/* DeaDBeeF - ultimate music player for GNU/Linux systems with X11 Copyright (C) 2009-2012 Alexey Yakovenko 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 2 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 . */ #include #include #include #include #include #include #include #include #include "../../deadbeef.h" //#define trace(...) { fprintf(stderr, __VA_ARGS__); } #define trace(fmt,...) //#define WRITE_DUMP 1 #if WRITE_DUMP FILE *out; #endif #define min(x,y) ((x)<(y)?(x):(y)) #define max(x,y) ((x)>(y)?(x):(y)) #define likely(x) __builtin_expect((x),1) #define unlikely(x) __builtin_expect((x),0) static DB_decoder_t plugin; static DB_functions_t *deadbeef; #define READBUFFER 0x2800 // 10k is enough for single frame // vbrmethod constants #define XING_CBR 1 #define XING_ABR 2 #define XING_VBR1 3 #define XING_VBR2 4 #define XING_VBR3 5 #define XING_VBR4 6 #define XING_CBR2 8 #define XING_ABR2 9 #define DETECTED_VBR 100 // xing header flags #define FRAMES_FLAG 0x0001 #define BYTES_FLAG 0x0002 #define TOC_FLAG 0x0004 #define VBR_SCALE_FLAG 0x0008 typedef struct { DB_FILE *file; DB_playItem_t *it; // input buffer, for MPEG data char input[READBUFFER]; int remaining; // output buffer, supplied by player int readsize; int decode_remaining; // number of decoded samples of current mpeg frame char *out; // information, filled by cmp3_scan_stream int version; int layer; int bitrate; int samplerate; int packetlength; int bitspersample; int channels; float duration; // currentsample and totalsamples are in the entire file scope (delay/padding inclusive) int currentsample; int totalsamples; int skipsamples; int startoffset; // in bytes (id3v2, xing/lame) int endoffset; // in bytes (apev2, id3v1) // startsample and endsample exclude delay/padding int startsample; int endsample; // number of samples to skip at the start/end of file int delay; int padding; float avg_packetlength; int avg_samplerate; int avg_samples_per_frame; int nframes; int last_comment_update; int vbr; int have_xing_header; int lead_in_frames; } buffer_t; typedef struct { DB_fileinfo_t info; buffer_t buffer; struct mad_stream stream; struct mad_frame frame; struct mad_synth synth; } mpgmad_info_t; static uint32_t extract_i32 (unsigned char *buf) { uint32_t x; // big endian extract x = buf[0]; x <<= 8; x |= buf[1]; x <<= 8; x |= buf[2]; x <<= 8; x |= buf[3]; return x; } static inline uint32_t extract_i32_le (unsigned char *buf) { uint32_t x; // little endian extract x = buf[3]; x <<= 8; x |= buf[2]; x <<= 8; x |= buf[1]; x <<= 8; x |= buf[0]; return x; } static inline uint16_t extract_i16 (unsigned char *buf) { uint16_t x; // big endian extract x = buf[0]; x <<= 8; x |= buf[1]; x <<= 8; return x; } static inline float extract_f32 (unsigned char *buf) { float f; uint32_t *x = (uint32_t *)&f; *x = buf[0]; *x <<= 8; *x |= buf[1]; *x <<= 8; *x |= buf[2]; *x <<= 8; *x |= buf[3]; return f; } // sample=-1: scan entire stream, calculate precise duration // sample=0: read headers/tags, calculate approximate duration // sample>0: seek to the frame with the sample, update skipsamples // return value: -1 on error static int cmp3_scan_stream (buffer_t *buffer, int sample) { trace ("cmp3_scan_stream %d\n", sample); // {{{ prepare for scan - seek, reset averages, etc int initpos = deadbeef->ftell (buffer->file); trace ("initpos: %d\n", initpos); int packetlength = 0; int nframe = 0; int scansamples = 0; buffer->currentsample = 0; buffer->skipsamples = 0; // int avg_bitrate = 0; int valid_frames = 0; int prev_bitrate = -1; buffer->samplerate = 0; int64_t fsize = deadbeef->fgetlength (buffer->file); if (sample <= 0) { buffer->totalsamples = 0; if (fsize > 0) { fsize -= initpos; if (fsize < 0) { trace ("cmp3_scan_stream: invalid file: bad header\n"); return -1; } } } if (sample <= 0 && buffer->avg_packetlength == 0) { buffer->avg_packetlength = 0; buffer->avg_samplerate = 0; buffer->avg_samples_per_frame = 0; buffer->nframes = 0; trace ("setting startoffset to %d\n", initpos); buffer->startoffset = initpos; } int had_invalid_frames = 0; int lastframe_valid = 0; int64_t offs = -1; // }}} int64_t lead_in_frame_pos = buffer->startoffset; int64_t lead_in_frame_no = 0; #define MAX_LEAD_IN_FRAMES 10 int64_t frame_positions[MAX_LEAD_IN_FRAMES]; // positions of nframe-9, nframe-8, nframe-7, ... for (int i = 0; i < MAX_LEAD_IN_FRAMES; i++) { frame_positions[i] = buffer->startoffset; } for (;;) { // {{{ parse frame header, sync stream // mp3 files often have some garbage in the beginning // try to skip it if this is the case if (!lastframe_valid && valid_frames > 5) { had_invalid_frames = 1; } if (!lastframe_valid && offs >= 0) { deadbeef->fseek (buffer->file, offs+1, SEEK_SET); } offs = deadbeef->ftell (buffer->file); //uint8_t fb[4+2+2]; // 4b frame header + 2b crc + 2b sideinfo main_data_begin uint8_t fb[4]; // just the header if (deadbeef->fread (fb, 1, sizeof(fb), buffer->file) != sizeof(fb)) { break; // eof } uint32_t hdr; uint8_t sync = fb[0]; if (sync != 0xff) { // trace ("[1]frame %d didn't seek to frame end\n", nframe); lastframe_valid = 0; continue; // not an mpeg frame } else { // 2nd sync byte sync = fb[1]; if ((sync >> 5) != 7) { // trace ("[2]frame %d didn't seek to frame end\n", nframe); lastframe_valid = 0; continue; } } // found frame hdr = (0xff<<24) | (sync << 16); sync = fb[2]; hdr |= sync << 8; sync = fb[3]; hdr |= sync; // parse header // sync bits int usync = hdr & 0xffe00000; if (usync != 0xffe00000) { fprintf (stderr, "fatal error: mp3 header parser is broken\n"); } // mpeg version static const int vertbl[] = {3, -1, 2, 1}; // 3 is 2.5 int ver = (hdr & (3<<19)) >> 19; ver = vertbl[ver]; if (ver < 0) { trace ("frame %d bad mpeg version %d\n", nframe, (hdr & (3<<19)) >> 19); lastframe_valid = 0; continue; // invalid frame } // layer info static const int ltbl[] = { -1, 3, 2, 1 }; int layer = (hdr & (3<<17)) >> 17; layer = ltbl[layer]; if (layer < 0) { trace ("frame %d bad layer %d\n", nframe, (hdr & (3<<17)) >> 17); lastframe_valid = 0; continue; // invalid frame } // protection bit (crc) // int prot = (hdr & (1<<16)) >> 16; // bitrate static const int brtable[5][16] = { { 0, 32, 64, 96, 128, 160, 192, 224, 256, 288, 320, 352, 384, 416, 448, -1 }, { 0, 32, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, 384, -1 }, { 0, 32, 40, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, -1 }, { 0, 32, 48, 56, 64, 80, 96, 112, 128, 144, 160, 176, 192, 224, 256, -1 }, { 0, 8, 16, 24, 32, 40, 48, 56, 64, 80, 96, 112, 128, 144, 160, -1 } }; int bitrate = (hdr & (0x0f<<12)) >> 12; int idx = 0; if (ver == 1) { idx = layer - 1; } else { idx = layer == 1 ? 3 : 4; } bitrate = brtable[idx][bitrate]; if (bitrate <= 0) { trace ("frame %d bad bitrate %d\n", nframe, (hdr & (0x0f<<12)) >> 12); lastframe_valid = 0; continue; // invalid frame } // samplerate static const int srtable[3][4] = { {44100, 48000, 32000, -1}, {22050, 24000, 16000, -1}, {11025, 12000, 8000, -1}, }; int samplerate = (hdr & (0x03<<10))>>10; samplerate = srtable[ver-1][samplerate]; if (samplerate < 0) { trace ("frame %d bad samplerate %d\n", nframe, (hdr & (0x03<<10))>>10); lastframe_valid = 0; continue; // invalid frame } // padding int padding = (hdr & (0x1 << 9)) >> 9; static const int chantbl[4] = { 2, 2, 2, 1 }; int nchannels = (hdr & (0x3 << 6)) >> 6; nchannels = chantbl[nchannels]; // check if channel/bitrate combination is valid for layer2 if (layer == 2) { if ((bitrate <= 56 || bitrate == 80) && nchannels != 1) { trace ("mpgmad: bad frame %d: layer %d, channels %d, bitrate %d\n", nframe, layer, nchannels, bitrate); lastframe_valid = 0; continue; // bad frame } if (bitrate >= 224 && nchannels == 1) { trace ("mpgmad: bad frame %d: layer %d, channels %d, bitrate %d\n", nframe, layer, nchannels, bitrate); lastframe_valid = 0; continue; // bad frame } } // }}} // {{{ get side info ptr // uint8_t *si = fb + 4; // if (prot) { // si += 2; // } // int data_ptr = ((uint16_t)si[1]) | (((uint16_t)si[1]&0)<<8); // }}} // {{{ calc packet length, number of samples in a frame // packetlength packetlength = 0; bitrate *= 1000; int samples_per_frame = 0; if (samplerate > 0 && bitrate > 0) { if (layer == 1) { samples_per_frame = 384; } else if (layer == 2) { samples_per_frame = 1152; } else if (layer == 3) { if (ver == 1) { samples_per_frame = 1152; } else { samples_per_frame = 576; } } packetlength = samples_per_frame / 8 * bitrate / samplerate + padding; // if (sample > 0) { // printf ("frame: %d, crc: %d, layer: %d, bitrate: %d, samplerate: %d, filepos: 0x%llX, dataoffs: 0x%X, size: 0x%X\n", nframe, prot, layer, bitrate, samplerate, deadbeef->ftell (buffer->file)-8, data_ptr, packetlength); // } } else { trace ("frame %d samplerate or bitrate is invalid\n", nframe); lastframe_valid = 0; continue; } // }}} // {{{ vbr adjustement if (!buffer->have_xing_header && prev_bitrate != -1 && prev_bitrate != bitrate) { buffer->vbr = DETECTED_VBR; } prev_bitrate = bitrate; // }}} valid_frames++; // {{{ update stream parameters, only when sample!=0 or 1st frame if (sample != 0 || nframe == 0) { if (sample == 0 && lastframe_valid) { return 0; } // don't get parameters from frames coming after any bad frame if (!had_invalid_frames) { buffer->version = ver; buffer->layer = layer; buffer->bitrate = bitrate; buffer->samplerate = samplerate; buffer->packetlength = packetlength; if (nchannels > buffer->channels) { buffer->channels = nchannels; } buffer->bitspersample = 16; // trace ("frame %d mpeg v%d layer %d bitrate %d samplerate %d packetlength %d channels %d\n", nframe, ver, layer, bitrate, samplerate, packetlength, nchannels); } } // }}} lastframe_valid = 1; int64_t framepos = deadbeef->ftell (buffer->file)-(int)sizeof(fb); // allow at least 10 lead-in frames, to fill bit-reservoir if (nframe - lead_in_frame_no > MAX_LEAD_IN_FRAMES) { lead_in_frame_pos = frame_positions[0]; lead_in_frame_no++; } memmove (frame_positions, &frame_positions[1], sizeof (int64_t) * (MAX_LEAD_IN_FRAMES-1)); frame_positions[MAX_LEAD_IN_FRAMES-1] = framepos; // {{{ detect/load xing frame, only on 1st pass // try to read xing/info tag (only on initial scans) if (sample <= 0 && !buffer->have_xing_header) { if (!buffer->file->vfs->is_streaming ()) { // trace ("trying to read xing header at pos %d\n", framepos); if (ver == 1) { deadbeef->fseek (buffer->file, 32/*-2-2*prot*/, SEEK_CUR); } else if (ver == 2) { // in mpeg2 streams, sideinfo is 17 bytes deadbeef->fseek (buffer->file, 17/*-2-prot*2*/, SEEK_CUR); } const char xing[] = "Xing"; const char info[] = "Info"; char magic[4]; if (deadbeef->fread (magic, 1, 4, buffer->file) != 4) { trace ("cmp3_scan_stream: EOF while checking for Xing header\n"); return -1; // EOF } // trace ("xing magic: %c%c%c%c\n", magic[0], magic[1], magic[2], magic[3]); if (!strncmp (xing, magic, 4) || !strncmp (info, magic, 4)) { trace ("xing/info frame found\n"); buffer->startoffset += packetlength; // read flags uint32_t flags; uint8_t buf[4]; if (deadbeef->fread (buf, 1, 4, buffer->file) != 4) { trace ("cmp3_scan_stream: EOF while parsing Xing header\n"); return -1; // EOF } flags = extract_i32 (buf); if (flags & FRAMES_FLAG) { // read number of frames if (deadbeef->fread (buf, 1, 4, buffer->file) != 4) { trace ("cmp3_scan_stream: EOF while parsing Xing header\n"); return -1; // EOF } uint32_t nframes = extract_i32 (buf); if (sample == 0) { buffer->duration = (((uint64_t)nframes * (uint64_t)samples_per_frame) - buffer->delay - buffer->padding)/ (uint64_t)samplerate; } trace ("xing totalsamples: %d, nframes: %d, samples_per_frame: %d\n", nframes*samples_per_frame, nframes, samples_per_frame); if (nframes <= 0 || samples_per_frame <= 0) { trace ("bad xing header\n"); continue; } buffer->totalsamples = nframes * samples_per_frame; buffer->samplerate = samplerate; } if (flags & BYTES_FLAG) { deadbeef->fseek (buffer->file, 4, SEEK_CUR); } if (flags & TOC_FLAG) { deadbeef->fseek (buffer->file, 100, SEEK_CUR); } if (flags & VBR_SCALE_FLAG) { deadbeef->fseek (buffer->file, 4, SEEK_CUR); } // lame header if (deadbeef->fread (buf, 1, 4, buffer->file) != 4) { trace ("cmp3_scan_stream: EOF while reading LAME header\n"); return -1; // EOF } // trace ("tell=%x, %c%c%c%c\n", deadbeef->ftell(buffer->file), buf[0], buf[1], buf[2], buf[3]); deadbeef->fseek (buffer->file, 5, SEEK_CUR); uint8_t rev = 0; if (deadbeef->fread (&rev, 1, 1, buffer->file) != 1) { trace ("cmp3_scan_stream: EOF while reading info tag revision / vbr method\n"); } switch (rev & 0x0f) { case XING_ABR ... XING_VBR4: case XING_ABR2: buffer->vbr = rev & 0x0f; break; default: buffer->vbr = DETECTED_VBR; break; } if (!memcmp (buf, "LAME", 4)) { trace ("lame header found\n"); // FIXME: that can be optimized by single read uint8_t lpf; deadbeef->fread (&lpf, 1, 1, buffer->file); //3 floats: replay gain deadbeef->fread (buf, 1, 4, buffer->file); // float rg_peaksignalamp = extract_f32 (buf); deadbeef->fread (buf, 1, 2, buffer->file); // uint16_t rg_radio = extract_i16 (buf); deadbeef->fread (buf, 1, 2, buffer->file); // uint16_t rg_audiophile = extract_i16 (buf); // skip deadbeef->fseek (buffer->file, 2, SEEK_CUR); deadbeef->fread (buf, 1, 3, buffer->file); buffer->delay = (((uint32_t)buf[0]) << 4) | ((((uint32_t)buf[1]) & 0xf0)>>4); buffer->padding = ((((uint32_t)buf[1])&0x0f)<<8) | ((uint32_t)buf[2]); // skip deadbeef->fseek (buffer->file, 1, SEEK_CUR); // mp3gain uint8_t mp3gain; deadbeef->fread (&mp3gain, 1, 1, buffer->file); // skip deadbeef->fseek (buffer->file, 2, SEEK_CUR); // musiclen deadbeef->fread (buf, 1, 4, buffer->file); // uint32_t musiclen = extract_i32 (buf); //trace ("lpf: %d, peaksignalamp: %f, radiogain: %d, audiophile: %d, delay: %d, padding: %d, mp3gain: %d, musiclen: %d\n", lpf, rg_peaksignalamp, rg_radio, rg_audiophile, delay, padding, mp3gain, musiclen); // skip crc //deadbeef->fseek (buffer->file, 4, SEEK_CUR); trace ("lame totalsamples: %d\n", buffer->totalsamples); } if (sample <= 0 && (flags&FRAMES_FLAG)) { buffer->have_xing_header = 1; deadbeef->fseek (buffer->file, framepos+packetlength, SEEK_SET); if (fsize >= 0) { buffer->bitrate = (fsize - deadbeef->ftell (buffer->file))/ buffer->samplerate * 1000; } buffer->startoffset = deadbeef->ftell (buffer->file); } } } if (sample == 0) { trace ("cmp3_scan_stream: trying to figure out duration from file size\n"); buffer->samplerate = samplerate; if (buffer->file->vfs->is_streaming ()) { // only suitable for cbr files, used if streaming int sz = deadbeef->fgetlength (buffer->file); if (sz > 0) { sz -= buffer->startoffset + buffer->endoffset; if (sz < 0) { trace ("cmp3_scan_stream: bad file headers\n"); return -1; } } if (sz < 0) { // unable to determine duration buffer->duration = -1; buffer->totalsamples = -1; if (sample == 0) { trace ("check validity of the next frame...\n"); deadbeef->fseek (buffer->file, framepos+packetlength, SEEK_SET); continue; } trace ("cmp3_scan_stream: unable to determine duration"); return 0; } buffer->nframes = sz / packetlength; buffer->avg_packetlength = packetlength; buffer->avg_samplerate = samplerate; buffer->avg_samples_per_frame = samples_per_frame; buffer->duration = (buffer->nframes * samples_per_frame - buffer->delay - buffer->padding) / samplerate; buffer->totalsamples = buffer->nframes * samples_per_frame; trace ("totalsamples: %d, samplesperframe: %d, fsize=%lld\n", buffer->totalsamples, samples_per_frame, fsize); // trace ("bitrate=%d, layer=%d, packetlength=%d, fsize=%d, nframes=%d, samples_per_frame=%d, samplerate=%d, duration=%f, totalsamples=%d\n", bitrate, layer, packetlength, sz, nframe, samples_per_frame, samplerate, buffer->duration, buffer->totalsamples); if (sample == 0) { deadbeef->fseek (buffer->file, framepos, SEEK_SET); return 0; } } else { deadbeef->fseek (buffer->file, framepos, SEEK_SET); } } else { deadbeef->fseek (buffer->file, framepos+packetlength, SEEK_SET); buffer->have_xing_header = 1; } } // }}} if (sample == 0) { // {{{ update averages, interrupt scan on frame #100 if (fsize <= 0) { trace ("cmp3_scan_stream: negative file size\n"); return -1; } // calculating apx duration based on 1st 100 frames buffer->avg_packetlength += packetlength; buffer->avg_samplerate += samplerate; buffer->avg_samples_per_frame += samples_per_frame; //avg_bitrate += bitrate; if (nframe >= 100) { goto end_scan; } // }}} } else { // seeking to particular sample, interrupt if reached if (sample > 0 && scansamples + samples_per_frame >= sample) { deadbeef->fseek (buffer->file, lead_in_frame_pos, SEEK_SET); buffer->lead_in_frames = nframe-lead_in_frame_no; buffer->currentsample = sample; buffer->skipsamples = sample - scansamples; trace ("scan: cursample=%d, frame: %d, skipsamples: %d, filepos: %llX, lead-in frames: %d\n", buffer->currentsample, nframe, buffer->skipsamples, deadbeef->ftell (buffer->file), buffer->lead_in_frames); return 0; } } scansamples += samples_per_frame; nframe++; if (packetlength > 0) { deadbeef->fseek (buffer->file, packetlength-(int)sizeof(fb), SEEK_CUR); } } end_scan: if (nframe == 0) { trace ("cmp3_scan_stream: couldn't find mpeg frames in file\n"); return -1; } if (sample == 0) { // {{{ calculate final averages buffer->avg_packetlength /= (float)valid_frames; buffer->avg_samplerate /= valid_frames; buffer->avg_samples_per_frame /= valid_frames; // avg_bitrate /= valid_frames; //trace ("valid_frames=%d, avg_bitrate=%d, avg_packetlength=%f, avg_samplerate=%d, avg_samples_per_frame=%d\n", valid_frames, avg_bitrate, buffer->avg_packetlength, buffer->avg_samplerate, buffer->avg_samples_per_frame); trace ("startoffs: %d, endoffs: %d\n", buffer->startoffset, buffer->endoffset); buffer->nframes = (fsize - buffer->startoffset - buffer->endoffset) / buffer->avg_packetlength; if (!buffer->have_xing_header) { buffer->totalsamples = buffer->nframes * buffer->avg_samples_per_frame; buffer->duration = (buffer->totalsamples - buffer->delay - buffer->padding) / buffer->avg_samplerate; } buffer->bitrate = (fsize-buffer->startoffset-buffer->endoffset) / buffer->duration * 8; trace ("nframes: %d, fsize: %lld, spf: %d, smp: %d, totalsamples: %d\n", buffer->nframes, fsize, buffer->avg_samples_per_frame, buffer->avg_samplerate, buffer->totalsamples); // }}} return 0; } buffer->totalsamples = scansamples; buffer->duration = (buffer->totalsamples - buffer->delay - buffer->padding) / buffer->samplerate; // printf ("nframes=%d, totalsamples=%d, samplerate=%d, dur=%f\n", nframe, scansamples, buffer->samplerate, buffer->duration); return 0; } int cmp3_seek_stream (DB_fileinfo_t *_info, int sample) { mpgmad_info_t *info = (mpgmad_info_t *)_info; if (sample == 0) { _info->readpos = 0; info->buffer.currentsample = 0; info->buffer.skipsamples = 0; return 0; } #if WRITE_DUMP if (out) { fclose (out); out = fopen ("out.raw", "w+b"); } #endif int res = cmp3_scan_stream (&info->buffer, sample); return res; } static DB_fileinfo_t * cmp3_open (uint32_t hints) { DB_fileinfo_t *_info = malloc (sizeof (mpgmad_info_t)); mpgmad_info_t *info = (mpgmad_info_t *)_info; memset (info, 0, sizeof (mpgmad_info_t)); return _info; } void cmp3_set_extra_properties (buffer_t *buffer, int fake) { char s[100]; int64_t size = deadbeef->fgetlength (buffer->file); if (size >= 0) { snprintf (s, sizeof (s), "%lld", size); deadbeef->pl_replace_meta (buffer->it, ":FILE_SIZE", s); } else { deadbeef->pl_replace_meta (buffer->it, ":FILE_SIZE", "∞"); } if (buffer->bitrate > 0) { snprintf (s, sizeof (s), "%d", buffer->bitrate/1000); deadbeef->pl_replace_meta (buffer->it, ":BITRATE", s); } deadbeef->pl_replace_meta (buffer->it, ":BPS", "16"); snprintf (s, sizeof (s), "%d", buffer->channels); deadbeef->pl_replace_meta (buffer->it, ":CHANNELS", s); snprintf (s, sizeof (s), "%d", buffer->samplerate); deadbeef->pl_replace_meta (buffer->it, ":SAMPLERATE", s); // set codec profile (cbr or vbr) and mp3 vbr method (guessed, or from Xing/Info header) switch (buffer->vbr) { case XING_ABR: deadbeef->pl_replace_meta (buffer->it, ":CODEC_PROFILE", "VBR"); deadbeef->pl_replace_meta (buffer->it, ":MP3_VBR_METHOD", "ABR"); break; case XING_VBR1: deadbeef->pl_replace_meta (buffer->it, ":CODEC_PROFILE", "VBR"); deadbeef->pl_replace_meta (buffer->it, ":MP3_VBR_METHOD", "full VBR method 1"); break; case XING_VBR2: deadbeef->pl_replace_meta (buffer->it, ":CODEC_PROFILE", "VBR"); deadbeef->pl_replace_meta (buffer->it, ":MP3_VBR_METHOD", "full VBR method 2"); break; case XING_VBR3: deadbeef->pl_replace_meta (buffer->it, ":CODEC_PROFILE", "VBR"); deadbeef->pl_replace_meta (buffer->it, ":MP3_VBR_METHOD", "full VBR method 3"); break; case XING_VBR4: deadbeef->pl_replace_meta (buffer->it, ":CODEC_PROFILE", "VBR"); deadbeef->pl_replace_meta (buffer->it, ":MP3_VBR_METHOD", "full VBR method 4"); break; case XING_CBR2: deadbeef->pl_replace_meta (buffer->it, ":CODEC_PROFILE", "CBR"); break; case XING_ABR2: deadbeef->pl_replace_meta (buffer->it, ":CODEC_PROFILE", "VBR"); deadbeef->pl_replace_meta (buffer->it, ":MP3_VBR_METHOD", "ABR 2 pass"); break; case DETECTED_VBR: deadbeef->pl_replace_meta (buffer->it, ":CODEC_PROFILE", "VBR"); deadbeef->pl_replace_meta (buffer->it, ":MP3_VBR_METHOD", "unspecified"); break; default: deadbeef->pl_replace_meta (buffer->it, ":CODEC_PROFILE", "CBR"); break; } const char *versions[] = {"1", "2", "2.5"}; snprintf (s, sizeof (s), "MPEG%s layer%d", versions[buffer->version-1], buffer->layer); deadbeef->pl_replace_meta (buffer->it, ":MPEG_VERSION", s); deadbeef->pl_replace_meta (buffer->it, ":XING_HEADER", buffer->have_xing_header ? "Yes" : "No"); deadbeef->pl_replace_meta (buffer->it, fake ? "!FILETYPE" : ":FILETYPE", "MP3"); } static int cmp3_init (DB_fileinfo_t *_info, DB_playItem_t *it) { mpgmad_info_t *info = (mpgmad_info_t *)_info; _info->plugin = &plugin; memset (&info->buffer, 0, sizeof (info->buffer)); deadbeef->pl_lock (); info->buffer.file = deadbeef->fopen (deadbeef->pl_find_meta (it, ":URI")); deadbeef->pl_unlock (); if (!info->buffer.file) { return -1; } info->info.file = info->buffer.file; deadbeef->pl_item_ref (it); info->buffer.it = it; info->info.readpos = 0; if (!info->buffer.file->vfs->is_streaming ()) { int skip = deadbeef->junk_get_leading_size (info->buffer.file); if (skip > 0) { trace ("mpgmad: skipping %d(%xH) bytes of junk\n", skip, skip); deadbeef->fseek (info->buffer.file, skip, SEEK_SET); } int res = cmp3_scan_stream (&info->buffer, deadbeef->conf_get_int ("mp3.disable_gapless", 0) ? 