// SPDX-License-Identifier: GPL-2.0 // // container-voc.c - a parser/builder for a container of Creative Voice File. // // Copyright (c) 2018 Takashi Sakamoto // // Licensed under the terms of the GNU General Public License, version 2. #include "container.h" #include "misc.h" // Not portable to all of UNIX platforms. #include // References: // - http://sox.sourceforge.net/ #define VOC_MAGIC "Creative Voice File\x1a" #define VOC_VERSION_1_10 0x010a #define VOC_VERSION_1_20 0x0114 enum block_type { BLOCK_TYPE_TERMINATOR = 0x00, BLOCK_TYPE_V110_DATA = 0x01, BLOCK_TYPE_CONTINUOUS_DATA = 0x02, BLOCK_TYPE_SILENCE = 0x03, BLOCK_TYPE_MARKER = 0x04, BLOCK_TYPE_STRING = 0x05, BLOCK_TYPE_REPEAT_START = 0x06, BLOCK_TYPE_REPEAT_END = 0x07, BLOCK_TYPE_EXTENDED_V110_FORMAT = 0x08, BLOCK_TYPE_V120_DATA = 0x09, }; enum code_id { // Version 1.10. CODE_ID_GENERIC_MBLA_U8 = 0x00, CODE_ID_CREATIVE_ADPCM_8BIT_TO_4BIT_LE = 0x01, CODE_ID_CREATIVE_ADPCM_8BIT_TO_3BIT_LE = 0x02, CODE_ID_CREATIVE_ADPCM_8BIT_TO_2BIT_LE = 0x03, // Version 1.20. CODE_ID_GENERIC_MBLA_S16_LE = 0x04, CODE_ID_CCIT_A_LAW_LE = 0x06, CODE_ID_CCIT_MU_LAW_LE = 0x07, CODE_ID_CREATIVE_ADPCM_16BIT_TO_4BIT_LE = 0x2000, }; struct format_map { unsigned int minimal_version; enum code_id code_id; snd_pcm_format_t format; }; static const struct format_map format_maps[] = { {VOC_VERSION_1_10, CODE_ID_GENERIC_MBLA_U8, SND_PCM_FORMAT_U8}, {VOC_VERSION_1_20, CODE_ID_GENERIC_MBLA_S16_LE, SND_PCM_FORMAT_S16_LE}, {VOC_VERSION_1_20, CODE_ID_CCIT_A_LAW_LE, SND_PCM_FORMAT_A_LAW}, {VOC_VERSION_1_20, CODE_ID_CCIT_MU_LAW_LE, SND_PCM_FORMAT_MU_LAW}, // The other formats are not supported by ALSA. }; struct container_header { uint8_t magic[20]; uint16_t hdr_size; uint16_t version; uint16_t version_compr; }; // A format for data blocks except for terminator type. struct block_header { uint8_t type; uint8_t size[3]; uint8_t data[0]; }; // Data block for terminator type has an exceptional format. struct block_terminator { uint8_t type; }; struct time_const { unsigned int frames_per_second; uint16_t code; }; static const struct time_const v110_time_consts[] = { {5512, 74}, {8000, 130}, {11025, 165}, {16000, 193}, {22050, 210}, {32000, 224}, {44100, 233}, {48000, 235}, {64000, 240}, // Time constant for the upper sampling rate is not identical. }; static const struct time_const ex_v110_time_consts[] = { {5512, 19092}, {8000, 33536}, {11025, 42317}, {16000, 49536}, {22050, 53927}, {32000, 57536}, {44100, 59732}, {48000, 60203}, {64000, 61536}, {88200, 62634}, {96000, 62870}, {176400, 64085}, {192000, 64203}, // This support up to 192.0 kHz. The rest is for cases with 2ch. {352800, 64811}, {384000, 64870}, }; // v1.10 format: // - monaural. // - frames_per_second = 1,000,000 / (256 - time_const) struct block_v110_data { uint8_t type; uint8_t size[3]; // Equals to (2 + the size of frames). uint8_t time_const; uint8_t code_id; uint8_t frames[0]; // Aligned to little-endian. }; struct block_continuous_data { uint8_t type; uint8_t size[3]; // Equals to the size of frames. uint8_t frames[0]; // Aligned to little-endian. }; // v1.10 format: // - monaural. // - frames_per_second = 1,000,000 / (256 - time_const). struct block_silence { uint8_t type; uint8_t size[3]; // Equals to 3. uint16_t frame_count; uint8_t time_const; }; struct block_marker { uint8_t type; uint8_t size[3]; // Equals to 2. uint16_t mark; }; struct block_string { uint8_t type; uint8_t size[3]; // Equals to the length of string with 0x00. uint8_t chars[0]; }; struct block_repeat_start { uint8_t type; uint8_t size[3]; // Equals to 2. uint16_t count; }; struct block_repeat_end { uint8_t type; uint8_t size[3]; // Equals to 0. }; // Extended v1.10 format: // - manaural/stereo. // - frames_per_second = // 256,000,000 / (samples_per_frame * (65536 - time_const)). // - Appear just before