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android / platform / frameworks / av / 0d55a6f35a2d37187139e50972f7b6c413b2371f / . / media / libstagefright / MediaCodec.cpp
blob: cb8a6518af3d60d48a4f0b565878ef38f77bfdee [file] [log] [blame]
/*
* Copyright 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_NDEBUG 0
#define LOG_TAG "MediaCodec"
#include <utils/Log.h>
#include <media/stagefright/MediaCodec.h>
#include "include/SoftwareRenderer.h"
#include <gui/SurfaceTextureClient.h>
#include <media/ICrypto.h>
#include <media/stagefright/foundation/ABuffer.h>
#include <media/stagefright/foundation/ADebug.h>
#include <media/stagefright/foundation/AMessage.h>
#include <media/stagefright/foundation/AString.h>
#include <media/stagefright/foundation/hexdump.h>
#include <media/stagefright/ACodec.h>
#include <media/stagefright/MediaErrors.h>
#include <media/stagefright/MetaData.h>
#include <media/stagefright/NativeWindowWrapper.h>
namespace android {
// static
sp<MediaCodec> MediaCodec::CreateByType(
const sp<ALooper> &looper, const char *mime, bool encoder) {
sp<MediaCodec> codec = new MediaCodec(looper);
if (codec->init(mime, true /* nameIsType */, encoder) != OK) {
return NULL;
}
return codec;
}
// static
sp<MediaCodec> MediaCodec::CreateByComponentName(
const sp<ALooper> &looper, const char *name) {
sp<MediaCodec> codec = new MediaCodec(looper);
if (codec->init(name, false /* nameIsType */, false /* encoder */) != OK) {
return NULL;
}
return codec;
}
MediaCodec::MediaCodec(const sp<ALooper> &looper)
: mState(UNINITIALIZED),
mLooper(looper),
mCodec(new ACodec),
mFlags(0),
mSoftRenderer(NULL),
mDequeueInputTimeoutGeneration(0),
mDequeueInputReplyID(0),
mDequeueOutputTimeoutGeneration(0),
mDequeueOutputReplyID(0) {
}
MediaCodec::~MediaCodec() {
CHECK_EQ(mState, UNINITIALIZED);
}
// static
status_t MediaCodec::PostAndAwaitResponse(
const sp<AMessage> &msg, sp<AMessage> *response) {
status_t err = msg->postAndAwaitResponse(response);
if (err != OK) {
return err;
}
if (!(*response)->findInt32("err", &err)) {
err = OK;
}
return err;
}
status_t MediaCodec::init(const char *name, bool nameIsType, bool encoder) {
// Current video decoders do not return from OMX_FillThisBuffer
// quickly, violating the OpenMAX specs, until that is remedied
// we need to invest in an extra looper to free the main event
// queue.
bool needDedicatedLooper = false;
if (nameIsType && !strncasecmp(name, "video/", 6)) {
needDedicatedLooper = true;
} else if (!nameIsType && !strncmp(name, "OMX.TI.DUCATI1.VIDEO.", 21)) {
needDedicatedLooper = true;
}
if (needDedicatedLooper) {
if (mCodecLooper == NULL) {
mCodecLooper = new ALooper;
mCodecLooper->setName("CodecLooper");
mCodecLooper->start(false, false, ANDROID_PRIORITY_AUDIO);
}
mCodecLooper->registerHandler(mCodec);
} else {
mLooper->registerHandler(mCodec);
}
mLooper->registerHandler(this);
mCodec->setNotificationMessage(new AMessage(kWhatCodecNotify, id()));
sp<AMessage> msg = new AMessage(kWhatInit, id());
msg->setString("name", name);
msg->setInt32("nameIsType", nameIsType);
if (nameIsType) {
msg->setInt32("encoder", encoder);
}
sp<AMessage> response;
return PostAndAwaitResponse(msg, &response);
}
status_t MediaCodec::configure(
const sp<AMessage> &format,
const sp<SurfaceTextureClient> &nativeWindow,
const sp<ICrypto> &crypto,
uint32_t flags) {
sp<AMessage> msg = new AMessage(kWhatConfigure, id());
msg->setMessage("format", format);
msg->setInt32("flags", flags);
if (nativeWindow != NULL) {
msg->setObject(
"native-window",
new NativeWindowWrapper(nativeWindow));
}
if (crypto != NULL) {
msg->setPointer("crypto", crypto.get());
}
sp<AMessage> response;
return PostAndAwaitResponse(msg, &response);
}
status_t MediaCodec::start() {
sp<AMessage> msg = new AMessage(kWhatStart, id());
sp<AMessage> response;
return PostAndAwaitResponse(msg, &response);
}
status_t MediaCodec::stop() {
sp<AMessage> msg = new AMessage(kWhatStop, id());
sp<AMessage> response;
return PostAndAwaitResponse(msg, &response);
}
