yuzu/externals/cubeb/src/cubeb_jack.cpp

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/*
* Copyright © 2012 David Richards
* Copyright © 2013 Sebastien Alaiwan
* Copyright © 2016 Damien Zammit
*
* This program is made available under an ISC-style license. See the
* accompanying file LICENSE for details.
*/
#define _DEFAULT_SOURCE
#define _BSD_SOURCE
#ifndef __FreeBSD__
#define _POSIX_SOURCE
#endif
#include "cubeb-internal.h"
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#include "cubeb/cubeb.h"
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#include "cubeb_resampler.h"
#include "cubeb_utils.h"
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#include <dlfcn.h>
#include <limits.h>
#include <math.h>
#include <pthread.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
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#include <jack/jack.h>
#include <jack/statistics.h>
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#ifdef DISABLE_LIBJACK_DLOPEN
#define WRAP(x) x
#else
#define WRAP(x) (*api_##x)
#define JACK_API_VISIT(X) \
X(jack_activate) \
X(jack_client_close) \
X(jack_client_open) \
X(jack_connect) \
X(jack_free) \
X(jack_get_ports) \
X(jack_get_sample_rate) \
X(jack_get_xrun_delayed_usecs) \
X(jack_get_buffer_size) \
X(jack_port_get_buffer) \
X(jack_port_name) \
X(jack_port_register) \
X(jack_port_unregister) \
X(jack_port_get_latency_range) \
X(jack_set_process_callback) \
X(jack_set_xrun_callback) \
X(jack_set_graph_order_callback) \
X(jack_set_error_function) \
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X(jack_set_info_function)
#define IMPORT_FUNC(x) static decltype(x) * api_##x;
JACK_API_VISIT(IMPORT_FUNC);
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#undef IMPORT_FUNC
#endif
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#define JACK_DEFAULT_IN "JACK capture"
#define JACK_DEFAULT_OUT "JACK playback"
static const int MAX_STREAMS = 16;
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static const int MAX_CHANNELS = 8;
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static const int FIFO_SIZE = 4096 * sizeof(float);
enum devstream {
NONE = 0,
IN_ONLY,
OUT_ONLY,
DUPLEX,
};
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enum cbjack_connect_ports_options {
CBJACK_CP_OPTIONS_NONE = 0x0,
CBJACK_CP_OPTIONS_SKIP_OUTPUT = 0x1,
CBJACK_CP_OPTIONS_SKIP_INPUT = 0x2,
};
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static void
s16ne_to_float(float * dst, const int16_t * src, size_t n)
{
for (size_t i = 0; i < n; i++)
*(dst++) = (float)((float)*(src++) / 32767.0f);
}
static void
float_to_s16ne(int16_t * dst, float * src, size_t n)
{
for (size_t i = 0; i < n; i++) {
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if (*src > 1.f)
*src = 1.f;
if (*src < -1.f)
*src = -1.f;
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*(dst++) = (int16_t)((int16_t)(*(src++) * 32767));
}
}
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extern "C" {
/*static*/ int
jack_init(cubeb ** context, char const * context_name);
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}
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static char const *
cbjack_get_backend_id(cubeb * context);
static int
cbjack_get_max_channel_count(cubeb * ctx, uint32_t * max_channels);
static int
cbjack_get_min_latency(cubeb * ctx, cubeb_stream_params params,
uint32_t * latency_frames);
static int
cbjack_get_latency(cubeb_stream * stm, unsigned int * latency_frames);
static int
cbjack_get_preferred_sample_rate(cubeb * ctx, uint32_t * rate);
static void
cbjack_destroy(cubeb * context);
static void
cbjack_interleave_capture(cubeb_stream * stream, float ** in,
jack_nframes_t nframes, bool format_mismatch);
static void
cbjack_deinterleave_playback_refill_s16ne(cubeb_stream * stream,
short ** bufs_in, float ** bufs_out,
jack_nframes_t nframes);
static void
cbjack_deinterleave_playback_refill_float(cubeb_stream * stream,
float ** bufs_in, float ** bufs_out,
jack_nframes_t nframes);
static int
cbjack_stream_device_destroy(cubeb_stream * stream, cubeb_device * device);
static int
cbjack_stream_get_current_device(cubeb_stream * stm,
cubeb_device ** const device);
static int
cbjack_enumerate_devices(cubeb * context, cubeb_device_type type,
cubeb_device_collection * collection);
static int
cbjack_device_collection_destroy(cubeb * context,
cubeb_device_collection * collection);
static int
cbjack_stream_init(cubeb * context, cubeb_stream ** stream,
char const * stream_name, cubeb_devid input_device,
cubeb_stream_params * input_stream_params,
cubeb_devid output_device,
cubeb_stream_params * output_stream_params,
unsigned int latency_frames,
cubeb_data_callback data_callback,
cubeb_state_callback state_callback, void * user_ptr);
static void
cbjack_stream_destroy(cubeb_stream * stream);
static int
cbjack_stream_start(cubeb_stream * stream);
static int
cbjack_stream_stop(cubeb_stream * stream);
static int
cbjack_stream_get_position(cubeb_stream * stream, uint64_t * position);
static int
