/* * Copyright (C) 2013 nu774 * For conditions of distribution and use, see copyright notice in COPYING */ #if HAVE_CONFIG_H # include "config.h" #endif #if HAVE_STDINT_H # include #endif #include #include #include #include #include "pcm_reader.h" #define RIFF_FOURCC(a,b,c,d) ((a)|((b)<<8)|((c)<<16)|((d)<<24)) typedef struct wav_reader_t { pcm_reader_vtbl_t *vtbl; pcm_sample_description_t sample_format; int64_t length; int64_t position; int32_t data_offset; int ignore_length; pcm_io_context_t io; } wav_reader_t; static const uint8_t WAV_GUID_PCM[] = { 1, 0, 0, 0, 0, 0, 0x10, 0, 0x80, 0, 0, 0xaa, 0, 0x38, 0x9b, 0x71 }; static const uint8_t WAV_GUID_FLOAT[] = { 3, 0, 0, 0, 0, 0, 0x10, 0, 0x80, 0, 0, 0xaa, 0, 0x38, 0x9b, 0x71 }; static const pcm_sample_description_t *wav_get_format(pcm_reader_t *reader) { return &((wav_reader_t *)reader)->sample_format; } static int64_t wav_get_length(pcm_reader_t *reader) { return ((wav_reader_t *)reader)->length; } static int64_t wav_get_position(pcm_reader_t *reader) { return ((wav_reader_t *)reader)->position; } static void wav_teardown(pcm_reader_t **reader) { free(*reader); *reader = 0; } static uint32_t riff_next_chunk(wav_reader_t *reader, uint32_t *chunk_size) { uint32_t fcc; return (pcm_scanl(&reader->io, "LL", &fcc, chunk_size) == 2) ? fcc : 0; } static int wav_read_frames(pcm_reader_t *preader, void *buffer, unsigned nframes) { int rc; unsigned nbytes; wav_reader_t *reader = (wav_reader_t *)preader; if (!reader->ignore_length && nframes > reader->length - reader->position) nframes = reader->length - reader->position; nbytes = nframes * reader->sample_format.bytes_per_frame; if (nbytes) { if ((rc = pcm_read(&reader->io, buffer, nbytes)) < 0) return -1; nframes = rc / reader->sample_format.bytes_per_frame; reader->position += nframes; } return nframes; } static int riff_ds64(wav_reader_t *reader, int64_t *length) { uint32_t fcc, chunk_size, table_size; uint64_t riff_size, sample_count; fcc = riff_next_chunk(reader, &chunk_size); ENSURE(fcc == RIFF_FOURCC('d','s','6','4') && chunk_size >= 28); TRY_IO(pcm_scanl(&reader->io, "QQQL", &riff_size, length, &sample_count, &table_size) != 4); TRY_IO(pcm_skip(&reader->io, (chunk_size - 27) & ~1)); FAIL: return -1; } static int wav_fmt(wav_reader_t *reader, uint32_t size) { uint16_t wFormatTag, nChannels, nBlockAlign, wBitsPerSample, cbSize; uint32_t nSamplesPerSec, nAvgBytesPerSec, dwChannelMask = 0; uint16_t wValidBitsPerSample; uint8_t guid[16]; int is_float = 0; ENSURE(size >= 16); TRY_IO(pcm_scanl(&reader->io, "SSLLSS", &wFormatTag, &nChannels, &nSamplesPerSec, &nAvgBytesPerSec, &nBlockAlign, &wBitsPerSample) != 6); wValidBitsPerSample = wBitsPerSample; ENSURE(wFormatTag == 1 || wFormatTag == 3 || wFormatTag == 0xfffe); ENSURE(nChannels && nSamplesPerSec && nAvgBytesPerSec && nBlockAlign && wBitsPerSample && !