status_t MediaCodec::release() {
sp<AMessage> msg = new AMessage(kWhatRelease, id());
sp<AMessage> response;
return PostAndAwaitResponse(msg, &response);
}
status_t MediaCodec::queueInputBuffer(
size_t index,
size_t offset,
size_t size,
int64_t presentationTimeUs,
uint32_t flags,
AString *errorDetailMsg) {
if (errorDetailMsg != NULL) {
errorDetailMsg->clear();
}
sp<AMessage> msg = new AMessage(kWhatQueueInputBuffer, id());
msg->setSize("index", index);
msg->setSize("offset", offset);
msg->setSize("size", size);
msg->setInt64("timeUs", presentationTimeUs);
msg->setInt32("flags", flags);
msg->setPointer("errorDetailMsg", errorDetailMsg);
sp<AMessage> response;
return PostAndAwaitResponse(msg, &response);
}
status_t MediaCodec::queueSecureInputBuffer(
size_t index,
size_t offset,
const CryptoPlugin::SubSample *subSamples,
size_t numSubSamples,
const uint8_t key[16],
const uint8_t iv[16],
CryptoPlugin::Mode mode,
int64_t presentationTimeUs,
uint32_t flags,
AString *errorDetailMsg) {
if (errorDetailMsg != NULL) {
errorDetailMsg->clear();
}
sp<AMessage> msg = new AMessage(kWhatQueueInputBuffer, id());
msg->setSize("index", index);
msg->setSize("offset", offset);
msg->setPointer("subSamples", (void *)subSamples);
msg->setSize("numSubSamples", numSubSamples);
msg->setPointer("key", (void *)key);
msg->setPointer("iv", (void *)iv);
msg->setInt32("mode", mode);
msg->setInt64("timeUs", presentationTimeUs);
msg->setInt32("flags", flags);
msg->setPointer("errorDetailMsg", errorDetailMsg);
sp<AMessage> response;
status_t err = PostAndAwaitResponse(msg, &response);
return err;
}
status_t MediaCodec::dequeueInputBuffer(size_t *index, int64_t timeoutUs) {
sp<AMessage> msg = new AMessage(kWhatDequeueInputBuffer, id());
msg->setInt64("timeoutUs", timeoutUs);
sp<AMessage> response;
status_t err;
if ((err = PostAndAwaitResponse(msg, &response)) != OK) {
return err;
}
CHECK(response->findSize("index", index));
return OK;
}
status_t MediaCodec::dequeueOutputBuffer(
size_t *index,
size_t *offset,
size_t *size,
int64_t *presentationTimeUs,
uint32_t *flags,
int64_t timeoutUs) {
sp<AMessage> msg = new AMessage(kWhatDequeueOutputBuffer, id());
msg->setInt64("timeoutUs", timeoutUs);
sp<AMessage> response;
status_t err;
if ((err = PostAndAwaitResponse(msg, &response)) != OK) {
return err;
}
CHECK(response->findSize("index", index));
CHECK(response->findSize("offset", offset));
CHECK(response->findSize("size", size));
CHECK(response->findInt64("timeUs", presentationTimeUs));
CHECK(response->findInt32("flags", (int32_t *)flags));
return OK;
}
status_t MediaCodec::renderOutputBufferAndRelease(size_t index) {
sp<AMessage> msg = new AMessage(kWhatReleaseOutputBuffer, id());
msg->setSize("index", index);
msg->setInt32("render", true);
sp<AMessage> response;
return PostAndAwaitResponse(msg, &response);
}
status_t MediaCodec::releaseOutputBuffer(size_t index) {
sp<AMessage> msg = new AMessage(kWhatReleaseOutputBuffer, id());
msg->setSize("index", index);
sp<AMessage> response;
return PostAndAwaitResponse(msg, &response);
}
status_t MediaCodec::getOutputFormat(sp<AMessage> *format) const {
sp<AMessage> msg = new AMessage(kWhatGetOutputFormat, id());
sp<AMessage> response;
status_t err;
if ((err = PostAndAwaitResponse(msg, &response)) != OK) {
return err;
}
CHECK(response->findMessage("format", format));
return OK;
}
status_t MediaCodec::getName(AString *name) const {
sp<AMessage> msg = new AMessage(kWhatGetName, id());
sp<AMessage> response;
status_t err;
if ((err = PostAndAwaitResponse(msg, &response)) != OK) {
return err;
}
CHECK(response->findString("name", name));
return OK;
}
status_t MediaCodec::getInputBuffers(Vector<sp<ABuffer> > *buffers) const {
sp<AMessage> msg = new AMessage(kWhatGetBuffers, id());
msg->setInt32("portIndex", kPortIndexInput);
msg->setPointer("buffers", buffers);
sp<AMessage> response;
return PostAndAwaitResponse(msg, &response);
}
status_t MediaCodec::getOutputBuffers(Vector<sp<ABuffer> > *buffers) const {
sp<AMessage> msg = new AMessage(kWhatGetBuffers, id());
