/* parse: spawned from common; clustering around stream/frame parsing copyright ?-2012 by the mpg123 project - free software under the terms of the LGPL 2.1 see COPYING and AUTHORS files in distribution or http://mpg123.org initially written by Michael Hipp & Thomas Orgis */ #include "mpg123lib_intern.h" #include #include #include "getbits.h" #if defined (WANT_WIN32_SOCKETS) #include #include #endif /* a limit for number of frames in a track; beyond that unsigned long may not be enough to hold byte addresses */ #ifdef HAVE_LIMITS_H #include #endif #ifndef ULONG_MAX /* hm, is this portable across preprocessors? */ #define ULONG_MAX ((unsigned long)-1) #endif #define TRACK_MAX_FRAMES ULONG_MAX/4/1152 #include "mpeghead.h" #include "debug.h" #define bsbufid(fr) (fr)->bsbuf==(fr)->bsspace[0] ? 0 : ((fr)->bsbuf==fr->bsspace[1] ? 1 : ( (fr)->bsbuf==(fr)->bsspace[0]+512 ? 2 : ((fr)->bsbuf==fr->bsspace[1]+512 ? 3 : -1) ) ) /* PARSE_GOOD and PARSE_BAD have to be 1 and 0 (TRUE and FALSE), others can vary. */ enum parse_codes { PARSE_MORE = MPG123_NEED_MORE ,PARSE_ERR = MPG123_ERR ,PARSE_END = 10 /* No more audio data to find. */ ,PARSE_GOOD = 1 /* Everything's fine. */ ,PARSE_BAD = 0 /* Not fine (invalid data). */ ,PARSE_RESYNC = 2 /* Header not good, go into resync. */ ,PARSE_AGAIN = 3 /* Really start over, throw away and read a new header, again. */ }; /* bitrates for [mpeg1/2][layer] */ static const int tabsel_123[2][3][16] = { { {0,32,64,96,128,160,192,224,256,288,320,352,384,416,448,}, {0,32,48,56, 64, 80, 96,112,128,160,192,224,256,320,384,}, {0,32,40,48, 56, 64, 80, 96,112,128,160,192,224,256,320,} }, { {0,32,48,56,64,80,96,112,128,144,160,176,192,224,256,}, {0,8,16,24,32,40,48,56,64,80,96,112,128,144,160,}, {0,8,16,24,32,40,48,56,64,80,96,112,128,144,160,} } }; static const long freqs[9] = { 44100, 48000, 32000, 22050, 24000, 16000 , 11025 , 12000 , 8000 }; static int decode_header(mpg123_handle *fr,unsigned long newhead, int *freeformat_count); static int skip_junk(mpg123_handle *fr, unsigned long *newheadp, long *headcount); static int do_readahead(mpg123_handle *fr, unsigned long newhead); static int wetwork(mpg123_handle *fr, unsigned long *newheadp); /* These two are to be replaced by one function that gives all the frame parameters (for outsiders).*/ /* Those functions are unsafe regarding bad arguments (inside the mpg123_handle), but just returning anything would also be unsafe, the caller code has to be trusted. */ int frame_bitrate(mpg123_handle *fr) { return tabsel_123[fr->lsf][fr->lay-1][fr->bitrate_index]; } long frame_freq(mpg123_handle *fr) { return freqs[fr->sampling_frequency]; } /* compiler is smart enought to inline this one or should I really do it as macro...? */ static int head_check(unsigned long head) { if ( ((head & HDR_SYNC) != HDR_SYNC) || /* layer: 01,10,11 is 1,2,3; 00 is reserved */ (!(HDR_LAYER_VAL(head))) || /* 1111 means bad bitrate */ (HDR_BITRATE_VAL(head) == 0xf) || /* sampling freq: 11 is reserved */ (HDR_SAMPLERATE_VAL(head) == 0x3) /* here used to be a mpeg 2.5 check... re-enabled 2.5 decoding due to lack of evidence that it is really not good */ ) { return FALSE; } /* if no check failed, the header is valid (hopefully)*/ else { return TRUE; } } static int check_lame_tag(mpg123_handle *fr) { /* going to look for Xing or Info at some position after the header MPEG 1 MPEG 2/2.5 (LSF) Stereo, Joint Stereo, Dual Channel 32 17 Mono 17 9 Also, how to avoid false positives? I guess I should interpret more of the header to rule that out(?). I hope that ensuring all zeros until tag start is enough. */ int lame_offset = (fr->stereo == 2) ? (fr->lsf ? 17 : 32 ) : (fr->lsf ? 9 : 17); if(fr->p.flags & MPG123_IGNORE_INFOFRAME) return 0; /* Note: CRC or not, that does not matter here. */ if(fr->framesize >= 120+lame_offset) /* traditional Xing header is 120 bytes */ { int i; int lame_type = 0; debug("do we have lame tag?"); /* only search for tag when all zero before it (apart from checksum) */ for(i=2; i < lame_offset; ++i) if(fr->bsbuf[i] != 0) break; if(i == lame_offset) { debug("possibly..."); if ( (fr->bsbuf[lame_offset] == 'I') && (fr->bsbuf[lame_offset+1] == 'n') && (fr->bsbuf[lame_offset+2] == 'f') && (fr->bsbuf[lame_offset+3] == 'o') ) { lame_type = 1; /* We still have to see what there is */ } else if ( (fr->bsbuf[lame_offset] == 