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rdpsnd_dsp.c
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rdpsnd_dsp.c
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/*
rdesktop: A Remote Desktop Protocol client.
Sound DSP routines
Copyright (C) Michael Gernoth <mike@zerfleddert.de> 2006-2008
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 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <strings.h>
#include "rdesktop.h"
#include "rdpsnd.h"
#include "rdpsnd_dsp.h"
#ifdef HAVE_LIBSAMPLERATE
#include <samplerate.h>
#define SRC_CONVERTER SRC_SINC_MEDIUM_QUALITY
#endif
#define MAX_VOLUME 65535
static uint16 softvol_left = MAX_VOLUME;
static uint16 softvol_right = MAX_VOLUME;
static uint32 resample_to_srate = 44100;
static uint16 resample_to_bitspersample = 16;
static uint16 resample_to_channels = 2;
#ifdef HAVE_LIBSAMPLERATE
static SRC_STATE *src_converter = NULL;
#endif
void
rdpsnd_dsp_softvol_set(uint16 left, uint16 right)
{
softvol_left = left;
softvol_right = right;
DEBUG(("rdpsnd_dsp_softvol_set: left: %u, right: %u\n", left, right));
}
void
rdpsnd_dsp_softvol(unsigned char *buffer, unsigned int size, RD_WAVEFORMATEX * format)
{
unsigned int factor_left, factor_right;
unsigned char *posin = buffer;
unsigned char *posout = buffer;
if ((softvol_left == MAX_VOLUME) && (softvol_right == MAX_VOLUME))
return;
factor_left = (softvol_left * 256) / MAX_VOLUME;
factor_right = (softvol_right * 256) / MAX_VOLUME;
if (format->nChannels == 1)
{
factor_left = factor_right = (factor_left + factor_right) / 2;
}
if (format->wBitsPerSample == 8)
{
sint8 val;
while (posout < buffer + size)
{
/* Left */
val = *posin++;
val = (val * factor_left) >> 8;
*posout++ = val;
/* Right */
val = *posin++;
val = (val * factor_right) >> 8;
*posout++ = val;
}
}
else
{
sint16 val;
while (posout < buffer + size)
{
/* Left */
val = *posin++;
val |= *posin++ << 8;
val = (val * factor_left) >> 8;
*posout++ = val & 0xff;
*posout++ = val >> 8;
/* Right */
val = *posin++;
val |= *posin++ << 8;
val = (val * factor_right) >> 8;
*posout++ = val & 0xff;
*posout++ = val >> 8;
}
}
DEBUG(("using softvol with factors left: %d, right: %d (%d/%d)\n", factor_left,
factor_right, format->wBitsPerSample, format->nChannels));
}
void
rdpsnd_dsp_swapbytes(unsigned char *buffer, unsigned int size, RD_WAVEFORMATEX * format)
{
int i;
uint8 swap;
if (format->wBitsPerSample == 8)
return;
if (size & 0x1)
warning("badly aligned sound data");
for (i = 0; i < (int) size; i += 2)
{
swap = *(buffer + i);
*(buffer + i) = *(buffer + i + 1);
*(buffer + i + 1) = swap;
}
}
RD_BOOL
rdpsnd_dsp_resample_set(uint32 device_srate, uint16 device_bitspersample, uint16 device_channels)
{
#ifdef HAVE_LIBSAMPLERATE
int err;
#endif
if (device_bitspersample != 16 && device_bitspersample != 8)
return False;
if (device_channels != 1 && device_channels != 2)
return False;
resample_to_srate = device_srate;
resample_to_bitspersample = device_bitspersample;
resample_to_channels = device_channels;
#ifdef HAVE_LIBSAMPLERATE
if (src_converter != NULL)
src_converter = src_delete(src_converter);
if ((src_converter = src_new(SRC_CONVERTER, device_channels, &err)) == NULL)
{
