diff options
author | Jacopo Mondi <jacopo@jmondi.org> | 2019-05-10 17:12:45 +0200 |
---|---|---|
committer | Jacopo Mondi <jacopo@jmondi.org> | 2019-08-12 10:34:13 +0200 |
commit | 206a22a6e927d6d78d0c34a0f6267be4e19396b7 (patch) | |
tree | ede6bdcffa891e31910fe5d0a3b29309763596d7 | |
parent | 3c658acf820bd634557c34c1d0e9f558e1b5405d (diff) |
include: android: Add Android headers from Cros
Copy the Android Camera3 HAL headers from the ChromiumOS build system
and define a new inclusion directive in the meson build system for them.
The header files have been copied from:
https://chromium.googlesource.com/chromiumos/platform2
at revision 9e65ddd2c496e712f005ada9715decd2ff8e4a03
and provide:
1) Android CameraHAL3 HAL headers in include/android/hardware/
2) The Android system headers in include/android/system/
3) The Android camera metadata headers in include/android/metadata/
The original path in the Cros platform2/ repository is, respectively:
camera/android/header_files/include/hardware
camera/android/header_files/include/system
camera/android/libcamera_metadata/include/
Signed-off-by: Jacopo Mondi <jacopo@jmondi.org>
Reviewed-by: Laurent Pinchart <laurent.pinchart@ideasonboard.com>
17 files changed, 8925 insertions, 0 deletions
diff --git a/include/android/hardware/libhardware/include/hardware/camera3.h b/include/android/hardware/libhardware/include/hardware/camera3.h new file mode 100644 index 00000000..49664dc3 --- /dev/null +++ b/include/android/hardware/libhardware/include/hardware/camera3.h @@ -0,0 +1,3093 @@ +/* + * Copyright (C) 2013 The Android Open Source Project + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +#ifndef ANDROID_INCLUDE_CAMERA3_H +#define ANDROID_INCLUDE_CAMERA3_H + +#include <system/camera_metadata.h> +#include "camera_common.h" + +/** + * Camera device HAL 3.3 [ CAMERA_DEVICE_API_VERSION_3_3 ] + * + * This is the current recommended version of the camera device HAL. + * + * Supports the android.hardware.Camera API, and as of v3.2, the + * android.hardware.camera2 API in LIMITED or FULL modes. + * + * Camera devices that support this version of the HAL must return + * CAMERA_DEVICE_API_VERSION_3_3 in camera_device_t.common.version and in + * camera_info_t.device_version (from camera_module_t.get_camera_info). + * + * CAMERA_DEVICE_API_VERSION_3_3: + * Camera modules that may contain version 3.3 devices must implement at + * least version 2.2 of the camera module interface (as defined by + * camera_module_t.common.module_api_version). + * + * CAMERA_DEVICE_API_VERSION_3_2: + * Camera modules that may contain version 3.2 devices must implement at + * least version 2.2 of the camera module interface (as defined by + * camera_module_t.common.module_api_version). + * + * <= CAMERA_DEVICE_API_VERSION_3_1: + * Camera modules that may contain version 3.1 (or 3.0) devices must + * implement at least version 2.0 of the camera module interface + * (as defined by camera_module_t.common.module_api_version). + * + * See camera_common.h for more versioning details. + * + * Documentation index: + * S1. Version history + * S2. Startup and operation sequencing + * S3. Operational modes + * S4. 3A modes and state machines + * S5. Cropping + * S6. Error management + * S7. Key Performance Indicator (KPI) glossary + * S8. Sample Use Cases + * S9. Notes on Controls and Metadata + * S10. Reprocessing flow and controls + */ + +/** + * S1. Version history: + * + * 1.0: Initial Android camera HAL (Android 4.0) [camera.h]: + * + * - Converted from C++ CameraHardwareInterface abstraction layer. + * + * - Supports android.hardware.Camera API. + * + * 2.0: Initial release of expanded-capability HAL (Android 4.2) [camera2.h]: + * + * - Sufficient for implementing existing android.hardware.Camera API. + * + * - Allows for ZSL queue in camera service layer + * + * - Not tested for any new features such manual capture control, Bayer RAW + * capture, reprocessing of RAW data. + * + * 3.0: First revision of expanded-capability HAL: + * + * - Major version change since the ABI is completely different. No change to + * the required hardware capabilities or operational model from 2.0. + * + * - Reworked input request and stream queue interfaces: Framework calls into + * HAL with next request and stream buffers already dequeued. Sync framework + * support is included, necessary for efficient implementations. + * + * - Moved triggers into requests, most notifications into results. + * + * - Consolidated all callbacks into framework into one structure, and all + * setup methods into a single initialize() call. + * + * - Made stream configuration into a single call to simplify stream + * management. Bidirectional streams replace STREAM_FROM_STREAM construct. + * + * - Limited mode semantics for older/limited hardware devices. + * + * 3.1: Minor revision of expanded-capability HAL: + * + * - configure_streams passes consumer usage flags to the HAL. + * + * - flush call to drop all in-flight requests/buffers as fast as possible. + * + * 3.2: Minor revision of expanded-capability HAL: + * + * - Deprecates get_metadata_vendor_tag_ops. Please use get_vendor_tag_ops + * in camera_common.h instead. + * + * - register_stream_buffers deprecated. All gralloc buffers provided + * by framework to HAL in process_capture_request may be new at any time. + * + * - add partial result support. process_capture_result may be called + * multiple times with a subset of the available result before the full + * result is available. + * + * - add manual template to camera3_request_template. The applications may + * use this template to control the capture settings directly. + * + * - Rework the bidirectional and input stream specifications. + * + * - change the input buffer return path. The buffer is returned in + * process_capture_result instead of process_capture_request. + * + * 3.3: Minor revision of expanded-capability HAL: + * + * - OPAQUE and YUV reprocessing API updates. + * + * - Basic support for depth output buffers. + * + * - Addition of data_space field to camera3_stream_t. + * + * - Addition of rotation field to camera3_stream_t. + * + * - Addition of camera3 stream configuration operation mode to camera3_stream_configuration_t + * + */ + +/** + * S2. Startup and general expected operation sequence: + * + * 1. Framework calls camera_module_t->common.open(), which returns a + * hardware_device_t structure. + * + * 2. Framework inspects the hardware_device_t->version field, and instantiates + * the appropriate handler for that version of the camera hardware device. In + * case the version is CAMERA_DEVICE_API_VERSION_3_0, the device is cast to + * a camera3_device_t. + * + * 3. Framework calls camera3_device_t->ops->initialize() with the framework + * callback function pointers. This will only be called this one time after + * open(), before any other functions in the ops structure are called. + * + * 4. The framework calls camera3_device_t->ops->configure_streams() with a list + * of input/output streams to the HAL device. + * + * 5. <= CAMERA_DEVICE_API_VERSION_3_1: + * + * The framework allocates gralloc buffers and calls + * camera3_device_t->ops->register_stream_buffers() for at least one of the + * output streams listed in configure_streams. The same stream is registered + * only once. + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * camera3_device_t->ops->register_stream_buffers() is not called and must + * be NULL. + * + * 6. The framework requests default settings for some number of use cases with + * calls to camera3_device_t->ops->construct_default_request_settings(). This + * may occur any time after step 3. + * + * 7. The framework constructs and sends the first capture request to the HAL, + * with settings based on one of the sets of default settings, and with at + * least one output stream, which has been registered earlier by the + * framework. This is sent to the HAL with + * camera3_device_t->ops->process_capture_request(). The HAL must block the + * return of this call until it is ready for the next request to be sent. + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * The buffer_handle_t provided in the camera3_stream_buffer_t array + * in the camera3_capture_request_t may be new and never-before-seen + * by the HAL on any given new request. + * + * 8. The framework continues to submit requests, and call + * construct_default_request_settings to get default settings buffers for + * other use cases. + * + * <= CAMERA_DEVICE_API_VERSION_3_1: + * + * The framework may call register_stream_buffers() at this time for + * not-yet-registered streams. + * + * 9. When the capture of a request begins (sensor starts exposing for the + * capture) or processing a reprocess request begins, the HAL + * calls camera3_callback_ops_t->notify() with the SHUTTER event, including + * the frame number and the timestamp for start of exposure. For a reprocess + * request, the timestamp must be the start of exposure of the input image + * which can be looked up with android.sensor.timestamp from + * camera3_capture_request_t.settings when process_capture_request() is + * called. + * + * <= CAMERA_DEVICE_API_VERSION_3_1: + * + * This notify call must be made before the first call to + * process_capture_result() for that frame number. + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * The camera3_callback_ops_t->notify() call with the SHUTTER event should + * be made as early as possible since the framework will be unable to + * deliver gralloc buffers to the application layer (for that frame) until + * it has a valid timestamp for the start of exposure (or the input image's + * start of exposure for a reprocess request). + * + * Both partial metadata results and the gralloc buffers may be sent to the + * framework at any time before or after the SHUTTER event. + * + * 10. After some pipeline delay, the HAL begins to return completed captures to + * the framework with camera3_callback_ops_t->process_capture_result(). These + * are returned in the same order as the requests were submitted. Multiple + * requests can be in flight at once, depending on the pipeline depth of the + * camera HAL device. + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * Once a buffer is returned by process_capture_result as part of the + * camera3_stream_buffer_t array, and the fence specified by release_fence + * has been signaled (this is a no-op for -1 fences), the ownership of that + * buffer is considered to be transferred back to the framework. After that, + * the HAL must no longer retain that particular buffer, and the + * framework may clean up the memory for it immediately. + * + * process_capture_result may be called multiple times for a single frame, + * each time with a new disjoint piece of metadata and/or set of gralloc + * buffers. The framework will accumulate these partial metadata results + * into one result. + * + * In particular, it is legal for a process_capture_result to be called + * simultaneously for both a frame N and a frame N+1 as long as the + * above rule holds for gralloc buffers (both input and output). + * + * 11. After some time, the framework may stop submitting new requests, wait for + * the existing captures to complete (all buffers filled, all results + * returned), and then call configure_streams() again. This resets the camera + * hardware and pipeline for a new set of input/output streams. Some streams + * may be reused from the previous configuration; if these streams' buffers + * had already been registered with the HAL, they will not be registered + * again. The framework then continues from step 7, if at least one + * registered output stream remains (otherwise, step 5 is required first). + * + * 12. Alternatively, the framework may call camera3_device_t->common->close() + * to end the camera session. This may be called at any time when no other + * calls from the framework are active, although the call may block until all + * in-flight captures have completed (all results returned, all buffers + * filled). After the close call returns, no more calls to the + * camera3_callback_ops_t functions are allowed from the HAL. Once the + * close() call is underway, the framework may not call any other HAL device + * functions. + * + * 13. In case of an error or other asynchronous event, the HAL must call + * camera3_callback_ops_t->notify() with the appropriate error/event + * message. After returning from a fatal device-wide error notification, the + * HAL should act as if close() had been called on it. However, the HAL must + * either cancel or complete all outstanding captures before calling + * notify(), so that once notify() is called with a fatal error, the + * framework will not receive further callbacks from the device. Methods + * besides close() should return -ENODEV or NULL after the notify() method + * returns from a fatal error message. + */ + +/** + * S3. Operational modes: + * + * The camera 3 HAL device can implement one of two possible operational modes; + * limited and full. Full support is expected from new higher-end + * devices. Limited mode has hardware requirements roughly in line with those + * for a camera HAL device v1 implementation, and is expected from older or + * inexpensive devices. Full is a strict superset of limited, and they share the + * same essential operational flow, as documented above. + * + * The HAL must indicate its level of support with the + * android.info.supportedHardwareLevel static metadata entry, with 0 indicating + * limited mode, and 1 indicating full mode support. + * + * Roughly speaking, limited-mode devices do not allow for application control + * of capture settings (3A control only), high-rate capture of high-resolution + * images, raw sensor readout, or support for YUV output streams above maximum + * recording resolution (JPEG only for large images). + * + * ** Details of limited mode behavior: + * + * - Limited-mode devices do not need to implement accurate synchronization + * between capture request settings and the actual image data + * captured. Instead, changes to settings may take effect some time in the + * future, and possibly not for the same output frame for each settings + * entry. Rapid changes in settings may result in some settings never being + * used for a capture. However, captures that include high-resolution output + * buffers ( > 1080p ) have to use the settings as specified (but see below + * for processing rate). + * + * - Limited-mode devices do not need to support most of the + * settings/result/static info metadata. Specifically, only the following settings + * are expected to be consumed or produced by a limited-mode HAL device: + * + * android.control.aeAntibandingMode (controls and dynamic) + * android.control.aeExposureCompensation (controls and dynamic) + * android.control.aeLock (controls and dynamic) + * android.control.aeMode (controls and dynamic) + * android.control.aeRegions (controls and dynamic) + * android.control.aeTargetFpsRange (controls and dynamic) + * android.control.aePrecaptureTrigger (controls and dynamic) + * android.control.afMode (controls and dynamic) + * android.control.afRegions (controls and dynamic) + * android.control.awbLock (controls and dynamic) + * android.control.awbMode (controls and dynamic) + * android.control.awbRegions (controls and dynamic) + * android.control.captureIntent (controls and dynamic) + * android.control.effectMode (controls and dynamic) + * android.control.mode (controls and dynamic) + * android.control.sceneMode (controls and dynamic) + * android.control.videoStabilizationMode (controls and dynamic) + * android.control.aeAvailableAntibandingModes (static) + * android.control.aeAvailableModes (static) + * android.control.aeAvailableTargetFpsRanges (static) + * android.control.aeCompensationRange (static) + * android.control.aeCompensationStep (static) + * android.control.afAvailableModes (static) + * android.control.availableEffects (static) + * android.control.availableSceneModes (static) + * android.control.availableVideoStabilizationModes (static) + * android.control.awbAvailableModes (static) + * android.control.maxRegions (static) + * android.control.sceneModeOverrides (static) + * android.control.aeState (dynamic) + * android.control.afState (dynamic) + * android.control.awbState (dynamic) + * + * android.flash.mode (controls and dynamic) + * android.flash.info.available (static) + * + * android.info.supportedHardwareLevel (static) + * + * android.jpeg.gpsCoordinates (controls and dynamic) + * android.jpeg.gpsProcessingMethod (controls and dynamic) + * android.jpeg.gpsTimestamp (controls and dynamic) + * android.jpeg.orientation (controls and dynamic) + * android.jpeg.quality (controls and dynamic) + * android.jpeg.thumbnailQuality (controls and dynamic) + * android.jpeg.thumbnailSize (controls and dynamic) + * android.jpeg.availableThumbnailSizes (static) + * android.jpeg.maxSize (static) + * + * android.lens.info.minimumFocusDistance (static) + * + * android.request.id (controls and dynamic) + * + * android.scaler.cropRegion (controls and dynamic) + * android.scaler.availableStreamConfigurations (static) + * android.scaler.availableMinFrameDurations (static) + * android.scaler.availableStallDurations (static) + * android.scaler.availableMaxDigitalZoom (static) + * android.scaler.maxDigitalZoom (static) + * android.scaler.croppingType (static) + * + * android.sensor.orientation (static) + * android.sensor.timestamp (dynamic) + * + * android.statistics.faceDetectMode (controls and dynamic) + * android.statistics.info.availableFaceDetectModes (static) + * android.statistics.faceIds (dynamic) + * android.statistics.faceLandmarks (dynamic) + * android.statistics.faceRectangles (dynamic) + * android.statistics.faceScores (dynamic) + * + * android.sync.frameNumber (dynamic) + * android.sync.maxLatency (static) + * + * - Captures in limited mode that include high-resolution (> 1080p) output + * buffers may block in process_capture_request() until all the output buffers + * have been filled. A full-mode HAL device must process sequences of + * high-resolution requests at the rate indicated in the static metadata for + * that pixel format. The HAL must still call process_capture_result() to + * provide the output; the framework must simply be prepared for + * process_capture_request() to block until after process_capture_result() for + * that request completes for high-resolution captures for limited-mode + * devices. + * + * - Full-mode devices must support below additional capabilities: + * - 30fps at maximum resolution is preferred, more than 20fps is required. + * - Per frame control (android.sync.maxLatency == PER_FRAME_CONTROL). + * - Sensor manual control metadata. See MANUAL_SENSOR defined in + * android.request.availableCapabilities. + * - Post-processing manual control metadata. See MANUAL_POST_PROCESSING defined + * in android.request.availableCapabilities. + * + */ + +/** + * S4. 3A modes and state machines: + * + * While the actual 3A algorithms are up to the HAL implementation, a high-level + * state machine description is defined by the HAL interface, to allow the HAL + * device and the framework to communicate about the current state of 3A, and to + * trigger 3A events. + * + * When the device is opened, all the individual 3A states must be + * STATE_INACTIVE. Stream configuration does not reset 3A. For example, locked + * focus must be maintained across the configure() call. + * + * Triggering a 3A action involves simply setting the relevant trigger entry in + * the settings for the next request to indicate start of trigger. For example, + * the trigger for starting an autofocus scan is setting the entry + * ANDROID_CONTROL_AF_TRIGGER to ANDROID_CONTROL_AF_TRIGGER_START for one + * request, and cancelling an autofocus scan is triggered by setting + * ANDROID_CONTROL_AF_TRIGGER to ANDROID_CONTRL_AF_TRIGGER_CANCEL. Otherwise, + * the entry will not exist, or be set to ANDROID_CONTROL_AF_TRIGGER_IDLE. Each + * request with a trigger entry set to a non-IDLE value will be treated as an + * independent triggering event. + * + * At the top level, 3A is controlled by the ANDROID_CONTROL_MODE setting, which + * selects between no 3A (ANDROID_CONTROL_MODE_OFF), normal AUTO mode + * (ANDROID_CONTROL_MODE_AUTO), and using the scene mode setting + * (ANDROID_CONTROL_USE_SCENE_MODE). + * + * - In OFF mode, each of the individual AE/AF/AWB modes are effectively OFF, + * and none of the capture controls may be overridden by the 3A routines. + * + * - In AUTO mode, Auto-focus, auto-exposure, and auto-whitebalance all run + * their own independent algorithms, and have their own mode, state, and + * trigger metadata entries, as listed in the next section. + * + * - In USE_SCENE_MODE, the value of the ANDROID_CONTROL_SCENE_MODE entry must + * be used to determine the behavior of 3A routines. In SCENE_MODEs other than + * FACE_PRIORITY, the HAL must override the values of + * ANDROId_CONTROL_AE/AWB/AF_MODE to be the mode it prefers for the selected + * SCENE_MODE. For example, the HAL may prefer SCENE_MODE_NIGHT to use + * CONTINUOUS_FOCUS AF mode. Any user selection of AE/AWB/AF_MODE when scene + * must be ignored for these scene modes. + * + * - For SCENE_MODE_FACE_PRIORITY, the AE/AWB/AF_MODE controls work as in + * ANDROID_CONTROL_MODE_AUTO, but the 3A routines must bias toward metering + * and focusing on any detected faces in the scene. + * + * S4.1. Auto-focus settings and result entries: + * + * Main metadata entries: + * + * ANDROID_CONTROL_AF_MODE: Control for selecting the current autofocus + * mode. Set by the framework in the request settings. + * + * AF_MODE_OFF: AF is disabled; the framework/app directly controls lens + * position. + * + * AF_MODE_AUTO: Single-sweep autofocus. No lens movement unless AF is + * triggered. + * + * AF_MODE_MACRO: Single-sweep up-close autofocus. No lens movement unless + * AF is triggered. + * + * AF_MODE_CONTINUOUS_VIDEO: Smooth continuous focusing, for recording + * video. Triggering immediately locks focus in current + * position. Canceling resumes cotinuous focusing. + * + * AF_MODE_CONTINUOUS_PICTURE: Fast continuous focusing, for + * zero-shutter-lag still capture. Triggering locks focus once currently + * active sweep concludes. Canceling resumes continuous focusing. + * + * AF_MODE_EDOF: Advanced extended depth of field focusing. There is no + * autofocus scan, so triggering one or canceling one has no effect. + * Images are focused automatically by the HAL. + * + * ANDROID_CONTROL_AF_STATE: Dynamic metadata describing the current AF + * algorithm state, reported by the HAL in the result metadata. + * + * AF_STATE_INACTIVE: No focusing has been done, or algorithm was + * reset. Lens is not moving. Always the state for MODE_OFF or MODE_EDOF. + * When the device is opened, it must start in this state. + * + * AF_STATE_PASSIVE_SCAN: A continuous focus algorithm is currently scanning + * for good focus. The lens is moving. + * + * AF_STATE_PASSIVE_FOCUSED: A continuous focus algorithm believes it is + * well focused. The lens is not moving. The HAL may spontaneously leave + * this state. + * + * AF_STATE_PASSIVE_UNFOCUSED: A continuous focus algorithm believes it is + * not well focused. The lens is not moving. The HAL may spontaneously + * leave this state. + * + * AF_STATE_ACTIVE_SCAN: A scan triggered by the user is underway. + * + * AF_STATE_FOCUSED_LOCKED: The AF algorithm believes it is focused. The + * lens is not moving. + * + * AF_STATE_NOT_FOCUSED_LOCKED: The AF algorithm has been unable to + * focus. The lens is not moving. + * + * ANDROID_CONTROL_AF_TRIGGER: Control for starting an autofocus scan, the + * meaning of which is mode- and state- dependent. Set by the framework in + * the request settings. + * + * AF_TRIGGER_IDLE: No current trigger. + * + * AF_TRIGGER_START: Trigger start of AF scan. Effect is mode and state + * dependent. + * + * AF_TRIGGER_CANCEL: Cancel current AF scan if any, and reset algorithm to + * default. + * + * Additional metadata entries: + * + * ANDROID_CONTROL_AF_REGIONS: Control for selecting the regions of the FOV + * that should be used to determine good focus. This applies to all AF + * modes that scan for focus. Set by the framework in the request + * settings. + * + * S4.2. Auto-exposure settings and result entries: + * + * Main metadata entries: + * + * ANDROID_CONTROL_AE_MODE: Control for selecting the current auto-exposure + * mode. Set by the framework in the request settings. + * + * AE_MODE_OFF: Autoexposure is disabled; the user controls exposure, gain, + * frame duration, and flash. + * + * AE_MODE_ON: Standard autoexposure, with flash control disabled. User may + * set flash to fire or to torch mode. + * + * AE_MODE_ON_AUTO_FLASH: Standard autoexposure, with flash on at HAL's + * discretion for precapture and still capture. User control of flash + * disabled. + * + * AE_MODE_ON_ALWAYS_FLASH: Standard autoexposure, with flash always fired + * for capture, and at HAL's discretion for precapture.. User control of + * flash disabled. + * + * AE_MODE_ON_AUTO_FLASH_REDEYE: Standard autoexposure, with flash on at + * HAL's discretion for precapture and still capture. Use a flash burst + * at end of precapture sequence to reduce redeye in the final + * picture. User control of flash disabled. + * + * ANDROID_CONTROL_AE_STATE: Dynamic metadata describing the current AE + * algorithm state, reported by the HAL in the result metadata. + * + * AE_STATE_INACTIVE: Initial AE state after mode switch. When the device is + * opened, it must start in this state. + * + * AE_STATE_SEARCHING: AE is not converged to a good value, and is adjusting + * exposure parameters. + * + * AE_STATE_CONVERGED: AE has found good exposure values for the current + * scene, and the exposure parameters are not changing. HAL may + * spontaneously leave this state to search for better solution. + * + * AE_STATE_LOCKED: AE has been locked with the AE_LOCK control. Exposure + * values are not changing. + * + * AE_STATE_FLASH_REQUIRED: The HAL has converged exposure, but believes + * flash is required for a sufficiently bright picture. Used for + * determining if a zero-shutter-lag frame can be used. + * + * AE_STATE_PRECAPTURE: The HAL is in the middle of a precapture + * sequence. Depending on AE mode, this mode may involve firing the + * flash for metering, or a burst of flash pulses for redeye reduction. + * + * ANDROID_CONTROL_AE_PRECAPTURE_TRIGGER: Control for starting a metering + * sequence before capturing a high-quality image. Set by the framework in + * the request settings. + * + * PRECAPTURE_TRIGGER_IDLE: No current trigger. + * + * PRECAPTURE_TRIGGER_START: Start a precapture sequence. The HAL should + * use the subsequent requests to measure good exposure/white balance + * for an upcoming high-resolution capture. + * + * Additional metadata entries: + * + * ANDROID_CONTROL_AE_LOCK: Control for locking AE controls to their current + * values + * + * ANDROID_CONTROL_AE_EXPOSURE_COMPENSATION: Control for adjusting AE + * algorithm target brightness point. + * + * ANDROID_CONTROL_AE_TARGET_FPS_RANGE: Control for selecting the target frame + * rate range for the AE algorithm. The AE routine cannot change the frame + * rate to be outside these bounds. + * + * ANDROID_CONTROL_AE_REGIONS: Control for selecting the regions of the FOV + * that should be used to determine good exposure levels. This applies to + * all AE modes besides OFF. + * + * S4.3. Auto-whitebalance settings and result entries: + * + * Main metadata entries: + * + * ANDROID_CONTROL_AWB_MODE: Control for selecting the current white-balance + * mode. + * + * AWB_MODE_OFF: Auto-whitebalance is disabled. User controls color matrix. + * + * AWB_MODE_AUTO: Automatic white balance is enabled; 3A controls color + * transform, possibly using more complex transforms than a simple + * matrix. + * + * AWB_MODE_INCANDESCENT: Fixed white balance settings good for indoor + * incandescent (tungsten) lighting, roughly 2700K. + * + * AWB_MODE_FLUORESCENT: Fixed white balance settings good for fluorescent + * lighting, roughly 5000K. + * + * AWB_MODE_WARM_FLUORESCENT: Fixed white balance settings good for + * fluorescent lighting, roughly 3000K. + * + * AWB_MODE_DAYLIGHT: Fixed white balance settings good for daylight, + * roughly 5500K. + * + * AWB_MODE_CLOUDY_DAYLIGHT: Fixed white balance settings good for clouded + * daylight, roughly 6500K. + * + * AWB_MODE_TWILIGHT: Fixed white balance settings good for + * near-sunset/sunrise, roughly 15000K. + * + * AWB_MODE_SHADE: Fixed white balance settings good for areas indirectly + * lit by the sun, roughly 7500K. + * + * ANDROID_CONTROL_AWB_STATE: Dynamic metadata describing the current AWB + * algorithm state, reported by the HAL in the result metadata. + * + * AWB_STATE_INACTIVE: Initial AWB state after mode switch. When the device + * is opened, it must start in this state. + * + * AWB_STATE_SEARCHING: AWB is not converged to a good value, and is + * changing color adjustment parameters. + * + * AWB_STATE_CONVERGED: AWB has found good color adjustment values for the + * current scene, and the parameters are not changing. HAL may + * spontaneously leave this state to search for better solution. + * + * AWB_STATE_LOCKED: AWB has been locked with the AWB_LOCK control. Color + * adjustment values are not changing. + * + * Additional metadata entries: + * + * ANDROID_CONTROL_AWB_LOCK: Control for locking AWB color adjustments to + * their current values. + * + * ANDROID_CONTROL_AWB_REGIONS: Control for selecting the regions of the FOV + * that should be used to determine good color balance. This applies only + * to auto-WB mode. + * + * S4.4. General state machine transition notes + * + * Switching between AF, AE, or AWB modes always resets the algorithm's state + * to INACTIVE. Similarly, switching between CONTROL_MODE or + * CONTROL_SCENE_MODE if CONTROL_MODE == USE_SCENE_MODE resets all the + * algorithm states to INACTIVE. + * + * The tables below are per-mode. + * + * S4.5. AF state machines + * + * when enabling AF or changing AF mode + *| state | trans. cause | new state | notes | + *+--------------------+---------------+--------------------+------------------+ + *| Any | AF mode change| INACTIVE | | + *+--------------------+---------------+--------------------+------------------+ + * + * mode = AF_MODE_OFF or AF_MODE_EDOF + *| state | trans. cause | new state | notes | + *+--------------------+---------------+--------------------+------------------+ + *| INACTIVE | | INACTIVE | Never changes | + *+--------------------+---------------+--------------------+------------------+ + * + * mode = AF_MODE_AUTO or AF_MODE_MACRO + *| state | trans. cause | new state | notes | + *+--------------------+---------------+--------------------+------------------+ + *| INACTIVE | AF_TRIGGER | ACTIVE_SCAN | Start AF sweep | + *| | | | Lens now moving | + *+--------------------+---------------+--------------------+------------------+ + *| ACTIVE_SCAN | AF sweep done | FOCUSED_LOCKED | If AF successful | + *| | | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| ACTIVE_SCAN | AF sweep done | NOT_FOCUSED_LOCKED | If AF successful | + *| | | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| ACTIVE_SCAN | AF_CANCEL | INACTIVE | Cancel/reset AF | + *| | | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| FOCUSED_LOCKED | AF_CANCEL | INACTIVE | Cancel/reset AF | + *+--------------------+---------------+--------------------+------------------+ + *| FOCUSED_LOCKED | AF_TRIGGER | ACTIVE_SCAN | Start new sweep | + *| | | | Lens now moving | + *+--------------------+---------------+--------------------+------------------+ + *| NOT_FOCUSED_LOCKED | AF_CANCEL | INACTIVE | Cancel/reset AF | + *+--------------------+---------------+--------------------+------------------+ + *| NOT_FOCUSED_LOCKED | AF_TRIGGER | ACTIVE_SCAN | Start new sweep | + *| | | | Lens now moving | + *+--------------------+---------------+--------------------+------------------+ + *| All states | mode change | INACTIVE | | + *+--------------------+---------------+--------------------+------------------+ + * + * mode = AF_MODE_CONTINUOUS_VIDEO + *| state | trans. cause | new state | notes | + *+--------------------+---------------+--------------------+------------------+ + *| INACTIVE | HAL initiates | PASSIVE_SCAN | Start AF scan | + *| | new scan | | Lens now moving | + *+--------------------+---------------+--------------------+------------------+ + *| INACTIVE | AF_TRIGGER | NOT_FOCUSED_LOCKED | AF state query | + *| | | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_SCAN | HAL completes | PASSIVE_FOCUSED | End AF scan | + *| | current scan | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_SCAN | HAL fails | PASSIVE_UNFOCUSED | End AF scan | + *| | current scan | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_SCAN | AF_TRIGGER | FOCUSED_LOCKED | Immediate trans. | + *| | | | if focus is good | + *| | | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_SCAN | AF_TRIGGER | NOT_FOCUSED_LOCKED | Immediate trans. | + *| | | | if focus is bad | + *| | | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_SCAN | AF_CANCEL | INACTIVE | Reset lens | + *| | | | position | + *| | | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_FOCUSED | HAL initiates | PASSIVE_SCAN | Start AF scan | + *| | new scan | | Lens now moving | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_UNFOCUSED | HAL initiates | PASSIVE_SCAN | Start AF scan | + *| | new scan | | Lens now moving | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_FOCUSED | AF_TRIGGER | FOCUSED_LOCKED | Immediate trans. | + *| | | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_UNFOCUSED | AF_TRIGGER | NOT_FOCUSED_LOCKED | Immediate trans. | + *| | | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| FOCUSED_LOCKED | AF_TRIGGER | FOCUSED_LOCKED | No effect | + *+--------------------+---------------+--------------------+------------------+ + *| FOCUSED_LOCKED | AF_CANCEL | INACTIVE | Restart AF scan | + *+--------------------+---------------+--------------------+------------------+ + *| NOT_FOCUSED_LOCKED | AF_TRIGGER | NOT_FOCUSED_LOCKED | No effect | + *+--------------------+---------------+--------------------+------------------+ + *| NOT_FOCUSED_LOCKED | AF_CANCEL | INACTIVE | Restart AF scan | + *+--------------------+---------------+--------------------+------------------+ + * + * mode = AF_MODE_CONTINUOUS_PICTURE + *| state | trans. cause | new state | notes | + *+--------------------+---------------+--------------------+------------------+ + *| INACTIVE | HAL initiates | PASSIVE_SCAN | Start AF scan | + *| | new scan | | Lens now moving | + *+--------------------+---------------+--------------------+------------------+ + *| INACTIVE | AF_TRIGGER | NOT_FOCUSED_LOCKED | AF state query | + *| | | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_SCAN | HAL completes | PASSIVE_FOCUSED | End AF scan | + *| | current scan | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_SCAN | HAL fails | PASSIVE_UNFOCUSED | End AF scan | + *| | current scan | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_SCAN | AF_TRIGGER | FOCUSED_LOCKED | Eventual trans. | + *| | | | once focus good | + *| | | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_SCAN | AF_TRIGGER | NOT_FOCUSED_LOCKED | Eventual trans. | + *| | | | if cannot focus | + *| | | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_SCAN | AF_CANCEL | INACTIVE | Reset lens | + *| | | | position | + *| | | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_FOCUSED | HAL initiates | PASSIVE_SCAN | Start AF scan | + *| | new scan | | Lens now moving | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_UNFOCUSED | HAL initiates | PASSIVE_SCAN | Start AF scan | + *| | new scan | | Lens now moving | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_FOCUSED | AF_TRIGGER | FOCUSED_LOCKED | Immediate trans. | + *| | | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| PASSIVE_UNFOCUSED | AF_TRIGGER | NOT_FOCUSED_LOCKED | Immediate trans. | + *| | | | Lens now locked | + *+--------------------+---------------+--------------------+------------------+ + *| FOCUSED_LOCKED | AF_TRIGGER | FOCUSED_LOCKED | No effect | + *+--------------------+---------------+--------------------+------------------+ + *| FOCUSED_LOCKED | AF_CANCEL | INACTIVE | Restart AF scan | + *+--------------------+---------------+--------------------+------------------+ + *| NOT_FOCUSED_LOCKED | AF_TRIGGER | NOT_FOCUSED_LOCKED | No effect | + *+--------------------+---------------+--------------------+------------------+ + *| NOT_FOCUSED_LOCKED | AF_CANCEL | INACTIVE | Restart AF scan | + *+--------------------+---------------+--------------------+------------------+ + * + * S4.6. AE and AWB state machines + * + * The AE and AWB state machines are mostly identical. AE has additional + * FLASH_REQUIRED and PRECAPTURE states. So rows below that refer to those two + * states should be ignored for the AWB state machine. + * + * when enabling AE/AWB or changing AE/AWB mode + *| state | trans. cause | new state | notes | + *+--------------------+---------------+--------------------+------------------+ + *| Any | mode change | INACTIVE | | + *+--------------------+---------------+--------------------+------------------+ + * + * mode = AE_MODE_OFF / AWB mode not AUTO + *| state | trans. cause | new state | notes | + *+--------------------+---------------+--------------------+------------------+ + *| INACTIVE | | INACTIVE | AE/AWB disabled | + *+--------------------+---------------+--------------------+------------------+ + * + * mode = AE_MODE_ON_* / AWB_MODE_AUTO + *| state | trans. cause | new state | notes | + *+--------------------+---------------+--------------------+------------------+ + *| INACTIVE | HAL initiates | SEARCHING | | + *| | AE/AWB scan | | | + *+--------------------+---------------+--------------------+------------------+ + *| INACTIVE | AE/AWB_LOCK | LOCKED | values locked | + *| | on | | | + *+--------------------+---------------+--------------------+------------------+ + *| SEARCHING | HAL finishes | CONVERGED | good values, not | + *| | AE/AWB scan | | changing | + *+--------------------+---------------+--------------------+------------------+ + *| SEARCHING | HAL finishes | FLASH_REQUIRED | converged but too| + *| | AE scan | | dark w/o flash | + *+--------------------+---------------+--------------------+------------------+ + *| SEARCHING | AE/AWB_LOCK | LOCKED | values locked | + *| | on | | | + *+--------------------+---------------+--------------------+------------------+ + *| CONVERGED | HAL initiates | SEARCHING | values locked | + *| | AE/AWB scan | | | + *+--------------------+---------------+--------------------+------------------+ + *| CONVERGED | AE/AWB_LOCK | LOCKED | values locked | + *| | on | | | + *+--------------------+---------------+--------------------+------------------+ + *| FLASH_REQUIRED | HAL initiates | SEARCHING | values locked | + *| | AE/AWB scan | | | + *+--------------------+---------------+--------------------+------------------+ + *| FLASH_REQUIRED | AE/AWB_LOCK | LOCKED | values locked | + *| | on | | | + *+--------------------+---------------+--------------------+------------------+ + *| LOCKED | AE/AWB_LOCK | SEARCHING | values not good | + *| | off | | after unlock | + *+--------------------+---------------+--------------------+------------------+ + *| LOCKED | AE/AWB_LOCK | CONVERGED | values good | + *| | off | | after unlock | + *+--------------------+---------------+--------------------+------------------+ + *| LOCKED | AE_LOCK | FLASH_REQUIRED | exposure good, | + *| | off | | but too dark | + *+--------------------+---------------+--------------------+------------------+ + *| All AE states | PRECAPTURE_ | PRECAPTURE | Start precapture | + *| | START | | sequence | + *+--------------------+---------------+--------------------+------------------+ + *| PRECAPTURE | Sequence done.| CONVERGED | Ready for high- | + *| | AE_LOCK off | | quality capture | + *+--------------------+---------------+--------------------+------------------+ + *| PRECAPTURE | Sequence done.