services/camera/libcameraservice/device3/InFlightRequest.h - LeafOS-Project/android_frameworks_av - Gitiles

 /*
  * Copyright (C) 2019 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_SERVERS_CAMERA3_INFLIGHT_REQUEST_H
 #define ANDROID_SERVERS_CAMERA3_INFLIGHT_REQUEST_H

 #include <set>

 #include <camera/CaptureResult.h>
 #include <camera/CameraMetadata.h>
 #include <utils/Timers.h>

 #include "common/CameraDeviceBase.h"

 namespace android {

 namespace camera3 {

 typedef struct camera_stream_configuration {
     uint32_t num_streams;
     camera_stream_t **streams;
     uint32_t operation_mode;
     bool input_is_multi_resolution;
     bool use_hal_buf_manager = false;
 } camera_stream_configuration_t;

 typedef struct camera_capture_request {
     uint32_t frame_number;
     const camera_metadata_t *settings;
     camera_stream_buffer_t *input_buffer;
     uint32_t num_output_buffers;
     const camera_stream_buffer_t *output_buffers;
     uint32_t num_physcam_settings;
     const char **physcam_id;
     const camera_metadata_t **physcam_settings;
     int32_t input_width;
     int32_t input_height;
 } camera_capture_request_t;

 typedef struct camera_capture_result {
     uint32_t frame_number;
     const camera_metadata_t *result;
     uint32_t num_output_buffers;
     const camera_stream_buffer_t *output_buffers;
     const camera_stream_buffer_t *input_buffer;
     uint32_t partial_result;
     uint32_t num_physcam_metadata;
     const char **physcam_ids;
     const camera_metadata_t **physcam_metadata;
 } camera_capture_result_t;

 typedef struct camera_shutter_msg {
     uint32_t frame_number;
     uint64_t timestamp;
     bool readout_timestamp_valid;
     uint64_t readout_timestamp;
 } camera_shutter_msg_t;

 typedef struct camera_error_msg {
     uint32_t frame_number;
     camera_stream_t *error_stream;
     int error_code;
 } camera_error_msg_t;

 typedef enum camera_error_msg_code {
     CAMERA_MSG_ERROR_DEVICE = 1,
     CAMERA_MSG_ERROR_REQUEST = 2,
     CAMERA_MSG_ERROR_RESULT = 3,
     CAMERA_MSG_ERROR_BUFFER = 4,
     CAMERA_MSG_NUM_ERRORS
 } camera_error_msg_code_t;

 typedef struct camera_notify_msg {
     int type;

     union {
         camera_error_msg_t error;
         camera_shutter_msg_t shutter;
     } message;
 } camera_notify_msg_t;

 typedef enum {
     // Cache the buffers with STATUS_ERROR within InFlightRequest
     ERROR_BUF_CACHE,
     // Return the buffers with STATUS_ERROR to the buffer queue
     ERROR_BUF_RETURN,
     // Return the buffers with STATUS_ERROR to the buffer queue, and call
     // notify(ERROR_BUFFER) as well
     ERROR_BUF_RETURN_NOTIFY
 } ERROR_BUF_STRATEGY;

 struct InFlightRequest {
     // Set by notify() SHUTTER call.
     nsecs_t shutterTimestamp;
     // Set by process_capture_result().
     nsecs_t sensorTimestamp;
     int     requestStatus;
     // Set by process_capture_result call with valid metadata
     bool    haveResultMetadata;
     // Decremented by calls to process_capture_result with valid output
     // and input buffers
     int     numBuffersLeft;

     // The inflight request is considered complete if all buffers are returned

     CaptureResultExtras resultExtras;
     // If this request has any input buffer
     bool hasInputBuffer;

     // The last metadata that framework receives from HAL and
     // not yet send out because the shutter event hasn't arrived.
     // It's added by process_capture_result and sent when framework
     // receives the shutter event.
     CameraMetadata pendingMetadata;

     // The metadata of the partial results that framework receives from HAL so far
     // and has sent out.
     CameraMetadata collectedPartialResult;

     // Buffers are added by process_capture_result when output buffers
     // return from HAL but framework has not yet received the shutter
     // event. They will be returned to the streams when framework receives
     // the shutter event.
     Vector<camera_stream_buffer_t> pendingOutputBuffers;

     // Whether this inflight request's shutter and result callback are to be
     // called. The policy is that if the request is the last one in the constrained
     // high speed recording request list, this flag will be true. If the request list
     // is not for constrained high speed recording, this flag will also be true.
     bool hasCallback;

