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/* Spa
* Copyright (C) 2017 Wim Taymans <wim.taymans@gmail.com>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library 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
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <dlfcn.h>
#include <errno.h>
#include <pthread.h>
#include <poll.h>
#include <spa/node.h>
#include <spa/log.h>
#include <spa/log-impl.h>
#include <spa/loop.h>
#include <spa/type-map.h>
#include <spa/type-map-impl.h>
#include <spa/audio/format-utils.h>
#include <spa/format-utils.h>
#include <spa/format-builder.h>
#include <spa/graph.h>
#include <spa/graph-scheduler1.h>
static SPA_TYPE_MAP_IMPL(default_map, 4096);
static SPA_LOG_IMPL(default_log);
struct type {
uint32_t node;
uint32_t props;
uint32_t format;
uint32_t props_device;
uint32_t props_freq;
uint32_t props_volume;
uint32_t props_min_latency;
uint32_t props_live;
struct spa_type_meta meta;
struct spa_type_data data;
struct spa_type_media_type media_type;
struct spa_type_media_subtype media_subtype;
struct spa_type_format_audio format_audio;
struct spa_type_audio_format audio_format;
struct spa_type_event_node event_node;
struct spa_type_command_node command_node;
};
static inline void init_type(struct type *type, struct spa_type_map *map)
{
type->node = spa_type_map_get_id(map, SPA_TYPE__Node);
type->props = spa_type_map_get_id(map, SPA_TYPE__Props);
type->format = spa_type_map_get_id(map, SPA_TYPE__Format);
type->props_device = spa_type_map_get_id(map, SPA_TYPE_PROPS__device);
type->props_freq = spa_type_map_get_id(map, SPA_TYPE_PROPS__frequency);
type->props_volume = spa_type_map_get_id(map, SPA_TYPE_PROPS__volume);
type->props_min_latency = spa_type_map_get_id(map, SPA_TYPE_PROPS__minLatency);
type->props_live = spa_type_map_get_id(map, SPA_TYPE_PROPS__live);
spa_type_meta_map(map, &type->meta);
spa_type_data_map(map, &type->data);
spa_type_media_type_map(map, &type->media_type);
spa_type_media_subtype_map(map, &type->media_subtype);
spa_type_format_audio_map(map, &type->format_audio);
spa_type_audio_format_map(map, &type->audio_format);
spa_type_event_node_map(map, &type->event_node);
spa_type_command_node_map(map, &type->command_node);
}
struct buffer {
struct spa_buffer buffer;
struct spa_meta metas[1];
struct spa_meta_header header;
struct spa_data datas[1];
struct spa_chunk chunks[1];
};
struct data {
struct spa_type_map *map;
struct spa_log *log;
struct spa_loop data_loop;
struct type type;
struct spa_support support[4];
uint32_t n_support;
struct spa_graph graph;
struct spa_graph_scheduler sched;
struct spa_graph_node source_node;
struct spa_graph_port source_out;
struct spa_graph_port volume_in;
struct spa_graph_node volume_node;
struct spa_graph_port volume_out;
struct spa_graph_port sink_in;
struct spa_graph_node sink_node;
struct spa_node *sink;
struct spa_port_io volume_sink_io[1];
struct spa_node *volume;
struct spa_buffer *volume_buffers[1];
struct buffer volume_buffer[1];
struct spa_node *source;
struct spa_port_io source_volume_io[1];
struct spa_buffer *source_buffers[1];
struct buffer source_buffer[1];
bool running;
pthread_t thread;
struct spa_source sources[16];
unsigned int n_sources;
bool rebuild_fds;
struct pollfd fds[16];
unsigned int n_fds;
};
#define MIN_LATENCY 64
#define BUFFER_SIZE MIN_LATENCY
static void
init_buffer(struct data *data, struct spa_buffer **bufs, struct buffer *ba, int n_buffers,
size_t size)
{
int i;
for (i = 0; i < n_buffers; i++) {
struct buffer *b = &ba[i];
bufs[i] = &b->buffer;
b->buffer.id = i;
b->buffer.n_metas = 1;
b->buffer.metas = b->metas;
b->buffer.n_datas = 1;
b->buffer.datas = b->datas;
b->header.flags = 0;
b->header.seq = 0;
b->header.pts = 0;
b->header.dts_offset = 0;
b->metas[0].type = data->type.meta.Header;