| LOCKED | Ready for high- | + *| | AE_LOCK on | | quality capture | + *+--------------------+---------------+--------------------+------------------+ + * + */ + +/** + * S5. Cropping: + * + * Cropping of the full pixel array (for digital zoom and other use cases where + * a smaller FOV is desirable) is communicated through the + * ANDROID_SCALER_CROP_REGION setting. This is a per-request setting, and can + * change on a per-request basis, which is critical for implementing smooth + * digital zoom. + * + * The region is defined as a rectangle (x, y, width, height), with (x, y) + * describing the top-left corner of the rectangle. The rectangle is defined on + * the coordinate system of the sensor active pixel array, with (0,0) being the + * top-left pixel of the active pixel array. Therefore, the width and height + * cannot be larger than the dimensions reported in the + * ANDROID_SENSOR_ACTIVE_PIXEL_ARRAY static info field. The minimum allowed + * width and height are reported by the HAL through the + * ANDROID_SCALER_MAX_DIGITAL_ZOOM static info field, which describes the + * maximum supported zoom factor. Therefore, the minimum crop region width and + * height are: + * + * {width, height} = + * { floor(ANDROID_SENSOR_ACTIVE_PIXEL_ARRAY[0] / + * ANDROID_SCALER_MAX_DIGITAL_ZOOM), + * floor(ANDROID_SENSOR_ACTIVE_PIXEL_ARRAY[1] / + * ANDROID_SCALER_MAX_DIGITAL_ZOOM) } + * + * If the crop region needs to fulfill specific requirements (for example, it + * needs to start on even coordinates, and its width/height needs to be even), + * the HAL must do the necessary rounding and write out the final crop region + * used in the output result metadata. Similarly, if the HAL implements video + * stabilization, it must adjust the result crop region to describe the region + * actually included in the output after video stabilization is applied. In + * general, a camera-using application must be able to determine the field of + * view it is receiving based on the crop region, the dimensions of the image + * sensor, and the lens focal length. + * + * It is assumed that the cropping is applied after raw to other color space + * conversion. Raw streams (RAW16 and RAW_OPAQUE) don't have this conversion stage, + * and are not croppable. Therefore, the crop region must be ignored by the HAL + * for raw streams. + * + * Since the crop region applies to all non-raw streams, which may have different aspect + * ratios than the crop region, the exact sensor region used for each stream may + * be smaller than the crop region. Specifically, each stream should maintain + * square pixels and its aspect ratio by minimally further cropping the defined + * crop region. If the stream's aspect ratio is wider than the crop region, the + * stream should be further cropped vertically, and if the stream's aspect ratio + * is narrower than the crop region, the stream should be further cropped + * horizontally. + * + * In all cases, the stream crop must be centered within the full crop region, + * and each stream is only either cropped horizontally or vertical relative to + * the full crop region, never both. + * + * For example, if two streams are defined, a 640x480 stream (4:3 aspect), and a + * 1280x720 stream (16:9 aspect), below demonstrates the expected output regions + * for each stream for a few sample crop regions, on a hypothetical 3 MP (2000 x + * 1500 pixel array) sensor. + * + * Crop region: (500, 375, 1000, 750) (4:3 aspect ratio) + * + * 640x480 stream crop: (500, 375, 1000, 750) (equal to crop region) + * 1280x720 stream crop: (500, 469, 1000, 562) (marked with =) + * + * 0 1000 2000 + * +---------+---------+---------+----------+ + * | Active pixel array | + * | | + * | | + * + +-------------------+ + 375 + * | | | | + * | O===================O | + * | I 1280x720 stream I | + * + I I + 750 + * | I I | + * | O===================O | + * | | | | + * + +-------------------+ + 1125 + * | Crop region, 640x480 stream | + * | | + * | | + * +---------+---------+---------+----------+ 1500 + * + * Crop region: (500, 375, 1333, 750) (16:9 aspect ratio) + * + * 640x480 stream crop: (666, 375, 1000, 750) (marked with =) + * 1280x720 stream crop: (500, 375, 1333, 750) (equal to crop region) + * + * 0 1000 2000 + * +---------+---------+---------+----------+ + * | Active pixel array | + * | | + * | | + * + +---O==================O---+ + 375 + * | | I 640x480 stream I | | + * | | I I | | + * | | I I | | + * + | I I | + 750 + * | | I I | | + * | | I I | | + * | | I I | | + * + +---O==================O---+ + 1125 + * | Crop region, 1280x720 stream | + * | | + * | | + * +---------+---------+---------+----------+ 1500 + * + * Crop region: (500, 375, 750, 750) (1:1 aspect ratio) + * + * 640x480 stream crop: (500, 469, 750, 562) (marked with =) + * 1280x720 stream crop: (500, 543, 750, 414) (marged with #) + * + * 0 1000 2000 + * +---------+---------+---------+----------+ + * | Active pixel array | + * | | + * | | + * + +--------------+ + 375 + * | O==============O | + * | ################ | + * | # # | + * + # # + 750 + * | # # | + * | ################ 1280x720 | + * | O==============O 640x480 | + * + +--------------+ + 1125 + * | Crop region | + * | | + * | | + * +---------+---------+---------+----------+ 1500 + * + * And a final example, a 1024x1024 square aspect ratio stream instead of the + * 480p stream: + * + * Crop region: (500, 375, 1000, 750) (4:3 aspect ratio) + * + * 1024x1024 stream crop: (625, 375, 750, 750) (marked with #) + * 1280x720 stream crop: (500, 469, 1000, 562) (marked with =) + * + * 0 1000 2000 + * +---------+---------+---------+----------+ + * | Active pixel array | + * | | + * | 1024x1024 stream | + * + +--###############--+ + 375 + * | | # # | | + * | O===================O | + * | I 1280x720 stream I | + * + I I + 750 + * | I I | + * | O===================O | + * | | # # | | + * + +--###############--+ + 1125 + * | Crop region | + * | | + * | | + * +---------+---------+---------+----------+ 1500 + * + */ + +/** + * S6. Error management: + * + * Camera HAL device ops functions that have a return value will all return + * -ENODEV / NULL in case of a serious error. This means the device cannot + * continue operation, and must be closed by the framework. Once this error is + * returned by some method, or if notify() is called with ERROR_DEVICE, only + * the close() method can be called successfully. All other methods will return + * -ENODEV / NULL. + * + * If a device op is called in the wrong sequence, for example if the framework + * calls configure_streams() is called before initialize(), the device must + * return -ENOSYS from the call, and do nothing. + * + * Transient errors in image capture must be reported through notify() as follows: + * + * - The failure of an entire capture to occur must be reported by the HAL by + * calling notify() with ERROR_REQUEST. Individual errors for the result + * metadata or the output buffers must not be reported in this case. + * + * - If the metadata for a capture cannot be produced, but some image buffers + * were filled, the HAL must call notify() with ERROR_RESULT. + * + * - If an output image buffer could not be filled, but either the metadata was + * produced or some other buffers were filled, the HAL must call notify() with + * ERROR_BUFFER for each failed buffer. + * + * In each of these transient failure cases, the HAL must still call + * process_capture_result, with valid output and input (if an input buffer was + * submitted) buffer_handle_t. If the result metadata could not be produced, it + * should be NULL. If some buffers could not be filled, they must be returned with + * process_capture_result in the error state, their release fences must be set to + * the acquire fences passed by the framework, or -1 if they have been waited on by + * the HAL already. + * + * Invalid input arguments result in -EINVAL from the appropriate methods. In + * that case, the framework must act as if that call had never been made. + * + */ + +/** + * S7. Key Performance Indicator (KPI) glossary: + * + * This includes some critical definitions that are used by KPI metrics. + * + * Pipeline Latency: + * For a given capture request, the duration from the framework calling + * process_capture_request to the HAL sending capture result and all buffers + * back by process_capture_result call. To make the Pipeline Latency measure + * independent of frame rate, it is measured by frame count. + * + * For example, when frame rate is 30 (fps), the frame duration (time interval + * between adjacent frame capture time) is 33 (ms). + * If it takes 5 frames for framework to get the result and buffers back for + * a given request, then the Pipeline Latency is 5 (frames), instead of + * 5 x 33 = 165 (ms). + * + * The Pipeline Latency is determined by android.request.pipelineDepth and + * android.request.pipelineMaxDepth, see their definitions for more details. + * + */ + +/** + * S8. Sample Use Cases: + * + * This includes some typical use case examples the camera HAL may support. + * + * S8.1 Zero Shutter Lag (ZSL) with CAMERA3_STREAM_BIDIRECTIONAL stream. + * + * For this use case, the bidirectional stream will be used by the framework as follows: + * + * 1. The framework includes a buffer from this stream as output buffer in a + * request as normal. + * + * 2. Once the HAL device returns a filled output buffer to the framework, + * the framework may do one of two things with the filled buffer: + * + * 2. a. The framework uses the filled data, and returns the now-used buffer + * to the stream queue for reuse. This behavior exactly matches the + * OUTPUT type of stream. + * + * 2. b. The framework wants to reprocess the filled data, and uses the + * buffer as an input buffer for a request. Once the HAL device has + * used the reprocessing buffer, it then returns it to the + * framework. The framework then returns the now-used buffer to the + * stream queue for reuse. + * + * 3. The HAL device will be given the buffer again as an output buffer for + * a request at some future point. + * + * For ZSL use case, the pixel format for bidirectional stream will be + * HAL_PIXEL_FORMAT_RAW_OPAQUE or HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED if it + * is listed in android.scaler.availableInputOutputFormatsMap. When + * HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED is used, the gralloc + * usage flags for the consumer endpoint will be set to GRALLOC_USAGE_HW_CAMERA_ZSL. + * A configuration stream list that has BIDIRECTIONAL stream used as input, will + * usually also have a distinct OUTPUT stream to get the reprocessing data. For example, + * for the ZSL use case, the stream list might be configured with the following: + * + * - A HAL_PIXEL_FORMAT_RAW_OPAQUE bidirectional stream is used + * as input. + * - And a HAL_PIXEL_FORMAT_BLOB (JPEG) output stream. + * + * S8.2 ZSL (OPAQUE) reprocessing with CAMERA3_STREAM_INPUT stream. + * + * CAMERA_DEVICE_API_VERSION_3_3: + * When OPAQUE_REPROCESSING capability is supported by the camera device, the INPUT stream + * can be used for application/framework implemented use case like Zero Shutter Lag (ZSL). + * This kind of stream will be used by the framework as follows: + * + * 1. Application/framework configures an opaque (RAW or YUV based) format output stream that is + * used to produce the ZSL output buffers. The stream pixel format will be + * HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED. + * + * 2. Application/framework configures an opaque format input stream that is used to + * send the reprocessing ZSL buffers to the HAL. The stream pixel format will + * also be HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED. + * + * 3. Application/framework configures a YUV/JPEG output stream that is used to receive the + * reprocessed data. The stream pixel format will be YCbCr_420/HAL_PIXEL_FORMAT_BLOB. + * + * 4. Application/framework picks a ZSL buffer from the ZSL output stream when a ZSL capture is + * issued by the application, and sends the data back as an input buffer in a + * reprocessing request, then sends to the HAL for reprocessing. + * + * 5. The HAL sends back the output YUV/JPEG result to framework. + * + * The HAL can select the actual opaque buffer format and configure the ISP pipeline + * appropriately based on the HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED format and + * the gralloc usage flag GRALLOC_USAGE_HW_CAMERA_ZSL. + + * S8.3 YUV reprocessing with CAMERA3_STREAM_INPUT stream. + * + * When YUV reprocessing is supported by the HAL, the INPUT stream + * can be used for the YUV reprocessing use cases like lucky-shot and image fusion. + * This kind of stream will be used by the framework as follows: + * + * 1. Application/framework configures an YCbCr_420 format output stream that is + * used to produce the output buffers. + * + * 2. Application/framework configures an YCbCr_420 format input stream that is used to + * send the reprocessing YUV buffers to the HAL. + * + * 3. Application/framework configures a YUV/JPEG output stream that is used to receive the + * reprocessed data. The stream pixel format will be YCbCr_420/HAL_PIXEL_FORMAT_BLOB. + * + * 4. Application/framework processes the output buffers (could be as simple as picking + * an output buffer directly) from the output stream when a capture is issued, and sends + * the data back as an input buffer in a reprocessing request, then sends to the HAL + * for reprocessing. + * + * 5. The HAL sends back the output YUV/JPEG result to framework. + * + */ + +/** + * S9. Notes on Controls and Metadata + * + * This section contains notes about the interpretation and usage of various metadata tags. + * + * S9.1 HIGH_QUALITY and FAST modes. + * + * Many camera post-processing blocks may be listed as having HIGH_QUALITY, + * FAST, and OFF operating modes. These blocks will typically also have an + * 'available modes' tag representing which of these operating modes are + * available on a given device. The general policy regarding implementing + * these modes is as follows: + * + * 1. Operating mode controls of hardware blocks that cannot be disabled + * must not list OFF in their corresponding 'available modes' tags. + * + * 2. OFF will always be included in their corresponding 'available modes' + * tag if it is possible to disable that hardware block. + * + * 3. FAST must always be included in the 'available modes' tags for all + * post-processing blocks supported on the device. If a post-processing + * block also has a slower and higher quality operating mode that does + * not meet the framerate requirements for FAST mode, HIGH_QUALITY should + * be included in the 'available modes' tag to represent this operating + * mode. + */ + +/** + * S10. Reprocessing flow and controls + * + * This section describes the OPAQUE and YUV reprocessing flow and controls. OPAQUE reprocessing + * uses an opaque format that is not directly application-visible, and the application can + * only select some of the output buffers and send back to HAL for reprocessing, while YUV + * reprocessing gives the application opportunity to process the buffers before reprocessing. + * + * S8 gives the stream configurations for the typical reprocessing uses cases, + * this section specifies the buffer flow and controls in more details. + * + * S10.1 OPAQUE (typically for ZSL use case) reprocessing flow and controls + * + * For OPAQUE reprocessing (e.g. ZSL) use case, after the application creates the specific + * output and input streams, runtime buffer flow and controls are specified as below: + * + * 1. Application starts output streaming by sending repeating requests for output + * opaque buffers and preview. The buffers are held by an application + * maintained circular buffer. The requests are based on CAMERA3_TEMPLATE_ZERO_SHUTTER_LAG + * capture template, which should have all necessary settings that guarantee output + * frame rate is not slowed down relative to sensor output frame rate. + * + * 2. When a capture is issued, the application selects one output buffer based + * on application buffer selection logic, e.g. good AE and AF statistics etc. + * Application then creates an reprocess request based on the capture result associated + * with this selected buffer. The selected output buffer is now added to this reprocess + * request as an input buffer, the output buffer of this reprocess request should be + * either JPEG output buffer or YUV output buffer, or both, depending on the application + * choice. + * + * 3. Application then alters the reprocess settings to get best image quality. The HAL must + * support and only support below controls if the HAL support OPAQUE_REPROCESSING capability: + * - android.jpeg.* (if JPEG buffer is included as one of the output) + * - android.noiseReduction.mode (change to HIGH_QUALITY if it is supported) + * - android.edge.mode (change to HIGH_QUALITY if it is supported) + * All other controls must be ignored by the HAL. + * 4. HAL processed the input buffer and return the output buffers in the capture results + * as normal. + * + * S10.2 YUV reprocessing flow and controls + * + * The YUV reprocessing buffer flow is similar as OPAQUE reprocessing, with below difference: + * + * 1. Application may want to have finer granularity control of the intermediate YUV images + * (before reprocessing). For example, application may choose + * - android.noiseReduction.mode == MINIMAL + * to make sure the no YUV domain noise reduction has applied to the output YUV buffers, + * then it can do its own advanced noise reduction on them. For OPAQUE reprocessing case, this + * doesn't matter, as long as the final reprocessed image has the best quality. + * 2. Application may modify the YUV output buffer data. For example, for image fusion use + * case, where multiple output images are merged together to improve the signal-to-noise + * ratio (SNR). The input buffer may be generated from multiple buffers by the application. + * To avoid excessive amount of noise reduction and insufficient amount of edge enhancement + * being applied to the input buffer, the application can hint the HAL how much effective + * exposure time improvement has been done by the application, then the HAL can adjust the + * noise reduction and edge enhancement paramters to get best reprocessed image quality. + * Below tag can be used for this purpose: + * - android.reprocess.effectiveExposureFactor + * The value would be exposure time increase factor applied to the original output image, + * for example, if there are N image merged, the exposure time increase factor would be up + * to sqrt(N). See this tag spec for more details. + * + * S10.3 Reprocessing pipeline characteristics + * + * Reprocessing pipeline has below different characteristics comparing with normal output + * pipeline: + * + * 1. The reprocessing result can be returned ahead of the pending normal output results. But + * the FIFO ordering must be maintained for all reprocessing results. For example, there are + * below requests (A stands for output requests, B stands for reprocessing requests) + * being processed by the HAL: + * A1, A2, A3, A4, B1, A5, B2, A6... + * result of B1 can be returned before A1-A4, but result of B2 must be returned after B1. + * 2. Single input rule: For a given reprocessing request, all output buffers must be from the + * input buffer, rather than sensor output. For example, if a reprocess request include both + * JPEG and preview buffers, all output buffers must be produced from the input buffer + * included by the reprocessing request, rather than sensor. The HAL must not output preview + * buffers from sensor, while output JPEG buffer from the input buffer. + * 3. Input buffer will be from camera output directly (ZSL case) or indirectly(image fusion + * case). For the case where buffer is modified, the size will remain same. The HAL can + * notify CAMERA3_MSG_ERROR_REQUEST if buffer from unknown source is sent. + * 4. Result as reprocessing request: The HAL can expect that a reprocessing request is a copy + * of one of the output results with minor allowed setting changes. The HAL can notify + * CAMERA3_MSG_ERROR_REQUEST if a request from unknown source is issued. + * 5. Output buffers may not be used as inputs across the configure stream boundary, This is + * because an opaque stream like the ZSL output stream may have different actual image size + * inside of the ZSL buffer to save power and bandwidth for smaller resolution JPEG capture. + * The HAL may notify CAMERA3_MSG_ERROR_REQUEST if this case occurs. + * 6. HAL Reprocess requests error reporting during flush should follow the same rule specified + * by flush() method. + * + */ + +__BEGIN_DECLS + +struct camera3_device; + +/********************************************************************** + * + * Camera3 stream and stream buffer definitions. + * + * These structs and enums define the handles and contents of the input and + * output streams connecting the HAL to various framework and application buffer + * consumers. Each stream is backed by a gralloc buffer queue. + * + */ + +/** + * camera3_stream_type_t: + * + * The type of the camera stream, which defines whether the camera HAL device is + * the producer or the consumer for that stream, and how the buffers of the + * stream relate to the other streams. + */ +typedef enum camera3_stream_type { + /** + * This stream is an output stream; the camera HAL device will be + * responsible for filling buffers from this stream with newly captured or + * reprocessed image data. + */ + CAMERA3_STREAM_OUTPUT = 0, + + /** + * This stream is an input stream; the camera HAL device will be responsible + * for reading buffers from this stream and sending them through the camera + * processing pipeline, as if the buffer was a newly captured image from the + * imager. + * + * The pixel format for input stream can be any format reported by + * android.scaler.availableInputOutputFormatsMap. The pixel format of the + * output stream that is used to produce the reprocessing data may be any + * format reported by android.scaler.availableStreamConfigurations. The + * supported input/output stream combinations depends the camera device + * capabilities, see android.scaler.availableInputOutputFormatsMap for + * stream map details. + * + * This kind of stream is generally used to reprocess data into higher + * quality images (that otherwise would cause a frame rate performance + * loss), or to do off-line reprocessing. + * + * CAMERA_DEVICE_API_VERSION_3_3: + * The typical use cases are OPAQUE (typically ZSL) and YUV reprocessing, + * see S8.2, S8.3 and S10 for more details. + */ + CAMERA3_STREAM_INPUT = 1, + + /** + * This stream can be used for input and output. Typically, the stream is + * used as an output stream, but occasionally one already-filled buffer may + * be sent back to the HAL device for reprocessing. + * + * This kind of stream is meant generally for Zero Shutter Lag (ZSL) + * features, where copying the captured image from the output buffer to the + * reprocessing input buffer would be expensive. See S8.1 for more details. + * + * Note that the HAL will always be reprocessing data it produced. + * + */ + CAMERA3_STREAM_BIDIRECTIONAL = 2, + + /** + * Total number of framework-defined stream types + */ + CAMERA3_NUM_STREAM_TYPES + +} camera3_stream_type_t; + +/** + * camera3_stream_rotation_t: + * + * The required counterclockwise rotation of camera stream. + */ +typedef enum camera3_stream_rotation { + /* No rotation */ + CAMERA3_STREAM_ROTATION_0 = 0, + + /* Rotate by 90 degree counterclockwise */ + CAMERA3_STREAM_ROTATION_90 = 1, + + /* Rotate by 180 degree counterclockwise */ + CAMERA3_STREAM_ROTATION_180 = 2, + + /* Rotate by 270 degree counterclockwise */ + CAMERA3_STREAM_ROTATION_270 = 3 +} camera3_stream_rotation_t; + +/** + * camera3_stream_configuration_mode_t: + * + * This defines the general operation mode for the HAL (for a given stream configuration), where + * modes besides NORMAL have different semantics, and usually limit the generality of the API in + * exchange for higher performance in some particular area. + */ +typedef enum camera3_stream_configuration_mode { + /** + * Normal stream configuration operation mode. This is the default camera operation mode, + * where all semantics of HAL APIs and metadata controls apply. + */ + CAMERA3_STREAM_CONFIGURATION_NORMAL_MODE = 0, + + /** + * Special constrained high speed operation mode for devices that can not support high + * speed output in NORMAL mode. All streams in this configuration are operating at high speed + * mode and have different characteristics and limitations to achieve high speed output. + * The NORMAL mode can still be used for high speed output if the HAL can support high speed + * output while satisfying all the semantics of HAL APIs and metadata controls. It is + * recommended for the HAL to support high speed output in NORMAL mode (by advertising the high + * speed FPS ranges in android.control.aeAvailableTargetFpsRanges) if possible. + * + * This mode has below limitations/requirements: + * + * 1. The HAL must support up to 2 streams with sizes reported by + * android.control.availableHighSpeedVideoConfigurations. + * 2. In this mode, the HAL is expected to output up to 120fps or higher. This mode must + * support the targeted FPS range and size configurations reported by + * android.control.availableHighSpeedVideoConfigurations. + * 3. The HAL must support HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED output stream format. + * 4. To achieve efficient high speed streaming, the HAL may have to aggregate + * multiple frames together and send to camera device for processing where the request + * controls are same for all the frames in this batch (batch mode). The HAL must support + * max batch size and the max batch size requirements defined by + * android.control.availableHighSpeedVideoConfigurations. + * 5. In this mode, the HAL must override aeMode, awbMode, and afMode to ON, ON, and + * CONTINUOUS_VIDEO, respectively. All post-processing block mode controls must be + * overridden to be FAST. Therefore, no manual control of capture and post-processing + * parameters is possible. All other controls operate the same as when + * android.control.mode == AUTO. This means that all other android.control.* fields + * must continue to work, such as + * + * android.control.aeTargetFpsRange + * android.control.aeExposureCompensation + * android.control.aeLock + * android.control.awbLock + * android.control.effectMode + * android.control.aeRegions + * android.control.afRegions + * android.control.awbRegions + * android.control.afTrigger + * android.control.aePrecaptureTrigger + * + * Outside of android.control.*, the following controls must work: + * + * android.flash.mode (TORCH mode only, automatic flash for still capture will not work + * since aeMode is ON) + * android.lens.opticalStabilizationMode (if it is supported) + * android.scaler.cropRegion + * android.statistics.faceDetectMode (if it is supported) + * + * For more details about high speed stream requirements, see + * android.control.availableHighSpeedVideoConfigurations and CONSTRAINED_HIGH_SPEED_VIDEO + * capability defined in android.request.availableCapabilities. + * + * This mode only needs to be supported by HALs that include CONSTRAINED_HIGH_SPEED_VIDEO in + * the android.request.availableCapabilities static metadata. + */ + CAMERA3_STREAM_CONFIGURATION_CONSTRAINED_HIGH_SPEED_MODE = 1, + + /** + * First value for vendor-defined stream configuration modes. + */ + CAMERA3_VENDOR_STREAM_CONFIGURATION_MODE_START = 0x8000 +} camera3_stream_configuration_mode_t; + +/** + * camera3_stream_t: + * + * A handle to a single camera input or output stream. A stream is defined by + * the framework by its buffer resolution and format, and additionally by the + * HAL with the gralloc usage flags and the maximum in-flight buffer count. + * + * The stream structures are owned by the framework, but pointers to a + * camera3_stream passed into the HAL by configure_streams() are valid until the + * end of the first subsequent configure_streams() call that _does not_ include + * that camera3_stream as an argument, or until the end of the close() call. + * + * All camera3_stream framework-controlled members are immutable once the + * camera3_stream is passed into configure_streams(). The HAL may only change + * the HAL-controlled parameters during a configure_streams() call, except for + * the contents of the private pointer. + * + * If a configure_streams() call returns a non-fatal error, all active streams + * remain valid as if configure_streams() had not been called. + * + * The endpoint of the stream is not visible to the camera HAL device. + * In DEVICE_API_VERSION_3_1, this was changed to share consumer usage flags + * on streams where the camera is a producer (OUTPUT and BIDIRECTIONAL stream + * types) see the usage field below. + */ +typedef struct camera3_stream { + + /***** + * Set by framework before configure_streams() + */ + + /** + * The type of the stream, one of the camera3_stream_type_t values. + */ + int stream_type; + + /** + * The width in pixels of the buffers in this stream + */ + uint32_t width; + + /** + * The height in pixels of the buffers in this stream + */ + uint32_t height; + + /** + * The pixel format for the buffers in this stream. Format is a value from + * the HAL_PIXEL_FORMAT_* list in system/core/include/system/graphics.h, or + * from device-specific headers. + * + * If HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED is used, then the platform + * gralloc module will select a format based on the usage flags provided by + * the camera device and the other endpoint of the stream. + * + * <= CAMERA_DEVICE_API_VERSION_3_1: + * + * The camera HAL device must inspect the buffers handed to it in the + * subsequent register_stream_buffers() call to obtain the + * implementation-specific format details, if necessary. + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * register_stream_buffers() won't be called by the framework, so the HAL + * should configure the ISP and sensor pipeline based purely on the sizes, + * usage flags, and formats for the configured streams. + */ + int format; + + /***** + * Set by HAL during configure_streams(). + */ + + /** + * The gralloc usage flags for this stream, as needed by the HAL. The usage + * flags are defined in gralloc.h (GRALLOC_USAGE_*), or in device-specific + * headers. + * + * For output streams, these are the HAL's producer usage flags. For input + * streams, these are the HAL's consumer usage flags. The usage flags from + * the producer and the consumer will be combined together and then passed + * to the platform gralloc HAL module for allocating the gralloc buffers for + * each stream. + * + * Version information: + * + * == CAMERA_DEVICE_API_VERSION_3_0: + * + * No initial value guaranteed when passed via configure_streams(). + * HAL may not use this field as input, and must write over this field + * with its usage flags. + * + * >= CAMERA_DEVICE_API_VERSION_3_1: + * + * For stream_type OUTPUT and BIDIRECTIONAL, when passed via + * configure_streams(), the initial value of this is the consumer's + * usage flags. The HAL may use these consumer flags to decide stream + * configuration. + * For stream_type INPUT, when passed via configure_streams(), the initial + * value of this is 0. + * For all streams passed via configure_streams(), the HAL must write + * over this field with its usage flags. + */ + uint32_t usage; + + /** + * The maximum number of buffers the HAL device may need to have dequeued at + * the same time. The HAL device may not have more buffers in-flight from + * this stream than this value. + */ + uint32_t max_buffers; + + /** + * A handle to HAL-private information for the stream. Will not be inspected + * by the framework code. + */ + void *priv; + + /** + * A field that describes the contents of the buffer. The format and buffer + * dimensions define the memory layout and structure of the stream buffers, + * while dataSpace defines the meaning of the data within the buffer. + * + * For most formats, dataSpace defines the color space of the image data. + * In addition, for some formats, dataSpace indicates whether image- or + * depth-based data is requested. See system/core/include/system/graphics.h + * for details of formats and valid dataSpace values for each format. + * + * Version information: + * + * < CAMERA_DEVICE_API_VERSION_3_3: + * + * Not defined and should not be accessed. dataSpace should be assumed to + * be HAL_DATASPACE_UNKNOWN, and the appropriate color space, etc, should + * be determined from the usage flags and the format. + * + * >= CAMERA_DEVICE_API_VERSION_3_3: + * + * Always set by the camera service. HAL must use this dataSpace to + * configure the stream to the correct colorspace, or to select between + * color and depth outputs if supported. + */ + android_dataspace_t data_space; + + /** + * The required output rotation of the stream, one of + * the camera3_stream_rotation_t values. This must be inspected by HAL along + * with stream width and height. For example, if the rotation is 90 degree + * and the stream width and height is 720 and 1280 respectively, camera service + * will supply buffers of size 720x1280, and HAL should capture a 1280x720 image + * and rotate the image by 90 degree counterclockwise. The rotation field is + * no-op when the stream type is input. Camera HAL must ignore the rotation + * field for an input stream. + * + * <= CAMERA_DEVICE_API_VERSION_3_2: + * + * Not defined and must not be accessed. HAL must not apply any rotation + * on output images. + * + * >= CAMERA_DEVICE_API_VERSION_3_3: + * + * Always set by camera service. HAL must inspect this field during stream + * configuration and returns -EINVAL if HAL cannot perform such rotation. + * HAL must always support CAMERA3_STREAM_ROTATION_0, so a + * configure_streams() call must not fail for unsupported rotation if + * rotation field of all streams is CAMERA3_STREAM_ROTATION_0. + * + */ + int rotation; + + /** + * This should be one of the camera3_stream_rotation_t values except for + * CAMERA3_STREAM_ROTATION_180. + * When setting to CAMERA3_STREAM_ROTATION_90 or CAMERA3_STREAM_ROTATION_270, HAL would crop, + * rotate the frame by the specified degrees clockwise and scale it up to original size. + * In Chrome OS, it's possible to have a portrait activity run in a landscape screen with + * landscape-mounted camera. The activity would show stretched or rotated preview because it + * does not expect to receive landscape preview frames. To solve this problem, we ask HAL to + * crop, rotate and scale the frames and modify CameraCharacteristics.SENSOR_ORIENTATION + * accordingly to imitate a portrait camera. + * Setting it to CAMERA3_STREAM_ROTATION_0 means no crop-rotate-scale would be performed. + * |cros_rotate_scale_degrees| in all camera3_stream_t of a configure_streams() call must be + * identical. The HAL should return -EINVAL if the degrees are not the same for all the streams. + */ + int crop_rotate_scale_degrees; + + /* reserved for future use */ + void *reserved[6]; + +} camera3_stream_t; + +/** + * camera3_stream_configuration_t: + * + * A structure of stream definitions, used by configure_streams(). This + * structure defines all the output streams and the reprocessing input + * stream for the current camera use case. + */ +typedef struct camera3_stream_configuration { + /** + * The total number of streams requested by the framework. This includes + * both input and output streams. The number of streams will be at least 1, + * and there will be at least one output-capable stream. + */ + uint32_t num_streams; + + /** + * An array of camera stream pointers, defining the input/output + * configuration for the camera HAL device. + * + * At most one input-capable stream may be defined (INPUT or BIDIRECTIONAL) + * in a single configuration. + * + * At least one output-capable stream must be defined (OUTPUT or + * BIDIRECTIONAL). + */ + camera3_stream_t **streams; + + /** + * >= CAMERA_DEVICE_API_VERSION_3_3: + * + * The operation mode of streams in this configuration, one of the value defined in + * camera3_stream_configuration_mode_t. + * The HAL can use this mode as an indicator to set the stream property (e.g., + * camera3_stream->max_buffers) appropriately. For example, if the configuration is + * CAMERA3_STREAM_CONFIGURATION_CONSTRAINED_HIGH_SPEED_MODE, the HAL may want to set aside more + * buffers for batch mode operation (see android.control.availableHighSpeedVideoConfigurations + * for batch mode definition). + * + */ + uint32_t operation_mode; +} camera3_stream_configuration_t; + +/** + * camera3_buffer_status_t: + * + * The current status of a single stream buffer. + */ +typedef enum camera3_buffer_status { + /** + * The buffer is in a normal state, and can be used after waiting on its + * sync fence. + */ + CAMERA3_BUFFER_STATUS_OK = 0, + + /** + * The buffer does not contain valid data, and the data in it should not be + * used. The sync fence must still be waited on before reusing the buffer. + */ + CAMERA3_BUFFER_STATUS_ERROR = 1 + +} camera3_buffer_status_t; + +/** + * camera3_stream_buffer_t: + * + * A single buffer from a camera3 stream. It includes a handle to its parent + * stream, the handle to the gralloc buffer itself, and sync fences + * + * The buffer does not specify whether it is to be used for input or output; + * that is determined by its parent stream type and how the buffer is passed to + * the HAL device. + */ +typedef struct camera3_stream_buffer { + /** + * The handle of the stream this buffer is associated with + */ + camera3_stream_t *stream; + + /** + * The native handle to the buffer + */ + buffer_handle_t *buffer; + + /** + * Current state of the buffer, one of the camera3_buffer_status_t + * values. The framework will not pass buffers to the HAL that are in an + * error state. In case a buffer could not be filled by the HAL, it must + * have its status set to CAMERA3_BUFFER_STATUS_ERROR when returned to the + * framework with process_capture_result(). + */ + int status; + + /** + * The acquire sync fence for this buffer. The HAL must wait on this fence + * fd before attempting to read from or write to this buffer. + * + * The framework may be set to -1 to indicate that no waiting is necessary + * for this buffer. + * + * When the HAL returns an output buffer to the framework with + * process_capture_result(), the acquire_fence must be set to -1. If the HAL + * never waits on the acquire_fence due to an error in filling a buffer, + * when calling process_capture_result() the HAL must set the release_fence + * of the buffer to be the acquire_fence passed to it by the framework. This + * will allow the framework to wait on the fence before reusing the buffer. + * + * For input buffers, the HAL must not change the acquire_fence field during + * the process_capture_request() call. + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * When the HAL returns an input buffer to the framework with + * process_capture_result(), the acquire_fence must be set to -1. If the HAL + * never waits on input buffer acquire fence due to an error, the sync + * fences should be handled similarly to the way they are handled for output + * buffers. + */ + int acquire_fence; + + /** + * The release sync fence for this buffer. The HAL must set this fence when + * returning buffers to the framework, or write -1 to indicate that no + * waiting is required for this buffer. + * + * For the output buffers, the fences must be set in the output_buffers + * array passed to process_capture_result(). + * + * <= CAMERA_DEVICE_API_VERSION_3_1: + * + * For the input buffer, the release fence must be set by the + * process_capture_request() call. + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * For the input buffer, the fences must be set in the input_buffer + * passed to process_capture_result(). + * + * After signaling the release_fence for this buffer, the HAL + * should not make any further attempts to access this buffer as the + * ownership has been fully transferred back to the framework. + * + * If a fence of -1 was specified then the ownership of this buffer + * is transferred back immediately upon the call of process_capture_result. + */ + int release_fence; + +} camera3_stream_buffer_t; + +/** + * camera3_stream_buffer_set_t: + * + * The complete set of gralloc buffers for a stream. This structure is given to + * register_stream_buffers() to allow the camera HAL device to register/map/etc + * newly allocated stream buffers. + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * Deprecated (and not used). In particular, + * register_stream_buffers is also deprecated and will never be invoked. + * + */ +typedef struct camera3_stream_buffer_set { + /** + * The stream handle for the stream these buffers belong to + */ + camera3_stream_t *stream; + + /** + * The number of buffers in this stream. It is guaranteed to be at least + * stream->max_buffers. + */ + uint32_t num_buffers; + + /** + * The array of gralloc buffer handles for this stream. If the stream format + * is set to HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED, the camera HAL device + * should inspect the passed-in buffers to determine any platform-private + * pixel format information. + */ + buffer_handle_t **buffers; + +} camera3_stream_buffer_set_t; + +/** + * camera3_jpeg_blob: + * + * Transport header for compressed JPEG buffers in output streams. + * + * To capture JPEG images, a stream is created using the pixel format + * HAL_PIXEL_FORMAT_BLOB. The buffer size for the stream is calculated by the + * framework, based on the static metadata field android.jpeg.maxSize. Since + * compressed JPEG images are of variable size, the HAL needs to include the + * final size of the compressed image using this structure inside the output + * stream buffer. The JPEG blob ID field must be set to CAMERA3_JPEG_BLOB_ID. + * + * Transport header should be at the end of the JPEG output stream buffer. That + * means the jpeg_blob_id must start at byte[buffer_size - + * sizeof(camera3_jpeg_blob)], where the buffer_size is the size of gralloc buffer. + * Any HAL using this transport header must account for it in android.jpeg.maxSize + * The JPEG data itself starts at the beginning of the buffer and should be + * jpeg_size bytes long. + */ +typedef struct camera3_jpeg_blob { + uint16_t jpeg_blob_id; + uint32_t jpeg_size; +} camera3_jpeg_blob_t; + +enum { + CAMERA3_JPEG_BLOB_ID = 0x00FF +}; + +/********************************************************************** + * + * Message definitions for the HAL notify() callback. + * + * These definitions are used for the HAL notify callback, to signal + * asynchronous events from the HAL device to the Android framework. + * + */ + +/** + * camera3_msg_type: + * + * Indicates the type of message sent, which specifies which member of the + * message union is valid. + * + */ +typedef enum camera3_msg_type { + /** + * An error has occurred. camera3_notify_msg.message.error contains the + * error information. + */ + CAMERA3_MSG_ERROR = 1, + + /** + * The exposure of a given request or processing a reprocess request has + * begun. camera3_notify_msg.message.shutter contains the information + * the capture. + */ + CAMERA3_MSG_SHUTTER = 2, + + /** + * Number of framework message types + */ + CAMERA3_NUM_MESSAGES + +} camera3_msg_type_t; + +/** + * Defined error codes for CAMERA_MSG_ERROR + */ +typedef enum camera3_error_msg_code { + /** + * A serious failure occured. No further frames or buffer streams will + * be produced by the device. Device should be treated as closed. The + * client must reopen the device to use it again. The frame_number field + * is unused. + */ + CAMERA3_MSG_ERROR_DEVICE = 1, + + /** + * An error has occurred in processing a request. No output (metadata or + * buffers) will be produced for this request. The frame_number field + * specifies which request has been dropped. Subsequent requests are + * unaffected, and the device remains operational. + */ + CAMERA3_MSG_ERROR_REQUEST = 2, + + /** + * An error has occurred in producing an output result metadata buffer + * for a request, but output stream buffers for it will still be + * available. Subsequent requests are unaffected, and the device remains + * operational. The frame_number field specifies the request for which + * result metadata won't be available. + */ + CAMERA3_MSG_ERROR_RESULT = 3, + + /** + * An error has occurred in placing an output buffer into a stream for a + * request. The frame metadata and other buffers may still be + * available. Subsequent requests are unaffected, and the device remains + * operational. The frame_number field specifies the request for which the + * buffer was dropped, and error_stream contains a pointer to the stream + * that dropped the frame.u + */ + CAMERA3_MSG_ERROR_BUFFER = 4, + + /** + * Number of error types + */ + CAMERA3_MSG_NUM_ERRORS + +} camera3_error_msg_code_t; + +/** + * camera3_error_msg_t: + * + * Message contents for CAMERA3_MSG_ERROR + */ +typedef struct camera3_error_msg { + /** + * Frame number of the request the error applies to. 0 if the frame number + * isn't applicable to the error. + */ + uint32_t frame_number; + + /** + * Pointer to the stream that had a failure. NULL if the stream isn't + * applicable to the error. + */ + camera3_stream_t *error_stream; + + /** + * The code for this error; one of the CAMERA_MSG_ERROR enum values. + */ + int error_code; + +} camera3_error_msg_t; + +/** + * camera3_shutter_msg_t: + * + * Message contents for CAMERA3_MSG_SHUTTER + */ +typedef struct camera3_shutter_msg { + /** + * Frame number of the request that has begun exposure or reprocessing. + */ + uint32_t frame_number; + + /** + * Timestamp for the start of capture. For a reprocess request, this must + * be input image's start of capture. This must match the capture result + * metadata's sensor exposure start timestamp. + */ + uint64_t timestamp; + +} camera3_shutter_msg_t; + +/** + * camera3_notify_msg_t: + * + * The message structure sent to camera3_callback_ops_t.notify() + */ +typedef struct camera3_notify_msg { + + /** + * The message type. One of camera3_notify_msg_type, or a private extension. + */ + int type; + + union { + /** + * Error message contents. Valid if type is CAMERA3_MSG_ERROR + */ + camera3_error_msg_t error; + + /** + * Shutter message contents. Valid if type is CAMERA3_MSG_SHUTTER + */ + camera3_shutter_msg_t shutter; + + /** + * Generic message contents. Used to ensure a minimum size for custom + * message types. + */ + uint8_t generic[32]; + } message; + +} camera3_notify_msg_t; + +/********************************************************************** + * + * Capture request/result definitions for the HAL process_capture_request() + * method, and the process_capture_result() callback. + * + */ + +/** + * camera3_request_template_t: + * + * Available template types for + * camera3_device_ops.construct_default_request_settings() + */ +typedef enum camera3_request_template { + /** + * Standard camera preview operation with 3A on auto. + */ + CAMERA3_TEMPLATE_PREVIEW = 1, + + /** + * Standard camera high-quality still capture with 3A and flash on auto. + */ + CAMERA3_TEMPLATE_STILL_CAPTURE = 2, + + /** + * Standard video recording plus preview with 3A on auto, torch off. + */ + CAMERA3_TEMPLATE_VIDEO_RECORD = 3, + + /** + * High-quality still capture while recording video. Application will + * include preview, video record, and full-resolution YUV or JPEG streams in + * request. Must not cause stuttering on video stream. 