cbjack_stream_set_volume(cubeb_stream * stm, float volume);
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static struct cubeb_ops const cbjack_ops = {
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.init = jack_init,
.get_backend_id = cbjack_get_backend_id,
.get_max_channel_count = cbjack_get_max_channel_count,
.get_min_latency = cbjack_get_min_latency,
.get_preferred_sample_rate = cbjack_get_preferred_sample_rate,
.enumerate_devices = cbjack_enumerate_devices,
.device_collection_destroy = cbjack_device_collection_destroy,
.destroy = cbjack_destroy,
.stream_init = cbjack_stream_init,
.stream_destroy = cbjack_stream_destroy,
.stream_start = cbjack_stream_start,
.stream_stop = cbjack_stream_stop,
.stream_get_position = cbjack_stream_get_position,
.stream_get_latency = cbjack_get_latency,
.stream_get_input_latency = NULL,
.stream_set_volume = cbjack_stream_set_volume,
.stream_set_name = NULL,
.stream_get_current_device = cbjack_stream_get_current_device,
.stream_device_destroy = cbjack_stream_device_destroy,
.stream_register_device_changed_callback = NULL,
.register_device_collection_changed = NULL};
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struct cubeb_stream {
/* Note: Must match cubeb_stream layout in cubeb.c. */
cubeb * context;
void * user_ptr;
/**/
/**< Mutex for each stream */
pthread_mutex_t mutex;
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bool in_use; /**< Set to false iff the stream is free */
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bool ports_ready; /**< Set to true iff the JACK ports are ready */
cubeb_data_callback data_callback;
cubeb_state_callback state_callback;
cubeb_stream_params in_params;
cubeb_stream_params out_params;
cubeb_resampler * resampler;
uint64_t position;
bool pause;
float ratio;
enum devstream devs;
char stream_name[256];
jack_port_t * output_ports[MAX_CHANNELS];
jack_port_t * input_ports[MAX_CHANNELS];
float volume;
};
struct cubeb {
struct cubeb_ops const * ops;
void * libjack;
/**< Mutex for whole context */
pthread_mutex_t mutex;
/**< Audio buffers, converted to float */
float in_float_interleaved_buffer[FIFO_SIZE * MAX_CHANNELS];
float out_float_interleaved_buffer[FIFO_SIZE * MAX_CHANNELS];
/**< Audio buffer, at the sampling rate of the output */
float in_resampled_interleaved_buffer_float[FIFO_SIZE * MAX_CHANNELS * 3];
int16_t in_resampled_interleaved_buffer_s16ne[FIFO_SIZE * MAX_CHANNELS * 3];
float out_resampled_interleaved_buffer_float[FIFO_SIZE * MAX_CHANNELS * 3];
int16_t out_resampled_interleaved_buffer_s16ne[FIFO_SIZE * MAX_CHANNELS * 3];
cubeb_stream streams[MAX_STREAMS];
unsigned int active_streams;
cubeb_device_collection_changed_callback collection_changed_callback;
bool active;
unsigned int jack_sample_rate;
unsigned int jack_latency;
unsigned int jack_xruns;
unsigned int jack_buffer_size;
unsigned int fragment_size;
unsigned int output_bytes_per_frame;
jack_client_t * jack_client;
};
static int
load_jack_lib(cubeb * context)
{
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#ifndef DISABLE_LIBJACK_DLOPEN
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#ifdef __APPLE__
context->libjack = dlopen("libjack.0.dylib", RTLD_LAZY);
context->libjack = dlopen("/usr/local/lib/libjack.0.dylib", RTLD_LAZY);
#elif defined(__WIN32__)
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#ifdef _WIN64
context->libjack = LoadLibrary("libjack64.dll");
#else
context->libjack = LoadLibrary("libjack.dll");
#endif
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#else
context->libjack = dlopen("libjack.so.0", RTLD_LAZY);
if (!context->libjack) {
context->libjack = dlopen("libjack.so", RTLD_LAZY);
}
#endif
if (!context->libjack) {
return CUBEB_ERROR;
}
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#define LOAD(x) \
{ \
api_##x = (decltype(x) *)dlsym(context->libjack, #x); \
if (!api_##x) { \
dlclose(context->libjack); \
return CUBEB_ERROR; \
} \
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}
JACK_API_VISIT(LOAD);
#undef LOAD
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#endif
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return CUBEB_OK;
}
static void
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cbjack_connect_port_out(cubeb_stream * stream, const size_t out_port,
const char * const phys_in_port)
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{
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const char * src_port = WRAP(jack_port_name)(stream->output_ports[out_port]);
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WRAP(jack_connect)(stream->context->jack_client, src_port, phys_in_port);
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}
static void
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cbjack_connect_port_in(cubeb_stream * stream, const char * const phys_out_port,
size_t in_port)
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{
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const char * src_port = WRAP(jack_port_name)(stream->input_ports[in_port]);
