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/* SPDX-License-Identifier: LGPL-2.1-or-later */
/*
* Copyright (C) 2020, Google Inc.
*
* camera_stream.cpp - Camera HAL stream
*/
#include "camera_stream.h"
#include "camera_device.h"
#include "camera_metadata.h"
#include "jpeg/encoder.h"
#include "jpeg/encoder_libjpeg.h"
#include "jpeg/exif.h"
using namespace libcamera;
LOG_DECLARE_CATEGORY(HAL);
CameraStream::CameraStream(CameraDevice *cameraDevice, Type type,
camera3_stream_t *camera3Stream, unsigned int index)
: cameraDevice_(cameraDevice), type_(type),
camera3Stream_(camera3Stream), index_(index)
{
config_ = cameraDevice_->cameraConfiguration();
if (type_ == Type::Internal || type_ == Type::Mapped)
encoder_ = std::make_unique<EncoderLibJpeg>();
if (type == Type::Internal) {
allocator_ = std::make_unique<FrameBufferAllocator>(cameraDevice_->camera());
mutex_ = std::make_unique<std::mutex>();
}
}
const StreamConfiguration &CameraStream::configuration() const
{
return config_->at(index_);
}
Stream *CameraStream::stream() const
{
return configuration().stream();
}
int CameraStream::configure()
{
if (encoder_) {
int ret = encoder_->configure(configuration());
if (ret)
return ret;
}
if (allocator_) {
int ret = allocator_->allocate(stream());
if (ret < 0)
return ret;
/* Save a pointer to the reserved frame buffers */
for (const auto &frameBuffer : allocator_->buffers(stream()))
buffers_.push_back(frameBuffer.get());
}
camera3Stream_->max_buffers = configuration().bufferCount;
return 0;
}
int CameraStream::process(const libcamera::FrameBuffer &source,
MappedCamera3Buffer *dest, CameraMetadata *metadata)
{
if (!encoder_)
return 0;
/* Set EXIF metadata for various tags. */
Exif exif;
/* \todo Set Make and Model from external vendor tags. */
exif.setMake("libcamera");
exif.setModel("cameraModel");
exif.setOrientation(cameraDevice_->orientation());
exif.setSize(configuration().size);
/*
* We set the frame's EXIF timestamp as the time of encode.
* Since the precision we need for EXIF timestamp is only one
* second, it is good enough.
*/
exif.setTimestamp(std::time(nullptr));
if (exif.generate() != 0)
LOG(HAL, Error) << "Failed to generate valid EXIF data";
int jpeg_size = encoder_->encode(&source, dest->maps()[0], exif.data());
if (jpeg_size < 0) {
LOG(HAL, Error) << "Failed to encode stream image";
return jpeg_size;
}
/*
* Fill in the JPEG blob header.
*
* The mapped size of the buffer is being returned as
* substantially larger than the requested JPEG_MAX_SIZE
* (which is referenced from maxJpegBufferSize_). Utilise
* this static size to ensure the correct offset of the blob is
* determined.
*
* \todo Investigate if the buffer size mismatch is an issue or
* expected behaviour.
*/
uint8_t *resultPtr = dest->maps()[0].data() +
cameraDevice_->maxJpegBufferSize() -
sizeof(struct camera3_jpeg_blob);
auto *blob = reinterpret_cast<struct camera3_jpeg_blob *>(resultPtr);
blob->jpeg_blob_id = CAMERA3_JPEG_BLOB_ID;
blob->jpeg_size = jpeg_size;
/* Update the JPEG result Metadata. */
metadata->addEntry(ANDROID_JPEG_SIZE, &jpeg_size, 1);
const uint32_t jpeg_quality = 95;
metadata->addEntry(ANDROID_JPEG_QUALITY, &jpeg_quality, 1);
const uint32_t jpeg_orientation = 0;
metadata->addEntry(ANDROID_JPEG_ORIENTATION, &jpeg_orientation, 1);
return 0;
}
FrameBuffer *CameraStream::getBuffer()
{
if (!allocator_)
return nullptr;
std::lock_guard<std::mutex> locker(*mutex_);
if (buffers_.empty()) {
LOG(HAL, Error) << "Buffer underrun";
return nullptr;
}
FrameBuffer *buffer = buffers_.back();
buffers_.pop_back();
return buffer;
}
void CameraStream::putBuffer(libcamera::FrameBuffer *buffer)
{
if (!allocator_)
return;
std::lock_guard<std::mutex> locker(*mutex_);
buffers_.push_back(buffer);
}
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