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|
/*
* Purpose: Virtual mixing audio driver recording routines
*/
/*
*
* This file is part of Open Sound System.
*
* Copyright (C) 4Front Technologies 1996-2008.
*
* This this source file is released under GPL v2 license (no other versions).
* See the COPYING file included in the main directory of this source
* distribution for the license terms and conditions.
*
*/
#define SWAP_SUPPORT
#include <oss_config.h>
#include "vmix.h"
#if 0
/* Debugging macros */
extern unsigned char tmp_status;
# define UP_STATUS(v) OUTB(NULL, (tmp_status=tmp_status|(v)), 0x378)
# define DOWN_STATUS(v) OUTB(NULL, (tmp_status=tmp_status&~(v)), 0x378)
#else
# define UP_STATUS(v)
# define DOWN_STATUS(v)
#endif
#undef SINE_DEBUG
#ifndef CONFIG_OSS_VMIX_FLOAT
#undef SINE_DEBUG
#endif
#ifdef SINE_DEBUG
#define SINE_SIZE 48
static const float sine_table[SINE_SIZE] = {
0.000000, 0.130526, 0.258819, 0.382683,
0.500000, 0.608761, 0.707107, 0.793353,
0.866025, 0.923880, 0.965926, 0.991445,
1.000000, 0.991445, 0.965926, 0.923880,
0.866025, 0.793353, 0.707107, 0.608761,
0.500000, 0.382683, 0.258819, 0.130526,
0.000000, -0.130526, -0.258819, -0.382683,
-0.500000, -0.608761, -0.707107, -0.793353,
-0.866025, -0.923880, -0.965926, -0.991445,
-1.000000, -0.991445, -0.965926, -0.923880,
-0.866025, -0.793353, -0.707107, -0.608761,
-0.500000, -0.382683, -0.258819, -0.130526
};
static int sine_phase[2] = { 0 };
#endif
/*
* Recording import functions (from the physical devices)
*/
#undef INT_IMPORT
#define INT_IMPORT(x) (x * 256)
static void
import16ne (vmix_engine_t * eng, void *inbuf, vmix_sample_t * chbufs[],
int channels, int samples)
{
short *op;
#define SAMPLE_TYPE short
#define SAMPLE_RANGE 32768.0
#undef VMIX_BYTESWAP
#define VMIX_BYTESWAP(x) x
#include "vmix_import.inc"
}
static void
import16oe (vmix_engine_t * eng, void *inbuf, vmix_sample_t * chbufs[],
int channels, int samples)
{
short *op;
#undef SAMPLE_TYPE
#undef SAMPLE_RANGE
#define SAMPLE_TYPE short
#define SAMPLE_RANGE 32768.0
#undef VMIX_BYTESWAP
#define VMIX_BYTESWAP(x) bswap16(x)
#include "vmix_import.inc"
}
#undef INT_IMPORT
#define INT_IMPORT(x) (x / 256)
static void
import32ne (vmix_engine_t * eng, void *inbuf, vmix_sample_t * chbufs[],
int channels, int samples)
{
int *op;
#undef SAMPLE_TYPE
#undef SAMPLE_RANGE
#define SAMPLE_TYPE int
#define SAMPLE_RANGE 2147483648.0
#undef VMIX_BYTESWAP
#define VMIX_BYTESWAP(x) x
#include "vmix_import.inc"
}
static void
import32oe (vmix_engine_t * eng, void *inbuf, vmix_sample_t * chbufs[],
int channels, int samples)
{
int *op;
#define SAMPLE_TYPE int
#define SAMPLE_RANGE 2147483648.0
#undef VMIX_BYTESWAP
#define VMIX_BYTESWAP(x) bswap32(x)
#include "vmix_import.inc"
}
/*
