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视音频数据处理入门:FLV封装格式解析
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视音频数据处理入门系列文章:
视音频数据处理入门:RGB、YUV像素数据处理
视音频数据处理入门:PCM音频採样数据处理
视音频数据处理入门:H.264视频码流解析
视音频数据处理入门:AAC音频码流解析
视音频数据处理入门:FLV封装格式解析
视音频数据处理入门:UDP-RTP协议解析
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前两篇文章介绍了音频码流处理程序和视频码流处理程序。本文介绍将他们打包到一起后的数据——封装格式数据的处理程序。封装格式数据在视频播放器中的位置例如以下所看到的。
原理
FLV封装格式是由一个FLV Header文件头和一个一个的Tag组成的。
Tag中包括了音频数据以及视频数据。FLV的结构例如以下图所看到的。
代码
整个程序位于simplest_flv_parser()函数中,例如以下所看到的。/** * 最简单的视音频数据处理演示样例 * Simplest MediaData Test * * 雷霄骅 Lei Xiaohua * leixiaohua1020@126.com * 中国传媒大学/数字电视技术 * Communication University of China / Digital TV Technology * http://blog.csdn.net/leixiaohua1020 * * 本项目包括例如以下几种视音频測试演示样例: * (1)像素数据处理程序。包括RGB和YUV像素格式处理的函数。 * (2)音频採样数据处理程序。包括PCM音频採样格式处理的函数。 * (3)H.264码流分析程序。能够分离并解析NALU。 * (4)AAC码流分析程序。能够分离并解析ADTS帧。 * (5)FLV封装格式分析程序。能够将FLV中的MP3音频码流分离出来。 * (6)UDP-RTP协议分析程序。能够将分析UDP/RTP/MPEG-TS数据包。 * * This project contains following samples to handling multimedia data: * (1) Video pixel data handling program. It contains several examples to handle RGB and YUV data. * (2) Audio sample data handling program. It contains several examples to handle PCM data. * (3) H.264 stream analysis program. It can parse H.264 bitstream and analysis NALU of stream. * (4) AAC stream analysis program. It can parse AAC bitstream and analysis ADTS frame of stream. * (5) FLV format analysis program. It can analysis FLV file and extract MP3 audio stream. * (6) UDP-RTP protocol analysis program. It can analysis UDP/RTP/MPEG-TS Packet. * */ #include <stdio.h> #include <stdlib.h> #include <string.h> //Important! #pragma pack(1) #define TAG_TYPE_SCRIPT 18 #define TAG_TYPE_AUDIO 8 #define TAG_TYPE_VIDEO 9 typedef unsigned char byte; typedef unsigned int uint; typedef struct { byte Signature[3]; byte Version; byte Flags; uint DataOffset; } FLV_HEADER; typedef struct { byte TagType; byte DataSize[3]; byte Timestamp[3]; uint Reserved; } TAG_HEADER; //reverse_bytes - turn a BigEndian byte array into a LittleEndian integer uint reverse_bytes(byte *p, char c) { int r = 0; int i; for (i=0; i<c; i++) r |= ( *(p+i) << (((c-1)*8)-8*i)); return r; } /** * Analysis FLV file * @param url Location of input FLV file. */ int simplest_flv_parser(char *url){ //whether output audio/video stream int output_a=1; int output_v=1; //------------- FILE *ifh=NULL,*vfh=NULL, *afh = NULL; //FILE *myout=fopen("output_log.txt","wb+"); FILE *myout=stdout; FLV_HEADER flv; TAG_HEADER tagheader; uint previoustagsize, previoustagsize_z=0; uint ts=0, ts_new=0; ifh = fopen(url, "rb+"); if ( ifh== NULL) { printf("Failed to open files!"); return -1; } //FLV file header fread((char *)&flv,1,sizeof(FLV_HEADER),ifh); fprintf(myout,"============== FLV Header ==============\n"); fprintf(myout,"Signature: 0x %c %c %c\n",flv.Signature[0],flv.Signature[1],flv.Signature[2]); fprintf(myout,"Version: 0x %X\n",flv.Version); fprintf(myout,"Flags : 0x %X\n",flv.Flags); fprintf(myout,"HeaderSize: 0x %X\n",reverse_bytes((byte *)&flv.DataOffset, sizeof(flv.DataOffset))); fprintf(myout,"========================================\n"); //move