十年网站开发经验 + 多家企业客户 + 靠谱的建站团队
量身定制 + 运营维护+专业推广+无忧售后,网站问题一站解决
前言
10年积累的网站设计、成都网站建设经验,可以快速应对客户对网站的新想法和需求。提供各种问题对应的解决方案。让选择我们的客户得到更好、更有力的网络服务。我虽然不认识你,你也不认识我。但先网站制作后付款的网站建设流程,更有榕城免费网站建设让你可以放心的选择与我们合作。
最近工作中遇到了音视频处理的需求,Android下音视频合成,在当前调研方案中主要有三大类方法:MediaMux硬解码,mp4parser,FFmepg。三种方法均可实现,但是也有不同的局限和问题,先将实现和问题记录于此,便于之后的总结学习。下面话不多说了,来一起看看详细的介绍吧。
方法一(Fail)
利用MediaMux实现音视频的合成。
效果:可以实现音视频的合并,利用Android原生的VideoView和SurfaceView播放正常,大部分的播放器也播放正常,但是,但是,在上传Youtube就会出现问题:音频不连续,分析主要是上传Youtube时会被再次的压缩,可能在压缩的过程中出现音频的帧率出现问题。
分析:在MediaCodec.BufferInfo的处理中,时间戳presentationTimeUs出现问题,导致Youtube的压缩造成音频的紊乱。
public static void muxVideoAndAudio(String videoPath, String audioPath, String muxPath) { try { MediaExtractor videoExtractor = new MediaExtractor(); videoExtractor.setDataSource(videoPath); MediaFormat videoFormat = null; int videoTrackIndex = -1; int videoTrackCount = videoExtractor.getTrackCount(); for (int i = 0; i < videoTrackCount; i++) { videoFormat = videoExtractor.getTrackFormat(i); String mimeType = videoFormat.getString(MediaFormat.KEY_MIME); if (mimeType.startsWith("video/")) { videoTrackIndex = i; break; } } MediaExtractor audioExtractor = new MediaExtractor(); audioExtractor.setDataSource(audioPath); MediaFormat audioFormat = null; int audioTrackIndex = -1; int audioTrackCount = audioExtractor.getTrackCount(); for (int i = 0; i < audioTrackCount; i++) { audioFormat = audioExtractor.getTrackFormat(i); String mimeType = audioFormat.getString(MediaFormat.KEY_MIME); if (mimeType.startsWith("audio/")) { audioTrackIndex = i; break; } } videoExtractor.selectTrack(videoTrackIndex); audioExtractor.selectTrack(audioTrackIndex); MediaCodec.BufferInfo videoBufferInfo = new MediaCodec.BufferInfo(); MediaCodec.BufferInfo audioBufferInfo = new MediaCodec.BufferInfo(); MediaMuxer mediaMuxer = new MediaMuxer(muxPath, MediaMuxer.OutputFormat.MUXER_OUTPUT_MPEG_4); int writeVideoTrackIndex = mediaMuxer.addTrack(videoFormat); int writeAudioTrackIndex = mediaMuxer.addTrack(audioFormat); mediaMuxer.start(); ByteBuffer byteBuffer = ByteBuffer.allocate(500 * 1024); long sampleTime = 0; { videoExtractor.readSampleData(byteBuffer, 0); if (videoExtractor.getSampleFlags() == MediaExtractor.SAMPLE_FLAG_SYNC) { videoExtractor.advance(); } videoExtractor.readSampleData(byteBuffer, 0); long secondTime = videoExtractor.getSampleTime(); videoExtractor.advance(); long thirdTime = videoExtractor.getSampleTime(); sampleTime = Math.abs(thirdTime - secondTime); } videoExtractor.unselectTrack(videoTrackIndex); videoExtractor.selectTrack(videoTrackIndex); while (true) { int readVideoSampleSize = videoExtractor.readSampleData(byteBuffer, 0); if (readVideoSampleSize < 0) { break; } videoBufferInfo.size = readVideoSampleSize; videoBufferInfo.presentationTimeUs += sampleTime; videoBufferInfo.offset = 0; //noinspection WrongConstant videoBufferInfo.flags = MediaCodec.BUFFER_FLAG_SYNC_FRAME;//videoExtractor.getSampleFlags() mediaMuxer.writeSampleData(writeVideoTrackIndex, byteBuffer, videoBufferInfo); videoExtractor.advance(); } while (true) { int readAudioSampleSize = audioExtractor.readSampleData(byteBuffer, 0); if (readAudioSampleSize < 0) { break; } audioBufferInfo.size = readAudioSampleSize; audioBufferInfo.presentationTimeUs += sampleTime; audioBufferInfo.offset = 0; //noinspection WrongConstant audioBufferInfo.flags = MediaCodec.BUFFER_FLAG_SYNC_FRAME;// videoExtractor.getSampleFlags() mediaMuxer.writeSampleData(writeAudioTrackIndex, byteBuffer, audioBufferInfo); audioExtractor.advance(); } mediaMuxer.stop(); mediaMuxer.release(); videoExtractor.release(); audioExtractor.release(); } catch (IOException e) { e.printStackTrace(); } }
方法二(Success)
public static void muxVideoAudio(String videoFilePath, String audioFilePath, String outputFile) { try { MediaExtractor videoExtractor = new MediaExtractor(); videoExtractor.setDataSource(videoFilePath); MediaExtractor audioExtractor = new MediaExtractor(); audioExtractor.setDataSource(audioFilePath); MediaMuxer muxer = new MediaMuxer(outputFile, MediaMuxer.OutputFormat.MUXER_OUTPUT_MPEG_4); videoExtractor.selectTrack(0); MediaFormat videoFormat = videoExtractor.getTrackFormat(0); int videoTrack = muxer.addTrack(videoFormat); audioExtractor.selectTrack(0); MediaFormat audioFormat = audioExtractor.getTrackFormat(0); int audioTrack = muxer.addTrack(audioFormat); LogUtil.d(TAG, "Video Format " + videoFormat.toString()); LogUtil.d(TAG, "Audio Format " + audioFormat.toString()); boolean sawEOS = false; int frameCount = 0; int offset = 100; int sampleSize = 256 * 1024; ByteBuffer videoBuf = ByteBuffer.allocate(sampleSize); ByteBuffer audioBuf = ByteBuffer.allocate(sampleSize); MediaCodec.BufferInfo videoBufferInfo = new MediaCodec.BufferInfo(); MediaCodec.BufferInfo audioBufferInfo = new MediaCodec.BufferInfo(); videoExtractor.seekTo(0, MediaExtractor.SEEK_TO_CLOSEST_SYNC); audioExtractor.seekTo(0, MediaExtractor.SEEK_TO_CLOSEST_SYNC); muxer.start(); while (!sawEOS) { videoBufferInfo.offset = offset; videoBufferInfo.size = videoExtractor.readSampleData(videoBuf, offset); if (videoBufferInfo.size < 0 || audioBufferInfo.size < 0) { sawEOS = true; videoBufferInfo.size = 0; } else { videoBufferInfo.presentationTimeUs = videoExtractor.getSampleTime(); //noinspection WrongConstant videoBufferInfo.flags = videoExtractor.getSampleFlags(); muxer.writeSampleData(videoTrack, videoBuf, videoBufferInfo); videoExtractor.advance(); frameCount++; } } boolean sawEOS2 = false; int frameCount2 = 0; while (!sawEOS2) { frameCount2++; audioBufferInfo.offset = offset; audioBufferInfo.size = audioExtractor.readSampleData(audioBuf, offset); if (videoBufferInfo.size < 0 || audioBufferInfo.size < 0) { sawEOS2 = true; audioBufferInfo.size = 0; } else { audioBufferInfo.presentationTimeUs = audioExtractor.getSampleTime(); //noinspection WrongConstant audioBufferInfo.flags = audioExtractor.getSampleFlags(); muxer.writeSampleData(audioTrack, audioBuf, audioBufferInfo); audioExtractor.advance(); } } muxer.stop(); muxer.release(); LogUtil.d(TAG,"Output: "+outputFile); } catch (IOException e) { LogUtil.d(TAG, "Mixer Error 1 " + e.getMessage()); } catch (Exception e) { LogUtil.d(TAG, "Mixer Error 2 " + e.getMessage()); } }
