/* * Copyright (C) 2014 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. */ #include //#define LOG_NDEBUG 0 #define LOG_TAG "NdkMediaCodec" #include #include #include #include "NdkMediaCryptoPriv.h" #include #include #include #include #include #include #include #include #include #include using namespace android; static media_status_t translate_error(status_t err) { if (err == OK) { return AMEDIA_OK; } else if (err == -EAGAIN) { return (media_status_t) AMEDIACODEC_INFO_TRY_AGAIN_LATER; } else if (err == NO_MEMORY) { return AMEDIACODEC_ERROR_INSUFFICIENT_RESOURCE; } else if (err == DEAD_OBJECT) { return AMEDIACODEC_ERROR_RECLAIMED; } ALOGE("sf error code: %d", err); return AMEDIA_ERROR_UNKNOWN; } enum { kWhatActivityNotify, kWhatAsyncNotify, kWhatRequestActivityNotifications, kWhatStopActivityNotifications, }; struct AMediaCodecPersistentSurface : public Surface { sp mPersistentSurface; AMediaCodecPersistentSurface( const sp& igbp, const sp& ps) : Surface(igbp) { mPersistentSurface = ps; } virtual ~AMediaCodecPersistentSurface() { //mPersistentSurface ref will be let go off here } }; class CodecHandler: public AHandler { private: AMediaCodec* mCodec; public: explicit CodecHandler(AMediaCodec *codec); virtual void onMessageReceived(const sp &msg); }; typedef void (*OnCodecEvent)(AMediaCodec *codec, void *userdata); struct AMediaCodec { sp mCodec; sp mLooper; sp mHandler; sp mActivityNotification; int32_t mGeneration; bool mRequestedActivityNotification; OnCodecEvent mCallback; void *mCallbackUserData; sp mAsyncNotify; mutable Mutex mAsyncCallbackLock; AMediaCodecOnAsyncNotifyCallback mAsyncCallback; void *mAsyncCallbackUserData; }; CodecHandler::CodecHandler(AMediaCodec *codec) { mCodec = codec; } void CodecHandler::onMessageReceived(const sp &msg) { switch (msg->what()) { case kWhatRequestActivityNotifications: { if (mCodec->mRequestedActivityNotification) { break; } mCodec->mCodec->requestActivityNotification(mCodec->mActivityNotification); mCodec->mRequestedActivityNotification = true; break; } case kWhatActivityNotify: { { int32_t generation; msg->findInt32("generation", &generation); if (generation != mCodec->mGeneration) { // stale break; } mCodec->mRequestedActivityNotification = false; } if (mCodec->mCallback) { mCodec->mCallback(mCodec, mCodec->mCallbackUserData); } break; } case kWhatAsyncNotify: { int32_t cbID; if (!msg->findInt32("callbackID", &cbID)) { ALOGE("kWhatAsyncNotify: callbackID is expected."); break; } ALOGV("kWhatAsyncNotify: cbID = %d", cbID); switch (cbID) { case MediaCodec::CB_INPUT_AVAILABLE: { int32_t index; if (!msg->findInt32("index", &index)) { ALOGE("CB_INPUT_AVAILABLE: index is expected."); break; } Mutex::Autolock _l(mCodec->mAsyncCallbackLock); if (mCodec->mAsyncCallbackUserData != NULL || mCodec->mAsyncCallback.onAsyncInputAvailable != NULL) { mCodec->mAsyncCallback.onAsyncInputAvailable( mCodec, mCodec->mAsyncCallbackUserData, index); } break; } case MediaCodec::CB_OUTPUT_AVAILABLE: { int32_t index; size_t offset; size_t size; int64_t timeUs; int32_t flags; if (!msg->findInt32("index", &index)) { ALOGE("CB_OUTPUT_AVAILABLE: index is expected."); break; } if (!msg->findSize("offset", &offset)) { ALOGE("CB_OUTPUT_AVAILABLE: offset is expected."); break; } if (!msg->findSize("size", &size)) { ALOGE("CB_OUTPUT_AVAILABLE: size is expected."); break; } if (!msg->findInt64("timeUs", &timeUs)) { ALOGE("CB_OUTPUT_AVAILABLE: timeUs is expected."); break; } if (!msg->findInt32("flags", &flags)) { ALOGE("CB_OUTPUT_AVAILABLE: flags is expected."); break; } AMediaCodecBufferInfo bufferInfo = { (int32_t)offset, (int32_t)size, timeUs, (uint32_t)flags}; Mutex::Autolock _l(mCodec->mAsyncCallbackLock); if (mCodec->mAsyncCallbackUserData != NULL || mCodec->mAsyncCallback.onAsyncOutputAvailable != NULL) { mCodec->mAsyncCallback.onAsyncOutputAvailable( mCodec, mCodec->mAsyncCallbackUserData, index, &bufferInfo); } break; } case MediaCodec::CB_OUTPUT_FORMAT_CHANGED: { sp format; if (!msg->findMessage("format", &format)) { ALOGE("CB_OUTPUT_FORMAT_CHANGED: format is expected."); break; } // Here format is MediaCodec's internal copy of output format. // Make a copy since the client might modify it. sp copy; if (format != nullptr) { copy = format->dup(); } AMediaFormat *aMediaFormat = AMediaFormat_fromMsg(©); Mutex::Autolock _l(mCodec->mAsyncCallbackLock); if (mCodec->mAsyncCallbackUserData != NULL || mCodec->mAsyncCallback.onAsyncFormatChanged != NULL) { mCodec->mAsyncCallback.onAsyncFormatChanged( mCodec, mCodec->mAsyncCallbackUserData, aMediaFormat); } break; } case MediaCodec::CB_ERROR: { status_t err; int32_t actionCode; AString detail; if (!msg->findInt32("err", &err)) { ALOGE("CB_ERROR: err is expected."); break; } if (!msg->findInt32("actionCode", &actionCode)) { ALOGE("CB_ERROR: actionCode is expected."); break; } msg->findString("detail", &detail); ALOGE("Codec reported error(0x%x), actionCode(%d), detail(%s)", err, actionCode, detail.c_str()); Mutex::Autolock _l(mCodec->mAsyncCallbackLock); if (mCodec->mAsyncCallbackUserData != NULL || mCodec->mAsyncCallback.onAsyncError != NULL) { mCodec->mAsyncCallback.onAsyncError( mCodec, mCodec->mAsyncCallbackUserData, translate_error(err), actionCode, detail.c_str()); } break; } default: { ALOGE("kWhatAsyncNotify: callbackID(%d) is unexpected.", cbID); break; } } break; } case kWhatStopActivityNotifications: { sp replyID; msg->senderAwaitsResponse(&replyID); mCodec->mGeneration++; mCodec->mRequestedActivityNotification = false; sp response = new AMessage; response->postReply(replyID); break; } default: ALOGE("shouldn't be here"); break; } } static void requestActivityNotification(AMediaCodec *codec) { (new AMessage(kWhatRequestActivityNotifications, codec->mHandler))->post(); } extern "C" { static AMediaCodec * createAMediaCodec(const char *name, bool name_is_type, bool encoder, pid_t pid = android::MediaCodec::kNoPid, uid_t uid = android::MediaCodec::kNoUid) { AMediaCodec *mData = new AMediaCodec(); mData->mLooper = new ALooper; mData->mLooper->setName("NDK MediaCodec_looper"); size_t res = mData->mLooper->start( false, // runOnCallingThread true, // canCallJava XXX PRIORITY_AUDIO); if (res != OK) { ALOGE("Failed to start the looper"); AMediaCodec_delete(mData); return NULL; } if (name_is_type) { mData->mCodec = android::MediaCodec::CreateByType( mData->mLooper, name, encoder, nullptr /* err */, pid, uid); } else { mData->mCodec = android::MediaCodec::CreateByComponentName( mData->mLooper, name, nullptr /* err */, pid, uid); } if (mData->mCodec == NULL) { // failed to create codec AMediaCodec_delete(mData); return NULL; } mData->mHandler = new CodecHandler(mData); mData->mLooper->registerHandler(mData->mHandler); mData->mGeneration = 1; mData->mRequestedActivityNotification = false; mData->mCallback = NULL; mData->mAsyncCallback = {}; mData->mAsyncCallbackUserData = NULL; return mData; } EXPORT AMediaCodec* AMediaCodec_createCodecByName(const char *name) { return createAMediaCodec(name, false /* name_is_type */, false /* encoder */); } EXPORT AMediaCodec* AMediaCodec_createDecoderByType(const char *mime_type) { return createAMediaCodec(mime_type, true /* name_is_type */, false /* encoder */); } EXPORT AMediaCodec* AMediaCodec_createEncoderByType(const char *name) { return