0 : -1); if (res < 0) { trace ("mpgmad: cmp3_init: initial cmp3_scan_stream failed\n"); return -1; } info->buffer.delay += 529; if (info->buffer.padding >= 529) { info->buffer.padding -= 529; } if (it->endsample > 0) { info->buffer.startsample = it->startsample + info->buffer.delay; info->buffer.endsample = it->endsample + info->buffer.delay; // that comes from cue, don't calc duration, just seek and play trace ("mp3 totalsamples: %d\n", info->buffer.endsample-info->buffer.startsample+1); } else { ddb_playlist_t *plt = deadbeef->pl_get_playlist (it); deadbeef->plt_set_item_duration (plt, it, info->buffer.duration); if (plt) { deadbeef->plt_unref (plt); } info->buffer.startsample = info->buffer.delay; info->buffer.endsample = info->buffer.totalsamples-info->buffer.padding-1; trace ("mp3 totalsamples: %d (%d, %d, %d | %d %d)\n", info->buffer.endsample-info->buffer.startsample+1, info->buffer.totalsamples, info->buffer.delay, info->buffer.padding, info->buffer.startsample, info->buffer.endsample); trace ("mpgmad: seeking to %d(%xH) start offset\n", info->buffer.startoffset, info->buffer.startoffset); deadbeef->fseek (info->buffer.file, info->buffer.startoffset, SEEK_SET); } plugin.seek_sample (_info, 0); trace ("mp3: startsample: %d, endsample: %d, currentsample: %d\n", info->buffer.startsample, info->buffer.endsample, info->buffer.currentsample); } else { deadbeef->fset_track (info->buffer.file, it); int64_t len = deadbeef->fgetlength (info->buffer.file); if (len > 0) { deadbeef->pl_delete_all_meta (it); int v2err = deadbeef->junk_id3v2_read (it, info->buffer.file); if (v2err != 0) { deadbeef->fseek (info->buffer.file, 0, SEEK_SET); } } deadbeef->pl_add_meta (it, "title", NULL); int res = cmp3_scan_stream (&info->buffer, 0); if (res < 0) { trace ("mpgmad: cmp3_init: initial cmp3_scan_stream failed\n"); return -1; } deadbeef->fseek (info->buffer.file, 0, SEEK_SET); cmp3_set_extra_properties (&info->buffer, 1); ddb_playlist_t *plt = deadbeef->pl_get_playlist (it); deadbeef->plt_set_item_duration (plt, it, info->buffer.duration); if (plt) { deadbeef->plt_unref (plt); } if (info->buffer.duration >= 0) { info->buffer.endsample = info->buffer.totalsamples - 1; } else { // info->buffer.duration = 200; // info->buffer.totalsamples = 10000000; // info->buffer.endsample = info->buffer.totalsamples-1; info->buffer.endsample = -1; info->buffer.totalsamples = -1; } info->buffer.skipsamples = 0; info->buffer.currentsample = 0; if (info->buffer.duration < 0) { info->buffer.duration = -1; info->buffer.totalsamples = -1; info->buffer.endsample = -1; } trace ("duration=%f, endsample=%d, totalsamples=%d\n", info->buffer.duration, info->buffer.endsample, info->buffer.totalsamples); } if (info->buffer.samplerate == 0) { trace ("bad mpeg file: %f\n", deadbeef->pl_find_meta (it, ":URI")); return -1; } _info->fmt.bps = info->buffer.bitspersample; _info->fmt.samplerate = info->buffer.samplerate; _info->fmt.channels = info->buffer.channels; _info->fmt.channelmask = _info->fmt.channels == 1 ? DDB_SPEAKER_FRONT_LEFT : (DDB_SPEAKER_FRONT_LEFT | DDB_SPEAKER_FRONT_RIGHT); trace ("mp3 format: bps:%d sr:%d channels:%d\n", _info->fmt.bps, _info->fmt.samplerate, _info->fmt.channels); mad_stream_init(&info->stream); mad_stream_options (&info->stream, MAD_OPTION_IGNORECRC); mad_frame_init(&info->frame); mad_synth_init(&info->synth); return 0; } /**************************************************************************** * Converts a sample from libmad's fixed point number format to a signed * * short (16 bits). * ****************************************************************************/ static inline int16_t MadFixedToSshort(mad_fixed_t Fixed) { /* A fixed point number is formed of the following bit pattern: * * SWWWFFFFFFFFFFFFFFFFFFFFFFFFFFFF * MSB LSB * S ==> Sign (0 is positive, 1 is negative) * W ==> Whole part bits * F ==> Fractional part bits * * This pattern contains MAD_F_FRACBITS fractional bits, one * should alway use this macro when working on the bits of a fixed * point number. It is not guaranteed to be constant over the * different platforms supported by libmad. * * The signed short value is formed, after clipping, by the least * significant whole part bit, followed by the 15 most significant * fractional part bits. Warning: this is a quick and dirty way to * compute the 16-bit number, madplay includes much better * algorithms. */ /* Clipping */ if(Fixed>=MAD_F_ONE) return(32767); if(Fixed<=-MAD_F_ONE) return(-32768); /* Conversion. */ Fixed=Fixed>>(MAD_F_FRACBITS-15); return((signed short)Fixed); } static inline float MadFixedToFloat (mad_fixed_t Fixed) { return (float)((Fixed) / (float)(1L << MAD_F_FRACBITS)); } #define MadErrorString(x) mad_stream_errorstr(x) static inline void cmp3_skip (mpgmad_info_t *info) { if (info->buffer.skipsamples > 0) { int skip = min (info->buffer.skipsamples, info->buffer.decode_remaining); // printf ("skip %d / %d\n", skip, info->buffer.skipsamples); info->buffer.skipsamples -= skip; info->buffer.decode_remaining -= skip; } } #if 0 static