* recording export functions to virtual devices
*/
#undef BUFFER_TYPE
#define BUFFER_TYPE short *
#undef INT_EXPORT
#define INT_EXPORT(x) (x / 256)
void
vmix_rec_export_16ne (vmix_portc_t * portc, int nsamples)
{
short *outp;
#undef VMIX_BYTESWAP
#define VMIX_BYTESWAP(x) x
#ifdef CONFIG_OSS_VMIX_FLOAT
double range = 32767.0;
#endif
#include "rec_export.inc"
}
void
vmix_rec_export_16oe (vmix_portc_t * portc, int nsamples)
{
short *outp;
#undef VMIX_BYTESWAP
#define VMIX_BYTESWAP(x) bswap16(x)
#ifdef CONFIG_OSS_VMIX_FLOAT
double range = 32767.0;
#endif
#include "rec_export.inc"
}
#undef BUFFER_TYPE
#define BUFFER_TYPE int *
#undef INT_EXPORT
#define INT_EXPORT(x) (x * 256)
void
vmix_rec_export_32ne (vmix_portc_t * portc, int nsamples)
{
int *outp;
#undef VMIX_BYTESWAP
#define VMIX_BYTESWAP(x) x
#ifdef CONFIG_OSS_VMIX_FLOAT
double range = 2147483647.0;
#endif
#include "rec_export.inc"
}
void
vmix_rec_export_32oe (vmix_portc_t * portc, int nsamples)
{
int *outp;
#undef VMIX_BYTESWAP
#define VMIX_BYTESWAP(x) bswap32(x)
#ifdef CONFIG_OSS_VMIX_FLOAT
double range = 2147483647.0;
#endif
#include "rec_export.inc"
}
#ifdef CONFIG_OSS_VMIX_FLOAT
void
vmix_rec_export_float (vmix_portc_t * portc, int nsamples)
{
float *outp;
#undef BUFFER_TYPE
#define BUFFER_TYPE float *
#undef VMIX_BYTESWAP
#define VMIX_BYTESWAP(x) x
double range = 1.0;
#include "rec_export.inc"
}
#endif
static void
vmix_record_callback (int dev, int parm)
{
int i, n;
int do_input = 0;
adev_t *adev = audio_engines[dev];
dmap_t *dmap = adev->dmap_in;
oss_native_word flags;
vmix_mixer_t *mixer = adev->vmix_mixer;
vmix_engine_t *eng = &mixer->record_engine;
#ifdef CONFIG_OSS_VMIX_FLOAT
fp_env_t fp_buf;
short *fp_env = fp_buf;
fp_flags_t fp_flags;
#endif
if (mixer == NULL) /* Houston, we have a problem. */
return;
/*
* Check if any input applications are active. Skip input processing
* if it's not needed (to save CPU cycles).
*/
for (i = 0; i < mixer->num_clientdevs; i++)
if (mixer->client_portc[i]->trigger_bits & PCM_ENABLE_INPUT)
do_input = 1;
if (!do_input) /* Skip all input processing */
{
n = 0;
while (n++ < dmap->nfrags
&& (int) (dmap->byte_counter - dmap->user_counter) >=
dmap->fragment_size)
{
dmap->user_counter += dmap->fragment_size;
}
return;
}
UP_STATUS (0x02);
MUTEX_ENTER_IRQDISABLE (mixer->mutex, flags);
#ifdef CONFIG_OSS_VMIX_FLOAT
{
/*
* Align the FP save buffer to 16 byte boundary
*/
oss_native_word p;
p = (oss_native_word) fp_buf;
p = ((p + 15ULL) / 16) * 16;
fp_env = (short *) p;
}
FP_SAVE (fp_env, fp_flags);
#endif
n = 0;
while (n++ < dmap->nfrags
&& (int) (dmap->byte_counter - dmap->user_counter) >=
dmap->fragment_size)
{
int i, p;
unsigned char *inbuf;
if (!do_input)
{
/*
* Just skip the recorded data becaus nobody needs it.
