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/*
* 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.
*/
#define LOG_TAG "Camera2-JpegProcessor"
#define ATRACE_TAG ATRACE_TAG_CAMERA
//#define LOG_NDEBUG 0
#include <netinet/in.h>
#include <utils/Log.h>
#include <utils/Trace.h>
#include "JpegProcessor.h"
#include <gui/SurfaceTextureClient.h>
#include "../Camera2Device.h"
#include "../Camera2Client.h"
namespace android {
namespace camera2 {
JpegProcessor::JpegProcessor(
wp<Camera2Client> client,
wp<CaptureSequencer> sequencer):
Thread(false),
mClient(client),
mSequencer(sequencer),
mCaptureAvailable(false),
mCaptureStreamId(NO_STREAM) {
}
JpegProcessor::~JpegProcessor() {
ALOGV("%s: Exit", __FUNCTION__);
deleteStream();
}
void JpegProcessor::onFrameAvailable() {
Mutex::Autolock l(mInputMutex);
if (!mCaptureAvailable) {
mCaptureAvailable = true;
mCaptureAvailableSignal.signal();
}
}
status_t JpegProcessor::updateStream(const Parameters ¶ms) {
ATRACE_CALL();
ALOGV("%s", __FUNCTION__);
status_t res;
Mutex::Autolock l(mInputMutex);
sp<Camera2Client> client = mClient.promote();
if (client == 0) return OK;
sp<Camera2Device> device = client->getCameraDevice();
// Find out buffer size for JPEG
camera_metadata_ro_entry_t maxJpegSize =
params.staticInfo(ANDROID_JPEG_MAX_SIZE);
if (maxJpegSize.count == 0) {
ALOGE("%s: Camera %d: Can't find ANDROID_JPEG_MAX_SIZE!",
__FUNCTION__, client->getCameraId());
return INVALID_OPERATION;
}
if (mCaptureConsumer == 0) {
// Create CPU buffer queue endpoint
mCaptureConsumer = new CpuConsumer(1);
mCaptureConsumer->setFrameAvailableListener(this);
mCaptureConsumer->setName(String8("Camera2Client::CaptureConsumer"));
mCaptureWindow = new SurfaceTextureClient(
mCaptureConsumer->getProducerInterface());
// Create memory for API consumption
mCaptureHeap = new MemoryHeapBase(maxJpegSize.data.i32[0], 0,
"Camera2Client::CaptureHeap");
if (mCaptureHeap->getSize() == 0) {
ALOGE("%s: Camera %d: Unable to allocate memory for capture",
__FUNCTION__, client->getCameraId());
return NO_MEMORY;
}
}
if (mCaptureStreamId != NO_STREAM) {
// Check if stream parameters have to change
uint32_t currentWidth, currentHeight;
res = device->getStreamInfo(mCaptureStreamId,
¤tWidth, ¤tHeight, 0);
if (res != OK) {
ALOGE("%s: Camera %d: Error querying capture output stream info: "
"%s (%d)", __FUNCTION__,
client->getCameraId(), strerror(-res), res);
return res;
}
if (currentWidth != (uint32_t)params.pictureWidth ||
currentHeight != (uint32_t)params.pictureHeight) {
res = device->deleteStream(mCaptureStreamId);
if (res != OK) {
ALOGE("%s: Camera %d: Unable to delete old output stream "
"for capture: %s (%d)", __FUNCTION__,
client->getCameraId(), strerror(-res), res);
return res;
}
mCaptureStreamId = NO_STREAM;
}
}
if (mCaptureStreamId == NO_STREAM) {
// Create stream for HAL production
res = device->createStream(mCaptureWindow,
params.pictureWidth, params.pictureHeight,
HAL_PIXEL_FORMAT_BLOB, maxJpegSize.data.i32[0],
&mCaptureStreamId);
if (res != OK) {
ALOGE("%s: Camera %d: Can't create output stream for capture: "
"%s (%d)", __FUNCTION__, client->getCameraId(),
strerror(-res), res);
return res;
}
}
return OK;
}
status_t JpegProcessor::deleteStream() {
ATRACE_CALL();
status_t res;
Mutex::Autolock l(mInputMutex);
if (mCaptureStreamId != NO_STREAM) {
sp<Camera2Client> client = mClient.promote();
if (client == 0) return OK;