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WRAP(jack_connect)(stream->context->jack_client, phys_out_port, src_port);
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}
static int
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cbjack_connect_ports(cubeb_stream * stream,
enum cbjack_connect_ports_options options)
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{
int r = CUBEB_ERROR;
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const char ** phys_in_ports =
WRAP(jack_get_ports)(stream->context->jack_client, NULL, NULL,
JackPortIsInput | JackPortIsPhysical);
const char ** phys_out_ports =
WRAP(jack_get_ports)(stream->context->jack_client, NULL, NULL,
JackPortIsOutput | JackPortIsPhysical);
if (phys_in_ports == NULL || *phys_in_ports == NULL ||
options & CBJACK_CP_OPTIONS_SKIP_OUTPUT) {
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goto skipplayback;
}
// Connect outputs to playback
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for (unsigned int c = 0;
c < stream->out_params.channels && phys_in_ports[c] != NULL; c++) {
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cbjack_connect_port_out(stream, c, phys_in_ports[c]);
}
// Special case playing mono source in stereo
if (stream->out_params.channels == 1 && phys_in_ports[1] != NULL) {
cbjack_connect_port_out(stream, 0, phys_in_ports[1]);
}
r = CUBEB_OK;
skipplayback:
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if (phys_out_ports == NULL || *phys_out_ports == NULL ||
options & CBJACK_CP_OPTIONS_SKIP_INPUT) {
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goto end;
}
// Connect inputs to capture
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for (unsigned int c = 0;
c < stream->in_params.channels && phys_out_ports[c] != NULL; c++) {
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cbjack_connect_port_in(stream, phys_out_ports[c], c);
}
r = CUBEB_OK;
end:
if (phys_out_ports) {
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WRAP(jack_free)(phys_out_ports);
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}
if (phys_in_ports) {
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WRAP(jack_free)(phys_in_ports);
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}
return r;
}
static int
cbjack_xrun_callback(void * arg)
{
cubeb * ctx = (cubeb *)arg;
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float delay = WRAP(jack_get_xrun_delayed_usecs)(ctx->jack_client);
float fragments = ceilf(((delay / 1000000.0) * ctx->jack_sample_rate) /
ctx->jack_buffer_size);
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ctx->jack_xruns += (unsigned int)fragments;
return 0;
}
static int
cbjack_graph_order_callback(void * arg)
{
cubeb * ctx = (cubeb *)arg;
int i;
jack_latency_range_t latency_range;
jack_nframes_t port_latency, max_latency = 0;
for (int j = 0; j < MAX_STREAMS; j++) {
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cubeb_stream * stm = &ctx->streams[j];
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if (!stm->in_use)
continue;
if (!stm->ports_ready)
continue;
for (i = 0; i < (int)stm->out_params.channels; ++i) {
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WRAP(jack_port_get_latency_range)
(stm->output_ports[i], JackPlaybackLatency, &latency_range);
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port_latency = latency_range.max;
if (port_latency > max_latency)
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max_latency = port_latency;
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}
/* Cap minimum latency to 128 frames */
if (max_latency < 128)
max_latency = 128;
}
ctx->jack_latency = max_latency;
return 0;
}
static int
cbjack_process(jack_nframes_t nframes, void * arg)
{
cubeb * ctx = (cubeb *)arg;
unsigned int t_jack_xruns = ctx->jack_xruns;
int i;
ctx->jack_xruns = 0;
for (int j = 0; j < MAX_STREAMS; j++) {
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cubeb_stream * stm = &ctx->streams[j];
float * bufs_out[stm->out_params.channels];
float * bufs_in[stm->in_params.channels];
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if (!stm->in_use)
continue;
// handle xruns by skipping audio that should have been played
stm->position += t_jack_xruns * ctx->fragment_size * stm->ratio;
if (!stm->ports_ready)
continue;
if (stm->devs & OUT_ONLY) {
// get jack output buffers
for (i = 0; i < (int)stm->out_params.channels; i++)
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bufs_out[i] =
(float *)WRAP(jack_port_get_buffer)(stm->output_ports[i], nframes);
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}
if (stm->devs & IN_ONLY) {
// get jack input buffers
for (i = 0; i < (int)stm->in_params.channels; i++)
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bufs_in[i] =
(float *)WRAP(jack_port_get_buffer)(stm->input_ports[i], nframes);
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}
if (stm->pause) {
// paused, play silence on output
if (stm->devs & OUT_ONLY) {
for (unsigned int c = 0; c < stm->out_params.channels; c++) {
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float * buffer_out = bufs_out[c];
