ref: f8adea5c9c50ff86dc51fd69190c0defa80922bc
dir: /frontend/mp4write.c/
/**************************************************************************** MP4 output module Copyright (C) 2017 Krzysztof Nikiel This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see <http://www.gnu.org/licenses/>. ****************************************************************************/ #include <stdlib.h> #include <stdio.h> #include <stdint.h> #ifndef WORDS_BIGENDIAN //#include <byteswap.h> #endif #include <string.h> #include <time.h> #include <unistd.h> enum ATOM_TYPE { ATOM_STOP = 0 /* end of atoms */ , ATOM_NAME /* plain atom */ , ATOM_DESCENT, /* starts group of children */ ATOM_ASCENT, /* ends group */ ATOM_DATA, }; typedef struct { uint16_t opcode; void *data; } creator_t; #include "mp4write.h" mp4config_t mp4config = { 0 }; static FILE *g_fout = NULL; static inline uint32_t bswap32(uint32_t u32) { #ifndef WORDS_BIGENDIAN //return __bswap_32(u32); return __builtin_bswap32(u32); #endif } static inline uint16_t bswap16(uint16_t u16) { #ifndef WORDS_BIGENDIAN //return __bswap_16(u16); return __builtin_bswap16(u16); #endif } static int dataout(const void *data, int size) { if (fwrite(data, 1, size, g_fout) != size) { perror("mp4out"); return -1; } return size; } static int stringout(const char *txt) { return dataout(txt, strlen(txt)); } static int u32out(uint32_t u32) { u32 = bswap32(u32); return dataout(&u32, 4); } static int u16out(uint16_t u16) { u16 = bswap16(u16); return dataout(&u16, 2); } static int u8out(uint8_t u8) { if (fwrite(&u8, 1, 1, g_fout) != 1) { perror("mp4 out"); return 0; } return 1; } static int ftypout(void) { int size = 0; size += stringout("M4A "); size += u32out(0); size += stringout("M4A "); size += stringout("mp42"); size += stringout("isom"); size += u32out(0); return size; } enum { SECSINDAY = 24 * 60 * 60 }; static time_t mp4time(void) { int y; time_t t; time(&t); // add some time from the start of 1904 to the start of 1970 for (y = 1904; y < 1970; y++) { t += 365 * SECSINDAY; if (!(y & 3)) t += SECSINDAY; } return t; } static int mvhdout(void) { int size = 0; int cnt; // version size += u8out(0); // flags size += u8out(0); size += u16out(0); // Creation time size += u32out(mp4time()); // Modification time size += u32out(mp4time()); // Time scale (samplerate) size += u32out(mp4config.samplerate); // Duration size += u32out(mp4config.samples); // rate size += u32out(0x00010000); // volume size += u16out(0x0100); // reserved size += u16out(0); size += u32out(0); size += u32out(0); // matrix size += u32out(0x00010000); size += u32out(0); size += u32out(0); size += u32out(0); size += u32out(0x00010000); size += u32out(0); size += u32out(0); size += u32out(0); size += u32out(0x40000000); for (cnt = 0; cnt < 6; cnt++) size += u32out(0); // Next track ID size += u32out(2); return size; }; static int tkhdout(void) { int size = 0; // version size += u8out(0); // flags // bits 8-23 size += u16out(0); // bits 0-7 size += u8out(1 /*track enabled */ ); // Creation time size += u32out(mp4time()); // Modification time size += u32out(mp4time()); // Track ID size += u32out(1); // Reserved size += u32out(0); // Duration size += u32out(mp4config.samples); // Reserved size += u32out(0); size += u32out(0); // Layer size += u16out(0); // Alternate group size += u16out(0); // Volume size += u16out(0x0100); // Reserved size += u16out(0); // matrix size += u32out(0x00010000); size += u32out(0); size += u32out(0); size += u32out(0); size += u32out(0x00010000); size += u32out(0); size += u32out(0); size += u32out(0); size += u32out(0x40000000); // Track width size += u32out(0); // Track height size += u32out(0); return size; }; static int mdhdout(void) { int size = 0; // version/flags size += u32out(0); // Creation time size += u32out(mp4time()); // Modification time size += u32out(mp4time()); // Time scale size += u32out(mp4config.samplerate); // Duration size += u32out(mp4config.samples); // Language size += u16out(0 /*0=English */ ); // pre_defined size += u16out(0); return size; }; static int hdlr1out(void) { int size = 0; // version/flags size += u32out(0); // pre_defined size += u32out(0); // Component subtype size += stringout("soun"); // reserved size += u32out(0); size += u32out(0); size += u32out(0); // name // null terminate size += u8out(0); return size; }; static int smhdout(void) { int size = 0; // version/flags size += u32out(0); // Balance size += u16out(0 /*center */ ); // Reserved size += u16out(0); return size; }; static int drefout(void) { int size = 0; // version/flags size += u32out(0); // Number of entries size += u32out(1 /*url reference */ ); return size; }; static int urlout(void) { int size = 0; size += u32out(1); return size; }; static int stsdout(void) { int size = 0; // version/flags size += u32out(0); // Number of entries(one 'mp4a') size += u32out(1); return size; }; static int mp4aout(void) { int size = 0; // Reserved (6 bytes) size += u32out(0); size += u16out(0); // Data reference index size += u16out(1); // Version size += u16out(0); // Revision level size += u16out(0); // Vendor size += u32out(0); // Number of channels size += u16out(mp4config.channels); // Sample size (bits) size += u16out(mp4config.bits); // Compression ID size += u16out(0); // Packet size size += u16out(0); // Sample rate (16.16) // rate integer part size += u16out(mp4config.samplerate); // rate reminder part size += u16out(0); return size; } static int esdsout(void) { int size = 0; // descriptor definitions: // systems/mp4_file_format/libisomediafile/src/MP4Descriptors.h // systems/mp4_file_format/libisomediafile/src/MP4Descriptors.c // // descriptor tree: // MP4ES_Descriptor // MP4DecoderConfigDescriptor // MP4DecSpecificInfoDescriptor // MP4SLConfigDescriptor struct { int es; int dc; // DecoderConfig int dsi; // DecSpecificInfo int sl; // SLConfig } dsize; enum { TAG_ES = 3, TAG_DC = 4, TAG_DSI = 5, TAG_SLC = 6 }; // calc sizes #define DESCSIZE(x) (x + 5/*.tag+.size*/) dsize.sl = 1; dsize.dsi = mp4config.asc.size; dsize.dc = 13 + DESCSIZE(dsize.dsi); dsize.es = 3 + DESCSIZE(dsize.dc) + DESCSIZE(dsize.sl); // output esds atom data // version/flags ? size += u32out(0); // mp4es size += u8out(TAG_ES); size += u8out(0x80); size += u8out(0x80); size += u8out(0x80); size += u8out(dsize.es); // ESID size += u16out(0); // flags(url(bit 6); ocr(5); streamPriority (0-4)): size += u8out(0); size += u8out(TAG_DC); size += u8out(0x80); size += u8out(0x80); size += u8out(0x80); size += u8out(dsize.dc); size += u8out(0x40 /*MPEG-4 audio */ ); size += u8out((5 << 2) /* AudioStream */ | 1 /* reserved = 1 */); // decode buffer size bytes #if 0 size += u16out(mp4config.buffersize >> 8); size += u8out(mp4config.buffersize && 0xff); #else size += u8out(0); size += u8out(0x18); size += u8out(0); #endif // bitrate size += u32out(mp4config.bitratemax); size += u32out(mp4config.bitrateavg); size += u8out(TAG_DSI); size += u8out(0x80); size += u8out(0x80); size += u8out(0x80); size += u8out(dsize.dsi); // AudioSpecificConfig size += dataout(mp4config.asc.data, mp4config.asc.size); size += u8out(TAG_SLC); size += u8out(0x80); size += u8out(0x80); size += u8out(0x80); size += u8out(dsize.sl); // "predefined" (no idea) size += u8out(2); return size; } static int sttsout(void) { int size = 0; // version/flags size += u32out(0); // Number of entries size += u32out(1); // only one entry // Sample count (number of frames) size += u32out(mp4config.frame.ents); // Sample duration (samples per frame) size += u32out(mp4config.framesamples); return size; } static int stszout(void) { int size = 0; int cnt; // version/flags size += u32out(0); // Sample size size += u32out(0 /*i.e. variable size */ ); // Number of entries if (!mp4config.frame.ents) return size; if (!mp4config.frame.data) return size; size += u32out(mp4config.frame.ents); for (cnt = 0; cnt < mp4config.frame.ents; cnt++) size += u32out(mp4config.frame.data[cnt]); return size; } static int stscout(void) { int size = 0; // version/flags size += u32out(0); // Number of entries size += u32out(1); // first chunk size += u32out(1); // frames in chunk size += u32out(mp4config.frame.ents); // sample id size += u32out(1); return size; } static int stcoout(void) { int size = 0; // version/flags size += u32out(0); // Number of entries size += u32out(1); // Chunk offset table size += u32out(mp4config.mdatofs); return size; } static int tagtxt(char *tagname, const char *tagtxt) { int txtsize = strlen(tagtxt); int size = 0; int datasize = txtsize + 16; size += u32out(datasize + 8); size += dataout(tagname, 4); size += u32out(datasize); size += dataout("data", 4); size += u32out(1); // data type text size += u32out(0); size += dataout(tagtxt, txtsize); return size; } static int tagu16(char *tagname, int n /*number of stored fields*/) { int numsize = n * 2; int size = 0; int datasize = numsize + 16; size += u32out(datasize + 8); size += dataout(tagname, 4); size += u32out(datasize); size += dataout("data", 4); size += u32out(0); // data type uint16 size += u32out(0); return size; } static int tagu8(char *tagname, int n /*number of stored fields*/) { int numsize = n * 1; int size = 0; int datasize = numsize + 16; size += u32out(datasize + 8); size += dataout(tagname, 4); size += u32out(datasize); size += dataout("data", 4); size += u32out(0x15); // data type uint8 size += u32out(0); return size; } static int tagimage(char *tagname, int n /*image size*/) { int numsize = n; int size = 0; int datasize = numsize + 16; size += u32out(datasize + 8); size += dataout(tagname, 4); size += u32out(datasize); size += dataout("data", 4); size += u32out(0x0d); // data type: image size += u32out(0); return size; } static int metaout(void) { int size = 0; // version/flags size += u32out(0); return size; } static int hdlr2out(void) { int size = 0; // version/flags size += u32out(0); // Predefined size += u32out(0); // Handler type size += stringout("mdir"); size += stringout("appl"); // Reserved size += u32out(0); size += u32out(0); // null terminator size += u8out(0); return size; }; static int ilstout(void) { int size = 0; int cnt; size += tagtxt("\xa9" "too", mp4config.tag.encoder); if (mp4config.tag.artist) size += tagtxt("\xa9" "ART", mp4config.tag.artist); if (mp4config.tag.composer) size += tagtxt("\xa9" "wrt", mp4config.tag.composer); if (mp4config.tag.title) size += tagtxt("\xa9" "nam", mp4config.tag.title); if (mp4config.tag.genre) { size += tagu16("gnre", 1); size += u16out(mp4config.tag.genre); } if (mp4config.tag.album) size += tagtxt("\xa9" "alb", mp4config.tag.album); if (mp4config.tag.compilation) { size += tagu8("cpil", 1); size += u8out(mp4config.tag.compilation); } if (mp4config.tag.trackno) { size += tagu16("trkn", 4); size += u16out(0); size += u16out(mp4config.tag.trackno); size += u16out(mp4config.tag.ntracks); size += u16out(0); } if (mp4config.tag.discno) { size += tagu16("disk", 4); size += u16out(0); size += u16out(mp4config.tag.discno); size += u16out(mp4config.tag.ndiscs); size += u16out(0); } if (mp4config.tag.year) size += tagtxt("\xa9" "day", mp4config.tag.year); if (mp4config.tag.cover.data) { size += tagimage("covr", mp4config.tag.cover.size); size += dataout(mp4config.tag.cover.data, mp4config.tag.cover.size); } if (mp4config.tag.comment) size += tagtxt("\xa9" "cmt", mp4config.tag.comment); // ----(mean(com.apple.iTunes),name(name),data(data)) for (cnt = 0; cnt < mp4config.tag.extnum; cnt++) { static const char *mean = "faac";//"com.apple.iTunes"; const char *name = mp4config.tag.ext[cnt].name; const char *data = mp4config.tag.ext[cnt].data; uint32_t len1 = 8 + strlen(mean) + 4; uint32_t len2 = 8 + strlen(name) + 4; uint32_t len3 = 8 + strlen(data) + 4 + 4; u32out(8 + len1 + len2 + len3); size += 8 + len1 + len2 + len3; stringout("----"); u32out(len1); stringout("mean"); u32out(0); stringout(mean); u32out(len2); stringout("name"); u32out(0); stringout(name); u32out(len3); stringout("data"); u32out(1); u32out(0); stringout(data); } return size; }; static creator_t g_head[] = { {ATOM_NAME, "ftyp"}, {ATOM_DATA, ftypout}, {ATOM_NAME, "free"}, {ATOM_NAME, "mdat"}, {0} }; static creator_t g_tail[] = { {ATOM_NAME, "moov"}, {ATOM_DESCENT}, {ATOM_NAME, "mvhd"}, {ATOM_DATA, mvhdout}, {ATOM_NAME, "trak"}, {ATOM_DESCENT}, {ATOM_NAME, "tkhd"}, {ATOM_DATA, tkhdout}, {ATOM_NAME, "mdia"}, {ATOM_DESCENT}, {ATOM_NAME, "mdhd"}, {ATOM_DATA, mdhdout}, {ATOM_NAME, "hdlr"}, {ATOM_DATA, hdlr1out}, {ATOM_NAME, "minf"}, {ATOM_DESCENT}, {ATOM_NAME, "smhd"}, {ATOM_DATA, smhdout}, {ATOM_NAME, "dinf"}, {ATOM_DESCENT}, {ATOM_NAME, "dref"}, {ATOM_DATA, drefout}, {ATOM_DESCENT}, {ATOM_NAME, "url "}, {ATOM_DATA, urlout}, {ATOM_ASCENT}, {ATOM_ASCENT}, {ATOM_NAME, "stbl"}, {ATOM_DESCENT}, {ATOM_NAME, "stsd"}, {ATOM_DATA, stsdout}, {ATOM_DESCENT}, {ATOM_NAME, "mp4a"}, {ATOM_DATA, mp4aout}, {ATOM_DESCENT}, {ATOM_NAME, "esds"}, {ATOM_DATA, esdsout}, {ATOM_ASCENT}, {ATOM_ASCENT}, {ATOM_NAME, "stts"}, {ATOM_DATA, sttsout}, {ATOM_NAME, "stsc"}, {ATOM_DATA, stscout}, {ATOM_NAME, "stsz"}, {ATOM_DATA, stszout}, {ATOM_NAME, "stco"}, {ATOM_DATA, stcoout}, {ATOM_ASCENT}, {ATOM_ASCENT}, {ATOM_ASCENT}, {ATOM_ASCENT}, {ATOM_NAME, "udta"}, {ATOM_DESCENT}, {ATOM_NAME, "meta"}, {ATOM_DATA, metaout}, {ATOM_DESCENT}, {ATOM_NAME, "hdlr"}, {ATOM_DATA, hdlr2out}, {ATOM_NAME, "ilst"}, {ATOM_DATA, ilstout}, {0} }; static creator_t *g_atom = 0; static int create(void) { long apos = ftell(g_fout);; int size; size = u32out(8); size += dataout(g_atom->data, 4); g_atom++; if (g_atom->opcode == ATOM_DATA) { size += ((int (*)(void)) g_atom->data) (); g_atom++; } if (g_atom->opcode == ATOM_DESCENT) { g_atom++; while (g_atom->opcode != ATOM_STOP) { if (g_atom->opcode == ATOM_ASCENT) { g_atom++; break; } size += create(); } } fseek(g_fout, apos, SEEK_SET); u32out(size); fseek(g_fout, apos + size, SEEK_SET); return size; } enum {BUFSTEP = 0x4000}; int mp4atom_frame(uint8_t * buf, int size, int samples) { if (mp4config.framesamples <= samples) { int bitrate = 8.0 * size * mp4config.samplerate / samples; if (mp4config.bitratemax < bitrate) mp4config.bitratemax = bitrate; mp4config.framesamples = samples; } if (mp4config.buffersize < size) mp4config.buffersize = size; mp4config.samples += samples; mp4config.mdatsize += dataout(buf, size); if (((mp4config.frame.ents + 1) * sizeof(*(mp4config.frame.data))) > mp4config.frame.bufsize) { mp4config.frame.bufsize += BUFSTEP; mp4config.frame.data = realloc(mp4config.frame.data, mp4config.frame.bufsize); } mp4config.frame.data[mp4config.frame.ents++] = size; return 0; } int mp4atom_close(void) { if (g_fout) { fseek(g_fout, mp4config.mdatofs - 8, SEEK_SET); u32out(mp4config.mdatsize + 8); fclose(g_fout); g_fout = 0; } if (mp4config.frame.data) { free(mp4config.frame.data); mp4config.frame.data = 0; } return 0; } int mp4atom_open(char *name, int over) { mp4atom_close(); if (!access(name, W_OK) && !over) { fprintf(stderr, "output file exists, use --overwrite option\n"); return 1; } if (!(g_fout = fopen(name, "wb"))) { perror(name); return 1; } mp4config.mdatsize = 0; mp4config.frame.bufsize = BUFSTEP; mp4config.frame.data = malloc(mp4config.frame.bufsize); return 0; } int mp4atom_head(void) { g_atom = g_head; while (g_atom->opcode != ATOM_STOP) create(); mp4config.mdatofs = ftell(g_fout); return 0; } int mp4atom_tail(void) { mp4config.bitrateavg = 8.0 * mp4config.mdatsize * mp4config.samplerate / mp4config.samples; g_atom = g_tail; while (g_atom->opcode != ATOM_STOP) create(); return 0; } int mp4tag_add(const char *name, const char *data) { int idx = mp4config.tag.extnum; if (idx >= TAGMAX) { fprintf(stderr, "To many tags\n"); return -1; } mp4config.tag.ext[idx].name = name; mp4config.tag.ext[idx].data = data; mp4config.tag.extnum++; return 0; }