3A on auto. + */ + CAMERA3_TEMPLATE_VIDEO_SNAPSHOT = 4, + + /** + * Zero-shutter-lag mode. Application will request preview and + * full-resolution data for each frame, and reprocess it to JPEG when a + * still image is requested by user. Settings should provide highest-quality + * full-resolution images without compromising preview frame rate. 3A on + * auto. + */ + CAMERA3_TEMPLATE_ZERO_SHUTTER_LAG = 5, + + /** + * A basic template for direct application control of capture + * parameters. All automatic control is disabled (auto-exposure, auto-white + * balance, auto-focus), and post-processing parameters are set to preview + * quality. The manual capture parameters (exposure, sensitivity, etc.) + * are set to reasonable defaults, but should be overridden by the + * application depending on the intended use case. + */ + CAMERA3_TEMPLATE_MANUAL = 6, + + /* Total number of templates */ + CAMERA3_TEMPLATE_COUNT, + + /** + * First value for vendor-defined request templates + */ + CAMERA3_VENDOR_TEMPLATE_START = 0x40000000 + +} camera3_request_template_t; + +/** + * camera3_capture_request_t: + * + * A single request for image capture/buffer reprocessing, sent to the Camera + * HAL device by the framework in process_capture_request(). + * + * The request contains the settings to be used for this capture, and the set of + * output buffers to write the resulting image data in. It may optionally + * contain an input buffer, in which case the request is for reprocessing that + * input buffer instead of capturing a new image with the camera sensor. The + * capture is identified by the frame_number. + * + * In response, the camera HAL device must send a camera3_capture_result + * structure asynchronously to the framework, using the process_capture_result() + * callback. + */ +typedef struct camera3_capture_request { + /** + * The frame number is an incrementing integer set by the framework to + * uniquely identify this capture. It needs to be returned in the result + * call, and is also used to identify the request in asynchronous + * notifications sent to camera3_callback_ops_t.notify(). + */ + uint32_t frame_number; + + /** + * The settings buffer contains the capture and processing parameters for + * the request. As a special case, a NULL settings buffer indicates that the + * settings are identical to the most-recently submitted capture request. A + * NULL buffer cannot be used as the first submitted request after a + * configure_streams() call. + */ + const camera_metadata_t *settings; + + /** + * The input stream buffer to use for this request, if any. + * + * If input_buffer is NULL, then the request is for a new capture from the + * imager. If input_buffer is valid, the request is for reprocessing the + * image contained in input_buffer. + * + * In the latter case, the HAL must set the release_fence of the + * input_buffer to a valid sync fence, or to -1 if the HAL does not support + * sync, before process_capture_request() returns. + * + * The HAL is required to wait on the acquire sync fence of the input buffer + * before accessing it. + * + * <= CAMERA_DEVICE_API_VERSION_3_1: + * + * Any input buffer included here will have been registered with the HAL + * through register_stream_buffers() before its inclusion in a request. + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * The buffers will not have been pre-registered with the HAL. + * Subsequent requests may reuse buffers, or provide entirely new buffers. + */ + camera3_stream_buffer_t *input_buffer; + + /** + * The number of output buffers for this capture request. Must be at least + * 1. + */ + uint32_t num_output_buffers; + + /** + * An array of num_output_buffers stream buffers, to be filled with image + * data from this capture/reprocess. The HAL must wait on the acquire fences + * of each stream buffer before writing to them. + * + * The HAL takes ownership of the actual buffer_handle_t entries in + * output_buffers; the framework does not access them until they are + * returned in a camera3_capture_result_t. + * + * <= CAMERA_DEVICE_API_VERSION_3_1: + * + * All the buffers included here will have been registered with the HAL + * through register_stream_buffers() before their inclusion in a request. + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * Any or all of the buffers included here may be brand new in this + * request (having never before seen by the HAL). + */ + const camera3_stream_buffer_t *output_buffers; + +} camera3_capture_request_t; + +/** + * camera3_capture_result_t: + * + * The result of a single capture/reprocess by the camera HAL device. This is + * sent to the framework asynchronously with process_capture_result(), in + * response to a single capture request sent to the HAL with + * process_capture_request(). Multiple process_capture_result() calls may be + * performed by the HAL for each request. + * + * Each call, all with the same frame + * number, may contain some subset of the output buffers, and/or the result + * metadata. The metadata may only be provided once for a given frame number; + * all other calls must set the result metadata to NULL. + * + * The result structure contains the output metadata from this capture, and the + * set of output buffers that have been/will be filled for this capture. Each + * output buffer may come with a release sync fence that the framework will wait + * on before reading, in case the buffer has not yet been filled by the HAL. + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * The metadata may be provided multiple times for a single frame number. The + * framework will accumulate together the final result set by combining each + * partial result together into the total result set. + * + * If an input buffer is given in a request, the HAL must return it in one of + * the process_capture_result calls, and the call may be to just return the input + * buffer, without metadata and output buffers; the sync fences must be handled + * the same way they are done for output buffers. + * + * + * Performance considerations: + * + * Applications will also receive these partial results immediately, so sending + * partial results is a highly recommended performance optimization to avoid + * the total pipeline latency before sending the results for what is known very + * early on in the pipeline. + * + * A typical use case might be calculating the AF state halfway through the + * pipeline; by sending the state back to the framework immediately, we get a + * 50% performance increase and perceived responsiveness of the auto-focus. + * + */ +typedef struct camera3_capture_result { + /** + * The frame number is an incrementing integer set by the framework in the + * submitted request to uniquely identify this capture. It is also used to + * identify the request in asynchronous notifications sent to + * camera3_callback_ops_t.notify(). + */ + uint32_t frame_number; + + /** + * The result metadata for this capture. This contains information about the + * final capture parameters, the state of the capture and post-processing + * hardware, the state of the 3A algorithms, if enabled, and the output of + * any enabled statistics units. + * + * Only one call to process_capture_result() with a given frame_number may + * include the result metadata. All other calls for the same frame_number + * must set this to NULL. + * + * If there was an error producing the result metadata, result must be an + * empty metadata buffer, and notify() must be called with ERROR_RESULT. + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * Multiple calls to process_capture_result() with a given frame_number + * may include the result metadata. + * + * Partial metadata submitted should not include any metadata key returned + * in a previous partial result for a given frame. Each new partial result + * for that frame must also set a distinct partial_result value. + * + * If notify has been called with ERROR_RESULT, all further partial + * results for that frame are ignored by the framework. + */ + const camera_metadata_t *result; + + /** + * The number of output buffers returned in this result structure. Must be + * less than or equal to the matching capture request's count. If this is + * less than the buffer count in the capture request, at least one more call + * to process_capture_result with the same frame_number must be made, to + * return the remaining output buffers to the framework. This may only be + * zero if the structure includes valid result metadata or an input buffer + * is returned in this result. + */ + uint32_t num_output_buffers; + + /** + * The handles for the output stream buffers for this capture. They may not + * yet be filled at the time the HAL calls process_capture_result(); the + * framework will wait on the release sync fences provided by the HAL before + * reading the buffers. + * + * The HAL must set the stream buffer's release sync fence to a valid sync + * fd, or to -1 if the buffer has already been filled. + * + * If the HAL encounters an error while processing the buffer, and the + * buffer is not filled, the buffer's status field must be set to + * CAMERA3_BUFFER_STATUS_ERROR. If the HAL did not wait on the acquire fence + * before encountering the error, the acquire fence should be copied into + * the release fence, to allow the framework to wait on the fence before + * reusing the buffer. + * + * The acquire fence must be set to -1 for all output buffers. If + * num_output_buffers is zero, this may be NULL. In that case, at least one + * more process_capture_result call must be made by the HAL to provide the + * output buffers. + * + * When process_capture_result is called with a new buffer for a frame, + * all previous frames' buffers for that corresponding stream must have been + * already delivered (the fences need not have yet been signaled). + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * Gralloc buffers for a frame may be sent to framework before the + * corresponding SHUTTER-notify. + * + * Performance considerations: + * + * Buffers delivered to the framework will not be dispatched to the + * application layer until a start of exposure timestamp has been received + * via a SHUTTER notify() call. It is highly recommended to + * dispatch that call as early as possible. + */ + const camera3_stream_buffer_t *output_buffers; + + /** + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * The handle for the input stream buffer for this capture. It may not + * yet be consumed at the time the HAL calls process_capture_result(); the + * framework will wait on the release sync fences provided by the HAL before + * reusing the buffer. + * + * The HAL should handle the sync fences the same way they are done for + * output_buffers. + * + * Only one input buffer is allowed to be sent per request. Similarly to + * output buffers, the ordering of returned input buffers must be + * maintained by the HAL. + * + * Performance considerations: + * + * The input buffer should be returned as early as possible. If the HAL + * supports sync fences, it can call process_capture_result to hand it back + * with sync fences being set appropriately. If the sync fences are not + * supported, the buffer can only be returned when it is consumed, which + * may take long time; the HAL may choose to copy this input buffer to make + * the buffer return sooner. + */ + const camera3_stream_buffer_t *input_buffer; + + /** + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * In order to take advantage of partial results, the HAL must set the + * static metadata android.request.partialResultCount to the number of + * partial results it will send for each frame. + * + * Each new capture result with a partial result must set + * this field (partial_result) to a distinct inclusive value between + * 1 and android.request.partialResultCount. + * + * HALs not wishing to take advantage of this feature must not + * set an android.request.partialResultCount or partial_result to a value + * other than 1. + * + * This value must be set to 0 when a capture result contains buffers only + * and no metadata. + */ + uint32_t partial_result; + +} camera3_capture_result_t; + +/********************************************************************** + * + * Callback methods for the HAL to call into the framework. + * + * These methods are used to return metadata and image buffers for a completed + * or failed captures, and to notify the framework of asynchronous events such + * as errors. + * + * The framework will not call back into the HAL from within these callbacks, + * and these calls will not block for extended periods. + * + */ +typedef struct camera3_callback_ops { + + /** + * process_capture_result: + * + * Send results from a completed capture to the framework. + * process_capture_result() may be invoked multiple times by the HAL in + * response to a single capture request. This allows, for example, the + * metadata and low-resolution buffers to be returned in one call, and + * post-processed JPEG buffers in a later call, once it is available. Each + * call must include the frame number of the request it is returning + * metadata or buffers for. + * + * A component (buffer or metadata) of the complete result may only be + * included in one process_capture_result call. A buffer for each stream, + * and the result metadata, must be returned by the HAL for each request in + * one of the process_capture_result calls, even in case of errors producing + * some of the output. A call to process_capture_result() with neither + * output buffers or result metadata is not allowed. + * + * The order of returning metadata and buffers for a single result does not + * matter, but buffers for a given stream must be returned in FIFO order. So + * the buffer for request 5 for stream A must always be returned before the + * buffer for request 6 for stream A. This also applies to the result + * metadata; the metadata for request 5 must be returned before the metadata + * for request 6. + * + * However, different streams are independent of each other, so it is + * acceptable and expected that the buffer for request 5 for stream A may be + * returned after the buffer for request 6 for stream B is. And it is + * acceptable that the result metadata for request 6 for stream B is + * returned before the buffer for request 5 for stream A is. + * + * The HAL retains ownership of result structure, which only needs to be + * valid to access during this call. The framework will copy whatever it + * needs before this call returns. + * + * The output buffers do not need to be filled yet; the framework will wait + * on the stream buffer release sync fence before reading the buffer + * data. Therefore, this method should be called by the HAL as soon as + * possible, even if some or all of the output buffers are still in + * being filled. The HAL must include valid release sync fences into each + * output_buffers stream buffer entry, or -1 if that stream buffer is + * already filled. + * + * If the result buffer cannot be constructed for a request, the HAL should + * return an empty metadata buffer, but still provide the output buffers and + * their sync fences. In addition, notify() must be called with an + * ERROR_RESULT message. + * + * If an output buffer cannot be filled, its status field must be set to + * STATUS_ERROR. In addition, notify() must be called with a ERROR_BUFFER + * message. + * + * If the entire capture has failed, then this method still needs to be + * called to return the output buffers to the framework. All the buffer + * statuses should be STATUS_ERROR, and the result metadata should be an + * empty buffer. In addition, notify() must be called with a ERROR_REQUEST + * message. In this case, individual ERROR_RESULT/ERROR_BUFFER messages + * should not be sent. + * + * Performance requirements: + * + * This is a non-blocking call. The framework will return this call in 5ms. + * + * The pipeline latency (see S7 for definition) should be less than or equal to + * 4 frame intervals, and must be less than or equal to 8 frame intervals. + * + */ + void (*process_capture_result)(const struct camera3_callback_ops *, + const camera3_capture_result_t *result); + + /** + * notify: + * + * Asynchronous notification callback from the HAL, fired for various + * reasons. Only for information independent of frame capture, or that + * require specific timing. The ownership of the message structure remains + * with the HAL, and the msg only needs to be valid for the duration of this + * call. + * + * Multiple threads may call notify() simultaneously. + * + * <= CAMERA_DEVICE_API_VERSION_3_1: + * + * The notification for the start of exposure for a given request must be + * sent by the HAL before the first call to process_capture_result() for + * that request is made. + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * Buffers delivered to the framework will not be dispatched to the + * application layer until a start of exposure timestamp (or input image's + * start of exposure timestamp for a reprocess request) has been received + * via a SHUTTER notify() call. It is highly recommended to dispatch this + * call as early as possible. + * + * ------------------------------------------------------------------------ + * Performance requirements: + * + * This is a non-blocking call. The framework will return this call in 5ms. + */ + void (*notify)(const struct camera3_callback_ops *, + const camera3_notify_msg_t *msg); + +} camera3_callback_ops_t; + +/********************************************************************** + * + * Camera device operations + * + */ +typedef struct camera3_device_ops { + + /** + * initialize: + * + * One-time initialization to pass framework callback function pointers to + * the HAL. Will be called once after a successful open() call, before any + * other functions are called on the camera3_device_ops structure. + * + * Performance requirements: + * + * This should be a non-blocking call. The HAL should return from this call + * in 5ms, and must return from this call in 10ms. + * + * Return values: + * + * 0: On successful initialization + * + * -ENODEV: If initialization fails. Only close() can be called successfully + * by the framework after this. + */ + int (*initialize)(const struct camera3_device *, + const camera3_callback_ops_t *callback_ops); + + /********************************************************************** + * Stream management + */ + + /** + * configure_streams: + * + * CAMERA_DEVICE_API_VERSION_3_0 only: + * + * Reset the HAL camera device processing pipeline and set up new input and + * output streams. This call replaces any existing stream configuration with + * the streams defined in the stream_list. This method will be called at + * least once after initialize() before a request is submitted with + * process_capture_request(). + * + * The stream_list must contain at least one output-capable stream, and may + * not contain more than one input-capable stream. + * + * The stream_list may contain streams that are also in the currently-active + * set of streams (from the previous call to configure_stream()). These + * streams will already have valid values for usage, max_buffers, and the + * private pointer. + * + * If such a stream has already had its buffers registered, + * register_stream_buffers() will not be called again for the stream, and + * buffers from the stream can be immediately included in input requests. + * + * If the HAL needs to change the stream configuration for an existing + * stream due to the new configuration, it may rewrite the values of usage + * and/or max_buffers during the configure call. + * + * The framework will detect such a change, and will then reallocate the + * stream buffers, and call register_stream_buffers() again before using + * buffers from that stream in a request. + * + * If a currently-active stream is not included in stream_list, the HAL may + * safely remove any references to that stream. It will not be reused in a + * later configure() call by the framework, and all the gralloc buffers for + * it will be freed after the configure_streams() call returns. + * + * The stream_list structure is owned by the framework, and may not be + * accessed once this call completes. The address of an individual + * camera3_stream_t structure will remain valid for access by the HAL until + * the end of the first configure_stream() call which no longer includes + * that camera3_stream_t in the stream_list argument. The HAL may not change + * values in the stream structure outside of the private pointer, except for + * the usage and max_buffers members during the configure_streams() call + * itself. + * + * If the stream is new, the usage, max_buffer, and private pointer fields + * of the stream structure will all be set to 0. The HAL device must set + * these fields before the configure_streams() call returns. These fields + * are then used by the framework and the platform gralloc module to + * allocate the gralloc buffers for each stream. + * + * Before such a new stream can have its buffers included in a capture + * request, the framework will call register_stream_buffers() with that + * stream. However, the framework is not required to register buffers for + * _all_ streams before submitting a request. This allows for quick startup + * of (for example) a preview stream, with allocation for other streams + * happening later or concurrently. + * + * ------------------------------------------------------------------------ + * CAMERA_DEVICE_API_VERSION_3_1 only: + * + * Reset the HAL camera device processing pipeline and set up new input and + * output streams. This call replaces any existing stream configuration with + * the streams defined in the stream_list. This method will be called at + * least once after initialize() before a request is submitted with + * process_capture_request(). + * + * The stream_list must contain at least one output-capable stream, and may + * not contain more than one input-capable stream. + * + * The stream_list may contain streams that are also in the currently-active + * set of streams (from the previous call to configure_stream()). These + * streams will already have valid values for usage, max_buffers, and the + * private pointer. + * + * If such a stream has already had its buffers registered, + * register_stream_buffers() will not be called again for the stream, and + * buffers from the stream can be immediately included in input requests. + * + * If the HAL needs to change the stream configuration for an existing + * stream due to the new configuration, it may rewrite the values of usage + * and/or max_buffers during the configure call. + * + * The framework will detect such a change, and will then reallocate the + * stream buffers, and call register_stream_buffers() again before using + * buffers from that stream in a request. + * + * If a currently-active stream is not included in stream_list, the HAL may + * safely remove any references to that stream. It will not be reused in a + * later configure() call by the framework, and all the gralloc buffers for + * it will be freed after the configure_streams() call returns. + * + * The stream_list structure is owned by the framework, and may not be + * accessed once this call completes. The address of an individual + * camera3_stream_t structure will remain valid for access by the HAL until + * the end of the first configure_stream() call which no longer includes + * that camera3_stream_t in the stream_list argument. The HAL may not change + * values in the stream structure outside of the private pointer, except for + * the usage and max_buffers members during the configure_streams() call + * itself. + * + * If the stream is new, max_buffer, and private pointer fields of the + * stream structure will all be set to 0. The usage will be set to the + * consumer usage flags. The HAL device must set these fields before the + * configure_streams() call returns. These fields are then used by the + * framework and the platform gralloc module to allocate the gralloc + * buffers for each stream. + * + * Before such a new stream can have its buffers included in a capture + * request, the framework will call register_stream_buffers() with that + * stream. However, the framework is not required to register buffers for + * _all_ streams before submitting a request. This allows for quick startup + * of (for example) a preview stream, with allocation for other streams + * happening later or concurrently. + * + * ------------------------------------------------------------------------ + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * Reset the HAL camera device processing pipeline and set up new input and + * output streams. This call replaces any existing stream configuration with + * the streams defined in the stream_list. This method will be called at + * least once after initialize() before a request is submitted with + * process_capture_request(). + * + * The stream_list must contain at least one output-capable stream, and may + * not contain more than one input-capable stream. + * + * The stream_list may contain streams that are also in the currently-active + * set of streams (from the previous call to configure_stream()). These + * streams will already have valid values for usage, max_buffers, and the + * private pointer. + * + * If the HAL needs to change the stream configuration for an existing + * stream due to the new configuration, it may rewrite the values of usage + * and/or max_buffers during the configure call. + * + * The framework will detect such a change, and may then reallocate the + * stream buffers before using buffers from that stream in a request. + * + * If a currently-active stream is not included in stream_list, the HAL may + * safely remove any references to that stream. It will not be reused in a + * later configure() call by the framework, and all the gralloc buffers for + * it will be freed after the configure_streams() call returns. + * + * The stream_list structure is owned by the framework, and may not be + * accessed once this call completes. The address of an individual + * camera3_stream_t structure will remain valid for access by the HAL until + * the end of the first configure_stream() call which no longer includes + * that camera3_stream_t in the stream_list argument. The HAL may not change + * values in the stream structure outside of the private pointer, except for + * the usage and max_buffers members during the configure_streams() call + * itself. + * + * If the stream is new, max_buffer, and private pointer fields of the + * stream structure will all be set to 0. The usage will be set to the + * consumer usage flags. The HAL device must set these fields before the + * configure_streams() call returns. These fields are then used by the + * framework and the platform gralloc module to allocate the gralloc + * buffers for each stream. + * + * Newly allocated buffers may be included in a capture request at any time + * by the framework. Once a gralloc buffer is returned to the framework + * with process_capture_result (and its respective release_fence has been + * signaled) the framework may free or reuse it at any time. + * + * ------------------------------------------------------------------------ + * + * Preconditions: + * + * The framework will only call this method when no captures are being + * processed. That is, all results have been returned to the framework, and + * all in-flight input and output buffers have been returned and their + * release sync fences have been signaled by the HAL. The framework will not + * submit new requests for capture while the configure_streams() call is + * underway. + * + * Postconditions: + * + * The HAL device must configure itself to provide maximum possible output + * frame rate given the sizes and formats of the output streams, as + * documented in the camera device's static metadata. + * + * Performance requirements: + * + * This call is expected to be heavyweight and possibly take several hundred + * milliseconds to complete, since it may require resetting and + * reconfiguring the image sensor and the camera processing pipeline. + * Nevertheless, the HAL device should attempt to minimize the + * reconfiguration delay to minimize the user-visible pauses during + * application operational mode changes (such as switching from still + * capture to video recording). + * + * The HAL should return from this call in 500ms, and must return from this + * call in 1000ms. + * + * Return values: + * + * 0: On successful stream configuration + * + * -EINVAL: If the requested stream configuration is invalid. Some examples + * of invalid stream configurations include: + * + * - Including more than 1 input-capable stream (INPUT or + * BIDIRECTIONAL) + * + * - Not including any output-capable streams (OUTPUT or + * BIDIRECTIONAL) + * + * - Including streams with unsupported formats, or an unsupported + * size for that format. + * + * - Including too many output streams of a certain format. + * + * - Unsupported rotation configuration (only applies to + * devices with version >= CAMERA_DEVICE_API_VERSION_3_3) + * + * - Stream sizes/formats don't satisfy the + * camera3_stream_configuration_t->operation_mode requirements for non-NORMAL mode, + * or the requested operation_mode is not supported by the HAL. + * (only applies to devices with version >= CAMERA_DEVICE_API_VERSION_3_3) + * + * Note that the framework submitting an invalid stream + * configuration is not normal operation, since stream + * configurations are checked before configure. An invalid + * configuration means that a bug exists in the framework code, or + * there is a mismatch between the HAL's static metadata and the + * requirements on streams. + * + * -ENODEV: If there has been a fatal error and the device is no longer + * operational. Only close() can be called successfully by the + * framework after this error is returned. + */ + int (*configure_streams)(const struct camera3_device *, + camera3_stream_configuration_t *stream_list); + + /** + * register_stream_buffers: + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * DEPRECATED. This will not be called and must be set to NULL. + * + * <= CAMERA_DEVICE_API_VERSION_3_1: + * + * Register buffers for a given stream with the HAL device. This method is + * called by the framework after a new stream is defined by + * configure_streams, and before buffers from that stream are included in a + * capture request. If the same stream is listed in a subsequent + * configure_streams() call, register_stream_buffers will _not_ be called + * again for that stream. + * + * The framework does not need to register buffers for all configured + * streams before it submits the first capture request. This allows quick + * startup for preview (or similar use cases) while other streams are still + * being allocated. + * + * This method is intended to allow the HAL device to map or otherwise + * prepare the buffers for later use. The buffers passed in will already be + * locked for use. At the end of the call, all the buffers must be ready to + * be returned to the stream. The buffer_set argument is only valid for the + * duration of this call. + * + * If the stream format was set to HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED, + * the camera HAL should inspect the passed-in buffers here to determine any + * platform-private pixel format information. + * + * Performance requirements: + * + * This should be a non-blocking call. The HAL should return from this call + * in 1ms, and must return from this call in 5ms. + * + * Return values: + * + * 0: On successful registration of the new stream buffers + * + * -EINVAL: If the stream_buffer_set does not refer to a valid active + * stream, or if the buffers array is invalid. + * + * -ENOMEM: If there was a failure in registering the buffers. The framework + * must consider all the stream buffers to be unregistered, and can + * try to register again later. + * + * -ENODEV: If there is a fatal error, and the device is no longer + * operational. Only close() can be called successfully by the + * framework after this error is returned. + */ + int (*register_stream_buffers)(const struct camera3_device *, + const camera3_stream_buffer_set_t *buffer_set); + + /********************************************************************** + * Request creation and submission + */ + + /** + * construct_default_request_settings: + * + * Create capture settings for standard camera use cases. + * + * The device must return a settings buffer that is configured to meet the + * requested use case, which must be one of the CAMERA3_TEMPLATE_* + * enums. All request control fields must be included. + * + * The HAL retains ownership of this structure, but the pointer to the + * structure must be valid until the device is closed. The framework and the + * HAL may not modify the buffer once it is returned by this call. The same + * buffer may be returned for subsequent calls for the same template, or for + * other templates. + * + * Performance requirements: + * + * This should be a non-blocking call. The HAL should return from this call + * in 1ms, and must return from this call in 5ms. + * + * Return values: + * + * Valid metadata: On successful creation of a default settings + * buffer. + * + * NULL: In case of a fatal error. After this is returned, only + * the close() method can be called successfully by the + * framework. + */ + const camera_metadata_t* (*construct_default_request_settings)( + const struct camera3_device *, + int type); + + /** + * process_capture_request: + * + * Send a new capture request to the HAL. The HAL should not return from + * this call until it is ready to accept the next request to process. Only + * one call to process_capture_request() will be made at a time by the + * framework, and the calls will all be from the same thread. The next call + * to process_capture_request() will be made as soon as a new request and + * its associated buffers are available. In a normal preview scenario, this + * means the function will be called again by the framework almost + * instantly. + * + * The actual request processing is asynchronous, with the results of + * capture being returned by the HAL through the process_capture_result() + * call. This call requires the result metadata to be available, but output + * buffers may simply provide sync fences to wait on. Multiple requests are + * expected to be in flight at once, to maintain full output frame rate. + * + * The framework retains ownership of the request structure. It is only + * guaranteed to be valid during this call. The HAL device must make copies + * of the information it needs to retain for the capture processing. The HAL + * is responsible for waiting on and closing the buffers' fences and + * returning the buffer handles to the framework. + * + * The HAL must write the file descriptor for the input buffer's release + * sync fence into input_buffer->release_fence, if input_buffer is not + * NULL. If the HAL returns -1 for the input buffer release sync fence, the + * framework is free to immediately reuse the input buffer. Otherwise, the + * framework will wait on the sync fence before refilling and reusing the + * input buffer. + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * + * The input/output buffers provided by the framework in each request + * may be brand new (having never before seen by the HAL). + * + * ------------------------------------------------------------------------ + * Performance considerations: + * + * Handling a new buffer should be extremely lightweight and there should be + * no frame rate degradation or frame jitter introduced. + * + * This call must return fast enough to ensure that the requested frame + * rate can be sustained, especially for streaming cases (post-processing + * quality settings set to FAST). The HAL should return this call in 1 + * frame interval, and must return from this call in 4 frame intervals. + * + * Return values: + * + * 0: On a successful start to processing the capture request + * + * -EINVAL: If the input is malformed (the settings are NULL when not + * allowed, there are 0 output buffers, etc) and capture processing + * cannot start. Failures during request processing should be + * handled by calling camera3_callback_ops_t.notify(). In case of + * this error, the framework will retain responsibility for the + * stream buffers' fences and the buffer handles; the HAL should + * not close the fences or return these buffers with + * process_capture_result. + * + * -ENODEV: If the camera device has encountered a serious error. After this + * error is returned, only the close() method can be successfully + * called by the framework. + * + */ + int (*process_capture_request)(const struct camera3_device *, + camera3_capture_request_t *request); + + /********************************************************************** + * Miscellaneous methods + */ + + /** + * get_metadata_vendor_tag_ops: + * + * Get methods to query for vendor extension metadata tag information. The + * HAL should fill in all the vendor tag operation methods, or leave ops + * unchanged if no vendor tags are defined. + * + * The definition of vendor_tag_query_ops_t can be found in + * system/media/camera/include/system/camera_metadata.h. + * + * >= CAMERA_DEVICE_API_VERSION_3_2: + * DEPRECATED. This function has been deprecated and should be set to + * NULL by the HAL. Please implement get_vendor_tag_ops in camera_common.h + * instead. + */ + void (*get_metadata_vendor_tag_ops)(const struct camera3_device*, + vendor_tag_query_ops_t* ops); + + /** + * dump: + * + * Print out debugging state for the camera device. This will be called by + * the framework when the camera service is asked for a debug dump, which + * happens when using the dumpsys tool, or when capturing a bugreport. + * + * The passed-in file descriptor can be used to write debugging text using + * dprintf() or write(). The text should be in ASCII encoding only. + * + * Performance requirements: + * + * This must be a non-blocking call. The HAL should return from this call + * in 1ms, must return from this call in 10ms. This call must avoid + * deadlocks, as it may be called at any point during camera operation. + * Any synchronization primitives used (such as mutex locks or semaphores) + * should be acquired with a timeout. + */ + void (*dump)(const struct camera3_device *, int fd); + + /** + * flush: + * + * Flush all currently in-process captures and all buffers in the pipeline + * on the given device. The framework will use this to dump all state as + * quickly as possible in order to prepare for a configure_streams() call. + * + * No buffers are required to be successfully returned, so every buffer + * held at the time of flush() (whether successfully filled or not) may be + * returned with CAMERA3_BUFFER_STATUS_ERROR. Note the HAL is still allowed + * to return valid (CAMERA3_BUFFER_STATUS_OK) buffers during this call, + * provided they are successfully filled. + * + * All requests currently in the HAL are expected to be returned as soon as + * possible. Not-in-process requests should return errors immediately. Any + * interruptible hardware blocks should be stopped, and any uninterruptible + * blocks should be waited on. + * + * flush() may be called concurrently to process_capture_request(), with the expectation that + * process_capture_request will return quickly and the request submitted in that + * process_capture_request call is treated like all other in-flight requests. Due to + * concurrency issues, it is possible that from the HAL's point of view, a + * process_capture_request() call may be started after flush has been invoked but has not + * returned yet. If such a call happens before flush() returns, the HAL should treat the new + * capture request like other in-flight pending requests (see #4 below). + * + * More specifically, the HAL must follow below requirements for various cases: + * + * 1. For captures that are too late for the HAL to cancel/stop, and will be + * completed normally by the HAL; i.e. the HAL can send shutter/notify and + * process_capture_result and buffers as normal. + * + * 2. For pending requests that have not done any processing, the HAL must call notify + * CAMERA3_MSG_ERROR_REQUEST, and return all the output buffers with + * process_capture_result in the error state (CAMERA3_BUFFER_STATUS_ERROR). + * The HAL must not place the release fence into an error state, instead, + * the release fences must be set to the acquire fences passed by the framework, + * or -1 if they have been waited on by the HAL already. This is also the path + * to follow for any captures for which the HAL already called notify() with + * CAMERA3_MSG_SHUTTER but won't be producing any metadata/valid buffers for. + * After CAMERA3_MSG_ERROR_REQUEST, for a given frame, only process_capture_results with + * buffers in CAMERA3_BUFFER_STATUS_ERROR are allowed. No further notifys or + * process_capture_result with non-null metadata is allowed. + * + * 3. For partially completed pending requests that will not have all the output + * buffers or perhaps missing metadata, the HAL should follow below: + * + * 3.1. Call notify with CAMERA3_MSG_ERROR_RESULT if some of the expected result + * metadata (i.e. one or more partial metadata) won't be available for the capture. + * + * 3.2. Call notify with CAMERA3_MSG_ERROR_BUFFER for every buffer that won't + * be produced for the capture. + * + * 3.3 Call notify with CAMERA3_MSG_SHUTTER with the capture timestamp before + * any buffers/metadata are returned with process_capture_result. + * + * 3.4 For captures that will produce some results, the HAL must not call + * CAMERA3_MSG_ERROR_REQUEST, since that indicates complete failure. + * + * 3.5. Valid buffers/metadata should be passed to the framework as normal. + * + * 3.6. Failed buffers should be returned to the framework as described for case 2. + * But failed buffers do not have to follow the strict ordering valid buffers do, + * and may be out-of-order with respect to valid buffers. For example, if buffers + * A, B, C, D, E are sent, D and E are failed, then A, E, B, D, C is an acceptable + * return order. + * + * 3.7. For fully-missing metadata, calling CAMERA3_MSG_ERROR_RESULT is sufficient, no + * need to call process_capture_result with NULL metadata or equivalent. + * + * 4. If a flush() is invoked while a process_capture_request() invocation is active, that + * process call should return as soon as possible. In addition, if a process_capture_request() + * call is made after flush() has been invoked but before flush() has