" type="byte" enum="true">
<enum>
<value>FRONT</value>
<value>BACK</value>
</enum>
<description>Direction the camera faces relative to
device screen</description>
</entry>
<entry name="opticalAxisAngle" type="float"
type_notes="degrees. First defines the angle of separation between the perpendicular to the screen and the camera optical axis. The second then defines the clockwise rotation of the optical axis from native device up."
container="array">
<array>
<size>2</size>
</array>
<description>Relative angle of camera optical axis to the
perpendicular axis from the display</description>
<range>[0-90) for first angle, [0-360) for second</range>
<notes>Examples: (0,0) means that the camera optical axis
is perpendicular to the display surface; (45,0) means
that the camera points 45 degrees up when device is held
upright; (45,90) means the camera points 45 degrees to
the right when the device is held upright. Use FACING
field to determine perpendicular outgoing
direction</notes>
<tag id="ADV" />
</entry>
<entry name="position" type="float" container="array">
<array>
<size>3, location in mm, in the sensor coordinate
system</size>
</array>
<description>Coordinates of camera optical axis on
device</description>
<tag id="V1" />
</entry>
</static>
<dynamic>
<clone entry="android.lens.aperture" kind="controls">
<tag id="V1" />
</clone>
<clone entry="android.lens.filterDensity" kind="controls">
<tag id="V1" />
</clone>
<clone entry="android.lens.focalLength" kind="controls">
<tag id="BC" />
</clone>
<clone entry="android.lens.focusDistance" kind="controls">
<notes>Should be zero for fixed-focus cameras</notes>
<tag id="BC" />
</clone>
<entry name="focusRange" type="float">
<description>The range of scene distances that are in
sharp focus (depth of field)</description>
<units>pair of focus distances in diopters: (near,
far)</units>
<range>&gt;=0</range>
<notes>If variable focus not supported, can still report
fixed depth of field range</notes>
<tag id="BC" />
</entry>
<clone entry="android.lens.opticalStabilizationMode"
kind="controls">
<tag id="V1" />
</clone>
<entry name="state" type="byte" enum="true">
<enum>
<value>STATIONARY</value>
</enum>
<description>Current lens status</description>
<tag id="V1" />
</entry>
</dynamic>
</section>
<section name="noiseReduction">
<controls>
<entry name="mode" type="byte" enum="true">
<enum>
<value>OFF
<notes>No noise reduction is applied</notes></value>
<value>FAST
<notes>Must not slow down frame rate relative to raw
bayer output</notes></value>
<value>HIGH_QUALITY
<notes>May slow down frame rate to provide highest
quality</notes></value>
</enum>
<description>Mode of operation for the noise reduction
algorithm</description>
<range>android.noiseReduction.availableModes</range>
<tag id="V1" />
</entry>
<entry name="strength" type="byte">
<description>Control the amount of noise reduction
applied to the images</description>
<units>1-10; 10 is max noise reduction</units>
<range>1 - 10</range>
</entry>
</controls>
<dynamic>
<clone entry="android.noiseReduction.mode" kind="controls">
</clone>
</dynamic>
</section>
<section name="quirks">
<static>
<entry name="meteringCropRegion" type="byte">
<description>If set to 1, the camera service does not
scale 'normalized' coordinates with respect to the crop
region. This applies to metering input (a{e,f,wb}Region
and output (face rectangles).</description>
<notes>Normalized coordinates refer to those in the
(-1000,1000) range mentioned in the
android.hardware.Camera API. HAL implementations should
instead always use and emit sensor array-relative
coordinates for all region data. Does not need to be
listed in static metadata. Support will be removed in
future versions of camera service.</notes>
</entry>
<entry name="triggerAfWithAuto" type="byte">
<description>If set to 1, then the camera service always
switches to FOCUS_MODE_AUTO before issuing a AF
trigger.</description>
<notes>HAL implementations should implement AF trigger
modes for AUTO, MACRO, CONTINUOUS_FOCUS, and
CONTINUOUS_PICTURE modes instead of using this flag. Does
not need to be listed in static metadata. Support will be
removed in future versions of camera service</notes>
</entry>
<entry name="useZslFormat" type="byte">
<description>If set to 1, the camera service uses
CAMERA2_PIXEL_FORMAT_ZSL instead of
HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED for the zero
shutter lag stream</description>
<notes>HAL implementations should use gralloc usage flags
to determine that a stream will be used for
zero-shutter-lag, instead of relying on an explicit
