/* * Copyright (C) 2009 The Android Open Source Project * Copyright (C) 2013 Mozilla Foundation * * 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 "nsDebug.h" #define DOM_CAMERA_LOG_LEVEL 3 #include "CameraCommon.h" #include "GonkCameraSource.h" #include "GonkRecorder.h" #define RE_LOGD(fmt, ...) DOM_CAMERA_LOGA("[%s:%d]" fmt,__FILE__,__LINE__, ## __VA_ARGS__) #define RE_LOGV(fmt, ...) DOM_CAMERA_LOGI("[%s:%d]" fmt,__FILE__,__LINE__, ## __VA_ARGS__) #define RE_LOGI(fmt, ...) DOM_CAMERA_LOGI("[%s:%d]" fmt,__FILE__,__LINE__, ## __VA_ARGS__) #define RE_LOGW(fmt, ...) DOM_CAMERA_LOGW("[%s:%d]" fmt,__FILE__,__LINE__, ## __VA_ARGS__) #define RE_LOGE(fmt, ...) DOM_CAMERA_LOGE("[%s:%d]" fmt,__FILE__,__LINE__, ## __VA_ARGS__) #include #if defined(MOZ_WIDGET_GONK) && ANDROID_VERSION >= 18 # include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace android { GonkRecorder::GonkRecorder() : mWriter(NULL), mOutputFd(-1), mAudioSource(AUDIO_SOURCE_CNT), mVideoSource(VIDEO_SOURCE_LIST_END), mStarted(false) { RE_LOGV("Constructor"); reset(); } GonkRecorder::~GonkRecorder() { RE_LOGV("Destructor"); stop(); } status_t GonkRecorder::init() { RE_LOGV("init"); return OK; } status_t GonkRecorder::setAudioSource(audio_source_t as) { RE_LOGV("setAudioSource: %d", as); if (as < AUDIO_SOURCE_DEFAULT || as >= AUDIO_SOURCE_CNT) { RE_LOGE("Invalid audio source: %d", as); return BAD_VALUE; } if (as == AUDIO_SOURCE_DEFAULT) { mAudioSource = AUDIO_SOURCE_MIC; } else { mAudioSource = as; } return OK; } status_t GonkRecorder::setVideoSource(video_source vs) { RE_LOGV("setVideoSource: %d", vs); if (vs < VIDEO_SOURCE_DEFAULT || vs >= VIDEO_SOURCE_LIST_END) { RE_LOGE("Invalid video source: %d", vs); return BAD_VALUE; } if (vs == VIDEO_SOURCE_DEFAULT) { mVideoSource = VIDEO_SOURCE_CAMERA; } else { mVideoSource = vs; } return OK; } status_t GonkRecorder::setOutputFormat(output_format of) { RE_LOGV("setOutputFormat: %d", of); if (of < OUTPUT_FORMAT_DEFAULT || of >= OUTPUT_FORMAT_LIST_END) { RE_LOGE("Invalid output format: %d", of); return BAD_VALUE; } if (of == OUTPUT_FORMAT_DEFAULT) { mOutputFormat = OUTPUT_FORMAT_THREE_GPP; } else { mOutputFormat = of; } return OK; } status_t GonkRecorder::setAudioEncoder(audio_encoder ae) { RE_LOGV("setAudioEncoder: %d", ae); if (ae < AUDIO_ENCODER_DEFAULT || ae >= AUDIO_ENCODER_LIST_END) { RE_LOGE("Invalid audio encoder: %d", ae); return BAD_VALUE; } if (ae == AUDIO_ENCODER_DEFAULT) { mAudioEncoder = AUDIO_ENCODER_AMR_NB; } else { mAudioEncoder = ae; } return OK; } status_t GonkRecorder::setVideoEncoder(video_encoder ve) { RE_LOGV("setVideoEncoder: %d", ve); if (ve < VIDEO_ENCODER_DEFAULT || ve >= VIDEO_ENCODER_LIST_END) { RE_LOGE("Invalid video encoder: %d", ve); return BAD_VALUE; } if (ve == VIDEO_ENCODER_DEFAULT) { mVideoEncoder = VIDEO_ENCODER_H263; } else { mVideoEncoder = ve; } return OK; } status_t GonkRecorder::setVideoSize(int width, int height) { RE_LOGV("setVideoSize: %dx%d", width, height); if (width <= 0 || height <= 0) { RE_LOGE("Invalid video size: %dx%d", width, height); return BAD_VALUE; } // Additional check on the dimension will be performed later mVideoWidth = width; mVideoHeight = height; return OK; } status_t GonkRecorder::setVideoFrameRate(int frames_per_second) { RE_LOGV("setVideoFrameRate: %d", frames_per_second); if ((frames_per_second <= 0 && frames_per_second != -1) || frames_per_second > 120) { RE_LOGE("Invalid video frame rate: %d", frames_per_second); return BAD_VALUE; } // Additional check on the frame rate will be performed later mFrameRate = frames_per_second; return OK; } status_t GonkRecorder::setOutputFile(const char *path) { RE_LOGE("setOutputFile(const char*) must not be called"); // We don't actually support this at all, as the media_server process // no longer has permissions to create files. return -EPERM; } status_t GonkRecorder::setOutputFile(int fd, int64_t offset, int64_t length) { RE_LOGV("setOutputFile: %d, %lld, %lld", fd, offset, length); // These don't make any sense, do they? CHECK_EQ(offset, 0ll); CHECK_EQ(length, 0ll); if (fd < 0) { RE_LOGE("Invalid file descriptor: %d", fd); return -EBADF; } if (mOutputFd >= 0) { ::close(mOutputFd); } mOutputFd = dup(fd); return OK; } // Attempt to parse an int64 literal optionally surrounded by whitespace, // returns true on success, false otherwise. static bool safe_strtoi64(const char *s, int64_t *val) { char *end; // It is lame, but according to man page, we have to set errno to 0 // before calling strtoll(). errno = 0; *val = strtoll(s, &end, 10); if (end == s || errno == ERANGE) { return false; } // Skip trailing whitespace while (isspace(*end)) { ++end; } // For a successful return, the string must contain nothing but a valid // int64 literal optionally surrounded by whitespace. return *end == '\0'; } // Return true if the value is in [0, 0x007FFFFFFF] static bool safe_strtoi32(const char *s, int32_t *val) { int64_t temp; if (safe_strtoi64(s, &temp)) { if (temp >= 0 && temp <= 0x007FFFFFFF) { *val = static_cast(temp); return true; } } return false; } // Trim both leading and trailing whitespace from the given string. static void TrimString(String8 *s) { size_t num_bytes = s->bytes(); const char *data = s->string(); size_t leading_space = 0; while (leading_space < num_bytes && isspace(data[leading_space])) { ++leading_space; } size_t i = num_bytes; while (i > leading_space && isspace(data[i - 1])) { --i; } s->setTo(String8(&data[leading_space], i - leading_space)); } status_t GonkRecorder::setParamAudioSamplingRate(int32_t sampleRate) { RE_LOGV("setParamAudioSamplingRate: %d", sampleRate); if (sampleRate <= 0) { RE_LOGE("Invalid audio sampling rate: %d", sampleRate); return BAD_VALUE; } // Additional check on the sample rate will be performed later. mSampleRate = sampleRate; return OK; } status_t GonkRecorder::setParamAudioNumberOfChannels(int32_t channels) { RE_LOGV("setParamAudioNumberOfChannels: %d", channels); if (channels <= 0 || channels >= 3) { RE_LOGE("Invalid number of audio channels: %d", channels); return BAD_VALUE; } // Additional check on the number of channels will be performed later. mAudioChannels = channels; return OK; } status_t GonkRecorder::setParamAudioEncodingBitRate(int32_t bitRate) { RE_LOGV("setParamAudioEncodingBitRate: %d", bitRate); if (bitRate <= 0) { RE_LOGE("Invalid audio encoding bit rate: %d", bitRate); return BAD_VALUE; } // The target bit rate may not be exactly the same as the requested. // It depends on many factors, such as rate control, and the bit rate // range that a specific encoder supports. The mismatch between the // the target and requested bit rate will NOT be treated as an error. mAudioBitRate = bitRate; return OK; } status_t GonkRecorder::setParamVideoEncodingBitRate(int32_t bitRate) { RE_LOGV("setParamVideoEncodingBitRate: %d", bitRate); if (bitRate <= 0) { RE_LOGE("Invalid video encoding bit rate: %d", bitRate); return BAD_VALUE; } // The target bit rate may not be exactly the same as the requested. // It depends on many factors, such as rate control, and the bit rate // range that a specific encoder supports. The mismatch between the // the target and requested bit rate will NOT be treated as an error. mVideoBitRate = bitRate; return OK; } // Always rotate clockwise, and only support 0, 90, 180 and 270 for now. status_t GonkRecorder::setParamVideoRotation(int32_t degrees) { RE_LOGV("setParamVideoRotation: %d", degrees); if (degrees < 0 || degrees % 90 != 0) { RE_LOGE("Unsupported video rotation angle: %d", degrees); return BAD_VALUE; } mRotationDegrees = degrees % 360; return OK; } status_t GonkRecorder::setParamMaxFileDurationUs(int64_t timeUs) { RE_LOGV("setParamMaxFileDurationUs: %lld us", timeUs); // This is meant for backward compatibility for MediaRecorder.java if (timeUs <= 0) { RE_LOGW("Max file duration is not positive: %lld us. Disabling duration limit.", timeUs); timeUs = 0; // Disable the duration limit for zero or negative values. } else if (timeUs <= 100000LL) { // XXX: 100 milli-seconds RE_LOGE("Max file duration is too short: %lld us", timeUs); return BAD_VALUE; } if (timeUs <= 15 * 1000000LL) { RE_LOGW("Target duration (%lld us) too short to be respected", timeUs); } mMaxFileDurationUs = timeUs; return OK; } status_t GonkRecorder::setParamMaxFileSizeBytes(int64_t bytes) { RE_LOGV("setParamMaxFileSizeBytes: %lld bytes", bytes); // This is meant for backward compatibility for MediaRecorder.java if (bytes <= 0) { RE_LOGW("Max file size is not positive: %lld bytes. " "Disabling file size limit.", bytes); bytes = 0; // Disable the file size limit for zero or negative values. } else if (bytes <= 1024) { // XXX: 1 kB RE_LOGE("Max file size is too small: %lld bytes", bytes); return BAD_VALUE; } if (bytes <= 100 * 1024) { RE_LOGW("Target file size (%lld bytes) is too small to be respected", bytes); } mMaxFileSizeBytes = bytes; return OK; } status_t GonkRecorder::setParamInterleaveDuration(int32_t durationUs) { RE_LOGV("setParamInterleaveDuration: %d", durationUs); if (durationUs <= 500000) { // 500 ms // If interleave duration is too small, it is very inefficient to do // interleaving since the metadata overhead will count for a significant // portion of the saved contents RE_LOGE("Audio/video interleave duration is too small: %d us", durationUs); return BAD_VALUE; } else if (durationUs >= 10000000) { // 10 seconds // If interleaving duration is too large, it can cause the recording // session to use too much memory since we have to save the output // data before we write them out RE_LOGE("Audio/video interleave duration is too large: %d us", durationUs); return BAD_VALUE; } mInterleaveDurationUs = durationUs; return OK; } // If seconds < 0, only the first frame is I frame, and rest are all P frames // If seconds == 0, all frames are encoded as I frames. No P frames // If seconds > 0, it is the time spacing (seconds) between 2 neighboring I frames status_t GonkRecorder::setParamVideoIFramesInterval(int32_t seconds) { RE_LOGV("setParamVideoIFramesInterval: %d seconds", seconds); mIFramesIntervalSec = seconds; return OK; } status_t GonkRecorder::setParam64BitFileOffset(bool use64Bit) { RE_LOGV("setParam64BitFileOffset: %s", use64Bit? "use 64 bit file offset": "use 32 bit file offset"); mUse64BitFileOffset = use64Bit; return OK; } status_t GonkRecorder::setParamVideoCameraId(int32_t cameraId) { RE_LOGV("setParamVideoCameraId: %d", cameraId); if (cameraId < 0) { return BAD_VALUE; } mCameraId = cameraId; return OK; } status_t GonkRecorder::setParamTrackTimeStatus(int64_t timeDurationUs) { RE_LOGV("setParamTrackTimeStatus: %lld", timeDurationUs); if (timeDurationUs < 20000) { // Infeasible if shorter than 20 ms? RE_LOGE("Tracking time duration too short: %lld