msg->setInt32("portIndex", kPortIndexOutput);
msg->setPointer("buffers", buffers);
sp<AMessage> response;
return PostAndAwaitResponse(msg, &response);
}
status_t MediaCodec::flush() {
sp<AMessage> msg = new AMessage(kWhatFlush, id());
sp<AMessage> response;
return PostAndAwaitResponse(msg, &response);
}
status_t MediaCodec::requestIDRFrame() {
(new AMessage(kWhatRequestIDRFrame, id()))->post();
return OK;
}
void MediaCodec::requestActivityNotification(const sp<AMessage> &notify) {
sp<AMessage> msg = new AMessage(kWhatRequestActivityNotification, id());
msg->setMessage("notify", notify);
msg->post();
}
////////////////////////////////////////////////////////////////////////////////
void MediaCodec::cancelPendingDequeueOperations() {
if (mFlags & kFlagDequeueInputPending) {
sp<AMessage> response = new AMessage;
response->setInt32("err", INVALID_OPERATION);
response->postReply(mDequeueInputReplyID);
++mDequeueInputTimeoutGeneration;
mDequeueInputReplyID = 0;
mFlags &= ~kFlagDequeueInputPending;
}
if (mFlags & kFlagDequeueOutputPending) {
sp<AMessage> response = new AMessage;
response->setInt32("err", INVALID_OPERATION);
response->postReply(mDequeueOutputReplyID);
++mDequeueOutputTimeoutGeneration;
mDequeueOutputReplyID = 0;
mFlags &= ~kFlagDequeueOutputPending;
}
}
bool MediaCodec::handleDequeueInputBuffer(uint32_t replyID, bool newRequest) {
if (mState != STARTED
|| (mFlags & kFlagStickyError)
|| (newRequest && (mFlags & kFlagDequeueInputPending))) {
sp<AMessage> response = new AMessage;
response->setInt32("err", INVALID_OPERATION);
response->postReply(replyID);
return true;
}
ssize_t index = dequeuePortBuffer(kPortIndexInput);
if (index < 0) {
CHECK_EQ(index, -EAGAIN);
return false;
}
sp<AMessage> response = new AMessage;
response->setSize("index", index);
response->postReply(replyID);
return true;
}
bool MediaCodec::handleDequeueOutputBuffer(uint32_t replyID, bool newRequest) {
sp<AMessage> response = new AMessage;
if (mState != STARTED
|| (mFlags & kFlagStickyError)
|| (newRequest && (mFlags & kFlagDequeueOutputPending))) {
response->setInt32("err", INVALID_OPERATION);
} else if (mFlags & kFlagOutputBuffersChanged) {
response->setInt32("err", INFO_OUTPUT_BUFFERS_CHANGED);
mFlags &= ~kFlagOutputBuffersChanged;
} else if (mFlags & kFlagOutputFormatChanged) {
response->setInt32("err", INFO_FORMAT_CHANGED);
mFlags &= ~kFlagOutputFormatChanged;
} else {
ssize_t index = dequeuePortBuffer(kPortIndexOutput);
if (index < 0) {
CHECK_EQ(index, -EAGAIN);
return false;
}
const sp<ABuffer> &buffer =
mPortBuffers[kPortIndexOutput].itemAt(index).mData;
response->setSize("index", index);
response->setSize("offset", buffer->offset());
response->setSize("size", buffer->size());
int64_t timeUs;
CHECK(buffer->meta()->findInt64("timeUs", &timeUs));
response->setInt64("timeUs", timeUs);
int32_t omxFlags;
CHECK(buffer->meta()->findInt32("omxFlags", &omxFlags));
uint32_t flags = 0;
if (omxFlags & OMX_BUFFERFLAG_SYNCFRAME) {
flags |= BUFFER_FLAG_SYNCFRAME;
}
if (omxFlags & OMX_BUFFERFLAG_CODECCONFIG) {
flags |= BUFFER_FLAG_CODECCONFIG;
}
if (omxFlags & OMX_BUFFERFLAG_EOS) {
flags |= BUFFER_FLAG_EOS;
}
response->setInt32("flags", flags);
}
response->postReply(replyID);
return true;
}
void MediaCodec::onMessageReceived(const sp<AMessage> &msg) {
switch (msg->what()) {
case kWhatCodecNotify:
{
int32_t what;
CHECK(msg->findInt32("what", &what));
switch (what) {
case ACodec::kWhatError:
{
int32_t omxError, internalError;
CHECK(msg->findInt32("omx-error", &omxError));
CHECK(msg->findInt32("err", &internalError));
ALOGE("Codec reported an error. "
"(omx error 0x%08x, internalError %d)",
omxError, internalError);
bool sendErrorReponse = true;
switch (mState) {
case INITIALIZING:
{
setState(UNINITIALIZED);
break;
}
case CONFIGURING:
{
setState(INITIALIZED);
break;
}
case STARTING:
{
setState(CONFIGURED);
break;
}
case STOPPING:
case RELEASING:
{
// Ignore the error, assuming we'll still get
// the shutdown complete notification.
