/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2006 Antonius Hellmann * * 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 software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #ifndef SIMULATOR #include #include "codeclib.h" CODEC_ENC_HEADER struct riff_header { uint8_t riff_id[4]; /* 00h - "RIFF" */ uint32_t riff_size; /* 04h - sz following headers + data_size */ /* format header */ uint8_t format[4]; /* 08h - "WAVE" */ uint8_t format_id[4]; /* 0Ch - "fmt " */ uint32_t format_size; /* 10h - 16 for PCM (sz format data) */ /* format data */ uint16_t audio_format; /* 14h - 1=PCM */ uint16_t num_channels; /* 16h - 1=M, 2=S, etc. */ uint32_t sample_rate; /* 18h - HZ */ uint32_t byte_rate; /* 1Ch - num_channels*sample_rate*bits_per_sample/8 */ uint16_t block_align; /* 20h - num_channels*bits_per_samples/8 */ uint16_t bits_per_sample; /* 22h - 8=8 bits, 16=16 bits, etc. */ /* Not for audio_format=1 (PCM) */ /* unsigned short extra_param_size; 24h - size of extra data */ /* unsigned char *extra_params; */ /* data header */ uint8_t data_id[4]; /* 24h - "data" */ uint32_t data_size; /* 28h - num_samples*num_channels*bits_per_sample/8 */ /* unsigned char *data; 2ch - actual sound data */ } __attribute__((packed)); #define RIFF_FMT_HEADER_SIZE 12 /* format -> format_size */ #define RIFF_FMT_DATA_SIZE 16 /* audio_format -> bits_per_sample */ #define RIFF_DATA_HEADER_SIZE 8 /* data_id -> data_size */ #define PCM_DEPTH_BYTES 2 #define PCM_DEPTH_BITS 16 #define PCM_SAMP_PER_CHUNK 2048 #define PCM_CHUNK_SIZE (PCM_SAMP_PER_CHUNK*4) static int num_channels IBSS_ATTR; static int rec_mono_mode IBSS_ATTR; static uint32_t sample_rate; static uint32_t enc_size; static int32_t err IBSS_ATTR; static const struct riff_header riff_header = { /* "RIFF" header */ { 'R', 'I', 'F', 'F' }, /* riff_id */ 0, /* riff_size (*) */ /* format header */ { 'W', 'A', 'V', 'E' }, /* format */ { 'f', 'm', 't', ' ' }, /* format_id */ H_TO_LE32(16), /* format_size */ /* format data */ H_TO_LE16(1), /* audio_format */ 0, /* num_channels (*) */ 0, /* sample_rate (*) */ 0, /* byte_rate (*) */ 0, /* block_align (*) */ H_TO_LE16(PCM_DEPTH_BITS), /* bits_per_sample */ /* data header */ { 'd', 'a', 't', 'a' }, /* data_id */ 0 /* data_size (*) */ /* (*) updated during ENC_END_FILE event */ }; /* called version often - inline */ static inline bool is_file_data_ok(struct enc_file_event_data *data) ICODE_ATTR; static inline bool is_file_data_ok(struct enc_file_event_data *data) { return data->rec_file >= 0 && (long)data->chunk->flags >= 0; } /* is_file_data_ok */ /* called version often - inline */ static inline bool on_write_chunk(struct enc_file_event_data *data) ICODE_ATTR; static inline bool on_write_chunk(struct enc_file_event_data *data) { if (!is_file_data_ok(data)) return false; if (data->chunk->enc_data == NULL) { #ifdef ROCKBOX_HAS_LOGF ci->logf("wav enc: NULL data"); #endif return true; } if (ci->write(data->rec_file, data->chunk->enc_data, data->chunk->enc_size) != (ssize_t)data->chunk->enc_size) return