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/*
* 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_SERVERS_CAMERA3_STREAM_INTERFACE_H
#define ANDROID_SERVERS_CAMERA3_STREAM_INTERFACE_H
#include <utils/RefBase.h>
#include <camera/camera2/OutputConfiguration.h>
#include <camera/CameraMetadata.h>
#include "Camera3StreamBufferListener.h"
#include "Camera3StreamBufferFreedListener.h"
namespace android {
namespace camera3 {
typedef enum camera_buffer_status {
CAMERA_BUFFER_STATUS_OK = 0,
CAMERA_BUFFER_STATUS_ERROR = 1
} camera_buffer_status_t;
typedef enum camera_stream_type {
CAMERA_STREAM_OUTPUT = 0,
CAMERA_STREAM_INPUT = 1,
CAMERA_NUM_STREAM_TYPES
} camera_stream_type_t;
typedef enum camera_stream_rotation {
/* No rotation */
CAMERA_STREAM_ROTATION_0 = 0,
/* Rotate by 90 degree counterclockwise */
CAMERA_STREAM_ROTATION_90 = 1,
/* Rotate by 180 degree counterclockwise */
CAMERA_STREAM_ROTATION_180 = 2,
/* Rotate by 270 degree counterclockwise */
CAMERA_STREAM_ROTATION_270 = 3
} camera_stream_rotation_t;
typedef struct camera_stream {
camera_stream_type_t stream_type;
uint32_t width;
uint32_t height;
int format;
uint32_t usage;
uint32_t max_buffers;
android_dataspace_t data_space;
camera_stream_rotation_t rotation;
std::string physical_camera_id;
std::unordered_set<int32_t> sensor_pixel_modes_used;
int64_t dynamic_range_profile;
int64_t use_case;
} camera_stream_t;
typedef struct camera_stream_buffer {
camera_stream_t *stream;
buffer_handle_t *buffer;
camera_buffer_status_t status;
int acquire_fence;
int release_fence;
} camera_stream_buffer_t;
struct Size {
uint32_t width;
uint32_t height;
explicit Size(uint32_t w = 0, uint32_t h = 0) : width(w), height(h){}
};
enum {
/**
* This stream set ID indicates that the set ID is invalid, and this stream doesn't intend to
* share buffers with any other stream. It is illegal to register this kind of stream to
* Camera3BufferManager.
*/
CAMERA3_STREAM_SET_ID_INVALID = -1,
/**
* Invalid output stream ID.
*/
CAMERA3_STREAM_ID_INVALID = -1,
};
class StatusTracker;
// OutputStreamInfo describes the property of a camera stream.
class OutputStreamInfo {
public:
int width;
int height;
int format;
android_dataspace dataSpace;
uint64_t consumerUsage;
bool finalized = false;
bool supportsOffline = false;
std::unordered_set<int32_t> sensorPixelModesUsed;
int64_t dynamicRangeProfile;
int64_t streamUseCase;
int timestampBase;
int mirrorMode;
OutputStreamInfo() :
width(-1), height(-1), format(-1), dataSpace(HAL_DATASPACE_UNKNOWN),
consumerUsage(0),
dynamicRangeProfile(ANDROID_REQUEST_AVAILABLE_DYNAMIC_RANGE_PROFILES_MAP_STANDARD),
streamUseCase(ANDROID_SCALER_AVAILABLE_STREAM_USE_CASES_DEFAULT),
timestampBase(OutputConfiguration::TIMESTAMP_BASE_DEFAULT),
mirrorMode(OutputConfiguration::MIRROR_MODE_AUTO) {}
OutputStreamInfo(int _width, int _height, int _format, android_dataspace _dataSpace,
uint64_t _consumerUsage, const std::unordered_set<int32_t>& _sensorPixelModesUsed,
int64_t _dynamicRangeProfile, int _streamUseCase, int _timestampBase, int _mirrorMode) :
width(_width), height(_height), format(_format),
dataSpace(_dataSpace), consumerUsage(_consumerUsage),
sensorPixelModesUsed(_sensorPixelModesUsed), dynamicRangeProfile(_dynamicRangeProfile),
streamUseCase(_streamUseCase), timestampBase(_timestampBase), mirrorMode(_mirrorMode) {}
};
// Utility class to lock and unlock a GraphicBuffer
class GraphicBufferLocker {
public:
GraphicBufferLocker(sp<GraphicBuffer> buffer) : _buffer(buffer) {}
status_t lockAsync(uint32_t usage, void** dstBuffer, int fenceFd) {
if (_buffer == nullptr) return BAD_VALUE;
status_t res = OK;
if (!_locked) {
status_t res = _buffer->lockAsync(usage, dstBuffer, fenceFd);
if (res == OK) {
_locked = true;
}
}
return res;
}
status_t lockAsync(void** dstBuffer, int fenceFd) {
return lockAsync(GRALLOC_USAGE_SW_WRITE_OFTEN, dstBuffer, fenceFd);
}
~GraphicBufferLocker() {
if (_locked && _buffer != nullptr) {
auto res = _buffer->unlock();
if (res != OK) {
ALOGE("%s: Error trying to unlock buffer: %s (%d)", __FUNCTION__,
strerror(-res), res);
}
}
}
private:
sp<GraphicBuffer> _buffer;
bool _locked = false;
};
/**
* An interface for managing a single stream of input and/or output data from
* the camera device.