*/
dmap->user_counter += dmap->fragment_size;
continue;
}
for (i = 0; i < eng->channels; i++)
{
memset (eng->chbufs[i], 0, CHBUF_SAMPLES * sizeof (vmix_sample_t));
}
p = (int) (dmap->user_counter % dmap->bytes_in_use);
inbuf = dmap->dmabuf + p;
eng->converter (eng, inbuf, eng->chbufs, eng->channels,
eng->samples_per_frag);
for (i = 0; i < mixer->num_clientdevs; i++)
{
vmix_portc_t *portc = mixer->client_portc[i];
if (portc->trigger_bits & PCM_ENABLE_INPUT)
{
if (portc->rec_mixing_func == NULL)
continue;
if (portc->rec_choffs + portc->channels >
mixer->record_engine.channels)
portc->rec_choffs = 0;
portc->rec_mixing_func (portc,
mixer->record_engine.samples_per_frag);
}
}
dmap->user_counter += dmap->fragment_size;
}
#ifdef CONFIG_OSS_VMIX_FLOAT
FP_RESTORE (fp_env, fp_flags);
#endif
MUTEX_EXIT_IRQRESTORE (mixer->mutex, flags);
/*
* Call oss_audio_inputintr outside FP mode because it may
* cause a task switch (under Solaris). Task switch may turn on CR0.TS under
* x86 which in turn will cause #nm exception.
*/
for (i = 0; i < mixer->num_clientdevs; i++)
if (mixer->client_portc[i]->trigger_bits & PCM_ENABLE_INPUT)
{
vmix_portc_t *portc = mixer->client_portc[i];
oss_audio_inputintr (portc->audio_dev, 0);
}
DOWN_STATUS (0x02);
}
void
finalize_record_engine (vmix_mixer_t * mixer, int fmt, adev_t * adev,
dmap_p dmap)
{
int i;
switch (fmt)
{
case AFMT_S16_NE:
mixer->record_engine.bits = 16;
mixer->record_engine.converter = import16ne;
break;
case AFMT_S16_OE:
mixer->record_engine.bits = 16;
mixer->record_engine.converter = import16oe;
break;
case AFMT_S32_NE:
mixer->record_engine.bits = 32;
mixer->record_engine.converter = import32ne;
break;
case AFMT_S32_OE:
mixer->record_engine.bits = 32;
mixer->record_engine.converter = import32oe;
break;
default:
cmn_err (CE_CONT, "Unrecognized recording sample format %x\n", fmt);
return;
}
mixer->record_engine.fragsize = dmap->fragment_size;
mixer->record_engine.samples_per_frag =
mixer->record_engine.fragsize / mixer->record_engine.channels /
(mixer->record_engine.bits / 8);
if (mixer->record_engine.samples_per_frag > CHBUF_SAMPLES)
{
cmn_err (CE_WARN, "Too many samples per fragment (%d,%d)\n",
mixer->record_engine.samples_per_frag, CHBUF_SAMPLES);
return;
}
for (i = 0; i < mixer->record_engine.channels; i++)
if (mixer->record_engine.chbufs[i] == NULL) /* Not allocated yet */
{
mixer->record_engine.chbufs[i] =
PMALLOC (mixer->master_osdev,
CHBUF_SAMPLES * sizeof (vmix_sample_t));
if (mixer->record_engine.chbufs[i] == NULL)
{
cmn_err (CE_WARN, "Out of memory\n");
return;
}
}
dmap->audio_callback = vmix_record_callback; /* Enable conversions */
dmap->callback_parm = mixer->instance_num;
dmap->dma_mode = PCM_ENABLE_INPUT;
if (mixer->num_clientdevs > 1)
{
adev->redirect_out = mixer->client_portc[0]->audio_dev;
adev->vmix_mixer = mixer;
}
vmix_record_callback (mixer->inputdev, mixer->instance_num);
}
void
vmix_setup_record_engine (vmix_mixer_t * mixer, adev_t * adev, dmap_t * dmap)
{
int fmt;
int old_min;