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for (long f = 0; f < nframes; f++) {
buffer_out[f] = 0.f;
}
}
}
if (stm->devs & IN_ONLY) {
// paused, capture silence
for (unsigned int c = 0; c < stm->in_params.channels; c++) {
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float * buffer_in = bufs_in[c];
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for (long f = 0; f < nframes; f++) {
buffer_in[f] = 0.f;
}
}
}
} else {
// try to lock stream mutex
if (pthread_mutex_trylock(&stm->mutex) == 0) {
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int16_t * in_s16ne =
stm->context->in_resampled_interleaved_buffer_s16ne;
float * in_float = stm->context->in_resampled_interleaved_buffer_float;
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// unpaused, play audio
if (stm->devs == DUPLEX) {
if (stm->out_params.format == CUBEB_SAMPLE_S16NE) {
cbjack_interleave_capture(stm, bufs_in, nframes, true);
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cbjack_deinterleave_playback_refill_s16ne(stm, &in_s16ne, bufs_out,
nframes);
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} else if (stm->out_params.format == CUBEB_SAMPLE_FLOAT32NE) {
cbjack_interleave_capture(stm, bufs_in, nframes, false);
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cbjack_deinterleave_playback_refill_float(stm, &in_float, bufs_out,
nframes);
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}
} else if (stm->devs == IN_ONLY) {
if (stm->in_params.format == CUBEB_SAMPLE_S16NE) {
cbjack_interleave_capture(stm, bufs_in, nframes, true);
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cbjack_deinterleave_playback_refill_s16ne(stm, &in_s16ne, nullptr,
nframes);
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} else if (stm->in_params.format == CUBEB_SAMPLE_FLOAT32NE) {
cbjack_interleave_capture(stm, bufs_in, nframes, false);
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cbjack_deinterleave_playback_refill_float(stm, &in_float, nullptr,
nframes);
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}
} else if (stm->devs == OUT_ONLY) {
if (stm->out_params.format == CUBEB_SAMPLE_S16NE) {
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cbjack_deinterleave_playback_refill_s16ne(stm, nullptr, bufs_out,
nframes);
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} else if (stm->out_params.format == CUBEB_SAMPLE_FLOAT32NE) {
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cbjack_deinterleave_playback_refill_float(stm, nullptr, bufs_out,
nframes);
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}
}
// unlock stream mutex
pthread_mutex_unlock(&stm->mutex);
} else {
// could not lock mutex
// output silence
if (stm->devs & OUT_ONLY) {
for (unsigned int c = 0; c < stm->out_params.channels; c++) {
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float * buffer_out = bufs_out[c];
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for (long f = 0; f < nframes; f++) {
buffer_out[f] = 0.f;
}
}
}
if (stm->devs & IN_ONLY) {
// capture silence
for (unsigned int c = 0; c < stm->in_params.channels; c++) {
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float * buffer_in = bufs_in[c];
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for (long f = 0; f < nframes; f++) {
buffer_in[f] = 0.f;
}
}
}
}
}
}
return 0;
}
static void
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cbjack_deinterleave_playback_refill_float(cubeb_stream * stream, float ** in,
float ** bufs_out,
jack_nframes_t nframes)
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{
float * out_interleaved_buffer = nullptr;
float * inptr = (in != NULL) ? *in : nullptr;
float * outptr = (bufs_out != NULL) ? *bufs_out : nullptr;
long needed_frames = (bufs_out != NULL) ? nframes : 0;
long done_frames = 0;
long input_frames_count = (in != NULL) ? nframes : 0;
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done_frames = cubeb_resampler_fill(
stream->resampler, inptr, &input_frames_count,
(bufs_out != NULL)
? stream->context->out_resampled_interleaved_buffer_float
: NULL,
needed_frames);
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out_interleaved_buffer =
stream->context->out_resampled_interleaved_buffer_float;
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if (outptr) {
// convert interleaved output buffers to contiguous buffers
for (unsigned int c = 0; c < stream->out_params.channels; c++) {
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float * buffer = bufs_out[c];
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for (long f = 0; f < done_frames; f++) {
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buffer[f] =
out_interleaved_buffer[(f * stream->out_params.channels) + c] *
stream->volume;
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}
if (done_frames < needed_frames) {
// draining
for (long f = done_frames; f < needed_frames; f++) {
buffer[f] = 0.f;
}
}
if (done_frames == 0) {
// stop, but first zero out the existing buffer
for (long f = 0; f < needed_frames; f++) {
buffer[f] = 0.f;
}
}