returned, the + * capture request provided by the late process_capture_request call should be treated like + * a pending request in case #2 above. + * + * flush() should only return when there are no more outstanding buffers or + * requests left in the HAL. The framework may call configure_streams (as + * the HAL state is now quiesced) or may issue new requests. + * + * Note that it's sufficient to only support fully-succeeded and fully-failed result cases. + * However, it is highly desirable to support the partial failure cases as well, as it + * could help improve the flush call overall performance. + * + * Performance requirements: + * + * The HAL should return from this call in 100ms, and must return from this + * call in 1000ms. And this call must not be blocked longer than pipeline + * latency (see S7 for definition). + * + * Version information: + * + * only available if device version >= CAMERA_DEVICE_API_VERSION_3_1. + * + * Return values: + * + * 0: On a successful flush of the camera HAL. + * + * -EINVAL: If the input is malformed (the device is not valid). + * + * -ENODEV: If the camera device has encountered a serious error. After this + * error is returned, only the close() method can be successfully + * called by the framework. + */ + int (*flush)(const struct camera3_device *); + + /* reserved for future use */ + void *reserved[8]; +} camera3_device_ops_t; + +/********************************************************************** + * + * Camera device definition + * + */ +typedef struct camera3_device { + /** + * common.version must equal CAMERA_DEVICE_API_VERSION_3_0 to identify this + * device as implementing version 3.0 of the camera device HAL. + * + * Performance requirements: + * + * Camera open (common.module->common.methods->open) should return in 200ms, and must return + * in 500ms. + * Camera close (common.close) should return in 200ms, and must return in 500ms. + * + */ + hw_device_t common; + camera3_device_ops_t *ops; + void *priv; +} camera3_device_t; + +__END_DECLS + +#endif /* #ifdef ANDROID_INCLUDE_CAMERA3_H */ diff --git a/include/android/hardware/libhardware/include/hardware/camera_common.h b/include/android/hardware/libhardware/include/hardware/camera_common.h new file mode 100644 index 00000000..7658dd40 --- /dev/null +++ b/include/android/hardware/libhardware/include/hardware/camera_common.h @@ -0,0 +1,916 @@ +/* + * 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 + * + * 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. + */ + +// FIXME: add well-defined names for cameras + +#ifndef ANDROID_INCLUDE_CAMERA_COMMON_H +#define ANDROID_INCLUDE_CAMERA_COMMON_H + +#include <stdint.h> +#include <stdbool.h> +#include <sys/cdefs.h> +#include <sys/types.h> +#include <cutils/native_handle.h> +#include <system/camera.h> +#include <system/camera_vendor_tags.h> +#include <hardware/hardware.h> +#include <hardware/gralloc.h> + +__BEGIN_DECLS + +/** + * The id of this module + */ +#define CAMERA_HARDWARE_MODULE_ID "camera" + +/** + * Module versioning information for the Camera hardware module, based on + * camera_module_t.common.module_api_version. The two most significant hex + * digits represent the major version, and the two least significant represent + * the minor version. + * + ******************************************************************************* + * Versions: 0.X - 1.X [CAMERA_MODULE_API_VERSION_1_0] + * + * Camera modules that report these version numbers implement the initial + * camera module HAL interface. All camera devices openable through this + * module support only version 1 of the camera device HAL. The device_version + * and static_camera_characteristics fields of camera_info are not valid. Only + * the android.hardware.Camera API can be supported by this module and its + * devices. + * + ******************************************************************************* + * Version: 2.0 [CAMERA_MODULE_API_VERSION_2_0] + * + * Camera modules that report this version number implement the second version + * of the camera module HAL interface. Camera devices openable through this + * module may support either version 1.0 or version 2.0 of the camera device + * HAL interface. The device_version field of camera_info is always valid; the + * static_camera_characteristics field of camera_info is valid if the + * device_version field is 2.0 or higher. + * + ******************************************************************************* + * Version: 2.1 [CAMERA_MODULE_API_VERSION_2_1] + * + * This camera module version adds support for asynchronous callbacks to the + * framework from the camera HAL module, which is used to notify the framework + * about changes to the camera module state. Modules that provide a valid + * set_callbacks() method must report at least this version number. + * + ******************************************************************************* + * Version: 2.2 [CAMERA_MODULE_API_VERSION_2_2] + * + * This camera module version adds vendor tag support from the module, and + * deprecates the old vendor_tag_query_ops that were previously only + * accessible with a device open. + * + ******************************************************************************* + * Version: 2.3 [CAMERA_MODULE_API_VERSION_2_3] + * + * This camera module version adds open legacy camera HAL device support. + * Framework can use it to open the camera device as lower device HAL version + * HAL device if the same device can support multiple device API versions. + * The standard hardware module open call (common.methods->open) continues + * to open the camera device with the latest supported version, which is + * also the version listed in camera_info_t.device_version. + * + ******************************************************************************* + * Version: 2.4 [CAMERA_MODULE_API_VERSION_2_4] + * + * This camera module version adds below API changes: + * + * 1. Torch mode support. The framework can use it to turn on torch mode for + * any camera device that has a flash unit, without opening a camera device. The + * camera device has a higher priority accessing the flash unit than the camera + * module; opening a camera device will turn off the torch if it had been enabled + * through the module interface. When there are any resource conflicts, such as + * open() is called to open a camera device, the camera HAL module must notify the + * framework through the torch mode status callback that the torch mode has been + * turned off. + * + * 2. External camera (e.g. USB hot-plug camera) support. The API updates specify that + * the camera static info is only available when camera is connected and ready to + * use for external hot-plug cameras. Calls to get static info will be invalid + * calls when camera status is not CAMERA_DEVICE_STATUS_PRESENT. The frameworks + * will only count on device status change callbacks to manage the available external + * camera list. + * + * 3. Camera arbitration hints. This module version adds support for explicitly + * indicating the number of camera devices that can be simultaneously opened and used. + * To specify valid combinations of devices, the resource_cost and conflicting_devices + * fields should always be set in the camera_info structure returned by the + * get_camera_info call. + * + * 4. Module initialization method. This will be called by the camera service + * right after the HAL module is loaded, to allow for one-time initialization + * of the HAL. It is called before any other module methods are invoked. + */ + +/** + * Predefined macros for currently-defined version numbers + */ + +/** + * All module versions <= HARDWARE_MODULE_API_VERSION(1, 0xFF) must be treated + * as CAMERA_MODULE_API_VERSION_1_0 + */ +#define CAMERA_MODULE_API_VERSION_1_0 HARDWARE_MODULE_API_VERSION(1, 0) +#define CAMERA_MODULE_API_VERSION_2_0 HARDWARE_MODULE_API_VERSION(2, 0) +#define CAMERA_MODULE_API_VERSION_2_1 HARDWARE_MODULE_API_VERSION(2, 1) +#define CAMERA_MODULE_API_VERSION_2_2 HARDWARE_MODULE_API_VERSION(2, 2) +#define CAMERA_MODULE_API_VERSION_2_3 HARDWARE_MODULE_API_VERSION(2, 3) +#define CAMERA_MODULE_API_VERSION_2_4 HARDWARE_MODULE_API_VERSION(2, 4) + +#define CAMERA_MODULE_API_VERSION_CURRENT CAMERA_MODULE_API_VERSION_2_4 + +/** + * All device versions <= HARDWARE_DEVICE_API_VERSION(1, 0xFF) must be treated + * as CAMERA_DEVICE_API_VERSION_1_0 + */ +#define CAMERA_DEVICE_API_VERSION_1_0 HARDWARE_DEVICE_API_VERSION(1, 0) +#define CAMERA_DEVICE_API_VERSION_2_0 HARDWARE_DEVICE_API_VERSION(2, 0) +#define CAMERA_DEVICE_API_VERSION_2_1 HARDWARE_DEVICE_API_VERSION(2, 1) +#define CAMERA_DEVICE_API_VERSION_3_0 HARDWARE_DEVICE_API_VERSION(3, 0) +#define CAMERA_DEVICE_API_VERSION_3_1 HARDWARE_DEVICE_API_VERSION(3, 1) +#define CAMERA_DEVICE_API_VERSION_3_2 HARDWARE_DEVICE_API_VERSION(3, 2) +#define CAMERA_DEVICE_API_VERSION_3_3 HARDWARE_DEVICE_API_VERSION(3, 3) + +// Device version 3.3 is current, older HAL camera device versions are not +// recommended for new devices. +#define CAMERA_DEVICE_API_VERSION_CURRENT CAMERA_DEVICE_API_VERSION_3_3 + +/** + * Defined in /system/media/camera/include/system/camera_metadata.h + */ +typedef struct camera_metadata camera_metadata_t; + +typedef struct camera_info { + /** + * The direction that the camera faces to. See system/core/include/system/camera.h + * for camera facing definitions. + * + * Version information (based on camera_module_t.common.module_api_version): + * + * CAMERA_MODULE_API_VERSION_2_3 or lower: + * + * It should be CAMERA_FACING_BACK or CAMERA_FACING_FRONT. + * + * CAMERA_MODULE_API_VERSION_2_4 or higher: + * + * It should be CAMERA_FACING_BACK, CAMERA_FACING_FRONT or + * CAMERA_FACING_EXTERNAL. + */ + int facing; + + /** + * The orientation of the camera image. The value is the angle that the + * camera image needs to be rotated clockwise so it shows correctly on the + * display in its natural orientation. It should be 0, 90, 180, or 270. + * + * For example, suppose a device has a naturally tall screen. The + * back-facing camera sensor is mounted in landscape. You are looking at the + * screen. If the top side of the camera sensor is aligned with the right + * edge of the screen in natural orientation, the value should be 90. If the + * top side of a front-facing camera sensor is aligned with the right of the + * screen, the value should be 270. + * + * Version information (based on camera_module_t.common.module_api_version): + * + * CAMERA_MODULE_API_VERSION_2_3 or lower: + * + * Valid in all camera_module versions. + * + * CAMERA_MODULE_API_VERSION_2_4 or higher: + * + * Valid if camera facing is CAMERA_FACING_BACK or CAMERA_FACING_FRONT, + * not valid if camera facing is CAMERA_FACING_EXTERNAL. + */ + int orientation; + + /** + * The value of camera_device_t.common.version. + * + * Version information (based on camera_module_t.common.module_api_version): + * + * CAMERA_MODULE_API_VERSION_1_0: + * + * Not valid. Can be assumed to be CAMERA_DEVICE_API_VERSION_1_0. Do + * not read this field. + * + * CAMERA_MODULE_API_VERSION_2_0 or higher: + * + * Always valid + * + */ + uint32_t device_version; + + /** + * The camera's fixed characteristics, which include all static camera metadata + * specified in system/media/camera/docs/docs.html. This should be a sorted metadata + * buffer, and may not be modified or freed by the caller. The pointer should remain + * valid for the lifetime of the camera module, and values in it may not + * change after it is returned by get_camera_info(). + * + * Version information (based on camera_module_t.common.module_api_version): + * + * CAMERA_MODULE_API_VERSION_1_0: + * + * Not valid. Extra characteristics are not available. Do not read this + * field. + * + * CAMERA_MODULE_API_VERSION_2_0 or higher: + * + * Valid if device_version >= CAMERA_DEVICE_API_VERSION_2_0. Do not read + * otherwise. + * + */ + const camera_metadata_t *static_camera_characteristics; + + /** + * The total resource "cost" of using this camera, represented as an integer + * value in the range [0, 100] where 100 represents total usage of the shared + * resource that is the limiting bottleneck of the camera subsystem. This may + * be a very rough estimate, and is used as a hint to the camera service to + * determine when to disallow multiple applications from simultaneously + * opening different cameras advertised by the camera service. + * + * The camera service must be able to simultaneously open and use any + * combination of camera devices exposed by the HAL where the sum of + * the resource costs of these cameras is <= 100. For determining cost, + * each camera device must be assumed to be configured and operating at + * the maximally resource-consuming framerate and stream size settings + * available in the configuration settings exposed for that device through + * the camera metadata. + * + * The camera service may still attempt to simultaneously open combinations + * of camera devices with a total resource cost > 100. This may succeed or + * fail. If this succeeds, combinations of configurations that are not + * supported due to resource constraints from having multiple open devices + * should fail during the configure calls. If the total resource cost is + * <= 100, open and configure should never fail for any stream configuration + * settings or other device capabilities that would normally succeed for a + * device when it is the only open camera device. + * + * This field will be used to determine whether background applications are + * allowed to use this camera device while other applications are using other + * camera devices. Note: multiple applications will never be allowed by the + * camera service to simultaneously open the same camera device. + * + * Example use cases: + * + * Ex. 1: Camera Device 0 = Back Camera + * Camera Device 1 = Front Camera + * - Using both camera devices causes a large framerate slowdown due to + * limited ISP bandwidth. + * + * Configuration: + * + * Camera Device 0 - resource_cost = 51 + * conflicting_devices = null + * Camera Device 1 - resource_cost = 51 + * conflicting_devices = null + * + * Result: + * + * Since the sum of the resource costs is > 100, if a higher-priority + * application has either device open, no lower-priority applications will be + * allowed by the camera service to open either device. If a lower-priority + * application is using a device that a higher-priority subsequently attempts + * to open, the lower-priority application will be forced to disconnect the + * the device. + * + * If the highest-priority application chooses, it may still attempt to open + * both devices (since these devices are not listed as conflicting in the + * conflicting_devices fields), but usage of these devices may fail in the + * open or configure calls. + * + * Ex. 2: Camera Device 0 = Left Back Camera + * Camera Device 1 = Right Back Camera + * Camera Device 2 = Combined stereo camera using both right and left + * back camera sensors used by devices 0, and 1 + * Camera Device 3 = Front Camera + * - Due to do hardware constraints, up to two cameras may be open at once. The + * combined stereo camera may never be used at the same time as either of the + * two back camera devices (device 0, 1), and typically requires too much + * bandwidth to use at the same time as the front camera (device 3). + * + * Configuration: + * + * Camera Device 0 - resource_cost = 50 + * conflicting_devices = { 2 } + * Camera Device 1 - resource_cost = 50 + * conflicting_devices = { 2 } + * Camera Device 2 - resource_cost = 100 + * conflicting_devices = { 0, 1 } + * Camera Device 3 - resource_cost = 50 + * conflicting_devices = null + * + * Result: + * + * Based on the conflicting_devices fields, the camera service guarantees that + * the following sets of open devices will never be allowed: { 1, 2 }, { 0, 2 }. + * + * Based on the resource_cost fields, if a high-priority foreground application + * is using camera device 0, a background application would be allowed to open + * camera device 1 or 3 (but would be forced to disconnect it again if the + * foreground application opened another device). + * + * The highest priority application may still attempt to simultaneously open + * devices 0, 2, and 3, but the HAL may fail in open or configure calls for + * this combination. + * + * Ex. 3: Camera Device 0 = Back Camera + * Camera Device 1 = Front Camera + * Camera Device 2 = Low-power Front Camera that uses the same + * sensor as device 1, but only exposes image stream + * resolutions that can be used in low-power mode + * - Using both front cameras (device 1, 2) at the same time is impossible due + * a shared physical sensor. Using the back and "high-power" front camera + * (device 1) may be impossible for some stream configurations due to hardware + * limitations, but the "low-power" front camera option may always be used as + * it has special dedicated hardware. + * + * Configuration: + * + * Camera Device 0 - resource_cost = 100 + * conflicting_devices = null + * Camera Device 1 - resource_cost = 100 + * conflicting_devices = { 2 } + * Camera Device 2 - resource_cost = 0 + * conflicting_devices = { 1 } + * Result: + * + * Based on the conflicting_devices fields, the camera service guarantees that + * the following sets of open devices will never be allowed: { 1, 2 }. + * + * Based on the resource_cost fields, only the highest priority application + * may attempt to open both device 0 and 1 at the same time. If a higher-priority + * application is not using device 1 or 2, a low-priority background application + * may open device 2 (but will be forced to disconnect it if a higher-priority + * application subsequently opens device 1 or 2). + * + * Version information (based on camera_module_t.common.module_api_version): + * + * CAMERA_MODULE_API_VERSION_2_3 or lower: + * + * Not valid. Can be assumed to be 100. Do not read this field. + * + * CAMERA_MODULE_API_VERSION_2_4 or higher: + * + * Always valid. + */ + int resource_cost; + + /** + * An array of camera device IDs represented as NULL-terminated strings + * indicating other devices that cannot be simultaneously opened while this + * camera device is in use. + * + * This field is intended to be used to indicate that this camera device + * is a composite of several other camera devices, or otherwise has + * hardware dependencies that prohibit simultaneous usage. If there are no + * dependencies, a NULL may be returned in this field to indicate this. + * + * The camera service will never simultaneously open any of the devices + * in this list while this camera device is open. + * + * The strings pointed to in this field will not be cleaned up by the camera + * service, and must remain while this device is plugged in. + * + * Version information (based on camera_module_t.common.module_api_version): + * + * CAMERA_MODULE_API_VERSION_2_3 or lower: + * + * Not valid. Can be assumed to be NULL. Do not read this field. + * + * CAMERA_MODULE_API_VERSION_2_4 or higher: + * + * Always valid. + */ + char** conflicting_devices; + + /** + * The length of the array given in the conflicting_devices field. + * + * Version information (based on camera_module_t.common.module_api_version): + * + * CAMERA_MODULE_API_VERSION_2_3 or lower: + * + * Not valid. Can be assumed to be 0. Do not read this field. + * + * CAMERA_MODULE_API_VERSION_2_4 or higher: + * + * Always valid. + */ + size_t conflicting_devices_length; + +} camera_info_t; + +/** + * camera_device_status_t: + * + * The current status of the camera device, as provided by the HAL through the + * camera_module_callbacks.camera_device_status_change() call. + * + * At module load time, the framework will assume all camera devices are in the + * CAMERA_DEVICE_STATUS_PRESENT state. The HAL should invoke + * camera_module_callbacks::camera_device_status_change to inform the framework + * of any initially NOT_PRESENT devices. + * + * Allowed transitions: + * PRESENT -> NOT_PRESENT + * NOT_PRESENT -> ENUMERATING + * NOT_PRESENT -> PRESENT + * ENUMERATING -> PRESENT + * ENUMERATING -> NOT_PRESENT + */ +typedef enum camera_device_status { + /** + * The camera device is not currently connected, and opening it will return + * failure. + * + * Version information (based on camera_module_t.common.module_api_version): + * + * CAMERA_MODULE_API_VERSION_2_3 or lower: + * + * Calls to get_camera_info must still succeed, and provide the same information + * it would if the camera were connected. + * + * CAMERA_MODULE_API_VERSION_2_4: + * + * The camera device at this status must return -EINVAL for get_camera_info call, + * as the device is not connected. + */ + CAMERA_DEVICE_STATUS_NOT_PRESENT = 0, + + /** + * The camera device is connected, and opening it will succeed. + * + * CAMERA_MODULE_API_VERSION_2_3 or lower: + * + * The information returned by get_camera_info cannot change due to this status + * change. By default, the framework will assume all devices are in this state. + * + * CAMERA_MODULE_API_VERSION_2_4: + * + * The information returned by get_camera_info will become valid after a device's + * status changes to this. By default, the framework will assume all devices are in + * this state. + */ + CAMERA_DEVICE_STATUS_PRESENT = 1, + + /** + * The camera device is connected, but it is undergoing an enumeration and + * so opening the device will return -EBUSY. + * + * CAMERA_MODULE_API_VERSION_2_3 or lower: + * + * Calls to get_camera_info must still succeed, as if the camera was in the + * PRESENT status. + * + * CAMERA_MODULE_API_VERSION_2_4: + * + * The camera device at this status must return -EINVAL for get_camera_info for call, + * as the device is not ready. + */ + CAMERA_DEVICE_STATUS_ENUMERATING = 2, + +} camera_device_status_t; + +/** + * torch_mode_status_t: + * + * The current status of the torch mode, as provided by the HAL through the + * camera_module_callbacks.torch_mode_status_change() call. + * + * The torch mode status of a camera device is applicable only when the camera + * device is present. The framework will not call set_torch_mode() to turn on + * torch mode of a camera device if the camera device is not present. At module + * load time, the framework will assume torch modes are in the + * TORCH_MODE_STATUS_AVAILABLE_OFF state if the camera device is present and + * android.flash.info.available is reported as true via get_camera_info() call. + * + * The behaviors of the camera HAL module that the framework expects in the + * following situations when a camera device's status changes: + * 1. A previously-disconnected camera device becomes connected. + * After camera_module_callbacks::camera_device_status_change() is invoked + * to inform the framework that the camera device is present, the framework + * will assume the camera device's torch mode is in + * TORCH_MODE_STATUS_AVAILABLE_OFF state. The camera HAL module does not need + * to invoke camera_module_callbacks::torch_mode_status_change() unless the + * flash unit is unavailable to use by set_torch_mode(). + * + * 2. A previously-connected camera becomes disconnected. + * After camera_module_callbacks::camera_device_status_change() is invoked + * to inform the framework that the camera device is not present, the + * framework will not call set_torch_mode() for the disconnected camera + * device until its flash unit becomes available again. The camera HAL + * module does not need to invoke + * camera_module_callbacks::torch_mode_status_change() separately to inform + * that the flash unit has become unavailable. + * + * 3. open() is called to open a camera device. + * The camera HAL module must invoke + * camera_module_callbacks::torch_mode_status_change() for all flash units + * that have entered TORCH_MODE_STATUS_NOT_AVAILABLE state and can not be + * turned on by calling set_torch_mode() anymore due to this open() call. + * open() must not trigger TORCH_MODE_STATUS_AVAILABLE_OFF before + * TORCH_MODE_STATUS_NOT_AVAILABLE for all flash units that have become + * unavailable. + * + * 4. close() is called to close a camera device. + * The camera HAL module must invoke + * camera_module_callbacks::torch_mode_status_change() for all flash units + * that have entered TORCH_MODE_STATUS_AVAILABLE_OFF state and can be turned + * on by calling set_torch_mode() again because of enough resources freed + * up by this close() call. + * + * Note that the framework calling set_torch_mode() successfully must trigger + * TORCH_MODE_STATUS_AVAILABLE_OFF or TORCH_MODE_STATUS_AVAILABLE_ON callback + * for the given camera device. Additionally it must trigger + * TORCH_MODE_STATUS_AVAILABLE_OFF callbacks for other previously-on torch + * modes if HAL cannot keep multiple torch modes on simultaneously. + */ +typedef enum torch_mode_status { + + /** + * The flash unit is no longer available and the torch mode can not be + * turned on by calling set_torch_mode(). If the torch mode is on, it + * will be turned off by HAL before HAL calls torch_mode_status_change(). + */ + TORCH_MODE_STATUS_NOT_AVAILABLE = 0, + + /** + * A torch mode has become off and available to be turned on via + * set_torch_mode(). This may happen in the following + * cases: + * 1. After the resources to turn on the torch mode have become available. + * 2. After set_torch_mode() is called to turn off the torch mode. + * 3. After the framework turned on the torch mode of some other camera + * device and HAL had to turn off the torch modes of any camera devices + * that were previously on. + */ + TORCH_MODE_STATUS_AVAILABLE_OFF = 1, + + /** + * A torch mode has become on and available to be turned off via + * set_torch_mode(). This can happen only after set_torch_mode() is called + * to turn on the torch mode. + */ + TORCH_MODE_STATUS_AVAILABLE_ON = 2, + +} torch_mode_status_t; + +/** + * Callback functions for the camera HAL module to use to inform the framework + * of changes to the camera subsystem. + * + * Version information (based on camera_module_t.common.module_api_version): + * + * Each callback is called only by HAL modules implementing the indicated + * version or higher of the HAL module API interface. + * + * CAMERA_MODULE_API_VERSION_2_1: + * camera_device_status_change() + * + * CAMERA_MODULE_API_VERSION_2_4: + * torch_mode_status_change() + + */ +typedef struct camera_module_callbacks { + + /** + * camera_device_status_change: + * + * Callback to the framework to indicate that the state of a specific camera + * device has changed. At module load time, the framework will assume all + * camera devices are in the CAMERA_DEVICE_STATUS_PRESENT state. The HAL + * must call this method to inform the framework of any initially + * NOT_PRESENT devices. + * + * This callback is added for CAMERA_MODULE_API_VERSION_2_1. + * + * camera_module_callbacks: The instance of camera_module_callbacks_t passed + * to the module with set_callbacks. + * + * camera_id: The ID of the camera device that has a new status. + * + * new_status: The new status code, one of the camera_device_status_t enums, + * or a platform-specific status. + * + */ + void (*camera_device_status_change)(const struct camera_module_callbacks*, + int camera_id, + int new_status); + + /** + * torch_mode_status_change: + * + * Callback to the framework to indicate that the state of the torch mode + * of the flash unit associated with a specific camera device has changed. + * At module load time, the framework will assume the torch modes are in + * the TORCH_MODE_STATUS_AVAILABLE_OFF state if android.flash.info.available + * is reported as true via get_camera_info() call. + * + * This callback is added for CAMERA_MODULE_API_VERSION_2_4. + * + * camera_module_callbacks: The instance of camera_module_callbacks_t + * passed to the module with set_callbacks. + * + * camera_id: The ID of camera device whose flash unit has a new torch mode + * status. + * + * new_status: The new status code, one of the torch_mode_status_t enums. + */ + void (*torch_mode_status_change)(const struct camera_module_callbacks*, + const char* camera_id, + int new_status); + + +} camera_module_callbacks_t; + +typedef struct camera_module { + /** + * Common methods of the camera module. This *must* be the first member of + * camera_module as users of this structure will cast a hw_module_t to + * camera_module pointer in contexts where it's known the hw_module_t + * references a camera_module. + * + * The return values for common.methods->open for camera_module are: + * + * 0: On a successful open of the camera device. + * + * -ENODEV: The camera device cannot be opened due to an internal + * error. + * + * -EINVAL: The input arguments are invalid, i.e. the id is invalid, + * and/or the module is invalid. + * + * -EBUSY: The camera device was already opened for this camera id + * (by using this method or open_legacy), + * regardless of the device HAL version it was opened as. + * + * -EUSERS: The maximal number of camera devices that can be + * opened concurrently were opened already, either by + * this method or the open_legacy method. + * + * All other return values from common.methods->open will be treated as + * -ENODEV. + */ + hw_module_t common; + + /** + * get_number_of_cameras: + * + * Returns the number of camera devices accessible through the camera + * module. The camera devices are numbered 0 through N-1, where N is the + * value returned by this call. The name of the camera device for open() is + * simply the number converted to a string. That is, "0" for camera ID 0, + * "1" for camera ID 1. + * + * Version information (based on camera_module_t.common.module_api_version): + * + * CAMERA_MODULE_API_VERSION_2_3 or lower: + * + * The value here must be static, and cannot change after the first call + * to this method. + * + * CAMERA_MODULE_API_VERSION_2_4 or higher: + * + * The value here must be static, and must count only built-in cameras, + * which have CAMERA_FACING_BACK or CAMERA_FACING_FRONT camera facing values + * (camera_info.facing). The HAL must not include the external cameras + * (camera_info.facing == CAMERA_FACING_EXTERNAL) into the return value + * of this call. Frameworks will use camera_device_status_change callback + * to manage number of external cameras. + */ + int (*get_number_of_cameras)(void); + + /** + * get_camera_info: + * + * Return the static camera information for a given camera device. This + * information may not change for a camera device. + * + * Return values: + * + * 0: On a successful operation + * + * -ENODEV: The information cannot be provided due to an internal + * error. + * + * -EINVAL: The input arguments are invalid, i.e. the id is invalid, + * and/or the module is invalid. + * + * Version information (based on camera_module_t.common.module_api_version): + * + * CAMERA_MODULE_API_VERSION_2_4 or higher: + * + * When a camera is disconnected, its camera id becomes invalid. Calling this + * this method with this invalid camera id will get -EINVAL and NULL camera + * static metadata (camera_info.static_camera_characteristics). + */ + int (*get_camera_info)(int camera_id, struct camera_info *info); + + /** + * set_callbacks: + * + * Provide callback function pointers to the HAL module to inform framework + * of asynchronous camera module events. The framework will call this + * function once after initial camera HAL module load, after the + * get_number_of_cameras() method is called for the first time, and before + * any other calls to the module. + * + * Version information (based on camera_module_t.common.module_api_version): + * + * CAMERA_MODULE_API_VERSION_1_0, CAMERA_MODULE_API_VERSION_2_0: + * + * Not provided by HAL module. Framework may not call this function. + * + * CAMERA_MODULE_API_VERSION_2_1: + * + * Valid to be called by the framework. + * + * Return values: + * + * 0: On a successful operation + * + * -ENODEV: The operation cannot be completed due to an internal + * error. + * + * -EINVAL: The input arguments are invalid, i.e. the callbacks are + * null + */ + int (*set_callbacks)(const camera_module_callbacks_t *callbacks); + + /** + * get_vendor_tag_ops: + * + * Get methods to query for vendor extension metadata tag information. The + * HAL should fill in all the vendor tag operation methods, or leave ops + * unchanged if no vendor tags are defined. + * + * The vendor_tag_ops structure used here is defined in: + * system/media/camera/include/system/vendor_tags.h + * + * Version information (based on camera_module_t.common.module_api_version): + * + * CAMERA_MODULE_API_VERSION_1_x/2_0/2_1: + * Not provided by HAL module. Framework may not call this function. + * + * CAMERA_MODULE_API_VERSION_2_2: + * Valid to be called by the framework. + */ + void (*get_vendor_tag_ops)(vendor_tag_ops_t* ops); + + /** + * open_legacy: + * + * Open a specific legacy camera HAL device if multiple device HAL API + * versions are supported by this camera HAL module. For example, if the + * camera module supports both CAMERA_DEVICE_API_VERSION_1_0 and + * CAMERA_DEVICE_API_VERSION_3_2 device API for the same camera id, + * framework can call this function to open the camera device as + * CAMERA_DEVICE_API_VERSION_1_0 device. + * + * This is an optional method. A Camera HAL module does not need to support + * more than one device HAL version per device, and such modules may return + * -ENOSYS for all calls to this method. For all older HAL device API + * versions that are not supported, it may return -EOPNOTSUPP. When above + * cases occur, The normal open() method (common.methods->open) will be + * used by the framework instead. + * + * Version information (based on camera_module_t.common.module_api_version): + * + * CAMERA_MODULE_API_VERSION_1_x/2_0/2_1/2_2: + * Not provided by HAL module. Framework will not call this function. + * + * CAMERA_MODULE_API_VERSION_2_3: + * Valid to be called by the framework. + * + * Return values: + * + * 0: On a successful open of the camera device. + * + * -ENOSYS This method is not supported. + * + * -EOPNOTSUPP: The requested HAL version is not supported by this method. + * + * -EINVAL: The input arguments are invalid, i.e. the id is invalid, + * and/or the module is invalid. + * + * -EBUSY: The camera device was already opened for this camera id + * (by using this method or common.methods->open method), + * regardless of the device HAL version it was opened as. + * + * -EUSERS: The maximal number of camera devices that can be + * opened concurrently were opened already, either by + * this method or common.methods->open method. + */ + int (*open_legacy)(const struct hw_module_t* module, const char* id, + uint32_t halVersion, struct hw_device_t** device); + + /** + * set_torch_mode: + * + * Turn on or off the torch mode of the flash unit associated with a given + * camera ID. If the operation is successful, HAL must notify the framework + * torch state by invoking + * camera_module_callbacks.torch_mode_status_change() with the new state. + * + * The camera device has a higher priority accessing the flash unit. When + * there are any resource conflicts, such as open() is called to open a + * camera device, HAL module must notify the framework through + * camera_module_callbacks.torch_mode_status_change() that the + * torch mode has been turned off and the torch mode state has become + * TORCH_MODE_STATUS_NOT_AVAILABLE. When resources to turn on torch mode + * become available again, HAL module must notify the framework through + * camera_module_callbacks.torch_mode_status_change() that the torch mode + * state has become TORCH_MODE_STATUS_AVAILABLE_OFF for set_torch_mode() to + * be called. + * + * When the framework calls set_torch_mode() to turn on the torch mode of a + * flash unit, if HAL cannot keep multiple torch modes on simultaneously, + * HAL should turn off the torch mode that was turned on by + * a previous set_torch_mode() call and notify the framework that the torch + * mode state of that flash unit has become TORCH_MODE_STATUS_AVAILABLE_OFF. + * + * Version information (based on camera_module_t.common.module_api_version): + * + * CAMERA_MODULE_API_VERSION_1_x/2_0/2_1/2_2/2_3: + * Not provided by HAL module. Framework will not call this function. + * + * CAMERA_MODULE_API_VERSION_2_4: + * Valid to be called by the framework. + * + * Return values: + * + * 0: On a successful operation. + * + * -ENOSYS: The camera device does not support this operation. It is + * returned if and only if android.flash.info.available is + * false. + * + * -EBUSY: The camera device is already in use. + * + * -EUSERS: The resources needed to turn on the torch mode are not + * available, typically because other camera devices are + * holding the resources to make using the flash unit not + * possible. + * + * -EINVAL: camera_id is invalid. + * + */ + int (*set_torch_mode)(const char* camera_id, bool enabled); + + /** + * init: + * + * This method is called by the camera service before any other methods + * are invoked, right after the camera HAL library has been successfully + * loaded. It may be left as NULL by the HAL module, if no initialization + * in needed. + * + * It can be used by HAL implementations to perform initialization and + * other one-time operations. + * + * Version information (based on camera_module_t.common.module_api_version): + * + * CAMERA_MODULE_API_VERSION_1_x/2_0/2_1/2_2/2_3: + * Not provided by HAL module. Framework will not call this function. + * + * CAMERA_MODULE_API_VERSION_2_4: + * If not NULL, will always be called by the framework once after the HAL + * module is loaded, before any other HAL module method is called. + * + * Return values: + * + * 0: On a successful operation. + * + * -ENODEV: Initialization cannot be completed due to an internal + * error. The HAL must be assumed to be in a nonfunctional + * state. + * + */ + int (*init)(); + + /* reserved for future use */ + void* reserved[5]; +} camera_module_t; + +__END_DECLS + +#endif /* ANDROID_INCLUDE_CAMERA_COMMON_H */ diff --git a/include/android/hardware/libhardware/include/hardware/fb.h b/include/android/hardware/libhardware/include/hardware/fb.h new file mode 100644 index 00000000..9df94165 --- /dev/null +++ b/include/android/hardware/libhardware/include/hardware/fb.h @@ -0,0 +1,173 @@ +/* + * Copyright (C) 2008 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. + */ + + +#ifndef ANDROID_FB_INTERFACE_H +#define ANDROID_FB_INTERFACE_H + +#include <stdint.h> +#include <sys/cdefs.h> +#include <sys/types.h> + +#include <cutils/native_handle.h> + +#include <hardware/hardware.h> + +__BEGIN_DECLS + +#define GRALLOC_HARDWARE_FB0 "fb0" + +/*****************************************************************************/ + + +/*****************************************************************************/ + +typedef struct framebuffer_device_t { + /** + * Common methods of the framebuffer device. This *must* be the first member of + * framebuffer_device_t as users of this structure will cast a hw_device_t to + * framebuffer_device_t pointer in contexts where it's known the hw_device_t references a + * framebuffer_device_t. + */ + struct hw_device_t common; + + /* flags describing some attributes of the framebuffer */ + const uint32_t flags; + + /* dimensions of the framebuffer in pixels */ + const uint32_t width; + const uint32_t height; + + /* frambuffer stride in pixels */ + const int stride; + + /* framebuffer pixel format */ + const int format; + + /* resolution of the framebuffer's display panel in pixel per inch*/ + const float xdpi; + const float ydpi; + + /* framebuffer's display panel refresh rate in frames per second */ + const float fps; + + /* min swap interval supported by this framebuffer */ + const int minSwapInterval; + + /* max swap interval supported by this framebuffer */ + const int maxSwapInterval; + + /* Number of framebuffers supported*/ + const int numFramebuffers; + + int reserved[7]; + + /* + * requests a specific swap-interval (same definition than EGL) + * + * Returns 0 on success or -errno on error. + */ + int (*setSwapInterval)(struct framebuffer_device_t* window, + int interval); + + /* + * This hook is OPTIONAL. + * + * It is non NULL If the framebuffer driver supports "update-on-demand" + * and the given rectangle is the area of the screen that gets + * updated during (*post)(). + * + * This is useful on devices that are able to DMA only a portion of + * the screen to the display panel, upon demand -- as opposed to + * constantly refreshing the panel 60 times per second, for instance. + * + * Only the area defined by this rectangle is guaranteed to be valid, that + * is, the driver is not allowed to post anything outside of this + * rectangle. + * + * The rectangle evaluated during (*post)() and specifies which area + * of the buffer passed in (*post)() shall to be posted. + * + * return -EINVAL if width or height <=0, or if left or top < 0 + */ + int (*setUpdateRect)(struct framebuffer_device_t* window, + int left, int top, int width, int height); + + /* + * Post <buffer> to the display (display it on the screen) + * The buffer must have been allocated with the + * GRALLOC_USAGE_HW_FB usage flag. + * buffer must be the same width and height as the display and must NOT + * be locked. + * + * The buffer is shown during the next VSYNC. + * + * If the same buffer is posted again (possibly after some other buffer), + * post() will block until the the first post is completed. + * + * Internally, post() is expected to lock the buffer so that a + * subsequent call to gralloc_module_t::(*lock)() with USAGE_RENDER or + * USAGE_*_WRITE will block until it is safe; that is typically once this + * buffer is shown and another buffer has been posted. + * + * Returns 0 on success or -errno on error. + */ + int (*post)(struct framebuffer_device_t* dev, buffer_handle_t buffer); + + + /* + * The (*compositionComplete)() method must be called after the + * compositor has finished issuing GL commands for client buffers. + */ + + int (*compositionComplete)(struct framebuffer_device_t* dev); + + /* + * This hook is OPTIONAL. + * + * If non NULL it will be caused by SurfaceFlinger on dumpsys + */ + void (*dump)(struct framebuffer_device_t* dev, char *buff, int buff_len); + + /* + * (*enableScreen)() is used to either blank (enable=0) or + * unblank (enable=1) the screen this framebuffer is attached to. + * + * Returns 0 on success or -errno on error. + */ + int (*enableScreen)(struct framebuffer_device_t* dev, int enable); + + void* reserved_proc[6]; + +} framebuffer_device_t; + + +/** convenience API for opening and closing a supported device */ + +static inline int framebuffer_open(const struct hw_module_t* module, + struct framebuffer_device_t** device) { + return module->methods->open(module, + GRALLOC_HARDWARE_FB0, (struct hw_device_t**)device); +} + +static inline int framebuffer_close(struct framebuffer_device_t* device) { + return device->common.close(&device->common); +} + + +__END_DECLS + +#endif // ANDROID_FB_INTERFACE_H diff --git a/include/android/hardware/libhardware/include/hardware/gralloc.h b/include/android/hardware/libhardware/include/hardware/gralloc.h new file mode 100644 index 00000000..ef86f903 --- /dev/null +++ b/include/android/hardware/libhardware/include/hardware/gralloc.h @@ -0,0 +1,384 @@ +/* + * Copyright (C) 2008 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. + */ + + +#ifndef ANDROID_GRALLOC_INTERFACE_H +#define ANDROID_GRALLOC_INTERFACE_H + +#include <system/window.h> +#include <system/graphics.h> +#include <hardware/hardware.h> + +#include <stdint.h> +#include <sys/cdefs.h> +#include <sys/types.h> + +#include <cutils/native_handle.h> + +#include <hardware/hardware.h> +#include <hardware/fb.h> + +__BEGIN_DECLS + +/** + * Module versioning information for the Gralloc hardware module, based on + * gralloc_module_t.common.module_api_version. + * + * Version History: + * + * GRALLOC_MODULE_API_VERSION_0_1: + * Initial Gralloc hardware module API. + * + * GRALLOC_MODULE_API_VERSION_0_2: + * Add support for flexible YCbCr format with (*lock_ycbcr)() method. + * + * GRALLOC_MODULE_API_VERSION_0_3: + * Add support for fence passing to/from lock/unlock. + */ + +#define GRALLOC_MODULE_API_VERSION_0_1 HARDWARE_MODULE_API_VERSION(0, 1) +#define GRALLOC_MODULE_API_VERSION_0_2 HARDWARE_MODULE_API_VERSION(0, 2) +#define GRALLOC_MODULE_API_VERSION_0_3 HARDWARE_MODULE_API_VERSION(0, 3) + +#define GRALLOC_DEVICE_API_VERSION_0_1 HARDWARE_DEVICE_API_VERSION(0, 1) + +/** + * The id of this module + */ +#define GRALLOC_HARDWARE_MODULE_ID "gralloc" + +/** + * Name of the graphics device to open + */ + +#define GRALLOC_HARDWARE_GPU0 "gpu0" + +enum { + /* buffer is never read in software */ + GRALLOC_USAGE_SW_READ_NEVER = 0x00000000, + /* buffer is rarely read in software */ + GRALLOC_USAGE_SW_READ_RARELY = 0x00000002, + /* buffer is often read in software */ + GRALLOC_USAGE_SW_READ_OFTEN = 0x00000003, + /* mask for the software read values */ + GRALLOC_USAGE_SW_READ_MASK = 0x0000000F, + + /* buffer is never written in software */ + GRALLOC_USAGE_SW_WRITE_NEVER = 0x00000000, + /* buffer is rarely written in software */ + GRALLOC_USAGE_SW_WRITE_RARELY = 0x00000020, + /* buffer is often written in software */ + GRALLOC_USAGE_SW_WRITE_OFTEN = 0x00000030, + /* mask for the software write values */ + GRALLOC_USAGE_SW_WRITE_MASK = 0x000000F0, + + /* buffer will be used as an OpenGL ES texture */ + GRALLOC_USAGE_HW_TEXTURE = 0x00000100, + /* buffer will be used as an OpenGL ES render target */ + GRALLOC_USAGE_HW_RENDER = 0x00000200, + /* buffer will be used by the 2D hardware blitter */ + GRALLOC_USAGE_HW_2D = 0x00000400, + /* buffer will be used by the HWComposer HAL module */ + GRALLOC_USAGE_HW_COMPOSER = 0x00000800, + /* buffer will be used with the framebuffer device */ + GRALLOC_USAGE_HW_FB = 0x00001000, + + /* buffer should be displayed full-screen on an external display when + * possible */ + GRALLOC_USAGE_EXTERNAL_DISP = 0x00002000, + + /* Must have a hardware-protected path to external display sink for + * this buffer. If a hardware-protected path is not available, then + * either don't composite only this buffer (preferred) to the + * external sink, or (less desirable) do not route the entire + * composition to the external sink. */ + GRALLOC_USAGE_PROTECTED = 0x00004000, + + /* buffer may be used as a cursor */ + GRALLOC_USAGE_CURSOR = 0x00008000, + + /* buffer will be used with the HW video encoder */ + GRALLOC_USAGE_HW_VIDEO_ENCODER = 0x00010000, + /* buffer will be written by the HW camera pipeline */ + GRALLOC_USAGE_HW_CAMERA_WRITE = 0x00020000, + /* buffer will be read by the HW camera pipeline */ + GRALLOC_USAGE_HW_CAMERA_READ = 0x00040000, + /* buffer will be used as part of zero-shutter-lag queue */ + GRALLOC_USAGE_HW_CAMERA_ZSL = 0x00060000, + /* mask for the camera access values */ + GRALLOC_USAGE_HW_CAMERA_MASK = 0x00060000, + /* mask for the software usage bit-mask */ + GRALLOC_USAGE_HW_MASK = 0x00071F00, + + /* buffer will be used as a RenderScript Allocation */ + GRALLOC_USAGE_RENDERSCRIPT = 0x00100000, + + /* Set by the consumer to indicate to the producer that they may attach a + * buffer that they did not detach from the BufferQueue. Will be filtered + * out by GRALLOC_USAGE_ALLOC_MASK, so gralloc modules will not need to + * handle this flag. */ + GRALLOC_USAGE_FOREIGN_BUFFERS = 0x00200000, + + /* Mask of all flags which could be passed to a gralloc module for buffer + * allocation. Any flags not in this mask do not need to be handled by + * gralloc modules. */ + GRALLOC_USAGE_ALLOC_MASK = ~(GRALLOC_USAGE_FOREIGN_BUFFERS), + + /* implementation-specific private usage flags */ + GRALLOC_USAGE_PRIVATE_0 = 0x10000000, + GRALLOC_USAGE_PRIVATE_1 = 0x20000000, + GRALLOC_USAGE_PRIVATE_2 = 0x40000000, + GRALLOC_USAGE_PRIVATE_3 = 0x80000000, + GRALLOC_USAGE_PRIVATE_MASK = 0xF0000000, +}; + +/*****************************************************************************/ + +/** + * Every hardware module must have a data structure named HAL_MODULE_INFO_SYM + * and the fields of this data structure must begin with hw_module_t + * followed by module specific information. + */ +typedef struct gralloc_module_t { + struct hw_module_t common; + + /* + * (*registerBuffer)() must be called before a buffer_handle_t that has not + * been created with (*alloc_device_t::alloc)() can be used. + * + * This is intended to be used with buffer_handle_t's that have been + * received in this process through IPC. + * + * This function checks that the handle is indeed a valid one and prepares + * it for use with (*lock)() and (*unlock)(). + * + * It is not necessary to call (*registerBuffer)() on a handle created + * with (*alloc_device_t::alloc)(). + * + * returns an error if this buffer_handle_t is not valid. + */ + int (*registerBuffer)(struct gralloc_module_t const* module, + buffer_handle_t handle); + + /* + * (*unregisterBuffer)() is called once this handle is no longer needed in + * this process. After this call, it is an error to call (*lock)(), + * (*unlock)(), or (*registerBuffer)(). + * + * This function doesn't close or free the handle itself; this is done + * by other means, usually through libcutils's native_handle_close() and + * native_handle_free(). + * + * It is an error to call (*unregisterBuffer)() on a buffer that wasn't + * explicitly registered first. + */ + int (*unregisterBuffer)(struct gralloc_module_t const* module, + buffer_handle_t handle); + + /* + * The (*lock)() method is called before a buffer is accessed for the + * specified usage. This call may block, for instance if the h/w needs + * to finish rendering or if CPU caches need to be synchronized. + * + * The caller promises to modify only pixels in the area specified + * by (l,t,w,h). + * + * The content of the buffer outside of the specified area is NOT modified + * by this call. + * + * If usage specifies GRALLOC_USAGE_SW_*, vaddr is filled with the address + * of the buffer in virtual memory. + * + * Note calling (*lock)() on HAL_PIXEL_FORMAT_YCbCr_*_888 buffers will fail + * and return -EINVAL. These buffers must be locked with (*lock_ycbcr)() + * instead. + * + * THREADING CONSIDERATIONS: + * + * It is legal for several different threads to lock a buffer from + * read access, none of the threads are blocked. + * + * However, locking a buffer simultaneously for write or read/write is + * undefined, but: + * - shall not result in termination of the process + * - shall not block the caller + * It is acceptable to return an error or to leave the buffer's content + * into an indeterminate state. + * + * If the buffer was created with a usage mask incompatible with the + * requested usage flags here, -EINVAL is returned. + * + */ + + int (*lock)(struct gralloc_module_t const* module, + buffer_handle_t handle, int usage, + int l, int t, int w, int h, + void** vaddr); + + + /* + * The (*unlock)() method must be called after all changes to the buffer + * are completed. + */ + + int (*unlock)(struct gralloc_module_t const* module, + buffer_handle_t handle); + + + /* reserved for future use */ + int (*perform)(struct gralloc_module_t const* module, + int operation, ... ); + + /* + * The (*lock_ycbcr)() method is like the (*lock)() method, with the + * difference that it fills a struct ycbcr with a description of the buffer + * layout, and zeroes out the reserved fields. + * + * If the buffer format is not compatible with a flexible YUV format (e.g. + * the buffer layout cannot be represented with the ycbcr struct), it + * will return -EINVAL. + * + * This method must work on buffers with HAL_PIXEL_FORMAT_YCbCr_*_888 + * if supported by the device, as well as with any other format that is + * requested by the multimedia codecs when they are configured with a + * flexible-YUV-compatible color-format with android native buffers. + * + * Note that this method may also be called on buffers of other formats, + * including non-YUV formats. + * + * Added in GRALLOC_MODULE_API_VERSION_0_2. + */ + + int (*lock_ycbcr)(struct gralloc_module_t const* module, + buffer_handle_t handle, int usage, + int l, int t, int w, int h, + struct android_ycbcr *ycbcr); + + /* + * The (*lockAsync)() method is like the (*lock)() method except + * that the buffer's sync fence object is passed into the lock + * call instead of requiring the caller to wait for completion. + * + * The gralloc implementation takes ownership of the fenceFd and + * is responsible for closing it when no longer needed. + * + * Added in GRALLOC_MODULE_API_VERSION_0_3. + */ + int (*lockAsync)(struct gralloc_module_t const* module, + buffer_handle_t handle, int usage, + int l, int t, int w, int h, + void** vaddr, int fenceFd); + + /* + * The (*unlockAsync)() method is like the (*unlock)() method + * except that a buffer sync fence object is returned from the + * lock call, representing the completion of any pending work + * performed by the gralloc implementation. + * + * The caller takes ownership of the fenceFd and is responsible + * for closing it when no longer needed. + * + * Added in GRALLOC_MODULE_API_VERSION_0_3. + */ + int (*unlockAsync)(struct gralloc_module_t const* module, + buffer_handle_t handle, int* fenceFd); + + /* + * The (*lockAsync_ycbcr)() method is like the (*lock_ycbcr)() + * method except that the buffer's sync fence object is passed + * into the lock call instead of requiring the caller to wait for + * completion. + * + * The gralloc implementation takes ownership of the fenceFd and + * is responsible for closing it when no longer needed. + * + * Added in GRALLOC_MODULE_API_VERSION_0_3. + */ + int (*lockAsync_ycbcr)(struct gralloc_module_t const* module, + buffer_handle_t handle, int usage, + int l, int t, int w, int h, + struct android_ycbcr *ycbcr, int fenceFd); + + /* reserved for future use */ + void* reserved_proc[3]; +} gralloc_module_t; + +/*****************************************************************************/ + +/** + * Every device data structure must begin with hw_device_t + * followed by module specific public methods and attributes. + */ + +typedef struct alloc_device_t { + struct hw_device_t common; + + /* + * (*alloc)() Allocates a buffer in graphic memory with the requested + * parameters and returns a buffer_handle_t and the stride in pixels to + * allow the implementation to satisfy hardware constraints on the width + * of a pixmap (eg: it may have to be multiple of 8 pixels). + * The CALLER TAKES OWNERSHIP of the buffer_handle_t. + * + * If format is HAL_PIXEL_FORMAT_YCbCr_420_888, the returned stride must be + * 0, since the actual strides are available from the android_ycbcr + * structure. + * + * Returns 0 on success or -errno on error. + */ + + int (*alloc)(struct alloc_device_t* dev, + int w, int h, int format, int usage, + buffer_handle_t* handle, int* stride); + + /* + * (*free)() Frees a previously allocated buffer. + * Behavior is undefined if the buffer is still mapped in any process, + * but shall not result in termination of the program or security breaches + * (allowing a process to get access to another process' buffers). + * THIS FUNCTION TAKES OWNERSHIP of the buffer_handle_t which becomes + * invalid after the call. + * + * Returns 0 on success or -errno on error. + */ + int (*free)(struct alloc_device_t* dev, + buffer_handle_t handle); + + /* This hook is OPTIONAL. + * + * If non NULL it will be caused by SurfaceFlinger on dumpsys + */ + void (*dump)(struct alloc_device_t *dev, char *buff, int buff_len); + + void* reserved_proc[7]; +} alloc_device_t; + + +/** convenience API for opening and closing a supported device */ + +static inline int gralloc_open(const struct hw_module_t* module, + struct alloc_device_t** device) { + return module->methods->open(module, + GRALLOC_HARDWARE_GPU0, (struct hw_device_t**)device); +} + +static inline int gralloc_close(struct alloc_device_t* device) { + return device->common.close(&device->common); +} + +__END_DECLS + +#endif // ANDROID_GRALLOC_INTERFACE_H diff --git a/include/android/hardware/libhardware/include/hardware/hardware.h b/include/android/hardware/libhardware/include/hardware/hardware.h new file mode 100644 index 00000000..74f57aa4 --- /dev/null +++ b/include/android/hardware/libhardware/include/hardware/hardware.h @@ -0,0 +1,238 @@ +/* + * Copyright (C) 2008 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. + */ + +#ifndef ANDROID_INCLUDE_HARDWARE_HARDWARE_H +#define ANDROID_INCLUDE_HARDWARE_HARDWARE_H + +#include <stdint.h> +#include <sys/cdefs.h> + +#include <cutils/native_handle.h> +#include <system/graphics.h> + +__BEGIN_DECLS + +/* + * Value for the hw_module_t.tag field + */ + +#define MAKE_TAG_CONSTANT(A,B,C,D) (((A) << 24) | ((B) << 16) | ((C) << 8) | (D)) + +#define HARDWARE_MODULE_TAG MAKE_TAG_CONSTANT('H', 'W', 'M', 'T') +#define HARDWARE_DEVICE_TAG MAKE_TAG_CONSTANT('H', 'W', 'D', 'T') + +#define HARDWARE_MAKE_API_VERSION(maj,min) \ + ((((maj) & 0xff) << 8) | ((min) & 0xff)) + +#define HARDWARE_MAKE_API_VERSION_2(maj,min,hdr) \ + ((((maj) & 0xff) << 24) | (((min) & 0xff) << 16) | ((hdr) & 0xffff)) +#define HARDWARE_API_VERSION_2_MAJ_MIN_MASK 0xffff0000 +#define HARDWARE_API_VERSION_2_HEADER_MASK 0x0000ffff + + +/* + * The current HAL API version. + * + * All module implementations must set the hw_module_t.hal_api_version field + * to this value when declaring the module with HAL_MODULE_INFO_SYM. + * + * Note that previous implementations have always set this field to 0. + * Therefore, libhardware HAL API will always consider versions 0.0 and 1.0 + * to be 100% binary compatible. + * + */ +#define HARDWARE_HAL_API_VERSION HARDWARE_MAKE_API_VERSION(1, 0) + +/* + * Helper macros for module implementors. + * + * The derived modules should provide convenience macros for supported + * versions so that implementations can explicitly specify module/device + * versions at definition time. + * + * Use this macro to set the hw_module_t.module_api_version field. + */ +#define HARDWARE_MODULE_API_VERSION(maj,min) HARDWARE_MAKE_API_VERSION(maj,min) +#define HARDWARE_MODULE_API_VERSION_2(maj,min,hdr) HARDWARE_MAKE_API_VERSION_2(maj,min,hdr) + +/* + * Use this macro to set the hw_device_t.version field + */ +#define HARDWARE_DEVICE_API_VERSION(maj,min) HARDWARE_MAKE_API_VERSION(maj,min) +#define HARDWARE_DEVICE_API_VERSION_2(maj,min,hdr) HARDWARE_MAKE_API_VERSION_2(maj,min,hdr) + +struct hw_module_t; +struct hw_module_methods_t; +struct hw_device_t; + +/** + * Every hardware module must have a data structure named HAL_MODULE_INFO_SYM + * and the fields of this data structure must begin with hw_module_t + * followed by module specific information. + */ +typedef struct hw_module_t { + /** tag must be initialized to HARDWARE_MODULE_TAG */ + uint32_t tag; + + /** + * The API version of the implemented module. The module owner is + * responsible for updating the version when a module interface has + * changed. + * + * The derived modules such as gralloc and audio own and manage this field. + * The module user must interpret the version field to decide whether or + * not to inter-operate with the supplied module implementation. + * For example, SurfaceFlinger is responsible for making sure that + * it knows how to manage different versions of the gralloc-module API, + * and AudioFlinger must know how to do the same for audio-module API. + * + * The module API version should include a major and a minor component. + * For example, version 1.0 could be represented as 0x0100. This format + * implies that versions 0x0100-0x01ff are all API-compatible. + * + * In the future, libhardware will expose a hw_get_module_version() + * (or equivalent) function that will take minimum/maximum supported + * versions as arguments and would be able to reject modules with + * versions outside of the supplied range. + */ + uint16_t module_api_version; +#define version_major module_api_version + /** + * version_major/version_minor defines are supplied here for temporary + * source code compatibility. They will be removed in the next version. + * ALL clients must convert to the new version format. + */ + + /** + * The API version of the HAL module interface. This is meant to + * version the hw_module_t, hw_module_methods_t, and hw_device_t + * structures and definitions. + * + * The HAL interface owns this field. Module users/implementations + * must NOT rely on this value for version information. + * + * Presently, 0 is the only valid value. + */ + uint16_t hal_api_version; +#define version_minor hal_api_version + + /** Identifier of module */ + const char *id; + + /** Name of this module */ + const char *name; + + /** Author/owner/implementor of the module */ + const char *author; + + /** Modules methods */ + struct hw_module_methods_t* methods; + + /** module's dso */ + void* dso; + +#ifdef __LP64__ + uint64_t reserved[32-7]; +#else + /** padding to 128 bytes, reserved for future use */ + uint32_t reserved[32-7]; +#endif + +} hw_module_t; + +typedef struct hw_module_methods_t { + /** Open a specific device */ + int (*open)(const struct hw_module_t* module, const char* id, + struct hw_device_t** device); + +} hw_module_methods_t; + +/** + * Every device data structure must begin with hw_device_t + * followed by module specific public methods and attributes. + */ +typedef struct hw_device_t { + /** tag must be initialized to HARDWARE_DEVICE_TAG */ + uint32_t tag; + + /** + * Version of the module-specific device API. This value is used by + * the derived-module user to manage different device implementations. + * + * The module user is responsible for checking the module_api_version + * and device version fields to ensure that the user is capable of + * communicating with the specific module implementation. + * + * One module can support multiple devices with different versions. This + * can be useful when a device interface changes in an incompatible way + * but it is still necessary to support older implementations at the same + * time. One such example is the Camera 2.0 API. + * + * This field is interpreted by the module user and is ignored by the + * HAL interface itself. + */ + uint32_t version; + + /** reference to the module this device belongs to */ + struct hw_module_t* module; + + /** padding reserved for future use */ +#ifdef __LP64__ + uint64_t reserved[12]; +#else + uint32_t reserved[12]; +#endif + + /** Close this device */ + int (*close)(struct hw_device_t* device); + +} hw_device_t; + +/** + * Name of the hal_module_info + */ +#define HAL_MODULE_INFO_SYM HMI + +/** + * Name of the hal_module_info as a string + */ +#define HAL_MODULE_INFO_SYM_AS_STR "HMI" + +/** + * Get the module info associated with a module by id. + * + * @return: 0 == success, <0 == error and *module == NULL + */ +int hw_get_module(const char *id, const struct hw_module_t **module); + +/** + * Get the module info associated with a module instance by class 'class_id' + * and instance 'inst'. + * + * Some modules types necessitate multiple instances. For example audio supports + * multiple concurrent interfaces and thus 'audio' is the module class + * and 'primary' or 'a2dp' are module interfaces. This implies that the files + * providing these modules would be named audio.primary.<variant>.so and + * audio.a2dp.<variant>.so + * + * @return: 0 == success, <0 == error and *module == NULL + */ +int hw_get_module_by_class(const char *class_id, const char *inst, + const struct hw_module_t **module); + +__END_DECLS + +#endif /* ANDROID_INCLUDE_HARDWARE_HARDWARE_H */ diff --git a/include/android/meson.build b/include/android/meson.build new file mode 100644 index 00000000..69f1c38e --- /dev/null +++ b/include/android/meson.build @@ -0,0 +1,5 @@ +android_includes = ([ + include_directories('hardware/libhardware/include/'), + include_directories('metadata/'), + include_directories('system/core/include'), +]) diff --git a/include/android/metadata/camera_metadata_hidden.h b/include/android/metadata/camera_metadata_hidden.h new file mode 100644 index 00000000..31f1ad19 --- /dev/null +++ b/include/android/metadata/camera_metadata_hidden.h @@ -0,0 +1,100 @@ +/* + * Copyright 2014 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. + */ + +#ifndef SYSTEM_MEDIA_PRIVATE_INCLUDE_CAMERA_METADATA_HIDDEN_H +#define SYSTEM_MEDIA_PRIVATE_INCLUDE_CAMERA_METADATA_HIDDEN_H + +#include <system/camera_vendor_tags.h> + +/** + * Error codes returned by vendor tags ops operations. These are intended + * to be used by all framework code that uses the return values from the + * vendor operations object. + */ +#define VENDOR_SECTION_NAME_ERR NULL +#define VENDOR_TAG_NAME_ERR NULL +#define VENDOR_TAG_COUNT_ERR (-1) +#define VENDOR_TAG_TYPE_ERR (-1) + +#ifdef __cplusplus +extern "C" { +#endif +/** **These are private functions for use only by the camera framework.** **/ + +/** + * Set the global vendor tag operations object used to define vendor tag + * structure when parsing camera metadata with functions defined in + * system/media/camera/include/camera_metadata.h. + */ +ANDROID_API +int set_camera_metadata_vendor_ops(const vendor_tag_ops_t *query_ops); + +/** + * Set the global vendor tag cache operations object used to define vendor tag + * structure when parsing camera metadata with functions defined in + * system/media/camera/include/camera_metadata.h. + */ +ANDROID_API +int set_camera_metadata_vendor_cache_ops( + const struct vendor_tag_cache_ops *query_cache_ops); + +/** + * Set the vendor id for a particular metadata buffer. + */ +ANDROID_API +void set_camera_metadata_vendor_id(camera_metadata_t *meta, + metadata_vendor_id_t id); + +/** + * Retrieve the vendor id for a particular metadata buffer. + */ +ANDROID_API +metadata_vendor_id_t get_camera_metadata_vendor_id( + const camera_metadata_t *meta); + +/** + * Retrieve the type of a tag. Returns -1 if no such tag is defined. + */ +ANDROID_API +int get_local_camera_metadata_tag_type_vendor_id(uint32_t tag, + metadata_vendor_id_t id); + +/** + * Retrieve the name of a tag. Returns NULL if no such tag is defined. + */ +ANDROID_API +const char *get_local_camera_metadata_tag_name_vendor_id(uint32_t tag, + metadata_vendor_id_t id); + +/** + * Retrieve the name of a tag section. Returns NULL if no such tag is defined. + */ +ANDROID_API +const char *get_local_camera_metadata_section_name_vendor_id(uint32_t tag, + metadata_vendor_id_t id); + +/** + * Retrieve the type of a tag. Returns -1 if no such tag is defined. + */ +ANDROID_API +int get_local_camera_metadata_tag_type_vendor_id(uint32_t tag, + metadata_vendor_id_t id); + +#ifdef __cplusplus +} /* extern "C" */ +#endif + +#endif /* SYSTEM_MEDIA_PRIVATE_INCLUDE_CAMERA_METADATA_HIDDEN_H */ diff --git a/include/android/metadata/system/camera_metadata.h b/include/android/metadata/system/camera_metadata.h new file mode 100644 index 00000000..46e7ac00 --- /dev/null +++ b/include/android/metadata/system/camera_metadata.h @@ -0,0 +1,580 @@ +/* + * 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 + * + * 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. + */ + +#ifndef SYSTEM_MEDIA_INCLUDE_ANDROID_CAMERA_METADATA_H +#define SYSTEM_MEDIA_INCLUDE_ANDROID_CAMERA_METADATA_H + +#include <string.h> +#include <stdint.h> +#include <cutils/compiler.h> + +#ifdef __cplusplus +extern "C" { +#endif + +/** + * Tag hierarchy and enum definitions for camera_metadata_entry + * ============================================================================= + */ + +/** + * Main enum definitions are in a separate file to make it easy to + * maintain + */ +#include "camera_metadata_tags.h" + +/** + * Enum range for each top-level category + */ +ANDROID_API +extern unsigned int camera_metadata_section_bounds[ANDROID_SECTION_COUNT][2]; +ANDROID_API +extern const char *camera_metadata_section_names[ANDROID_SECTION_COUNT]; + +/** + * Type definitions for camera_metadata_entry + * ============================================================================= + */ +enum { + // Unsigned 8-bit integer (uint8_t) + TYPE_BYTE = 0, + // Signed 32-bit integer (int32_t) + TYPE_INT32 = 1, + // 32-bit float (float) + TYPE_FLOAT = 2, + // Signed 64-bit integer (int64_t) + TYPE_INT64 = 3, + // 64-bit float (double) + TYPE_DOUBLE = 4, + // A 64-bit fraction (camera_metadata_rational_t) + TYPE_RATIONAL = 5, + // Number of type fields + NUM_TYPES +}; + +typedef struct camera_metadata_rational { + int32_t numerator; + int32_t denominator; +} camera_metadata_rational_t; + +/** + * A reference to a metadata entry in a buffer. + * + * The data union pointers point to the real data in the buffer, and can be + * modified in-place if the count does not need to change. The count is the + * number of entries in data of the entry's type, not a count of bytes. + */ +typedef struct camera_metadata_entry { + size_t index; + uint32_t tag; + uint8_t type; + size_t count; + union { + uint8_t *u8; + int32_t *i32; + float *f; + int64_t *i64; + double *d; + camera_metadata_rational_t *r; + } data; +} camera_metadata_entry_t; + +/** + * A read-only reference to a metadata entry in a buffer. Identical to + * camera_metadata_entry in layout + */ +typedef struct camera_metadata_ro_entry { + size_t index; + uint32_t tag; + uint8_t type; + size_t count; + union { + const uint8_t *u8; + const int32_t *i32; + const float *f; + const int64_t *i64; + const double *d; + const camera_metadata_rational_t *r; + } data; +} camera_metadata_ro_entry_t; + +/** + * Size in bytes of each entry type + */ +ANDROID_API +extern const size_t camera_metadata_type_size[NUM_TYPES]; + +/** + * Human-readable name of each entry type + */ +ANDROID_API +extern const char* camera_metadata_type_names[NUM_TYPES]; + +/** + * Main definitions for the metadata entry and array structures + * ============================================================================= + */ + +/** + * A packet of metadata. This is a list of metadata entries, each of which has + * an integer tag to identify its meaning, 'type' and 'count' field, and the + * data, which contains a 'count' number of entries of type 'type'. The packet + * has a fixed capacity for entries and for extra data. A new entry uses up one + * entry slot, and possibly some amount of data capacity; the function + * calculate_camera_metadata_entry_data_size() provides the amount of data + * capacity that would be used up by an entry. + * + * Entries are not sorted by default, and are not forced to be unique - multiple + * entries with the same tag are allowed. The packet will not dynamically resize + * when full. + * + * The packet is contiguous in memory, with size in bytes given by + * get_camera_metadata_size(). Therefore, it can be copied safely with memcpy() + * to a buffer of sufficient size. The copy_camera_metadata() function is + * intended for eliminating unused capacity in the destination packet. + */ +struct camera_metadata; +typedef struct camera_metadata camera_metadata_t; + +/** + * Functions for manipulating camera metadata + * ============================================================================= + * + * NOTE: Unless otherwise specified, functions that return type "int" + * return 0 on success, and non-0 value on error. + */ + +/** + * Allocate a new camera_metadata structure, with some initial space for entries + * and extra data. The entry_capacity is measured in entry counts, and + * data_capacity in bytes. The resulting structure is all contiguous in memory, + * and can be freed with free_camera_metadata(). + */ +ANDROID_API +camera_metadata_t *allocate_camera_metadata(size_t entry_capacity, + size_t data_capacity); + +/** + * Get the required alignment of a packet of camera metadata, which is the + * maximal alignment of the embedded camera_metadata, camera_metadata_buffer_entry, + * and camera_metadata_data. + */ +ANDROID_API +size_t get_camera_metadata_alignment(); + +/** + * Allocate a new camera_metadata structure of size src_size. Copy the data, + * ignoring alignment, and then attempt validation. If validation + * fails, free the memory and return NULL. Otherwise return the pointer. + * + * The resulting pointer can be freed with free_camera_metadata(). + */ +ANDROID_API +camera_metadata_t *allocate_copy_camera_metadata_checked( + const camera_metadata_t *src, + size_t src_size); + +/** + * Place a camera metadata structure into an existing buffer. Returns NULL if + * the buffer is too small for the requested number of reserved entries and + * bytes of data. The entry_capacity is measured in entry counts, and + * data_capacity in bytes. If the buffer is larger than the required space, + * unused space will be left at the end. If successful, returns a pointer to the + * metadata header placed at the start of the buffer. It is the caller's + * responsibility to free the original buffer; do not call + * free_camera_metadata() with the returned pointer. + */ +ANDROID_API +camera_metadata_t *place_camera_metadata(void *dst, size_t dst_size, + size_t entry_capacity, + size_t data_capacity); + +/** + * Free a camera_metadata structure. Should only be used with structures + * allocated with allocate_camera_metadata(). + */ +ANDROID_API +void free_camera_metadata(camera_metadata_t *metadata); + +/** + * Calculate the buffer size needed for a metadata structure of entry_count + * metadata entries, needing a total of data_count bytes of extra data storage. + */ +ANDROID_API +size_t calculate_camera_metadata_size(size_t entry_count, + size_t data_count); + +/** + * Get current size of entire metadata structure in bytes, including reserved + * but unused space. + */ +ANDROID_API +size_t get_camera_metadata_size(const camera_metadata_t *metadata); + +/** + * Get size of entire metadata buffer in bytes, not including reserved but + * unused space. This is the amount of space needed by copy_camera_metadata for + * its dst buffer. + */ +ANDROID_API +size_t get_camera_metadata_compact_size(const camera_metadata_t *metadata); + +/** + * Get the current number of entries in the metadata packet. + * + * metadata packet must be valid, which can be checked before the call with + * validate_camera_metadata_structure(). + */ +ANDROID_API +size_t get_camera_metadata_entry_count(const camera_metadata_t *metadata); + +/** + * Get the maximum number of entries that could fit in the metadata packet. + */ +ANDROID_API +size_t get_camera_metadata_entry_capacity(const camera_metadata_t *metadata); + +/** + * Get the current count of bytes used for value storage in the metadata packet. + */ +ANDROID_API +size_t get_camera_metadata_data_count(const camera_metadata_t *metadata); + +/** + * Get the maximum count of bytes that could be used for value storage in the + * metadata packet. + */ +ANDROID_API +size_t get_camera_metadata_data_capacity(const camera_metadata_t *metadata); + +/** + * Copy a metadata structure to a memory buffer, compacting it along the + * way. That is, in the copied structure, entry_count == entry_capacity, and + * data_count == data_capacity. + * + * If dst_size > get_camera_metadata_compact_size(), the unused bytes are at the + * end of the buffer. If dst_size < get_camera_metadata_compact_size(), returns + * NULL. Otherwise returns a pointer to the metadata structure header placed at + * the start of dst. + * + * Since the buffer was not allocated by allocate_camera_metadata, the caller is + * responsible for freeing the underlying buffer when needed; do not call + * free_camera_metadata. + */ +ANDROID_API +camera_metadata_t *copy_camera_metadata(void *dst, size_t dst_size, + const camera_metadata_t *src); + + +// Non-zero return values for validate_camera_metadata_structure +enum { + CAMERA_METADATA_VALIDATION_ERROR = 1, + CAMERA_METADATA_VALIDATION_SHIFTED = 2, +}; + +/** + * Validate that a metadata is structurally sane. That is, its internal + * state is such that we won't get buffer overflows or run into other + * 'impossible' issues when calling the other API functions. + * + * This is useful in particular after copying the binary metadata blob + * from an untrusted source, since passing this check means the data is at least + * consistent. + * + * The expected_size argument is optional. + * + * Returns 0: on success + * CAMERA_METADATA_VALIDATION_ERROR: on error + * CAMERA_METADATA_VALIDATION_SHIFTED: when the data is not properly aligned, but can be + * used as input of clone_camera_metadata and the returned metadata will be valid. + * + */ +ANDROID_API +int validate_camera_metadata_structure(const camera_metadata_t *metadata, + const size_t *expected_size); + +/** + * Append camera metadata in src to an existing metadata structure in dst. This + * does not resize the destination structure, so if it is too small, a non-zero + * value is returned. On success, 0 is returned. Appending onto a sorted + * structure results in a non-sorted combined structure. + */ +ANDROID_API +int append_camera_metadata(camera_metadata_t *dst, const camera_metadata_t *src); + +/** + * Clone an existing metadata buffer, compacting along the way. This is + * equivalent to allocating a new buffer of the minimum needed size, then + * appending the buffer to be cloned into the new buffer. The resulting buffer + * can be freed with free_camera_metadata(). Returns NULL if cloning failed. + */ +ANDROID_API +camera_metadata_t *clone_camera_metadata(const camera_metadata_t *src); + +/** + * Calculate the number of bytes of extra data a given metadata entry will take + * up. That is, if entry of 'type' with a payload of 'data_count' values is + * added, how much will the value returned by get_camera_metadata_data_count() + * be increased? This value may be zero, if no extra data storage is needed. + */ +ANDROID_API +size_t calculate_camera_metadata_entry_data_size(uint8_t type, + size_t data_count); + +/** + * Add a metadata entry to a metadata structure. Returns 0 if the addition + * succeeded. Returns a non-zero value if there is insufficient reserved space + * left to add the entry, or if the tag is unknown. data_count is the number of + * entries in the data array of the tag's type, not a count of + * bytes. Vendor-defined tags can not be added using this method, unless + * set_vendor_tag_query_ops() has been called first. Entries are always added to + * the end of the structure (highest index), so after addition, a + * previously-sorted array will be marked as unsorted. + * + * Returns 0 on success. A non-0 value is returned on error. + */ +ANDROID_API +int add_camera_metadata_entry(camera_metadata_t *dst, + uint32_t tag, + const void *data, + size_t data_count); + +/** + * Sort the metadata buffer for fast searching. If already marked as sorted, + * does nothing. Adding or appending entries to the buffer will place the buffer + * back into an unsorted state. + * + * Returns 0 on success. A non-0 value is returned on error. + */ +ANDROID_API +int sort_camera_metadata(camera_metadata_t *dst); + +/** + * Get metadata entry at position index in the metadata buffer. + * Index must be less than entry count, which is returned by + * get_camera_metadata_entry_count(). + * + * src and index are inputs; the passed-in entry is updated with the details of + * the entry. The data pointer points to the real data in the buffer, and can be + * updated as long as the data count does not change. + * + * Returns 0 on success. A non-0 value is returned on error. + */ +ANDROID_API +int get_camera_metadata_entry(camera_metadata_t *src, + size_t index, + camera_metadata_entry_t *entry); + +/** + * Get metadata entry at position index, but disallow editing the data. + */ +ANDROID_API +int get_camera_metadata_ro_entry(const camera_metadata_t *src, + size_t index, + camera_metadata_ro_entry_t *entry); + +/** + * Find an entry with given tag value. If not found, returns -ENOENT. Otherwise, + * returns entry contents like get_camera_metadata_entry. + * + * If multiple entries with the same tag exist, does not have any guarantees on + * which is returned. To speed up searching for tags, sort the metadata + * structure first by calling sort_camera_metadata(). + */ +ANDROID_API +int find_camera_metadata_entry(camera_metadata_t *src, + uint32_t tag, + camera_metadata_entry_t *entry); + +/** + * Find an entry with given tag value, but disallow editing the data + */ +ANDROID_API +int find_camera_metadata_ro_entry(const camera_metadata_t *src, + uint32_t tag, + camera_metadata_ro_entry_t *entry); + +/** + * Delete an entry at given index. This is an expensive operation, since it + * requires repacking entries and possibly entry data. This also invalidates any + * existing camera_metadata_entry.data pointers to this buffer. Sorting is + * maintained. + */ +ANDROID_API +int delete_camera_metadata_entry(camera_metadata_t *dst, + size_t index); + +/** + * Updates a metadata entry with new data. If the data size is changing, may + * need to adjust the data array, making this an O(N) operation. If the data + * size is the same or still fits in the entry space, this is O(1). Maintains + * sorting, but invalidates camera_metadata_entry instances that point to the + * updated entry. If a non-NULL value is passed in to entry, the entry structure + * is updated to match the new buffer state. Returns a non-zero value if there + * is no room for the new data in the buffer. + */ +ANDROID_API +int update_camera_metadata_entry(camera_metadata_t *dst, + size_t index, + const void *data, + size_t data_count, + camera_metadata_entry_t *updated_entry); + +/** + * Retrieve human-readable name of section the tag is in. Returns NULL if + * no such tag is defined. Returns NULL for tags in the vendor section, unless + * set_vendor_tag_query_ops() has been used. + */ +ANDROID_API +const char *get_camera_metadata_section_name(uint32_t tag); + +/** + * Retrieve human-readable name of tag (not including section). Returns NULL if + * no such tag is defined. Returns NULL for tags in the vendor section, unless + * set_vendor_tag_query_ops() has been used. + */ +ANDROID_API +const char *get_camera_metadata_tag_name(uint32_t tag); + +/** + * Retrieve the type of a tag. Returns -1 if no such tag is defined. Returns -1 + * for tags in the vendor section, unless set_vendor_tag_query_ops() has been + * used. + */ +ANDROID_API +int get_camera_metadata_tag_type(uint32_t tag); + +/** + * Retrieve human-readable name of section the tag is in. Returns NULL if + * no such tag is defined. + */ +ANDROID_API +const char *get_local_camera_metadata_section_name(uint32_t tag, + const camera_metadata_t *meta); + +/** + * Retrieve human-readable name of tag (not including section). Returns NULL if + * no such tag is defined. + */ +ANDROID_API +const char *get_local_camera_metadata_tag_name(uint32_t tag, + const camera_metadata_t *meta); + +/** + * Retrieve the type of a tag. Returns -1 if no such tag is defined. + */ +ANDROID_API +int get_local_camera_metadata_tag_type(uint32_t tag, + const camera_metadata_t *meta); + +/** + * Set up vendor-specific tag query methods. These are needed to properly add + * entries with vendor-specified tags and to use the + * get_camera_metadata_section_name, _tag_name, and _tag_type methods with + * vendor tags. Returns 0 on success. + * + * **DEPRECATED** - Please use vendor_tag_ops defined in camera_vendor_tags.h + * instead. + */ +typedef struct vendor_tag_query_ops vendor_tag_query_ops_t; +struct vendor_tag_query_ops { + /** + * Get vendor section name for a vendor-specified entry tag. Only called for + * tags >= 0x80000000. The section name must start with the name of the + * vendor in the Java package style. For example, CameraZoom inc must prefix + * their sections with "com.camerazoom." Must return NULL if the tag is + * outside the bounds of vendor-defined sections. + */ + const char *(*get_camera_vendor_section_name)( + const vendor_tag_query_ops_t *v, + uint32_t tag); + /** + * Get tag name for a vendor-specified entry tag. Only called for tags >= + * 0x80000000. Must return NULL if the tag is outside the bounds of + * vendor-defined sections. + */ + const char *(*get_camera_vendor_tag_name)( + const vendor_tag_query_ops_t *v, + uint32_t tag); + /** + * Get tag type for a vendor-specified entry tag. Only called for tags >= + * 0x80000000. Must return -1 if the tag is outside the bounds of + * vendor-defined sections. + */ + int (*get_camera_vendor_tag_type)( + const vendor_tag_query_ops_t *v, + uint32_t tag); + /** + * Get the number of vendor tags supported on this platform. Used to + * calculate the size of buffer needed for holding the array of all tags + * returned by get_camera_vendor_tags(). + */ + int (*get_camera_vendor_tag_count)( + const vendor_tag_query_ops_t *v); + /** + * Fill an array with all the supported vendor tags on this platform. + * get_camera_vendor_tag_count() returns the number of tags supported, and + * tag_array should be allocated with enough space to hold all of the tags. + */ + void (*get_camera_vendor_tags)( + const vendor_tag_query_ops_t *v, + uint32_t *tag_array); +}; + +/** + * **DEPRECATED** - This should only be used by the camera framework. Camera + * metadata will transition to using vendor_tag_ops defined in + * camera_vendor_tags.h instead. + */ +ANDROID_API +int set_camera_metadata_vendor_tag_ops(const vendor_tag_query_ops_t *query_ops); + +/** + * Print fields in the metadata to the log. + * verbosity = 0: Only tag entry information + * verbosity = 1: Tag entry information plus at most 16 data values + * verbosity = 2: All information + */ +ANDROID_API +void dump_camera_metadata(const camera_metadata_t *metadata, + int fd, + int verbosity); + +/** + * Print fields in the metadata to the log; adds indentation parameter, which + * specifies the number of spaces to insert before each line of the dump + */ +ANDROID_API +void dump_indented_camera_metadata(const camera_metadata_t *metadata, + int fd, + int verbosity, + int indentation); + +/** + * Prints the specified tag value as a string. Only works for enum tags. + * Returns 0 on success, -1 on failure. + */ +ANDROID_API +int camera_metadata_enum_snprint(uint32_t tag, + uint32_t value, + char *dst, + size_t size); + +#ifdef __cplusplus +} +#endif + +#endif diff --git a/include/android/metadata/system/camera_metadata_tags.h b/include/android/metadata/system/camera_metadata_tags.h new file mode 100644 index 00000000..adf18b8f --- /dev/null +++ b/include/android/metadata/system/camera_metadata_tags.h @@ -0,0 +1,1005 @@ +/* + * 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 + * + * 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. + */ + +/** + * !! Do not include this file directly !! + * + * Include camera_metadata.h instead. + */ + +/** + * ! Do not edit this file directly ! + * + * Generated automatically from camera_metadata_tags.mako + */ + +/** TODO: Nearly every enum in this file needs a description */ + +/** + * Top level hierarchy definitions for camera metadata. *_INFO sections are for + * the static metadata that can be retrived without opening the camera device. + * New sections must be added right before ANDROID_SECTION_COUNT to maintain + * existing enumerations. + */ +typedef enum camera_metadata_section { + ANDROID_COLOR_CORRECTION, + ANDROID_CONTROL, + ANDROID_DEMOSAIC, + ANDROID_EDGE, + ANDROID_FLASH, + ANDROID_FLASH_INFO, + ANDROID_HOT_PIXEL, + ANDROID_JPEG, + ANDROID_LENS, + ANDROID_LENS_INFO, + ANDROID_NOISE_REDUCTION, + ANDROID_QUIRKS, + ANDROID_REQUEST, + ANDROID_SCALER, + ANDROID_SENSOR, + ANDROID_SENSOR_INFO, + ANDROID_SHADING, + ANDROID_STATISTICS, + ANDROID_STATISTICS_INFO, + ANDROID_TONEMAP, + ANDROID_LED, + ANDROID_INFO, + ANDROID_BLACK_LEVEL, + ANDROID_SYNC, + ANDROID_REPROCESS, + ANDROID_DEPTH, + ANDROID_LOGICAL_MULTI_CAMERA, + ANDROID_DISTORTION_CORRECTION, + ANDROID_SECTION_COUNT, + + VENDOR_SECTION = 0x8000 +} camera_metadata_section_t; + +/** + * Hierarchy positions in enum space. All vendor extension tags must be + * defined with tag >= VENDOR_SECTION_START + */ +typedef enum camera_metadata_section_start { + ANDROID_COLOR_CORRECTION_START = ANDROID_COLOR_CORRECTION << 16, + ANDROID_CONTROL_START = ANDROID_CONTROL << 16, + ANDROID_DEMOSAIC_START = ANDROID_DEMOSAIC << 16, + ANDROID_EDGE_START = ANDROID_EDGE << 16, + ANDROID_FLASH_START = ANDROID_FLASH << 16, + ANDROID_FLASH_INFO_START = ANDROID_FLASH_INFO << 16, + ANDROID_HOT_PIXEL_START = ANDROID_HOT_PIXEL << 16, + ANDROID_JPEG_START = ANDROID_JPEG << 16, + ANDROID_LENS_START = ANDROID_LENS << 16, + ANDROID_LENS_INFO_START = ANDROID_LENS_INFO << 16, + ANDROID_NOISE_REDUCTION_START = ANDROID_NOISE_REDUCTION << 16, + ANDROID_QUIRKS_START = ANDROID_QUIRKS << 16, + ANDROID_REQUEST_START = ANDROID_REQUEST << 16, + ANDROID_SCALER_START = ANDROID_SCALER << 16, + ANDROID_SENSOR_START = ANDROID_SENSOR << 16, + ANDROID_SENSOR_INFO_START = ANDROID_SENSOR_INFO << 16, + ANDROID_SHADING_START = ANDROID_SHADING << 16, + ANDROID_STATISTICS_START = ANDROID_STATISTICS << 16, + ANDROID_STATISTICS_INFO_START = ANDROID_STATISTICS_INFO << 16, + ANDROID_TONEMAP_START = ANDROID_TONEMAP << 16, + ANDROID_LED_START = ANDROID_LED << 16, + ANDROID_INFO_START = ANDROID_INFO << 16, + ANDROID_BLACK_LEVEL_START = ANDROID_BLACK_LEVEL << 16, + ANDROID_SYNC_START = ANDROID_SYNC << 16, + ANDROID_REPROCESS_START = ANDROID_REPROCESS << 16, + ANDROID_DEPTH_START = ANDROID_DEPTH << 16, + ANDROID_LOGICAL_MULTI_CAMERA_START + = ANDROID_LOGICAL_MULTI_CAMERA + << 16, + ANDROID_DISTORTION_CORRECTION_START + = ANDROID_DISTORTION_CORRECTION + << 16, + VENDOR_SECTION_START = VENDOR_SECTION << 16 +} camera_metadata_section_start_t; + +/** + * Main enum for defining camera metadata tags. New entries must always go + * before the section _END tag to preserve existing enumeration values. In + * addition, the name and type of the tag needs to be added to + * system/media/camera/src/camera_metadata_tag_info.c + */ +typedef enum camera_metadata_tag { + ANDROID_COLOR_CORRECTION_MODE = // enum | public | HIDL v3.2 + ANDROID_COLOR_CORRECTION_START, + ANDROID_COLOR_CORRECTION_TRANSFORM, // rational[] | public | HIDL v3.2 + ANDROID_COLOR_CORRECTION_GAINS, // float[] | public | HIDL v3.2 + ANDROID_COLOR_CORRECTION_ABERRATION_MODE, // enum | public | HIDL v3.2 + ANDROID_COLOR_CORRECTION_AVAILABLE_ABERRATION_MODES, + // byte[] | public | HIDL v3.2 + ANDROID_COLOR_CORRECTION_END, + + ANDROID_CONTROL_AE_ANTIBANDING_MODE = // enum | public | HIDL v3.2 + ANDROID_CONTROL_START, + ANDROID_CONTROL_AE_EXPOSURE_COMPENSATION, // int32 | public | HIDL v3.2 + ANDROID_CONTROL_AE_LOCK, // enum | public | HIDL v3.2 + ANDROID_CONTROL_AE_MODE, // enum | public | HIDL v3.2 + ANDROID_CONTROL_AE_REGIONS, // int32[] | public | HIDL v3.2 + ANDROID_CONTROL_AE_TARGET_FPS_RANGE, // int32[] | public | HIDL v3.2 + ANDROID_CONTROL_AE_PRECAPTURE_TRIGGER, // enum | public | HIDL v3.2 + ANDROID_CONTROL_AF_MODE, // enum | public | HIDL v3.2 + ANDROID_CONTROL_AF_REGIONS, // int32[] | public | HIDL v3.2 + ANDROID_CONTROL_AF_TRIGGER, // enum | public | HIDL v3.2 + ANDROID_CONTROL_AWB_LOCK, // enum | public | HIDL v3.2 + ANDROID_CONTROL_AWB_MODE, // enum | public | HIDL v3.2 + ANDROID_CONTROL_AWB_REGIONS, // int32[] | public | HIDL v3.2 + ANDROID_CONTROL_CAPTURE_INTENT, // enum | public | HIDL v3.2 + ANDROID_CONTROL_EFFECT_MODE, // enum | public | HIDL v3.2 + ANDROID_CONTROL_MODE, // enum | public | HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE, // enum | public | HIDL v3.2 + ANDROID_CONTROL_VIDEO_STABILIZATION_MODE, // enum | public | HIDL v3.2 + ANDROID_CONTROL_AE_AVAILABLE_ANTIBANDING_MODES, // byte[] | public | HIDL v3.2 + ANDROID_CONTROL_AE_AVAILABLE_MODES, // byte[] | public | HIDL v3.2 + ANDROID_CONTROL_AE_AVAILABLE_TARGET_FPS_RANGES, // int32[] | public | HIDL v3.2 + ANDROID_CONTROL_AE_COMPENSATION_RANGE, // int32[] | public | HIDL v3.2 + ANDROID_CONTROL_AE_COMPENSATION_STEP, // rational | public | HIDL v3.2 + ANDROID_CONTROL_AF_AVAILABLE_MODES, // byte[] | public | HIDL v3.2 + ANDROID_CONTROL_AVAILABLE_EFFECTS, // byte[] | public | HIDL v3.2 + ANDROID_CONTROL_AVAILABLE_SCENE_MODES, // byte[] | public | HIDL v3.2 + ANDROID_CONTROL_AVAILABLE_VIDEO_STABILIZATION_MODES, + // byte[] | public | HIDL v3.2 + ANDROID_CONTROL_AWB_AVAILABLE_MODES, // byte[] | public | HIDL v3.2 + ANDROID_CONTROL_MAX_REGIONS, // int32[] | ndk_public | HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_OVERRIDES, // byte[] | system | HIDL v3.2 + ANDROID_CONTROL_AE_PRECAPTURE_ID, // int32 | system | HIDL v3.2 + ANDROID_CONTROL_AE_STATE, // enum | public | HIDL v3.2 + ANDROID_CONTROL_AF_STATE, // enum | public | HIDL v3.2 + ANDROID_CONTROL_AF_TRIGGER_ID, // int32 | system | HIDL v3.2 + ANDROID_CONTROL_AWB_STATE, // enum | public | HIDL v3.2 + ANDROID_CONTROL_AVAILABLE_HIGH_SPEED_VIDEO_CONFIGURATIONS, + // int32[] | hidden | HIDL v3.2 + ANDROID_CONTROL_AE_LOCK_AVAILABLE, // enum | public | HIDL v3.2 + ANDROID_CONTROL_AWB_LOCK_AVAILABLE, // enum | public | HIDL v3.2 + ANDROID_CONTROL_AVAILABLE_MODES, // byte[] | public | HIDL v3.2 + ANDROID_CONTROL_POST_RAW_SENSITIVITY_BOOST_RANGE, // int32[] | public | HIDL v3.2 + ANDROID_CONTROL_POST_RAW_SENSITIVITY_BOOST, // int32 | public | HIDL v3.2 + ANDROID_CONTROL_ENABLE_ZSL, // enum | public | HIDL v3.2 + ANDROID_CONTROL_AF_SCENE_CHANGE, // enum | public | HIDL v3.3 + ANDROID_CONTROL_END, + + ANDROID_DEMOSAIC_MODE = // enum | system | HIDL v3.2 + ANDROID_DEMOSAIC_START, + ANDROID_DEMOSAIC_END, + + ANDROID_EDGE_MODE = // enum | public | HIDL v3.2 + ANDROID_EDGE_START, + ANDROID_EDGE_STRENGTH, // byte | system | HIDL v3.2 + ANDROID_EDGE_AVAILABLE_EDGE_MODES, // byte[] | public | HIDL v3.2 + ANDROID_EDGE_END, + + ANDROID_FLASH_FIRING_POWER = // byte | system | HIDL v3.2 + ANDROID_FLASH_START, + ANDROID_FLASH_FIRING_TIME, // int64 | system | HIDL v3.2 + ANDROID_FLASH_MODE, // enum | public | HIDL v3.2 + ANDROID_FLASH_COLOR_TEMPERATURE, // byte | system | HIDL v3.2 + ANDROID_FLASH_MAX_ENERGY, // byte | system | HIDL v3.2 + ANDROID_FLASH_STATE, // enum | public | HIDL v3.2 + ANDROID_FLASH_END, + + ANDROID_FLASH_INFO_AVAILABLE = // enum | public | HIDL v3.2 + ANDROID_FLASH_INFO_START, + ANDROID_FLASH_INFO_CHARGE_DURATION, // int64 | system | HIDL v3.2 + ANDROID_FLASH_INFO_END, + + ANDROID_HOT_PIXEL_MODE = // enum | public | HIDL v3.2 + ANDROID_HOT_PIXEL_START, + ANDROID_HOT_PIXEL_AVAILABLE_HOT_PIXEL_MODES, // byte[] | public | HIDL v3.2 + ANDROID_HOT_PIXEL_END, + + ANDROID_JPEG_GPS_COORDINATES = // double[] | ndk_public | HIDL v3.2 + ANDROID_JPEG_START, + ANDROID_JPEG_GPS_PROCESSING_METHOD, // byte | ndk_public | HIDL v3.2 + ANDROID_JPEG_GPS_TIMESTAMP, // int64 | ndk_public | HIDL v3.2 + ANDROID_JPEG_ORIENTATION, // int32 | public | HIDL v3.2 + ANDROID_JPEG_QUALITY, // byte | public | HIDL v3.2 + ANDROID_JPEG_THUMBNAIL_QUALITY, // byte | public | HIDL v3.2 + ANDROID_JPEG_THUMBNAIL_SIZE, // int32[] | public | HIDL v3.2 + ANDROID_JPEG_AVAILABLE_THUMBNAIL_SIZES, // int32[] | public | HIDL v3.2 + ANDROID_JPEG_MAX_SIZE, // int32 | system | HIDL v3.2 + ANDROID_JPEG_SIZE, // int32 | system | HIDL v3.2 + ANDROID_JPEG_END, + + ANDROID_LENS_APERTURE = // float | public | HIDL v3.2 + ANDROID_LENS_START, + ANDROID_LENS_FILTER_DENSITY, // float | public | HIDL v3.2 + ANDROID_LENS_FOCAL_LENGTH, // float | public | HIDL v3.2 + ANDROID_LENS_FOCUS_DISTANCE, // float | public | HIDL v3.2 + ANDROID_LENS_OPTICAL_STABILIZATION_MODE, // enum | public | HIDL v3.2 + ANDROID_LENS_FACING, // enum | public | HIDL v3.2 + ANDROID_LENS_POSE_ROTATION, // float[] | public | HIDL v3.2 + ANDROID_LENS_POSE_TRANSLATION, // float[] | public | HIDL v3.2 + ANDROID_LENS_FOCUS_RANGE, // float[] | public | HIDL v3.2 + ANDROID_LENS_STATE, // enum | public | HIDL v3.2 + ANDROID_LENS_INTRINSIC_CALIBRATION, // float[] | public | HIDL v3.2 + ANDROID_LENS_RADIAL_DISTORTION, // float[] | public | HIDL v3.2 + ANDROID_LENS_POSE_REFERENCE, // enum | public | HIDL v3.3 + ANDROID_LENS_DISTORTION, // float[] | public | HIDL v3.3 + ANDROID_LENS_END, + + ANDROID_LENS_INFO_AVAILABLE_APERTURES = // float[] | public | HIDL v3.2 + ANDROID_LENS_INFO_START, + ANDROID_LENS_INFO_AVAILABLE_FILTER_DENSITIES, // float[] | public | HIDL v3.2 + ANDROID_LENS_INFO_AVAILABLE_FOCAL_LENGTHS, // float[] | public | HIDL v3.2 + ANDROID_LENS_INFO_AVAILABLE_OPTICAL_STABILIZATION,// byte[] | public | HIDL v3.2 + ANDROID_LENS_INFO_HYPERFOCAL_DISTANCE, // float | public | HIDL v3.2 + ANDROID_LENS_INFO_MINIMUM_FOCUS_DISTANCE, // float | public | HIDL v3.2 + ANDROID_LENS_INFO_SHADING_MAP_SIZE, // int32[] | ndk_public | HIDL v3.2 + ANDROID_LENS_INFO_FOCUS_DISTANCE_CALIBRATION, // enum | public | HIDL v3.2 + ANDROID_LENS_INFO_END, + + ANDROID_NOISE_REDUCTION_MODE = // enum | public | HIDL v3.2 + ANDROID_NOISE_REDUCTION_START, + ANDROID_NOISE_REDUCTION_STRENGTH, // byte | system | HIDL v3.2 + ANDROID_NOISE_REDUCTION_AVAILABLE_NOISE_REDUCTION_MODES, + // byte[] | public | HIDL v3.2 + ANDROID_NOISE_REDUCTION_END, + + ANDROID_QUIRKS_METERING_CROP_REGION = // byte | system | HIDL v3.2 + ANDROID_QUIRKS_START, + ANDROID_QUIRKS_TRIGGER_AF_WITH_AUTO, // byte | system | HIDL v3.2 + ANDROID_QUIRKS_USE_ZSL_FORMAT, // byte | system | HIDL v3.2 + ANDROID_QUIRKS_USE_PARTIAL_RESULT, // byte | hidden | HIDL v3.2 + ANDROID_QUIRKS_PARTIAL_RESULT, // enum | hidden | HIDL v3.2 + ANDROID_QUIRKS_END, + + ANDROID_REQUEST_FRAME_COUNT = // int32 | hidden | HIDL v3.2 + ANDROID_REQUEST_START, + ANDROID_REQUEST_ID, // int32 | hidden | HIDL v3.2 + ANDROID_REQUEST_INPUT_STREAMS, // int32[] | system | HIDL v3.2 + ANDROID_REQUEST_METADATA_MODE, // enum | system | HIDL v3.2 + ANDROID_REQUEST_OUTPUT_STREAMS, // int32[] | system | HIDL v3.2 + ANDROID_REQUEST_TYPE, // enum | system | HIDL v3.2 + ANDROID_REQUEST_MAX_NUM_OUTPUT_STREAMS, // int32[] | ndk_public | HIDL v3.2 + ANDROID_REQUEST_MAX_NUM_REPROCESS_STREAMS, // int32[] | system | HIDL v3.2 + ANDROID_REQUEST_MAX_NUM_INPUT_STREAMS, // int32 | java_public | HIDL v3.2 + ANDROID_REQUEST_PIPELINE_DEPTH, // byte | public | HIDL v3.2 + ANDROID_REQUEST_PIPELINE_MAX_DEPTH, // byte | public | HIDL v3.2 + ANDROID_REQUEST_PARTIAL_RESULT_COUNT, // int32 | public | HIDL v3.2 + ANDROID_REQUEST_AVAILABLE_CAPABILITIES, // enum[] | public | HIDL v3.2 + ANDROID_REQUEST_AVAILABLE_REQUEST_KEYS, // int32[] | ndk_public | HIDL v3.2 + ANDROID_REQUEST_AVAILABLE_RESULT_KEYS, // int32[] | ndk_public | HIDL v3.2 + ANDROID_REQUEST_AVAILABLE_CHARACTERISTICS_KEYS, // int32[] | ndk_public | HIDL v3.2 + ANDROID_REQUEST_AVAILABLE_SESSION_KEYS, // int32[] | ndk_public | HIDL v3.3 + ANDROID_REQUEST_AVAILABLE_PHYSICAL_CAMERA_REQUEST_KEYS, + // int32[] | hidden | HIDL v3.3 + ANDROID_REQUEST_END, + + ANDROID_SCALER_CROP_REGION = // int32[] | public | HIDL v3.2 + ANDROID_SCALER_START, + ANDROID_SCALER_AVAILABLE_FORMATS, // enum[] | hidden | HIDL v3.2 + ANDROID_SCALER_AVAILABLE_JPEG_MIN_DURATIONS, // int64[] | hidden | HIDL v3.2 + ANDROID_SCALER_AVAILABLE_JPEG_SIZES, // int32[] | hidden | HIDL v3.2 + ANDROID_SCALER_AVAILABLE_MAX_DIGITAL_ZOOM, // float | public | HIDL v3.2 + ANDROID_SCALER_AVAILABLE_PROCESSED_MIN_DURATIONS, // int64[] | hidden | HIDL v3.2 + ANDROID_SCALER_AVAILABLE_PROCESSED_SIZES, // int32[] | hidden | HIDL v3.2 + ANDROID_SCALER_AVAILABLE_RAW_MIN_DURATIONS, // int64[] | system | HIDL v3.2 + ANDROID_SCALER_AVAILABLE_RAW_SIZES, // int32[] | system | HIDL v3.2 + ANDROID_SCALER_AVAILABLE_INPUT_OUTPUT_FORMATS_MAP,// int32 | hidden | HIDL v3.2 + ANDROID_SCALER_AVAILABLE_STREAM_CONFIGURATIONS, // enum[] | ndk_public | HIDL v3.2 + ANDROID_SCALER_AVAILABLE_MIN_FRAME_DURATIONS, // int64[] | ndk_public | HIDL v3.2 + ANDROID_SCALER_AVAILABLE_STALL_DURATIONS, // int64[] | ndk_public | HIDL v3.2 + ANDROID_SCALER_CROPPING_TYPE, // enum | public | HIDL v3.2 + ANDROID_SCALER_END, + + ANDROID_SENSOR_EXPOSURE_TIME = // int64 | public | HIDL v3.2 + ANDROID_SENSOR_START, + ANDROID_SENSOR_FRAME_DURATION, // int64 | public | HIDL v3.2 + ANDROID_SENSOR_SENSITIVITY, // int32 | public | HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1, // enum | public | HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT2, // byte | public | HIDL v3.2 + ANDROID_SENSOR_CALIBRATION_TRANSFORM1, // rational[] | public | HIDL v3.2 + ANDROID_SENSOR_CALIBRATION_TRANSFORM2, // rational[] | public | HIDL v3.2 + ANDROID_SENSOR_COLOR_TRANSFORM1, // rational[] | public | HIDL v3.2 + ANDROID_SENSOR_COLOR_TRANSFORM2, // rational[] | public | HIDL v3.2 + ANDROID_SENSOR_FORWARD_MATRIX1, // rational[] | public | HIDL v3.2 + ANDROID_SENSOR_FORWARD_MATRIX2, // rational[] | public | HIDL v3.2 + ANDROID_SENSOR_BASE_GAIN_FACTOR, // rational | system | HIDL v3.2 + ANDROID_SENSOR_BLACK_LEVEL_PATTERN, // int32[] | public | HIDL v3.2 + ANDROID_SENSOR_MAX_ANALOG_SENSITIVITY, // int32 | public | HIDL v3.2 + ANDROID_SENSOR_ORIENTATION, // int32 | public | HIDL v3.2 + ANDROID_SENSOR_PROFILE_HUE_SAT_MAP_DIMENSIONS, // int32[] | system | HIDL v3.2 + ANDROID_SENSOR_TIMESTAMP, // int64 | public | HIDL v3.2 + ANDROID_SENSOR_TEMPERATURE, // float | system | HIDL v3.2 + ANDROID_SENSOR_NEUTRAL_COLOR_POINT, // rational[] | public | HIDL v3.2 + ANDROID_SENSOR_NOISE_PROFILE, // double[] | public | HIDL v3.2 + ANDROID_SENSOR_PROFILE_HUE_SAT_MAP, // float[] | system | HIDL v3.2 + ANDROID_SENSOR_PROFILE_TONE_CURVE, // float[] | system | HIDL v3.2 + ANDROID_SENSOR_GREEN_SPLIT, // float | public | HIDL v3.2 + ANDROID_SENSOR_TEST_PATTERN_DATA, // int32[] | public | HIDL v3.2 + ANDROID_SENSOR_TEST_PATTERN_MODE, // enum | public | HIDL v3.2 + ANDROID_SENSOR_AVAILABLE_TEST_PATTERN_MODES, // int32[] | public | HIDL v3.2 + ANDROID_SENSOR_ROLLING_SHUTTER_SKEW, // int64 | public | HIDL v3.2 + ANDROID_SENSOR_OPTICAL_BLACK_REGIONS, // int32[] | public | HIDL v3.2 + ANDROID_SENSOR_DYNAMIC_BLACK_LEVEL, // float[] | public | HIDL v3.2 + ANDROID_SENSOR_DYNAMIC_WHITE_LEVEL, // int32 | public | HIDL v3.2 + ANDROID_SENSOR_OPAQUE_RAW_SIZE, // int32[] | system | HIDL v3.2 + ANDROID_SENSOR_END, + + ANDROID_SENSOR_INFO_ACTIVE_ARRAY_SIZE = // int32[] | public | HIDL v3.2 + ANDROID_SENSOR_INFO_START, + ANDROID_SENSOR_INFO_SENSITIVITY_RANGE, // int32[] | public | HIDL v3.2 + ANDROID_SENSOR_INFO_COLOR_FILTER_ARRANGEMENT, // enum | public | HIDL v3.2 + ANDROID_SENSOR_INFO_EXPOSURE_TIME_RANGE, // int64[] | public | HIDL v3.2 + ANDROID_SENSOR_INFO_MAX_FRAME_DURATION, // int64 | public | HIDL v3.2 + ANDROID_SENSOR_INFO_PHYSICAL_SIZE, // float[] | public | HIDL v3.2 + ANDROID_SENSOR_INFO_PIXEL_ARRAY_SIZE, // int32[] | public | HIDL v3.2 + ANDROID_SENSOR_INFO_WHITE_LEVEL, // int32 | public | HIDL v3.2 + ANDROID_SENSOR_INFO_TIMESTAMP_SOURCE, // enum | public | HIDL v3.2 + ANDROID_SENSOR_INFO_LENS_SHADING_APPLIED, // enum | public | HIDL v3.2 + ANDROID_SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE, + // int32[] | public | HIDL v3.2 + ANDROID_SENSOR_INFO_END, + + ANDROID_SHADING_MODE = // enum | public | HIDL v3.2 + ANDROID_SHADING_START, + ANDROID_SHADING_STRENGTH, // byte | system | HIDL v3.2 + ANDROID_SHADING_AVAILABLE_MODES, // byte[] | public | HIDL v3.2 + ANDROID_SHADING_END, + + ANDROID_STATISTICS_FACE_DETECT_MODE = // enum | public | HIDL v3.2 + ANDROID_STATISTICS_START, + ANDROID_STATISTICS_HISTOGRAM_MODE, // enum | system | HIDL v3.2 + ANDROID_STATISTICS_SHARPNESS_MAP_MODE, // enum | system | HIDL v3.2 + ANDROID_STATISTICS_HOT_PIXEL_MAP_MODE, // enum | public | HIDL v3.2 + ANDROID_STATISTICS_FACE_IDS, // int32[] | ndk_public | HIDL v3.2 + ANDROID_STATISTICS_FACE_LANDMARKS, // int32[] | ndk_public | HIDL v3.2 + ANDROID_STATISTICS_FACE_RECTANGLES, // int32[] | ndk_public | HIDL v3.2 + ANDROID_STATISTICS_FACE_SCORES, // byte[] | ndk_public | HIDL v3.2 + ANDROID_STATISTICS_HISTOGRAM, // int32[] | system | HIDL v3.2 + ANDROID_STATISTICS_SHARPNESS_MAP, // int32[] | system | HIDL v3.2 + ANDROID_STATISTICS_LENS_SHADING_CORRECTION_MAP, // byte | java_public | HIDL v3.2 + ANDROID_STATISTICS_LENS_SHADING_MAP, // float[] | ndk_public | HIDL v3.2 + ANDROID_STATISTICS_PREDICTED_COLOR_GAINS, // float[] | hidden | HIDL v3.2 + ANDROID_STATISTICS_PREDICTED_COLOR_TRANSFORM, // rational[] | hidden | HIDL v3.2 + ANDROID_STATISTICS_SCENE_FLICKER, // enum | public | HIDL v3.2 + ANDROID_STATISTICS_HOT_PIXEL_MAP, // int32[] | public | HIDL v3.2 + ANDROID_STATISTICS_LENS_SHADING_MAP_MODE, // enum | public | HIDL v3.2 + ANDROID_STATISTICS_OIS_DATA_MODE, // enum | public | HIDL v3.3 + ANDROID_STATISTICS_OIS_TIMESTAMPS, // int64[] | ndk_public | HIDL v3.3 + ANDROID_STATISTICS_OIS_X_SHIFTS, // float[] | ndk_public | HIDL v3.3 + ANDROID_STATISTICS_OIS_Y_SHIFTS, // float[] | ndk_public | HIDL v3.3 + ANDROID_STATISTICS_END, + + ANDROID_STATISTICS_INFO_AVAILABLE_FACE_DETECT_MODES = + // byte[] | public | HIDL v3.2 + ANDROID_STATISTICS_INFO_START, + ANDROID_STATISTICS_INFO_HISTOGRAM_BUCKET_COUNT, // int32 | system | HIDL v3.2 + ANDROID_STATISTICS_INFO_MAX_FACE_COUNT, // int32 | public | HIDL v3.2 + ANDROID_STATISTICS_INFO_MAX_HISTOGRAM_COUNT, // int32 | system | HIDL v3.2 + ANDROID_STATISTICS_INFO_MAX_SHARPNESS_MAP_VALUE, // int32 | system | HIDL v3.2 + ANDROID_STATISTICS_INFO_SHARPNESS_MAP_SIZE, // int32[] | system | HIDL v3.2 + ANDROID_STATISTICS_INFO_AVAILABLE_HOT_PIXEL_MAP_MODES, + // byte[] | public | HIDL v3.2 + ANDROID_STATISTICS_INFO_AVAILABLE_LENS_SHADING_MAP_MODES, + // byte[] | public | HIDL v3.2 + ANDROID_STATISTICS_INFO_AVAILABLE_OIS_DATA_MODES, // byte[] | public | HIDL v3.3 + ANDROID_STATISTICS_INFO_END, + + ANDROID_TONEMAP_CURVE_BLUE = // float[] | ndk_public | HIDL v3.2 + ANDROID_TONEMAP_START, + ANDROID_TONEMAP_CURVE_GREEN, // float[] | ndk_public | HIDL v3.2 + ANDROID_TONEMAP_CURVE_RED, // float[] | ndk_public | HIDL v3.2 + ANDROID_TONEMAP_MODE, // enum | public | HIDL v3.2 + ANDROID_TONEMAP_MAX_CURVE_POINTS, // int32 | public | HIDL v3.2 + ANDROID_TONEMAP_AVAILABLE_TONE_MAP_MODES, // byte[] | public | HIDL v3.2 + ANDROID_TONEMAP_GAMMA, // float | public | HIDL v3.2 + ANDROID_TONEMAP_PRESET_CURVE, // enum | public | HIDL v3.2 + ANDROID_TONEMAP_END, + + ANDROID_LED_TRANSMIT = // enum | hidden | HIDL v3.2 + ANDROID_LED_START, + ANDROID_LED_AVAILABLE_LEDS, // enum[] | hidden | HIDL v3.2 + ANDROID_LED_END, + + ANDROID_INFO_SUPPORTED_HARDWARE_LEVEL = // enum | public | HIDL v3.2 + ANDROID_INFO_START, + ANDROID_INFO_VERSION, // byte | public | HIDL v3.3 + ANDROID_INFO_END, + + ANDROID_BLACK_LEVEL_LOCK = // enum | public | HIDL v3.2 + ANDROID_BLACK_LEVEL_START, + ANDROID_BLACK_LEVEL_END, + + ANDROID_SYNC_FRAME_NUMBER = // enum | ndk_public | HIDL v3.2 + ANDROID_SYNC_START, + ANDROID_SYNC_MAX_LATENCY, // enum | public | HIDL v3.2 + ANDROID_SYNC_END, + + ANDROID_REPROCESS_EFFECTIVE_EXPOSURE_FACTOR = // float | java_public | HIDL v3.2 + ANDROID_REPROCESS_START, + ANDROID_REPROCESS_MAX_CAPTURE_STALL, // int32 | java_public | HIDL v3.2 + ANDROID_REPROCESS_END, + + ANDROID_DEPTH_MAX_DEPTH_SAMPLES = // int32 | system | HIDL v3.2 + ANDROID_DEPTH_START, + ANDROID_DEPTH_AVAILABLE_DEPTH_STREAM_CONFIGURATIONS, + // enum[] | ndk_public | HIDL v3.2 + ANDROID_DEPTH_AVAILABLE_DEPTH_MIN_FRAME_DURATIONS,// int64[] | ndk_public | HIDL v3.2 + ANDROID_DEPTH_AVAILABLE_DEPTH_STALL_DURATIONS, // int64[] | ndk_public | HIDL v3.2 + ANDROID_DEPTH_DEPTH_IS_EXCLUSIVE, // enum | public | HIDL v3.2 + ANDROID_DEPTH_END, + + ANDROID_LOGICAL_MULTI_CAMERA_PHYSICAL_IDS = // byte[] | hidden | HIDL v3.3 + ANDROID_LOGICAL_MULTI_CAMERA_START, + ANDROID_LOGICAL_MULTI_CAMERA_SENSOR_SYNC_TYPE, // enum | public | HIDL v3.3 + ANDROID_LOGICAL_MULTI_CAMERA_END, + + ANDROID_DISTORTION_CORRECTION_MODE = // enum | public | HIDL v3.3 + ANDROID_DISTORTION_CORRECTION_START, + ANDROID_DISTORTION_CORRECTION_AVAILABLE_MODES, // byte[] | public | HIDL v3.3 + ANDROID_DISTORTION_CORRECTION_END, + +} camera_metadata_tag_t; + +/** + * Enumeration definitions for the various entries that need them + */ + +// ANDROID_COLOR_CORRECTION_MODE +typedef enum camera_metadata_enum_android_color_correction_mode { + ANDROID_COLOR_CORRECTION_MODE_TRANSFORM_MATRIX , // HIDL v3.2 + ANDROID_COLOR_CORRECTION_MODE_FAST , // HIDL v3.2 + ANDROID_COLOR_CORRECTION_MODE_HIGH_QUALITY , // HIDL v3.2 +} camera_metadata_enum_android_color_correction_mode_t; + +// ANDROID_COLOR_CORRECTION_ABERRATION_MODE +typedef enum camera_metadata_enum_android_color_correction_aberration_mode { + ANDROID_COLOR_CORRECTION_ABERRATION_MODE_OFF , // HIDL v3.2 + ANDROID_COLOR_CORRECTION_ABERRATION_MODE_FAST , // HIDL v3.2 + ANDROID_COLOR_CORRECTION_ABERRATION_MODE_HIGH_QUALITY , // HIDL v3.2 +} camera_metadata_enum_android_color_correction_aberration_mode_t; + + +// ANDROID_CONTROL_AE_ANTIBANDING_MODE +typedef enum camera_metadata_enum_android_control_ae_antibanding_mode { + ANDROID_CONTROL_AE_ANTIBANDING_MODE_OFF , // HIDL v3.2 + ANDROID_CONTROL_AE_ANTIBANDING_MODE_50HZ , // HIDL v3.2 + ANDROID_CONTROL_AE_ANTIBANDING_MODE_60HZ , // HIDL v3.2 + ANDROID_CONTROL_AE_ANTIBANDING_MODE_AUTO , // HIDL v3.2 +} camera_metadata_enum_android_control_ae_antibanding_mode_t; + +// ANDROID_CONTROL_AE_LOCK +typedef enum camera_metadata_enum_android_control_ae_lock { + ANDROID_CONTROL_AE_LOCK_OFF , // HIDL v3.2 + ANDROID_CONTROL_AE_LOCK_ON , // HIDL v3.2 +} camera_metadata_enum_android_control_ae_lock_t; + +// ANDROID_CONTROL_AE_MODE +typedef enum camera_metadata_enum_android_control_ae_mode { + ANDROID_CONTROL_AE_MODE_OFF , // HIDL v3.2 + ANDROID_CONTROL_AE_MODE_ON , // HIDL v3.2 + ANDROID_CONTROL_AE_MODE_ON_AUTO_FLASH , // HIDL v3.2 + ANDROID_CONTROL_AE_MODE_ON_ALWAYS_FLASH , // HIDL v3.2 + ANDROID_CONTROL_AE_MODE_ON_AUTO_FLASH_REDEYE , // HIDL v3.2 + ANDROID_CONTROL_AE_MODE_ON_EXTERNAL_FLASH , // HIDL v3.3 +} camera_metadata_enum_android_control_ae_mode_t; + +// ANDROID_CONTROL_AE_PRECAPTURE_TRIGGER +typedef enum camera_metadata_enum_android_control_ae_precapture_trigger { + ANDROID_CONTROL_AE_PRECAPTURE_TRIGGER_IDLE , // HIDL v3.2 + ANDROID_CONTROL_AE_PRECAPTURE_TRIGGER_START , // HIDL v3.2 + ANDROID_CONTROL_AE_PRECAPTURE_TRIGGER_CANCEL , // HIDL v3.2 +} camera_metadata_enum_android_control_ae_precapture_trigger_t; + +// ANDROID_CONTROL_AF_MODE +typedef enum camera_metadata_enum_android_control_af_mode { + ANDROID_CONTROL_AF_MODE_OFF , // HIDL v3.2 + ANDROID_CONTROL_AF_MODE_AUTO , // HIDL v3.2 + ANDROID_CONTROL_AF_MODE_MACRO , // HIDL v3.2 + ANDROID_CONTROL_AF_MODE_CONTINUOUS_VIDEO , // HIDL v3.2 + ANDROID_CONTROL_AF_MODE_CONTINUOUS_PICTURE , // HIDL v3.2 + ANDROID_CONTROL_AF_MODE_EDOF , // HIDL v3.2 +} camera_metadata_enum_android_control_af_mode_t; + +// ANDROID_CONTROL_AF_TRIGGER +typedef enum camera_metadata_enum_android_control_af_trigger { + ANDROID_CONTROL_AF_TRIGGER_IDLE , // HIDL v3.2 + ANDROID_CONTROL_AF_TRIGGER_START , // HIDL v3.2 + ANDROID_CONTROL_AF_TRIGGER_CANCEL , // HIDL v3.2 +} camera_metadata_enum_android_control_af_trigger_t; + +// ANDROID_CONTROL_AWB_LOCK +typedef enum camera_metadata_enum_android_control_awb_lock { + ANDROID_CONTROL_AWB_LOCK_OFF , // HIDL v3.2 + ANDROID_CONTROL_AWB_LOCK_ON , // HIDL v3.2 +} camera_metadata_enum_android_control_awb_lock_t; + +// ANDROID_CONTROL_AWB_MODE +typedef enum camera_metadata_enum_android_control_awb_mode { + ANDROID_CONTROL_AWB_MODE_OFF , // HIDL v3.2 + ANDROID_CONTROL_AWB_MODE_AUTO , // HIDL v3.2 + ANDROID_CONTROL_AWB_MODE_INCANDESCENT , // HIDL v3.2 + ANDROID_CONTROL_AWB_MODE_FLUORESCENT , // HIDL v3.2 + ANDROID_CONTROL_AWB_MODE_WARM_FLUORESCENT , // HIDL v3.2 + ANDROID_CONTROL_AWB_MODE_DAYLIGHT , // HIDL v3.2 + ANDROID_CONTROL_AWB_MODE_CLOUDY_DAYLIGHT , // HIDL v3.2 + ANDROID_CONTROL_AWB_MODE_TWILIGHT , // HIDL v3.2 + ANDROID_CONTROL_AWB_MODE_SHADE , // HIDL v3.2 +} camera_metadata_enum_android_control_awb_mode_t; + +// ANDROID_CONTROL_CAPTURE_INTENT +typedef enum camera_metadata_enum_android_control_capture_intent { + ANDROID_CONTROL_CAPTURE_INTENT_CUSTOM , // HIDL v3.2 + ANDROID_CONTROL_CAPTURE_INTENT_PREVIEW , // HIDL v3.2 + ANDROID_CONTROL_CAPTURE_INTENT_STILL_CAPTURE , // HIDL v3.2 + ANDROID_CONTROL_CAPTURE_INTENT_VIDEO_RECORD , // HIDL v3.2 + ANDROID_CONTROL_CAPTURE_INTENT_VIDEO_SNAPSHOT , // HIDL v3.2 + ANDROID_CONTROL_CAPTURE_INTENT_ZERO_SHUTTER_LAG , // HIDL v3.2 + ANDROID_CONTROL_CAPTURE_INTENT_MANUAL , // HIDL v3.2 + ANDROID_CONTROL_CAPTURE_INTENT_MOTION_TRACKING , // HIDL v3.3 +} camera_metadata_enum_android_control_capture_intent_t; + +// ANDROID_CONTROL_EFFECT_MODE +typedef enum camera_metadata_enum_android_control_effect_mode { + ANDROID_CONTROL_EFFECT_MODE_OFF , // HIDL v3.2 + ANDROID_CONTROL_EFFECT_MODE_MONO , // HIDL v3.2 + ANDROID_CONTROL_EFFECT_MODE_NEGATIVE , // HIDL v3.2 + ANDROID_CONTROL_EFFECT_MODE_SOLARIZE , // HIDL v3.2 + ANDROID_CONTROL_EFFECT_MODE_SEPIA , // HIDL v3.2 + ANDROID_CONTROL_EFFECT_MODE_POSTERIZE , // HIDL v3.2 + ANDROID_CONTROL_EFFECT_MODE_WHITEBOARD , // HIDL v3.2 + ANDROID_CONTROL_EFFECT_MODE_BLACKBOARD , // HIDL v3.2 + ANDROID_CONTROL_EFFECT_MODE_AQUA , // HIDL v3.2 +} camera_metadata_enum_android_control_effect_mode_t; + +// ANDROID_CONTROL_MODE +typedef enum camera_metadata_enum_android_control_mode { + ANDROID_CONTROL_MODE_OFF , // HIDL v3.2 + ANDROID_CONTROL_MODE_AUTO , // HIDL v3.2 + ANDROID_CONTROL_MODE_USE_SCENE_MODE , // HIDL v3.2 + ANDROID_CONTROL_MODE_OFF_KEEP_STATE , // HIDL v3.2 +} camera_metadata_enum_android_control_mode_t; + +// ANDROID_CONTROL_SCENE_MODE +typedef enum camera_metadata_enum_android_control_scene_mode { + ANDROID_CONTROL_SCENE_MODE_DISABLED = 0, // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_FACE_PRIORITY , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_ACTION , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_PORTRAIT , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_LANDSCAPE , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_NIGHT , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_NIGHT_PORTRAIT , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_THEATRE , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_BEACH , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_SNOW , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_SUNSET , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_STEADYPHOTO , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_FIREWORKS , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_SPORTS , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_PARTY , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_CANDLELIGHT , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_BARCODE , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_HIGH_SPEED_VIDEO , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_HDR , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_FACE_PRIORITY_LOW_LIGHT , // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_DEVICE_CUSTOM_START = 100, // HIDL v3.2 + ANDROID_CONTROL_SCENE_MODE_DEVICE_CUSTOM_END = 127, // HIDL v3.2 +} camera_metadata_enum_android_control_scene_mode_t; + +// ANDROID_CONTROL_VIDEO_STABILIZATION_MODE +typedef enum camera_metadata_enum_android_control_video_stabilization_mode { + ANDROID_CONTROL_VIDEO_STABILIZATION_MODE_OFF , // HIDL v3.2 + ANDROID_CONTROL_VIDEO_STABILIZATION_MODE_ON , // HIDL v3.2 +} camera_metadata_enum_android_control_video_stabilization_mode_t; + +// ANDROID_CONTROL_AE_STATE +typedef enum camera_metadata_enum_android_control_ae_state { + ANDROID_CONTROL_AE_STATE_INACTIVE , // HIDL v3.2 + ANDROID_CONTROL_AE_STATE_SEARCHING , // HIDL v3.2 + ANDROID_CONTROL_AE_STATE_CONVERGED , // HIDL v3.2 + ANDROID_CONTROL_AE_STATE_LOCKED , // HIDL v3.2 + ANDROID_CONTROL_AE_STATE_FLASH_REQUIRED , // HIDL v3.2 + ANDROID_CONTROL_AE_STATE_PRECAPTURE , // HIDL v3.2 +} camera_metadata_enum_android_control_ae_state_t; + +// ANDROID_CONTROL_AF_STATE +typedef enum camera_metadata_enum_android_control_af_state { + ANDROID_CONTROL_AF_STATE_INACTIVE , // HIDL v3.2 + ANDROID_CONTROL_AF_STATE_PASSIVE_SCAN , // HIDL v3.2 + ANDROID_CONTROL_AF_STATE_PASSIVE_FOCUSED , // HIDL v3.2 + ANDROID_CONTROL_AF_STATE_ACTIVE_SCAN , // HIDL v3.2 + ANDROID_CONTROL_AF_STATE_FOCUSED_LOCKED , // HIDL v3.2 + ANDROID_CONTROL_AF_STATE_NOT_FOCUSED_LOCKED , // HIDL v3.2 + ANDROID_CONTROL_AF_STATE_PASSIVE_UNFOCUSED , // HIDL v3.2 +} camera_metadata_enum_android_control_af_state_t; + +// ANDROID_CONTROL_AWB_STATE +typedef enum camera_metadata_enum_android_control_awb_state { + ANDROID_CONTROL_AWB_STATE_INACTIVE , // HIDL v3.2 + ANDROID_CONTROL_AWB_STATE_SEARCHING , // HIDL v3.2 + ANDROID_CONTROL_AWB_STATE_CONVERGED , // HIDL v3.2 + ANDROID_CONTROL_AWB_STATE_LOCKED , // HIDL v3.2 +} camera_metadata_enum_android_control_awb_state_t; + +// ANDROID_CONTROL_AE_LOCK_AVAILABLE +typedef enum camera_metadata_enum_android_control_ae_lock_available { + ANDROID_CONTROL_AE_LOCK_AVAILABLE_FALSE , // HIDL v3.2 + ANDROID_CONTROL_AE_LOCK_AVAILABLE_TRUE , // HIDL v3.2 +} camera_metadata_enum_android_control_ae_lock_available_t; + +// ANDROID_CONTROL_AWB_LOCK_AVAILABLE +typedef enum camera_metadata_enum_android_control_awb_lock_available { + ANDROID_CONTROL_AWB_LOCK_AVAILABLE_FALSE , // HIDL v3.2 + ANDROID_CONTROL_AWB_LOCK_AVAILABLE_TRUE , // HIDL v3.2 +} camera_metadata_enum_android_control_awb_lock_available_t; + +// ANDROID_CONTROL_ENABLE_ZSL +typedef enum camera_metadata_enum_android_control_enable_zsl { + ANDROID_CONTROL_ENABLE_ZSL_FALSE , // HIDL v3.2 + ANDROID_CONTROL_ENABLE_ZSL_TRUE , // HIDL v3.2 +} camera_metadata_enum_android_control_enable_zsl_t; + +// ANDROID_CONTROL_AF_SCENE_CHANGE +typedef enum camera_metadata_enum_android_control_af_scene_change { + ANDROID_CONTROL_AF_SCENE_CHANGE_NOT_DETECTED , // HIDL v3.3 + ANDROID_CONTROL_AF_SCENE_CHANGE_DETECTED , // HIDL v3.3 +} camera_metadata_enum_android_control_af_scene_change_t; + + +// ANDROID_DEMOSAIC_MODE +typedef enum camera_metadata_enum_android_demosaic_mode { + ANDROID_DEMOSAIC_MODE_FAST , // HIDL v3.2 + ANDROID_DEMOSAIC_MODE_HIGH_QUALITY , // HIDL v3.2 +} camera_metadata_enum_android_demosaic_mode_t; + + +// ANDROID_EDGE_MODE +typedef enum camera_metadata_enum_android_edge_mode { + ANDROID_EDGE_MODE_OFF , // HIDL v3.2 + ANDROID_EDGE_MODE_FAST , // HIDL v3.2 + ANDROID_EDGE_MODE_HIGH_QUALITY , // HIDL v3.2 + ANDROID_EDGE_MODE_ZERO_SHUTTER_LAG , // HIDL v3.2 +} camera_metadata_enum_android_edge_mode_t; + + +// ANDROID_FLASH_MODE +typedef enum camera_metadata_enum_android_flash_mode { + ANDROID_FLASH_MODE_OFF , // HIDL v3.2 + ANDROID_FLASH_MODE_SINGLE , // HIDL v3.2 + ANDROID_FLASH_MODE_TORCH , // HIDL v3.2 +} camera_metadata_enum_android_flash_mode_t; + +// ANDROID_FLASH_STATE +typedef enum camera_metadata_enum_android_flash_state { + ANDROID_FLASH_STATE_UNAVAILABLE , // HIDL v3.2 + ANDROID_FLASH_STATE_CHARGING , // HIDL v3.2 + ANDROID_FLASH_STATE_READY , // HIDL v3.2 + ANDROID_FLASH_STATE_FIRED , // HIDL v3.2 + ANDROID_FLASH_STATE_PARTIAL , // HIDL v3.2 +} camera_metadata_enum_android_flash_state_t; + + +// ANDROID_FLASH_INFO_AVAILABLE +typedef enum camera_metadata_enum_android_flash_info_available { + ANDROID_FLASH_INFO_AVAILABLE_FALSE , // HIDL v3.2 + ANDROID_FLASH_INFO_AVAILABLE_TRUE , // HIDL v3.2 +} camera_metadata_enum_android_flash_info_available_t; + + +// ANDROID_HOT_PIXEL_MODE +typedef enum camera_metadata_enum_android_hot_pixel_mode { + ANDROID_HOT_PIXEL_MODE_OFF , // HIDL v3.2 + ANDROID_HOT_PIXEL_MODE_FAST , // HIDL v3.2 + ANDROID_HOT_PIXEL_MODE_HIGH_QUALITY , // HIDL v3.2 +} camera_metadata_enum_android_hot_pixel_mode_t; + + + +// ANDROID_LENS_OPTICAL_STABILIZATION_MODE +typedef enum camera_metadata_enum_android_lens_optical_stabilization_mode { + ANDROID_LENS_OPTICAL_STABILIZATION_MODE_OFF , // HIDL v3.2 + ANDROID_LENS_OPTICAL_STABILIZATION_MODE_ON , // HIDL v3.2 +} camera_metadata_enum_android_lens_optical_stabilization_mode_t; + +// ANDROID_LENS_FACING +typedef enum camera_metadata_enum_android_lens_facing { + ANDROID_LENS_FACING_FRONT , // HIDL v3.2 + ANDROID_LENS_FACING_BACK , // HIDL v3.2 + ANDROID_LENS_FACING_EXTERNAL , // HIDL v3.2 +} camera_metadata_enum_android_lens_facing_t; + +// ANDROID_LENS_STATE +typedef enum camera_metadata_enum_android_lens_state { + ANDROID_LENS_STATE_STATIONARY , // HIDL v3.2 + ANDROID_LENS_STATE_MOVING , // HIDL v3.2 +} camera_metadata_enum_android_lens_state_t; + +// ANDROID_LENS_POSE_REFERENCE +typedef enum camera_metadata_enum_android_lens_pose_reference { + ANDROID_LENS_POSE_REFERENCE_PRIMARY_CAMERA , // HIDL v3.3 + ANDROID_LENS_POSE_REFERENCE_GYROSCOPE , // HIDL v3.3 +} camera_metadata_enum_android_lens_pose_reference_t; + + +// ANDROID_LENS_INFO_FOCUS_DISTANCE_CALIBRATION +typedef enum camera_metadata_enum_android_lens_info_focus_distance_calibration { + ANDROID_LENS_INFO_FOCUS_DISTANCE_CALIBRATION_UNCALIBRATED , // HIDL v3.2 + ANDROID_LENS_INFO_FOCUS_DISTANCE_CALIBRATION_APPROXIMATE , // HIDL v3.2 + ANDROID_LENS_INFO_FOCUS_DISTANCE_CALIBRATION_CALIBRATED , // HIDL v3.2 +} camera_metadata_enum_android_lens_info_focus_distance_calibration_t; + + +// ANDROID_NOISE_REDUCTION_MODE +typedef enum camera_metadata_enum_android_noise_reduction_mode { + ANDROID_NOISE_REDUCTION_MODE_OFF , // HIDL v3.2 + ANDROID_NOISE_REDUCTION_MODE_FAST , // HIDL v3.2 + ANDROID_NOISE_REDUCTION_MODE_HIGH_QUALITY , // HIDL v3.2 + ANDROID_NOISE_REDUCTION_MODE_MINIMAL , // HIDL v3.2 + ANDROID_NOISE_REDUCTION_MODE_ZERO_SHUTTER_LAG , // HIDL v3.2 +} camera_metadata_enum_android_noise_reduction_mode_t; + + +// ANDROID_QUIRKS_PARTIAL_RESULT +typedef enum camera_metadata_enum_android_quirks_partial_result { + ANDROID_QUIRKS_PARTIAL_RESULT_FINAL , // HIDL v3.2 + ANDROID_QUIRKS_PARTIAL_RESULT_PARTIAL , // HIDL v3.2 +} camera_metadata_enum_android_quirks_partial_result_t; + + +// ANDROID_REQUEST_METADATA_MODE +typedef enum camera_metadata_enum_android_request_metadata_mode { + ANDROID_REQUEST_METADATA_MODE_NONE , // HIDL v3.2 + ANDROID_REQUEST_METADATA_MODE_FULL , // HIDL v3.2 +} camera_metadata_enum_android_request_metadata_mode_t; + +// ANDROID_REQUEST_TYPE +typedef enum camera_metadata_enum_android_request_type { + ANDROID_REQUEST_TYPE_CAPTURE , // HIDL v3.2 + ANDROID_REQUEST_TYPE_REPROCESS , // HIDL v3.2 +} camera_metadata_enum_android_request_type_t; + +// ANDROID_REQUEST_AVAILABLE_CAPABILITIES +typedef enum camera_metadata_enum_android_request_available_capabilities { + ANDROID_REQUEST_AVAILABLE_CAPABILITIES_BACKWARD_COMPATIBLE , // HIDL v3.2 + ANDROID_REQUEST_AVAILABLE_CAPABILITIES_MANUAL_SENSOR , // HIDL v3.2 + ANDROID_REQUEST_AVAILABLE_CAPABILITIES_MANUAL_POST_PROCESSING , // HIDL v3.2 + ANDROID_REQUEST_AVAILABLE_CAPABILITIES_RAW , // HIDL v3.2 + ANDROID_REQUEST_AVAILABLE_CAPABILITIES_PRIVATE_REPROCESSING , // HIDL v3.2 + ANDROID_REQUEST_AVAILABLE_CAPABILITIES_READ_SENSOR_SETTINGS , // HIDL v3.2 + ANDROID_REQUEST_AVAILABLE_CAPABILITIES_BURST_CAPTURE , // HIDL v3.2 + ANDROID_REQUEST_AVAILABLE_CAPABILITIES_YUV_REPROCESSING , // HIDL v3.2 + ANDROID_REQUEST_AVAILABLE_CAPABILITIES_DEPTH_OUTPUT , // HIDL v3.2 + ANDROID_REQUEST_AVAILABLE_CAPABILITIES_CONSTRAINED_HIGH_SPEED_VIDEO + , // HIDL v3.2 + ANDROID_REQUEST_AVAILABLE_CAPABILITIES_MOTION_TRACKING , // HIDL v3.3 + ANDROID_REQUEST_AVAILABLE_CAPABILITIES_LOGICAL_MULTI_CAMERA , // HIDL v3.3 + ANDROID_REQUEST_AVAILABLE_CAPABILITIES_MONOCHROME , // HIDL v3.3 +} camera_metadata_enum_android_request_available_capabilities_t; + + +// ANDROID_SCALER_AVAILABLE_FORMATS +typedef enum camera_metadata_enum_android_scaler_available_formats { + ANDROID_SCALER_AVAILABLE_FORMATS_RAW16 = 0x20, // HIDL v3.2 + ANDROID_SCALER_AVAILABLE_FORMATS_RAW_OPAQUE = 0x24, // HIDL v3.2 + ANDROID_SCALER_AVAILABLE_FORMATS_YV12 = 0x32315659, // HIDL v3.2 + ANDROID_SCALER_AVAILABLE_FORMATS_YCrCb_420_SP = 0x11, // HIDL v3.2 + ANDROID_SCALER_AVAILABLE_FORMATS_IMPLEMENTATION_DEFINED = 0x22, // HIDL v3.2 + ANDROID_SCALER_AVAILABLE_FORMATS_YCbCr_420_888 = 0x23, // HIDL v3.2 + ANDROID_SCALER_AVAILABLE_FORMATS_BLOB = 0x21, // HIDL v3.2 +} camera_metadata_enum_android_scaler_available_formats_t; + +// ANDROID_SCALER_AVAILABLE_STREAM_CONFIGURATIONS +typedef enum camera_metadata_enum_android_scaler_available_stream_configurations { + ANDROID_SCALER_AVAILABLE_STREAM_CONFIGURATIONS_OUTPUT , // HIDL v3.2 + ANDROID_SCALER_AVAILABLE_STREAM_CONFIGURATIONS_INPUT , // HIDL v3.2 +} camera_metadata_enum_android_scaler_available_stream_configurations_t; + +// ANDROID_SCALER_CROPPING_TYPE +typedef enum camera_metadata_enum_android_scaler_cropping_type { + ANDROID_SCALER_CROPPING_TYPE_CENTER_ONLY , // HIDL v3.2 + ANDROID_SCALER_CROPPING_TYPE_FREEFORM , // HIDL v3.2 +} camera_metadata_enum_android_scaler_cropping_type_t; + + +// ANDROID_SENSOR_REFERENCE_ILLUMINANT1 +typedef enum camera_metadata_enum_android_sensor_reference_illuminant1 { + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_DAYLIGHT = 1, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_FLUORESCENT = 2, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_TUNGSTEN = 3, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_FLASH = 4, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_FINE_WEATHER = 9, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_CLOUDY_WEATHER = 10, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_SHADE = 11, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_DAYLIGHT_FLUORESCENT = 12, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_DAY_WHITE_FLUORESCENT = 13, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_COOL_WHITE_FLUORESCENT = 14, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_WHITE_FLUORESCENT = 15, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_STANDARD_A = 17, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_STANDARD_B = 18, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_STANDARD_C = 19, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_D55 = 20, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_D65 = 21, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_D75 = 22, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_D50 = 23, // HIDL v3.2 + ANDROID_SENSOR_REFERENCE_ILLUMINANT1_ISO_STUDIO_TUNGSTEN = 24, // HIDL v3.2 +} camera_metadata_enum_android_sensor_reference_illuminant1_t; + +// ANDROID_SENSOR_TEST_PATTERN_MODE +typedef enum camera_metadata_enum_android_sensor_test_pattern_mode { + ANDROID_SENSOR_TEST_PATTERN_MODE_OFF , // HIDL v3.2 + ANDROID_SENSOR_TEST_PATTERN_MODE_SOLID_COLOR , // HIDL v3.2 + ANDROID_SENSOR_TEST_PATTERN_MODE_COLOR_BARS , // HIDL v3.2 + ANDROID_SENSOR_TEST_PATTERN_MODE_COLOR_BARS_FADE_TO_GRAY , // HIDL v3.2 + ANDROID_SENSOR_TEST_PATTERN_MODE_PN9 , // HIDL v3.2 + ANDROID_SENSOR_TEST_PATTERN_MODE_CUSTOM1 = 256, // HIDL v3.2 +} camera_metadata_enum_android_sensor_test_pattern_mode_t; + + +// ANDROID_SENSOR_INFO_COLOR_FILTER_ARRANGEMENT +typedef enum camera_metadata_enum_android_sensor_info_color_filter_arrangement { + ANDROID_SENSOR_INFO_COLOR_FILTER_ARRANGEMENT_RGGB , // HIDL v3.2 + ANDROID_SENSOR_INFO_COLOR_FILTER_ARRANGEMENT_GRBG , // HIDL v3.2 + ANDROID_SENSOR_INFO_COLOR_FILTER_ARRANGEMENT_GBRG , // HIDL v3.2 + ANDROID_SENSOR_INFO_COLOR_FILTER_ARRANGEMENT_BGGR , // HIDL v3.2 + ANDROID_SENSOR_INFO_COLOR_FILTER_ARRANGEMENT_RGB , // HIDL v3.2 +} camera_metadata_enum_android_sensor_info_color_filter_arrangement_t; + +// ANDROID_SENSOR_INFO_TIMESTAMP_SOURCE +typedef enum camera_metadata_enum_android_sensor_info_timestamp_source { + ANDROID_SENSOR_INFO_TIMESTAMP_SOURCE_UNKNOWN , // HIDL v3.2 + ANDROID_SENSOR_INFO_TIMESTAMP_SOURCE_REALTIME , // HIDL v3.2 +} camera_metadata_enum_android_sensor_info_timestamp_source_t; + +// ANDROID_SENSOR_INFO_LENS_SHADING_APPLIED +typedef enum camera_metadata_enum_android_sensor_info_lens_shading_applied { + ANDROID_SENSOR_INFO_LENS_SHADING_APPLIED_FALSE , // HIDL v3.2 + ANDROID_SENSOR_INFO_LENS_SHADING_APPLIED_TRUE , // HIDL v3.2 +} camera_metadata_enum_android_sensor_info_lens_shading_applied_t; + + +// ANDROID_SHADING_MODE +typedef enum camera_metadata_enum_android_shading_mode { + ANDROID_SHADING_MODE_OFF , // HIDL v3.2 + ANDROID_SHADING_MODE_FAST , // HIDL v3.2 + ANDROID_SHADING_MODE_HIGH_QUALITY , // HIDL v3.2 +} camera_metadata_enum_android_shading_mode_t; + + +// ANDROID_STATISTICS_FACE_DETECT_MODE +typedef enum camera_metadata_enum_android_statistics_face_detect_mode { + ANDROID_STATISTICS_FACE_DETECT_MODE_OFF , // HIDL v3.2 + ANDROID_STATISTICS_FACE_DETECT_MODE_SIMPLE , // HIDL v3.2 + ANDROID_STATISTICS_FACE_DETECT_MODE_FULL , // HIDL v3.2 +} camera_metadata_enum_android_statistics_face_detect_mode_t; + +// ANDROID_STATISTICS_HISTOGRAM_MODE +typedef enum camera_metadata_enum_android_statistics_histogram_mode { + ANDROID_STATISTICS_HISTOGRAM_MODE_OFF , // HIDL v3.2 + ANDROID_STATISTICS_HISTOGRAM_MODE_ON , // HIDL v3.2 +} camera_metadata_enum_android_statistics_histogram_mode_t; + +// ANDROID_STATISTICS_SHARPNESS_MAP_MODE +typedef enum camera_metadata_enum_android_statistics_sharpness_map_mode { + ANDROID_STATISTICS_SHARPNESS_MAP_MODE_OFF , // HIDL v3.2 + ANDROID_STATISTICS_SHARPNESS_MAP_MODE_ON , // HIDL v3.2 +} camera_metadata_enum_android_statistics_sharpness_map_mode_t; + +// ANDROID_STATISTICS_HOT_PIXEL_MAP_MODE +typedef enum camera_metadata_enum_android_statistics_hot_pixel_map_mode { + ANDROID_STATISTICS_HOT_PIXEL_MAP_MODE_OFF , // HIDL v3.2 + ANDROID_STATISTICS_HOT_PIXEL_MAP_MODE_ON , // HIDL v3.2 +} camera_metadata_enum_android_statistics_hot_pixel_map_mode_t; + +// ANDROID_STATISTICS_SCENE_FLICKER +typedef enum camera_metadata_enum_android_statistics_scene_flicker { + ANDROID_STATISTICS_SCENE_FLICKER_NONE , // HIDL v3.2 + ANDROID_STATISTICS_SCENE_FLICKER_50HZ , // HIDL v3.2 + ANDROID_STATISTICS_SCENE_FLICKER_60HZ , // HIDL v3.2 +} camera_metadata_enum_android_statistics_scene_flicker_t; + +// ANDROID_STATISTICS_LENS_SHADING_MAP_MODE +typedef enum camera_metadata_enum_android_statistics_lens_shading_map_mode { + ANDROID_STATISTICS_LENS_SHADING_MAP_MODE_OFF , // HIDL v3.2 + ANDROID_STATISTICS_LENS_SHADING_MAP_MODE_ON , // HIDL v3.2 +} camera_metadata_enum_android_statistics_lens_shading_map_mode_t; + +// ANDROID_STATISTICS_OIS_DATA_MODE +typedef enum camera_metadata_enum_android_statistics_ois_data_mode { + ANDROID_STATISTICS_OIS_DATA_MODE_OFF , // HIDL v3.3 + ANDROID_STATISTICS_OIS_DATA_MODE_ON , // HIDL v3.3 +} camera_metadata_enum_android_statistics_ois_data_mode_t; + + + +// ANDROID_TONEMAP_MODE +typedef enum camera_metadata_enum_android_tonemap_mode { + ANDROID_TONEMAP_MODE_CONTRAST_CURVE , // HIDL v3.2 + ANDROID_TONEMAP_MODE_FAST , // HIDL v3.2 + ANDROID_TONEMAP_MODE_HIGH_QUALITY , // HIDL v3.2 + ANDROID_TONEMAP_MODE_GAMMA_VALUE , // HIDL v3.2 + ANDROID_TONEMAP_MODE_PRESET_CURVE , // HIDL v3.2 +} camera_metadata_enum_android_tonemap_mode_t; + +// ANDROID_TONEMAP_PRESET_CURVE +typedef enum camera_metadata_enum_android_tonemap_preset_curve { + ANDROID_TONEMAP_PRESET_CURVE_SRGB , // HIDL v3.2 + ANDROID_TONEMAP_PRESET_CURVE_REC709 , // HIDL v3.2 +} camera_metadata_enum_android_tonemap_preset_curve_t; + + +// ANDROID_LED_TRANSMIT +typedef enum camera_metadata_enum_android_led_transmit { + ANDROID_LED_TRANSMIT_OFF , // HIDL v3.2 + ANDROID_LED_TRANSMIT_ON , // HIDL v3.2 +} camera_metadata_enum_android_led_transmit_t; + +// ANDROID_LED_AVAILABLE_LEDS +typedef enum camera_metadata_enum_android_led_available_leds { + ANDROID_LED_AVAILABLE_LEDS_TRANSMIT , // HIDL v3.2 +} camera_metadata_enum_android_led_available_leds_t; + + +// ANDROID_INFO_SUPPORTED_HARDWARE_LEVEL +typedef enum camera_metadata_enum_android_info_supported_hardware_level { + ANDROID_INFO_SUPPORTED_HARDWARE_LEVEL_LIMITED , // HIDL v3.2 + ANDROID_INFO_SUPPORTED_HARDWARE_LEVEL_FULL , // HIDL v3.2 + ANDROID_INFO_SUPPORTED_HARDWARE_LEVEL_LEGACY , // HIDL v3.2 + ANDROID_INFO_SUPPORTED_HARDWARE_LEVEL_3 , // HIDL v3.2 + ANDROID_INFO_SUPPORTED_HARDWARE_LEVEL_EXTERNAL , // HIDL v3.3 +} camera_metadata_enum_android_info_supported_hardware_level_t; + + +// ANDROID_BLACK_LEVEL_LOCK +typedef enum camera_metadata_enum_android_black_level_lock { + ANDROID_BLACK_LEVEL_LOCK_OFF , // HIDL v3.2 + ANDROID_BLACK_LEVEL_LOCK_ON , // HIDL v3.2 +} camera_metadata_enum_android_black_level_lock_t; + + +// ANDROID_SYNC_FRAME_NUMBER +typedef enum camera_metadata_enum_android_sync_frame_number { + ANDROID_SYNC_FRAME_NUMBER_CONVERGING = -1, // HIDL v3.2 + ANDROID_SYNC_FRAME_NUMBER_UNKNOWN = -2, // HIDL v3.2 +} camera_metadata_enum_android_sync_frame_number_t; + +// ANDROID_SYNC_MAX_LATENCY +typedef enum camera_metadata_enum_android_sync_max_latency { + ANDROID_SYNC_MAX_LATENCY_PER_FRAME_CONTROL = 0, // HIDL v3.2 + ANDROID_SYNC_MAX_LATENCY_UNKNOWN = -1, // HIDL v3.2 +} camera_metadata_enum_android_sync_max_latency_t; + + + +// ANDROID_DEPTH_AVAILABLE_DEPTH_STREAM_CONFIGURATIONS +typedef enum camera_metadata_enum_android_depth_available_depth_stream_configurations { + ANDROID_DEPTH_AVAILABLE_DEPTH_STREAM_CONFIGURATIONS_OUTPUT , // HIDL v3.2 + ANDROID_DEPTH_AVAILABLE_DEPTH_STREAM_CONFIGURATIONS_INPUT , // HIDL v3.2 +} camera_metadata_enum_android_depth_available_depth_stream_configurations_t; + +// ANDROID_DEPTH_DEPTH_IS_EXCLUSIVE +typedef enum camera_metadata_enum_android_depth_depth_is_exclusive { + ANDROID_DEPTH_DEPTH_IS_EXCLUSIVE_FALSE , // HIDL v3.2 + ANDROID_DEPTH_DEPTH_IS_EXCLUSIVE_TRUE , // HIDL v3.2 +} camera_metadata_enum_android_depth_depth_is_exclusive_t; + + +// ANDROID_LOGICAL_MULTI_CAMERA_SENSOR_SYNC_TYPE +typedef enum camera_metadata_enum_android_logical_multi_camera_sensor_sync_type { + ANDROID_LOGICAL_MULTI_CAMERA_SENSOR_SYNC_TYPE_APPROXIMATE , // HIDL v3.3 + ANDROID_LOGICAL_MULTI_CAMERA_SENSOR_SYNC_TYPE_CALIBRATED , // HIDL v3.3 +} camera_metadata_enum_android_logical_multi_camera_sensor_sync_type_t; + + +// ANDROID_DISTORTION_CORRECTION_MODE +typedef enum camera_metadata_enum_android_distortion_correction_mode { + ANDROID_DISTORTION_CORRECTION_MODE_OFF , // HIDL v3.3 + ANDROID_DISTORTION_CORRECTION_MODE_FAST , // HIDL v3.3 + ANDROID_DISTORTION_CORRECTION_MODE_HIGH_QUALITY , // HIDL v3.3 +} camera_metadata_enum_android_distortion_correction_mode_t; + + diff --git a/include/android/metadata/system/camera_vendor_tags.h b/include/android/metadata/system/camera_vendor_tags.h new file mode 100644 index 00000000..0bb54260 --- /dev/null +++ b/include/android/metadata/system/camera_vendor_tags.h @@ -0,0 +1,158 @@ +/* + * Copyright 2014 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. + */ + +#ifndef SYSTEM_MEDIA_INCLUDE_ANDROID_CAMERA_VENDOR_TAGS_H +#define SYSTEM_MEDIA_INCLUDE_ANDROID_CAMERA_VENDOR_TAGS_H + +#ifdef __cplusplus +extern "C" { +#endif + +#define CAMERA_METADATA_VENDOR_TAG_BOUNDARY 0x80000000u +#define CAMERA_METADATA_INVALID_VENDOR_ID UINT64_MAX + +typedef uint64_t metadata_vendor_id_t; + +/** + * Vendor tags: + * + * This structure contains basic functions for enumerating an immutable set of + * vendor-defined camera metadata tags, and querying static information about + * their structure/type. The intended use of this information is to validate + * the structure of metadata returned by the camera HAL, and to allow vendor- + * defined metadata tags to be visible in application facing camera API. + */ +typedef struct vendor_tag_ops vendor_tag_ops_t; +struct vendor_tag_ops { + /** + * Get the number of vendor tags supported on this platform. Used to + * calculate the size of buffer needed for holding the array of all tags + * returned by get_all_tags(). This must return -1 on error. + */ + int (*get_tag_count)(const vendor_tag_ops_t *v); + + /** + * Fill an array with all of the supported vendor tags on this platform. + * get_tag_count() must return the number of tags supported, and + * tag_array will be allocated with enough space to hold the number of tags + * returned by get_tag_count(). + */ + void (*get_all_tags)(const vendor_tag_ops_t *v, uint32_t *tag_array); + + /** + * Get the vendor section name for a vendor-specified entry tag. This will + * only be called for vendor-defined tags. + * + * The naming convention for the vendor-specific section names should + * follow a style similar to the Java package style. For example, + * CameraZoom Inc. must prefix their sections with "com.camerazoom." + * This must return NULL if the tag is outside the bounds of + * vendor-defined sections. + * + * There may be different vendor-defined tag sections, for example the + * phone maker, the chipset maker, and the camera module maker may each + * have their own "com.vendor."