void dump_buffer (buffer_t *buffer) { printf ("*** DUMP ***\n"); printf ("remaining: %d\n", buffer->remaining); printf ("readsize: %d\n", buffer->readsize); printf ("decode_remaining: %d\n", buffer->decode_remaining); // information, filled by cmp3_scan_stream printf ("%d\n", buffer->version); printf ("%d\n", buffer->layer); printf ("%d\n", buffer->bitrate); printf ("%d\n", buffer->samplerate); printf ("%d\n", buffer->packetlength); printf ("%d\n", buffer->bitspersample); printf ("%d\n", buffer->channels); printf ("%f\n", buffer->duration); printf ("%d\n", buffer->currentsample); printf ("%d\n", buffer->totalsamples); printf ("%d\n", buffer->skipsamples); printf ("%d\n", buffer->startoffset); printf ("%d\n", buffer->endoffset); printf ("%d\n", buffer->startsample); printf ("%d\n", buffer->endsample); printf ("%d\n", buffer->delay); printf ("%d\n", buffer->padding); printf ("%f\n", buffer->avg_packetlength); printf ("%d\n", buffer->avg_samplerate); printf ("%d\n", buffer->avg_samples_per_frame); printf ("%d\n", buffer->nframes); printf ("%d\n", buffer->last_comment_update); printf ("%d\n", buffer->vbr); printf ("%d\n", buffer->have_xing_header); printf ("%d\n", buffer->current_decode_frame); printf ("%lld\n", buffer->lastframe_filepos); printf ("*** END ***\n"); } #endif // decoded requested number of samples to int16 format static void cmp3_decode_requested_int16 (mpgmad_info_t *info) { cmp3_skip (info); if (info->buffer.skipsamples > 0) { return; } // copy synthesized samples into readbuffer int idx = info->synth.pcm.length-info->buffer.decode_remaining; // stereo if (MAD_NCHANNELS(&info->frame.header) == 2 && info->info.fmt.channels == 2) { while (info->buffer.decode_remaining > 0 && info->buffer.readsize > 0) { *((int16_t*)info->buffer.out) = MadFixedToSshort (info->synth.pcm.samples[0][idx]); info->buffer.readsize -= 2; info->buffer.out += 2; *((int16_t*)info->buffer.out) = MadFixedToSshort (info->synth.pcm.samples[1][idx]); info->buffer.readsize -= 2; info->buffer.out += 2; info->buffer.decode_remaining--; idx++; } } // mono else if (MAD_NCHANNELS(&info->frame.header) == 1 && info->info.fmt.channels == 1){ while (info->buffer.decode_remaining > 0 && info->buffer.readsize > 0) { *((int16_t*)info->buffer.out) = MadFixedToSshort (info->synth.pcm.samples[0][idx]); info->buffer.readsize -= 2; info->buffer.out += 2; info->buffer.decode_remaining--; idx++; } } // workaround for bad mp3s that have both mono and stereo frames else if (MAD_NCHANNELS(&info->frame.header) == 1 && info->info.fmt.channels == 2) { while (info->buffer.decode_remaining > 0 && info->buffer.readsize > 0) { int16_t sample = MadFixedToSshort (info->synth.pcm.samples[0][idx]); *((int16_t*)info->buffer.out) = sample; info->buffer.readsize -= 2; info->buffer.out += 2; *((int16_t*)info->buffer.out) = sample; info->buffer.readsize -= 2; info->buffer.out += 2; info->buffer.decode_remaining--; idx++; } } else if (MAD_NCHANNELS(&info->frame.header) == 2 && info->info.fmt.channels == 1) { while (info->buffer.decode_remaining > 0 && info->buffer.readsize > 0) { int16_t sample = MadFixedToSshort (info->synth.pcm.samples[0][idx]); *((int16_t*)info->buffer.out) = sample; info->buffer.readsize -= 2; info->buffer.out += 2; info->buffer.decode_remaining--; idx++; } } assert (info->buffer.readsize >= 0); } static int cmp3_stream_frame (mpgmad_info_t *info) { int eof = 0; while (!eof && (info->stream.buffer == NULL || info->buffer.decode_remaining <= 0)) { // read more MPEG data if needed if(info->stream.buffer==NULL || info->stream.error==MAD_ERROR_BUFLEN) { // copy part of last frame to beginning if (info->stream.next_frame && info->stream.bufend <= info->stream.next_frame) { eof = 1; break; } if (info->stream.next_frame != NULL) { info->buffer.remaining = info->stream.bufend - info->stream.next_frame; memmove (info->buffer.input, info->stream.next_frame, info->buffer.remaining); } int size = READBUFFER - info->buffer.remaining; int bytesread = 0; uint8_t *bytes = info->buffer.input + info->buffer.remaining; bytesread = deadbeef->fread (bytes, 1, size, info->buffer.file); if (!bytesread) { // add guard eof = 1; memset (bytes, 0, 8); bytesread = 8; } if (bytesread < size) { // end of file size -= bytesread; bytes += bytesread; } bytesread += info->buffer.remaining; mad_stream_buffer(&info->stream,info->buffer.input,bytesread); if (info->stream.buffer==NULL) { // check sync bits if (bytes[0] != 0xff || (bytes[1]&(3<<5)) != (3<<5)) { trace ("mpgmad: read didn't start at frame boundary!\ncmp3_scan_stream is broken\n"); } else { trace ("mpgmad: streambuffer=NULL\n"); } } } info->stream.error=0; // decode next frame if(mad_frame_decode(&info->frame,&info->stream)) { if(MAD_RECOVERABLE(info->stream.error)) { if(info->stream.error!=MAD_ERROR_LOSTSYNC) { // printf ("mpgmad: recoverable frame level error (%s)\n", MadErrorString(&info->stream)); } if (info->buffer.lead_in_frames > 0) { info->buffer.lead_in_frames--; } continue; } else { if(info->stream.error==MAD_ERROR_BUFLEN) { // printf ("mpgmad: recoverable frame level error (%s)\n", MadErrorString(&info->stream)); continue; } else { // printf ("mpgmad: unrecoverable frame level error (%s).