'X') && (fr->bsbuf[lame_offset+1] == 'i') && (fr->bsbuf[lame_offset+2] == 'n') && (fr->bsbuf[lame_offset+3] == 'g') ) { lame_type = 2; fr->vbr = MPG123_VBR; /* Xing header means always VBR */ } if(lame_type) { unsigned long xing_flags; /* we have one of these headers... */ if(VERBOSE2) fprintf(stderr, "Note: Xing/Lame/Info header detected\n"); /* now interpret the Xing part, I have 120 bytes total for sure */ /* there are 4 bytes for flags, but only the last byte contains known ones */ lame_offset += 4; /* now first byte after Xing/Name */ /* 4 bytes dword for flags */ #define make_long(a, o) ((((unsigned long) a[o]) << 24) | (((unsigned long) a[o+1]) << 16) | (((unsigned long) a[o+2]) << 8) | ((unsigned long) a[o+3])) /* 16 bit */ #define make_short(a,o) ((((unsigned short) a[o]) << 8) | ((unsigned short) a[o+1])) xing_flags = make_long(fr->bsbuf, lame_offset); lame_offset += 4; debug1("Xing: flags 0x%08lx", xing_flags); if(xing_flags & 1) /* frames */ { if(fr->p.flags & MPG123_IGNORE_STREAMLENGTH) { if(VERBOSE3) fprintf(stderr, "Note: Ignoring Xing frames because of MPG123_IGNORE_STREAMLENGTH\n"); } else { fr->track_frames = (off_t) make_long(fr->bsbuf, lame_offset); if(fr->track_frames > TRACK_MAX_FRAMES) fr->track_frames = 0; /* endless stream? */ #ifdef GAPLESS /* All or nothing: Only if encoder delay/padding is known we'll cut samples for gapless. */ if(fr->p.flags & MPG123_GAPLESS) frame_gapless_init(fr, fr->track_frames, 0, 0); #endif if(VERBOSE3) fprintf(stderr, "Note: Xing: %lu frames\n", (long unsigned)fr->track_frames); } lame_offset += 4; } if(xing_flags & 0x2) /* bytes */ { if(fr->p.flags & MPG123_IGNORE_STREAMLENGTH) { if(VERBOSE3) fprintf(stderr, "Note: Ignoring Xing bytes because of MPG123_IGNORE_STREAMLENGTH\n"); } else { unsigned long xing_bytes = make_long(fr->bsbuf, lame_offset); /* We assume that this is the _total_ size of the file, including Xing frame ... and ID3 frames... It's not that clearly documented... */ if(fr->rdat.filelen < 1) fr->rdat.filelen = (off_t) xing_bytes; /* One could start caring for overflow here. */ else { if((off_t) xing_bytes != fr->rdat.filelen && NOQUIET) { double diff = 1.0/fr->rdat.filelen * (fr->rdat.filelen - (off_t)xing_bytes); if(diff < 0.) diff = -diff; if(VERBOSE3) fprintf(stderr, "Note: Xing stream size %lu differs by %f%% from determined/given file size!\n", xing_bytes, diff); if(diff > 1.) fprintf(stderr, "Warning: Xing stream size off by more than 1%%, fuzzy seeking may be even more fuzzy than by design!\n"); } } if(VERBOSE3) fprintf(stderr, "Note: Xing: %lu bytes\n", (long unsigned)xing_bytes); } lame_offset += 4; } if(xing_flags & 0x4) /* TOC */ { frame_fill_toc(fr, fr->bsbuf+lame_offset); lame_offset += 100; /* just skip */ } if(xing_flags & 0x8) /* VBR quality */ { if(VERBOSE3) { unsigned long xing_quality = make_long(fr->bsbuf, lame_offset); fprintf(stderr, "Note: Xing: quality = %lu\n", (long unsigned)xing_quality); } lame_offset += 4; } /* I guess that either 0 or LAME extra data follows */ if(fr->bsbuf[lame_offset] != 0) { unsigned char lame_vbr; float replay_gain[2] = {0,0}; float peak = 0; float gain_offset = 0; /* going to be +6 for old lame that used 83dB */ char nb[10]; memcpy(nb, fr->bsbuf+lame_offset, 9); nb[9] = 0; if(VERBOSE3) fprintf(stderr, "Note: Info: Encoder: %s\n", nb); if(!strncmp("LAME", nb, 4)) { /* Lame versions before 3.95.1 used 83 dB reference level, later versions 89 dB. We stick with 89 dB as being "normal", adding 6 dB. */ unsigned int major, minor; char rest[6]; rest[0] = 0; if(sscanf(nb+4, "%u.%u%s", &major, &minor, rest) >= 2) { debug3("LAME: %u/%u/%s", major, minor, rest); /* We cannot detect LAME 3.95 reliably (same version string as 3.95.1), so this is a blind spot. Everything < 3.95 is safe, though. */ if(major < 3 || (major == 3 && minor < 95)) /* || (major == 3 && minor == 95 && rest[0] == 0)) */ { gain_offset = 6; if(VERBOSE3) fprintf(stderr, "Note: Info: Old LAME detected, using ReplayGain preamp of %f dB.\n", gain_offset); } } else if(VERBOSE3) fprintf(stderr, "Note: Info: Cannot determine LAME version.