createAMediaCodec(name, true /* name_is_type */, true /* encoder */); } EXPORT AMediaCodec* AMediaCodec_createCodecByNameForClient(const char *name, pid_t pid, uid_t uid) { return createAMediaCodec(name, false /* name_is_type */, false /* encoder */, pid, uid); } EXPORT AMediaCodec* AMediaCodec_createDecoderByTypeForClient(const char *mime_type, pid_t pid, uid_t uid) { return createAMediaCodec(mime_type, true /* name_is_type */, false /* encoder */, pid, uid); } EXPORT AMediaCodec* AMediaCodec_createEncoderByTypeForClient(const char *name, pid_t pid, uid_t uid) { return createAMediaCodec(name, true /* name_is_type */, true /* encoder */, pid, uid); } EXPORT media_status_t AMediaCodec_delete(AMediaCodec *mData) { if (mData != NULL) { if (mData->mCodec != NULL) { mData->mCodec->release(); mData->mCodec.clear(); } if (mData->mLooper != NULL) { if (mData->mHandler != NULL) { mData->mLooper->unregisterHandler(mData->mHandler->id()); } mData->mLooper->stop(); mData->mLooper.clear(); } delete mData; } return AMEDIA_OK; } EXPORT media_status_t AMediaCodec_getName( AMediaCodec *mData, char** out_name) { if (out_name == NULL) { return AMEDIA_ERROR_INVALID_PARAMETER; } AString compName; status_t err = mData->mCodec->getName(&compName); if (err != OK) { return translate_error(err); } *out_name = strdup(compName.c_str()); return AMEDIA_OK; } EXPORT void AMediaCodec_releaseName( AMediaCodec * /* mData */, char* name) { if (name != NULL) { free(name); } } EXPORT media_status_t AMediaCodec_configure( AMediaCodec *mData, const AMediaFormat* format, ANativeWindow* window, AMediaCrypto *crypto, uint32_t flags) { sp nativeFormat; AMediaFormat_getFormat(format, &nativeFormat); ALOGV("configure with format: %s", nativeFormat->debugString(0).c_str()); sp surface = NULL; if (window != NULL) { surface = (Surface*) window; } status_t err = mData->mCodec->configure(nativeFormat, surface, crypto ? crypto->mCrypto : NULL, flags); if (err != OK) { ALOGE("configure: err(%d), failed with format: %s", err, nativeFormat->debugString(0).c_str()); } return translate_error(err); } EXPORT media_status_t AMediaCodec_setAsyncNotifyCallback( AMediaCodec *mData, AMediaCodecOnAsyncNotifyCallback callback, void *userdata) { if (mData->mAsyncNotify == NULL && userdata != NULL) { mData->mAsyncNotify = new AMessage(kWhatAsyncNotify, mData->mHandler); status_t err = mData->mCodec->setCallback(mData->mAsyncNotify); if (err != OK) { ALOGE("setAsyncNotifyCallback: err(%d), failed to set async callback", err); return translate_error(err); } } Mutex::Autolock _l(mData->mAsyncCallbackLock); mData->mAsyncCallback = callback; mData->mAsyncCallbackUserData = userdata; return AMEDIA_OK; } EXPORT media_status_t AMediaCodec_releaseCrypto(AMediaCodec *mData) { return translate_error(mData->mCodec->releaseCrypto()); } EXPORT media_status_t AMediaCodec_start(AMediaCodec *mData) { status_t ret = mData->mCodec->start(); if (ret != OK) { return translate_error(ret); } mData->mActivityNotification = new AMessage(kWhatActivityNotify, mData->mHandler); mData->mActivityNotification->setInt32("generation", mData->mGeneration); requestActivityNotification(mData); return AMEDIA_OK; } EXPORT media_status_t AMediaCodec_stop(AMediaCodec *mData) { media_status_t ret = translate_error(mData->mCodec->stop()); sp msg = new AMessage(kWhatStopActivityNotifications, mData->mHandler); sp response; msg->postAndAwaitResponse(&response); mData->mActivityNotification.clear(); return ret; } EXPORT media_status_t AMediaCodec_flush(AMediaCodec *mData) { return translate_error(mData->mCodec->flush()); } EXPORT ssize_t AMediaCodec_dequeueInputBuffer(AMediaCodec *mData, int64_t timeoutUs) { size_t idx; status_t ret = mData->mCodec->dequeueInputBuffer(&idx, timeoutUs); requestActivityNotification(mData); if (ret == OK) { return idx; } return translate_error(ret); } EXPORT uint8_t* AMediaCodec_getInputBuffer(AMediaCodec *mData, size_t idx, size_t *out_size) { if (mData->mAsyncNotify != NULL) { // Asynchronous mode sp abuf; if (mData->mCodec->getInputBuffer(idx, &abuf) != 0) { return NULL; } if (out_size != NULL) { *out_size = abuf->capacity(); } return abuf->data(); } android::Vector > abufs; if (mData->mCodec->getInputBuffers(&abufs) == 0) { size_t n = abufs.size(); if (idx >= n) { ALOGE("buffer index %zu out of range", idx); return NULL; } if (abufs[idx] == NULL) { ALOGE("buffer index %zu is NULL", idx); return NULL; } if (out_size != NULL) { *out_size = abufs[idx]->capacity(); } return abufs[idx]->data(); } ALOGE("couldn't get input buffers"); return NULL; } EXPORT uint8_t* AMediaCodec_getOutputBuffer(AMediaCodec *mData, size_t idx, size_t *out_size) { if (mData->mAsyncNotify != NULL) { // Asynchronous mode sp abuf; if (mData->mCodec->getOutputBuffer(idx, &abuf) != 0) { return NULL; } if (out_size != NULL) { *out_size = abuf->capacity(); } return abuf->data(); } android::Vector > abufs; if (mData->mCodec->getOutputBuffers(&abufs) == 0) { size_t n = abufs.size(); if (idx >= n) { ALOGE("buffer index %zu out of range", idx); return NULL; } if (out_size != NULL) { *out_size = abufs[idx]->capacity(); } return abufs[idx]->data(); } ALOGE("couldn't get output buffers"); return NULL; } EXPORT media_status_t AMediaCodec_queueInputBuffer(AMediaCodec *mData, size_t idx, off_t offset, size_t size, uint64_t time, uint32_t flags) { AString errorMsg; status_t ret = mData->mCodec->queueInputBuffer(idx, offset, size, time, flags, &errorMsg); return translate_error(ret); } EXPORT ssize_t AMediaCodec_dequeueOutputBuffer(AMediaCodec *mData, AMediaCodecBufferInfo *info, int64_t timeoutUs) { size_t idx; size_t offset; size_t size; uint32_t flags; int64_t presentationTimeUs; status_t ret = mData->mCodec->dequeueOutputBuffer(&idx, &offset, &size, &presentationTimeUs, &flags, timeoutUs); requestActivityNotification(mData); switch (ret) { case OK: info->offset = offset; info->size = size; info->flags = flags; info->presentationTimeUs = presentationTimeUs; return idx; case -EAGAIN: return AMEDIACODEC_INFO_TRY_AGAIN_LATER; case android::INFO_FORMAT_CHANGED: return AMEDIACODEC_INFO_OUTPUT_FORMAT_CHANGED; case INFO_OUTPUT_BUFFERS_CHANGED: return AMEDIACODEC_INFO_OUTPUT_BUFFERS_CHANGED; default: break; } return translate_error(ret); } EXPORT AMediaFormat* AMediaCodec_getOutputFormat(AMediaCodec *mData) { sp format; mData->mCodec->getOutputFormat(&format); return AMediaFormat_fromMsg(&format); } EXPORT AMediaFormat* AMediaCodec_getInputFormat(AMediaCodec *mData) { sp format; mData->mCodec->getInputFormat(&format); return AMediaFormat_fromMsg(&format); } EXPORT AMediaFormat* AMediaCodec_getBufferFormat(AMediaCodec *mData, size_t index) { sp format; mData->mCodec->getOutputFormat(index, &format); return AMediaFormat_fromMsg(&format); } EXPORT media_status_t AMediaCodec_releaseOutputBuffer(AMediaCodec *mData, size_t idx, bool render) { if (render) { return translate_error(mData->mCodec->renderOutputBufferAndRelease(idx)); } else { return translate_error(mData->mCodec->releaseOutputBuffer(idx)); } } EXPORT media_status_t AMediaCodec_releaseOutputBufferAtTime( AMediaCodec *mData, size_t idx, int64_t timestampNs) { ALOGV("render @ %" PRId64, timestampNs); return translate_error(mData->mCodec->renderOutputBufferAndRelease(idx, timestampNs)); } EXPORT