\n", MadErrorString(&info->stream)); return -1; // fatal error } } } mad_synth_frame(&info->synth,&info->frame); if (info->buffer.lead_in_frames > 0) { info->buffer.lead_in_frames--; info->buffer.decode_remaining = 0; continue; } info->info.fmt.samplerate = info->frame.header.samplerate; // synthesize single frame info->buffer.decode_remaining = info->synth.pcm.length; deadbeef->streamer_set_bitrate (info->frame.header.bitrate/1000); break; } return eof; } static int cmp3_decode_int16 (mpgmad_info_t *info) { int eof = 0; while (!eof) { eof = cmp3_stream_frame (info); if (info->buffer.decode_remaining > 0) { int readsize = info->buffer.readsize; cmp3_decode_requested_int16 (info); if (info->buffer.readsize == 0) { return 0; } } } return 0; } static void cmp3_free (DB_fileinfo_t *_info) { mpgmad_info_t *info = (mpgmad_info_t *)_info; if (info->buffer.it) { deadbeef->pl_item_unref (info->buffer.it); } if (info->buffer.file) { deadbeef->fclose (info->buffer.file); info->buffer.file = NULL; info->info.file = NULL; mad_synth_finish (&info->synth); mad_frame_finish (&info->frame); mad_stream_finish (&info->stream); } free (info); } static int cmp3_read (DB_fileinfo_t *_info, char *bytes, int size) { #if WRITE_DUMP if (!out) { out = fopen ("out.raw", "w+b"); } #endif int samplesize = _info->fmt.channels * _info->fmt.bps / 8; mpgmad_info_t *info = (mpgmad_info_t *)_info; if (info->buffer.duration >= 0 && !info->buffer.file->vfs->is_streaming ()) { int curr = info->buffer.currentsample; //printf ("curr: %d -> end %d, padding: %d\n", curr, info->buffer.endsample, info->buffer.padding); if (size / samplesize + curr > info->buffer.endsample) { size = (info->buffer.endsample - curr + 1) * samplesize; trace ("\033[0;32mmp3: size truncated to %d bytes (%d samples), cursample=%d, endsample=%d\033[37;0m\n", size, info->buffer.endsample - curr + 1, curr, info->buffer.endsample); if (size <= 0) { return 0; } } } int initsize = size; info->buffer.readsize = size; info->buffer.out = bytes; cmp3_decode_int16 (info); info->buffer.currentsample += (size - info->buffer.readsize) / samplesize; _info->readpos = (float)(info->buffer.currentsample - info->buffer.startsample) / info->buffer.samplerate; #if WRITE_DUMP if (size - info->buffer.readsize > 0) { fwrite (bytes, 1, size - info->buffer.readsize, out); } #endif // if (initsize-info->buffer.readsize != size) { // printf ("\033[0;31meof at sample %d\033[37;0m\n", info->buffer.currentsample); // } return initsize - info->buffer.readsize; } static int cmp3_seek_sample (DB_fileinfo_t *_info, int sample) { mpgmad_info_t *info = (mpgmad_info_t *)_info; if (!info->buffer.file) { return -1; } // {{{ handle net streaming case if (info->buffer.file->vfs->is_streaming ()) { if (info->buffer.totalsamples > 0 && info->buffer.avg_samples_per_frame > 0 && info->buffer.avg_packetlength > 0) { // that means seekable remote stream, like podcast trace ("seeking is possible!\n"); // get length excluding id3v2 int64_t l = deadbeef->fgetlength (info->buffer.file) - info->buffer.startoffset - info->buffer.endoffset; int r; // seek to beginning of the frame int64_t frm = sample / info->buffer.avg_samples_per_frame; r = deadbeef->fseek (info->buffer.file, frm * info->buffer.avg_packetlength + info->buffer.startoffset, SEEK_SET); // l = l * sample / buffer.totalsamples; // r = deadbeef->fseek (buffer.file, l, SEEK_SET); if (!r) { info->buffer.skipsamples = sample - frm * info->buffer.avg_samples_per_frame; info->buffer.currentsample = sample; _info->readpos = (float)(info->buffer.currentsample - info->buffer.startsample) / info->buffer.samplerate; // reset mad mad_synth_finish (&info->synth); mad_frame_finish (&info->frame); mad_stream_finish (&info->stream); info->buffer.remaining = 0; info->buffer.decode_remaining = 0; mad_stream_init(&info->stream); mad_stream_options (&info->stream, MAD_OPTION_IGNORECRC); mad_frame_init(&info->frame); mad_synth_init(&info->synth); return 0; } trace ("seek failed!\n"); return -1; } trace ("seek is impossible (avg_samples_per_frame=%d, avg_packetlength=%d)!\n", info->buffer.avg_samples_per_frame, info->buffer.avg_packetlength); return 0; } // }}} sample += info->buffer.startsample; if (sample > info->buffer.endsample) { trace ("seek sample %d is beyond end of track (%d)\n", sample, info->buffer.endsample); return -1; // eof } // restart file, and load until we hit required pos deadbeef->fseek (info->buffer.file, info->buffer.startoffset, SEEK_SET); mad_synth_finish (&info->synth); mad_frame_finish (&info->frame); mad_stream_finish (&info->stream); info->buffer.remaining = 0; info->buffer.readsize = 0; info->buffer.decode_remaining = 0; mad_stream_init(&info->stream); mad_stream_options (&info->stream, MAD_OPTION_IGNORECRC); mad_frame_init(&info->frame); mad_synth_init(&info->synth); // struct timeval tm1; // gettimeofday (&tm1, NULL); if (cmp3_seek_stream (_info, sample) == -1) { trace ("failed to seek to sample %d\n", sample); _info->readpos = 0; return -1; } // struct timeval tm2; // gettimeofday (&tm2, NULL); // int ms = (tm2.tv_sec*1000+tm2.tv_usec/1000) - (tm1.tv_sec*1000+tm1.tv_usec/1000); // printf ("cmp3_scan_stream took %d ms\n", ms); trace ("seeked to %d\n", info->buffer.currentsample); _info->readpos = (float)(info->buffer.currentsample - info->buffer.startsample) / info->buffer.samplerate; return 0; } static int cmp3_seek (DB_fileinfo_t *_info, float time) { mpgmad_info_t *info = (mpgmad_info_t *)_info; int sample = time * info->buffer.samplerate; return cmp3_seek_sample (_info, sample); } static DB_playItem_t * cmp3_insert (ddb_playlist_t *plt, DB_playItem_t *after, const char *fname) { trace ("cmp3_insert %s\n", fname); DB_FILE *fp = deadbeef->fopen (fname); if (!fp) { trace ("failed to open file %s\n", fname); return