*/
class Camera3StreamInterface : public virtual RefBase {
public:
enum {
ALLOCATE_PIPELINE_MAX = 0, // Allocate max buffers used by a given surface
};
/**
* Get the stream's ID
*/
virtual int getId() const = 0;
/**
* Get the output stream set id.
*/
virtual int getStreamSetId() const = 0;
/**
* Is this stream part of a multi-resolution stream set
*/
virtual bool isMultiResolution() const = 0;
/**
* Get the HAL stream group id for a multi-resolution stream set
*/
virtual int getHalStreamGroupId() const = 0;
/**
* Get the stream's dimensions and format
*/
virtual uint32_t getWidth() const = 0;
virtual uint32_t getHeight() const = 0;
virtual int getFormat() const = 0;
virtual int64_t getDynamicRangeProfile() const = 0;
virtual android_dataspace getDataSpace() const = 0;
virtual void setFormatOverride(bool formatOverriden) = 0;
virtual bool isFormatOverridden() const = 0;
virtual int getOriginalFormat() const = 0;
virtual void setDataSpaceOverride(bool dataSpaceOverriden) = 0;
virtual bool isDataSpaceOverridden() const = 0;
virtual android_dataspace getOriginalDataSpace() const = 0;
virtual int getMaxHalBuffers() const = 0;
virtual int getMaxTotalBuffers() const = 0;
/**
* Offline processing
*/
virtual void setOfflineProcessingSupport(bool support) = 0;
virtual bool getOfflineProcessingSupport() const = 0;
/**
* Get a handle for the stream, without starting stream configuration.
*/
virtual camera_stream* asHalStream() = 0;
/**
* Start the stream configuration process. Returns a handle to the stream's
* information to be passed into the device's configure_streams call.
*
* Until finishConfiguration() is called, no other methods on the stream may
* be called. The usage and max_buffers fields of camera_stream may be
* modified between start/finishConfiguration, but may not be changed after
* that. The priv field of camera_stream may be modified at any time after
* startConfiguration.
*
* Returns NULL in case of error starting configuration.
*/
virtual camera_stream* startConfiguration() = 0;
/**
* Check if the stream is mid-configuration (start has been called, but not
* finish). Used for lazy completion of configuration.
*/
virtual bool isConfiguring() const = 0;
/**
* Completes the stream configuration process. During this call, the stream
* may call the device's register_stream_buffers() method. The stream
* information structure returned by startConfiguration() may no longer be
* modified after this call, but can still be read until the destruction of
* the stream.
*
* streamReconfigured: set to true when a stream is being reconfigured.
*
* Returns:
* OK on a successful configuration
* NO_INIT in case of a serious error from the HAL device
* NO_MEMORY in case of an error registering buffers
* INVALID_OPERATION in case connecting to the consumer failed
*/
virtual status_t finishConfiguration(/*out*/bool* streamReconfigured = nullptr) = 0;
/**
* Cancels the stream configuration process. This returns the stream to the
* initial state, allowing it to be configured again later.