format setting. Does not need to be listed in static
metadata. Support will be removed in future versions of
camera service.</notes>
</entry>
</static>
</section>
<section name="request">
<controls>
<entry name="frameCount" type="int32">
<description>A frame counter set by the framework. Must
be maintained unchanged in output frame</description>
<units>incrementing integer</units>
<range>Any int</range>
</entry>
<entry name="id" type="int32">
<description>An application-specified ID for the current
request. Must be maintained unchanged in output
frame</description>
<units>arbitrary integer assigned by application</units>
<range>Any int</range>
<tag id="V1" />
</entry>
<entry name="inputStreams" type="byte">
<description>List which camera reprocess stream is used
for the source of reprocessing data.</description>
<units>List of camera reprocess stream IDs</units>
<range>Typically, only one entry allowed, must be a valid
reprocess stream ID. If android.jpeg.needsThumbnail is
set, then multiple reprocess streams may be included in a
single request; they must be different scaled versions of
the same image.</range>
<notes>Only meaningful when android.request.type ==
REPROCESS. Ignored otherwise</notes>
</entry>
<entry name="metadataMode" type="byte" enum="true">
<enum>
<value>NONE
<notes>No metadata should be produced on output, except
for application-bound buffer data. If no
application-bound streams exist, no frame should be
placed in the output frame queue. If such streams
exist, a frame should be placed on the output queue
with null metadata but with the necessary output buffer
information. Timestamp information should still be
included with any output stream buffers</notes></value>
<value>FULL
<notes>All metadata should be produced. Statistics will
only be produced if they are separately
enabled</notes></value>
</enum>
<description>How much metadata to produce on
output</description>
</entry>
<entry name="outputStreams" type="byte">
<description>Lists which camera output streams image data
from this capture must be sent to</description>
<units>List of camera stream IDs</units>
<range>List must only include streams that have been
created</range>
<notes>If no output streams are listed, then the image
data should simply be discarded. The image data must
still be captured for metadata and statistics production,
and the lens and flash must operate as requested.</notes>
</entry>
<entry name="type" type="byte" enum="true">
<enum>
<value>CAPTURE
<notes>Capture a new image from the imaging hardware,
and process it according to the
settings</notes></value>
<value>REPROCESS
<notes>Process previously captured data; the
android.request.inputStream parameter determines the
source reprocessing stream. TODO: Mark dynamic metadata
needed for reprocessing with [RP]</notes></value>
</enum>
<description>The type of the request; either CAPTURE or
REPROCESS</description>
</entry>
</controls>
<static>
<entry name="maxNumOutputStreams" type="int32"
container="array">
<array>
<size>3</size>
</array>
<description>How many output streams can be allocated at
the same time for each type of stream</description>
<units>The number of raw sensor streams; the number of
processed, uncompressed streams; and the number of
JPEG-compressed streams</units>
<range>&gt;=1 for Raw and JPEG-compressed stream. &gt;= 3
for processed, uncompressed streams</range>
<notes>Video snapshot with preview callbacks requires 3
processed streams (preview, record, app callbacks) and
one JPEG stream (snapshot)</notes>
<tag id="BC" />
</entry>
<entry name="maxNumReprocessStreams" type="int32"
container="array">
<array>
<size>1</size>
</array>
<description>How many reprocessing streams of any type
can be allocated at the same time</description>
<range>&gt;= 1</range>
</entry>
</static>
<dynamic>
<entry name="frameCount" type="int32">
<description>Number of frames captured since
open()</description>
<units>count of frames</units>
<range>&gt; 0</range>
<notes>Reset on release()</notes>
</entry>
<clone entry="android.request.id" kind="controls"></clone>
<clone entry="android.request.metadataMode"
kind="controls"></clone>
<clone entry="android.request.outputStreams"
kind="controls"></clone>
</dynamic>
</section>
<section name="scaler">
<controls>
<entry name="cropRegion" type="int32" container="array">
<array>
<size>3</size>
</array>
<description>Top-left corner and width of the output
region to select from the active pixel
array</description>
<units>(x,y) of top-left corner, width of region in
pixels; (0,0) is top-left corner of
android.sensor.activePixelArray</units>