us", timeDurationUs); return BAD_VALUE; } mTrackEveryTimeDurationUs = timeDurationUs; return OK; } status_t GonkRecorder::setParamVideoEncoderProfile(int32_t profile) { RE_LOGV("setParamVideoEncoderProfile: %d", profile); // Additional check will be done later when we load the encoder. // For now, we are accepting values defined in OpenMAX IL. mVideoEncoderProfile = profile; return OK; } status_t GonkRecorder::setParamVideoEncoderLevel(int32_t level) { RE_LOGV("setParamVideoEncoderLevel: %d", level); // Additional check will be done later when we load the encoder. // For now, we are accepting values defined in OpenMAX IL. mVideoEncoderLevel = level; return OK; } status_t GonkRecorder::setParamMovieTimeScale(int32_t timeScale) { RE_LOGV("setParamMovieTimeScale: %d", timeScale); // The range is set to be the same as the audio's time scale range // since audio's time scale has a wider range. if (timeScale < 600 || timeScale > 96000) { RE_LOGE("Time scale (%d) for movie is out of range [600, 96000]", timeScale); return BAD_VALUE; } mMovieTimeScale = timeScale; return OK; } status_t GonkRecorder::setParamVideoTimeScale(int32_t timeScale) { RE_LOGV("setParamVideoTimeScale: %d", timeScale); // 60000 is chosen to make sure that each video frame from a 60-fps // video has 1000 ticks. if (timeScale < 600 || timeScale > 60000) { RE_LOGE("Time scale (%d) for video is out of range [600, 60000]", timeScale); return BAD_VALUE; } mVideoTimeScale = timeScale; return OK; } status_t GonkRecorder::setParamAudioTimeScale(int32_t timeScale) { RE_LOGV("setParamAudioTimeScale: %d", timeScale); // 96000 Hz is the highest sampling rate support in AAC. if (timeScale < 600 || timeScale > 96000) { RE_LOGE("Time scale (%d) for audio is out of range [600, 96000]", timeScale); return BAD_VALUE; } mAudioTimeScale = timeScale; return OK; } status_t GonkRecorder::setParamGeoDataLongitude( int64_t longitudex10000) { if (longitudex10000 > 1800000 || longitudex10000 < -1800000) { return BAD_VALUE; } mLongitudex10000 = longitudex10000; return OK; } status_t GonkRecorder::setParamGeoDataLatitude( int64_t latitudex10000) { if (latitudex10000 > 900000 || latitudex10000 < -900000) { return BAD_VALUE; } mLatitudex10000 = latitudex10000; return OK; } status_t GonkRecorder::setParameter( const String8 &key, const String8 &value) { RE_LOGV("setParameter: key (%s) => value (%s)", key.string(), value.string()); if (key == "max-duration") { int64_t max_duration_ms; if (safe_strtoi64(value.string(), &max_duration_ms)) { return setParamMaxFileDurationUs(1000LL * max_duration_ms); } } else if (key == "max-filesize") { int64_t max_filesize_bytes; if (safe_strtoi64(value.string(), &max_filesize_bytes)) { return setParamMaxFileSizeBytes(max_filesize_bytes); } } else if (key == "interleave-duration-us") { int32_t durationUs; if (safe_strtoi32(value.string(), &durationUs)) { return setParamInterleaveDuration(durationUs); } } else if (key == "param-movie-time-scale") { int32_t timeScale; if (safe_strtoi32(value.string(), &timeScale)) { return setParamMovieTimeScale(timeScale); } } else if (key == "param-use-64bit-offset") { int32_t use64BitOffset; if (safe_strtoi32(value.string(), &use64BitOffset)) { return setParam64BitFileOffset(use64BitOffset != 0); } } else if (key == "param-geotag-longitude") { int64_t longitudex10000; if (safe_strtoi64(value.string(), &longitudex10000)) { return setParamGeoDataLongitude(longitudex10000); } } else if (key == "param-geotag-latitude") { int64_t latitudex10000; if (safe_strtoi64(value.string(), &latitudex10000)) { return setParamGeoDataLatitude(latitudex10000); } } else if (key == "param-track-time-status") { int64_t timeDurationUs; if (safe_strtoi64(value.string(), &timeDurationUs)) { return setParamTrackTimeStatus(timeDurationUs); } } else if (key == "audio-param-sampling-rate") { int32_t sampling_rate; if (safe_strtoi32(value.string(), &sampling_rate)) { return setParamAudioSamplingRate(sampling_rate); } } else if (key == "audio-param-number-of-channels") { int32_t number_of_channels; if (safe_strtoi32(value.string(), &number_of_channels)) { return setParamAudioNumberOfChannels(number_of_channels); } } else if (key == "audio-param-encoding-bitrate") { int32_t audio_bitrate; if (safe_strtoi32(value.string(), &audio_bitrate)) { return setParamAudioEncodingBitRate(audio_bitrate); } } else if (key == "audio-param-time-scale") { int32_t timeScale; if (safe_strtoi32(value.string(), &timeScale)) { return setParamAudioTimeScale(timeScale); } } else if (key == "video-param-encoding-bitrate") { int32_t video_bitrate; if (safe_strtoi32(value.string(), &video_bitrate)) { return setParamVideoEncodingBitRate(video_bitrate); } } else if (key == "video-param-rotation-angle-degrees") { int32_t degrees; if (safe_strtoi32(value.string(), °rees)) { return setParamVideoRotation(degrees); } } else if (key == "video-param-i-frames-interval") { int32_t seconds; if (safe_strtoi32(value.string(), &seconds)) { return setParamVideoIFramesInterval(seconds); } } else if (key == "video-param-encoder-profile") { int32_t profile; if (safe_strtoi32(value.string(), &profile)) { return setParamVideoEncoderProfile(profile); } } else if (key == "video-param-encoder-level") { int32_t level; if (safe_strtoi32(value.string(), &level)) { return setParamVideoEncoderLevel(level); } } else if (key == "video-param-camera-id") { int32_t