media_status_t AMediaCodec_setOutputSurface(AMediaCodec *mData, ANativeWindow* window) { sp surface = NULL; if (window != NULL) { surface = (Surface*) window; } return translate_error(mData->mCodec->setSurface(surface)); } EXPORT media_status_t AMediaCodec_createInputSurface(AMediaCodec *mData, ANativeWindow **surface) { if (surface == NULL || mData == NULL) { return AMEDIA_ERROR_INVALID_PARAMETER; } *surface = NULL; sp igbp = NULL; status_t err = mData->mCodec->createInputSurface(&igbp); if (err != NO_ERROR) { return translate_error(err); } *surface = new Surface(igbp); ANativeWindow_acquire(*surface); return AMEDIA_OK; } EXPORT media_status_t AMediaCodec_createPersistentInputSurface(ANativeWindow **surface) { if (surface == NULL) { return AMEDIA_ERROR_INVALID_PARAMETER; } *surface = NULL; sp ps = MediaCodec::CreatePersistentInputSurface(); if (ps == NULL) { return AMEDIA_ERROR_UNKNOWN; } sp igbp = ps->getBufferProducer(); if (igbp == NULL) { return AMEDIA_ERROR_UNKNOWN; } *surface = new AMediaCodecPersistentSurface(igbp, ps); ANativeWindow_acquire(*surface); return AMEDIA_OK; } EXPORT media_status_t AMediaCodec_setInputSurface( AMediaCodec *mData, ANativeWindow *surface) { if (surface == NULL || mData == NULL) { return AMEDIA_ERROR_INVALID_PARAMETER; } AMediaCodecPersistentSurface *aMediaPersistentSurface = static_cast(surface); if (aMediaPersistentSurface->mPersistentSurface == NULL) { return AMEDIA_ERROR_INVALID_PARAMETER; } return translate_error(mData->mCodec->setInputSurface( aMediaPersistentSurface->mPersistentSurface)); } EXPORT media_status_t AMediaCodec_setParameters( AMediaCodec *mData, const AMediaFormat* params) { if (params == NULL || mData == NULL) { return AMEDIA_ERROR_INVALID_PARAMETER; } sp nativeParams; AMediaFormat_getFormat(params, &nativeParams); ALOGV("setParameters: %s", nativeParams->debugString(0).c_str()); return translate_error(mData->mCodec->setParameters(nativeParams)); } EXPORT media_status_t AMediaCodec_signalEndOfInputStream(AMediaCodec *mData) { if (mData == NULL) { return AMEDIA_ERROR_INVALID_PARAMETER; } status_t err = mData->mCodec->signalEndOfInputStream(); if (err == INVALID_OPERATION) { return AMEDIA_ERROR_INVALID_OPERATION; } return translate_error(err); } //EXPORT media_status_t AMediaCodec_setNotificationCallback(AMediaCodec *mData, OnCodecEvent callback, void *userdata) { mData->mCallback = callback; mData->mCallbackUserData = userdata; return AMEDIA_OK; } typedef struct AMediaCodecCryptoInfo { int numsubsamples; uint8_t key[16]; uint8_t iv[16]; cryptoinfo_mode_t mode; cryptoinfo_pattern_t pattern; size_t *clearbytes; size_t *encryptedbytes; } AMediaCodecCryptoInfo; EXPORT media_status_t AMediaCodec_queueSecureInputBuffer( AMediaCodec* codec, size_t idx, off_t offset, AMediaCodecCryptoInfo* crypto, uint64_t time, uint32_t flags) { CryptoPlugin::SubSample *subSamples = new CryptoPlugin::SubSample[crypto->numsubsamples]; for (int i = 0; i < crypto->numsubsamples; i++) { subSamples[i].mNumBytesOfClearData = crypto->clearbytes[i]; subSamples[i].mNumBytesOfEncryptedData = crypto->encryptedbytes[i]; } CryptoPlugin::Pattern pattern; pattern.mEncryptBlocks = crypto->pattern.encryptBlocks; pattern.mSkipBlocks = crypto->pattern.skipBlocks; AString errormsg; status_t err = codec->mCodec->queueSecureInputBuffer(idx, offset, subSamples, crypto->numsubsamples, crypto->key, crypto->iv, (CryptoPlugin::Mode)crypto->mode, pattern, time, flags, &errormsg); if (err != 0) { ALOGE("queSecureInputBuffer: %s", errormsg.c_str()); } delete [] subSamples; return translate_error(err); } EXPORT bool AMediaCodecActionCode_isRecoverable(int32_t