the file pointer to the end of the header fseek(ifh, reverse_bytes((byte *)&flv.DataOffset, sizeof(flv.DataOffset)), SEEK_SET); //process each tag do { previoustagsize = _getw(ifh); fread((void *)&tagheader,sizeof(TAG_HEADER),1,ifh); //int temp_datasize1=reverse_bytes((byte *)&tagheader.DataSize, sizeof(tagheader.DataSize)); int tagheader_datasize=tagheader.DataSize[0]*65536+tagheader.DataSize[1]*256+tagheader.DataSize[2]; int tagheader_timestamp=tagheader.Timestamp[0]*65536+tagheader.Timestamp[1]*256+tagheader.Timestamp[2]; char tagtype_str[10]; switch(tagheader.TagType){ case TAG_TYPE_AUDIO:sprintf(tagtype_str,"AUDIO");break; case TAG_TYPE_VIDEO:sprintf(tagtype_str,"VIDEO");break; case TAG_TYPE_SCRIPT:sprintf(tagtype_str,"SCRIPT");break; default:sprintf(tagtype_str,"UNKNOWN");break; } fprintf(myout,"[%6s] %6d %6d |",tagtype_str,tagheader_datasize,tagheader_timestamp); //if we are not past the end of file, process the tag if (feof(ifh)) { break; } //process tag by type switch (tagheader.TagType) { case TAG_TYPE_AUDIO:{ char audiotag_str[100]={0}; strcat(audiotag_str,"| "); char tagdata_first_byte; tagdata_first_byte=fgetc(ifh); int x=tagdata_first_byte&0xF0; x=x>>4; switch (x) { case 0:strcat(audiotag_str,"Linear PCM, platform endian");break; case 1:strcat(audiotag_str,"ADPCM");break; case 2:strcat(audiotag_str,"MP3");break; case 3:strcat(audiotag_str,"Linear PCM, little endian");break; case 4:strcat(audiotag_str,"Nellymoser 16-kHz mono");break; case 5:strcat(audiotag_str,"Nellymoser 8-kHz mono");break; case 6:strcat(audiotag_str,"Nellymoser");break; case 7:strcat(audiotag_str,"G.711 A-law logarithmic PCM");break; case 8:strcat(audiotag_str,"G.711 mu-law logarithmic PCM");break; case 9:strcat(audiotag_str,"reserved");break; case 10:strcat(audiotag_str,"AAC");break; case 11:strcat(audiotag_str,"Speex");break; case 14:strcat(audiotag_str,"MP3 8-Khz");break; case 15:strcat(audiotag_str,"Device-specific sound");break; default:strcat(audiotag_str,"UNKNOWN");break; } strcat(audiotag_str,"| "); x=tagdata_first_byte&0x0C; x=x>>2; switch (x) { case 0:strcat(audiotag_str,"5.5-kHz");break; case 1:strcat(audiotag_str,"1-kHz");break; case 2:strcat(audiotag_str,"22-kHz");break; case 3:strcat(audiotag_str,"44-kHz");break; default:strcat(audiotag_str,"UNKNOWN");break; } strcat(audiotag_str,"| "); x=tagdata_first_byte&0x02; x=x>>1; switch (x) { case 0:strcat(audiotag_str,"8Bit");break; case 1:strcat(audiotag_str,"16Bit");break; default:strcat(audiotag_str,"UNKNOWN");break; } strcat(audiotag_str,"| "); x=tagdata_first_byte&0x01; switch (x) { case 0:strcat(audiotag_str,"Mono");break; case 1:strcat(audiotag_str,"Stereo");break; default:strcat(audiotag_str,"UNKNOWN");break; } fprintf(myout,"%s",audiotag_str); //if the output file hasn‘t been opened, open it. if(output_a!=0&&afh == NULL){ afh = fopen("output.mp3", "wb"); } //TagData - First Byte Data int data_size=reverse_bytes((byte *)&tagheader.DataSize, sizeof(tagheader.DataSize))-1; if(output_a!