int frags = 0x7fff0007; /* fragment size of 128 bytes */
/*
* Sample format (and endianess) setup
*
*/
// First make sure a sane format is selected before starting to probe
fmt = adev->d->adrv_set_format (mixer->inputdev, AFMT_S16_LE);
fmt = adev->d->adrv_set_format (mixer->inputdev, AFMT_S16_NE);
// Find out the "best" sample format supported by the device
if (adev->iformat_mask & AFMT_S16_OE)
fmt = AFMT_S16_OE;
if (adev->iformat_mask & AFMT_S16_NE)
fmt = AFMT_S16_NE;
if (mixer->multich_enable)
{
if (adev->iformat_mask & AFMT_S32_OE)
fmt = AFMT_S32_OE;
if (adev->iformat_mask & AFMT_S32_NE)
fmt = AFMT_S32_NE;
}
fmt = adev->d->adrv_set_format (mixer->inputdev, fmt);
mixer->record_engine.fmt = fmt;
/*
* Number of channels
*/
mixer->record_engine.channels = mixer->max_channels;
if (mixer->record_engine.channels > MAX_REC_CHANNELS)
mixer->record_engine.channels = MAX_REC_CHANNELS;
if (!mixer->multich_enable)
mixer->record_engine.channels = 2;
/* Force the device to stereo before trying with (possibly) imultiple channels */
adev->d->adrv_set_channels (mixer->inputdev, 2);
mixer->record_engine.channels =
adev->d->adrv_set_channels (mixer->inputdev,
mixer->record_engine.channels);
if (mixer->record_engine.channels > MAX_REC_CHANNELS)
{
cmn_err (CE_WARN,
"Number of channels (%d) is larger than maximum (%d)\n",
mixer->record_engine.channels, MAX_REC_CHANNELS);
return;
}
/*
* Try to set the same rate than for playback.
*/
mixer->record_engine.rate =
oss_audio_set_rate (mixer->inputdev, mixer->play_engine.rate);
if (mixer->record_engine.rate <= 22050)
frags = 0x7fff0004; /* Use smaller fragments */
audio_engines[mixer->inputdev]->hw_parms.channels =
mixer->record_engine.channels;
audio_engines[mixer->inputdev]->hw_parms.rate = mixer->record_engine.rate;
audio_engines[mixer->inputdev]->dmap_in->data_rate =
mixer->record_engine.rate * mixer->record_engine.channels *
mixer->record_engine.bits / 8;
audio_engines[mixer->inputdev]->dmap_in->frame_size =
mixer->record_engine.channels * mixer->record_engine.bits / 8;
old_min = adev->min_fragments;
#if 0
if ((adev->max_fragments == 0 || adev->max_fragments >= 4)
&& adev->min_block == 0)
adev->min_fragments = 4;
#endif
oss_audio_ioctl (mixer->inputdev, NULL, SNDCTL_DSP_SETFRAGMENT,
(ioctl_arg) & frags);
oss_audio_ioctl (mixer->inputdev, NULL, SNDCTL_DSP_GETBLKSIZE,
(ioctl_arg) & mixer->record_engine.fragsize);
dmap->bytes_in_use = dmap->fragment_size * dmap->nfrags;
oss_audio_ioctl (mixer->inputdev, NULL, SNDCTL_DSP_GETBLKSIZE,
(ioctl_arg) & mixer->record_engine.fragsize);
mixer->record_engine.fragsize = dmap->fragment_size;
adev->min_fragments = old_min;
if (mixer->record_engine.channels > 2)
{
DDB (cmn_err
(CE_CONT, "Enabling multi channel rec mode, %d hw channels\n",
mixer->record_engine.channels));
}
else if (mixer->record_engine.channels != 2)
{
cmn_err (CE_WARN,
"Master device doesn't support suitable channel configuration\n");
return;
}
finalize_record_engine (mixer, fmt, adev, dmap);
}
|