     // Minimum expected frame duration for this request
     // For manual captures, equal to the max of requested exposure time and frame duration
     // For auto-exposure modes, equal to 1/(higher end of target FPS range)
     nsecs_t minExpectedDuration;

     // Maximum expected frame duration for this request.
     // For manual captures, equal to the max of requested exposure time and frame duration
     // For auto-exposure modes, equal to 1/(lower end of target FPS range)
     nsecs_t maxExpectedDuration;

     // Whether the FPS range is fixed, aka, minFps == maxFps
     bool isFixedFps;

     // Whether the result metadata for this request is to be skipped. The
     // result metadata should be skipped in the case of
     // REQUEST/RESULT error.
     bool skipResultMetadata;

     // Whether the buffers with STATUS_ERROR should be cached as pending buffers,
     // returned to the buffer queue, or returned to the buffer queue and notify with ERROR_BUFFER.
     ERROR_BUF_STRATEGY errorBufStrategy;

     // The physical camera ids being requested.
     // For request on a physical camera stream, the inside set contains one Id
     // For request on a stream group containing physical camera streams, the
     // inside set contains all stream Ids in the group.
     std::set<std::set<std::string>> physicalCameraIds;

     // Map of physicalCameraId <-> Metadata
     std::vector<PhysicalCaptureResultInfo> physicalMetadatas;

     // Indicates a still capture request.
     bool stillCapture;

     // Indicates a ZSL capture request
     bool zslCapture;

     // Indicates that ROTATE_AND_CROP was set to AUTO
     bool rotateAndCropAuto;

     // Indicates that AUTOFRAMING was set to AUTO
     bool autoframingAuto;

     // Requested camera ids (both logical and physical) with zoomRatio != 1.0f
     std::set<std::string> cameraIdsWithZoom;

     // Time of capture request (from systemTime) in Ns
     nsecs_t requestTimeNs;

     // What shared surfaces an output should go to
     SurfaceMap outputSurfaces;

     // Current output transformation
     int32_t transform;

     static const nsecs_t kDefaultMinExpectedDuration = 33333333; // 33 ms
     static const nsecs_t kDefaultMaxExpectedDuration = 100000000; // 100 ms

     // Default constructor needed by KeyedVector
     InFlightRequest() :
             shutterTimestamp(0),
             sensorTimestamp(0),
             requestStatus(OK),
             haveResultMetadata(false),
             numBuffersLeft(0),
             hasInputBuffer(false),
             hasCallback(true),
             minExpectedDuration(kDefaultMinExpectedDuration),
             maxExpectedDuration(kDefaultMaxExpectedDuration),
             isFixedFps(false),
             skipResultMetadata(false),
             errorBufStrategy(ERROR_BUF_CACHE),
             stillCapture(false),
             zslCapture(false),
             rotateAndCropAuto(false),
             autoframingAuto(false),
             requestTimeNs(0),
             transform(-1) {
     }

     InFlightRequest(int numBuffers, CaptureResultExtras extras, bool hasInput,
             bool hasAppCallback, nsecs_t minDuration, nsecs_t maxDuration, bool fixedFps,
             const std::set<std::set<std::string>>& physicalCameraIdSet, bool isStillCapture,
             bool isZslCapture, bool rotateAndCropAuto, bool autoframingAuto,
             const std::set<std::string>& idsWithZoom, nsecs_t requestNs,
             const SurfaceMap& outSurfaces = SurfaceMap{}) :
             shutterTimestamp(0),
             sensorTimestamp(0),
             requestStatus(OK),
             haveResultMetadata(false),
             numBuffersLeft(numBuffers),
             resultExtras(extras),
             hasInputBuffer(hasInput),
             hasCallback(hasAppCallback),
             minExpectedDuration(minDuration),
             maxExpectedDuration(maxDuration),
             isFixedFps(fixedFps),
             skipResultMetadata(false),
             errorBufStrategy(ERROR_BUF_CACHE),
             physicalCameraIds(physicalCameraIdSet),
             stillCapture(isStillCapture),
             zslCapture(isZslCapture),
             rotateAndCropAuto(rotateAndCropAuto),
             autoframingAuto(autoframingAuto),
             cameraIdsWithZoom(idsWithZoom),
             requestTimeNs(requestNs),
             outputSurfaces(outSurfaces),
             transform(-1) {
     }
 };

 // Map from frame number to the in-flight request state
 typedef KeyedVector<uint32_t, InFlightRequest> InFlightRequestMap;