\n"); } lame_offset += 9; /* the 4 big bits are tag revision, the small bits vbr method */ lame_vbr = fr->bsbuf[lame_offset] & 15; if(VERBOSE3) { fprintf(stderr, "Note: Info: rev %u\n", fr->bsbuf[lame_offset] >> 4); fprintf(stderr, "Note: Info: vbr mode %u\n", lame_vbr); } lame_offset += 1; switch(lame_vbr) { /* from rev1 proposal... not sure if all good in practice */ case 1: case 8: fr->vbr = MPG123_CBR; break; case 2: case 9: fr->vbr = MPG123_ABR; break; default: fr->vbr = MPG123_VBR; /* 00==unknown is taken as VBR */ } /* skipping: lowpass filter value */ lame_offset += 1; /* replaygain */ /* 32bit float: peak amplitude -- why did I parse it as int before??*/ /* Ah, yes, lame seems to store it as int since some day in 2003; I've only seen zeros anyway until now, bah! */ if ( (fr->bsbuf[lame_offset] != 0) || (fr->bsbuf[lame_offset+1] != 0) || (fr->bsbuf[lame_offset+2] != 0) || (fr->bsbuf[lame_offset+3] != 0) ) { debug("Wow! Is there _really_ a non-zero peak value? Now is it stored as float or int - how should I know?"); /* byte*peak_bytes = (byte*) &peak; ... endianess ... just copy bytes to avoid floating point operation on unaligned memory? peak_bytes[0] = ... peak = *(float*) (fr->bsbuf+lame_offset); */ } if(VERBOSE3) fprintf(stderr, "Note: Info: peak = %f (I won't use this)\n", peak); peak = 0; /* until better times arrived */ lame_offset += 4; /* ReplayGain values - lame only writes radio mode gain... 16bit gain, 3 bits name, 3 bits originator, sign (1=-, 0=+), dB value*10 in 9 bits (fixed point) ignore the setting if name or originator == 000! radio 0 0 1 0 1 1 1 0 0 1 1 1 1 1 0 1 audiophile 0 1 0 0 1 0 0 0 0 0 0 1 0 1 0 0 */ for(i =0; i < 2; ++i) { unsigned char origin = (fr->bsbuf[lame_offset] >> 2) & 0x7; /* the 3 bits after that... */ if(origin != 0) { unsigned char gt = fr->bsbuf[lame_offset] >> 5; /* only first 3 bits */ if(gt == 1) gt = 0; /* radio */ else if(gt == 2) gt = 1; /* audiophile */ else continue; /* get the 9 bits into a number, divide by 10, multiply sign... happy bit banging */ replay_gain[gt] = (float) ((fr->bsbuf[lame_offset] & 0x2) ? -0.1 : 0.1) * (make_short(fr->bsbuf, lame_offset) & 0x1ff); /* If this is an automatic value from LAME (or whatever), the automatic gain offset applies. If a user or whoever set the value, do not touch it! 011 is automatic origin. */ if(origin == 3) replay_gain[gt] += gain_offset; } lame_offset += 2; } if(VERBOSE3) { fprintf(stderr, "Note: Info: Radio Gain = %03.1fdB\n", replay_gain[0]); fprintf(stderr, "Note: Info: Audiophile Gain = %03.1fdB\n", replay_gain[1]); } for(i=0; i < 2; ++i) { if(fr->rva.level[i] <= 0) { fr->rva.peak[i] = 0; /* at some time the parsed peak should be used */ fr->rva.gain[i] = replay_gain[i]; fr->rva.level[i] = 0; } } lame_offset += 1; /* skipping encoding flags byte */ if(fr->vbr == MPG123_ABR) { fr->abr_rate = fr->bsbuf[lame_offset]; if(VERBOSE3) fprintf(stderr, "Note: Info: ABR rate = %u\n", fr->abr_rate); } lame_offset += 1; /* encoder delay and padding, two 12 bit values... lame does write them from int ...*/ if(VERBOSE3) fprintf(stderr, "Note: Encoder delay = %i; padding = %i\n", ((((int) fr->bsbuf[lame_offset]) << 4) | (((int) fr->bsbuf[lame_offset+1]) >> 4)), (((((int) fr->bsbuf[lame_offset+1]) << 8) | (((int) fr->bsbuf[lame_offset+2]))) & 0xfff) ); #ifdef GAPLESS if(fr->p.flags & MPG123_GAPLESS) { off_t skipbegin = ((((int) fr->bsbuf[lame_offset]) << 4) | (((int) fr->bsbuf[lame_offset+1]) >> 4)); off_t skipend = (((((int) fr->bsbuf[lame_offset+1]) << 8) | (((int) fr->bsbuf[lame_offset+2]))) & 0xfff); frame_gapless_init(fr, fr->track_frames, skipbegin, skipend); } #endif } /* switch buffer back ... */ fr->bsbuf = fr->bsspace[fr->bsnum]+512; fr->bsnum = (fr->bsnum + 1) & 1; return 1; /* got it! */ } } } return 0; /* no lame tag */ } /* Just tell if the header is some mono. */ static int header_mono(unsigned long newhead) { return HDR_CHANNEL_VAL(newhead) == MPG_MD_MONO ? TRUE : FALSE; } /* true if the two headers will work with the same decoding routines */ static int head_compatible(unsigned long fred, unsigned long bret) { return ( (fred & HDR_CMPMASK) == (bret & HDR_CMPMASK) && header_mono(fred) == header_mono(bret) ); } static void halfspeed_prepare(mpg123_handle *fr) { /* save for repetition */ if(fr->p.halfspeed && fr->lay == 3) { debug("halfspeed - reusing old bsbuf "); memcpy (fr->ssave, fr->bsbuf, fr->ssize); } } /* If this returns 1, the next frame is the repetition. */ static int halfspeed_do(mpg123_handle *fr) { /* Speed-down hack: Play it again, Sam (the frame, I mean). */ if (fr->p.halfspeed) { if(fr->halfphase) /* repeat last frame */ { debug("repeat!"); fr->to_decode = fr->to_ignore = TRUE; --fr->halfphase; fr->bitindex = 0; fr->wordpointer = (unsigned char *) fr->bsbuf; if(fr->lay == 3) memcpy (fr->bsbuf, fr->ssave, fr->ssize); if(fr->error_protection) fr->crc = getbits(fr, 16); /* skip crc */ return 1; } else { fr->halfphase = fr->p.halfspeed - 1; } } return 0; } /* Temporary macro until we got this worked out. Idea is to filter out special return values that shall trigger direct jumps to end / resync / read again. Particularily, the generic ret==PARSE_BAD==0 and ret==PARSE_GOOD==1 are not affected. */ #define JUMP_CONCLUSION(ret) \ { \ if(ret < 0){ debug1("%s", ret == MPG123_NEED_MORE ? "need more" : "read error"); goto read_frame_bad; } \ else if(ret == PARSE_AGAIN) goto read_again; \ else if(ret == PARSE_RESYNC) goto init_resync; \ else if(ret == PARSE_END) goto read_frame_bad; \ } /* That's a big one: read the next frame. 1 is success, <= 0 is some error Special error READER_MORE means: Please feed more data and try again. */ int read_frame(mpg123_handle *fr) { /* TODO: rework this thing */ int freeformat_count = 0; unsigned long newhead; off_t framepos; int ret; /* stuff that needs resetting if complete frame reading fails */ int oldsize = fr->framesize; int oldphase = fr->halfphase; /* The counter for the search-first-header loop. It is persistent outside the loop to prevent seemingly endless loops when repeatedly headers are found that do not have valid followup headers. */ long headcount = 0; fr->fsizeold=fr->framesize; /* for Layer3 */ if(halfspeed_do(fr) == 1) return 1; read_again: /* In case we are looping to find a valid frame, discard any buffered data before the current position. This is essential to prevent endless looping, always going back to the beginning when feeder buffer is exhausted. */ if(fr->rd->forget != NULL) fr->rd->forget(fr); debug2("trying to get frame %"OFF_P" at %"OFF_P, (off_p)fr->num+1, (off_p)fr->rd->tell(fr)); if((ret = fr->rd->head_read(fr,&newhead)) <= 0){ debug1("need more? (%i)", ret); goto read_frame_bad;} init_resync: fr->header_change = 2; /* output format change is possible... */ if(fr->oldhead) /* check a following header for change */ { if(fr->oldhead == newhead) fr->header_change = 0; else /* Headers that match in this test behave the same for the outside world. namely: same decoding routines, same amount of decoded data. */ if(head_compatible(fr->oldhead, newhead)) fr->header_change = 1; } #ifdef SKIP_JUNK if(!fr->firsthead && !head_check(newhead)) { ret = skip_junk(fr, &newhead, &headcount); JUMP_CONCLUSION(ret); } #endif ret = head_check(newhead); if(ret) ret = decode_header(fr, newhead, &freeformat_count); JUMP_CONCLUSION(ret); /* That only continues for ret == PARSE_BAD or PARSE_GOOD. */ if(ret == PARSE_BAD) { /* Header was not good. */ ret = wetwork(fr, &newhead); /* Messy stuff, handle junk, resync ... */ JUMP_CONCLUSION(ret); /* Normally, we jumped already. If for some reason everything's fine to continue, do continue. */ if(ret != PARSE_GOOD) goto read_frame_bad; } if(!fr->firsthead) { ret = do_readahead(fr, newhead); /* readahead can fail mit NEED_MORE, in which case we must also make the just read header available again for next go */ if(ret < 0) fr->rd->back_bytes(fr, 4); JUMP_CONCLUSION(ret); } /* Now we should have our valid header and proceed to reading the frame. */ /* if filepos is invalid, so is framepos */ framepos = fr->rd->tell(fr) - 4; /* flip/init buffer for Layer 3 */ { unsigned char *newbuf = fr->bsspace[fr->bsnum]+512; /* read main data into memory */ if((ret=fr->rd->read_frame_body(fr,newbuf,fr->framesize))<0) { /* if failed: flip back */ debug("need more?"); goto read_frame_bad; } fr->bsbufold = fr->bsbuf; fr->bsbuf = newbuf; } fr->bsnum = (fr->bsnum + 1) & 1; if(!fr->firsthead) { fr->firsthead = newhead; /* _now_ it's time to store it... the first real header */ /* This is the first header of our current stream segment. It is only the actual first header of the whole stream when fr->num is still below zero! Think of resyncs where firsthead has been reset for format flexibility. */ if(fr->num < 0) { fr->audio_start = framepos; /* Only check for LAME tag at beginning of whole stream ... when there indeed is one in between, it's the user's problem. */ if(fr->lay == 3 && check_lame_tag(fr) == 1) { /* ...in practice, Xing/LAME tags are layer 3 only. */ if(fr->rd->forget != NULL) fr->rd->forget(fr); fr->oldhead = 0; goto read_again; } /* now adjust volume */ do_rva(fr); } debug2("fr->firsthead: %08lx, audio_start: %li", fr->firsthead, (long int)fr->audio_start); } fr->bitindex = 0; fr->wordpointer = (unsigned char *) fr->bsbuf; /* Question: How bad does the floating point value get with repeated recomputation? Also, considering that we can play the file or parts of many times. */ if(++fr->mean_frames != 0) { fr->mean_framesize = ((fr->mean_frames-1)*fr->mean_framesize+compute_bpf(fr)) / fr->mean_frames ; } ++fr->num; /* 0 for first frame! */ debug4("Frame %"OFF_P" %08lx %i, next filepos=%"OFF_P, (off_p)fr->num, newhead, fr->framesize, (off_p)fr->rd->tell(fr)); if(!(fr->state_flags & FRAME_FRANKENSTEIN) && ( (fr->track_frames > 0 && fr->num >= fr->track_frames) #ifdef GAPLESS || (fr->gapless_frames > 0 && fr->num >= fr->gapless_frames) #endif )) { fr->state_flags |= FRAME_FRANKENSTEIN; if(NOQUIET) fprintf(stderr, "\nWarning: Encountered more data after announced end of track (frame %"OFF_P"/%"OFF_P"). Frankenstein!\n", (off_p)fr->num, #ifdef GAPLESS fr->gapless_frames > 0 ? (off_p)fr->gapless_frames : #endif (off_p)fr->track_frames); } halfspeed_prepare(fr); /* index the position */ fr->input_offset = framepos; #ifdef FRAME_INDEX /* Keep track of true frame positions in our frame index. but only do so when we are sure that the frame number is accurate... */ if((fr->state_flags & FRAME_ACCURATE) && FI_NEXT(fr->index, fr->num)) fi_add(&fr->index, framepos); #endif if(fr->silent_resync > 0) --fr->silent_resync; if(fr->rd->forget != NULL) fr->rd->forget(fr); fr->to_decode = fr->to_ignore = TRUE; if(fr->error_protection) fr->crc = getbits(fr, 16); /* skip crc */ fr->oldhead = newhead; return 1; read_frame_bad: /* Also if we searched for valid data in vein, we can forget skipped data. Otherwise, the feeder would hold every dead old byte in memory until the first valid frame! */ if(fr->rd->forget != NULL) fr->rd->forget(fr); fr->silent_resync = 0; if(fr->err == MPG123_OK) fr->err = MPG123_ERR_READER; fr->framesize = oldsize; fr->halfphase = oldphase; /* That return code might be inherited from some feeder action, or reader error. */ return ret; } /* * read ahead and find the next MPEG header, to guess framesize * return value: success code * PARSE_GOOD: found a valid frame size (stored in the handle). * <0: error codes, possibly from feeder buffer (NEED_MORE) * PARSE_BAD: cannot get the framesize for some reason and shall silentry try the next possible header (if this is no free format stream after all...) */ static int guess_freeformat_framesize(mpg123_handle *fr) { long i; int ret; unsigned long head; if(!(fr->rdat.flags & (READER_SEEKABLE|READER_BUFFERED))) { if(NOQUIET) error("Cannot look for freeformat frame size with non-seekable and non-buffered stream!"); return PARSE_BAD; } if((ret=fr->rd->head_read(fr,&head))<=0) return ret; /* We are already 4 bytes into it */ for(i=4;ird->head_shift(fr,&head))<=0) return ret; /* No head_check needed, the mask contains all relevant bits. */ if((head & HDR_SAMEMASK) == (fr->oldhead & HDR_SAMEMASK)) { fr->rd->back_bytes(fr,i+1); fr->framesize = i-3; return PARSE_GOOD; /* Success! */ } } fr->rd->back_bytes(fr,i); return PARSE_BAD; } /* * decode a header and write the information * into the frame structure * Return values are compatible with those of read_frame, namely: * 1: success * 0: no valid header * <0: some error * You are required to do a head_check() before calling! */ static int decode_header(mpg123_handle *fr,unsigned long newhead, int *freeformat_count) { #ifdef DEBUG /* Do not waste cycles checking the header twice all the time. */ if(!head_check(newhead)) { error1("trying to decode obviously invalid header 0x%08lx", newhead); } #endif if(HDR_VERSION_VAL(newhead) & 0x2) { fr->lsf = (HDR_VERSION_VAL(newhead) & 0x1) ? 