v110_data block. struct block_extended_v110_format { uint8_t type; uint8_t size[3]; // Equals to 4. uint16_t time_const; uint8_t code_id; uint8_t ch_mode; // 0 is monaural, 1 is stereo. }; // v1.20 format: // - monaural/stereo. // - 8/16 bits_per_sample. // - time_const is not used. // - code_id is extended. struct block_v120_format { uint8_t type; uint8_t size[3]; // Equals to (12 + ). uint32_t frames_per_second; uint8_t bits_per_sample; uint8_t samples_per_frame; uint16_t code_id; uint8_t reserved[4]; uint8_t frames[0]; // Aligned to little-endian. }; // Aligned to little endian order but 24 bits field. static uint32_t parse_block_data_size(uint8_t fields[3]) { return (fields[2] << 16) | (fields[1] << 8) | fields[0]; } static void build_block_data_size(uint8_t fields[3], unsigned int size) { fields[0] = (size & 0x0000ff); fields[1] = (size & 0x00ff00) >> 8; fields[2] = (size & 0xff0000) >> 16; } static int build_time_constant(unsigned int frames_per_second, unsigned int samples_per_frame, uint16_t *code, bool extended) { int i; // 16 bits are available for this purpose. if (extended) { if (samples_per_frame > 2) return -EINVAL; frames_per_second *= samples_per_frame; for (i = 0; i < ARRAY_SIZE(ex_v110_time_consts); ++i) { if (ex_v110_time_consts[i].frames_per_second == frames_per_second) break; } if (i < ARRAY_SIZE(ex_v110_time_consts) && frames_per_second <= 192000) { *code = ex_v110_time_consts[i].code; } else { *code = 65536 - 256000000 / frames_per_second; } } else { if (samples_per_frame != 1) return -EINVAL; for (i = 0; i < ARRAY_SIZE(v110_time_consts); ++i) { if (v110_time_consts[i].frames_per_second == frames_per_second) break; } // Should be within 8 bit. if (i < ARRAY_SIZE(v110_time_consts)) *code = (uint8_t)v110_time_consts[i].code; else *code = 256 - 1000000 / frames_per_second; } return 0; } static unsigned int parse_time_constant(uint16_t code, unsigned int samples_per_frame, unsigned int *frames_per_second, bool extended) { int i; if (extended) { if (samples_per_frame > 2) return -EINVAL; for (i = 0; i < ARRAY_SIZE(ex_v110_time_consts); ++i) { if (ex_v110_time_consts[i].code == code || ex_v110_time_consts[i].code - 1 == code) break; } if (i < ARRAY_SIZE(ex_v110_time_consts)) { *frames_per_second = ex_v110_time_consts[i].frames_per_second / samples_per_frame; } else { *frames_per_second = 256000000 / samples_per_frame / (65536 - code); } } else { if (samples_per_frame != 1) return -EINVAL; for (i = 0; i < ARRAY_SIZE(v110_time_consts); ++i) { if (v110_time_consts[i].code == code || v110_time_consts[i].code - 1 == code) break; } if (i < ARRAY_SIZE(v110_time_consts)) { *frames_per_second = v110_time_consts[i].frames_per_second; } else { *frames_per_second = 1000000 / (256 - code); } } return 0; } struct parser_state { unsigned int version; bool extended; unsigned int frames_per_second; unsigned int samples_per_frame; unsigned int bytes_per_sample; enum code_id code_id; uint32_t byte_count; }; static int parse_container_header(struct parser_state *state, struct container_header *header) { uint16_t hdr_size; uint16_t version; uint16_t version_compr; hdr_size = le16toh(header->hdr_size); version = le16toh(header->version); version_compr = le16toh(header->version_compr); if (memcmp(header->magic, VOC_MAGIC, sizeof(header->magic))) return -EIO; if (hdr_size != sizeof(*header)) return -EIO; if (version_compr != 0x1234 + ~version) return -EIO; if (version != VOC_VERSION_1_10 && version != VOC_VERSION_1_20) return -EIO; state->version = version; return 0; } static bool check_code_id(uint8_t code_id, unsigned int version) { int i; for (i = 0; i < ARRAY_SIZE(format_maps); ++i) { if (code_id != format_maps[i].code_id) continue; if (version >= format_maps[i].minimal_version) return true; } return false; } static int parse_v120_format_block(struct