(wBitsPerSample & 7) && nBlockAlign == nChannels * wBitsPerSample / 8); if (wFormatTag == 3) is_float = 1; if (wFormatTag != 0xfffe) TRY_IO(pcm_skip(&reader->io, (size - 15) & ~1)); else { ENSURE(size >= 40); TRY_IO(pcm_scanl(&reader->io, "SSL", &cbSize, &wValidBitsPerSample, &dwChannelMask) != 3); TRY_IO(pcm_read(&reader->io, guid, 16) != 16); if (memcmp(guid, WAV_GUID_FLOAT, 16) == 0) is_float = 1; else if (memcmp(guid, WAV_GUID_PCM, 16) != 0) goto FAIL; ENSURE(wValidBitsPerSample && wValidBitsPerSample <= wBitsPerSample); TRY_IO(pcm_skip(&reader->io, (size - 39) & ~1)); } reader->sample_format.sample_rate = nSamplesPerSec; reader->sample_format.bits_per_channel = wValidBitsPerSample; reader->sample_format.bytes_per_frame = nBlockAlign; reader->sample_format.channels_per_frame = nChannels; reader->sample_format.channel_mask = dwChannelMask; if (is_float) reader->sample_format.sample_type = PCM_TYPE_FLOAT; else if (wBitsPerSample == 8) reader->sample_format.sample_type = PCM_TYPE_UINT; else reader->sample_format.sample_type = PCM_TYPE_SINT; return 0; FAIL: return -1; } static int wav_parse(wav_reader_t *reader, int64_t *data_length) { uint32_t container, fcc, chunk_size; *data_length = 0; container = riff_next_chunk(reader, &chunk_size); ENSURE(container == RIFF_FOURCC('R','I','F','F') || container == RIFF_FOURCC('R','F','6','4')); TRY_IO(pcm_read32le(&reader->io, &fcc)); ENSURE(fcc == RIFF_FOURCC('W','A','V','E')); if (container == RIFF_FOURCC('R','F','6','4')) riff_ds64(reader, data_length); while ((fcc = riff_next_chunk(reader, &chunk_size)) != 0) { if (fcc == RIFF_FOURCC('f','m','t',' ')) { if (wav_fmt(reader, chunk_size) < 0) goto FAIL; } else if (fcc == RIFF_FOURCC('d','a','t','a')) { if (container == RIFF_FOURCC('R','I','F','F')) *data_length = chunk_size; reader->data_offset = pcm_tell(&reader->io); break; } else { TRY_IO(pcm_skip(&reader->io, (chunk_size + 1) & ~1)); } } if (fcc == RIFF_FOURCC('d','a','t','a')) return 0; FAIL: return -1; } static pcm_reader_vtbl_t wav_vtable = { wav_get_format, wav_get_length, wav_get_position, wav_read_frames, wav_teardown }; pcm_reader_t *wav_open(pcm_io_context_t *io, int ignore_length) { wav_reader_t *reader = 0; int64_t data_length; unsigned bpf; if ((reader = calloc(1, sizeof(wav_reader_t))) == 0) return 0; memcpy(&reader->io, io, sizeof(pcm_io_context_t)); reader->ignore_length = ignore_length; if (wav_parse(reader, &data_length) < 0) { free(reader); return 0; } bpf = reader->sample_format.bytes_per_frame; if (ignore_length || !data_length || data_length % bpf) reader->length = INT64_MAX; else reader->length = data_length / bpf; if (reader->length == INT64_MAX) { if (pcm_seek(&reader->io, 0, SEEK_END) >= 0) { int64_t size = pcm_tell(&reader->io); if (size > 0) reader->length = (size - reader->data_offset) / bpf; pcm_seek(&reader->io, reader->data_offset, SEEK_SET); } } reader->vtbl = &wav_vtable; return (pcm_reader_t *)reader; } pcm_reader_t *raw_open(pcm_io_context_t *io, const pcm_sample_description_t *desc) { wav_reader_t *reader = 0; if ((reader = calloc(1, sizeof(wav_reader_t))) == 0) return 0; memcpy(&reader->io, io, sizeof(pcm_io_context_t)); memcpy(&reader->sample_format, desc, sizeof(pcm_sample_description_t)); if (pcm_seek(&reader->io, 0, SEEK_END) >= 0) { int64_t size = pcm_tell(&reader->io); if (size > 0) reader->length = size / reader->sample_format.bytes_per_frame; pcm_seek(&reader->io, 0, SEEK_SET); } else reader->length = INT64_MAX; reader->vtbl = &wav_vtable; return (pcm_reader_t *)reader; }