sendErrorReponse = false;
break;
}
case FLUSHING:
{
setState(STARTED);
break;
}
case STARTED:
{
sendErrorReponse = false;
mFlags |= kFlagStickyError;
postActivityNotificationIfPossible();
cancelPendingDequeueOperations();
break;
}
default:
{
sendErrorReponse = false;
mFlags |= kFlagStickyError;
postActivityNotificationIfPossible();
break;
}
}
if (sendErrorReponse) {
sp<AMessage> response = new AMessage;
response->setInt32("err", UNKNOWN_ERROR);
response->postReply(mReplyID);
}
break;
}
case ACodec::kWhatComponentAllocated:
{
CHECK_EQ(mState, INITIALIZING);
setState(INITIALIZED);
CHECK(msg->findString("componentName", &mComponentName));
if (mComponentName.startsWith("OMX.google.")) {
mFlags |= kFlagIsSoftwareCodec;
} else {
mFlags &= ~kFlagIsSoftwareCodec;
}
if (mComponentName.endsWith(".secure")) {
mFlags |= kFlagIsSecure;
} else {
mFlags &= ~kFlagIsSecure;
}
(new AMessage)->postReply(mReplyID);
break;
}
case ACodec::kWhatComponentConfigured:
{
CHECK_EQ(mState, CONFIGURING);
setState(CONFIGURED);
(new AMessage)->postReply(mReplyID);
break;
}
case ACodec::kWhatBuffersAllocated:
{
int32_t portIndex;
CHECK(msg->findInt32("portIndex", &portIndex));
ALOGV("%s buffers allocated",
portIndex == kPortIndexInput ? "input" : "output");
CHECK(portIndex == kPortIndexInput
|| portIndex == kPortIndexOutput);
mPortBuffers[portIndex].clear();
Vector<BufferInfo> *buffers = &mPortBuffers[portIndex];
sp<RefBase> obj;
CHECK(msg->findObject("portDesc", &obj));
sp<ACodec::PortDescription> portDesc =
static_cast<ACodec::PortDescription *>(obj.get());
size_t numBuffers = portDesc->countBuffers();
for (size_t i = 0; i < numBuffers; ++i) {
BufferInfo info;
info.mBufferID = portDesc->bufferIDAt(i);
info.mOwnedByClient = false;
info.mData = portDesc->bufferAt(i);
if (portIndex == kPortIndexInput && mCrypto != NULL) {
info.mEncryptedData =
new ABuffer(info.mData->capacity());
}
buffers->push_back(info);
}
if (portIndex == kPortIndexOutput) {
if (mState == STARTING) {
// We're always allocating output buffers after
// allocating input buffers, so this is a good
// indication that now all buffers are allocated.
setState(STARTED);
(new AMessage)->postReply(mReplyID);
} else {
mFlags |= kFlagOutputBuffersChanged;
postActivityNotificationIfPossible();
}
}
break;
}
case ACodec::kWhatOutputFormatChanged:
{
ALOGV("codec output format changed");
if ((mFlags & kFlagIsSoftwareCodec)
&& mNativeWindow != NULL) {
AString mime;
CHECK(msg->findString("mime", &mime));
if (!strncasecmp("video/", mime.c_str(), 6)) {
delete mSoftRenderer;
mSoftRenderer = NULL;
int32_t width, height;
CHECK(msg->findInt32("width", &width));
CHECK(msg->findInt32("height", &height));
int32_t colorFormat;
CHECK(msg->findInt32(
"color-format", &colorFormat));
sp<MetaData> meta = new MetaData;
meta->setInt32(kKeyWidth, width);
meta->setInt32(kKeyHeight, height);
meta->setInt32(kKeyColorFormat, colorFormat);
mSoftRenderer =
new SoftwareRenderer(mNativeWindow, meta);
}
}
mOutputFormat = msg;
mFlags |= kFlagOutputFormatChanged;
postActivityNotificationIfPossible();
break;
}
case ACodec::kWhatFillThisBuffer:
{
/* size_t index = */updateBuffers(kPortIndexInput, msg);
if (mState == FLUSHING
|| mState == STOPPING
|| mState == RELEASING) {
returnBuffersToCodecOnPort(kPortIndexInput);
break;
}
if (!mCSD.empty()) {
ssize_t index = dequeuePortBuffer(kPortIndexInput);
CHECK_GE(index, 0);
// If codec specific data had been specified as
// part of the format in the call to configure and
// if there's more csd left, we submit it here
// clients only get access to input buffers once
// this data has been exhausted.
status_t err = queueCSDInputBuffer(index);
if (err != OK) {
ALOGE("queueCSDInputBuffer failed w/ error %d",
err);
mFlags |= kFlagStickyError;
postActivityNotificationIfPossible();
cancelPendingDequeueOperations();
}
break;
}
if (mFlags & kFlagDequeueInputPending) {
CHECK(handleDequeueInputBuffer(mDequeueInputReplyID));
++mDequeueInputTimeoutGeneration;
mFlags &= ~kFlagDequeueInputPending;
mDequeueInputReplyID = 0;
} else {
postActivityNotificationIfPossible();
}
break;
}
case ACodec::kWhatDrainThisBuffer:
{
/* size_t index = */updateBuffers(kPortIndexOutput, msg);
if (mState == FLUSHING
|| mState == STOPPING
|| mState == RELEASING) {
returnBuffersToCodecOnPort(kPortIndexOutput);
break;
}
sp<ABuffer> buffer;
CHECK(msg->findBuffer("buffer", &buffer));
int32_t omxFlags;
CHECK(msg->findInt32("flags", &omxFlags));
buffer->meta()->setInt32("omxFlags", omxFlags);
if (mFlags & kFlagDequeueOutputPending) {
CHECK(handleDequeueOutputBuffer(mDequeueOutputReplyID));
++mDequeueOutputTimeoutGeneration;
mFlags &= ~kFlagDequeueOutputPending;
mDequeueOutputReplyID = 0;
} else {
postActivityNotificationIfPossible();
}
break;
}
case ACodec::kWhatEOS:
{
// We already notify the client of this by using the
// corresponding flag in "onOutputBufferReady".