-prefixed section. + * + * The memory pointed to by the return value must remain valid for the + * lifetime of the module, and is owned by the module. + */ + const char *(*get_section_name)(const vendor_tag_ops_t *v, uint32_t tag); + + /** + * Get the tag name for a vendor-specified entry tag. This is only called + * for vendor-defined tags, and must return NULL if it is not a + * vendor-defined tag. + * + * The memory pointed to by the return value must remain valid for the + * lifetime of the module, and is owned by the module. + */ + const char *(*get_tag_name)(const vendor_tag_ops_t *v, uint32_t tag); + + /** + * Get tag type for a vendor-specified entry tag. The type returned must be + * a valid type defined in camera_metadata.h. This method is only called + * for tags >= CAMERA_METADATA_VENDOR_TAG_BOUNDARY, and must return + * -1 if the tag is outside the bounds of the vendor-defined sections. + */ + int (*get_tag_type)(const vendor_tag_ops_t *v, uint32_t tag); + + /* Reserved for future use. These must be initialized to NULL. */ + void* reserved[8]; +}; + +struct vendor_tag_cache_ops { + /** + * Get the number of vendor tags supported on this platform. Used to + * calculate the size of buffer needed for holding the array of all tags + * returned by get_all_tags(). This must return -1 on error. + */ + int (*get_tag_count)(metadata_vendor_id_t id); + + /** + * Fill an array with all of the supported vendor tags on this platform. + * get_tag_count() must return the number of tags supported, and + * tag_array will be allocated with enough space to hold the number of tags + * returned by get_tag_count(). + */ + void (*get_all_tags)(uint32_t *tag_array, metadata_vendor_id_t id); + + /** + * Get the vendor section name for a vendor-specified entry tag. This will + * only be called for vendor-defined tags. + * + * The naming convention for the vendor-specific section names should + * follow a style similar to the Java package style. For example, + * CameraZoom Inc. must prefix their sections with "com.camerazoom." + * This must return NULL if the tag is outside the bounds of + * vendor-defined sections. + * + * There may be different vendor-defined tag sections, for example the + * phone maker, the chipset maker, and the camera module maker may each + * have their own "com.vendor."-prefixed section. + * + * The memory pointed to by the return value must remain valid for the + * lifetime of the module, and is owned by the module. + */ + const char *(*get_section_name)(uint32_t tag, metadata_vendor_id_t id); + + /** + * Get the tag name for a vendor-specified entry tag. This is only called + * for vendor-defined tags, and must return NULL if it is not a + * vendor-defined tag. + * + * The memory pointed to by the return value must remain valid for the + * lifetime of the module, and is owned by the module. + */ + const char *(*get_tag_name)(uint32_t tag, metadata_vendor_id_t id); + + /** + * Get tag type for a vendor-specified entry tag. The type returned must be + * a valid type defined in camera_metadata.h. This method is only called + * for tags >= CAMERA_METADATA_VENDOR_TAG_BOUNDARY, and must return + * -1 if the tag is outside the bounds of the vendor-defined sections. + */ + int (*get_tag_type)(uint32_t tag, metadata_vendor_id_t id); + + /* Reserved for future use. These must be initialized to NULL. */ + void* reserved[8]; +}; + +#ifdef __cplusplus +} /* extern "C" */ +#endif + +#endif /* SYSTEM_MEDIA_INCLUDE_ANDROID_CAMERA_VENDOR_TAGS_H */ + diff --git a/include/android/system/core/include/android/log.h b/include/android/system/core/include/android/log.h new file mode 100644 index 00000000..1c171b7b --- /dev/null +++ b/include/android/system/core/include/android/log.h @@ -0,0 +1,144 @@ +/* + * Copyright (C) 2009 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. + */ + +#ifndef _ANDROID_LOG_H +#define _ANDROID_LOG_H + +/****************************************************************** + * + * IMPORTANT NOTICE: + * + * This file is part of Android's set of stable system headers + * exposed by the Android NDK (Native Development Kit) since + * platform release 1.5 + * + * Third-party source AND binary code relies on the definitions + * here to be FROZEN ON ALL UPCOMING PLATFORM RELEASES. + * + * - DO NOT MODIFY ENUMS (EXCEPT IF YOU ADD NEW 32-BIT VALUES) + * - DO NOT MODIFY CONSTANTS OR FUNCTIONAL MACROS + * - DO NOT CHANGE THE SIGNATURE OF FUNCTIONS IN ANY WAY + * - DO NOT CHANGE THE LAYOUT OR SIZE OF STRUCTURES + */ + +/* + * Support routines to send messages to the Android in-kernel log buffer, + * which can later be accessed through the 'logcat' utility. + * + * Each log message must have + * - a priority + * - a log tag + * - some text + * + * The tag normally corresponds to the component that emits the log message, + * and should be reasonably small. + * + * Log message text may be truncated to less than an implementation-specific + * limit (e.g. 1023 characters max). + * + * Note that a newline character ("\n") will be appended automatically to your + * log message, if not already there. It is not possible to send several messages + * and have them appear on a single line in logcat. + * + * PLEASE USE LOGS WITH MODERATION: + * + * - Sending log messages eats CPU and slow down your application and the + * system. + * + * - The circular log buffer is pretty small (<64KB), sending many messages + * might push off other important log messages from the rest of the system. + * + * - In release builds, only send log messages to account for exceptional + * conditions. + * + * NOTE: These functions MUST be implemented by /system/lib/liblog.so + */ + +#include <stdarg.h> + +#ifdef __cplusplus +extern "C" { +#endif + +/* + * Android log priority values, in ascending priority order. + */ +typedef enum android_LogPriority { + ANDROID_LOG_UNKNOWN = 0, + ANDROID_LOG_DEFAULT, /* only for SetMinPriority() */ + ANDROID_LOG_VERBOSE, + ANDROID_LOG_DEBUG, + ANDROID_LOG_INFO, + ANDROID_LOG_WARN, + ANDROID_LOG_ERROR, + ANDROID_LOG_FATAL, + ANDROID_LOG_SILENT, /* only for SetMinPriority(); must be last */ +} android_LogPriority; + +/* + * Send a simple string to the log. + */ +int __android_log_write(int prio, const char *tag, const char *text); + +/* + * Send a formatted string to the log, used like printf(fmt,...) + */ +int __android_log_print(int prio, const char *tag, const char *fmt, ...) +#if defined(__GNUC__) +#ifdef __USE_MINGW_ANSI_STDIO +#if __USE_MINGW_ANSI_STDIO + __attribute__ ((format(gnu_printf, 3, 4))) +#else + __attribute__ ((format(printf, 3, 4))) +#endif +#else + __attribute__ ((format(printf, 3, 4))) +#endif +#endif + ; + +/* + * A variant of __android_log_print() that takes a va_list to list + * additional parameters. + */ +int __android_log_vprint(int prio, const char *tag, + const char *fmt, va_list ap); + +/* + * Log an assertion failure and abort the process to have a chance + * to inspect it if a debugger is attached. This uses the FATAL priority. + */ +void __android_log_assert(const char *cond, const char *tag, + const char *fmt, ...) +#if defined(__GNUC__) + __attribute__ ((noreturn)) +#ifdef __USE_MINGW_ANSI_STDIO +#if __USE_MINGW_ANSI_STDIO + __attribute__ ((format(gnu_printf, 3, 4))) +#else + __attribute__ ((format(printf, 3, 4))) +#endif +#else + __attribute__ ((format(printf, 3, 4))) +#endif +#endif + ; + +#ifdef __cplusplus +} +#endif + +#endif /* _ANDROID_LOG_H */ diff --git a/include/android/system/core/include/cutils/compiler.h b/include/android/system/core/include/cutils/compiler.h new file mode 100644 index 00000000..70f884a1 --- /dev/null +++ b/include/android/system/core/include/cutils/compiler.h @@ -0,0 +1,44 @@ +/* + * Copyright (C) 2009 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. + */ + +#ifndef ANDROID_CUTILS_COMPILER_H +#define ANDROID_CUTILS_COMPILER_H + +/* + * helps the compiler's optimizer predicting branches + */ + +#ifdef __cplusplus +# define CC_LIKELY( exp ) (__builtin_expect( !!(exp), true )) +# define CC_UNLIKELY( exp ) (__builtin_expect( !!(exp), false )) +#else +# define CC_LIKELY( exp ) (__builtin_expect( !!(exp), 1 )) +# define CC_UNLIKELY( exp ) (__builtin_expect( !!(exp), 0 )) +#endif + +/** + * exports marked symbols + * + * if used on a C++ class declaration, this macro must be inserted + * after the "class" keyword. For instance: + * + * template <typename TYPE> + * class ANDROID_API Singleton { } + */ + +#define ANDROID_API __attribute__((visibility("default"))) + +#endif // ANDROID_CUTILS_COMPILER_H diff --git a/include/android/system/core/include/cutils/native_handle.h b/include/android/system/core/include/cutils/native_handle.h new file mode 100644 index 00000000..268c5d3f --- /dev/null +++ b/include/android/system/core/include/cutils/native_handle.h @@ -0,0 +1,69 @@ +/* + * Copyright (C) 2009 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. + */ + +#ifndef NATIVE_HANDLE_H_ +#define NATIVE_HANDLE_H_ + +#ifdef __cplusplus +extern "C" { +#endif + +typedef struct native_handle +{ + int version; /* sizeof(native_handle_t) */ + int numFds; /* number of file-descriptors at &data[0] */ + int numInts; /* number of ints at &data[numFds] */ + int data[0]; /* numFds + numInts ints */ +} native_handle_t; + +/* + * native_handle_close + * + * closes the file descriptors contained in this native_handle_t + * + * return 0 on success, or a negative error code on failure + * + */ +int native_handle_close(const native_handle_t* h); + + +/* + * native_handle_create + * + * creates a native_handle_t and initializes it. must be destroyed with + * native_handle_delete(). + * + */ +native_handle_t* native_handle_create(int numFds, int numInts); + +/* + * native_handle_delete + * + * frees a native_handle_t allocated with native_handle_create(). + * This ONLY frees the memory allocated for the native_handle_t, but doesn't + * close the file descriptors; which can be achieved with native_handle_close(). + * + * return 0 on success, or a negative error code on failure + * + */ +int native_handle_delete(native_handle_t* h); + + +#ifdef __cplusplus +} +#endif + +#endif /* NATIVE_HANDLE_H_ */ diff --git a/include/android/system/core/include/system/camera.h b/include/android/system/core/include/system/camera.h new file mode 100644 index 00000000..5d0873ac --- /dev/null +++ b/include/android/system/core/include/system/camera.h @@ -0,0 +1,298 @@ +/* + * Copyright (C) 2011 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. + */ + +#ifndef SYSTEM_CORE_INCLUDE_ANDROID_CAMERA_H +#define SYSTEM_CORE_INCLUDE_ANDROID_CAMERA_H + +#include <stdint.h> +#include <sys/cdefs.h> +#include <sys/types.h> +#include <cutils/native_handle.h> +#include <hardware/hardware.h> +#include <hardware/gralloc.h> + +__BEGIN_DECLS + +/** + * A set of bit masks for specifying how the received preview frames are + * handled before the previewCallback() call. + * + * The least significant 3 bits of an "int" value are used for this purpose: + * + * ..... 0 0 0 + * ^ ^ ^ + * | | |---------> determine whether the callback is enabled or not + * | |-----------> determine whether the callback is one-shot or not + * |-------------> determine whether the frame is copied out or not + * + * WARNING: When a frame is sent directly without copying, it is the frame + * receiver's responsiblity to make sure that the frame data won't get + * corrupted by subsequent preview frames filled by the camera. This flag is + * recommended only when copying out data brings significant performance price + * and the handling/processing of the received frame data is always faster than + * the preview frame rate so that data corruption won't occur. + * + * For instance, + * 1. 0x00 disables the callback. In this case, copy out and one shot bits + * are ignored. + * 2. 0x01 enables a callback without copying out the received frames. A + * typical use case is the Camcorder application to avoid making costly + * frame copies. + * 3. 0x05 is enabling a callback with frame copied out repeatedly. A typical + * use case is the Camera application. + * 4. 0x07 is enabling a callback with frame copied out only once. A typical + * use case is the Barcode scanner application. + */ + +enum { + CAMERA_FRAME_CALLBACK_FLAG_ENABLE_MASK = 0x01, + CAMERA_FRAME_CALLBACK_FLAG_ONE_SHOT_MASK = 0x02, + CAMERA_FRAME_CALLBACK_FLAG_COPY_OUT_MASK = 0x04, + /** Typical use cases */ + CAMERA_FRAME_CALLBACK_FLAG_NOOP = 0x00, + CAMERA_FRAME_CALLBACK_FLAG_CAMCORDER = 0x01, + CAMERA_FRAME_CALLBACK_FLAG_CAMERA = 0x05, + CAMERA_FRAME_CALLBACK_FLAG_BARCODE_SCANNER = 0x07 +}; + +/** msgType in notifyCallback and dataCallback functions */ +enum { + CAMERA_MSG_ERROR = 0x0001, // notifyCallback + CAMERA_MSG_SHUTTER = 0x0002, // notifyCallback + CAMERA_MSG_FOCUS = 0x0004, // notifyCallback + CAMERA_MSG_ZOOM = 0x0008, // notifyCallback + CAMERA_MSG_PREVIEW_FRAME = 0x0010, // dataCallback + CAMERA_MSG_VIDEO_FRAME = 0x0020, // data_timestamp_callback + CAMERA_MSG_POSTVIEW_FRAME = 0x0040, // dataCallback + CAMERA_MSG_RAW_IMAGE = 0x0080, // dataCallback + CAMERA_MSG_COMPRESSED_IMAGE = 0x0100, // dataCallback + CAMERA_MSG_RAW_IMAGE_NOTIFY = 0x0200, // dataCallback + // Preview frame metadata. This can be combined with + // CAMERA_MSG_PREVIEW_FRAME in dataCallback. For example, the apps can + // request FRAME and METADATA. Or the apps can request only FRAME or only + // METADATA. + CAMERA_MSG_PREVIEW_METADATA = 0x0400, // dataCallback + // Notify on autofocus start and stop. This is useful in continuous + // autofocus - FOCUS_MODE_CONTINUOUS_VIDEO and FOCUS_MODE_CONTINUOUS_PICTURE. + CAMERA_MSG_FOCUS_MOVE = 0x0800, // notifyCallback + CAMERA_MSG_ALL_MSGS = 0xFFFF +}; + +/** cmdType in sendCommand functions */ +enum { + CAMERA_CMD_START_SMOOTH_ZOOM = 1, + CAMERA_CMD_STOP_SMOOTH_ZOOM = 2, + + /** + * Set the clockwise rotation of preview display (setPreviewDisplay) in + * degrees. This affects the preview frames and the picture displayed after + * snapshot. This method is useful for portrait mode applications. Note + * that preview display of front-facing cameras is flipped horizontally + * before the rotation, that is, the image is reflected along the central + * vertical axis of the camera sensor. So the users can see themselves as + * looking into a mirror. + * + * This does not affect the order of byte array of + * CAMERA_MSG_PREVIEW_FRAME, CAMERA_MSG_VIDEO_FRAME, + * CAMERA_MSG_POSTVIEW_FRAME, CAMERA_MSG_RAW_IMAGE, or + * CAMERA_MSG_COMPRESSED_IMAGE. This is allowed to be set during preview + * since API level 14. + */ + CAMERA_CMD_SET_DISPLAY_ORIENTATION = 3, + + /** + * cmdType to disable/enable shutter sound. In sendCommand passing arg1 = + * 0 will disable, while passing arg1 = 1 will enable the shutter sound. + */ + CAMERA_CMD_ENABLE_SHUTTER_SOUND = 4, + + /* cmdType to play recording sound */ + CAMERA_CMD_PLAY_RECORDING_SOUND = 5, + + /** + * Start the face detection. This should be called after preview is started. + * The camera will notify the listener of CAMERA_MSG_FACE and the detected + * faces in the preview frame. The detected faces may be the same as the + * previous ones. Apps should call CAMERA_CMD_STOP_FACE_DETECTION to stop + * the face detection. This method is supported if CameraParameters + * KEY_MAX_NUM_HW_DETECTED_FACES or KEY_MAX_NUM_SW_DETECTED_FACES is + * bigger than 0. Hardware and software face detection should not be running + * at the same time. If the face detection has started, apps should not send + * this again. + * + * In hardware face detection mode, CameraParameters KEY_WHITE_BALANCE, + * KEY_FOCUS_AREAS and KEY_METERING_AREAS have no effect. + * + * arg1 is the face detection type. It can be CAMERA_FACE_DETECTION_HW or + * CAMERA_FACE_DETECTION_SW. If the type of face detection requested is not + * supported, the HAL must return BAD_VALUE. + */ + CAMERA_CMD_START_FACE_DETECTION = 6, + + /** + * Stop the face detection. + */ + CAMERA_CMD_STOP_FACE_DETECTION = 7, + + /** + * Enable/disable focus move callback (CAMERA_MSG_FOCUS_MOVE). Passing + * arg1 = 0 will disable, while passing arg1 = 1 will enable the callback. + */ + CAMERA_CMD_ENABLE_FOCUS_MOVE_MSG = 8, + + /** + * Ping camera service to see if camera hardware is released. + * + * When any camera method returns error, the client can use ping command + * to see if the camera has been taken away by other clients. If the result + * is NO_ERROR, it means the camera hardware is not released. If the result + * is not NO_ERROR, the camera has been released and the existing client + * can silently finish itself or show a dialog. + */ + CAMERA_CMD_PING = 9, + + /** + * Configure the number of video buffers used for recording. The intended + * video buffer count for recording is passed as arg1, which must be + * greater than 0. This command must be sent before recording is started. + * This command returns INVALID_OPERATION error if it is sent after video + * recording is started, or the command is not supported at all. This + * command also returns a BAD_VALUE error if the intended video buffer + * count is non-positive or too big to be realized. + */ + CAMERA_CMD_SET_VIDEO_BUFFER_COUNT = 10, + + /** + * Configure an explicit format to use for video recording metadata mode. + * This can be used to switch the format from the + * default IMPLEMENTATION_DEFINED gralloc format to some other + * device-supported format, and the default dataspace from the BT_709 color + * space to some other device-supported dataspace. arg1 is the HAL pixel + * format, and arg2 is the HAL dataSpace. This command returns + * INVALID_OPERATION error if it is sent after video recording is started, + * or the command is not supported at all. + * + * If the gralloc format is set to a format other than + * IMPLEMENTATION_DEFINED, then HALv3 devices will use gralloc usage flags + * of SW_READ_OFTEN. + */ + CAMERA_CMD_SET_VIDEO_FORMAT = 11 +}; + +/** camera fatal errors */ +enum { + CAMERA_ERROR_UNKNOWN = 1, + /** + * Camera was released because another client has connected to the camera. + * The original client should call Camera::disconnect immediately after + * getting this notification. Otherwise, the camera will be released by + * camera service in a short time. The client should not call any method + * (except disconnect and sending CAMERA_CMD_PING) after getting this. + */ + CAMERA_ERROR_RELEASED = 2, + CAMERA_ERROR_SERVER_DIED = 100 +}; + +enum { + /** The facing of the camera is opposite to that of the screen. */ + CAMERA_FACING_BACK = 0, + /** The facing of the camera is the same as that of the screen. */ + CAMERA_FACING_FRONT = 1, + /** + * The facing of the camera is not fixed relative to the screen. + * The cameras with this facing are external cameras, e.g. USB cameras. + */ + CAMERA_FACING_EXTERNAL = 2 +}; + +enum { + /** Hardware face detection. It does not use much CPU. */ + CAMERA_FACE_DETECTION_HW = 0, + /** + * Software face detection. It uses some CPU. Applications must use + * Camera.setPreviewTexture for preview in this mode. + */ + CAMERA_FACE_DETECTION_SW = 1 +}; + +/** + * The information of a face from camera face detection. + */ +typedef struct camera_face { + /** + * Bounds of the face [left, top, right, bottom]. (-1000, -1000) represents + * the top-left of the camera field of view, and (1000, 1000) represents the + * bottom-right of the field of view. The width and height cannot be 0 or + * negative. This is supported by both hardware and software face detection. + * + * The direction is relative to the sensor orientation, that is, what the + * sensor sees. The direction is not affected by the rotation or mirroring + * of CAMERA_CMD_SET_DISPLAY_ORIENTATION. + */ + int32_t rect[4]; + + /** + * The confidence level of the face. The range is 1 to 100. 100 is the + * highest confidence. This is supported by both hardware and software + * face detection. + */ + int32_t score; + + /** + * An unique id per face while the face is visible to the tracker. If + * the face leaves the field-of-view and comes back, it will get a new + * id. If the value is 0, id is not supported. + */ + int32_t id; + + /** + * The coordinates of the center of the left eye. The range is -1000 to + * 1000. -2000, -2000 if this is not supported. + */ + int32_t left_eye[2]; + + /** + * The coordinates of the center of the right eye. The range is -1000 to + * 1000. -2000, -2000 if this is not supported. + */ + int32_t right_eye[2]; + + /** + * The coordinates of the center of the mouth. The range is -1000 to 1000. + * -2000, -2000 if this is not supported. + */ + int32_t mouth[2]; + +} camera_face_t; + +/** + * The metadata of the frame data. + */ +typedef struct camera_frame_metadata { + /** + * The number of detected faces in the frame. + */ + int32_t number_of_faces; + + /** + * An array of the detected faces. The length is number_of_faces. + */ + camera_face_t *faces; +} camera_frame_metadata_t; + +__END_DECLS + +#endif /* SYSTEM_CORE_INCLUDE_ANDROID_CAMERA_H */ diff --git a/include/android/system/core/include/system/graphics.h b/include/android/system/core/include/system/graphics.h new file mode 100644 index 00000000..afd9f7bd --- /dev/null +++ b/include/android/system/core/include/system/graphics.h @@ -0,0 +1,763 @@ +/* + * Copyright (C) 2011 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. + */ + +#ifndef SYSTEM_CORE_INCLUDE_ANDROID_GRAPHICS_H +#define SYSTEM_CORE_INCLUDE_ANDROID_GRAPHICS_H + +#include <stdint.h> + +#ifdef __cplusplus +extern "C" { +#endif + +/* + * If the HAL needs to create service threads to handle graphics related + * tasks, these threads need to run at HAL_PRIORITY_URGENT_DISPLAY priority + * if they can block the main rendering thread in any way. + * + * the priority of the current thread can be set with: + * + * #include <sys/resource.h> + * setpriority(PRIO_PROCESS, 0, HAL_PRIORITY_URGENT_DISPLAY); + * + */ + +#define HAL_PRIORITY_URGENT_DISPLAY (-8) + +/** + * pixel format definitions + */ + +enum { + /* + * "linear" color pixel formats: + * + * When used with ANativeWindow, the dataSpace field describes the color + * space of the buffer. + * + * The color space determines, for example, if the formats are linear or + * gamma-corrected; or whether any special operations are performed when + * reading or writing into a buffer in one of these formats. + */ + HAL_PIXEL_FORMAT_RGBA_8888 = 1, + HAL_PIXEL_FORMAT_RGBX_8888 = 2, + HAL_PIXEL_FORMAT_RGB_888 = 3, + HAL_PIXEL_FORMAT_RGB_565 = 4, + HAL_PIXEL_FORMAT_BGRA_8888 = 5, + + /* + * 0x100 - 0x1FF + * + * This range is reserved for pixel formats that are specific to the HAL + * implementation. Implementations can use any value in this range to + * communicate video pixel formats between their HAL modules. These formats + * must not have an alpha channel. Additionally, an EGLimage created from a + * gralloc buffer of one of these formats must be supported for use with the + * GL_OES_EGL_image_external OpenGL ES extension. + */ + + /* + * Android YUV format: + * + * This format is exposed outside of the HAL to software decoders and + * applications. EGLImageKHR must support it in conjunction with the + * OES_EGL_image_external extension. + * + * YV12 is a 4:2:0 YCrCb planar format comprised of a WxH Y plane followed + * by (W/2) x (H/2) Cr and Cb planes. + * + * This format assumes + * - an even width + * - an even height + * - a horizontal stride multiple of 16 pixels + * - a vertical stride equal to the height + * + * y_size = stride * height + * c_stride = ALIGN(stride/2, 16) + * c_size = c_stride * height/2 + * size = y_size + c_size * 2 + * cr_offset = y_size + * cb_offset = y_size + c_size + * + * When used with ANativeWindow, the dataSpace field describes the color + * space of the buffer. + */ + HAL_PIXEL_FORMAT_YV12 = 0x32315659, // YCrCb 4:2:0 Planar + + + /* + * Android Y8 format: + * + * This format is exposed outside of the HAL to the framework. + * The expected gralloc usage flags are SW_* and HW_CAMERA_*, + * and no other HW_ flags will be used. + * + * Y8 is a YUV planar format comprised of a WxH Y plane, + * with each pixel being represented by 8 bits. + * + * It is equivalent to just the Y plane from YV12. + * + * This format assumes + * - an even width + * - an even height + * - a horizontal stride multiple of 16 pixels + * - a vertical stride equal to the height + * + * size = stride * height + * + * When used with ANativeWindow, the dataSpace field describes the color + * space of the buffer. + */ + HAL_PIXEL_FORMAT_Y8 = 0x20203859, + + /* + * Android Y16 format: + * + * This format is exposed outside of the HAL to the framework. + * The expected gralloc usage flags are SW_* and HW_CAMERA_*, + * and no other HW_ flags will be used. + * + * Y16 is a YUV planar format comprised of a WxH Y plane, + * with each pixel being represented by 16 bits. + * + * It is just like Y8, but has double the bits per pixel (little endian). + * + * This format assumes + * - an even width + * - an even height + * - a horizontal stride multiple of 16 pixels + * - a vertical stride equal to the height + * - strides are specified in pixels, not in bytes + * + * size = stride * height * 2 + * + * When used with ANativeWindow, the dataSpace field describes the color + * space of the buffer, except that dataSpace field + * HAL_DATASPACE_DEPTH indicates that this buffer contains a depth + * image where each sample is a distance value measured by a depth camera, + * plus an associated confidence value. + */ + HAL_PIXEL_FORMAT_Y16 = 0x20363159, + + /* + * Android RAW sensor format: + * + * This format is exposed outside of the camera HAL to applications. + * + * RAW16 is a single-channel, 16-bit, little endian format, typically + * representing raw Bayer-pattern images from an image sensor, with minimal + * processing. + * + * The exact pixel layout of the data in the buffer is sensor-dependent, and + * needs to be queried from the camera device. + * + * Generally, not all 16 bits are used; more common values are 10 or 12 + * bits. If not all bits are used, the lower-order bits are filled first. + * All parameters to interpret the raw data (black and white points, + * color space, etc) must be queried from the camera device. + * + * This format assumes + * - an even width + * - an even height + * - a horizontal stride multiple of 16 pixels + * - a vertical stride equal to the height + * - strides are specified in pixels, not in bytes + * + * size = stride * height * 2 + * + * This format must be accepted by the gralloc module when used with the + * following usage flags: + * - GRALLOC_USAGE_HW_CAMERA_* + * - GRALLOC_USAGE_SW_* + * - GRALLOC_USAGE_RENDERSCRIPT + * + * When used with ANativeWindow, the dataSpace should be + * HAL_DATASPACE_ARBITRARY, as raw image sensor buffers require substantial + * extra metadata to define. + */ + HAL_PIXEL_FORMAT_RAW16 = 0x20, + + /* + * Android RAW10 format: + * + * This format is exposed outside of the camera HAL to applications. + * + * RAW10 is a single-channel, 10-bit per pixel, densely packed in each row, + * unprocessed format, usually representing raw Bayer-pattern images coming from + * an image sensor. + * + * In an image buffer with this format, starting from the first pixel of each + * row, each 4 consecutive pixels are packed into 5 bytes (40 bits). Each one + * of the first 4 bytes contains the top 8 bits of each pixel, The fifth byte + * contains the 2 least significant bits of the 4 pixels, the exact layout data + * for each 4 consecutive pixels is illustrated below (Pi[j] stands for the jth + * bit of the ith pixel): + * + * bit 7 bit 0 + * =====|=====|=====|=====|=====|=====|=====|=====| + * Byte 0: |P0[9]|P0[8]|P0[7]|P0[6]|P0[5]|P0[4]|P0[3]|P0[2]| + * |-----|-----|-----|-----|-----|-----|-----|-----| + * Byte 1: |P1[9]|P1[8]|P1[7]|P1[6]|P1[5]|P1[4]|P1[3]|P1[2]| + * |-----|-----|-----|-----|-----|-----|-----|-----| + * Byte 2: |P2[9]|P2[8]|P2[7]|P2[6]|P2[5]|P2[4]|P2[3]|P2[2]| + * |-----|-----|-----|-----|-----|-----|-----|-----| + * Byte 3: |P3[9]|P3[8]|P3[7]|P3[6]|P3[5]|P3[4]|P3[3]|P3[2]| + * |-----|-----|-----|-----|-----|-----|-----|-----| + * Byte 4: |P3[1]|P3[0]|P2[1]|P2[0]|P1[1]|P1[0]|P0[1]|P0[0]| + * =============================================== + * + * This format assumes + * - a width multiple of 4 pixels + * - an even height + * - a vertical stride equal to the height + * - strides are specified in bytes, not in pixels + * + * size = stride * height + * + * When stride is equal to width * (10 / 8), there will be no padding bytes at + * the end of each row, the entire image data is densely packed. When stride is + * larger than width * (10 / 8), padding bytes will be present at the end of each + * row (including the last row). + * + * This format must be accepted by the gralloc module when used with the + * following usage flags: + * - GRALLOC_USAGE_HW_CAMERA_* + * - GRALLOC_USAGE_SW_* + * - GRALLOC_USAGE_RENDERSCRIPT + * + * When used with ANativeWindow, the dataSpace field should be + * HAL_DATASPACE_ARBITRARY, as raw image sensor buffers require substantial + * extra metadata to define. + */ + HAL_PIXEL_FORMAT_RAW10 = 0x25, + + /* + * Android RAW12 format: + * + * This format is exposed outside of camera HAL to applications. + * + * RAW12 is a single-channel, 12-bit per pixel, densely packed in each row, + * unprocessed format, usually representing raw Bayer-pattern images coming from + * an image sensor. + * + * In an image buffer with this format, starting from the first pixel of each + * row, each two consecutive pixels are packed into 3 bytes (24 bits). The first + * and second byte contains the top 8 bits of first and second pixel. The third + * byte contains the 4 least significant bits of the two pixels, the exact layout + * data for each two consecutive pixels is illustrated below (Pi[j] stands for + * the jth bit of the ith pixel): + * + * bit 7 bit 0 + * ======|======|======|======|======|======|======|======| + * Byte 0: |P0[11]|P0[10]|P0[ 9]|P0[ 8]|P0[ 7]|P0[ 6]|P0[ 5]|P0[ 4]| + * |------|------|------|------|------|------|------|------| + * Byte 1: |P1[11]|P1[10]|P1[ 9]|P1[ 8]|P1[ 7]|P1[ 6]|P1[ 5]|P1[ 4]| + * |------|------|------|------|------|------|------|------| + * Byte 2: |P1[ 3]|P1[ 2]|P1[ 1]|P1[ 0]|P0[ 3]|P0[ 2]|P0[ 1]|P0[ 0]| + * ======================================================= + * + * This format assumes: + * - a width multiple of 4 pixels + * - an even height + * - a vertical stride equal to the height + * - strides are specified in bytes, not in pixels + * + * size = stride * height + * + * When stride is equal to width * (12 / 8), there will be no padding bytes at + * the end of each row, the entire image data is densely packed. When stride is + * larger than width * (12 / 8), padding bytes will be present at the end of + * each row (including the last row). + * + * This format must be accepted by the gralloc module when used with the + * following usage flags: + * - GRALLOC_USAGE_HW_CAMERA_* + * - GRALLOC_USAGE_SW_* + * - GRALLOC_USAGE_RENDERSCRIPT + * + * When used with ANativeWindow, the dataSpace field should be + * HAL_DATASPACE_ARBITRARY, as raw image sensor buffers require substantial + * extra metadata to define. + */ + HAL_PIXEL_FORMAT_RAW12 = 0x26, + + /* + * Android opaque RAW format: + * + * This format is exposed outside of the camera HAL to applications. + * + * RAW_OPAQUE is a format for unprocessed raw image buffers coming from an + * image sensor. The actual structure of buffers of this format is + * implementation-dependent. + * + * This format must be accepted by the gralloc module when used with the + * following usage flags: + * - GRALLOC_USAGE_HW_CAMERA_* + * - GRALLOC_USAGE_SW_* + * - GRALLOC_USAGE_RENDERSCRIPT + * + * When used with ANativeWindow, the dataSpace field should be + * HAL_DATASPACE_ARBITRARY, as raw image sensor buffers require substantial + * extra metadata to define. + */ + HAL_PIXEL_FORMAT_RAW_OPAQUE = 0x24, + + /* + * Android binary blob graphics buffer format: + * + * This format is used to carry task-specific data which does not have a + * standard image structure. The details of the format are left to the two + * endpoints. + * + * A typical use case is for transporting JPEG-compressed images from the + * Camera HAL to the framework or to applications. + * + * Buffers of this format must have a height of 1, and width equal to their + * size in bytes. + * + * When used with ANativeWindow, the mapping of the dataSpace field to + * buffer contents for BLOB is as follows: + * + * dataSpace value | Buffer contents + * -------------------------------+----------------------------------------- + * HAL_DATASPACE_JFIF | An encoded JPEG image + * HAL_DATASPACE_DEPTH | An android_depth_points buffer + * Other | Unsupported + * + */ + HAL_PIXEL_FORMAT_BLOB = 0x21, + + /* + * Android format indicating that the choice of format is entirely up to the + * device-specific Gralloc implementation. + * + * The Gralloc implementation should examine the usage bits passed in when + * allocating a buffer with this format, and it should derive the pixel + * format from those usage flags. This format will never be used with any + * of the GRALLOC_USAGE_SW_* usage flags. + * + * If a buffer of this format is to be used as an OpenGL ES texture, the + * framework will assume that sampling the texture will always return an + * alpha value of 1.0 (i.e. the buffer contains only opaque pixel values). + * + * When used with ANativeWindow, the dataSpace field describes the color + * space of the buffer. + */ + HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED = 0x22, + + /* + * Android flexible YCbCr 4:2:0 formats + * + * This format allows platforms to use an efficient YCbCr/YCrCb 4:2:0 + * buffer layout, while still describing the general format in a + * layout-independent manner. While called YCbCr, it can be + * used to describe formats with either chromatic ordering, as well as + * whole planar or semiplanar layouts. + * + * struct android_ycbcr (below) is the the struct used to describe it. + * + * This format must be accepted by the gralloc module when + * USAGE_SW_WRITE_* or USAGE_SW_READ_* are set. + * + * This format is locked for use by gralloc's (*lock_ycbcr) method, and + * locking with the (*lock) method will return an error. + * + * When used with ANativeWindow, the dataSpace field describes the color + * space of the buffer. + */ + HAL_PIXEL_FORMAT_YCbCr_420_888 = 0x23, + + /* + * Android flexible YCbCr 4:2:2 formats + * + * This format allows platforms to use an efficient YCbCr/YCrCb 4:2:2 + * buffer layout, while still describing the general format in a + * layout-independent manner. While called YCbCr, it can be + * used to describe formats with either chromatic ordering, as well as + * whole planar or semiplanar layouts. + * + * This format is currently only used by SW readable buffers + * produced by MediaCodecs, so the gralloc module can ignore this format. + */ + HAL_PIXEL_FORMAT_YCbCr_422_888 = 0x27, + + /* + * Android flexible YCbCr 4:4:4 formats + * + * This format allows platforms to use an efficient YCbCr/YCrCb 4:4:4 + * buffer layout, while still describing the general format in a + * layout-independent manner. While called YCbCr, it can be + * used to describe formats with either chromatic ordering, as well as + * whole planar or semiplanar layouts. + * + * This format is currently only used by SW readable buffers + * produced by MediaCodecs, so the gralloc module can ignore this format. + */ + HAL_PIXEL_FORMAT_YCbCr_444_888 = 0x28, + + /* + * Android flexible RGB 888 formats + * + * This format allows platforms to use an efficient RGB/BGR/RGBX/BGRX + * buffer layout, while still describing the general format in a + * layout-independent manner. While called RGB, it can be + * used to describe formats with either color ordering and optional + * padding, as well as whole planar layout. + * + * This format is currently only used by SW readable buffers + * produced by MediaCodecs, so the gralloc module can ignore this format. + */ + HAL_PIXEL_FORMAT_FLEX_RGB_888 = 0x29, + + /* + * Android flexible RGBA 8888 formats + * + * This format allows platforms to use an efficient RGBA/BGRA/ARGB/ABGR + * buffer layout, while still describing the general format in a + * layout-independent manner. While called RGBA, it can be + * used to describe formats with any of the component orderings, as + * well as whole planar layout. + * + * This format is currently only used by SW readable buffers + * produced by MediaCodecs, so the gralloc module can ignore this format. + */ + HAL_PIXEL_FORMAT_FLEX_RGBA_8888 = 0x2A, + + /* Legacy formats (deprecated), used by ImageFormat.java */ + HAL_PIXEL_FORMAT_YCbCr_422_SP = 0x10, // NV16 + HAL_PIXEL_FORMAT_YCrCb_420_SP = 0x11, // NV21 + HAL_PIXEL_FORMAT_YCbCr_422_I = 0x14, // YUY2 +}; + +/* + * Structure for describing YCbCr formats for consumption by applications. + * This is used with HAL_PIXEL_FORMAT_YCbCr_*_888. + * + * Buffer chroma subsampling is defined in the format. + * e.g. HAL_PIXEL_FORMAT_YCbCr_420_888 has subsampling 4:2:0. + * + * Buffers must have a 8 bit depth. + * + * @y, @cb, and @cr point to the first byte of their respective planes. + * + * Stride describes the distance in bytes from the first value of one row of + * the image to the first value of the next row. It includes the width of the + * image plus padding. + * @ystride is the stride of the luma plane. + * @cstride is the stride of the chroma planes. + * + * @chroma_step is the distance in bytes from one chroma pixel value to the + * next. This is 2 bytes for semiplanar (because chroma values are interleaved + * and each chroma value is one byte) and 1 for planar. + */ + +struct android_ycbcr { + void *y; + void *cb; + void *cr; + size_t ystride; + size_t cstride; + size_t chroma_step; + + /** reserved for future use, set to 0 by gralloc's (*lock_ycbcr)() */ + uint32_t reserved[8]; +}; + +/** + * Structure used to define depth point clouds for format HAL_PIXEL_FORMAT_BLOB + * with dataSpace value of HAL_DATASPACE_DEPTH. + * When locking a native buffer of the above format and dataSpace value, + * the vaddr pointer can be cast to this structure. + * + * A variable-length list of (x,y,z, confidence) 3D points, as floats. (x, y, + * z) represents a measured point's position, with the coordinate system defined + * by the data source. Confidence represents the estimated likelihood that this + * measurement is correct. It is between 0.f and 1.f, inclusive, with 1.f == + * 100% confidence. + * + * @num_points is the number of points in the list + * + * @xyz_points is the flexible array of floating-point values. + * It contains (num_points) * 4 floats. + * + * For example: + * android_depth_points d = get_depth_buffer(); + * struct { + * float x; float y; float z; float confidence; + * } firstPoint, lastPoint; + * + * firstPoint.x = d.xyzc_points[0]; + * firstPoint.y = d.xyzc_points[1]; + * firstPoint.z = d.xyzc_points[2]; + * firstPoint.confidence = d.xyzc_points[3]; + * lastPoint.x = d.xyzc_points[(d.num_points - 1) * 4 + 0]; + * lastPoint.y = d.xyzc_points[(d.num_points - 1) * 4 + 1]; + * lastPoint.z = d.xyzc_points[(d.num_points - 1) * 4 + 2]; + * lastPoint.confidence = d.xyzc_points[(d.num_points - 1) * 4 + 3]; + */ + +struct android_depth_points { + uint32_t num_points; + + /** reserved for future use, set to 0 by gralloc's (*lock)() */ + uint32_t reserved[8]; + + float xyzc_points[]; +}; + +/** + * Transformation definitions + * + * IMPORTANT NOTE: + * HAL_TRANSFORM_ROT_90 is applied CLOCKWISE and AFTER HAL_TRANSFORM_FLIP_{H|V}. + * + */ + +enum { + /* flip source image horizontally (around the vertical axis) */ + HAL_TRANSFORM_FLIP_H = 0x01, + /* flip source image vertically (around the horizontal axis)*/ + HAL_TRANSFORM_FLIP_V = 0x02, + /* rotate source image 90 degrees clockwise */ + HAL_TRANSFORM_ROT_90 = 0x04, + /* rotate source image 180 degrees */ + HAL_TRANSFORM_ROT_180 = 0x03, + /* rotate source image 270 degrees clockwise */ + HAL_TRANSFORM_ROT_270 = 0x07, + /* don't use. see system/window.h */ + HAL_TRANSFORM_RESERVED = 0x08, +}; + +/** + * Dataspace Definitions + * ====================== + * + * Dataspace is the definition of how pixel values should be interpreted. + * + * For many formats, this is the colorspace of the image data, which includes + * primaries (including white point) and the transfer characteristic function, + * which describes both gamma curve and numeric range (within the bit depth). + * + * Other dataspaces include depth measurement data from a depth camera. + */ + +typedef enum android_dataspace { + /* + * Default-assumption data space, when not explicitly specified. + * + * It is safest to assume the buffer is an image with sRGB primaries and + * encoding ranges, but the consumer and/or the producer of the data may + * simply be using defaults. No automatic gamma transform should be + * expected, except for a possible display gamma transform when drawn to a + * screen. + */ + HAL_DATASPACE_UNKNOWN = 0x0, + + /* + * Arbitrary dataspace with manually defined characteristics. Definition + * for colorspaces or other meaning must be communicated separately. + * + * This is used when specifying primaries, transfer characteristics, + * etc. separately. + * + * A typical use case is in video encoding parameters (e.g. for H.264), + * where a colorspace can have separately defined primaries, transfer + * characteristics, etc. + */ + HAL_DATASPACE_ARBITRARY = 0x1, + + /* + * RGB Colorspaces + * ----------------- + * + * Primaries are given using (x,y) coordinates in the CIE 1931 definition + * of x and y specified by ISO 11664-1. + * + * Transfer characteristics are the opto-electronic transfer characteristic + * at the source as a function of linear optical intensity (luminance). + */ + + /* + * sRGB linear encoding: + * + * The red, green, and blue components are stored in sRGB space, but + * are linear, not gamma-encoded. + * The RGB primaries and the white point are the same as BT.709. + * + * The values are encoded using the full range ([0,255] for 8-bit) for all + * components. + */ + HAL_DATASPACE_SRGB_LINEAR = 0x200, + + /* + * sRGB gamma encoding: + * + * The red, green and blue components are stored in sRGB space, and + * converted to linear space when read, using the standard sRGB to linear + * equation: + * + * Clinear = Csrgb / 12.92 for Csrgb <= 0.04045 + * = (Csrgb + 0.055 / 1.055)^2.4 for Csrgb > 0.04045 + * + * When written the inverse transformation is performed: + * + * Csrgb = 12.92 * Clinear for Clinear <= 0.0031308 + * = 1.055 * Clinear^(1/2.4) - 0.055 for Clinear > 0.0031308 + * + * + * The alpha component, if present, is always stored in linear space and + * is left unmodified when read or written. + * + * The RGB primaries and the white point are the same as BT.709. + * + * The values are encoded using the full range ([0,255] for 8-bit) for all + * components. + * + */ + HAL_DATASPACE_SRGB = 0x201, + + /* + * YCbCr Colorspaces + * ----------------- + * + * Primaries are given using (x,y) coordinates in the CIE 1931 definition + * of x and y specified by ISO 11664-1. + * + * Transfer characteristics are the opto-electronic transfer characteristic + * at the source as a function of linear optical intensity (luminance). + */ + + /* + * JPEG File Interchange Format (JFIF) + * + * Same model as BT.601-625, but all values (Y, Cb, Cr) range from 0 to 255 + * + * Transfer characteristic curve: + * E = 1.099 * L ^ 0.45 - 0.099, 1.00 >= L >= 0.018 + * E = 4.500 L, 0.018 > L >= 0 + * L - luminance of image 0 <= L <= 1 for conventional colorimetry + * E - corresponding electrical signal + * + * Primaries: x y + * green 0.290 0.600 + * blue 0.150 0.060 + * red 0.640 0.330 + * white (D65) 0.3127 0.3290 + */ + HAL_DATASPACE_JFIF = 0x101, + + /* + * ITU-R Recommendation 601 (BT.601) - 625-line + * + * Standard-definition television, 625 Lines (PAL) + * + * For 8-bit-depth formats: + * Luma (Y) samples should range from 16 to 235, inclusive + * Chroma (Cb, Cr) samples should range from 16 to 240, inclusive + * + * For 10-bit-depth formats: + * Luma (Y) samples should range from 64 to 940, inclusive + * Chroma (Cb, Cr) samples should range from 64 to 960, inclusive + * + * Transfer characteristic curve: + * E = 1.099 * L ^ 0.45 - 0.099, 1.00 >= L >= 0.018 + * E = 4.500 L, 0.018 > L >= 0 + * L - luminance of image 0 <= L <= 1 for conventional colorimetry + * E - corresponding electrical signal + * + * Primaries: x y + * green 0.290 0.600 + * blue 0.150 0.060 + * red 0.640 0.330 + * white (D65) 0.3127 0.3290 + */ + HAL_DATASPACE_BT601_625 = 0x102, + + /* + * ITU-R Recommendation 601 (BT.601) - 525-line + * + * Standard-definition television, 525 Lines (NTSC) + * + * For 8-bit-depth formats: + * Luma (Y) samples should range from 16 to 235, inclusive + * Chroma (Cb, Cr) samples should range from 16 to 240, inclusive + * + * For 10-bit-depth formats: + * Luma (Y) samples should range from 64 to 940, inclusive + * Chroma (Cb, Cr) samples should range from 64 to 960, inclusive + * + * Transfer characteristic curve: + * E = 1.099 * L ^ 0.45 - 0.099, 1.00 >= L >= 0.018 + * E = 4.500 L, 0.018 > L >= 0 + * L - luminance of image 0 <= L <= 1 for conventional colorimetry + * E - corresponding electrical signal + * + * Primaries: x y + * green 0.310 0.595 + * blue 0.155 0.070 + * red 0.630 0.340 + * white (D65) 0.3127 0.3290 + */ + HAL_DATASPACE_BT601_525 = 0x103, + + /* + * ITU-R Recommendation 709 (BT.709) + * + * High-definition television + * + * For 8-bit-depth formats: + * Luma (Y) samples should range from 16 to 235, inclusive + * Chroma (Cb, Cr) samples should range from 16 to 240, inclusive + * + * For 10-bit-depth formats: + * Luma (Y) samples should range from 64 to 940, inclusive + * Chroma (Cb, Cr) samples should range from 64 to 960, inclusive + * + * Primaries: x y + * green 0.300 0.600 + * blue 0.150 0.060 + * red 0.640 0.330 + * white (D65) 0.3127 0.3290 + */ + HAL_DATASPACE_BT709 = 0x104, + + /* + * The buffer contains depth ranging measurements from a depth camera. + * This value is valid with formats: + * HAL_PIXEL_FORMAT_Y16: 16-bit samples, consisting of a depth measurement + * and an associated confidence value. The 3 MSBs of the sample make + * up the confidence value, and the low 13 LSBs of the sample make up + * the depth measurement. + * For the confidence section, 0 means 100% confidence, 1 means 0% + * confidence. The mapping to a linear float confidence value between + * 0.f and 1.f can be obtained with + * float confidence = (((depthSample >> 13) - 1) & 0x7) / 7.0f; + * The depth measurement can be extracted simply with + * uint16_t range = (depthSample & 0x1FFF); + * HAL_PIXEL_FORMAT_BLOB: A depth point cloud, as + * a variable-length float (x,y,z, confidence) coordinate point list. + * The point cloud will be represented with the android_depth_points + * structure. + */ + HAL_DATASPACE_DEPTH = 0x1000 + +} android_dataspace_t; + +#ifdef __cplusplus +} +#endif + +#endif /* SYSTEM_CORE_INCLUDE_ANDROID_GRAPHICS_H */ diff --git a/include/android/system/core/include/system/window.h b/include/android/system/core/include/system/window.h new file mode 100644 index 00000000..508ce00b --- /dev/null +++ b/include/android/system/core/include/system/window.h @@ -0,0 +1,954 @@ +/* + * Copyright (C) 2011 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. + */ + +#ifndef SYSTEM_CORE_INCLUDE_ANDROID_WINDOW_H +#define SYSTEM_CORE_INCLUDE_ANDROID_WINDOW_H + +#include <cutils/native_handle.h> +#include <errno.h> +#include <limits.h> +#include <stdint.h> +#include <string.h> +#include <sys/cdefs.h> +#include <system/graphics.h> +#include <unistd.h> + +#ifndef __UNUSED +#define __UNUSED __attribute__((__unused__)) +#endif +#ifndef __deprecated +#define __deprecated __attribute__((__deprecated__)) +#endif + +__BEGIN_DECLS + +/*****************************************************************************/ + +#define ANDROID_NATIVE_MAKE_CONSTANT(a,b,c,d) \ + (((unsigned)(a)<<24)|((unsigned)(b)<<16)|((unsigned)(c)<<8)|(unsigned)(d)) + +#define ANDROID_NATIVE_WINDOW_MAGIC \ + ANDROID_NATIVE_MAKE_CONSTANT('_','w','n','d') + +#define ANDROID_NATIVE_BUFFER_MAGIC \ + ANDROID_NATIVE_MAKE_CONSTANT('_','b','f','r') + +// --------------------------------------------------------------------------- + +// This #define may be used to conditionally compile device-specific code to +// support either the prior ANativeWindow interface, which did not pass libsync +// fences around, or the new interface that does. This #define is only present +// when the ANativeWindow interface does include libsync support. +#define ANDROID_NATIVE_WINDOW_HAS_SYNC 1 + +// --------------------------------------------------------------------------- + +typedef const native_handle_t* buffer_handle_t; + +// --------------------------------------------------------------------------- + +typedef struct android_native_rect_t +{ + int32_t left; + int32_t top; + int32_t right; + int32_t bottom; +} android_native_rect_t; + +// --------------------------------------------------------------------------- + +typedef struct android_native_base_t +{ + /* a magic value defined by the actual EGL native type */ + int magic; + + /* the sizeof() of the actual EGL native type */ + int version; + + void* reserved[4]; + + /* reference-counting interface */ + void (*incRef)(struct android_native_base_t* base); + void (*decRef)(struct android_native_base_t* base); +} android_native_base_t; + +typedef struct ANativeWindowBuffer +{ +#ifdef __cplusplus + ANativeWindowBuffer() { + common.magic = ANDROID_NATIVE_BUFFER_MAGIC; + common.version = sizeof(ANativeWindowBuffer); + memset(common.reserved, 0, sizeof(common.reserved)); + } + + // Implement the methods that sp<ANativeWindowBuffer> expects so that it + // can be used to automatically refcount ANativeWindowBuffer's. + void incStrong(const void* /*id*/) const { + common.incRef(const_cast<android_native_base_t*>(&common)); + } + void decStrong(const void* /*id*/) const { + common.decRef(const_cast<android_native_base_t*>(&common)); + } +#endif + + struct android_native_base_t common; + + int width; + int height; + int stride; + int format; + int usage; + + void* reserved[2]; + + buffer_handle_t handle; + + void* reserved_proc[8]; +} ANativeWindowBuffer_t; + +// Old typedef for backwards compatibility. +typedef ANativeWindowBuffer_t android_native_buffer_t; + +// --------------------------------------------------------------------------- + +/* attributes queriable with query() */ +enum { + NATIVE_WINDOW_WIDTH = 0, + NATIVE_WINDOW_HEIGHT = 1, + NATIVE_WINDOW_FORMAT = 2, + + /* The minimum number of buffers that must remain un-dequeued after a buffer + * has been queued. This value applies only if set_buffer_count was used to + * override the number of buffers and if a buffer has since been queued. + * Users of the set_buffer_count ANativeWindow method should query this + * value before calling set_buffer_count. If it is necessary to have N + * buffers simultaneously dequeued as part of the steady-state operation, + * and this query returns M then N+M buffers should be requested via + * native_window_set_buffer_count. + * + * Note that this value does NOT apply until a single buffer has been + * queued. In particular this means that it is possible to: + * + * 1. Query M = min undequeued buffers + * 2. Set the buffer count to N + M + * 3. Dequeue all N + M buffers + * 4. Cancel M buffers + * 5. Queue, dequeue, queue, dequeue, ad infinitum + */ + NATIVE_WINDOW_MIN_UNDEQUEUED_BUFFERS = 3, + + /* Check whether queueBuffer operations on the ANativeWindow send the buffer + * to the window compositor. The query sets the returned 'value' argument + * to 1 if the ANativeWindow DOES send queued buffers directly to the window + * compositor and 0 if the buffers do not go directly to the window + * compositor. + * + * This can be used to determine whether protected buffer content should be + * sent to the ANativeWindow. Note, however, that a result of 1 does NOT + * indicate that queued buffers will be protected from applications or users + * capturing their contents. If that behavior is desired then some other + * mechanism (e.g. the GRALLOC_USAGE_PROTECTED flag) should be used in + * conjunction with this query. + */ + NATIVE_WINDOW_QUEUES_TO_WINDOW_COMPOSER = 4, + + /* Get the concrete type of a ANativeWindow. See below for the list of + * possible return values. + * + * This query should not be used outside the Android framework and will + * likely be removed in the near future. + */ + NATIVE_WINDOW_CONCRETE_TYPE = 5, + + + /* + * Default width and height of ANativeWindow buffers, these are the + * dimensions of the window buffers irrespective of the + * NATIVE_WINDOW_SET_BUFFERS_DIMENSIONS call and match the native window + * size unless overridden by NATIVE_WINDOW_SET_BUFFERS_USER_DIMENSIONS. + */ + NATIVE_WINDOW_DEFAULT_WIDTH = 6, + NATIVE_WINDOW_DEFAULT_HEIGHT = 7, + + /* + * transformation that will most-likely be applied to buffers. This is only + * a hint, the actual transformation applied might be different. + * + * INTENDED USE: + * + * The transform hint can be used by a producer, for instance the GLES + * driver, to pre-rotate the rendering such that the final transformation + * in the composer is identity. This can be very useful when used in + * conjunction with the h/w composer HAL, in situations where it + * cannot handle arbitrary rotations. + * + * 1. Before dequeuing a buffer, the GL driver (or any other ANW client) + * queries the ANW for NATIVE_WINDOW_TRANSFORM_HINT. + * + * 2. The GL driver overrides the width and height of the ANW to + * account for NATIVE_WINDOW_TRANSFORM_HINT. This is done by querying + * NATIVE_WINDOW_DEFAULT_{WIDTH | HEIGHT}, swapping the dimensions + * according to NATIVE_WINDOW_TRANSFORM_HINT and calling + * native_window_set_buffers_dimensions(). + * + * 3. The GL driver dequeues a buffer of the new pre-rotated size. + * + * 4. The GL driver renders to the buffer such that the image is + * already transformed, that is applying NATIVE_WINDOW_TRANSFORM_HINT + * to the rendering. + * + * 5. The GL driver calls native_window_set_transform to apply + * inverse transformation to the buffer it just rendered. + * In order to do this, the GL driver needs + * to calculate the inverse of NATIVE_WINDOW_TRANSFORM_HINT, this is + * done easily: + * + * int hintTransform, inverseTransform; + * query(..., NATIVE_WINDOW_TRANSFORM_HINT, &hintTransform); + * inverseTransform = hintTransform; + * if (hintTransform & HAL_TRANSFORM_ROT_90) + * inverseTransform ^= HAL_TRANSFORM_ROT_180; + * + * + * 6. The GL driver queues the pre-transformed buffer. + * + * 7. The composer combines the buffer transform with the display + * transform. If the buffer transform happens to cancel out the + * display transform then no rotation is needed. + * + */ + NATIVE_WINDOW_TRANSFORM_HINT = 8, + + /* + * Boolean that indicates whether the consumer is running more than + * one buffer behind the producer. + */ + NATIVE_WINDOW_CONSUMER_RUNNING_BEHIND = 9, + + /* + * The consumer gralloc usage bits currently set by the consumer. + * The values are defined in hardware/libhardware/include/gralloc.h. + */ + NATIVE_WINDOW_CONSUMER_USAGE_BITS = 10, + + /** + * Transformation that will by applied to buffers by the hwcomposer. + * This must not be set or checked by producer endpoints, and will + * disable the transform hint set in SurfaceFlinger (see + * NATIVE_WINDOW_TRANSFORM_HINT). + * + * INTENDED USE: + * Temporary - Please do not use this. This is intended only to be used + * by the camera's LEGACY mode. + * + * In situations where a SurfaceFlinger client wishes to set a transform + * that is not visible to the producer, and will always be applied in the + * hardware composer, the client can set this flag with + * native_window_set_buffers_sticky_transform. This can be used to rotate + * and flip buffers consumed by hardware composer without actually changing + * the aspect ratio of the buffers produced. + */ + NATIVE_WINDOW_STICKY_TRANSFORM = 11, + + /** + * The default data space for the buffers as set by the consumer. + * The values are defined in graphics.h. + */ + NATIVE_WINDOW_DEFAULT_DATASPACE = 12, + + /* + * Returns the age of the contents of the most recently dequeued buffer as + * the number of frames that have elapsed since it was last queued. For + * example, if the window is double-buffered, the age of any given buffer in + * steady state will be 2. If the dequeued buffer has never been queued, its + * age will be 0. + */ + NATIVE_WINDOW_BUFFER_AGE = 13, +}; + +/* Valid operations for the (*perform)() hook. + * + * Values marked as 'deprecated' are supported, but have been superceded by + * other functionality. + * + * Values marked as 'private' should be considered private to the framework. + * HAL implementation code with access to an ANativeWindow should not use these, + * as it may not interact properly with the framework's use of the + * ANativeWindow. + */ +enum { + NATIVE_WINDOW_SET_USAGE = 0, + NATIVE_WINDOW_CONNECT = 1, /* deprecated */ + NATIVE_WINDOW_DISCONNECT = 2, /* deprecated */ + NATIVE_WINDOW_SET_CROP = 3, /* private */ + NATIVE_WINDOW_SET_BUFFER_COUNT = 4, + NATIVE_WINDOW_SET_BUFFERS_GEOMETRY = 5, /* deprecated */ + NATIVE_WINDOW_SET_BUFFERS_TRANSFORM = 6, + NATIVE_WINDOW_SET_BUFFERS_TIMESTAMP = 7, + NATIVE_WINDOW_SET_BUFFERS_DIMENSIONS = 8, + NATIVE_WINDOW_SET_BUFFERS_FORMAT = 9, + NATIVE_WINDOW_SET_SCALING_MODE = 10, /* private */ + NATIVE_WINDOW_LOCK = 11, /* private */ + NATIVE_WINDOW_UNLOCK_AND_POST = 12, /* private */ + NATIVE_WINDOW_API_CONNECT = 13, /* private */ + NATIVE_WINDOW_API_DISCONNECT = 14, /* private */ + NATIVE_WINDOW_SET_BUFFERS_USER_DIMENSIONS = 15, /* private */ + NATIVE_WINDOW_SET_POST_TRANSFORM_CROP = 16, /* private */ + NATIVE_WINDOW_SET_BUFFERS_STICKY_TRANSFORM = 17,/* private */ + NATIVE_WINDOW_SET_SIDEBAND_STREAM = 18, + NATIVE_WINDOW_SET_BUFFERS_DATASPACE = 19, + NATIVE_WINDOW_SET_SURFACE_DAMAGE = 20, /* private */ +}; + +/* parameter for NATIVE_WINDOW_[API_][DIS]CONNECT */ +enum { + /* Buffers will be queued by EGL via eglSwapBuffers after being filled using + * OpenGL ES. + */ + NATIVE_WINDOW_API_EGL = 1, + + /* Buffers will be queued after being filled using the CPU + */ + NATIVE_WINDOW_API_CPU = 2, + + /* Buffers will be queued by Stagefright after being filled by a video + * decoder. The video decoder can either be a software or hardware decoder. + */ + NATIVE_WINDOW_API_MEDIA = 3, + + /* Buffers will be queued by the the camera HAL. + */ + NATIVE_WINDOW_API_CAMERA = 4, +}; + +/* parameter for NATIVE_WINDOW_SET_BUFFERS_TRANSFORM */ +enum { + /* flip source image horizontally */ + NATIVE_WINDOW_TRANSFORM_FLIP_H = HAL_TRANSFORM_FLIP_H , + /* flip source image vertically */ + NATIVE_WINDOW_TRANSFORM_FLIP_V = HAL_TRANSFORM_FLIP_V, + /* rotate source image 90 degrees clock-wise, and is applied after TRANSFORM_FLIP_{H|V} */ + NATIVE_WINDOW_TRANSFORM_ROT_90 = HAL_TRANSFORM_ROT_90, + /* rotate source image 180 degrees */ + NATIVE_WINDOW_TRANSFORM_ROT_180 = HAL_TRANSFORM_ROT_180, + /* rotate source image 270 degrees clock-wise */ + NATIVE_WINDOW_TRANSFORM_ROT_270 = HAL_TRANSFORM_ROT_270, + /* transforms source by the inverse transform of the screen it is displayed onto. This + * transform is applied last */ + NATIVE_WINDOW_TRANSFORM_INVERSE_DISPLAY = 0x08 +}; + +/* parameter for NATIVE_WINDOW_SET_SCALING_MODE */ +enum { + /* the window content is not updated (frozen) until a buffer of + * the window size is received (enqueued) + */ + NATIVE_WINDOW_SCALING_MODE_FREEZE = 0, + /* the buffer is scaled in both dimensions to match the window size */ + NATIVE_WINDOW_SCALING_MODE_SCALE_TO_WINDOW = 1, + /* the buffer is scaled uniformly such that the smaller dimension + * of the buffer matches the window size (cropping in the process) + */ + NATIVE_WINDOW_SCALING_MODE_SCALE_CROP = 2, + /* the window is clipped to the size of the buffer's crop rectangle; pixels + * outside the crop rectangle are treated as if they are completely + * transparent. + */ + NATIVE_WINDOW_SCALING_MODE_NO_SCALE_CROP = 3, +}; + +/* values returned by the NATIVE_WINDOW_CONCRETE_TYPE query */ +enum { + NATIVE_WINDOW_FRAMEBUFFER = 0, /* FramebufferNativeWindow */ + NATIVE_WINDOW_SURFACE = 1, /* Surface */ +}; + +/* parameter for NATIVE_WINDOW_SET_BUFFERS_TIMESTAMP + * + * Special timestamp value to indicate that timestamps should be auto-generated + * by the native window when queueBuffer is called. This is equal to INT64_MIN, + * defined directly to avoid problems with C99/C++ inclusion of stdint.h. + */ +static const int64_t NATIVE_WINDOW_TIMESTAMP_AUTO = (-9223372036854775807LL-1); + +struct ANativeWindow +{ +#ifdef __cplusplus + ANativeWindow() + : flags(0), minSwapInterval(0), maxSwapInterval(0), xdpi(0), ydpi(0) + { + common.magic = ANDROID_NATIVE_WINDOW_MAGIC; + common.version = sizeof(ANativeWindow); + memset(common.reserved, 0, sizeof(common.reserved)); + } + + /* Implement the methods that sp<ANativeWindow> expects so that it + can be used to automatically refcount ANativeWindow's. */ + void incStrong(const void* /*id*/) const { + common.incRef(const_cast<android_native_base_t*>(&common)); + } + void decStrong(const void* /*id*/) const { + common.decRef(const_cast<android_native_base_t*>(&common)); + } +#endif + + struct android_native_base_t common; + + /* flags describing some attributes of this surface or its updater */ + const uint32_t flags; + + /* min swap interval supported by this updated */ + const int minSwapInterval; + + /* max swap interval supported by this updated */ + const int maxSwapInterval; + + /* horizontal and vertical resolution in DPI */ + const float xdpi; + const float ydpi; + + /* Some storage reserved for the OEM's driver. */ + intptr_t oem[4]; + + /* + * Set the swap interval for this surface. + * + * Returns 0 on success or -errno on error. + */ + int (*setSwapInterval)(struct ANativeWindow* window, + int interval); + + /* + * Hook called by EGL to acquire a buffer. After this call, the buffer + * is not locked, so its content cannot be modified. This call may block if + * no buffers are available. + * + * The window holds a reference to the buffer between dequeueBuffer and + * either queueBuffer or cancelBuffer, so clients only need their own + * reference if they might use the buffer after queueing or canceling it. + * Holding a reference to a buffer after queueing or canceling it is only + * allowed if a specific buffer count has been set. + * + * Returns 0 on success or -errno on error. + * + * XXX: This function is deprecated. It will continue to work for some + * time for binary compatibility, but the new dequeueBuffer function that + * outputs a fence file descriptor should be used in its place. + */ + int (*dequeueBuffer_DEPRECATED)(struct ANativeWindow* window, + struct ANativeWindowBuffer** buffer); + + /* + * hook called by EGL to lock a buffer. This MUST be called before modifying + * the content of a buffer. The buffer must have been acquired with + * dequeueBuffer first. + * + * Returns 0 on success or -errno on error. + * + * XXX: This function is deprecated. It will continue to work for some + * time for binary compatibility, but it is essentially a no-op, and calls + * to it should be removed. + */ + int (*lockBuffer_DEPRECATED)(struct ANativeWindow* window, + struct ANativeWindowBuffer* buffer); + + /* + * Hook called by EGL when modifications to the render buffer are done. + * This unlocks and post the buffer. + * + * The window holds a reference to the buffer between dequeueBuffer and + * either queueBuffer or cancelBuffer, so clients only need their own + * reference if they might use the buffer after queueing or canceling it. + * Holding a reference to a buffer after queueing or canceling it is only + * allowed if a specific buffer count has been set. + * + * Buffers MUST be queued in the same order than they were dequeued. + * + * Returns 0 on success or -errno on error. + * + * XXX: This function is deprecated. It will continue to work for some + * time for binary compatibility, but the new queueBuffer function that + * takes a fence file descriptor should be used in its place (pass a value + * of -1 for the fence file descriptor if there is no valid one to pass). + */ + int (*queueBuffer_DEPRECATED)(struct ANativeWindow* window, + struct ANativeWindowBuffer* buffer); + + /* + * hook used to retrieve information about the native window. + * + * Returns 0 on success or -errno on error. + */ + int (*query)(const struct ANativeWindow* window, + int what, int* value); + + /* + * hook used to perform various operations on the surface. + * (*perform)() is a generic mechanism to add functionality to + * ANativeWindow while keeping backward binary compatibility. + * + * DO NOT CALL THIS HOOK DIRECTLY. Instead, use the helper functions + * defined below. + * + * (*perform)() returns -ENOENT if the 'what' parameter is not supported + * by the surface's implementation. + * + * See above for a list of valid operations, such as + * NATIVE_WINDOW_SET_USAGE or NATIVE_WINDOW_CONNECT + */ + int (*perform)(struct ANativeWindow* window, + int operation, ... ); + + /* + * Hook used to cancel a buffer that has been dequeued. + * No synchronization is performed between dequeue() and cancel(), so + * either external synchronization is needed, or these functions must be + * called from the same thread. + * + * The window holds a reference to the buffer between dequeueBuffer and + * either queueBuffer or cancelBuffer, so clients only need their own + * reference if they might use the buffer after queueing or canceling it. + * Holding a reference to a buffer after queueing or canceling it is only + * allowed if a specific buffer count has been set. + * + * XXX: This function is deprecated. It will continue to work for some + * time for binary compatibility, but the new cancelBuffer function that + * takes a fence file descriptor should be used in its place (pass a value + * of -1 for the fence file descriptor if there is no valid one to pass). + */ + int (*cancelBuffer_DEPRECATED)(struct ANativeWindow* window, + struct ANativeWindowBuffer* buffer); + + /* + * Hook called by EGL to acquire a buffer. This call may block if no + * buffers are available. + * + * The window holds a reference to the buffer between dequeueBuffer and + * either queueBuffer or cancelBuffer, so clients only need their own + * reference if they might use the buffer after queueing or canceling it. + * Holding a reference to a buffer after queueing or canceling it is only + * allowed if a specific buffer count has been set. + * + * The libsync fence file descriptor returned in the int pointed to by the + * fenceFd argument will refer to the fence that must signal before the + * dequeued buffer may be written to. A value of -1 indicates that the + * caller may access the buffer immediately without waiting on a fence. If + * a valid file descriptor is returned (i.e. any value except -1) then the + * caller is responsible for closing the file descriptor. + * + * Returns 0 on success or -errno on error. + */ + int (*dequeueBuffer)(struct ANativeWindow* window, + struct ANativeWindowBuffer** buffer, int* fenceFd); + + /* + * Hook called by EGL when modifications to the render buffer are done. + * This unlocks and post the buffer. + * + * The window holds a reference to the buffer between dequeueBuffer and + * either queueBuffer or cancelBuffer, so clients only need their own + * reference if they might use the buffer after queueing or canceling it. + * Holding a reference to a buffer after queueing or canceling it is only + * allowed if a specific buffer count has been set. + * + * The fenceFd argument specifies a libsync fence file descriptor for a + * fence that must signal before the buffer can be accessed. If the buffer + * can be accessed immediately then a value of -1 should be used. The + * caller must not use the file descriptor after it is passed to + * queueBuffer, and the ANativeWindow implementation is responsible for + * closing it. + * + * Returns 0 on success or -errno on error. + */ + int (*queueBuffer)(struct ANativeWindow* window, + struct ANativeWindowBuffer* buffer, int fenceFd); + + /* + * Hook used to cancel a buffer that has been dequeued. + * No synchronization is performed between dequeue() and cancel(), so + * either external synchronization is needed, or these functions must be + * called from the same thread. + * + * The window holds a reference to the buffer between dequeueBuffer and + * either queueBuffer or cancelBuffer, so clients only need their own + * reference if they might use the buffer after queueing or canceling it. + * Holding a reference to a buffer after queueing or canceling it is only + * allowed if a specific buffer count has been set. + * + * The fenceFd argument specifies a libsync fence file decsriptor for a + * fence that must signal before the buffer can be accessed. If the buffer + * can be accessed immediately then a value of -1 should be used. + * + * Note that if the client has not waited on the fence that was returned + * from dequeueBuffer, that same fence should be passed to cancelBuffer to + * ensure that future uses of the buffer are preceded by a wait on that + * fence. The caller must not use the file descriptor after it is passed + * to cancelBuffer, and the ANativeWindow implementation is responsible for + * closing it. + * + * Returns 0 on success or -errno on error. + */ + int (*cancelBuffer)(struct ANativeWindow* window, + struct ANativeWindowBuffer* buffer, int fenceFd); +}; + + /* Backwards compatibility: use ANativeWindow (struct ANativeWindow in C). + * android_native_window_t is deprecated. + */ +typedef struct ANativeWindow ANativeWindow; +typedef struct ANativeWindow android_native_window_t __deprecated; + +/* + * native_window_set_usage(..., usage) + * Sets the intended usage flags for the next buffers + * acquired with (*lockBuffer)() and on. + * By default (if this function is never called), a usage of + * GRALLOC_USAGE_HW_RENDER | GRALLOC_USAGE_HW_TEXTURE + * is assumed. + * Calling this function will usually cause following buffers to be + * reallocated. + */ + +static inline int native_window_set_usage( + struct ANativeWindow* window, int usage) +{ + return window->perform(window, NATIVE_WINDOW_SET_USAGE, usage); +} + +/* deprecated. Always returns 0. Don't call. */ +static inline int native_window_connect( + struct ANativeWindow* window __UNUSED, int api __UNUSED) __deprecated; + +static inline int native_window_connect( + struct ANativeWindow* window __UNUSED, int api __UNUSED) { + return 0; +} + +/* deprecated. Always returns 0. Don't call. */ +static inline int native_window_disconnect( + struct ANativeWindow* window __UNUSED, int api __UNUSED) __deprecated; + +static inline int native_window_disconnect( + struct ANativeWindow* window __UNUSED, int api __UNUSED) { + return 0; +} + +/* + * native_window_set_crop(..., crop) + * Sets which region of the next queued buffers needs to be considered. + * Depending on the scaling mode, a buffer's crop region is scaled and/or + * cropped to match the surface's size. This function sets the crop in + * pre-transformed buffer pixel coordinates. + * + * The specified crop region applies to all buffers queued after it is called. + * + * If 'crop' is NULL, subsequently queued buffers won't be cropped. + * + * An error is returned if for instance the crop region is invalid, out of the + * buffer's bound or if the window is invalid. + */ +static inline int native_window_set_crop( + struct ANativeWindow* window, + android_native_rect_t const * crop) +{ + return window->perform(window, NATIVE_WINDOW_SET_CROP, crop); +} + +/* + * native_window_set_post_transform_crop(..., crop) + * Sets which region of the next queued buffers needs to be considered. + * Depending on the scaling mode, a buffer's crop region is scaled and/or + * cropped to match the surface's size. This function sets the crop in + * post-transformed pixel coordinates. + * + * The specified crop region applies to all buffers queued after it is called. + * + * If 'crop' is NULL, subsequently queued buffers won't be cropped. + * + * An error is returned if for instance the crop region is invalid, out of the + * buffer's bound or if the window is invalid. + */ +static inline int native_window_set_post_transform_crop( + struct ANativeWindow* window, + android_native_rect_t const * crop) +{ + return window->perform(window, NATIVE_WINDOW_SET_POST_TRANSFORM_CROP, crop); +} + +/* + * native_window_set_active_rect(..., active_rect) + * + * This function is deprecated and will be removed soon. For now it simply + * sets the post-transform crop for compatibility while multi-project commits + * get checked. + */ +static inline int native_window_set_active_rect( + struct ANativeWindow* window, + android_native_rect_t const * active_rect) __deprecated; + +static inline int native_window_set_active_rect( + struct ANativeWindow* window, + android_native_rect_t const * active_rect) +{ + return native_window_set_post_transform_crop(window, active_rect); +} + +/* + * native_window_set_buffer_count(..., count) + * Sets the number of buffers associated with this native window. + */ +static inline int native_window_set_buffer_count( + struct ANativeWindow* window, + size_t bufferCount) +{ + return window->perform(window, NATIVE_WINDOW_SET_BUFFER_COUNT, bufferCount); +} + +/* + * native_window_set_buffers_geometry(..., int w, int h, int format) + * All buffers dequeued after this call will have the dimensions and format + * specified. A successful call to this function has the same effect as calling + * native_window_set_buffers_size and native_window_set_buffers_format. + * + * XXX: This function is deprecated. The native_window_set_buffers_dimensions + * and native_window_set_buffers_format functions should be used instead. + */ +static inline int native_window_set_buffers_geometry( + struct ANativeWindow* window, + int w, int h, int format) __deprecated; + +static inline int native_window_set_buffers_geometry( + struct ANativeWindow* window, + int w, int h, int format) +{ + return window->perform(window, NATIVE_WINDOW_SET_BUFFERS_GEOMETRY, + w, h, format); +} + +/* + * native_window_set_buffers_dimensions(..., int w, int h) + * All buffers dequeued after this call will have the dimensions specified. + * In particular, all buffers will have a fixed-size, independent from the + * native-window size. They will be scaled according to the scaling mode + * (see native_window_set_scaling_mode) upon window composition. + * + * If w and h are 0, the normal behavior is restored. That is, dequeued buffers + * following this call will be sized to match the window's size. + * + * Calling this function will reset the window crop to a NULL value, which + * disables cropping of the buffers. + */ +static inline int native_window_set_buffers_dimensions( + struct ANativeWindow* window, + int w, int h) +{ + return window->perform(window, NATIVE_WINDOW_SET_BUFFERS_DIMENSIONS, + w, h); +} + +/* + * native_window_set_buffers_user_dimensions(..., int w, int h) + * + * Sets the user buffer size for the window, which overrides the + * window's size. All buffers dequeued after this call will have the + * dimensions specified unless overridden by + * native_window_set_buffers_dimensions. All buffers will have a + * fixed-size, independent from the native-window size. They will be + * scaled according to the scaling mode (see + * native_window_set_scaling_mode) upon window composition. + * + * If w and h are 0, the normal behavior is restored. That is, the + * default buffer size will match the windows's size. + * + * Calling this function will reset the window crop to a NULL value, which + * disables cropping of the buffers. + */ +static inline int native_window_set_buffers_user_dimensions( + struct ANativeWindow* window, + int w, int h) +{ + return window->perform(window, NATIVE_WINDOW_SET_BUFFERS_USER_DIMENSIONS, + w, h); +} + +/* + * native_window_set_buffers_format(..., int format) + * All buffers dequeued after this call will have the format specified. + * + * If the specified format is 0, the default buffer format will be used. + */ +static inline int native_window_set_buffers_format( + struct ANativeWindow* window, + int format) +{ + return window->perform(window, NATIVE_WINDOW_SET_BUFFERS_FORMAT, format); +} + +/* + * native_window_set_buffers_data_space(..., int dataSpace) + * All buffers queued after this call will be associated with the dataSpace + * parameter specified. + * + * dataSpace specifies additional information about the buffer that's dependent + * on the buffer format and the endpoints. For example, it can be used to convey + * the color space of the image data in the buffer, or it can be used to + * indicate that the buffers contain depth measurement data instead of color + * images. The default dataSpace is 0, HAL_DATASPACE_UNKNOWN, unless it has been + * overridden by the consumer. + */ +static inline int native_window_set_buffers_data_space( + struct ANativeWindow* window, + android_dataspace_t dataSpace) +{ + return window->perform(window, NATIVE_WINDOW_SET_BUFFERS_DATASPACE, + dataSpace); +} + +/* + * native_window_set_buffers_transform(..., int transform) + * All buffers queued after this call will be displayed transformed according + * to the transform parameter specified. + */ +static inline int native_window_set_buffers_transform( + struct ANativeWindow* window, + int transform) +{ + return window->perform(window, NATIVE_WINDOW_SET_BUFFERS_TRANSFORM, + transform); +} + +/* + * native_window_set_buffers_sticky_transform(..., int transform) + * All buffers queued after this call will be displayed transformed according + * to the transform parameter specified applied on top of the regular buffer + * transform. Setting this transform will disable the transform hint. + * + * Temporary - This is only intended to be used by the LEGACY camera mode, do + * not use this for anything else. + */ +static inline int native_window_set_buffers_sticky_transform( + struct ANativeWindow* window, + int transform) +{ + return window->perform(window, NATIVE_WINDOW_SET_BUFFERS_STICKY_TRANSFORM, + transform); +} + +/* + * native_window_set_buffers_timestamp(..., int64_t timestamp) + * All buffers queued after this call will be associated with the timestamp + * parameter specified. If the timestamp is set to NATIVE_WINDOW_TIMESTAMP_AUTO + * (the default), timestamps will be generated automatically when queueBuffer is + * called. The timestamp is measured in nanoseconds, and is normally monotonically + * increasing. The timestamp should be unaffected by time-of-day adjustments, + * and for a camera should be strictly monotonic but for a media player may be + * reset when the position is set. + */ +static inline int native_window_set_buffers_timestamp( + struct ANativeWindow* window, + int64_t timestamp) +{ + return window->perform(window, NATIVE_WINDOW_SET_BUFFERS_TIMESTAMP, + timestamp); +} + +/* + * native_window_set_scaling_mode(..., int mode) + * All buffers queued after this call will be associated with the scaling mode + * specified. + */ +static inline int native_window_set_scaling_mode( + struct ANativeWindow* window, + int mode) +{ + return window->perform(window, NATIVE_WINDOW_SET_SCALING_MODE, + mode); +} + +/* + * native_window_api_connect(..., int api) + * connects an API to this window. only one API can be connected at a time. + * Returns -EINVAL if for some reason the window cannot be connected, which + * can happen if it's connected to some other API. + */ +static inline int native_window_api_connect( + struct ANativeWindow* window, int api) +{ + return window->perform(window, NATIVE_WINDOW_API_CONNECT, api); +} + +/* + * native_window_api_disconnect(..., int api) + * disconnect the API from this window. + * An error is returned if for instance the window wasn't connected in the + * first place. + */ +static inline int native_window_api_disconnect( + struct ANativeWindow* window, int api) +{ + return window->perform(window, NATIVE_WINDOW_API_DISCONNECT, api); +} + +/* + * native_window_dequeue_buffer_and_wait(...) + * Dequeue a buffer and wait on the fence associated with that buffer. The + * buffer may safely be accessed immediately upon this function returning. An + * error is returned if either of the dequeue or the wait operations fail. + */ +static inline int native_window_dequeue_buffer_and_wait(ANativeWindow *anw, + struct ANativeWindowBuffer** anb) { + return anw->dequeueBuffer_DEPRECATED(anw, anb); +} + +/* + * native_window_set_sideband_stream(..., native_handle_t*) + * Attach a sideband buffer stream to a native window. + */ +static inline int native_window_set_sideband_stream( + struct ANativeWindow* window, + native_handle_t* sidebandHandle) +{ + return window->perform(window, NATIVE_WINDOW_SET_SIDEBAND_STREAM, + sidebandHandle); +} + +/* + * native_window_set_surface_damage(..., android_native_rect_t* rects, int numRects) + * Set the surface damage (i.e., the region of the surface that has changed + * since the previous frame). The damage set by this call will be reset (to the + * default of full-surface damage) after calling queue, so this must be called + * prior to every frame with damage that does not cover the whole surface if the + * caller desires downstream consumers to use this optimization. + * + * The damage region is specified as an array of rectangles, with the important + * caveat that the origin of the surface is considered to be the bottom-left + * corner, as in OpenGL ES. + * + * If numRects is set to 0, rects may be NULL, and the surface damage will be + * set to the full surface (the same as if this function had not been called for + * this frame). + */ +static inline int native_window_set_surface_damage( + struct ANativeWindow* window, + const android_native_rect_t* rects, size_t numRects) +{ + return window->perform(window, NATIVE_WINDOW_SET_SURFACE_DAMAGE, + rects, numRects); +} + +__END_DECLS + +#endif /* SYSTEM_CORE_INCLUDE_ANDROID_WINDOW_H */ diff --git a/include/meson.build b/include/meson.build index 4ce9668c..a89c0d7f 100644 --- a/include/meson.build +++ b/include/meson.build @@ -1 +1,2 @@ +subdir('android') subdir('libcamera') |