<notes>[BC - zoom] Height determined based on width and
aspect ratio of output stream. Negative values for corner
are allowed for raw output if full pixel array is larger
than active pixel array. Width may be rounded to nearest
larger supportable width, especially for raw output,
where only a few fixed scales may be possible</notes>
<tag id="BC" />
</entry>
</controls>
<static>
<entry name="availableFormats" type="int32" enum="true"
type_notes="values from HAL_PIXEL_FORMAT_* in /system/core/include/system/graphics.h"
container="array">
<array>
<size>n</size>
</array>
<enum>
<value id="0x20">RAW_SENSOR
</value>
<value id="0x32315659">YV12
<notes>YCrCb 4:2:0 Planar</notes>
</value>
<value id="0x11">YCbCr_420_SP
<notes>NV21</notes>
</value>
<value id="0x21">JPEG
<notes>BLOB</notes>
</value>
</enum>
<description>List of app-visible formats</description>
<tag id="BC" />
</entry>
<entry name="availableJpegMinDurations" type="int64"
container="array">
<array>
<size>n</size>
</array>
<description>The minimum frame duration that is supported
for each resolution in availableJpegSizes. Should
correspond to the frame duration when only that JPEG
stream is active, with all processing set to
FAST</description>
<notes>When multiple streams are configured, the minimum
frame duration will be &gt;= max(individual stream min
durations)</notes>
<tag id="BC" />
</entry>
<entry name="availableJpegSizes" type="int32"
container="array">
<array>
<size>n</size>
<size>2</size>
</array>
<description>The resolutions available for output from
the JPEG block. Listed as width x height</description>
<range>Must include: - sensor maximum resolution Should
include: - half/quarter max resolution</range>
<tag id="BC" />
</entry>
<entry name="availableMaxDigitalZoom" type="int32">
<description>TODO: have a real description here</description>
</entry>
<entry name="availableProcessedMinDurations" type="int64"
container="array">
<array>
<size>n</size>
</array>
<description>The minimum frame duration that is supported
for each resolution in availableProcessedSizes. Should
correspond to the frame duration when only that processed
stream is active, with all processing set to
FAST</description>
<notes>When multiple streams are configured, the minimum
frame duration will be &gt;= max(individual stream min
durations)</notes>
<tag id="BC" />
</entry>
<entry name="availableProcessedSizes" type="int32"
container="array">
<array>
<size>n</size>
<size>2</size>
</array>
<description>The resolutions available for use with
processed output streams, such as YV12, NV12, and
platform opaque YUV/RGB streams to the GPU or video
encoders. Listed as width, height</description>
<range>Must include: - sensor maximum resolution -
standard QCIF, 240p, 480p, 720p, and 1080p
resolutions</range>
<tag id="BC" />
</entry>
<entry name="availableRawMinDurations" type="int64"
container="array">
<array>
<size>n</size>
</array>
<description>The minimum frame duration that is supported
for each raw resolution in availableRawSizes. Should
correspond to the frame duration when only the raw stream
is active.</description>
<notes>When multiple streams are configured, the minimum
frame duration will be &gt;= max(individual stream min
durations)</notes>
<tag id="BC" />
</entry>
<entry name="availableRawSizes" type="int32"
container="array">
<array>
<size>n</size>
<size>2</size>
</array>
<description>The resolutions available for use with raw
sensor output streams, listed as width,
height</description>
<range>Must include: - sensor maximum resolution</range>
</entry>
<entry name="maxDigitalZoom" type="float">
<description>The maximum ratio between active area width
and crop region width, or between active area height and
crop region height, if the crop region height is larger
than width</description>
<range>&gt;=1</range>
<tag id="BC" />
</entry>
</static>
<dynamic>
<clone entry="android.scaler.cropRegion" kind="controls">
</clone>
</dynamic>
</section>
<section name="sensor">
<controls>
<entry name="exposureTime" type="int64">
<description>Duration each pixel is exposed to
light</description>
<units>nanoseconds</units>
<range>android.sensor.info.exposureTimeRange</range>
<notes>1/10000 - 30 sec range. No bulb mode</notes>
<tag id="V1" />
</entry>
<entry name="frameDuration" type="int64">
<description>Duration from start of frame exposure to
start of next frame exposure</description>
<units>nanoseconds</units>
<range>see android.sensor.info.maxFrameDuration,
android.scaler.info.availableMinFrameDurations</range>
<notes>Exposure time has priority, so duration is set to