 } // namespace camera3

 } // namespace android

 #endif
	/*
	* Copyright (C) 2019 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_SERVERS_CAMERA3_INFLIGHT_REQUEST_H
	#define ANDROID_SERVERS_CAMERA3_INFLIGHT_REQUEST_H

	#include <set>

	#include <camera/CaptureResult.h>
	#include <camera/CameraMetadata.h>
	#include <utils/Timers.h>

	#include "common/CameraDeviceBase.h"

	namespace android {

	namespace camera3 {

	typedef struct camera_stream_configuration {
	uint32_t num_streams;
	camera_stream_t **streams;
	uint32_t operation_mode;
	bool input_is_multi_resolution;
	bool use_hal_buf_manager = false;
	} camera_stream_configuration_t;

	typedef struct camera_capture_request {
	uint32_t frame_number;
	const camera_metadata_t *settings;
	camera_stream_buffer_t *input_buffer;
	uint32_t num_output_buffers;
	const camera_stream_buffer_t *output_buffers;
	uint32_t num_physcam_settings;
	const char **physcam_id;
	const camera_metadata_t **physcam_settings;
	int32_t input_width;
	int32_t input_height;
	} camera_capture_request_t;

	typedef struct camera_capture_result {
	uint32_t frame_number;
	const camera_metadata_t *result;
	uint32_t num_output_buffers;
	const camera_stream_buffer_t *output_buffers;
	const camera_stream_buffer_t *input_buffer;
	uint32_t partial_result;
	uint32_t num_physcam_metadata;
	const char **physcam_ids;
	const camera_metadata_t **physcam_metadata;
	} camera_capture_result_t;

	typedef struct camera_shutter_msg {
	uint32_t frame_number;
	uint64_t timestamp;
	bool readout_timestamp_valid;
	uint64_t readout_timestamp;
	} camera_shutter_msg_t;

	typedef struct camera_error_msg {
	uint32_t frame_number;
	camera_stream_t *error_stream;
	int error_code;
	} camera_error_msg_t;

	typedef enum camera_error_msg_code {
	CAMERA_MSG_ERROR_DEVICE = 1,
	CAMERA_MSG_ERROR_REQUEST = 2,
	CAMERA_MSG_ERROR_RESULT = 3,
	CAMERA_MSG_ERROR_BUFFER = 4,
	CAMERA_MSG_NUM_ERRORS
	} camera_error_msg_code_t;

	typedef struct camera_notify_msg {
	int type;

	union {
	camera_error_msg_t error;
	camera_shutter_msg_t shutter;
	} message;
	} camera_notify_msg_t;

	typedef enum {
	// Cache the buffers with STATUS_ERROR within InFlightRequest
	ERROR_BUF_CACHE,
	// Return the buffers with STATUS_ERROR to the buffer queue
	ERROR_BUF_RETURN,
	// Return the buffers with STATUS_ERROR to the buffer queue, and call
	// notify(ERROR_BUFFER) as well
	ERROR_BUF_RETURN_NOTIFY
	} ERROR_BUF_STRATEGY;

	struct InFlightRequest {
	// Set by notify() SHUTTER call.
	nsecs_t shutterTimestamp;
	// Set by process_capture_result().
	nsecs_t sensorTimestamp;
	int requestStatus;
	// Set by process_capture_result call with valid metadata
	bool haveResultMetadata;
	// Decremented by calls to process_capture_result with valid output
	// and input buffers
	int numBuffersLeft;

	// The inflight request is considered complete if all buffers are returned

	CaptureResultExtras resultExtras;
	// If this request has any input buffer
	bool hasInputBuffer;

	// The last metadata that framework receives from HAL and
	// not yet send out because the shutter event hasn't arrived.
	// It's added by process_capture_result and sent when framework
	// receives the shutter event.
	CameraMetadata pendingMetadata;

	// The metadata of the partial results that framework receives from HAL so far
	// and has sent out.
	CameraMetadata collectedPartialResult;

	// Buffers are added by process_capture_result when output buffers
	// return from HAL but framework has not yet received the shutter
	// event. They will be returned to the streams when framework receives
	// the shutter event.
	Vector<camera_stream_buffer_t> pendingOutputBuffers;

	// Whether this inflight request's shutter and result callback are to be
	// called. The policy is that if the request is the last one in the constrained
	// high speed recording request list, this flag will be true. If the request list
	// is not for constrained high speed recording, this flag will also be true.
	bool hasCallback;