}
}
if (done_frames >= 0 && done_frames < needed_frames) {
// set drained
stream->state_callback(stream, stream->user_ptr, CUBEB_STATE_DRAINED);
// stop stream
cbjack_stream_stop(stream);
}
if (done_frames > 0 && done_frames <= needed_frames) {
// advance stream position
stream->position += done_frames * stream->ratio;
}
if (done_frames < 0 || done_frames > needed_frames) {
// stream error
stream->state_callback(stream, stream->user_ptr, CUBEB_STATE_ERROR);
}
}
static void
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cbjack_deinterleave_playback_refill_s16ne(cubeb_stream * stream, short ** in,
float ** bufs_out,
jack_nframes_t nframes)
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{
float * out_interleaved_buffer = nullptr;
short * inptr = (in != NULL) ? *in : nullptr;
float * outptr = (bufs_out != NULL) ? *bufs_out : nullptr;
long needed_frames = (bufs_out != NULL) ? nframes : 0;
long done_frames = 0;
long input_frames_count = (in != NULL) ? nframes : 0;
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done_frames = cubeb_resampler_fill(
stream->resampler, inptr, &input_frames_count,
(bufs_out != NULL)
? stream->context->out_resampled_interleaved_buffer_s16ne
: NULL,
needed_frames);
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s16ne_to_float(stream->context->out_resampled_interleaved_buffer_float,
stream->context->out_resampled_interleaved_buffer_s16ne,
done_frames * stream->out_params.channels);
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out_interleaved_buffer =
stream->context->out_resampled_interleaved_buffer_float;
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if (outptr) {
// convert interleaved output buffers to contiguous buffers
for (unsigned int c = 0; c < stream->out_params.channels; c++) {
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float * buffer = bufs_out[c];
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for (long f = 0; f < done_frames; f++) {
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buffer[f] =
out_interleaved_buffer[(f * stream->out_params.channels) + c] *
stream->volume;
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}
if (done_frames < needed_frames) {
// draining
for (long f = done_frames; f < needed_frames; f++) {
buffer[f] = 0.f;
}
}
if (done_frames == 0) {
// stop, but first zero out the existing buffer
for (long f = 0; f < needed_frames; f++) {
buffer[f] = 0.f;
}
}
}
}
if (done_frames >= 0 && done_frames < needed_frames) {
// set drained
stream->state_callback(stream, stream->user_ptr, CUBEB_STATE_DRAINED);
// stop stream
cbjack_stream_stop(stream);
}
if (done_frames > 0 && done_frames <= needed_frames) {
// advance stream position
stream->position += done_frames * stream->ratio;
}
if (done_frames < 0 || done_frames > needed_frames) {
// stream error
stream->state_callback(stream, stream->user_ptr, CUBEB_STATE_ERROR);
}
}
static void
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cbjack_interleave_capture(cubeb_stream * stream, float ** in,
jack_nframes_t nframes, bool format_mismatch)
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{
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float * in_buffer = stream->context->in_float_interleaved_buffer;
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for (unsigned int c = 0; c < stream->in_params.channels; c++) {
for (long f = 0; f < nframes; f++) {
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in_buffer[(f * stream->in_params.channels) + c] =
in[c][f] * stream->volume;
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}
}
if (format_mismatch) {
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float_to_s16ne(stream->context->in_resampled_interleaved_buffer_s16ne,
in_buffer, nframes * stream->in_params.channels);
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} else {
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memset(stream->context->in_resampled_interleaved_buffer_float, 0,
(FIFO_SIZE * MAX_CHANNELS * 3) * sizeof(float));
memcpy(stream->context->in_resampled_interleaved_buffer_float, in_buffer,
(FIFO_SIZE * MAX_CHANNELS * 2) * sizeof(float));
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}
}
static void
silent_jack_error_callback(char const * /*msg*/)
{
}
/*static*/ int
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jack_init(cubeb ** context, char const * context_name)
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{
int r;
*context = NULL;
cubeb * ctx = (cubeb *)calloc(1, sizeof(*ctx));
if (ctx == NULL) {
return CUBEB_ERROR;
}
r = load_jack_lib(ctx);
if (r != 0) {
cbjack_destroy(ctx);
return CUBEB_ERROR;
}
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WRAP(jack_set_error_function)(silent_jack_error_callback);
WRAP(jack_set_info_function)(silent_jack_error_callback);
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ctx->ops = &cbjack_ops;
ctx->mutex = PTHREAD_MUTEX_INITIALIZER;
for (r = 0; r < MAX_STREAMS; r++) {
ctx->streams[r].mutex = PTHREAD_MUTEX_INITIALIZER;
}
const char * jack_client_name = "cubeb";