b->metas[0].data = &b->header;
b->metas[0].size = sizeof(b->header);
b->datas[0].type = data->type.data.MemPtr;
b->datas[0].flags = 0;
b->datas[0].fd = -1;
b->datas[0].mapoffset = 0;
b->datas[0].maxsize = size;
b->datas[0].data = malloc(size);
b->datas[0].chunk = &b->chunks[0];
b->datas[0].chunk->offset = 0;
b->datas[0].chunk->size = size;
b->datas[0].chunk->stride = 0;
}
}
static int make_node(struct data *data, struct spa_node **node, const char *lib, const char *name)
{
struct spa_handle *handle;
int res;
void *hnd;
spa_handle_factory_enum_func_t enum_func;
uint32_t i;
if ((hnd = dlopen(lib, RTLD_NOW)) == NULL) {
printf("can't load %s: %s\n", lib, dlerror());
return SPA_RESULT_ERROR;
}
if ((enum_func = dlsym(hnd, SPA_HANDLE_FACTORY_ENUM_FUNC_NAME)) == NULL) {
printf("can't find enum function\n");
return SPA_RESULT_ERROR;
}
for (i = 0;; i++) {
const struct spa_handle_factory *factory;
void *iface;
if ((res = enum_func(&factory, i)) < 0) {
if (res != SPA_RESULT_ENUM_END)
printf("can't enumerate factories: %d\n", res);
break;
}
if (strcmp(factory->name, name))
continue;
handle = calloc(1, factory->size);
if ((res =
spa_handle_factory_init(factory, handle, NULL, data->support,
data->n_support)) < 0) {
printf("can't make factory instance: %d\n", res);
return res;
}
if ((res = spa_handle_get_interface(handle, data->type.node, &iface)) < 0) {
printf("can't get interface %d\n", res);
return res;
}
*node = iface;
return SPA_RESULT_OK;
}
return SPA_RESULT_ERROR;
}
static void on_sink_done(struct spa_node *node, int seq, int res, void *user_data)
{
printf("got done %d %d\n", seq, res);
}
static void on_sink_event(struct spa_node *node, struct spa_event *event, void *user_data)
{
printf("got event %d\n", SPA_EVENT_TYPE(event));
}
static void on_sink_need_input(struct spa_node *node, void *user_data)
{
struct data *data = user_data;
spa_graph_scheduler_pull(&data->sched, &data->sink_node);
while (spa_graph_scheduler_iterate(&data->sched));
}
static void
on_sink_reuse_buffer(struct spa_node *node, uint32_t port_id, uint32_t buffer_id, void *user_data)
{
struct data *data = user_data;
data->volume_sink_io[0].buffer_id = buffer_id;
}
static const struct spa_node_callbacks sink_callbacks = {
SPA_VERSION_NODE_CALLBACKS,
&on_sink_done,
&on_sink_event,
&on_sink_need_input,
NULL,
&on_sink_reuse_buffer
};
static int do_add_source(struct spa_loop *loop, struct spa_source *source)
{
struct data *data = SPA_CONTAINER_OF(loop, struct data, data_loop);
data->sources[data->n_sources] = *source;
data->n_sources++;
data->rebuild_fds = true;
return SPA_RESULT_OK;
}
static int do_update_source(struct spa_source *source)
{
return SPA_RESULT_OK;
}
static void do_remove_source(struct spa_source *source)
{
}
static int
do_invoke(struct spa_loop *loop,
spa_invoke_func_t func, uint32_t seq, size_t size, void *data, bool block, void *user_data)
{
return func(loop, false, seq, size, data, user_data);
}
static int make_nodes(struct data *data, const char *device)
{
int res;
struct spa_props *props;
struct spa_pod_builder b = { 0 };
struct spa_pod_frame f[2];
uint8_t buffer[128];
if ((res = make_node(data, &data->sink,
"build/spa/plugins/alsa/libspa-alsa.so", "alsa-sink")) < 0) {
printf("can't create alsa-sink: %d\n", res);
return res;
}
spa_node_set_callbacks(data->sink, &sink_callbacks, data);
spa_pod_builder_init(&b, buffer, sizeof(buffer));
spa_pod_builder_props(&b, &f[0], data->type.props,
SPA_POD_PROP(&f[1], data->type.props_device, 0, SPA_POD_TYPE_STRING, 1,
device ? device : "hw:0"),
SPA_POD_PROP(&f[1], data->type.props_min_latency, 0, SPA_POD_TYPE_INT, 1,
MIN_LATENCY));
props = SPA_POD_BUILDER_DEREF(&b, f[0].ref, struct spa_props);
if ((res = spa_node_set_props(data->sink, props)) < 0)
printf("got set_props error %d\n", res);