break;
}
case ACodec::kWhatShutdownCompleted:
{
if (mState == STOPPING) {
setState(INITIALIZED);
} else {
CHECK_EQ(mState, RELEASING);
setState(UNINITIALIZED);
}
(new AMessage)->postReply(mReplyID);
break;
}
case ACodec::kWhatFlushCompleted:
{
CHECK_EQ(mState, FLUSHING);
setState(STARTED);
mCodec->signalResume();
(new AMessage)->postReply(mReplyID);
break;
}
default:
TRESPASS();
}
break;
}
case kWhatInit:
{
uint32_t replyID;
CHECK(msg->senderAwaitsResponse(&replyID));
if (mState != UNINITIALIZED) {
sp<AMessage> response = new AMessage;
response->setInt32("err", INVALID_OPERATION);
response->postReply(replyID);
break;
}
mReplyID = replyID;
setState(INITIALIZING);
AString name;
CHECK(msg->findString("name", &name));
int32_t nameIsType;
int32_t encoder = false;
CHECK(msg->findInt32("nameIsType", &nameIsType));
if (nameIsType) {
CHECK(msg->findInt32("encoder", &encoder));
}
sp<AMessage> format = new AMessage;
if (nameIsType) {
format->setString("mime", name.c_str());
format->setInt32("encoder", encoder);
} else {
format->setString("componentName", name.c_str());
}
mCodec->initiateAllocateComponent(format);
break;
}
case kWhatConfigure:
{
uint32_t replyID;
CHECK(msg->senderAwaitsResponse(&replyID));
if (mState != INITIALIZED) {
sp<AMessage> response = new AMessage;
response->setInt32("err", INVALID_OPERATION);
response->postReply(replyID);
break;
}
sp<RefBase> obj;
if (!msg->findObject("native-window", &obj)) {
obj.clear();
}
sp<AMessage> format;
CHECK(msg->findMessage("format", &format));
if (obj != NULL) {
format->setObject("native-window", obj);
status_t err = setNativeWindow(
static_cast<NativeWindowWrapper *>(obj.get())
->getSurfaceTextureClient());
if (err != OK) {
sp<AMessage> response = new AMessage;
response->setInt32("err", err);
response->postReply(replyID);
break;
}
} else {
setNativeWindow(NULL);
}
mReplyID = replyID;
setState(CONFIGURING);
void *crypto;
if (!msg->findPointer("crypto", &crypto)) {
crypto = NULL;
}
mCrypto = static_cast<ICrypto *>(crypto);
uint32_t flags;
CHECK(msg->findInt32("flags", (int32_t *)&flags));
if (flags & CONFIGURE_FLAG_ENCODE) {
format->setInt32("encoder", true);
}
extractCSD(format);
mCodec->initiateConfigureComponent(format);
break;
}
case kWhatStart:
{
uint32_t replyID;
CHECK(msg->senderAwaitsResponse(&replyID));
if (mState != CONFIGURED) {
sp<AMessage> response = new AMessage;
response->setInt32("err", INVALID_OPERATION);
response->postReply(replyID);
break;
}
mReplyID = replyID;
setState(STARTING);
mCodec->initiateStart();
break;
}
case kWhatStop:
{
uint32_t replyID;
CHECK(msg->senderAwaitsResponse(&replyID));
if (mState != INITIALIZED
&& mState != CONFIGURED && mState != STARTED) {
sp<AMessage> response = new AMessage;
response->setInt32("err", INVALID_OPERATION);
response->postReply(replyID);
break;
}
mReplyID = replyID;
setState(STOPPING);
mCodec->initiateShutdown(true /* keepComponentAllocated */);
returnBuffersToCodec();
break;
}
case kWhatRelease:
{
uint32_t replyID;
CHECK(msg->senderAwaitsResponse(&replyID));
if (mState != INITIALIZED
&& mState != CONFIGURED && mState != STARTED) {
sp<AMessage> response = new AMessage;
response->setInt32("err", INVALID_OPERATION);
response->postReply(replyID);
break;
}
mReplyID = replyID;
setState(RELEASING);
mCodec->initiateShutdown();
returnBuffersToCodec();
break;
}
case kWhatDequeueInputBuffer:
{
uint32_t replyID;
CHECK(msg->senderAwaitsResponse(&replyID));
if (handleDequeueInputBuffer(replyID, true /* new request */)) {
break;
}
int64_t timeoutUs;
CHECK(msg->findInt64("timeoutUs", &timeoutUs));
if (timeoutUs == 0ll) {
sp<AMessage> response = new AMessage;
response->setInt32("err", -EAGAIN);
response->postReply(replyID);
break;
}
mFlags |= kFlagDequeueInputPending;
mDequeueInputReplyID = replyID;
if (timeoutUs > 0ll) {
sp<AMessage> timeoutMsg =
new AMessage(kWhatDequeueInputTimedOut, id());
timeoutMsg->setInt32(
"generation", ++mDequeueInputTimeoutGeneration);
timeoutMsg->post(timeoutUs);