warning("src_new failed: %d!\n", err);
return False;
}
#endif
return True;
}
RD_BOOL
rdpsnd_dsp_resample_supported(RD_WAVEFORMATEX * format)
{
if (format->wFormatTag != WAVE_FORMAT_PCM)
return False;
if ((format->nChannels != 1) && (format->nChannels != 2))
return False;
if ((format->wBitsPerSample != 8) && (format->wBitsPerSample != 16))
return False;
return True;
}
uint32
rdpsnd_dsp_resample(unsigned char **out, unsigned char *in, unsigned int size,
RD_WAVEFORMATEX * format, RD_BOOL stream_be)
{
#ifdef HAVE_LIBSAMPLERATE
SRC_DATA resample_data;
float *infloat, *outfloat;
int err;
#else
int ratio1k = (resample_to_srate * 1000) / format->nSamplesPerSec;
#endif
int innum, outnum;
unsigned char *tmpdata = NULL, *tmp = NULL;
int samplewidth = format->wBitsPerSample / 8;
int outsize = 0;
int i;
if ((resample_to_bitspersample == format->wBitsPerSample) &&
(resample_to_channels == format->nChannels) &&
(resample_to_srate == format->nSamplesPerSec))
return 0;
#ifdef B_ENDIAN
if (!stream_be)
rdpsnd_dsp_swapbytes(in, size, format);
#endif
if (resample_to_channels != format->nChannels)
{
int newsize = (size / format->nChannels) * resample_to_channels;
tmpdata = (unsigned char *) xmalloc(newsize);
for (i = 0; i < newsize / samplewidth; i++)
{
if (format->nChannels > resample_to_channels)
memcpy(tmpdata + (i * samplewidth),
in +
(((i * format->nChannels) / resample_to_channels) *
samplewidth), samplewidth);
else
memcpy(tmpdata + (i * samplewidth),
in +
(((i / resample_to_channels) * format->nChannels +
(i % format->nChannels)) * samplewidth), samplewidth);
}
in = tmpdata;
size = newsize;
}
/* Expand 8bit input-samples to 16bit */
#ifndef HAVE_LIBSAMPLERATE /* libsamplerate needs 16bit samples */
if (format->wBitsPerSample != resample_to_bitspersample)
#endif
{
/* source: 8 bit, dest: 16bit */
if (format->wBitsPerSample == 8)
{
tmp = tmpdata;
tmpdata = (unsigned char *) xmalloc(size * 2);
for (i = 0; i < (int) size; i++)
{
tmpdata[i * 2] = in[i];
tmpdata[(i * 2) + 1] = 0x00;
}
in = tmpdata;
samplewidth = 16 / 2;
size *= 2;
if (tmp != NULL)
xfree(tmp);
}
}
innum = size / samplewidth;
/* Do the resampling */
#ifdef HAVE_LIBSAMPLERATE
if (src_converter == NULL)
{
warning("no samplerate converter available!\n");
return 0;
}
outnum = ((float) innum * ((float) resample_to_srate / (float) format->nSamplesPerSec)) + 1;
infloat = (float *) xmalloc(sizeof(float) * innum);
outfloat = (float *) xmalloc(sizeof(float) * outnum);
src_short_to_float_array((short *) in, infloat, innum);
bzero(&resample_data, sizeof(resample_data));
resample_data.data_in = infloat;
resample_data.data_out = outfloat;
resample_data.input_frames = innum / resample_to_channels;
resample_data.output_frames = outnum / resample_to_channels;
resample_data.src_ratio = (double) resample_to_srate / (double) format->nSamplesPerSec;
resample_data.end_of_input = 0;
if ((err = src_process(src_converter, &resample_data)) != 0)
error("src_process: %s", src_strerror(err));
xfree(infloat);
outsize = resample_data.output_frames_gen * resample_to_channels * samplewidth;
*out = (unsigned char *) xmalloc(outsize);
src_float_to_short_array(outfloat, (short *) *out,