max(duration, exposure time + overhead)</notes>
<tag id="V1" />
<tag id="BC" />
</entry>
<entry name="sensitivity" type="int32">
<description>Gain applied to image data. Must be
implemented through analog gain only if set to values
below 'maximum analog sensitivity'.</description>
<units>ISO arithmetic units</units>
<range>android.sensor.info.sensitivityRange</range>
<notes>ISO 12232:2006 REI method</notes>
<tag id="V1" />
</entry>
</controls>
<static>
<namespace name="info">
<entry name="activeArraySize" type="int32"
type_notes="Four ints defining the active pixel rectangle"
container="array">
<array>
<size>4</size>
</array>
<description>Area of raw data which corresponds to only
active pixels; smaller or equal to
pixelArraySize.</description>
<units>xmin, ymin, width, height. Top left of full
pixel array is (0,0)</units>
<tag id="DNG" />
</entry>
<entry name="availableSensitivities" type="int32"
type_notes="List of supported sensitivity values"
container="array">
<array>
<size>n</size>
</array>
<description>Range of valid sensitivities</description>
<range>Must at least include 100, 200, 400, 800,
1600</range>
<tag id="BC" />
<tag id="V1" />
</entry>
<entry name="colorFilterArrangement" type="byte" enum="true">
<enum>
<value>RGGB</value>
<value>GRBG</value>
<value>GBRG</value>
<value>BGGR</value>
<value>RGB
<notes>Sensor is not Bayer; output has 3 16-bit
values for each pixel, instead of just 1 16-bit value
per pixel.</notes></value>
</enum>
<description>Arrangement of color filters on sensor;
represents the colors in the top-left 2x2 section of
the sensor, in reading order</description>
<tag id="DNG" />
</entry>
<entry name="exposureTimeRange" type="int64"
type_notes="nanoseconds" container="array">
<array>
<size>2</size>
</array>
<description>Range of valid exposure
times</description>
<range>Min &lt;= 100e3 (100 us), Max &gt;= 30e9 (30
sec)</range>
<tag id="V1" />
</entry>
<entry name="maxFrameDuration" type="int64">
<description>Maximum frame duration (minimum frame
rate)</description>
<units>nanoseconds</units>
<range>&gt;= 30e9</range>
<notes>Minimum duration is a function of resolution,
processing settings. See
android.scaler.info.availableMinFrameDurations</notes>
<tag id="BC" />
<tag id="V1" />
</entry>
<entry name="physicalSize" type="float"
type_notes="width x height in millimeters"
container="array">
<array>
<size>2</size>
</array>
<description>The physical dimensions of the full pixel
array</description>
<notes>Needed for FOV calculation for old API</notes>
<tag id="V1" />
<tag id="BC" />
</entry>
<entry name="pixelArraySize" type="int32"
container="array">
<array>
<size>2</size>
</array>
<description>Dimensions of full pixel array, possibly
including black calibration pixels</description>
<notes>Maximum output resolution for raw format must
match this in
android.scaler.info.availableSizesPerFormat</notes>
<tag id="DNG" />
<tag id="BC" />
</entry>
<entry name="whiteLevel" type="int32">
<description>Maximum raw value output by
sensor</description>
<range>&gt; 1024 (10-bit output)</range>
<notes>Defines sensor bit depth (10-14 bits is
expected)</notes>
<tag id="DNG" />
</entry>
</namespace>
<entry name="baseGainFactor" type="rational">
<description>Gain factor from electrons to raw units when
ISO=100</description>
<tag id="V1" />
</entry>
<entry name="blackLevelPattern" type="int32"
type_notes="2x2 raw count block" container="array">
<array>
<size>4</size>
</array>
<description>A fixed black level offset for each of the
Bayer mosaic channels</description>
<range>&gt;= 0 each</range>
<notes>As per DNG BlackLevelRepeatDim / BlackLevel
tags</notes>
<tag id="DNG" />
</entry>
<entry name="calibrationTransform1" type="rational"
type_notes="3x3 matrix in row-major-order"
container="array">
<array>
<size>9</size>
</array>
<description>Per-device calibration on top of color space
transform 1</description>
<tag id="DNG" />
</entry>
<entry name="calibrationTransform2" type="rational"
type_notes="3x3 matrix in row-major-order"
container="array">
<array>
<size>9</size>
</array>
<description>Per-device calibration on top of color space
transform 2</description>
<tag id="DNG" />
</entry>
<entry name="colorTransform1" type="rational"
type_notes="3x3 matrix in row-major-order"
container="array">
<array>
<size>9</size>
</array>
<description>Linear mapping from XYZ (D50) color space to
reference linear sensor color, for first reference
illuminant</description>
<notes>Use as follows XYZ = inv(transform) * clip( (raw -
black level(raw) ) / ( white level - max black level) ).