if (context_name)
jack_client_name = context_name;
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ctx->jack_client =
WRAP(jack_client_open)(jack_client_name, JackNoStartServer, NULL);
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if (ctx->jack_client == NULL) {
cbjack_destroy(ctx);
return CUBEB_ERROR;
}
ctx->jack_xruns = 0;
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WRAP(jack_set_process_callback)(ctx->jack_client, cbjack_process, ctx);
WRAP(jack_set_xrun_callback)(ctx->jack_client, cbjack_xrun_callback, ctx);
WRAP(jack_set_graph_order_callback)
(ctx->jack_client, cbjack_graph_order_callback, ctx);
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if (WRAP(jack_activate)(ctx->jack_client)) {
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cbjack_destroy(ctx);
return CUBEB_ERROR;
}
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ctx->jack_sample_rate = WRAP(jack_get_sample_rate)(ctx->jack_client);
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ctx->jack_latency = 128 * 1000 / ctx->jack_sample_rate;
ctx->active = true;
*context = ctx;
return CUBEB_OK;
}
static char const *
cbjack_get_backend_id(cubeb * /*context*/)
{
return "jack";
}
static int
cbjack_get_max_channel_count(cubeb * /*ctx*/, uint32_t * max_channels)
{
*max_channels = MAX_CHANNELS;
return CUBEB_OK;
}
static int
cbjack_get_latency(cubeb_stream * stm, unsigned int * latency_ms)
{
*latency_ms = stm->context->jack_latency;
return CUBEB_OK;
}
static int
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cbjack_get_min_latency(cubeb * ctx, cubeb_stream_params /*params*/,
uint32_t * latency_ms)
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{
*latency_ms = ctx->jack_latency;
return CUBEB_OK;
}
static int
cbjack_get_preferred_sample_rate(cubeb * ctx, uint32_t * rate)
{
if (!ctx->jack_client) {
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jack_client_t * testclient =
WRAP(jack_client_open)("test-samplerate", JackNoStartServer, NULL);
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if (!testclient) {
return CUBEB_ERROR;
}
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*rate = WRAP(jack_get_sample_rate)(testclient);
WRAP(jack_client_close)(testclient);
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} else {
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*rate = WRAP(jack_get_sample_rate)(ctx->jack_client);
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}
return CUBEB_OK;
}
static void
cbjack_destroy(cubeb * context)
{
context->active = false;
if (context->jack_client != NULL)
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WRAP(jack_client_close)(context->jack_client);
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if (context->libjack)
dlclose(context->libjack);
free(context);
}
static cubeb_stream *
context_alloc_stream(cubeb * context, char const * stream_name)
{
for (int i = 0; i < MAX_STREAMS; i++) {
if (!context->streams[i].in_use) {
cubeb_stream * stm = &context->streams[i];
stm->in_use = true;
snprintf(stm->stream_name, 255, "%s_%u", stream_name, i);
return stm;
}
}
return NULL;
}
static int
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cbjack_stream_init(cubeb * context, cubeb_stream ** stream,
char const * stream_name, cubeb_devid input_device,
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cubeb_stream_params * input_stream_params,
cubeb_devid output_device,
cubeb_stream_params * output_stream_params,
unsigned int /*latency_frames*/,
cubeb_data_callback data_callback,
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cubeb_state_callback state_callback, void * user_ptr)
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{
int stream_actual_rate = 0;
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int jack_rate = WRAP(jack_get_sample_rate)(context->jack_client);
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if (output_stream_params &&
(output_stream_params->format != CUBEB_SAMPLE_FLOAT32NE &&
output_stream_params->format != CUBEB_SAMPLE_S16NE)) {
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return CUBEB_ERROR_INVALID_FORMAT;
}
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if (input_stream_params &&
(input_stream_params->format != CUBEB_SAMPLE_FLOAT32NE &&
input_stream_params->format != CUBEB_SAMPLE_S16NE)) {
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return CUBEB_ERROR_INVALID_FORMAT;
}
if ((input_device && input_device != JACK_DEFAULT_IN) ||
(output_device && output_device != JACK_DEFAULT_OUT)) {
return CUBEB_ERROR_NOT_SUPPORTED;
}
// Loopback is unsupported
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if ((input_stream_params &&
(input_stream_params->prefs & CUBEB_STREAM_PREF_LOOPBACK)) ||
(output_stream_params &&
(output_stream_params->prefs & CUBEB_STREAM_PREF_LOOPBACK))) {
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return CUBEB_ERROR_NOT_SUPPORTED;
}
*stream = NULL;
// Find a free stream.
pthread_mutex_lock(&context->mutex);
cubeb_stream * stm = context_alloc_stream(context, stream_name);
// No free stream?