NULL; } if (fp->vfs->is_streaming ()) { DB_playItem_t *it = deadbeef->pl_item_alloc_init (fname, plugin.plugin.id); deadbeef->fclose (fp); deadbeef->pl_add_meta (it, "title", NULL); deadbeef->plt_set_item_duration (plt, it, -1); after = deadbeef->plt_insert_item (plt, after, it); deadbeef->pl_item_unref (it); return after; } buffer_t buffer; memset (&buffer, 0, sizeof (buffer)); buffer.file = fp; int skip = deadbeef->junk_get_leading_size (buffer.file); if (skip > 0) { trace ("mpgmad: skipping %d bytes (tag)\n", skip); deadbeef->fseek(buffer.file, skip, SEEK_SET); } // calc approx. mp3 duration int res = cmp3_scan_stream (&buffer, 0); if (res < 0) { trace ("mpgmad: cmp3_scan_stream returned error\n"); deadbeef->fclose (fp); return NULL; } DB_playItem_t *it = deadbeef->pl_item_alloc_init (fname, plugin.plugin.id); deadbeef->rewind (fp); // reset tags uint32_t f = deadbeef->pl_get_item_flags (it); f &= ~DDB_TAG_MASK; deadbeef->pl_set_item_flags (it, f); /*int apeerr = */deadbeef->junk_apev2_read (it, fp); /*int v2err = */deadbeef->junk_id3v2_read (it, fp); /*int v1err = */deadbeef->junk_id3v1_read (it, fp); deadbeef->pl_set_meta_int (it, ":MP3_DELAY", buffer.delay); deadbeef->pl_set_meta_int (it, ":MP3_PADDING", buffer.padding); buffer.it = it; cmp3_set_extra_properties (&buffer, 0); deadbeef->plt_set_item_duration (plt, it, buffer.duration); deadbeef->fclose (fp); deadbeef->pl_lock (); { const char *cuesheet = deadbeef->pl_find_meta (it, "cuesheet"); if (cuesheet) { DB_playItem_t *last = deadbeef->plt_insert_cue_from_buffer (plt, after, it, cuesheet, strlen (cuesheet), buffer.totalsamples-buffer.delay-buffer.padding, buffer.samplerate); if (last) { deadbeef->pl_item_unref (it); deadbeef->pl_item_unref (last); deadbeef->pl_unlock (); return last; } } } deadbeef->pl_unlock (); // FIXME! bad numsamples passed to cue DB_playItem_t *cue_after = deadbeef->plt_insert_cue (plt, after, it, buffer.totalsamples-buffer.delay-buffer.padding, buffer.samplerate); if (cue_after) { deadbeef->pl_item_unref (it); deadbeef->pl_item_unref (cue_after); return cue_after; } after = deadbeef->plt_insert_item (plt, after, it); deadbeef->pl_item_unref (it); return after; } int cmp3_read_metadata (DB_playItem_t *it) { deadbeef->pl_lock (); DB_FILE *fp = deadbeef->fopen (deadbeef->pl_find_meta (it, ":URI")); deadbeef->pl_unlock (); if (!fp) { return -1; } deadbeef->pl_delete_all_meta (it); /*int apeerr = */deadbeef->junk_apev2_read (it, fp); /*int v2err = */deadbeef->junk_id3v2_read (it, fp); /*int v1err = */deadbeef->junk_id3v1_read (it, fp); deadbeef->pl_add_meta (it, "title", NULL); deadbeef->fclose (fp); return 0; } int cmp3_write_metadata (DB_playItem_t *it) { // get options int strip_id3v2 = deadbeef->conf_get_int ("mp3.strip_id3v2", 0); int strip_id3v1 = deadbeef->conf_get_int ("mp3.strip_id3v1", 0); int strip_apev2 = deadbeef->conf_get_int ("mp3.strip_apev2", 0); int write_id3v2 = deadbeef->conf_get_int ("mp3.write_id3v2", 1); int write_id3v1 = deadbeef->conf_get_int ("mp3.write_id3v1", 1); int write_apev2 = deadbeef->conf_get_int ("mp3.write_apev2", 0); uint32_t junk_flags = 0; if (strip_id3v2) { junk_flags |= JUNK_STRIP_ID3V2; } if (strip_id3v1) { junk_flags |= JUNK_STRIP_ID3V1; } if (strip_apev2) { junk_flags |= JUNK_STRIP_APEV2; } if (write_id3v2) { junk_flags |= JUNK_WRITE_ID3V2; } if (write_id3v1) { junk_flags |= JUNK_WRITE_ID3V1; } if (write_apev2) { junk_flags |= JUNK_WRITE_APEV2; } int id3v2_version = deadbeef->conf_get_int ("mp3.id3v2_version", 3); if (id3v2_version != 3 && id3v2_version != 4) { id3v2_version = 3; } char id3v1_encoding[50]; deadbeef->conf_get_str ("mp3.id3v1_encoding", "iso8859-1", id3v1_encoding, sizeof (id3v1_encoding)); return deadbeef->junk_rewrite_tags (it, junk_flags, id3v2_version, id3v1_encoding); } static const char *exts[] = { "mp1", "mp2", "mp3", NULL }; static const char settings_dlg[] = "property \"Disable gapless playback (faster scanning)\" checkbox mp3.disable_gapless 0;\n" ; // define plugin interface static DB_decoder_t plugin = { .plugin.api_vmajor = 1, .plugin.api_vminor = 0, .plugin.version_major = 1, .plugin.version_minor = 0, .plugin.type = DB_PLUGIN_DECODER, .plugin.id = "stdmpg", .plugin.name = "MPEG decoder", .plugin.descr = "MPEG v1/2 layer1/2/3 decoder based on libmad", .plugin.copyright = "Copyright (C) 2009-2012 Alexey Yakovenko \n" "\n" "This program is free software; you can redistribute it and/or\n" "modify it under the terms of the GNU General Public License\n" "as published by the Free Software Foundation; either version 2\n" "of the License, or (at your option) any later version.\n" "\n" "This program is distributed in the hope that it will be useful,\n" "but WITHOUT ANY WARRANTY; without even the implied warranty of\n" "MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the\n" "GNU General Public License for more details.\n" "\n" "You should have received a copy of the GNU General Public License\n" "along with this program; if not, write to the Free Software\n" "Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.\n" , .plugin.website = "http://deadbeef.sf.net", .plugin.configdialog = settings_dlg, .open = cmp3_open, .init = cmp3_init, .free = cmp3_free, .read = cmp3_read, .seek = cmp3_seek, .seek_sample = cmp3_seek_sample, .insert = cmp3_insert, .read_metadata = cmp3_read_metadata, .write_metadata = cmp3_write_metadata, .exts = exts, }; DB_plugin_t * mpgmad_load (DB_functions_t *api) { deadbeef = api; return DB_PLUGIN (&plugin); }