=0){ //TagData+1 for (int i=0; i<data_size; i++) fputc(fgetc(ifh),afh); }else{ for (int i=0; i<data_size; i++) fgetc(ifh); } break; } case TAG_TYPE_VIDEO:{ char videotag_str[100]={0}; strcat(videotag_str,"| "); char tagdata_first_byte; tagdata_first_byte=fgetc(ifh); int x=tagdata_first_byte&0xF0; x=x>>4; switch (x) { case 1:strcat(videotag_str,"key frame ");break; case 2:strcat(videotag_str,"inter frame");break; case 3:strcat(videotag_str,"disposable inter frame");break; case 4:strcat(videotag_str,"generated keyframe");break; case 5:strcat(videotag_str,"video info/command frame");break; default:strcat(videotag_str,"UNKNOWN");break; } strcat(videotag_str,"| "); x=tagdata_first_byte&0x0F; switch (x) { case 1:strcat(videotag_str,"JPEG (currently unused)");break; case 2:strcat(videotag_str,"Sorenson H.263");break; case 3:strcat(videotag_str,"Screen video");break; case 4:strcat(videotag_str,"On2 VP6");break; case 5:strcat(videotag_str,"On2 VP6 with alpha channel");break; case 6:strcat(videotag_str,"Screen video version 2");break; case 7:strcat(videotag_str,"AVC");break; default:strcat(videotag_str,"UNKNOWN");break; } fprintf(myout,"%s",videotag_str); fseek(ifh, -1, SEEK_CUR); //if the output file hasn‘t been opened, open it. if (vfh == NULL&&output_v!=0) { //write the flv header (reuse the original file‘s hdr) and first previoustagsize vfh = fopen("output.flv", "wb"); fwrite((char *)&flv,1, sizeof(flv),vfh); fwrite((char *)&previoustagsize_z,1,sizeof(previoustagsize_z),vfh); } #if 0 //Change Timestamp //Get Timestamp ts = reverse_bytes((byte *)&tagheader.Timestamp, sizeof(tagheader.Timestamp)); ts=ts*2; //Writeback Timestamp ts_new = reverse_bytes((byte *)&ts, sizeof(ts)); memcpy(&tagheader.Timestamp, ((char *)&ts_new) + 1, sizeof(tagheader.Timestamp)); #endif //TagData + Previous Tag Size int data_size=reverse_bytes((byte *)&tagheader.DataSize, sizeof(tagheader.DataSize))+4; if(output_v!=0){ //TagHeader fwrite((char *)&tagheader,1, sizeof(tagheader),vfh); //TagData for (int i=0; i<data_size; i++) fputc(fgetc(ifh),vfh); }else{ for (int i=0; i<data_size; i++) fgetc(ifh); } //rewind 4 bytes, because we need to read the previoustagsize again for the loop‘s sake fseek(ifh, -4, SEEK_CUR); break; } default: //skip the data of this tag fseek(ifh, reverse_bytes((byte *)&tagheader.DataSize, sizeof(tagheader.DataSize)), SEEK_CUR); } fprintf(myout,"\n"); } while (!feof(ifh)); _fcloseall(); return 0; }
上文中的函数调用方法例如以下所看到的。
simplest_flv_parser("cuc_ieschool.flv");
结果
本程序的输入为一个FLV的文件路径,输出为FLV的统计数据,例如以下图所看到的。
此外本程序还能够分离FLV中的视频码流和音频码流。须要注意的是本程序并不能分离一些特定类型的音频(比如AAC)和视频,这一工作有待以后有时间再完毕。
下载
Simplest mediadata test
SourceForge:https://sourceforge.net/projects/simplest-mediadata-test/
Github:https://github.com/leixiaohua1020/simplest_mediadata_test
开源中国:http://git.oschina.net/leixiaohua1020/simplest_mediadata_testCSDN下载地址:http://download.csdn.net/detail/leixiaohua1020/9422409
本项目包括例如以下几种视音频数据解析演示样例:
(1)像素数据处理程序。
包括RGB和YUV像素格式处理的函数。
(2)音频採样数据处理程序。包括PCM音频採样格式处理的函数。
(3)H.264码流分析程序。
能够分离并解析NALU。
(4)AAC码流分析程序。能够分离并解析ADTS帧。
(5)FLV封装格式分析程序。能够将FLV中的MP3音频码流分离出来。
(6)UDP-RTP协议分析程序。能够将分析UDP/RTP/MPEG-TS数据包。
雷霄骅 (Lei Xiaohua)
leixiaohua1020@126.com
http://blog.csdn.net/leixiaohua1020
视音频数据处理入门:FLV封装格式解析