resample_data.output_frames_gen * resample_to_channels);
xfree(outfloat);
#else
/* Michaels simple linear resampler */
if (resample_to_srate < format->nSamplesPerSec)
{
warning("downsampling currently not supported!\n");
return 0;
}
outnum = (innum * ratio1k) / 1000;
outsize = outnum * samplewidth;
*out = (unsigned char *) xmalloc(outsize);
bzero(*out, outsize);
for (i = 0; i < outsize / (resample_to_channels * samplewidth); i++)
{
int source = (i * 1000) / ratio1k;
#if 0 /* Partial for linear resampler */
int part = (i * 100000) / ratio1k - source * 100;
#endif
int j;
if (source * resample_to_channels + samplewidth > (int) size)
break;
#if 0 /* Linear resampling, TODO: soundquality fixes (LP filter) */
if (samplewidth == 1)
{
sint8 cval1, cval2;
for (j = 0; j < resample_to_channels; j++)
{
memcpy(&cval1,
in + (source * resample_to_channels * samplewidth) +
(samplewidth * j), samplewidth);
memcpy(&cval2,
in + ((source + 1) * resample_to_channels * samplewidth) +
(samplewidth * j), samplewidth);
cval1 += (sint8) (cval2 * part) / 100;
memcpy(*out + (i * resample_to_channels * samplewidth) +
(samplewidth * j), &cval1, samplewidth);
}
}
else
{
sint16 sval1, sval2;
for (j = 0; j < resample_to_channels; j++)
{
memcpy(&sval1,
in + (source * resample_to_channels * samplewidth) +
(samplewidth * j), samplewidth);
memcpy(&sval2,
in + ((source + 1) * resample_to_channels * samplewidth) +
(samplewidth * j), samplewidth);
sval1 += (sint16) (sval2 * part) / 100;
memcpy(*out + (i * resample_to_channels * samplewidth) +
(samplewidth * j), &sval1, samplewidth);
}
}
#else /* Nearest neighbor search */
for (j = 0; j < resample_to_channels; j++)
{
memcpy(*out + (i * resample_to_channels * samplewidth) + (samplewidth * j),
in + (source * resample_to_channels * samplewidth) +
(samplewidth * j), samplewidth);
}
#endif
}
outsize = i * resample_to_channels * samplewidth;
#endif
if (tmpdata != NULL)
xfree(tmpdata);
/* Shrink 16bit output-samples to 8bit */
#ifndef HAVE_LIBSAMPLERATE /* libsamplerate produces 16bit samples */
if (format->wBitsPerSample != resample_to_bitspersample)
#endif
{
/* source: 16 bit, dest: 8 bit */
if (resample_to_bitspersample == 8)
{
for (i = 0; i < outsize; i++)
{
*out[i] = *out[i * 2];
}
outsize /= 2;
}
}
#ifdef B_ENDIAN
if (!stream_be)
rdpsnd_dsp_swapbytes(*out, outsize, format);
#endif
return outsize;
}
STREAM
rdpsnd_dsp_process(unsigned char *data, unsigned int size, struct audio_driver * current_driver,
RD_WAVEFORMATEX * format)
{
static struct stream out;
RD_BOOL stream_be = False;
/* softvol and byteswap do not change the amount of data they
return, so they can operate on the input-stream */
if (current_driver->wave_out_volume == rdpsnd_dsp_softvol_set)
rdpsnd_dsp_softvol(data, size, format);
#ifdef B_ENDIAN
if (current_driver->need_byteswap_on_be)
{
rdpsnd_dsp_swapbytes(data, size, format);
stream_be = True;
}
#endif
out.data = NULL;
if (current_driver->need_resampling)
out.size = rdpsnd_dsp_resample(&out.data, data, size, format, stream_be);
if (out.data == NULL)
{
out.data = (unsigned char *) xmalloc(size);
memcpy(out.data, data, size);
out.size = size;
}
out.p = out.data;
out.end = out.p + out.size;
return &out;
}