0 : 1; fr->mpeg25 = 0; } else { fr->lsf = 1; fr->mpeg25 = 1; } if( (fr->p.flags & MPG123_NO_RESYNC) || !fr->oldhead || (HDR_VERSION_VAL(fr->oldhead) != HDR_VERSION_VAL(newhead)) ) { /* If "tryresync" is false, assume that certain parameters do not change within the stream! Force an update if lsf or mpeg25 settings have changed. */ fr->lay = 4 - HDR_LAYER_VAL(newhead); if(fr->mpeg25) fr->sampling_frequency = 6 + HDR_SAMPLERATE_VAL(newhead); else fr->sampling_frequency = HDR_SAMPLERATE_VAL(newhead) + (fr->lsf*3); } #ifdef DEBUG /* seen a file where this varies (old lame tag without crc, track with crc) */ if((HDR_CRC_VAL(newhead)^0x1) != fr->error_protection) debug("changed crc bit!"); #endif fr->error_protection = HDR_CRC_VAL(newhead)^0x1; fr->bitrate_index = HDR_BITRATE_VAL(newhead); fr->padding = HDR_PADDING_VAL(newhead); fr->extension = HDR_PRIVATE_VAL(newhead); fr->mode = HDR_CHANNEL_VAL(newhead); fr->mode_ext = HDR_CHANEX_VAL(newhead); fr->copyright = HDR_COPYRIGHT_VAL(newhead); fr->original = HDR_ORIGINAL_VAL(newhead); fr->emphasis = HDR_EMPHASIS_VAL(newhead); fr->freeformat = !(newhead & HDR_BITRATE); fr->stereo = (fr->mode == MPG_MD_MONO) ? 1 : 2; /* we can't use tabsel_123 for freeformat, so trying to guess framesize... */ if(fr->freeformat) { /* when we first encounter the frame with freeformat, guess framesize */ if(fr->freeformat_framesize < 0) { int ret; *freeformat_count += 1; if(*freeformat_count > 5) { if(VERBOSE3) error("You fooled me too often. Refusing to guess free format frame size _again_."); return PARSE_BAD; } ret = guess_freeformat_framesize(fr); if(ret == PARSE_GOOD) { fr->freeformat_framesize = fr->framesize - fr->padding; if(VERBOSE2) fprintf(stderr, "Note: free format frame size %li\n", fr->freeformat_framesize); } else { if(ret == MPG123_NEED_MORE) debug("Need more data to guess free format frame size."); else if(VERBOSE3) error("Encountered free format header, but failed to guess frame size."); return ret; } } /* freeformat should be CBR, so the same framesize can be used at the 2nd reading or later */ else { fr->framesize = fr->freeformat_framesize + fr->padding; } } switch(fr->lay) { #ifndef NO_LAYER1 case 1: fr->do_layer = do_layer1; if(!fr->freeformat) { fr->framesize = (long) tabsel_123[fr->lsf][0][fr->bitrate_index] * 12000; fr->framesize /= freqs[fr->sampling_frequency]; fr->framesize = ((fr->framesize+fr->padding)<<2)-4; } break; #endif #ifndef NO_LAYER2 case 2: fr->do_layer = do_layer2; if(!fr->freeformat) { debug2("bitrate index: %i (%i)", fr->bitrate_index, tabsel_123[fr->lsf][1][fr->bitrate_index] ); fr->framesize = (long) tabsel_123[fr->lsf][1][fr->bitrate_index] * 144000; fr->framesize /= freqs[fr->sampling_frequency]; fr->framesize += fr->padding - 4; } break; #endif #ifndef NO_LAYER3 case 3: fr->do_layer = do_layer3; if(fr->lsf) fr->ssize = (fr->stereo == 1) ? 9 : 17; else fr->ssize = (fr->stereo == 1) ? 17 : 32; if(fr->error_protection) fr->ssize += 2; if(!fr->freeformat) { fr->framesize = (long) tabsel_123[fr->lsf][2][fr->bitrate_index] * 144000; fr->framesize /= freqs[fr->sampling_frequency]<<(fr->lsf); fr->framesize = fr->framesize + fr->padding - 4; } break; #endif default: if(NOQUIET) error1("Layer type %i not supported in this build!", fr->lay); return PARSE_BAD; } if (fr->framesize > MAXFRAMESIZE) { if(NOQUIET) error1("Frame size too big: %d", fr->framesize+4-fr->padding); return PARSE_BAD; } return PARSE_GOOD; } void set_pointer(mpg123_handle *fr, long backstep) { fr->wordpointer = fr->bsbuf + fr->ssize - backstep; if (backstep) memcpy(fr->wordpointer,fr->bsbufold+fr->fsizeold-backstep,backstep); fr->bitindex = 0; } /********************************/ double compute_bpf(mpg123_handle *fr) { double bpf; switch(fr->lay) { case 1: bpf = tabsel_123[fr->lsf][0][fr->bitrate_index]; bpf *= 12000.0 * 4.0; bpf /= freqs[fr->sampling_frequency] <<(fr->lsf); break; case 2: case 3: bpf = tabsel_123[fr->lsf][fr->lay-1][fr->bitrate_index]; bpf *= 144000; bpf /= freqs[fr->sampling_frequency] << (fr->lsf); break; default: bpf = 1.0; } return bpf; } int attribute_align_arg mpg123_spf(mpg123_handle *mh) { if(mh == NULL) return MPG123_ERR; return spf(mh); } double attribute_align_arg mpg123_tpf(mpg123_handle *fr) { static int bs[4] = { 0,384,1152,1152 }; double tpf; if(fr == NULL) return -1; tpf = (double) bs[fr->lay]; tpf /= freqs[fr->sampling_frequency] << (fr->lsf); return tpf; } int attribute_align_arg mpg123_position(mpg123_handle *fr, off_t no, off_t buffsize, off_t *current_frame, off_t *frames_left, double *current_seconds, double *seconds_left) { double tpf; double dt = 0.0; off_t cur, left; double curs, lefts; if(!fr || !fr->rd) /* Isn't this too paranoid? */ { debug("reader troubles!"); return MPG123_ERR; } no += fr->num; /* no starts out as offset */ cur = no; tpf = mpg123_tpf(fr); if(buffsize > 0 && fr->af.rate > 0 && fr->af.channels > 0) { dt = (double) buffsize / fr->af.rate / fr->af.channels; if(fr->af.encoding & MPG123_ENC_16) dt *= 0.5; } left = 0; if((fr->track_frames != 0) && (fr->track_frames >= fr->num)) left = no < fr->track_frames ? fr->track_frames - no : 0; else if(fr->rdat.filelen >= 0) { double bpf; off_t t = fr->rd->tell(fr); bpf = fr->mean_framesize ? fr->mean_framesize : compute_bpf(fr); left = (off_t)((double)(fr->rdat.filelen-t)/bpf); /* no can be different for prophetic purposes, file pointer is always associated with fr->num! */ if(fr->num != no) { if(fr->num > no) left += fr->num - no; else { if(left >= (no - fr->num)) left -= no - fr->num; else left = 0; /* uh, oh! */ } } /* I totally don't understand why we should re-estimate the given correct(?) value */ /* fr->num = (unsigned long)((double)t/bpf); */ } /* beginning with 0 or 1?*/ curs = (double) no*tpf-dt; lefts = (double)left*tpf+dt; #if 0 curs = curs < 0 ? 0.0 : curs; #endif if(left < 0 || lefts < 0) { /* That is the case for non-seekable streams. */ left = 0; lefts = 0.0; } if(current_frame != NULL) *current_frame = cur; if(frames_left != NULL) *frames_left = left; if(current_seconds != NULL) *current_seconds = curs; if(seconds_left != NULL) *seconds_left = lefts; return MPG123_OK; } int get_songlen(mpg123_handle *fr,int no) { double tpf; if(!fr) return 0; if(no < 0) { if(!fr->rd || fr->rdat.filelen < 0) return 0; no = (int) ((double) fr->rdat.filelen / compute_bpf(fr)); } tpf = mpg123_tpf(fr); return (int) (no*tpf); } /* first attempt of read ahead check to find the real first header; cannot believe what junk is out there! */ static int do_readahead(mpg123_handle *fr, unsigned long newhead) { unsigned long nexthead = 0; int hd = 0; off_t start, oret; int ret; if( ! (!fr->firsthead && fr->rdat.flags & (READER_SEEKABLE|READER_BUFFERED)) ) return PARSE_GOOD; start = fr->rd->tell(fr); debug2("doing ahead check with BPF %d at %"OFF_P, fr->framesize+4, (off_p)start); /* step framesize bytes forward and read next possible header*/ if((oret=fr->rd->skip_bytes(fr, fr->framesize))<0) { if(oret==READER_ERROR && NOQUIET) error("cannot seek!"); return oret == MPG123_NEED_MORE ? PARSE_MORE : PARSE_ERR; } /* Read header, seek back. */ hd = fr->rd->head_read(fr,&nexthead); if( fr->rd->back_bytes(fr, fr->rd->tell(fr)-start) < 0 ) { if(NOQUIET) error("Cannot seek back!"); return PARSE_ERR; } if(hd == MPG123_NEED_MORE) return PARSE_MORE; debug1("After fetching next header, at %"OFF_P, (off_p)fr->rd->tell(fr)); if(!hd) { if(NOQUIET) warning("Cannot read next header, a one-frame stream? Duh..."); return PARSE_END; } debug2("does next header 0x%08lx match first 0x%08lx?", nexthead, newhead); if(!head_check(nexthead) || !head_compatible(newhead, nexthead)) { debug("No, the header was not valid, start from beginning..."); fr->oldhead = 0; /* start over */ /* try next byte for valid header */ if((ret=fr->rd->back_bytes(fr, 3))<0) { if(NOQUIET) error("Cannot seek 3 bytes back!"); return PARSE_ERR; } return PARSE_AGAIN; } else return PARSE_GOOD; } static int handle_id3v2(mpg123_handle *fr, unsigned long newhead) { int ret; fr->oldhead = 0; /* Think about that. Used to be present only for skipping of junk, not resync-style wetwork. */ ret = parse_new_id3(fr, newhead); if (ret < 0) return ret; #ifndef NO_ID3V2 else if(ret > 0){ debug("got ID3v2"); fr->metaflags |= MPG123_NEW_ID3|MPG123_ID3; } else debug("no useful ID3v2"); #endif return PARSE_AGAIN; } /* watch out for junk/tags on beginning of stream by invalid header */ static int skip_junk(mpg123_handle *fr, unsigned long *newheadp, long *headcount) { int ret; int freeformat_count = 0; long limit = 65536; unsigned long newhead = *newheadp; /* check for id3v2; first three bytes (of 4) are "ID3" */ if((newhead & (unsigned long) 0xffffff00) == (unsigned long) 0x49443300) { return handle_id3v2(fr, newhead); } else if(VERBOSE2 && fr->silent_resync == 0) fprintf(stderr,"Note: Junk at the beginning (0x%08lx)\n",newhead); /* I even saw RIFF headers at the beginning of MPEG streams ;( */ if(newhead == ('R'<<24)+('I'<<16)+('F'<<8)+'F') { if(VERBOSE2 && fr->silent_resync == 0) fprintf(stderr, "Note: Looks like a RIFF header.