}
break;
}
case kWhatDequeueInputTimedOut:
{
int32_t generation;
CHECK(msg->findInt32("generation", &generation));
if (generation != mDequeueInputTimeoutGeneration) {
// Obsolete
break;
}
CHECK(mFlags & kFlagDequeueInputPending);
sp<AMessage> response = new AMessage;
response->setInt32("err", -EAGAIN);
response->postReply(mDequeueInputReplyID);
mFlags &= ~kFlagDequeueInputPending;
mDequeueInputReplyID = 0;
break;
}
case kWhatQueueInputBuffer:
{
uint32_t replyID;
CHECK(msg->senderAwaitsResponse(&replyID));
if (mState != STARTED || (mFlags & kFlagStickyError)) {
sp<AMessage> response = new AMessage;
response->setInt32("err", INVALID_OPERATION);
response->postReply(replyID);
break;
}
status_t err = onQueueInputBuffer(msg);
sp<AMessage> response = new AMessage;
response->setInt32("err", err);
response->postReply(replyID);
break;
}
case kWhatDequeueOutputBuffer:
{
uint32_t replyID;
CHECK(msg->senderAwaitsResponse(&replyID));
if (handleDequeueOutputBuffer(replyID, true /* new request */)) {
break;
}
int64_t timeoutUs;
CHECK(msg->findInt64("timeoutUs", &timeoutUs));
if (timeoutUs == 0ll) {
sp<AMessage> response = new AMessage;
response->setInt32("err", -EAGAIN);
response->postReply(replyID);
break;
}
mFlags |= kFlagDequeueOutputPending;
mDequeueOutputReplyID = replyID;
if (timeoutUs > 0ll) {
sp<AMessage> timeoutMsg =
new AMessage(kWhatDequeueOutputTimedOut, id());
timeoutMsg->setInt32(
"generation", ++mDequeueOutputTimeoutGeneration);
timeoutMsg->post(timeoutUs);
}
break;
}
case kWhatDequeueOutputTimedOut:
{
int32_t generation;
CHECK(msg->findInt32("generation", &generation));
if (generation != mDequeueOutputTimeoutGeneration) {
// Obsolete
break;
}
CHECK(mFlags & kFlagDequeueOutputPending);
sp<AMessage> response = new AMessage;
response->setInt32("err", -EAGAIN);
response->postReply(mDequeueOutputReplyID);
mFlags &= ~kFlagDequeueOutputPending;
mDequeueOutputReplyID = 0;
break;
}
case kWhatReleaseOutputBuffer:
{
uint32_t replyID;
CHECK(msg->senderAwaitsResponse(&replyID));
if (mState != STARTED || (mFlags & kFlagStickyError)) {
sp<AMessage> response = new AMessage;
response->setInt32("err", INVALID_OPERATION);
response->postReply(replyID);
break;
}
status_t err = onReleaseOutputBuffer(msg);
sp<AMessage> response = new AMessage;
response->setInt32("err", err);
response->postReply(replyID);
break;
}
case kWhatGetBuffers:
{
uint32_t replyID;
CHECK(msg->senderAwaitsResponse(&replyID));
if (mState != STARTED || (mFlags & kFlagStickyError)) {
sp<AMessage> response = new AMessage;
response->setInt32("err", INVALID_OPERATION);
response->postReply(replyID);
break;
}
int32_t portIndex;
CHECK(msg->findInt32("portIndex", &portIndex));
Vector<sp<ABuffer> > *dstBuffers;
CHECK(msg->findPointer("buffers", (void **)&dstBuffers));
dstBuffers->clear();
const Vector<BufferInfo> &srcBuffers = mPortBuffers[portIndex];
for (size_t i = 0; i < srcBuffers.size(); ++i) {
const BufferInfo &info = srcBuffers.itemAt(i);
dstBuffers->push_back(
(portIndex == kPortIndexInput && mCrypto != NULL)
? info.mEncryptedData : info.mData);
}
(new AMessage)->postReply(replyID);
break;
}
case kWhatFlush:
{
uint32_t replyID;
CHECK(msg->senderAwaitsResponse(&replyID));
if (mState != STARTED || (mFlags & kFlagStickyError)) {
sp<AMessage> response = new AMessage;
response->setInt32("err", INVALID_OPERATION);
response->postReply(replyID);
break;
}
mReplyID = replyID;
setState(FLUSHING);
mCodec->signalFlush();
returnBuffersToCodec();
break;
}
case kWhatGetOutputFormat:
{
uint32_t replyID;
CHECK(msg->senderAwaitsResponse(&replyID));
if ((mState != STARTED && mState != FLUSHING)
|| (mFlags & kFlagStickyError)
|| mOutputFormat == NULL) {
sp<AMessage> response = new AMessage;
response->setInt32("err", INVALID_OPERATION);
response->postReply(replyID);
break;
}
sp<AMessage> response = new AMessage;
response->setMessage("format", mOutputFormat);
response->postReply(replyID);
break;
}
case kWhatRequestIDRFrame:
{
mCodec->signalRequestIDRFrame();