cameraId; if (safe_strtoi32(value.string(), &cameraId)) { return setParamVideoCameraId(cameraId); } } else if (key == "video-param-time-scale") { int32_t timeScale; if (safe_strtoi32(value.string(), &timeScale)) { return setParamVideoTimeScale(timeScale); } } else { RE_LOGE("setParameter: failed to find key %s", key.string()); } return BAD_VALUE; } status_t GonkRecorder::setParameters(const String8 ¶ms) { RE_LOGV("setParameters: %s", params.string()); const char *cparams = params.string(); const char *key_start = cparams; for (;;) { const char *equal_pos = strchr(key_start, '='); if (equal_pos == NULL) { RE_LOGE("Parameters %s miss a value", cparams); return BAD_VALUE; } String8 key(key_start, equal_pos - key_start); TrimString(&key); if (key.length() == 0) { RE_LOGE("Parameters %s contains an empty key", cparams); return BAD_VALUE; } const char *value_start = equal_pos + 1; const char *semicolon_pos = strchr(value_start, ';'); String8 value; if (semicolon_pos == NULL) { value.setTo(value_start); } else { value.setTo(value_start, semicolon_pos - value_start); } if (setParameter(key, value) != OK) { return BAD_VALUE; } if (semicolon_pos == NULL) { break; // Reaches the end } key_start = semicolon_pos + 1; } return OK; } status_t GonkRecorder::setListener(const sp &listener) { mListener = listener; return OK; } status_t GonkRecorder::setClientName(const String16& clientName) { mClientName = clientName; return OK; } status_t GonkRecorder::prepare() { return OK; } status_t GonkRecorder::start() { CHECK_GE(mOutputFd, 0); // Get UID here for permission checking mClientUid = IPCThreadState::self()->getCallingUid(); if (mWriter != NULL) { RE_LOGE("File writer is not avaialble"); return UNKNOWN_ERROR; } status_t status = OK; switch (mOutputFormat) { case OUTPUT_FORMAT_DEFAULT: case OUTPUT_FORMAT_THREE_GPP: case OUTPUT_FORMAT_MPEG_4: status = startMPEG4Recording(); break; case OUTPUT_FORMAT_AMR_NB: case OUTPUT_FORMAT_AMR_WB: status = startAMRRecording(); break; #if defined(MOZ_WIDGET_GONK) && ANDROID_VERSION >= 18 case OUTPUT_FORMAT_AAC_ADIF: case OUTPUT_FORMAT_AAC_ADTS: status = startAACRecording(); break; #endif case OUTPUT_FORMAT_RTP_AVP: status = startRTPRecording(); break; case OUTPUT_FORMAT_MPEG2TS: status = startMPEG2TSRecording(); break; default: RE_LOGE("Unsupported output file format: %d", mOutputFormat); status = UNKNOWN_ERROR; break; } if ((status == OK) && (!mStarted)) { mStarted = true; } return status; } sp GonkRecorder::createAudioSource() { sp audioSource = new AudioSource( mAudioSource, mSampleRate, mAudioChannels); status_t err = audioSource->initCheck(); if (err != OK) { RE_LOGE("audio source is not initialized"); return NULL; } sp encMeta = new MetaData; const char *mime; switch (mAudioEncoder) { case AUDIO_ENCODER_AMR_NB: case AUDIO_ENCODER_DEFAULT: mime = MEDIA_MIMETYPE_AUDIO_AMR_NB; break; case AUDIO_ENCODER_AMR_WB: mime = MEDIA_MIMETYPE_AUDIO_AMR_WB; break; #if defined(MOZ_WIDGET_GONK) && ANDROID_VERSION >= 18 case AUDIO_ENCODER_AAC: mime = MEDIA_MIMETYPE_AUDIO_AAC; encMeta->setInt32(kKeyAACProfile, OMX_AUDIO_AACObjectLC); break; case AUDIO_ENCODER_HE_AAC: mime = MEDIA_MIMETYPE_AUDIO_AAC; encMeta->setInt32(kKeyAACProfile, OMX_AUDIO_AACObjectHE); break; case AUDIO_ENCODER_AAC_ELD: mime = MEDIA_MIMETYPE_AUDIO_AAC; encMeta->setInt32(kKeyAACProfile, OMX_AUDIO_AACObjectELD); break; #endif default: RE_LOGE("Unknown audio encoder: %d", mAudioEncoder); return NULL; } encMeta->setCString(kKeyMIMEType, mime); int32_t maxInputSize; CHECK(audioSource->getFormat()->findInt32( kKeyMaxInputSize, &maxInputSize)); encMeta->setInt32(kKeyMaxInputSize, maxInputSize); encMeta->setInt32(kKeyChannelCount, mAudioChannels); encMeta->setInt32(kKeySampleRate, mSampleRate); encMeta->setInt32(kKeyBitRate, mAudioBitRate); if (mAudioTimeScale > 0) { encMeta->setInt32(kKeyTimeScale, mAudioTimeScale); } // OMXClient::connect() always returns OK and abort's fatally if // it can't connect. OMXClient client; // CHECK_EQ causes an abort if the given condition fails. CHECK_EQ(client.connect(), (status_t)OK); sp audioEncoder = OMXCodec::Create(client.interface(), encMeta, true /* createEncoder */, audioSource); mAudioSourceNode = audioSource; return audioEncoder; } #if defined(MOZ_WIDGET_GONK) && ANDROID_VERSION >= 18 status_t GonkRecorder::startAACRecording() { // FIXME: // Add support for OUTPUT_FORMAT_AAC_ADIF CHECK_EQ(mOutputFormat, OUTPUT_FORMAT_AAC_ADTS); CHECK(mAudioEncoder == AUDIO_ENCODER_AAC || mAudioEncoder == AUDIO_ENCODER_HE_AAC || mAudioEncoder == AUDIO_ENCODER_AAC_ELD); CHECK(mAudioSource != AUDIO_SOURCE_CNT); mWriter = new AACWriter(mOutputFd); status_t status = startRawAudioRecording(); if (status != OK) { mWriter.clear(); mWriter = NULL; } return status; } #endif status_t GonkRecorder::startAMRRecording() { CHECK(mOutputFormat == OUTPUT_FORMAT_AMR_NB || mOutputFormat == OUTPUT_FORMAT_AMR_WB); if (mOutputFormat == OUTPUT_FORMAT_AMR_NB) { if (mAudioEncoder != AUDIO_ENCODER_DEFAULT && mAudioEncoder != AUDIO_ENCODER_AMR_NB) { RE_LOGE("Invalid encoder %d used for AMRNB recording", mAudioEncoder); return BAD_VALUE; } } else { // mOutputFormat must be OUTPUT_FORMAT_AMR_WB if (mAudioEncoder != AUDIO_ENCODER_AMR_WB) { RE_LOGE("Invlaid encoder %d used for AMRWB recording", mAudioEncoder); return BAD_VALUE; } } mWriter = new AMRWriter(mOutputFd); status_t status = startRawAudioRecording(); if (status != OK) { mWriter.clear(); mWriter = NULL; } return status; } status_t GonkRecorder::startRawAudioRecording() { if (mAudioSource >= AUDIO_SOURCE_CNT) { RE_LOGE("Invalid audio source: %d", mAudioSource); return BAD_VALUE; } status_t status = BAD_VALUE; if (OK != (status = checkAudioEncoderCapabilities())) { return status; } sp audioEncoder = createAudioSource(); if (audioEncoder == NULL) { return UNKNOWN_ERROR; } CHECK(mWriter != 0); mWriter->addSource(audioEncoder); if (mMaxFileDurationUs != 0) { mWriter->setMaxFileDuration(mMaxFileDurationUs); } if (mMaxFileSizeBytes != 0) { mWriter->setMaxFileSize(mMaxFileSizeBytes); } mWriter->setListener(mListener); mWriter->start(); return OK; } status_t GonkRecorder::startRTPRecording() { return INVALID_OPERATION; } status_t GonkRecorder::startMPEG2TSRecording() { CHECK_EQ(mOutputFormat, OUTPUT_FORMAT_MPEG2TS); sp writer = new MPEG2TSWriter(mOutputFd); if (mAudioSource != AUDIO_SOURCE_CNT) { #if defined(MOZ_WIDGET_GONK) && ANDROID_VERSION >= 18 if (mAudioEncoder != AUDIO_ENCODER_AAC && mAudioEncoder != AUDIO_ENCODER_HE_AAC && mAudioEncoder != AUDIO_ENCODER_AAC_ELD) { return ERROR_UNSUPPORTED; } #endif status_t err = setupAudioEncoder(writer); if (err != OK) { return err; } } if (mVideoSource < VIDEO_SOURCE_LIST_END) { if (mVideoEncoder != VIDEO_ENCODER_H264) { return ERROR_UNSUPPORTED; } sp mediaSource; status_t err = setupMediaSource(&mediaSource); if (err != OK) { return err; } sp encoder; err = setupVideoEncoder(mediaSource, mVideoBitRate, &encoder); if (err != OK) { return err; } writer->addSource(encoder); } if (mMaxFileDurationUs != 0) { writer->setMaxFileDuration(mMaxFileDurationUs); } if (mMaxFileSizeBytes != 0) { writer->setMaxFileSize(mMaxFileSizeBytes); } mWriter = writer; return mWriter->start(); } void GonkRecorder::clipVideoFrameRate() { RE_LOGV("clipVideoFrameRate: encoder %d", mVideoEncoder); int minFrameRate = mEncoderProfiles->getVideoEncoderParamByName( "enc.vid.fps.min", mVideoEncoder); int maxFrameRate = mEncoderProfiles->getVideoEncoderParamByName( "enc.vid.fps.max", mVideoEncoder); if (mFrameRate < minFrameRate && minFrameRate != -1) { RE_LOGW("Intended video encoding frame rate (%d fps) is too small" " and will be set to (%d fps)", mFrameRate, minFrameRate); mFrameRate = minFrameRate; } else if (mFrameRate > maxFrameRate && maxFrameRate != -1) { RE_LOGW("Intended video encoding frame rate (%d fps) is too large" " and will be set to (%d fps)", mFrameRate, maxFrameRate); mFrameRate = maxFrameRate; } } void GonkRecorder::clipVideoBitRate() { RE_LOGV("clipVideoBitRate: encoder %d", mVideoEncoder); int minBitRate = mEncoderProfiles->getVideoEncoderParamByName( "enc.vid.bps.min", mVideoEncoder); int maxBitRate = mEncoderProfiles->getVideoEncoderParamByName( "enc.vid.bps.max", mVideoEncoder); if (mVideoBitRate < minBitRate && minBitRate != -1) { RE_LOGW("Intended video encoding bit rate (%d bps) is too small" " and will be set to (%d bps)", mVideoBitRate, minBitRate); mVideoBitRate = minBitRate; } else if (mVideoBitRate > maxBitRate && maxBitRate != -1) { RE_LOGW("Intended video encoding bit rate (%d bps) is too large" " and will be set to (%d bps)", mVideoBitRate, maxBitRate); mVideoBitRate = maxBitRate; } } void GonkRecorder::clipVideoFrameWidth() { RE_LOGV("clipVideoFrameWidth: encoder %d", mVideoEncoder); int minFrameWidth = mEncoderProfiles->getVideoEncoderParamByName( "enc.vid.width.min", mVideoEncoder); int maxFrameWidth = mEncoderProfiles->getVideoEncoderParamByName( "enc.vid.width.max", mVideoEncoder); if (mVideoWidth < minFrameWidth && minFrameWidth != -1) { RE_LOGW("Intended video encoding frame width (%d) is too small" " and will be set to (%d)", mVideoWidth, minFrameWidth); mVideoWidth = minFrameWidth; } else if (mVideoWidth > maxFrameWidth && maxFrameWidth != -1) { RE_LOGW("Intended video encoding frame width (%d) is too large" " and will be set to (%d)", mVideoWidth, maxFrameWidth); mVideoWidth = maxFrameWidth; } } status_t GonkRecorder::checkVideoEncoderCapabilities() { // Dont clip for time lapse capture as encoder will have enough // time to encode because of slow capture rate of time lapse. clipVideoBitRate(); clipVideoFrameRate(); clipVideoFrameWidth(); clipVideoFrameHeight(); setDefaultProfileIfNecessary(); return OK; } // Set to use AVC baseline profile if the encoding parameters matches // CAMCORDER_QUALITY_LOW profile; this is for the sake of MMS service. void GonkRecorder::setDefaultProfileIfNecessary() { RE_LOGV("setDefaultProfileIfNecessary"); camcorder_quality quality = CAMCORDER_QUALITY_LOW; int64_t durationUs = mEncoderProfiles->getCamcorderProfileParamByName( "duration", mCameraId, quality) * 1000000LL; int fileFormat = mEncoderProfiles->getCamcorderProfileParamByName( "file.format", mCameraId, quality); int videoCodec = mEncoderProfiles->getCamcorderProfileParamByName( "vid.codec", mCameraId, quality); int videoBitRate = mEncoderProfiles->getCamcorderProfileParamByName( "vid.bps", mCameraId, quality); int videoFrameRate = mEncoderProfiles->getCamcorderProfileParamByName( "vid.fps", mCameraId, quality); int videoFrameWidth = mEncoderProfiles->getCamcorderProfileParamByName( "vid.width", mCameraId, quality); int videoFrameHeight = mEncoderProfiles->getCamcorderProfileParamByName( "vid.height", mCameraId, quality); int audioCodec = mEncoderProfiles->getCamcorderProfileParamByName( "aud.codec", mCameraId, quality); int audioBitRate = mEncoderProfiles->getCamcorderProfileParamByName( "aud.bps", mCameraId, quality); int audioSampleRate = mEncoderProfiles->getCamcorderProfileParamByName( "aud.hz", mCameraId, quality); int audioChannels = mEncoderProfiles->getCamcorderProfileParamByName( "aud.ch", mCameraId, quality); if (durationUs == mMaxFileDurationUs && fileFormat == mOutputFormat && videoCodec == mVideoEncoder && videoBitRate == mVideoBitRate && videoFrameRate == mFrameRate && videoFrameWidth == mVideoWidth && videoFrameHeight == mVideoHeight && audioCodec == mAudioEncoder && audioBitRate == mAudioBitRate && audioSampleRate == mSampleRate && audioChannels == mAudioChannels) { if (videoCodec == VIDEO_ENCODER_H264) { RE_LOGI("Force to use AVC baseline profile"); setParamVideoEncoderProfile(OMX_VIDEO_AVCProfileBaseline); } } } status_t GonkRecorder::checkAudioEncoderCapabilities() { clipAudioBitRate(); clipAudioSampleRate(); clipNumberOfAudioChannels(); return OK; } void GonkRecorder::clipAudioBitRate() { RE_LOGV("clipAudioBitRate: encoder %d", mAudioEncoder); int minAudioBitRate = mEncoderProfiles->getAudioEncoderParamByName( "enc.aud.bps.min", mAudioEncoder); if (minAudioBitRate != -1 && mAudioBitRate < minAudioBitRate) { RE_LOGW("Intended audio encoding bit rate (%d) is too small" " and will be set to (%d)", mAudioBitRate, minAudioBitRate); mAudioBitRate = minAudioBitRate; } int maxAudioBitRate = mEncoderProfiles->getAudioEncoderParamByName( "enc.aud.bps.max", mAudioEncoder); if (maxAudioBitRate != -1 && mAudioBitRate > maxAudioBitRate) { RE_LOGW("Intended audio encoding bit rate (%d) is too large" " and will be set to (%d)", mAudioBitRate, maxAudioBitRate); mAudioBitRate = maxAudioBitRate; } } void GonkRecorder::clipAudioSampleRate() { RE_LOGV("clipAudioSampleRate: encoder %d", mAudioEncoder); int minSampleRate = mEncoderProfiles->getAudioEncoderParamByName( "enc.aud.hz.min", mAudioEncoder); if (minSampleRate != -1 && mSampleRate < minSampleRate) { RE_LOGW("Intended audio sample rate (%d) is too small" " and will be set to (%d)", mSampleRate, minSampleRate); mSampleRate = minSampleRate; } int maxSampleRate = mEncoderProfiles->getAudioEncoderParamByName( "enc.aud.hz.max", mAudioEncoder); if (maxSampleRate != -1 && mSampleRate > maxSampleRate) { RE_LOGW("Intended audio sample rate (%d) is too large" " and will be set to (%d)", mSampleRate, maxSampleRate); mSampleRate = maxSampleRate; } } void GonkRecorder::clipNumberOfAudioChannels() { RE_LOGV("clipNumberOfAudioChannels: encoder %d", mAudioEncoder); int minChannels = mEncoderProfiles->getAudioEncoderParamByName( "enc.aud.ch.min", mAudioEncoder); if (minChannels != -1 && mAudioChannels < minChannels) { RE_LOGW("Intended number of audio channels (%d) is too small" " and will be set to (%d)", mAudioChannels, minChannels); mAudioChannels = minChannels; } int maxChannels = mEncoderProfiles->getAudioEncoderParamByName( "enc.aud.ch.max", mAudioEncoder); if (maxChannels != -1 && mAudioChannels > maxChannels) { RE_LOGW("Intended number of audio channels (%d) is too large" " and will be set to (%d)", mAudioChannels, maxChannels); mAudioChannels = maxChannels; } } void GonkRecorder::clipVideoFrameHeight() { RE_LOGV("clipVideoFrameHeight: encoder %d", mVideoEncoder); int minFrameHeight = mEncoderProfiles->getVideoEncoderParamByName( "enc.vid.height.min", mVideoEncoder); int maxFrameHeight = mEncoderProfiles->getVideoEncoderParamByName( "enc.vid.height.max", mVideoEncoder); if (minFrameHeight != -1 && mVideoHeight < minFrameHeight) { RE_LOGW("Intended video encoding frame height (%d) is too small" " and will be set to (%d)", mVideoHeight, minFrameHeight); mVideoHeight = minFrameHeight; } else if (maxFrameHeight != -1 && mVideoHeight > maxFrameHeight) { RE_LOGW("Intended video encoding frame height (%d) is too large" " and will be set to (%d)", mVideoHeight, maxFrameHeight); mVideoHeight = maxFrameHeight; } } // Set up the appropriate MediaSource depending on the chosen option status_t GonkRecorder::setupMediaSource( sp *mediaSource) { if (mVideoSource == VIDEO_SOURCE_DEFAULT || mVideoSource == VIDEO_SOURCE_CAMERA) { sp cameraSource; status_t err = setupCameraSource(&cameraSource); if (err != OK) { return err; } *mediaSource = cameraSource; } else if (mVideoSource == VIDEO_SOURCE_GRALLOC_BUFFER) { return BAD_VALUE; } else { return INVALID_OPERATION; } return OK; } status_t GonkRecorder::setupCameraSource( sp *cameraSource) { status_t err = OK; if ((err = checkVideoEncoderCapabilities()) != OK) { return err; } Size videoSize; videoSize.width = mVideoWidth; videoSize.height = mVideoHeight; bool useMeta = true; char value[PROPERTY_VALUE_MAX]; if (property_get("debug.camcorder.disablemeta", value, NULL) && atoi(value)) { useMeta = false; } *cameraSource = GonkCameraSource::Create( mCameraHw, videoSize, mFrameRate, useMeta); if (*cameraSource == NULL) { return UNKNOWN_ERROR; } if ((*cameraSource)->initCheck() != OK) { (*cameraSource).clear(); *cameraSource = NULL; return NO_INIT; } // When frame rate is not set, the actual frame rate will be set to // the current frame rate being used. if (mFrameRate == -1) { int32_t frameRate = 0; CHECK ((*cameraSource)->getFormat()->findInt32( kKeyFrameRate, &frameRate)); RE_LOGI("Frame rate is not explicitly set. Use the current frame " "rate (%d