if (stm == NULL) {
pthread_mutex_unlock(&context->mutex);
return CUBEB_ERROR;
}
// unlock context mutex
pthread_mutex_unlock(&context->mutex);
// Lock active stream
pthread_mutex_lock(&stm->mutex);
stm->ports_ready = false;
stm->user_ptr = user_ptr;
stm->context = context;
stm->devs = NONE;
if (output_stream_params && !input_stream_params) {
stm->out_params = *output_stream_params;
stream_actual_rate = stm->out_params.rate;
stm->out_params.rate = jack_rate;
stm->devs = OUT_ONLY;
if (stm->out_params.format == CUBEB_SAMPLE_FLOAT32NE) {
context->output_bytes_per_frame = sizeof(float);
} else {
context->output_bytes_per_frame = sizeof(short);
}
}
if (input_stream_params && output_stream_params) {
stm->in_params = *input_stream_params;
stm->out_params = *output_stream_params;
stream_actual_rate = stm->out_params.rate;
stm->in_params.rate = jack_rate;
stm->out_params.rate = jack_rate;
stm->devs = DUPLEX;
if (stm->out_params.format == CUBEB_SAMPLE_FLOAT32NE) {
context->output_bytes_per_frame = sizeof(float);
stm->in_params.format = CUBEB_SAMPLE_FLOAT32NE;
} else {
context->output_bytes_per_frame = sizeof(short);
stm->in_params.format = CUBEB_SAMPLE_S16NE;
}
} else if (input_stream_params && !output_stream_params) {
stm->in_params = *input_stream_params;
stream_actual_rate = stm->in_params.rate;
stm->in_params.rate = jack_rate;
stm->devs = IN_ONLY;
if (stm->in_params.format == CUBEB_SAMPLE_FLOAT32NE) {
context->output_bytes_per_frame = sizeof(float);
} else {
context->output_bytes_per_frame = sizeof(short);
}
}
stm->ratio = (float)stream_actual_rate / (float)jack_rate;
stm->data_callback = data_callback;
stm->state_callback = state_callback;
stm->position = 0;
stm->volume = 1.0f;
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context->jack_buffer_size = WRAP(jack_get_buffer_size)(context->jack_client);
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context->fragment_size = context->jack_buffer_size;
if (stm->devs == NONE) {
pthread_mutex_unlock(&stm->mutex);
return CUBEB_ERROR;
}
stm->resampler = NULL;
if (stm->devs == DUPLEX) {
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stm->resampler = cubeb_resampler_create(
stm, &stm->in_params, &stm->out_params, stream_actual_rate,
stm->data_callback, stm->user_ptr, CUBEB_RESAMPLER_QUALITY_DESKTOP);
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} else if (stm->devs == IN_ONLY) {
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stm->resampler = cubeb_resampler_create(
stm, &stm->in_params, nullptr, stream_actual_rate, stm->data_callback,
stm->user_ptr, CUBEB_RESAMPLER_QUALITY_DESKTOP);
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} else if (stm->devs == OUT_ONLY) {
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stm->resampler = cubeb_resampler_create(
stm, nullptr, &stm->out_params, stream_actual_rate, stm->data_callback,
stm->user_ptr, CUBEB_RESAMPLER_QUALITY_DESKTOP);
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}
if (!stm->resampler) {
stm->in_use = false;
pthread_mutex_unlock(&stm->mutex);
return CUBEB_ERROR;
}
if (stm->devs == DUPLEX || stm->devs == OUT_ONLY) {
for (unsigned int c = 0; c < stm->out_params.channels; c++) {
char portname[256];
snprintf(portname, 255, "%s_out_%d", stm->stream_name, c);
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stm->output_ports[c] = WRAP(jack_port_register)(
stm->context->jack_client, portname, JACK_DEFAULT_AUDIO_TYPE,
JackPortIsOutput, 0);
if (!(output_stream_params->prefs &
CUBEB_STREAM_PREF_JACK_NO_AUTO_CONNECT)) {
if (cbjack_connect_ports(stm, CBJACK_CP_OPTIONS_SKIP_INPUT) !=
CUBEB_OK) {
pthread_mutex_unlock(&stm->mutex);
cbjack_stream_destroy(stm);
return CUBEB_ERROR;
}
}
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}
}
if (stm->devs == DUPLEX || stm->devs == IN_ONLY) {
for (unsigned int c = 0; c < stm->in_params.channels; c++) {
char portname[256];
snprintf(portname, 255, "%s_in_%d", stm->stream_name, c);
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stm->input_ports[c] =
WRAP(jack_port_register)(stm->context->jack_client, portname,
JACK_DEFAULT_AUDIO_TYPE, JackPortIsInput, 0);
if (!(input_stream_params->prefs &
CUBEB_STREAM_PREF_JACK_NO_AUTO_CONNECT)) {
if (cbjack_connect_ports(stm, CBJACK_CP_OPTIONS_SKIP_OUTPUT) !=
CUBEB_OK) {
pthread_mutex_unlock(&stm->mutex);
cbjack_stream_destroy(stm);
return CUBEB_ERROR;
}
}
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}
}
*stream = stm;
stm->ports_ready = true;
stm->pause = true;
pthread_mutex_unlock(&stm->mutex);
return CUBEB_OK;
}
static void
cbjack_stream_destroy(cubeb_stream * stream)
{
pthread_mutex_lock(&stream->mutex);
stream->ports_ready = false;
if (stream->devs == DUPLEX || stream->devs == OUT_ONLY) {
for (unsigned int c = 0; c < stream->out_params.channels; c++) {