false; data->num_pcm_samples += data->chunk->num_pcm; return true; } /* on_write_chunk */ static bool on_start_file(struct enc_file_event_data *data) { if ((data->chunk->flags & CHUNKF_ERROR) || *data->filename == '\0') return false; data->rec_file = ci->open(data->filename, O_RDWR|O_CREAT|O_TRUNC); if (data->rec_file < 0) return false; /* reset sample count */ data->num_pcm_samples = 0; /* write template header */ if (ci->write(data->rec_file, &riff_header, sizeof (riff_header)) != sizeof (riff_header)) { return false; } data->new_enc_size += sizeof (riff_header); return true; } /* on_start_file */ static bool on_end_file(struct enc_file_event_data *data) { /* update template header */ struct riff_header hdr; uint32_t data_size; if (data->rec_file < 0) return false; /* file already closed, nothing more we can do */ /* always _try_ to write the file header, even on error */ if ((ci->lseek(data->rec_file, 0, SEEK_SET)) || (ci->read(data->rec_file, &hdr, sizeof (hdr)) != sizeof (hdr))) { return false; } data_size = data->num_pcm_samples*num_channels*PCM_DEPTH_BYTES; /* "RIFF" header */ hdr.riff_size = htole32(RIFF_FMT_HEADER_SIZE + RIFF_FMT_DATA_SIZE + RIFF_DATA_HEADER_SIZE + data_size); /* format data */ hdr.num_channels = htole16(num_channels); hdr.sample_rate = htole32(sample_rate); hdr.byte_rate = htole32(sample_rate*num_channels* PCM_DEPTH_BYTES); hdr.block_align = htole16(num_channels*PCM_DEPTH_BYTES); /* data header */ hdr.data_size = htole32(data_size); if (ci->lseek(data->rec_file, 0, SEEK_SET) != 0 || ci->write(data->rec_file, &hdr, sizeof (hdr)) != sizeof (hdr) || ci->close(data->rec_file) != 0) { return false; } data->rec_file = -1; return true; } /* on_end_file */ STATICIRAM void enc_events_callback(enum enc_events event, void *data) ICODE_ATTR; STATICIRAM void enc_events_callback(enum enc_events event, void *data) { if (event == ENC_WRITE_CHUNK) { if (on_write_chunk((struct enc_file_event_data *)data)) return; } else if (event == ENC_START_FILE) { if (on_start_file((struct enc_file_event_data *)data)) return; } else if (event == ENC_END_FILE) { if (on_end_file((struct enc_file_event_data *)data)) return; } else { return; } ((struct enc_file_event_data *)data)->chunk->flags |= CHUNKF_ERROR; } /* enc_events_callback */ /* convert native pcm samples to wav format samples */ static inline void sample_to_mono(uint32_t **src, uint32_t **dst) { int32_t lr1, lr2; switch(rec_mono_mode) { case 1: /* mono = L */ lr1 = *(*src)++; lr1 = lr1 >> 16; lr2 = *(*src)++; lr2 = lr2 >> 16; break; case 2: /* mono = R */ lr1 = *(*src)++; lr1 = (uint16_t)lr1; lr2 = *(*src)++; lr2 = (uint16_t)lr2; break; case 0: default: /* mono = (L+R)/2 */ lr1 = *(*src)++; lr1 = (int16_t)lr1 + (lr1 >> 16) + err; err = lr1 & 1; lr1 >>= 1; lr2 = *(*src)++; lr2 = (int16_t)lr2 + (lr2 >> 16) + err; err = lr2 & 1; lr2 >>= 1; break; } *(*dst)++ = swap_odd_even_be32((lr1 << 16) | (uint16_t)lr2); } /* sample_to_mono */ STATICIRAM void chunk_to_wav_format(uint32_t *src, uint32_t *dst) ICODE_ATTR; STATICIRAM void chunk_to_wav_format(uint32_t *src, uint32_t *dst) { if (num_channels == 1) { /* On big endian: * |LLLLLLLLllllllll|RRRRRRRRrrrrrrrr| * |LLLLLLLLllllllll|RRRRRRRRrrrrrrrr| => * |mmmmmmmmMMMMMMMM|mmmmmmmmMMMMMMMM| * * On little endian: * |llllllllLLLLLLLL|rrrrrrrrRRRRRRRR| * |llllllllLLLLLLLL|rrrrrrrrRRRRRRRR| => * |mmmmmmmmMMMMMMMM|mmmmmmmmMMMMMMMM| */ uint32_t *src_end = src + PCM_SAMP_PER_CHUNK; do { sample_to_mono(&src, &dst); sample_to_mono(&src, &dst); sample_to_mono(&src, &dst); sample_to_mono(&src, &dst); sample_to_mono(&src, &dst); sample_to_mono(&src, &dst); sample_to_mono(&src, &dst); sample_to_mono(&src, &dst); } while (src < src_end); } else { #ifdef ROCKBOX_BIG_ENDIAN /* |LLLLLLLLllllllll|RRRRRRRRrrrrrrrr| => * |llllllllLLLLLLLL|rrrrrrrrRRRRRRRR| */ uint32_t *src_end = src + PCM_SAMP_PER_CHUNK; do { *dst++ = swap_odd_even32(*src++); *dst++ = swap_odd_even32(*src++); *dst++ = swap_odd_even32(*src++); *dst++ = swap_odd_even32(*src++); *dst++ = swap_odd_even32(*src++); *dst++ = swap_odd_even32(*src++); *dst++ = swap_odd_even32(*src++); *dst++ = swap_odd_even32(*src++); } while (src < src_end); #else /* |llllllllLLLLLLLL|rrrrrrrrRRRRRRRR| => * |llllllllLLLLLLLL|rrrrrrrrRRRRRRRR| */ ci->memcpy(dst, src, PCM_CHUNK_SIZE); #endif } } /* chunk_to_wav_format */ static bool init_encoder(void) { struct enc_inputs inputs; struct enc_parameters params; if (ci->enc_get_inputs == NULL || ci->enc_set_parameters == NULL || ci->enc_get_chunk == NULL || ci->enc_finish_chunk == NULL || ci->enc_get_pcm_data == NULL ) return false; ci->enc_get_inputs(&inputs); if (inputs.config->afmt != AFMT_PCM_WAV) return false; sample_rate = inputs.sample_rate; num_channels = inputs.num_channels; rec_mono_mode = inputs.rec_mono_mode; err = 0; /* configure the buffer system */ params.afmt = AFMT_PCM_WAV; enc_size = PCM_CHUNK_SIZE*inputs.num_channels / 2; params.chunk_size = enc_size; params.enc_sample_rate = sample_rate; params.reserve_bytes = 0; params.events_callback = enc_events_callback; ci->enc_set_parameters(¶ms); return true; } /* init_encoder */ /* main codec entry point */ enum codec_status codec_main(void) { if (!init_encoder()) { ci->enc_codec_loaded = -1; return CODEC_ERROR; } /* main application waits for this flag during encoder loading */ ci->enc_codec_loaded = 1; /* main encoding loop */ while(!ci->stop_encoder) { uint32_t *src; while ((src = (uint32_t *)ci->enc_get_pcm_data(PCM_CHUNK_SIZE)) != NULL) { struct enc_chunk_hdr *chunk; if (ci->stop_encoder) break; chunk = ci->enc_get_chunk(); chunk->enc_size = enc_size; chunk->num_pcm = PCM_SAMP_PER_CHUNK; chunk->enc_data = ENC_CHUNK_SKIP_HDR(chunk->enc_data, chunk); chunk_to_wav_format(src, (uint32_t *)chunk->enc_data); ci->enc_finish_chunk(); ci->yield(); } ci->yield(); } /* reset parameters to initial state */ ci->enc_set_parameters(NULL); /* main application waits for this flag during encoder removing */ ci->enc_codec_loaded = 0; return CODEC_OK; } /* codec_start */ #endif /* ndef SIMULATOR */