if ((res = make_node(data, &data->volume,
"build/spa/plugins/volume/libspa-volume.so", "volume")) < 0) {
printf("can't create volume: %d\n", res);
return res;
}
if ((res = make_node(data, &data->source,
"build/spa/plugins/audiotestsrc/libspa-audiotestsrc.so",
"audiotestsrc")) < 0) {
printf("can't create audiotestsrc: %d\n", res);
return res;
}
spa_pod_builder_init(&b, buffer, sizeof(buffer));
spa_pod_builder_props(&b, &f[0], data->type.props,
SPA_POD_PROP(&f[1], data->type.props_freq, 0, SPA_POD_TYPE_DOUBLE, 1,
600.0),
SPA_POD_PROP(&f[1], data->type.props_volume, 0, SPA_POD_TYPE_DOUBLE, 1,
0.5),
SPA_POD_PROP(&f[1], data->type.props_live, 0, SPA_POD_TYPE_BOOL, 1,
false));
props = SPA_POD_BUILDER_DEREF(&b, f[0].ref, struct spa_props);
if ((res = spa_node_set_props(data->source, props)) < 0)
printf("got set_props error %d\n", res);
data->source_volume_io[0] = SPA_PORT_IO_INIT;
data->volume_sink_io[0] = SPA_PORT_IO_INIT;
spa_node_port_set_io(data->source, SPA_DIRECTION_OUTPUT, 0, &data->source_volume_io[0]);
spa_node_port_set_io(data->volume, SPA_DIRECTION_INPUT, 0, &data->source_volume_io[0]);
spa_node_port_set_io(data->volume, SPA_DIRECTION_OUTPUT, 0, &data->volume_sink_io[0]);
spa_node_port_set_io(data->sink, SPA_DIRECTION_INPUT, 0, &data->volume_sink_io[0]);
spa_graph_node_add(&data->graph, &data->source_node, spa_graph_scheduler_default,
data->source);
spa_graph_port_add(&data->graph, &data->source_node, &data->source_out,
SPA_DIRECTION_OUTPUT, 0, 0, &data->source_volume_io[0]);
spa_graph_node_add(&data->graph, &data->volume_node, spa_graph_scheduler_default,
data->volume);
spa_graph_port_add(&data->graph, &data->volume_node, &data->volume_in, SPA_DIRECTION_INPUT,
0, 0, &data->source_volume_io[0]);
spa_graph_port_link(&data->graph, &data->source_out, &data->volume_in);
spa_graph_port_add(&data->graph, &data->volume_node,
&data->volume_out, SPA_DIRECTION_OUTPUT, 0, 0, &data->volume_sink_io[0]);
spa_graph_node_add(&data->graph, &data->sink_node, spa_graph_scheduler_default,
data->sink);
spa_graph_port_add(&data->graph, &data->sink_node, &data->sink_in, SPA_DIRECTION_INPUT, 0,
0, &data->volume_sink_io[0]);
spa_graph_port_link(&data->graph, &data->volume_out, &data->sink_in);
return res;
}
static int negotiate_formats(struct data *data)
{
int res;
struct spa_format *format, *filter;
uint32_t state = 0;
struct spa_pod_builder b = { 0 };
struct spa_pod_frame f[2];
uint8_t buffer[256];
spa_pod_builder_init(&b, buffer, sizeof(buffer));
spa_pod_builder_format(&b, &f[0], data->type.format,
data->type.media_type.audio,
data->type.media_subtype.raw,
SPA_POD_PROP(&f[1], data->type.format_audio.format, 0, SPA_POD_TYPE_ID, 1,
data->type.audio_format.S16),
SPA_POD_PROP(&f[1], data->type.format_audio.layout, 0, SPA_POD_TYPE_INT, 1,
SPA_AUDIO_LAYOUT_INTERLEAVED),
SPA_POD_PROP(&f[1], data->type.format_audio.rate, 0, SPA_POD_TYPE_INT, 1,
44100),
SPA_POD_PROP(&f[1], data->type.format_audio.channels, 0, SPA_POD_TYPE_INT, 1,
2));
filter = SPA_POD_BUILDER_DEREF(&b, f[0].ref, struct spa_format);
if ((res =
spa_node_port_enum_formats(data->sink, SPA_DIRECTION_INPUT, 0, &format, filter,
state)) < 0)
return res;
if ((res = spa_node_port_set_format(data->sink, SPA_DIRECTION_INPUT, 0, 0, format)) < 0)
return res;
if ((res = spa_node_port_set_format(data->volume, SPA_DIRECTION_OUTPUT, 0, 0, format)) < 0)
return res;
init_buffer(data, data->volume_buffers, data->volume_buffer, 1, BUFFER_SIZE);
if ((res =
spa_node_port_use_buffers(data->sink, SPA_DIRECTION_INPUT, 0, data->volume_buffers,
1)) < 0)
return res;
if ((res =
spa_node_port_use_buffers(data->volume, SPA_DIRECTION_OUTPUT, 0, data->volume_buffers,
1)) < 0)
return res;
if ((res = spa_node_port_set_format(data->volume, SPA_DIRECTION_INPUT, 0, 0, format)) < 0)