	// Minimum expected frame duration for this request
	// For manual captures, equal to the max of requested exposure time and frame duration
	// For auto-exposure modes, equal to 1/(higher end of target FPS range)
	nsecs_t minExpectedDuration;

	// Maximum expected frame duration for this request.
	// For manual captures, equal to the max of requested exposure time and frame duration
	// For auto-exposure modes, equal to 1/(lower end of target FPS range)
	nsecs_t maxExpectedDuration;

	// Whether the FPS range is fixed, aka, minFps == maxFps
	bool isFixedFps;

	// Whether the result metadata for this request is to be skipped. The
	// result metadata should be skipped in the case of
	// REQUEST/RESULT error.
	bool skipResultMetadata;

	// Whether the buffers with STATUS_ERROR should be cached as pending buffers,
	// returned to the buffer queue, or returned to the buffer queue and notify with ERROR_BUFFER.
	ERROR_BUF_STRATEGY errorBufStrategy;

	// The physical camera ids being requested.
	// For request on a physical camera stream, the inside set contains one Id
	// For request on a stream group containing physical camera streams, the
	// inside set contains all stream Ids in the group.
	std::set<std::set<std::string>> physicalCameraIds;

	// Map of physicalCameraId <-> Metadata
	std::vector<PhysicalCaptureResultInfo> physicalMetadatas;

	// Indicates a still capture request.
	bool stillCapture;

	// Indicates a ZSL capture request
	bool zslCapture;

	// Indicates that ROTATE_AND_CROP was set to AUTO
	bool rotateAndCropAuto;

	// Indicates that AUTOFRAMING was set to AUTO
	bool autoframingAuto;

	// Requested camera ids (both logical and physical) with zoomRatio != 1.0f
	std::set<std::string> cameraIdsWithZoom;

	// Time of capture request (from systemTime) in Ns
	nsecs_t requestTimeNs;

	// What shared surfaces an output should go to
	SurfaceMap outputSurfaces;

	// Current output transformation
	int32_t transform;

	static const nsecs_t kDefaultMinExpectedDuration = 33333333; // 33 ms
	static const nsecs_t kDefaultMaxExpectedDuration = 100000000; // 100 ms

	// Default constructor needed by KeyedVector
	InFlightRequest() :
	shutterTimestamp(0),
	sensorTimestamp(0),
	requestStatus(OK),
	haveResultMetadata(false),
	numBuffersLeft(0),
	hasInputBuffer(false),
	hasCallback(true),
	minExpectedDuration(kDefaultMinExpectedDuration),
	maxExpectedDuration(kDefaultMaxExpectedDuration),
	isFixedFps(false),
	skipResultMetadata(false),
	errorBufStrategy(ERROR_BUF_CACHE),
	stillCapture(false),
	zslCapture(false),
	rotateAndCropAuto(false),
	autoframingAuto(false),
	requestTimeNs(0),
	transform(-1) {
	}

	InFlightRequest(int numBuffers, CaptureResultExtras extras, bool hasInput,
	bool hasAppCallback, nsecs_t minDuration, nsecs_t maxDuration, bool fixedFps,
	const std::set<std::set<std::string>>& physicalCameraIdSet, bool isStillCapture,
	bool isZslCapture, bool rotateAndCropAuto, bool autoframingAuto,
	const std::set<std::string>& idsWithZoom, nsecs_t requestNs,
	const SurfaceMap& outSurfaces = SurfaceMap{}) :
	shutterTimestamp(0),
	sensorTimestamp(0),
	requestStatus(OK),
	haveResultMetadata(false),
	numBuffersLeft(numBuffers),
	resultExtras(extras),
	hasInputBuffer(hasInput),
	hasCallback(hasAppCallback),
	minExpectedDuration(minDuration),
	maxExpectedDuration(maxDuration),
	isFixedFps(fixedFps),
	skipResultMetadata(false),
	errorBufStrategy(ERROR_BUF_CACHE),
	physicalCameraIds(physicalCameraIdSet),
	stillCapture(isStillCapture),
	zslCapture(isZslCapture),
	rotateAndCropAuto(rotateAndCropAuto),
	autoframingAuto(autoframingAuto),
	cameraIdsWithZoom(idsWithZoom),
	requestTimeNs(requestNs),
	outputSurfaces(outSurfaces),
	transform(-1) {
	}
	};

	// Map from frame number to the in-flight request state
	typedef KeyedVector<uint32_t, InFlightRequest> InFlightRequestMap;

	} // namespace camera3

	} // namespace android

	#endif