if (stream->output_ports[c]) {
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WRAP(jack_port_unregister)
(stream->context->jack_client, stream->output_ports[c]);
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stream->output_ports[c] = NULL;
}
}
}
if (stream->devs == DUPLEX || stream->devs == IN_ONLY) {
for (unsigned int c = 0; c < stream->in_params.channels; c++) {
if (stream->input_ports[c]) {
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WRAP(jack_port_unregister)
(stream->context->jack_client, stream->input_ports[c]);
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stream->input_ports[c] = NULL;
}
}
}
if (stream->resampler) {
cubeb_resampler_destroy(stream->resampler);
stream->resampler = NULL;
}
stream->in_use = false;
pthread_mutex_unlock(&stream->mutex);
}
static int
cbjack_stream_start(cubeb_stream * stream)
{
stream->pause = false;
stream->state_callback(stream, stream->user_ptr, CUBEB_STATE_STARTED);
return CUBEB_OK;
}
static int
cbjack_stream_stop(cubeb_stream * stream)
{
stream->pause = true;
stream->state_callback(stream, stream->user_ptr, CUBEB_STATE_STOPPED);
return CUBEB_OK;
}
static int
cbjack_stream_get_position(cubeb_stream * stream, uint64_t * position)
{
*position = stream->position;
return CUBEB_OK;
}
static int
cbjack_stream_set_volume(cubeb_stream * stm, float volume)
{
stm->volume = volume;
return CUBEB_OK;
}
static int
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cbjack_stream_get_current_device(cubeb_stream * stm,
cubeb_device ** const device)
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{
*device = (cubeb_device *)calloc(1, sizeof(cubeb_device));
if (*device == NULL)
return CUBEB_ERROR;
const char * j_in = JACK_DEFAULT_IN;
const char * j_out = JACK_DEFAULT_OUT;
const char * empty = "";
if (stm->devs == DUPLEX) {
(*device)->input_name = strdup(j_in);
(*device)->output_name = strdup(j_out);
} else if (stm->devs == IN_ONLY) {
(*device)->input_name = strdup(j_in);
(*device)->output_name = strdup(empty);
} else if (stm->devs == OUT_ONLY) {
(*device)->input_name = strdup(empty);
(*device)->output_name = strdup(j_out);
}
return CUBEB_OK;
}
static int
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cbjack_stream_device_destroy(cubeb_stream * /*stream*/, cubeb_device * device)
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{
if (device->input_name)
free(device->input_name);
if (device->output_name)
free(device->output_name);
free(device);
return CUBEB_OK;
}
static int
cbjack_enumerate_devices(cubeb * context, cubeb_device_type type,
cubeb_device_collection * collection)
{
if (!context)
return CUBEB_ERROR;
uint32_t rate;
cbjack_get_preferred_sample_rate(context, &rate);
cubeb_device_info * devices = new cubeb_device_info[2];
if (!devices)
return CUBEB_ERROR;
PodZero(devices, 2);
collection->count = 0;
if (type & CUBEB_DEVICE_TYPE_OUTPUT) {
cubeb_device_info * cur = &devices[collection->count];
cur->device_id = JACK_DEFAULT_OUT;
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cur->devid = (cubeb_devid)cur->device_id;
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cur->friendly_name = JACK_DEFAULT_OUT;
cur->group_id = JACK_DEFAULT_OUT;
cur->vendor_name = JACK_DEFAULT_OUT;
cur->type = CUBEB_DEVICE_TYPE_OUTPUT;
cur->state = CUBEB_DEVICE_STATE_ENABLED;
cur->preferred = CUBEB_DEVICE_PREF_ALL;
cur->format = CUBEB_DEVICE_FMT_F32NE;
cur->default_format = CUBEB_DEVICE_FMT_F32NE;
cur->max_channels = MAX_CHANNELS;
cur->min_rate = rate;
cur->max_rate = rate;
cur->default_rate = rate;
cur->latency_lo = 0;
cur->latency_hi = 0;
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collection->count += 1;
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}
if (type & CUBEB_DEVICE_TYPE_INPUT) {
cubeb_device_info * cur = &devices[collection->count];
cur->device_id = JACK_DEFAULT_IN;
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cur->devid = (cubeb_devid)cur->device_id;
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cur->friendly_name = JACK_DEFAULT_IN;
cur->group_id = JACK_DEFAULT_IN;
cur->vendor_name = JACK_DEFAULT_IN;
cur->type = CUBEB_DEVICE_TYPE_INPUT;
cur->state = CUBEB_DEVICE_STATE_ENABLED;
cur->preferred = CUBEB_DEVICE_PREF_ALL;
cur->format = CUBEB_DEVICE_FMT_F32NE;
cur->default_format = CUBEB_DEVICE_FMT_F32NE;
cur->max_channels = MAX_CHANNELS;
cur->min_rate = rate;
cur->max_rate = rate;
cur->default_rate = rate;
cur->latency_lo = 0;
cur->latency_hi = 0;
collection->count += 1;
}
collection->device = devices;
return CUBEB_OK;
}
static int
cbjack_device_collection_destroy(cubeb * /*ctx*/,
cubeb_device_collection * collection)
{
XASSERT(collection);
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delete[] collection->device;
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return CUBEB_OK;
}