break;
}
case kWhatRequestActivityNotification:
{
CHECK(mActivityNotify == NULL);
CHECK(msg->findMessage("notify", &mActivityNotify));
postActivityNotificationIfPossible();
break;
}
case kWhatGetName:
{
uint32_t replyID;
CHECK(msg->senderAwaitsResponse(&replyID));
if (mComponentName.empty()) {
sp<AMessage> response = new AMessage;
response->setInt32("err", INVALID_OPERATION);
response->postReply(replyID);
break;
}
sp<AMessage> response = new AMessage;
response->setString("name", mComponentName.c_str());
response->postReply(replyID);
break;
}
default:
TRESPASS();
}
}
void MediaCodec::extractCSD(const sp<AMessage> &format) {
mCSD.clear();
size_t i = 0;
for (;;) {
sp<ABuffer> csd;
if (!format->findBuffer(StringPrintf("csd-%u", i).c_str(), &csd)) {
break;
}
mCSD.push_back(csd);
++i;
}
ALOGV("Found %u pieces of codec specific data.", mCSD.size());
}
status_t MediaCodec::queueCSDInputBuffer(size_t bufferIndex) {
CHECK(!mCSD.empty());
BufferInfo *info =
&mPortBuffers[kPortIndexInput].editItemAt(bufferIndex);
sp<ABuffer> csd = *mCSD.begin();
mCSD.erase(mCSD.begin());
const sp<ABuffer> &codecInputData =
(mCrypto != NULL) ? info->mEncryptedData : info->mData;
if (csd->size() > codecInputData->capacity()) {
return -EINVAL;
}
memcpy(codecInputData->data(), csd->data(), csd->size());
AString errorDetailMsg;
sp<AMessage> msg = new AMessage(kWhatQueueInputBuffer, id());
msg->setSize("index", bufferIndex);
msg->setSize("offset", 0);
msg->setSize("size", csd->size());
msg->setInt64("timeUs", 0ll);
msg->setInt32("flags", BUFFER_FLAG_CODECCONFIG);
msg->setPointer("errorDetailMsg", &errorDetailMsg);
return onQueueInputBuffer(msg);
}
void MediaCodec::setState(State newState) {
if (newState == INITIALIZED || newState == UNINITIALIZED) {
delete mSoftRenderer;
mSoftRenderer = NULL;
mCrypto.clear();
setNativeWindow(NULL);
mOutputFormat.clear();
mFlags &= ~kFlagOutputFormatChanged;
mFlags &= ~kFlagOutputBuffersChanged;
mFlags &= ~kFlagStickyError;
mActivityNotify.clear();
}
if (newState == UNINITIALIZED) {
mComponentName.clear();
}
mState = newState;
cancelPendingDequeueOperations();
}
void MediaCodec::returnBuffersToCodec() {
returnBuffersToCodecOnPort(kPortIndexInput);
returnBuffersToCodecOnPort(kPortIndexOutput);
}
void MediaCodec::returnBuffersToCodecOnPort(int32_t portIndex) {
CHECK(portIndex == kPortIndexInput || portIndex == kPortIndexOutput);
Vector<BufferInfo> *buffers = &mPortBuffers[portIndex];
for (size_t i = 0; i < buffers->size(); ++i) {
BufferInfo *info = &buffers->editItemAt(i);
if (info->mNotify != NULL) {
sp<AMessage> msg = info->mNotify;
info->mNotify = NULL;
info->mOwnedByClient = false;
if (portIndex == kPortIndexInput) {
msg->setInt32("err", ERROR_END_OF_STREAM);
}
msg->post();
}
}
mAvailPortBuffers[portIndex].clear();
}
size_t MediaCodec::updateBuffers(
int32_t portIndex, const sp<AMessage> &msg) {
CHECK(portIndex == kPortIndexInput || portIndex == kPortIndexOutput);
void *bufferID;
CHECK(msg->findPointer("buffer-id", &bufferID));
Vector<BufferInfo> *buffers = &mPortBuffers[portIndex];
for (size_t i = 0; i < buffers->size(); ++i) {
BufferInfo *info = &buffers->editItemAt(i);
if (info->mBufferID == bufferID) {
CHECK(info->mNotify == NULL);
CHECK(msg->findMessage("reply", &info->mNotify));
mAvailPortBuffers[portIndex].push_back(i);
return i;
}
}
TRESPASS();
return 0;
}
status_t MediaCodec::onQueueInputBuffer(const sp<AMessage> &msg) {
size_t index;
size_t offset;
size_t size;
int64_t timeUs;
uint32_t flags;
CHECK(msg->findSize("index", &index));
CHECK(msg->findSize("offset", &offset));
CHECK(msg->findInt64("timeUs", &timeUs));
CHECK(msg->findInt32("flags", (int32_t *)&flags));
const CryptoPlugin::SubSample *subSamples;
size_t numSubSamples;
const uint8_t *key;
const uint8_t *iv;
CryptoPlugin::Mode mode = CryptoPlugin::kMode_Unencrypted;
// We allow the simpler queueInputBuffer API to be used even in
// secure mode, by fabricating a single unencrypted subSample.