parser_state *state, struct block_v120_format *block) { state->frames_per_second = le32toh(block->frames_per_second); state->bytes_per_sample = block->bits_per_sample / 8; state->samples_per_frame = block->samples_per_frame; state->code_id = le16toh(block->code_id); state->byte_count = parse_block_data_size(block->size) - 12; if (!check_code_id(state->code_id, VOC_VERSION_1_20)) return -EIO; return 0; } static int parse_extended_v110_format(struct parser_state *state, struct block_extended_v110_format *block) { unsigned int time_const; unsigned int frames_per_second; int err; state->code_id = block->code_id; if (!check_code_id(state->code_id, VOC_VERSION_1_10)) return -EIO; if (block->ch_mode == 0) state->samples_per_frame = 1; else if (block->ch_mode == 1) state->samples_per_frame = 2; else return -EIO; time_const = le16toh(block->time_const); err = parse_time_constant(time_const, state->samples_per_frame, &frames_per_second, true); if (err < 0) return err; state->frames_per_second = frames_per_second; state->extended = true; return 0; } static int parse_v110_data(struct parser_state *state, struct block_v110_data *block) { unsigned int time_const; unsigned int frames_per_second; int err; if (!state->extended) { state->code_id = block->code_id; if (!check_code_id(state->code_id, VOC_VERSION_1_10)) return -EIO; time_const = block->time_const; err = parse_time_constant(time_const, 1, &frames_per_second, false); if (err < 0) return err; state->frames_per_second = frames_per_second; state->samples_per_frame = 1; } state->bytes_per_sample = 1; state->byte_count = parse_block_data_size(block->size) - 2; return 0; } static int detect_container_version(struct container_context *cntr) { struct parser_state *state = cntr->private_data; struct container_header header = {0}; int err; // 4 bytes were alread read to detect container type. memcpy(&header.magic, cntr->magic, sizeof(cntr->magic)); err = container_recursive_read(cntr, (char *)&header + sizeof(cntr->magic), sizeof(header) - sizeof(cntr->magic)); if (err < 0) return err; if (cntr->eof) return 0; return parse_container_header(state, &header); } static int allocate_for_block_cache(struct container_context *cntr, struct block_header *header, void **buf) { uint32_t block_size; char *cache; int err; if (header->type == BLOCK_TYPE_V110_DATA) block_size = sizeof(struct block_v110_data); else if (header->type == BLOCK_TYPE_CONTINUOUS_DATA) block_size = sizeof(struct block_continuous_data); else if (header->type == BLOCK_TYPE_EXTENDED_V110_FORMAT) block_size = sizeof(struct block_extended_v110_format); else if (header->type == BLOCK_TYPE_V120_DATA) block_size = sizeof(struct block_v120_format); else block_size = parse_block_data_size(header->size); cache = malloc(block_size); if (cache == NULL) return -ENOMEM; memset(cache, 0, block_size); memcpy(cache, header, sizeof(*header)); err = container_recursive_read(cntr, cache + sizeof(*header), block_size - sizeof(*header)); if (err < 0) { free(cache); return err; } if (cntr->eof) { free(cache); return 0; } *buf = cache; return 0; } static int cache_data_block(struct container_context *cntr, struct block_header *header, void **buf) { int err; // Check type of this block. err = container_recursive_read(cntr, &header->type, sizeof(header->type)); if (err < 0) return err; if (cntr->eof) return 0; if (header->type > BLOCK_TYPE_V120_DATA) return -EIO; if (header->type == BLOCK_TYPE_TERMINATOR) return 0; // Check size of this block. If the block includes a batch of data, err = container_recursive_read(cntr, &header->size, sizeof(header->size)); if (err < 0) return err; if (cntr->eof) return 0; return allocate_for_block_cache(cntr, header, buf); } static int detect_format_block(struct container_context *cntr) { struct parser_state *state = cntr->private_data; struct block_header