\n"); if((ret=fr->rd->head_read(fr,&newhead))<=0) return ret; while(newhead != ('d'<<24)+('a'<<16)+('t'<<8)+'a') { if((ret=fr->rd->head_shift(fr,&newhead))<=0) return ret; } if((ret=fr->rd->head_read(fr,&newhead))<=0) return ret; if(VERBOSE2 && fr->silent_resync == 0) fprintf(stderr,"Note: Skipped RIFF header!\n"); fr->oldhead = 0; *newheadp = newhead; return PARSE_AGAIN; } /* Unhandled junk... just continue search for a header, stepping in single bytes through next 64K. This is rather identical to the resync loop. */ debug("searching for header..."); *newheadp = 0; /* Invalidate the external value. */ ret = 0; /* We will check the value after the loop. */ /* We prepare for at least the 64K bytes as usual, unless user explicitly wanted more (even infinity). Never less. */ if(fr->p.resync_limit < 0 || fr->p.resync_limit > limit) limit = fr->p.resync_limit; do { ++(*headcount); if(limit >= 0 && *headcount >= limit) break; if((ret=fr->rd->head_shift(fr,&newhead))<=0) return ret; if(head_check(newhead) && (ret=decode_header(fr, newhead, &freeformat_count))) break; } while(1); if(ret<0) return ret; if(limit >= 0 && *headcount >= limit) { if(NOQUIET) error1("Giving up searching valid MPEG header after %li bytes of junk.", *headcount); return PARSE_END; } else debug1("hopefully found one at %"OFF_P, (off_p)fr->rd->tell(fr)); /* If the new header ist good, it is already decoded. */ *newheadp = newhead; return PARSE_GOOD; } /* The newhead is bad, so let's check if it is something special, otherwise just resync. */ static int wetwork(mpg123_handle *fr, unsigned long *newheadp) { int ret = PARSE_ERR; unsigned long newhead = *newheadp; *newheadp = 0; /* Classic ID3 tags. Read, then start parsing again. */ if((newhead & 0xffffff00) == ('T'<<24)+('A'<<16)+('G'<<8)) { fr->id3buf[0] = (unsigned char) ((newhead >> 24) & 0xff); fr->id3buf[1] = (unsigned char) ((newhead >> 16) & 0xff); fr->id3buf[2] = (unsigned char) ((newhead >> 8) & 0xff); fr->id3buf[3] = (unsigned char) ( newhead & 0xff); if((ret=fr->rd->fullread(fr,fr->id3buf+4,124)) < 0) return ret; fr->metaflags |= MPG123_NEW_ID3|MPG123_ID3; fr->rdat.flags |= READER_ID3TAG; /* that marks id3v1 */ if(VERBOSE3) fprintf(stderr,"Note: Skipped ID3v1 tag.\n"); return PARSE_AGAIN; } /* This is similar to initial junk skipping code... */ /* Check for id3v2; first three bytes (of 4) are "ID3" */ if((newhead & (unsigned long) 0xffffff00) == (unsigned long) 0x49443300) { return handle_id3v2(fr, newhead); } else if(NOQUIET && fr->silent_resync == 0) { fprintf(stderr,"Note: Illegal Audio-MPEG-Header 0x%08lx at offset %"OFF_P".\n", newhead, (off_p)fr->rd->tell(fr)-4); } /* Now we got something bad at hand, try to recover. */ if(NOQUIET && (newhead & 0xffffff00) == ('b'<<24)+('m'<<16)+('p'<<8)) fprintf(stderr,"Note: Could be a BMP album art.\n"); if( !(fr->p.flags & MPG123_NO_RESYNC) ) { long try = 0; long limit = fr->p.resync_limit; /* If a resync is needed the bitreservoir of previous frames is no longer valid */ fr->bitreservoir = 0; if(NOQUIET && fr->silent_resync == 0) fprintf(stderr, "Note: Trying to resync...\n"); do /* ... shift the header with additional single bytes until be found something that could be a header. */ { ++try; if(limit >= 0 && try >= limit) break; if((ret=fr->rd->head_shift(fr,&newhead)) <= 0) { *newheadp = newhead; if(NOQUIET) fprintf (stderr, "Note: Hit end of (available) data during resync.\n"); return ret ? ret : PARSE_END; } if(VERBOSE3) debug3("resync try %li at %"OFF_P", got newhead 0x%08lx", try, (off_p)fr->rd->tell(fr), newhead); } while(!head_check(newhead)); *newheadp = newhead; if(NOQUIET && fr->silent_resync == 0) fprintf (stderr, "Note: Skipped %li bytes in input.\n", try); /* Now we either got something that could be a header, or we gave up. */ if(limit >= 0 && try >= limit) { if(NOQUIET) error1("Giving up resync after %li bytes - your stream is not nice... (maybe increasing resync limit could help).", try); fr->err = MPG123_RESYNC_FAIL; return PARSE_ERR; } else { debug1("Found possibly valid header 0x%lx... unsetting firsthead to reinit stream.", newhead); fr->firsthead = 0; fr->oldhead = 0; return PARSE_RESYNC; } } else { if(NOQUIET) error("not attempting to resync..."); fr->err = MPG123_OUT_OF_SYNC; return PARSE_ERR; } /* Control never goes here... we return before that. */ }