At least in the simple case</notes>
<tag id="DNG" />
</entry>
<entry name="colorTransform2" type="rational"
type_notes="3x3 matrix in row-major-order"
container="array">
<array>
<size>9</size>
</array>
<description>Linear mapping from XYZ (D50) color space to
reference linear sensor color, for second reference
illuminant</description>
<tag id="DNG" />
</entry>
<entry name="forwardMatrix1" type="rational"
type_notes="3x3 matrix in row-major-order"
container="array">
<array>
<size>9</size>
</array>
<description>Used by DNG for better WB
adaptation</description>
<tag id="DNG" />
</entry>
<entry name="forwardMatrix2" type="rational"
type_notes="3x3 matrix in row-major-order"
container="array">
<array>
<size>9</size>
</array>
<description>Used by DNG for better WB
adaptation</description>
<tag id="DNG" />
</entry>
<entry name="maxAnalogSensitivity" type="int32">
<description>Maximum sensitivity that is implemented
purely through analog gain</description>
<notes>For android.sensor.sensitivity values less than or
equal to this, all applied gain must be analog. For
values above this, it can be a mix of analog and
digital</notes>
<tag id="V1" />
</entry>
<entry name="noiseModelCoefficients" type="float"
type_notes="float constants A, B for the noise variance model"
container="array">
<array>
<size>2</size>
</array>
<description>Estimation of sensor noise
characteristics</description>
<units>var(raw pixel value) = electrons * (baseGainFactor
* iso/100)^2 + A * (baseGainFactor * iso/100)^2 +
B</units>
<notes>A represents sensor read noise before analog
amplification; B represents noise from A/D conversion and
other circuits after amplification. Both noise sources
are assumed to be gaussian, independent, and not to vary
across the sensor</notes>
<tag id="V1" />
</entry>
<entry name="orientation" type="int32">
<description>Clockwise angle through which the output
image needs to be rotated to be upright on the device
screen in its native orientation. Also defines the
direction of rolling shutter readout, which is from top
to bottom in the sensor's coordinate system</description>
<units>degrees clockwise rotation, only multiples of
90</units>
<range>0,90,180,270</range>
<tag id="BC" />
</entry>
<entry name="referenceIlluminant1" type="byte" enum="true">
<enum>
<value id="1">DAYLIGHT</value>
<value id="2">FLUORESCENT</value>
<value id="3">TUNGSTEN
<notes>Incandescent light</notes></value>
<value id="4">FLASH</value>
<value id="9">FINE_WEATHER</value>
<value id="10">CLOUDY_WEATHER</value>
<value id="11">SHADE</value>
<value id="12">DAYLIGHT_FLUORESCENT
<notes>D 5700 - 7100K</notes></value>
<value id="13">DAY_WHITE_FLUORESCENT
<notes>N 4600 - 5400K</notes></value>
<value id="14">COOL_WHITE_FLUORESCENT
<notes>W 3900 - 4500K</notes></value>
<value id="15">WHITE_FLUORESCENT
<notes>WW 3200 - 3700K</notes></value>
<value id="17">STANDARD_A</value>
<value id="18">STANDARD_B</value>
<value id="19">STANDARD_C</value>
<value id="20">D55</value>
<value id="21">D65</value>
<value id="22">D75</value>
<value id="23">D50</value>
<value id="24">ISO_STUDIO_TUNGSTEN</value>
</enum>
<description>Light source used to define transform
1</description>
<notes>[EXIF LightSource tag] Must all these be
supported? Need CCT for each!</notes>
<tag id="DNG" />
<tag id="EXIF" />
</entry>
<entry name="referenceIlluminant2" type="byte">
<description>Light source used to define transform
2</description>
<units>Same as illuminant 1</units>
</entry>
</static>
<dynamic>
<clone entry="android.sensor.exposureTime" kind="controls">
</clone>
<clone entry="android.sensor.frameDuration"
kind="controls"></clone>
<clone entry="android.sensor.sensitivity" kind="controls">
</clone>
<entry name="timestamp" type="int64">
<description>Time at start of exposure of first