header; void *buf; int err; again: buf = NULL; err = cache_data_block(cntr, &header, &buf); if (err < 0) return err; if (buf) { if (header.type == BLOCK_TYPE_EXTENDED_V110_FORMAT) { err = parse_extended_v110_format(state, buf); } else if (header.type == BLOCK_TYPE_V120_DATA) { err = parse_v120_format_block(state, buf); } else if (header.type == BLOCK_TYPE_V110_DATA) { err = parse_v110_data(state, buf); } else { free(buf); goto again; } free(buf); if (err < 0) return err; } // Expect to detect block_v110_data. if (header.type == BLOCK_TYPE_EXTENDED_V110_FORMAT) goto again; return 0; } static int voc_parser_pre_process(struct container_context *cntr, snd_pcm_format_t *format, unsigned int *samples_per_frame, unsigned int *frames_per_second, uint64_t *byte_count) { struct parser_state *state = cntr->private_data; int i; int err; err = detect_container_version(cntr); if (err < 0) return err; err = detect_format_block(cntr); if (err < 0) return err; for (i = 0; i < ARRAY_SIZE(format_maps); ++i) { if (format_maps[i].code_id == state->code_id) break; } if (i == ARRAY_SIZE(format_maps)) return -EINVAL; *format = format_maps[i].format; *samples_per_frame = state->samples_per_frame; *frames_per_second = state->frames_per_second; // This program handles PCM frames in this data block only. *byte_count = state->byte_count; return 0; } struct builder_state { unsigned int version; bool extended; enum code_id code_id; unsigned int samples_per_frame; unsigned int bytes_per_sample; }; static int write_container_header(struct container_context *cntr, struct container_header *header) { struct builder_state *state = cntr->private_data; // Process container header. memcpy(header->magic, VOC_MAGIC, sizeof(header->magic)); header->hdr_size = htole16(sizeof(*header)); header->version = htole16(state->version); header->version_compr = htole16(0x1234 + ~state->version); return container_recursive_write(cntr, header, sizeof(*header)); } static int write_v120_format_block(struct container_context *cntr, struct block_v120_format *block, unsigned int frames_per_second, uint64_t byte_count) { struct builder_state *state = cntr->private_data; block->type = BLOCK_TYPE_V120_DATA; build_block_data_size(block->size, 12 + byte_count); block->frames_per_second = htole32(frames_per_second); block->bits_per_sample = state->bytes_per_sample * 8; block->samples_per_frame = state->samples_per_frame; block->code_id = htole16(state->code_id); return container_recursive_write(cntr, block, sizeof(*block)); } static int write_extended_v110_format_block(struct container_context *cntr, unsigned int frames_per_second, struct block_extended_v110_format *block) { struct builder_state *state = cntr->private_data; uint16_t time_const; int err; block->type = BLOCK_TYPE_EXTENDED_V110_FORMAT; build_block_data_size(block->size, 4); // 16 bits are available for this purpose. err = build_time_constant(frames_per_second, state->samples_per_frame, &time_const, true); if (err < 0) return err; block->time_const = htole16(time_const); block->code_id = htole16(state->code_id); if (state->samples_per_frame == 1) block->ch_mode = 0; else block->ch_mode = 1; return container_recursive_write(cntr, block, sizeof(*block)); } static int write_v110_format_block(struct container_context *cntr, struct block_v110_data *block, unsigned int frames_per_second, uint64_t byte_count) { struct builder_state *state = cntr->private_data; uint16_t time_const; int err; block->type = BLOCK_TYPE_V110_DATA; build_block_data_size(block->size, 2 + byte_count); // These fields were obsoleted by extension. err = build_time_constant(frames_per_second, 1, &time_const, false); if (err < 0) return err; block->time_const = (uint8_t)time_const; block->code_id = state->code_id; return container_recursive_write(cntr, block, sizeof(*block)); } static int