sp<Camera2Device> device = client->getCameraDevice();
device->deleteStream(mCaptureStreamId);
mCaptureHeap.clear();
mCaptureWindow.clear();
mCaptureConsumer.clear();
mCaptureStreamId = NO_STREAM;
}
return OK;
}
int JpegProcessor::getStreamId() const {
Mutex::Autolock l(mInputMutex);
return mCaptureStreamId;
}
void JpegProcessor::dump(int fd, const Vector<String16>& args) const {
}
bool JpegProcessor::threadLoop() {
status_t res;
{
Mutex::Autolock l(mInputMutex);
while (!mCaptureAvailable) {
res = mCaptureAvailableSignal.waitRelative(mInputMutex,
kWaitDuration);
if (res == TIMED_OUT) return true;
}
mCaptureAvailable = false;
}
do {
sp<Camera2Client> client = mClient.promote();
if (client == 0) return false;
res = processNewCapture(client);
} while (res == OK);
return true;
}
status_t JpegProcessor::processNewCapture(sp<Camera2Client> &client) {
ATRACE_CALL();
status_t res;
sp<Camera2Heap> captureHeap;
CpuConsumer::LockedBuffer imgBuffer;
res = mCaptureConsumer->lockNextBuffer(&imgBuffer);
if (res != OK) {
if (res != BAD_VALUE) {
ALOGE("%s: Camera %d: Error receiving still image buffer: "
"%s (%d)", __FUNCTION__,
client->getCameraId(), strerror(-res), res);
}
return res;
}
ALOGV("%s: Camera %d: Still capture available", __FUNCTION__,
client->getCameraId());
// TODO: Signal errors here upstream
{
SharedParameters::Lock l(client->getParameters());
switch (l.mParameters.state) {
case Parameters::STILL_CAPTURE:
case Parameters::VIDEO_SNAPSHOT:
break;
default:
ALOGE("%s: Camera %d: Still image produced unexpectedly "
"in state %s!",
__FUNCTION__, client->getCameraId(),
Parameters::getStateName(l.mParameters.state));
mCaptureConsumer->unlockBuffer(imgBuffer);
return BAD_VALUE;
}
}
if (imgBuffer.format != HAL_PIXEL_FORMAT_BLOB) {
ALOGE("%s: Camera %d: Unexpected format for still image: "
"%x, expected %x", __FUNCTION__, client->getCameraId(),
imgBuffer.format,
HAL_PIXEL_FORMAT_BLOB);
mCaptureConsumer->unlockBuffer(imgBuffer);
return OK;
}
// Find size of JPEG image
size_t jpegSize = findJpegSize(imgBuffer.data, imgBuffer.width);
if (jpegSize == 0) { // failed to find size, default to whole buffer
jpegSize = imgBuffer.width;
}
size_t heapSize = mCaptureHeap->getSize();
if (jpegSize > heapSize) {
ALOGW("%s: JPEG image is larger than expected, truncating "
"(got %d, expected at most %d bytes)",
__FUNCTION__, jpegSize, heapSize);
jpegSize = heapSize;
}
// TODO: Optimize this to avoid memcopy
sp<MemoryBase> captureBuffer = new MemoryBase(mCaptureHeap, 0, jpegSize);
void* captureMemory = mCaptureHeap->getBase();
memcpy(captureMemory, imgBuffer.data, jpegSize);
mCaptureConsumer->unlockBuffer(imgBuffer);
sp<CaptureSequencer> sequencer = mSequencer.promote();
if (sequencer != 0) {
sequencer->onCaptureAvailable(imgBuffer.timestamp, captureBuffer);
}
return OK;
}
/*
* JPEG FILE FORMAT OVERVIEW.
* http://www.jpeg.org/public/jfif.pdf
* (JPEG is the image compression algorithm, actual file format is called JFIF)
*
* "Markers" are 2-byte patterns used to distinguish parts of JFIF files. The
* first byte is always 0xFF, and the second byte is between 0x01 and 0xFE
* (inclusive). Because every marker begins with the same byte, they are
* referred to by the second byte's value.
*
* JFIF files all begin with the Start of Image (SOI) marker, which is 0xD8.
* Following it, "segment" sections begin with other markers, followed by a
* 2-byte length (in network byte order), then the segment data.