row</description>
<units>nanoseconds</units>
<range>&gt; 0</range>
<notes>Monotonic, should be synced to other timestamps in
system</notes>
<tag id="BC" />
</entry>
</dynamic>
</section>
<section name="shading">
<controls>
<entry name="mode" type="byte" enum="true">
<enum>
<value>OFF
<notes>No shading correction is applied</notes></value>
<value>FAST
<notes>Must not slow down frame rate relative to raw
bayer output</notes></value>
<value>HIGH_QUALITY
<notes>Frame rate may be reduced by high
quality</notes></value>
</enum>
<description>Quality of lens shading correction applied
to the image data</description>
</entry>
<entry name="strength" type="byte">
<description>Control the amount of shading correction
applied to the images</description>
<units>unitless: 1-10; 10 is full shading
compensation</units>
<tag id="ADV" />
</entry>
</controls>
<dynamic>
<clone entry="android.shading.mode" kind="controls">
</clone>
</dynamic>
</section>
<section name="statistics">
<controls>
<entry name="faceDetectMode" type="byte" enum="true">
<enum>
<value>OFF</value>
<value>SIMPLE
<notes>Optional Return rectangle and confidence
only</notes></value>
<value>FULL
<notes>Optional Return all face
metadata</notes></value>
</enum>
<description>State of the face detector
unit</description>
<range>
android.statistics.availableFaceDetectModes</range>
<tag id="BC" />
</entry>
<entry name="histogramMode" type="byte" enum="true">
<enum>
<value>OFF</value>
<value>ON</value>
</enum>
<description>Operating mode for histogram
generation</description>
<tag id="V1" />
</entry>
<entry name="sharpnessMapMode" type="byte" enum="true">
<enum>
<value>OFF</value>
<value>ON</value>
</enum>
<description>Operating mode for sharpness map
generation</description>
<tag id="V1" />
</entry>
</controls>
<static>
<namespace name="info">
<entry name="availableFaceDetectModes" type="byte"
type_notes="List of enums" container="array">
<array>
<size>n</size>
</array>
<description>Which face detection modes are available,
if any</description>
<range>OFF</range>
</entry>
<entry name="histogramBucketCount" type="int32">
<description>Number of histogram buckets
supported</description>
<range>&gt;= 64</range>
</entry>
<entry name="maxFaceCount" type="int32">
<description>If face detection is supported, how many
faces can be detected at once</description>
<range>&gt;= 4 if availableFaceDetectionModes lists
modes besides OFF, otherwise 0</range>
</entry>
<entry name="maxHistogramCount" type="int32">
<description>Maximum value possible for a histogram
bucket</description>
</entry>
<entry name="maxSharpnessMapValue" type="int32">
<description>Maximum value possible for a sharpness map
region.</description>
</entry>
<entry name="sharpnessMapSize" type="int32"
type_notes="width x height" container="array">
<array>
<size>2</size>
</array>
<description>Dimensions of the sharpness
map</description>
<range>Must be at least 32 x 32</range>
</entry>
</namespace>
</static>
<dynamic>
<clone entry="android.statistics.faceDetectMode"
kind="controls"></clone>
<entry name="faceIds" type="int32" container="array">
<array>
<size>n</size>
</array>
<description>List of unique IDs for detected
faces</description>
<notes>Only available if faceDetectMode == FULL</notes>
<tag id="BC" />
</entry>
<entry name="faceLandmarks" type="int32"
type_notes="(leftEyeX, leftEyeY, rightEyeX, rightEyeY, mouthX, mouthY)"
container="array">
<array>
<size>n</size>
<size>6</size>
</array>
<description>List of landmarks for detected
faces</description>
<notes>Only available if faceDetectMode == FULL</notes>
<tag id="BC" />
</entry>
<entry name="faceRectangles" type="int32"
type_notes="(xmin, ymin, xmax, ymax). (0,0) is top-left of active pixel area"
container="array">
<array>
<size>n</size>