* This is done if the HAL rejects the proposed combined stream configuration
*/
virtual status_t cancelConfiguration() = 0;
/**
* Determine whether the stream has already become in-use (has received
* a valid filled buffer), which determines if a stream can still have
* prepareNextBuffer called on it.
*/
virtual bool isUnpreparable() = 0;
/**
* Mark the stream as unpreparable.
*/
virtual void markUnpreparable() = 0;
/**
* Start stream preparation. May only be called in the CONFIGURED state,
* when no valid buffers have yet been returned to this stream. Prepares
* up to maxCount buffers, or the maximum number of buffers needed by the
* pipeline if maxCount is ALLOCATE_PIPELINE_MAX.
*
* If no prepartion is necessary, returns OK and does not transition to
* PREPARING state. Otherwise, returns NOT_ENOUGH_DATA and transitions
* to PREPARING.
*
* blockRequest specifies whether prepare will block upcoming capture
* request. This flag should only be set to false if the caller guarantees
* the whole buffer preparation process is done before capture request
* comes in.
*
* Returns:
* OK if no more buffers need to be preallocated
* NOT_ENOUGH_DATA if calls to prepareNextBuffer are needed to finish
* buffer pre-allocation, and transitions to the PREPARING state.
* NO_INIT in case of a serious error from the HAL device
* INVALID_OPERATION if called when not in CONFIGURED state, or a
* valid buffer has already been returned to this stream.
*/
virtual status_t startPrepare(int maxCount, bool blockRequest) = 0;
/**
* Check if the request on a stream is blocked by prepare.
*/
virtual bool isBlockedByPrepare() const = 0;
/**
* Continue stream buffer preparation by allocating the next
* buffer for this stream. May only be called in the PREPARED state.
*
* Returns OK and transitions to the CONFIGURED state if all buffers
* are allocated after the call concludes. Otherwise returns NOT_ENOUGH_DATA.
*
* Returns:
* OK if no more buffers need to be preallocated, and transitions
* to the CONFIGURED state.
* NOT_ENOUGH_DATA if more calls to prepareNextBuffer are needed to finish
* buffer pre-allocation.
* NO_INIT in case of a serious error from the HAL device
* INVALID_OPERATION if called when not in CONFIGURED state, or a
* valid buffer has already been returned to this stream.
*/
virtual status_t prepareNextBuffer() = 0;
/**
* Cancel stream preparation early. In case allocation needs to be
* stopped, this method transitions the stream back to the CONFIGURED state.
* Buffers that have been allocated with prepareNextBuffer remain that way,
* but a later use of prepareNextBuffer will require just as many
* calls as if the earlier prepare attempt had not existed.
*
* Returns:
* OK if cancellation succeeded, and transitions to the CONFIGURED state
* INVALID_OPERATION if not in the PREPARING state
* NO_INIT in case of a serious error from the HAL device
*/
virtual status_t cancelPrepare() = 0;
/**
* Tear down memory for this stream. This frees all unused gralloc buffers
* allocated for this stream, but leaves it ready for operation afterward.
*
* May only be called in the CONFIGURED state, and keeps the stream in
* the CONFIGURED state.
*
* Returns:
* OK if teardown succeeded.
* INVALID_OPERATION if not in the CONFIGURED state
* NO_INIT in case of a serious error from the HAL device
*/
virtual status_t tearDown() = 0;
/**
* Fill in the camera_stream_buffer with the next valid buffer for this
* stream, to hand over to the HAL.
*
* Multiple surfaces could share the same HAL stream, but a request may
* be only for a subset of surfaces. In this case, the
* Camera3StreamInterface object needs the surface ID information to acquire
* buffers for those surfaces. For the case of single surface for a HAL
* stream, surface_ids parameter has no effect.
*
* This method may only be called once finishConfiguration has been called.
* For bidirectional streams, this method applies to the output-side
* buffers.