actionCode) { return (actionCode == ACTION_CODE_RECOVERABLE); } EXPORT bool AMediaCodecActionCode_isTransient(int32_t actionCode) { return (actionCode == ACTION_CODE_TRANSIENT); } EXPORT void AMediaCodecCryptoInfo_setPattern(AMediaCodecCryptoInfo *info, cryptoinfo_pattern_t *pattern) { info->pattern.encryptBlocks = pattern->encryptBlocks; info->pattern.skipBlocks = pattern->skipBlocks; } EXPORT AMediaCodecCryptoInfo *AMediaCodecCryptoInfo_new( int numsubsamples, uint8_t key[16], uint8_t iv[16], cryptoinfo_mode_t mode, size_t *clearbytes, size_t *encryptedbytes) { // size needed to store all the crypto data size_t cryptosize; // = sizeof(AMediaCodecCryptoInfo) + sizeof(size_t) * numsubsamples * 2; if (__builtin_mul_overflow(sizeof(size_t) * 2, numsubsamples, &cryptosize) || __builtin_add_overflow(cryptosize, sizeof(AMediaCodecCryptoInfo), &cryptosize)) { ALOGE("crypto size overflow"); return NULL; } AMediaCodecCryptoInfo *ret = (AMediaCodecCryptoInfo*) malloc(cryptosize); if (!ret) { ALOGE("couldn't allocate %zu bytes", cryptosize); return NULL; } ret->numsubsamples = numsubsamples; memcpy(ret->key, key, 16); memcpy(ret->iv, iv, 16); ret->mode = mode; ret->pattern.encryptBlocks = 0; ret->pattern.skipBlocks = 0; // clearbytes and encryptedbytes point at the actual data, which follows ret->clearbytes = (size_t*) (ret + 1); // point immediately after the struct ret->encryptedbytes = ret->clearbytes + numsubsamples; // point after the clear sizes memcpy(ret->clearbytes, clearbytes, numsubsamples * sizeof(size_t)); memcpy(ret->encryptedbytes, encryptedbytes, numsubsamples * sizeof(size_t)); return ret; } EXPORT media_status_t AMediaCodecCryptoInfo_delete(AMediaCodecCryptoInfo* info) { free(info); return AMEDIA_OK; } EXPORT size_t AMediaCodecCryptoInfo_getNumSubSamples(AMediaCodecCryptoInfo* ci) { return ci->numsubsamples; } EXPORT media_status_t AMediaCodecCryptoInfo_getKey(AMediaCodecCryptoInfo* ci, uint8_t *dst) { if (!ci) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!dst) { return AMEDIA_ERROR_INVALID_PARAMETER; } memcpy(dst, ci->key, 16); return AMEDIA_OK; } EXPORT media_status_t AMediaCodecCryptoInfo_getIV(AMediaCodecCryptoInfo* ci, uint8_t *dst) { if (!ci) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!dst) { return AMEDIA_ERROR_INVALID_PARAMETER; } memcpy(dst, ci->iv, 16); return AMEDIA_OK; } EXPORT cryptoinfo_mode_t AMediaCodecCryptoInfo_getMode(AMediaCodecCryptoInfo* ci) { if (!ci) { return (cryptoinfo_mode_t) AMEDIA_ERROR_INVALID_OBJECT; } return ci->mode; } EXPORT media_status_t AMediaCodecCryptoInfo_getClearBytes(AMediaCodecCryptoInfo* ci, size_t *dst) { if (!ci) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!dst) { return AMEDIA_ERROR_INVALID_PARAMETER; } memcpy(dst, ci->clearbytes, sizeof(size_t) * ci->numsubsamples); return AMEDIA_OK; } EXPORT media_status_t AMediaCodecCryptoInfo_getEncryptedBytes(AMediaCodecCryptoInfo* ci, size_t *dst) { if (!ci) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!dst) { return AMEDIA_ERROR_INVALID_PARAMETER; } memcpy(dst, ci->encryptedbytes, sizeof(size_t) * ci->numsubsamples); return AMEDIA_OK; } EXPORT const char* AMEDIACODEC_KEY_HDR10_PLUS_INFO = AMEDIAFORMAT_KEY_HDR10_PLUS_INFO; EXPORT const char* AMEDIACODEC_KEY_LOW_LATENCY = AMEDIAFORMAT_KEY_LOW_LATENCY; EXPORT const char* AMEDIACODEC_KEY_OFFSET_TIME = "time-offset-us"; EXPORT const char* AMEDIACODEC_KEY_REQUEST_SYNC_FRAME = "request-sync"; EXPORT const char* AMEDIACODEC_KEY_SUSPEND = "drop-input-frames"; EXPORT const char* AMEDIACODEC_KEY_SUSPEND_TIME = "drop-start-time-us"; EXPORT const char* AMEDIACODEC_KEY_VIDEO_BITRATE = "video-bitrate"; } // extern "C"