rockbox/apps/codecs/aiff_enc.c

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/***************************************************************************
* __________ __ ___.
* 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.
*
****************************************************************************/
#include <inttypes.h>
#include "codeclib.h"
CODEC_ENC_HEADER
struct aiff_header
{
uint8_t form_id[4]; /* 00h - 'FORM' */
uint32_t form_size; /* 04h - size of file - 8 */
uint8_t aiff_id[4]; /* 08h - 'AIFF' */
uint8_t comm_id[4]; /* 0Ch - 'COMM' */
int32_t comm_size; /* 10h - num_channels through sample_rate
(18) */
int16_t num_channels; /* 14h - 1=M, 2=S, etc. */
uint32_t num_sample_frames; /* 16h - num samples for each channel */
int16_t sample_size; /* 1ah - 1-32 bits per sample */
uint8_t sample_rate[10]; /* 1ch - IEEE 754 80-bit floating point */
uint8_t ssnd_id[4]; /* 26h - "SSND" */
int32_t ssnd_size; /* 2ah - size of chunk from offset to
end of pcm data */
uint32_t offset; /* 2eh - data offset from end of header */
uint32_t block_size; /* 32h - pcm data alignment */
/* 36h */
} __attribute__((packed));
#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)
/* Template headers */
struct aiff_header aiff_header =
{
{ 'F', 'O', 'R', 'M' }, /* form_id */
0, /* form_size (*) */
{ 'A', 'I', 'F', 'F' }, /* aiff_id */
{ 'C', 'O', 'M', 'M' }, /* comm_id */
htobe32(18), /* comm_size */
0, /* num_channels (*) */
0, /* num_sample_frames (*) */
htobe16(PCM_DEPTH_BITS), /* sample_size */
{ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }, /* sample_rate (*) */
{ 'S', 'S', 'N', 'D' }, /* ssnd_id */
0, /* ssnd_size (*) */
htobe32(0), /* offset */
htobe32(0), /* block_size */
};
/* (*) updated when finalizing file */
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;
/* convert unsigned 32 bit value to 80-bit floating point number */
STATICIRAM void uint32_h_to_ieee754_extended_be(uint8_t f[10], uint32_t l)
ICODE_ATTR;
STATICIRAM void uint32_h_to_ieee754_extended_be(uint8_t f[10], uint32_t l)
{
int32_t exp;
ci->memset(f, 0, 10);
if (l == 0)
return;
for (exp = 30; (l & (1ul << 31)) == 0; exp--)
l <<= 1;
/* sign always zero - bit 79 */
/* exponent is 0-31 (normalized: 31 - shift + 16383) - bits 64-78 */
f[0] = 0x40;
f[1] = (uint8_t)exp;
/* mantissa is value left justified with most significant non-zero
bit stored in bit 63 - bits 0-63 */
f[2] = (uint8_t)(l >> 24);
f[3] = (uint8_t)(l >> 16);
f[4] = (uint8_t)(l >> 8);
f[5] = (uint8_t)(l >> 0);
} /* uint32_h_to_ieee754_extended_be */
/* 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("aiff 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, 0666);
if (data->rec_file < 0)
return false;
/* reset sample count */
data->num_pcm_samples = 0;
/* write template headers */
if (ci->write(data->rec_file, &aiff_header, sizeof (aiff_header))
!= sizeof (aiff_header))
{
return false;
}
data->new_enc_size += sizeof(aiff_header);
return true;
} /* on_start_file */
static bool on_end_file(struct enc_file_event_data *data)
{
/* update template headers */
struct aiff_header hdr;
uint32_t data_size;
if (!is_file_data_ok(data))
return false;
if (ci->lseek(data->rec_file, 0, SEEK_SET) != 0 ||
ci->read(data->rec_file, &hdr, sizeof (hdr)) != sizeof (hdr))
{
return false;
}
data_size = data->num_pcm_samples*num_channels*PCM_DEPTH_BYTES;
/* 'FORM' chunk */
hdr.form_size = htobe32(data_size + sizeof (hdr) - 8);
/* 'COMM' chunk */
hdr.num_channels = htobe16(num_channels);
hdr.num_sample_frames = htobe32(data->num_pcm_samples);
uint32_h_to_ieee754_extended_be(hdr.sample_rate, sample_rate);
/* 'SSND' chunk */
hdr.ssnd_size = htobe32(data_size + 8);
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)
{
switch (event)
{
case ENC_WRITE_CHUNK:
if (on_write_chunk((struct enc_file_event_data *)data))
return;
break;
case ENC_START_FILE:
if (on_start_file((struct enc_file_event_data *)data))
return;
break;
case ENC_END_FILE:
if (on_end_file((struct enc_file_event_data *)data))
return;
break;
default:
return;
}
/* Something failed above. Signal error back to core. */
((struct enc_file_event_data *)data)->chunk->flags |= CHUNKF_ERROR;
} /* enc_events_callback */
/* convert native pcm samples to aiff 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 = (int16_t)lr1;
lr2 = *(*src)++;
lr2 = (int16_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)++ = htobe32((lr1 << 16) | (uint16_t)lr2);
} /* sample_to_mono */
STATICIRAM void chunk_to_aiff_format(uint32_t *src, uint32_t *dst) ICODE_ATTR;
STATICIRAM void chunk_to_aiff_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|
*/
ci->memcpy(dst, src, PCM_CHUNK_SIZE);
#else
/* |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);
#endif
}
} /* chunk_to_aiff_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_AIFF)
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_AIFF;
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(&params);
return true;
} /* init_encoder */
/* this is the codec entry point */
enum codec_status codec_main(enum codec_entry_call_reason reason)
{
if (reason == CODEC_LOAD) {
if (!init_encoder())
return CODEC_ERROR;
}
else if (reason == CODEC_UNLOAD) {
/* reset parameters to initial state */
ci->enc_set_parameters(NULL);
}
return CODEC_OK;
}
/* this is called for each file to process */
enum codec_status codec_run(void)
{
/* main encoding loop */
while (ci->get_command(NULL) != CODEC_ACTION_HALT)
{
uint32_t *src = (uint32_t *)ci->enc_get_pcm_data(PCM_CHUNK_SIZE);
struct enc_chunk_hdr *chunk;
if (src == NULL)
continue;
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_aiff_format(src, (uint32_t *)chunk->enc_data);
ci->enc_finish_chunk();
}
return CODEC_OK;
}