fps)", frameRate); mFrameRate = frameRate; } CHECK(mFrameRate != -1); mIsMetaDataStoredInVideoBuffers = (*cameraSource)->isMetaDataStoredInVideoBuffers(); return OK; } status_t GonkRecorder::setupVideoEncoder( sp cameraSource, int32_t videoBitRate, sp *source) { source->clear(); sp enc_meta = new MetaData; enc_meta->setInt32(kKeyBitRate, videoBitRate); enc_meta->setInt32(kKeyFrameRate, mFrameRate); switch (mVideoEncoder) { case VIDEO_ENCODER_H263: enc_meta->setCString(kKeyMIMEType, MEDIA_MIMETYPE_VIDEO_H263); break; case VIDEO_ENCODER_MPEG_4_SP: enc_meta->setCString(kKeyMIMEType, MEDIA_MIMETYPE_VIDEO_MPEG4); break; case VIDEO_ENCODER_H264: enc_meta->setCString(kKeyMIMEType, MEDIA_MIMETYPE_VIDEO_AVC); break; default: CHECK(!"Should not be here, unsupported video encoding."); break; } sp meta = cameraSource->getFormat(); int32_t width, height, stride, sliceHeight, colorFormat; CHECK(meta->findInt32(kKeyWidth, &width)); CHECK(meta->findInt32(kKeyHeight, &height)); CHECK(meta->findInt32(kKeyStride, &stride)); CHECK(meta->findInt32(kKeySliceHeight, &sliceHeight)); CHECK(meta->findInt32(kKeyColorFormat, &colorFormat)); enc_meta->setInt32(kKeyWidth, width); enc_meta->setInt32(kKeyHeight, height); enc_meta->setInt32(kKeyIFramesInterval, mIFramesIntervalSec); enc_meta->setInt32(kKeyStride, stride); enc_meta->setInt32(kKeySliceHeight, sliceHeight); enc_meta->setInt32(kKeyColorFormat, colorFormat); if (mVideoTimeScale > 0) { enc_meta->setInt32(kKeyTimeScale, mVideoTimeScale); } if (mVideoEncoderProfile != -1) { enc_meta->setInt32(kKeyVideoProfile, mVideoEncoderProfile); } if (mVideoEncoderLevel != -1) { enc_meta->setInt32(kKeyVideoLevel, mVideoEncoderLevel); } // OMXClient::connect() always returns OK and abort's fatally if // it can't connect. OMXClient client; // CHECK_EQ causes an abort if the given condition fails. CHECK_EQ(client.connect(), (status_t)OK); uint32_t encoder_flags = 0; if (mIsMetaDataStoredInVideoBuffers) { encoder_flags |= OMXCodec::kStoreMetaDataInVideoBuffers; } sp encoder = OMXCodec::Create( client.interface(), enc_meta, true /* createEncoder */, cameraSource, NULL, encoder_flags); if (encoder == NULL) { RE_LOGW("Failed to create the encoder"); // When the encoder fails to be created, we need // release the camera source due to the camera's lock // and unlock mechanism. cameraSource->stop(); return UNKNOWN_ERROR; } *source = encoder; return OK; } status_t GonkRecorder::setupAudioEncoder(const sp& writer) { status_t status = BAD_VALUE; if (OK != (status = checkAudioEncoderCapabilities())) { return status; } switch(mAudioEncoder) { case AUDIO_ENCODER_AMR_NB: case AUDIO_ENCODER_AMR_WB: #if defined(MOZ_WIDGET_GONK) && ANDROID_VERSION >= 18 case AUDIO_ENCODER_AAC: case AUDIO_ENCODER_HE_AAC: case AUDIO_ENCODER_AAC_ELD: #endif break; default: RE_LOGE("Unsupported audio encoder: %d", mAudioEncoder); return UNKNOWN_ERROR; } sp audioEncoder = createAudioSource(); if (audioEncoder == NULL) { return UNKNOWN_ERROR; } writer->addSource(audioEncoder); return OK; } status_t GonkRecorder::setupMPEG4Recording( int outputFd, int32_t videoWidth, int32_t videoHeight, int32_t videoBitRate, int32_t *totalBitRate, sp *mediaWriter) { mediaWriter->clear(); *totalBitRate = 0; status_t err = OK; sp writer = new MPEG4Writer(outputFd); if (mVideoSource < VIDEO_SOURCE_LIST_END) { sp mediaSource; err = setupMediaSource(&mediaSource); if (err != OK) { return err; } sp encoder; err = setupVideoEncoder(mediaSource, videoBitRate, &encoder); if (err != OK) { return err; } writer->addSource(encoder); *totalBitRate += videoBitRate; } // Audio source is added at the end if it exists. // This help make sure that the "recoding" sound is suppressed for // camcorder applications in the recorded files. if (mAudioSource != AUDIO_SOURCE_CNT) { err = setupAudioEncoder(writer); if (err != OK) return err; *totalBitRate += mAudioBitRate; } if (mInterleaveDurationUs > 0) { reinterpret_cast(writer.get())-> setInterleaveDuration(mInterleaveDurationUs); } if (mLongitudex10000 > -3600000 && mLatitudex10000 > -3600000) { reinterpret_cast(writer.get())-> setGeoData(mLatitudex10000, mLongitudex10000); } if (mMaxFileDurationUs != 0) { writer->setMaxFileDuration(mMaxFileDurationUs); } if (mMaxFileSizeBytes != 0) { writer->setMaxFileSize(mMaxFileSizeBytes); } mStartTimeOffsetMs = mEncoderProfiles->getStartTimeOffsetMs(mCameraId); if (mStartTimeOffsetMs > 0) { reinterpret_cast(writer.get())-> setStartTimeOffsetMs(mStartTimeOffsetMs); } writer->setListener(mListener); *mediaWriter = writer; return OK; } void GonkRecorder::setupMPEG4MetaData(int64_t startTimeUs, int32_t totalBitRate, sp *meta) { (*meta)->setInt64(kKeyTime, startTimeUs); (*meta)->setInt32(kKeyFileType, mOutputFormat); (*meta)->setInt32(kKeyBitRate, totalBitRate); (*meta)->setInt32(kKey64BitFileOffset, mUse64BitFileOffset); if (mMovieTimeScale > 0) { (*meta)->setInt32(kKeyTimeScale, mMovieTimeScale); } if (mTrackEveryTimeDurationUs > 0) { (*meta)->setInt64(kKeyTrackTimeStatus, mTrackEveryTimeDurationUs); } char value[PROPERTY_VALUE_MAX]; if (property_get("debug.camcorder.rotation", value, 0) > 0 && atoi(value) >= 0) { mRotationDegrees = atoi(value); RE_LOGI("Setting rotation to %d", mRotationDegrees ); } if (mRotationDegrees != 0) { (*meta)->setInt32(kKeyRotation, mRotationDegrees); } } status_t GonkRecorder::startMPEG4Recording() { int32_t totalBitRate; status_t