方法三
利用mp4parser实现
mp4parser是一个视频处理的开源工具箱,由于mp4parser里的方法都依靠工具箱里的一些内容,所以需要将这些内容打包成jar包,放到自己的工程里,才能对mp4parser的方法进行调用。
compile “com.googlecode.mp4parser:isoparser:1.1.21”
问题:上传Youtube压缩后,视频数据丢失严重,大部分就只剩下一秒钟的时长,相当于把视频变成图片了,囧
public boolean mux(String videoFile, String audioFile, final String outputFile) { if (isStopMux) { return false; } Movie video; try { video = MovieCreator.build(videoFile); } catch (RuntimeException e) { e.printStackTrace(); return false; } catch (IOException e) { e.printStackTrace(); return false; } Movie audio; try { audio = MovieCreator.build(audioFile); } catch (IOException e) { e.printStackTrace(); return false; } catch (NullPointerException e) { e.printStackTrace(); return false; } Track audioTrack = audio.getTracks().get(0); video.addTrack(audioTrack); Container out = new DefaultMp4Builder().build(video); FileOutputStream fos; try { fos = new FileOutputStream(outputFile); } catch (FileNotFoundException e) { e.printStackTrace(); return false; } BufferedWritableFileByteChannel byteBufferByteChannel = new BufferedWritableFileByteChannel(fos); try { out.writeContainer(byteBufferByteChannel); byteBufferByteChannel.close(); fos.close(); if (isStopMux) { return false; } runOnUiThread(new Runnable() { @Override public void run() { mCustomeProgressDialog.setProgress(100); goShareActivity(outputFile); // FileUtils.insertMediaDB(AddAudiosActivity.this,outputFile);// } }); } catch (IOException e) { e.printStackTrace(); if (mCustomeProgressDialog.isShowing()) { mCustomeProgressDialog.dismiss(); } ToastUtil.showShort(getString(R.string.process_failed)); return false; } return true; } private static class BufferedWritableFileByteChannel implements WritableByteChannel { private static final int BUFFER_CAPACITY = 2000000; private boolean isOpen = true; private final OutputStream outputStream; private final ByteBuffer byteBuffer; private final byte[] rawBuffer = new byte[BUFFER_CAPACITY]; private BufferedWritableFileByteChannel(OutputStream outputStream) { this.outputStream = outputStream; this.byteBuffer = ByteBuffer.wrap(rawBuffer); } @Override public int write(ByteBuffer inputBuffer) throws IOException { int inputBytes = inputBuffer.remaining(); if (inputBytes > byteBuffer.remaining()) { dumpToFile(); byteBuffer.clear(); if (inputBytes > byteBuffer.remaining()) { throw new BufferOverflowException(); } } byteBuffer.put(inputBuffer); return inputBytes; } @Override public boolean isOpen() { return isOpen; } @Override public void close() throws IOException { dumpToFile(); isOpen = false; } private void dumpToFile() { try { outputStream.write(rawBuffer, 0, byteBuffer.position()); } catch (IOException e) { throw new RuntimeException(e); } } }
方法四
利用FFmpeg大法
FFmpeg 由于其丰富的 codec 插件,详细的文档说明,并且与其调试复杂量大的编解码代码(是的,用 MediaCodec 实现起来十分啰嗦和繁琐)还是不如调试一行 ffmpeg 命令来的简单。
Merge Video /Audio and retain both audios
可以实现,兼容性强,但由于是软解码,合并速度很慢,忍受不了,而相应的FFmpeg优化还不太了解,囧…….
总结
以上就是这篇文章的全部内容了,希望本文的内容对大家的学习或者工作具有一定的参考学习价值,如果有疑问大家可以留言交流,谢谢大家对创新互联的支持。