<size>4</size>
</array>
<description>List of the bounding rectangles for detected
faces</description>
<notes>Only available if faceDetectMode != OFF</notes>
<tag id="BC" />
</entry>
<entry name="faceScores" type="byte" container="array">
<array>
<size>n</size>
</array>
<description>List of the face confidence scores for
detected faces</description>
<range>0-100</range>
<notes>Only available if faceDetectMode != OFF</notes>
<tag id="BC" />
</entry>
<entry name="histogram" type="int32"
type_notes="count of pixels for each color channel that fall into each histogram bucket, scaled to be between 0 and maxHistogramCount"
container="array">
<array>
<size>n</size>
<size>3</size>
</array>
<description>A 3-channel histogram based on the raw
sensor data</description>
<notes>The k'th bucket (0-based) covers the input range
(with w = android.sensor.info.whiteLevel) of [ k * w/N,
(k + 1) * w / N ). If only a monochrome sharpness map is
supported, all channels should have the same data</notes>
<tag id="V1" />
</entry>
<clone entry="android.statistics.histogramMode"
kind="controls"></clone>
<entry name="sharpnessMap" type="int32"
type_notes="estimated sharpness for each region of the input image. Normalized to be between 0 and maxSharpnessMapValue. Higher values mean sharper (better focused)"
container="array">
<array>
<size>n</size>
<size>m</size>
<size>3</size>
</array>
<description>A 3-channel sharpness map, based on the raw
sensor data</description>
<notes>If only a monochrome sharpness map is supported,
all channels should have the same data</notes>
<tag id="V1" />
</entry>
<clone entry="android.statistics.sharpnessMapMode"
kind="controls"></clone>
</dynamic>
</section>
<section name="tonemap">
<controls>
<entry name="curveBlue" type="float">
<description>Table mapping blue input values to output
values</description>
<units>same as android.tonemap.curveRed</units>
<range>same as android.tonemap.curveRed</range>
</entry>
<entry name="curveGreen" type="float">
<description>Table mapping green input values to output
values</description>
<units>same as android.tonemap.curveRed</units>
<range>same as android.tonemap.curveRed</range>
</entry>
<entry name="curveRed" type="float"
type_notes="A 1D array of pairs of floats. mapping a 0-1 input range to a 0-1 output range."
container="array">
<array>
<size>n</size>
<size>2</size>
</array>
<description>Table mapping red input values to output
values</description>
<range>0-1 on input and output coordinates. Max entry
count speciied by android.tonemap.maxCurvePoints</range>
<notes>.The input range must be monotonically increasing
with N, and values between entries should be linearly
interpolated. For example, if the array is: [0.0, 0.0,
0.3, 0.5, 1.0, 1.0], then the input-&gt;output mapping
for a few sample points would be: 0 -&gt; 0, 0.15 -&gt;
0.25, 0.3 -&gt; 0.5, 0.5 -&gt; 0.64</notes>
<tag id="DNG" />
</entry>
<entry name="mode" type="byte" enum="true">
<enum>
<value>CONTRAST_CURVE
<notes>Use the tone mapping curve specified in
android.tonemap.curve</notes></value>
<value>FAST
<notes>Must not slow down frame rate relative to raw
bayer output</notes></value>
<value>HIGH_QUALITY
<notes>Frame rate may be reduced by high
quality</notes></value>
</enum>
</entry>
</controls>
<static>
<entry name="maxCurvePoints" type="int32">
<description>Maximum number of supported points in the
tonemap curve</description>
<range>&gt;= 128</range>
</entry>
</static>
<dynamic>
<clone entry="android.tonemap.curveBlue" kind="controls">
</clone>
<clone entry="android.tonemap.curveGreen" kind="controls">
</clone>
<clone entry="android.tonemap.curveRed" kind="controls">
</clone>
<clone entry="android.tonemap.mode" kind="controls">
</clone>
</dynamic>
</section>
</namespace>
</metadata>