write_data_blocks(struct container_context *cntr, unsigned int frames_per_second, uint64_t byte_count) { union { struct container_header header; struct block_v110_data v110_data; struct block_extended_v110_format extended_v110_format; struct block_v120_format v120_format; } buf = {0}; struct builder_state *state = cntr->private_data; int err; err = write_container_header(cntr, &buf.header); if (err < 0) return err; if (state->version == VOC_VERSION_1_20) { err = write_v120_format_block(cntr, &buf.v120_format, frames_per_second, byte_count); } else { if (state->extended) { err = write_extended_v110_format_block(cntr, frames_per_second, &buf.extended_v110_format); if (err < 0) return err; } err = write_v110_format_block(cntr, &buf.v110_data, frames_per_second, byte_count); } return err; } static int voc_builder_pre_process(struct container_context *cntr, snd_pcm_format_t *format, unsigned int *samples_per_frame, unsigned int *frames_per_second, uint64_t *byte_count) { struct builder_state *state = cntr->private_data; int i; // Validate parameters. for (i = 0; i < ARRAY_SIZE(format_maps); ++i) { if (format_maps[i].format == *format) break; } if (i == ARRAY_SIZE(format_maps)) return -EINVAL; state->code_id = format_maps[i].code_id; // Decide container version. if (*samples_per_frame > 2) state->version = VOC_VERSION_1_20; else state->version = format_maps[i].minimal_version; if (state->version == VOC_VERSION_1_10) { if (*samples_per_frame == 2) { for (i = 0; i < ARRAY_SIZE(ex_v110_time_consts); ++i) { if (ex_v110_time_consts[i].frames_per_second == *frames_per_second) break; } if (i == ARRAY_SIZE(ex_v110_time_consts)) state->version = VOC_VERSION_1_20; else state->extended = true; } else { for (i = 0; i < ARRAY_SIZE(v110_time_consts); ++i) { if (v110_time_consts[i].frames_per_second == *frames_per_second) break; } if (i == ARRAY_SIZE(v110_time_consts)) state->version = VOC_VERSION_1_20; } } state->bytes_per_sample = snd_pcm_format_physical_width(*format) / 8; state->samples_per_frame = *samples_per_frame; return write_data_blocks(cntr, *frames_per_second, *byte_count); } static int write_block_terminator(struct container_context *cntr) { struct block_terminator block = {0}; block.type = BLOCK_TYPE_TERMINATOR; return container_recursive_write(cntr, &block, sizeof(block)); } static int write_data_size(struct container_context *cntr, uint64_t byte_count) { struct builder_state *state = cntr->private_data; off64_t offset; uint8_t size_field[3]; int err; offset = sizeof(struct container_header) + sizeof(uint8_t); if (state->version == VOC_VERSION_1_10 && state->extended) offset += sizeof(struct block_extended_v110_format); err = container_seek_offset(cntr, offset); if (err < 0) return err; if (state->version == VOC_VERSION_1_10) offset = 2; else offset = 12; if (byte_count > cntr->max_size - offset) byte_count = cntr->max_size; else byte_count += offset; build_block_data_size(size_field, byte_count); return container_recursive_write(cntr, &size_field, sizeof(size_field)); } static int voc_builder_post_process(struct container_context *cntr, uint64_t handled_byte_count) { int err; err = write_block_terminator(cntr); if (err < 0) return err; return write_data_size(cntr, handled_byte_count); } const struct container_parser container_parser_voc = { .format = CONTAINER_FORMAT_VOC, .magic = VOC_MAGIC, .max_size = 0xffffff - // = UINT24_MAX. sizeof(struct block_terminator), .ops = { .pre_process = voc_parser_pre_process, }, .private_size = sizeof(struct parser_state), }; const struct container_builder container_builder_voc = { .format = CONTAINER_FORMAT_VOC, .max_size = 0xffffff - // = UINT24_MAX. sizeof(struct block_terminator), .ops = { .pre_process = voc_builder_pre_process, .post_process = voc_builder_post_process, }, .private_size = sizeof(struct builder_state), };