CryptoPlugin::SubSample ss;
if (msg->findSize("size", &size)) {
if (mCrypto != NULL) {
ss.mNumBytesOfClearData = size;
ss.mNumBytesOfEncryptedData = 0;
subSamples = &ss;
numSubSamples = 1;
key = NULL;
iv = NULL;
}
} else {
if (mCrypto == NULL) {
return -EINVAL;
}
CHECK(msg->findPointer("subSamples", (void **)&subSamples));
CHECK(msg->findSize("numSubSamples", &numSubSamples));
CHECK(msg->findPointer("key", (void **)&key));
CHECK(msg->findPointer("iv", (void **)&iv));
int32_t tmp;
CHECK(msg->findInt32("mode", &tmp));
mode = (CryptoPlugin::Mode)tmp;
size = 0;
for (size_t i = 0; i < numSubSamples; ++i) {
size += subSamples[i].mNumBytesOfClearData;
size += subSamples[i].mNumBytesOfEncryptedData;
}
}
if (index >= mPortBuffers[kPortIndexInput].size()) {
return -ERANGE;
}
BufferInfo *info = &mPortBuffers[kPortIndexInput].editItemAt(index);
if (info->mNotify == NULL || !info->mOwnedByClient) {
return -EACCES;
}
if (offset + size > info->mData->capacity()) {
return -EINVAL;
}
sp<AMessage> reply = info->mNotify;
info->mData->setRange(offset, size);
info->mData->meta()->setInt64("timeUs", timeUs);
if (flags & BUFFER_FLAG_EOS) {
info->mData->meta()->setInt32("eos", true);
}
if (flags & BUFFER_FLAG_CODECCONFIG) {
info->mData->meta()->setInt32("csd", true);
}
if (mCrypto != NULL) {
if (size > info->mEncryptedData->capacity()) {
return -ERANGE;
}
AString *errorDetailMsg;
CHECK(msg->findPointer("errorDetailMsg", (void **)&errorDetailMsg));
ssize_t result = mCrypto->decrypt(
(mFlags & kFlagIsSecure) != 0,
key,
iv,
mode,
info->mEncryptedData->base() + offset,
subSamples,
numSubSamples,
info->mData->base(),
errorDetailMsg);
if (result < 0) {
return result;
}
info->mData->setRange(0, result);
}
reply->setBuffer("buffer", info->mData);
reply->post();
info->mNotify = NULL;
info->mOwnedByClient = false;
return OK;
}
status_t MediaCodec::onReleaseOutputBuffer(const sp<AMessage> &msg) {
size_t index;
CHECK(msg->findSize("index", &index));
int32_t render;
if (!msg->findInt32("render", &render)) {
render = 0;
}
if (mState != STARTED) {
return -EINVAL;
}
if (index >= mPortBuffers[kPortIndexOutput].size()) {
return -ERANGE;
}
BufferInfo *info = &mPortBuffers[kPortIndexOutput].editItemAt(index);
if (info->mNotify == NULL || !info->mOwnedByClient) {
return -EACCES;
}
if (render) {
info->mNotify->setInt32("render", true);
if (mSoftRenderer != NULL) {
mSoftRenderer->render(
info->mData->data(), info->mData->size(), NULL);
}
}
info->mNotify->post();
info->mNotify = NULL;
info->mOwnedByClient = false;
return OK;
}
ssize_t MediaCodec::dequeuePortBuffer(int32_t portIndex) {
CHECK(portIndex == kPortIndexInput || portIndex == kPortIndexOutput);
List<size_t> *availBuffers = &mAvailPortBuffers[portIndex];
if (availBuffers->empty()) {
return -EAGAIN;
}
size_t index = *availBuffers->begin();
availBuffers->erase(availBuffers->begin());
BufferInfo *info = &mPortBuffers[portIndex].editItemAt(index);
CHECK(!info->mOwnedByClient);
info->mOwnedByClient = true;
return index;
}
status_t MediaCodec::setNativeWindow(
const sp<SurfaceTextureClient> &surfaceTextureClient) {
status_t err;
if (mNativeWindow != NULL) {
err = native_window_api_disconnect(
mNativeWindow.get(), NATIVE_WINDOW_API_MEDIA);
if (err != OK) {
ALOGW("native_window_api_disconnect returned an error: %s (%d)",
strerror(-err), err);
}
mNativeWindow.clear();
}
if (surfaceTextureClient != NULL) {
err = native_window_api_connect(
surfaceTextureClient.get(), NATIVE_WINDOW_API_MEDIA);
if (err != OK) {
ALOGE("native_window_api_connect returned an error: %s (%d)",
strerror(-err), err);
return err;
}
mNativeWindow = surfaceTextureClient;
}
return OK;
}
void MediaCodec::postActivityNotificationIfPossible() {
if (mActivityNotify == NULL) {
return;
}
if ((mFlags & (kFlagStickyError
| kFlagOutputBuffersChanged
| kFlagOutputFormatChanged))
|| !mAvailPortBuffers[kPortIndexInput].empty()
|| !mAvailPortBuffers[kPortIndexOutput].empty()) {
mActivityNotify->post();
mActivityNotify.clear();
}
}
} // namespace android