*
*/
virtual status_t getBuffer(camera_stream_buffer *buffer,
nsecs_t waitBufferTimeout,
const std::vector<size_t>& surface_ids = std::vector<size_t>()) = 0;
struct OutstandingBuffer {
camera_stream_buffer* outBuffer;
/**
* Multiple surfaces could share the same HAL stream, but a request may
* be only for a subset of surfaces. In this case, the
* Camera3StreamInterface object needs the surface ID information to acquire
* buffers for those surfaces. For the case of single surface for a HAL
* stream, surface_ids parameter has no effect.
*/
std::vector<size_t> surface_ids;
};
/**
* Similar to getBuffer() except this method fills multiple buffers.
*/
virtual status_t getBuffers(std::vector<OutstandingBuffer>* buffers,
nsecs_t waitBufferTimeout) = 0;
/**
* Return a buffer to the stream after use by the HAL.
*
* Multiple surfaces could share the same HAL stream, but a request may
* be only for a subset of surfaces. In this case, the
* Camera3StreamInterface object needs the surface ID information to attach
* buffers for those surfaces. For the case of single surface for a HAL
* stream, surface_ids parameter has no effect.
*
* This method may only be called for buffers provided by getBuffer().
* For bidirectional streams, this method applies to the output-side buffers
*/
virtual status_t returnBuffer(const camera_stream_buffer &buffer,
nsecs_t timestamp, nsecs_t readoutTimestamp, bool timestampIncreasing = true,
const std::vector<size_t>& surface_ids = std::vector<size_t>(),
uint64_t frameNumber = 0, int32_t transform = -1) = 0;
/**
* Fill in the camera_stream_buffer with the next valid buffer for this
* stream, to hand over to the HAL.
*
* This method may only be called once finishConfiguration has been called.
* For bidirectional streams, this method applies to the input-side
* buffers.
*
* Normally this call will block until the handed out buffer count is less than the stream
* max buffer count; if respectHalLimit is set to false, this is ignored.
*/
virtual status_t getInputBuffer(camera_stream_buffer *buffer,
Size *size, bool respectHalLimit = true) = 0;
/**
* Return a buffer to the stream after use by the HAL.
*
* This method may only be called for buffers provided by getBuffer().
* For bidirectional streams, this method applies to the input-side buffers
*/
virtual status_t returnInputBuffer(const camera_stream_buffer &buffer) = 0;
/**
* Get the buffer producer of the input buffer queue.
*
* This method only applies to input streams.
*/
virtual status_t getInputBufferProducer(sp<IGraphicBufferProducer> *producer) = 0;
/**
* Whether any of the stream's buffers are currently in use by the HAL,
* including buffers that have been returned but not yet had their
* release fence signaled.
*/
virtual bool hasOutstandingBuffers() const = 0;
/**
* Get number of buffers currently handed out to HAL
*/
virtual size_t getOutstandingBuffersCount() const = 0;
enum {
TIMEOUT_NEVER = -1
};
/**
* Set the state tracker to use for signaling idle transitions.
*/
virtual status_t setStatusTracker(sp<StatusTracker> statusTracker) = 0;
/**
* Disconnect stream from its non-HAL endpoint. After this,
* start/finishConfiguration must be called before the stream can be used
* again. This cannot be called if the stream has outstanding dequeued
* buffers.
*/
virtual status_t disconnect() = 0;
/**
* Return if the buffer queue of the stream is abandoned.
*/
virtual bool isAbandoned() const = 0;
/**
* Debug dump of the stream's state.
*/
virtual void dump(int fd, const Vector<String16> &args) const = 0;
virtual void addBufferListener(
wp<Camera3StreamBufferListener> listener) = 0;
virtual void removeBufferListener(
const sp<Camera3StreamBufferListener>& listener) = 0;
/**
* Setting listner will remove previous listener (if exists)
* Only allow set listener during stream configuration because stream is guaranteed to be IDLE
* at this state, so setBufferFreedListener won't collide with onBufferFreed callbacks.
* Client is responsible to keep the listener object alive throughout the lifecycle of this
* Camera3Stream.
*/
virtual void setBufferFreedListener(wp<Camera3StreamBufferFreedListener> listener) = 0;
/**
* Notify buffer stream listeners about incoming request with particular frame number.
*/
virtual void fireBufferRequestForFrameNumber(uint64_t frameNumber,
const CameraMetadata& settings) = 0;
};
} // namespace camera3
} // namespace android
#endif