err = setupMPEG4Recording( mOutputFd, mVideoWidth, mVideoHeight, mVideoBitRate, &totalBitRate, &mWriter); if (err != OK) { return err; } //systemTime() doesn't give correct time because //HAVE_POSIX_CLOCKS is not defined for utils/Timers.cpp //so, using clock_gettime directly #include struct timespec t; clock_gettime(CLOCK_MONOTONIC, &t); int64_t startTimeUs = int64_t(t.tv_sec)*1000000000LL + t.tv_nsec; startTimeUs = startTimeUs / 1000; sp meta = new MetaData; setupMPEG4MetaData(startTimeUs, totalBitRate, &meta); err = mWriter->start(meta.get()); if (err != OK) { return err; } return OK; } status_t GonkRecorder::pause() { RE_LOGV("pause"); if (mWriter == NULL) { return UNKNOWN_ERROR; } mWriter->pause(); if (mStarted) { mStarted = false; } return OK; } status_t GonkRecorder::stop() { RE_LOGV("stop"); status_t err = OK; if (mWriter != NULL) { err = mWriter->stop(); mWriter.clear(); } if (mOutputFd >= 0) { ::close(mOutputFd); mOutputFd = -1; } if (mStarted) { mStarted = false; } return err; } status_t GonkRecorder::close() { RE_LOGV("close"); stop(); return OK; } status_t GonkRecorder::reset() { RE_LOGV("reset"); stop(); // No audio or video source by default mAudioSource = AUDIO_SOURCE_CNT; mVideoSource = VIDEO_SOURCE_LIST_END; // Default parameters mOutputFormat = OUTPUT_FORMAT_THREE_GPP; mAudioEncoder = AUDIO_ENCODER_AMR_NB; mVideoEncoder = VIDEO_ENCODER_H263; mVideoWidth = 176; mVideoHeight = 144; mFrameRate = -1; mVideoBitRate = 192000; mSampleRate = 8000; mAudioChannels = 1; mAudioBitRate = 12200; mInterleaveDurationUs = 0; mIFramesIntervalSec = 1; mAudioSourceNode = 0; mUse64BitFileOffset = false; mMovieTimeScale = -1; mAudioTimeScale = -1; mVideoTimeScale = -1; mCameraId = 0; mStartTimeOffsetMs = -1; mVideoEncoderProfile = -1; mVideoEncoderLevel = -1; mMaxFileDurationUs = 0; mMaxFileSizeBytes = 0; mTrackEveryTimeDurationUs = 0; mIsMetaDataStoredInVideoBuffers = false; mEncoderProfiles = MediaProfiles::getInstance(); mRotationDegrees = 0; mLatitudex10000 = -3600000; mLongitudex10000 = -3600000; mOutputFd = -1; mCameraHw.clear(); //TODO: May need to register a listener eventually //if someone is interested in recorder events for now //default to no listener registered mListener = NULL; return OK; } status_t GonkRecorder::getMaxAmplitude(int *max) { RE_LOGV("getMaxAmplitude"); if (max == NULL) { RE_LOGE("Null pointer argument"); return BAD_VALUE; } if (mAudioSourceNode != 0) { *max = mAudioSourceNode->getMaxAmplitude(); } else { *max = 0; } return OK; } status_t GonkRecorder::dump( int fd, const Vector& args) const { RE_LOGV("dump"); const size_t SIZE = 256; char buffer[SIZE]; String8 result; if (mWriter != 0) { mWriter->dump(fd, args); } else { snprintf(buffer, SIZE, " No file writer\n"); result.append(buffer); } snprintf(buffer, SIZE, " Recorder: %p\n", this); snprintf(buffer, SIZE, " Output file (fd %d):\n", mOutputFd); result.append(buffer); snprintf(buffer, SIZE, " File format: %d\n", mOutputFormat); result.append(buffer); snprintf(buffer, SIZE, " Max file size (bytes): %lld\n", mMaxFileSizeBytes); result.append(buffer); snprintf(buffer, SIZE, " Max file duration (us): %lld\n", mMaxFileDurationUs); result.append(buffer); snprintf(buffer, SIZE, " File offset length (bits): %d\n", mUse64BitFileOffset? 64: 32); result.append(buffer); snprintf(buffer, SIZE, " Interleave duration (us): %d\n", mInterleaveDurationUs); result.append(buffer); snprintf(buffer, SIZE, " Progress notification: %lld us\n", mTrackEveryTimeDurationUs); result.append(buffer); snprintf(buffer, SIZE, " Audio\n"); result.append(buffer); snprintf(buffer, SIZE, " Source: %d\n", mAudioSource); result.append(buffer); snprintf(buffer, SIZE, " Encoder: %d\n", mAudioEncoder); result.append(buffer); snprintf(buffer, SIZE, " Bit rate (bps): %d\n", mAudioBitRate); result.append(buffer); snprintf(buffer, SIZE, " Sampling rate (hz): %d\n", mSampleRate); result.append(buffer); snprintf(buffer, SIZE, " Number of channels: %d\n", mAudioChannels); result.append(buffer); snprintf(buffer, SIZE, " Max amplitude: %d\n", mAudioSourceNode == 0? 0: mAudioSourceNode->getMaxAmplitude()); result.append(buffer); snprintf(buffer, SIZE, " Video\n"); result.append(buffer); snprintf(buffer, SIZE, " Source: %d\n", mVideoSource); result.append(buffer); snprintf(buffer, SIZE, " Camera Id: %d\n", mCameraId); result.append(buffer); snprintf(buffer, SIZE, " Camera object address: %p\n", mCameraHw.get()); result.append(buffer); snprintf(buffer, SIZE, " Start time offset (ms): %d\n", mStartTimeOffsetMs); result.append(buffer); snprintf(buffer, SIZE, " Encoder: %d\n", mVideoEncoder); result.append(buffer); snprintf(buffer, SIZE, " Encoder profile: %d\n", mVideoEncoderProfile); result.append(buffer); snprintf(buffer, SIZE, " Encoder level: %d\n", mVideoEncoderLevel); result.append(buffer); snprintf(buffer, SIZE, " I frames interval (s): %d\n", mIFramesIntervalSec); result.append(buffer); snprintf(buffer, SIZE, " Frame size (pixels): %dx%d\n", mVideoWidth, mVideoHeight); result.append(buffer); snprintf(buffer, SIZE, " Frame rate (fps): %d\n", mFrameRate); result.append(buffer); snprintf(buffer, SIZE, " Bit rate (bps): %d\n", mVideoBitRate); result.append(buffer); ::write(fd, result.string(), result.size()); return OK; } status_t GonkRecorder::setCamera(const sp& aCameraHw) { mCameraHw = aCameraHw; return OK; } } // namespace android