*
* For our purposes we will ignore the data, and just use the length to skip to
* the next segment. This is necessary because the data inside segments are
* allowed to contain the End of Image marker (0xFF 0xD9), preventing us from
* naievely scanning until the end.
*
* After all the segments are processed, the jpeg compressed image stream begins.
* This can be considered an opaque format with one requirement: all 0xFF bytes
* in this stream must be followed with a 0x00 byte. This prevents any of the
* image data to be interpreted as a segment. The only exception to this is at
* the end of the image stream there is an End of Image (EOI) marker, which is
* 0xFF followed by a non-zero (0xD9) byte.
*/
const uint8_t MARK = 0xFF; // First byte of marker
const uint8_t SOI = 0xD8; // Start of Image
const uint8_t EOI = 0xD9; // End of Image
const size_t MARKER_LENGTH = 2; // length of a marker
#pragma pack(push)
#pragma pack(1)
typedef struct segment {
uint8_t marker[MARKER_LENGTH];
uint16_t length;
} segment_t;
#pragma pack(pop)
/* HELPER FUNCTIONS */
// check for Start of Image marker
bool checkJpegStart(uint8_t* buf) {
return buf[0] == MARK && buf[1] == SOI;
}
// check for End of Image marker
bool checkJpegEnd(uint8_t *buf) {
return buf[0] == MARK && buf[1] == EOI;
}
// check for arbitrary marker, returns marker type (second byte)
// returns 0 if no marker found. Note: 0x00 is not a valid marker type
uint8_t checkJpegMarker(uint8_t *buf) {
if (buf[0] == MARK && buf[1] > 0 && buf[1] < 0xFF) {
return buf[1];
}
return 0;
}
// Return the size of the JPEG, 0 indicates failure
size_t JpegProcessor::findJpegSize(uint8_t* jpegBuffer, size_t maxSize) {
size_t size;
// First check for JPEG transport header at the end of the buffer
uint8_t *header = jpegBuffer + (maxSize - sizeof(struct camera2_jpeg_blob));
struct camera2_jpeg_blob *blob = (struct camera2_jpeg_blob*)(header);
if (blob->jpeg_blob_id == CAMERA2_JPEG_BLOB_ID) {
size = blob->jpeg_size;
if (size > 0 && size <= maxSize - sizeof(struct camera2_jpeg_blob)) {
// Verify SOI and EOI markers
size_t offset = size - MARKER_LENGTH;
uint8_t *end = jpegBuffer + offset;
if (checkJpegStart(jpegBuffer) && checkJpegEnd(end)) {
ALOGV("Found JPEG transport header, img size %d", size);
return size;
} else {
ALOGW("Found JPEG transport header with bad Image Start/End");
}
} else {
ALOGW("Found JPEG transport header with bad size %d", size);
}
}
// Check Start of Image
if ( !checkJpegStart(jpegBuffer) ) {
ALOGE("Could not find start of JPEG marker");
return 0;
}
// Read JFIF segment markers, skip over segment data
size = 0;
while (size <= maxSize - MARKER_LENGTH) {
segment_t *segment = (segment_t*)(jpegBuffer + size);
uint8_t type = checkJpegMarker(segment->marker);
if (type == 0) { // invalid marker, no more segments, begin JPEG data
ALOGV("JPEG stream found beginning at offset %d", size);
break;
}
if (type == EOI || size > maxSize - sizeof(segment_t)) {
ALOGE("Got premature End before JPEG data, offset %d", size);
return 0;
}
size_t length = ntohs(segment->length);
ALOGV("JFIF Segment, type %x length %x", type, length);
size += length + MARKER_LENGTH;
}
// Find End of Image
// Scan JPEG buffer until End of Image (EOI)
bool foundEnd = false;
for (size; size <= maxSize - MARKER_LENGTH; size++) {
if ( checkJpegEnd(jpegBuffer + size) ) {
foundEnd = true;
size += MARKER_LENGTH;
break;
}
}
if (!foundEnd) {
ALOGE("Could not find end of JPEG marker");
return 0;
}
if (size > maxSize) {
ALOGW("JPEG size %d too large, reducing to maxSize %d", size, maxSize);
size = maxSize;
}
ALOGV("Final JPEG size %d", size);
return size;
}
}; // namespace camera2
}; // namespace android
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