return res;
if ((res = spa_node_port_set_format(data->source, SPA_DIRECTION_OUTPUT, 0, 0, format)) < 0)
return res;
init_buffer(data, data->source_buffers, data->source_buffer, 1, BUFFER_SIZE);
if ((res =
spa_node_port_use_buffers(data->volume, SPA_DIRECTION_INPUT, 0, data->source_buffers,
1)) < 0)
return res;
if ((res =
spa_node_port_use_buffers(data->source, SPA_DIRECTION_OUTPUT, 0, data->source_buffers,
1)) < 0)
return res;
return SPA_RESULT_OK;
}
static void *loop(void *user_data)
{
struct data *data = user_data;
printf("enter thread %d\n", data->n_sources);
while (data->running) {
int i, r;
/* rebuild */
if (data->rebuild_fds) {
for (i = 0; i < data->n_sources; i++) {
struct spa_source *p = &data->sources[i];
data->fds[i].fd = p->fd;
data->fds[i].events = p->mask;
}
data->n_fds = data->n_sources;
data->rebuild_fds = false;
}
r = poll(data->fds, data->n_fds, -1);
if (r < 0) {
if (errno == EINTR)
continue;
break;
}
if (r == 0) {
fprintf(stderr, "select timeout");
break;
}
/* after */
for (i = 0; i < data->n_sources; i++) {
struct spa_source *p = &data->sources[i];
p->rmask = 0;
if (data->fds[i].revents & POLLIN)
p->rmask |= SPA_IO_IN;
if (data->fds[i].revents & POLLOUT)
p->rmask |= SPA_IO_OUT;
if (data->fds[i].revents & POLLHUP)
p->rmask |= SPA_IO_HUP;
if (data->fds[i].revents & POLLERR)
p->rmask |= SPA_IO_ERR;
}
for (i = 0; i < data->n_sources; i++) {
struct spa_source *p = &data->sources[i];
if (p->rmask)
p->func(p);
}
}
printf("leave thread\n");
return NULL;
}
static void run_async_sink(struct data *data)
{
int res;
int err;
{
struct spa_command cmd = SPA_COMMAND_INIT(data->type.command_node.Start);
if ((res = spa_node_send_command(data->source, &cmd)) < 0)
printf("got source error %d\n", res);
if ((res = spa_node_send_command(data->volume, &cmd)) < 0)
printf("got volume error %d\n", res);
if ((res = spa_node_send_command(data->sink, &cmd)) < 0)
printf("got sink error %d\n", res);
}
data->running = true;
if ((err = pthread_create(&data->thread, NULL, loop, data)) != 0) {
printf("can't create thread: %d %s", err, strerror(err));
data->running = false;
}
printf("sleeping for 1000 seconds\n");
sleep(1000);
if (data->running) {
data->running = false;
pthread_join(data->thread, NULL);
}
{
struct spa_command cmd = SPA_COMMAND_INIT(data->type.command_node.Pause);
if ((res = spa_node_send_command(data->sink, &cmd)) < 0)
printf("got error %d\n", res);
if ((res = spa_node_send_command(data->volume, &cmd)) < 0)
printf("got volume error %d\n", res);
if ((res = spa_node_send_command(data->source, &cmd)) < 0)
printf("got source error %d\n", res);
}
}
int main(int argc, char *argv[])
{
struct data data = { NULL };
int res;
const char *str;
spa_graph_init(&data.graph);
spa_graph_scheduler_init(&data.sched, &data.graph);
data.map = &default_map.map;
data.log = &default_log.log;
data.data_loop.version = SPA_VERSION_LOOP;
data.data_loop.add_source = do_add_source;
data.data_loop.update_source = do_update_source;
data.data_loop.remove_source = do_remove_source;
data.data_loop.invoke = do_invoke;
if ((str = getenv("SPA_DEBUG")))
data.log->level = atoi(str);
data.support[0].type = SPA_TYPE__TypeMap;
data.support[0].data = data.map;
data.support[1].type = SPA_TYPE__Log;
data.support[1].data = data.log;
data.support[2].type = SPA_TYPE_LOOP__DataLoop;
data.support[2].data = &data.data_loop;
data.support[3].type = SPA_TYPE_LOOP__MainLoop;
data.support[3].data = &data.data_loop;
data.n_support = 4;
init_type(&data.type, data.map);
if ((res = make_nodes(&data, argc > 1 ? argv[1] : NULL)) < 0) {
printf("can't make nodes: %d\n", res);
return -1;
}
if ((res = negotiate_formats(&data)) < 0) {
printf("can't negotiate nodes: %d\n", res);
return -1;
}
run_async_sink(&data);
}
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