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pipewire/spa/plugins/bluez5/a2dp-source.c
Pauli Virtanen eca37b58a6 bluez5: make room for a2dp duplex channel 
Some non-standard A2DP codecs (FastStream/aptX-LL) have "voice duplex
channel" that can be used to provide an A2DP duplex mode.

Add support for duplex channels, accounting for the fact that the two
directions may be encoded with different actual codecs.
2021-08-21 20:00:52 +03:00

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/* Spa A2DP Source
*
* Copyright © 2018 Wim Taymans
* Copyright © 2019 Collabora Ltd.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
#include <unistd.h>
#include <stddef.h>
#include <stdio.h>
#include <time.h>
#include <fcntl.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <spa/support/plugin.h>
#include <spa/support/loop.h>
#include <spa/support/log.h>
#include <spa/support/system.h>
#include <spa/utils/list.h>
#include <spa/utils/keys.h>
#include <spa/utils/names.h>
#include <spa/utils/result.h>
#include <spa/utils/string.h>
#include <spa/monitor/device.h>
#include <spa/node/node.h>
#include <spa/node/utils.h>
#include <spa/node/io.h>
#include <spa/node/keys.h>
#include <spa/param/param.h>
#include <spa/param/latency-utils.h>
#include <spa/param/audio/format.h>
#include <spa/param/audio/format-utils.h>
#include <spa/pod/filter.h>
#include "defs.h"
#include "rtp.h"
#include "a2dp-codecs.h"
struct props {
uint32_t min_latency;
uint32_t max_latency;
};
#define FILL_FRAMES 2
#define MAX_BUFFERS 32
struct buffer {
uint32_t id;
unsigned int outstanding:1;
struct spa_buffer *buf;
struct spa_meta_header *h;
struct spa_list link;
};
struct port {
struct spa_audio_info current_format;
uint32_t frame_size;
unsigned int have_format:1;
uint64_t info_all;
struct spa_port_info info;
struct spa_io_buffers *io;
struct spa_latency_info latency;
#define IDX_EnumFormat 0
#define IDX_Meta 1
#define IDX_IO 2
#define IDX_Format 3
#define IDX_Buffers 4
#define IDX_Latency 5
#define N_PORT_PARAMS 6
struct spa_param_info params[N_PORT_PARAMS];
struct buffer buffers[MAX_BUFFERS];
uint32_t n_buffers;
struct spa_list free;
struct spa_list ready;
struct buffer *current_buffer;
uint32_t ready_offset;
};
struct impl {
struct spa_handle handle;
struct spa_node node;
struct spa_log *log;
struct spa_loop *data_loop;
struct spa_system *data_system;
struct spa_hook_list hooks;
struct spa_callbacks callbacks;
uint64_t info_all;
struct spa_node_info info;
#define IDX_PropInfo 0
#define IDX_Props 1
#define IDX_NODE_IO 2
#define N_NODE_PARAMS 3
struct spa_param_info params[N_NODE_PARAMS];
struct props props;
struct spa_bt_transport *transport;
struct spa_hook transport_listener;
struct port port;
unsigned int started:1;
unsigned int transport_acquired:1;
unsigned int following:1;
struct spa_source source;
struct spa_io_clock *clock;
struct spa_io_position *position;
const struct a2dp_codec *codec;
bool codec_props_changed;
void *codec_props;
void *codec_data;
struct spa_audio_info codec_format;
uint8_t buffer_read[4096];
struct timespec now;
uint64_t sample_count;
uint64_t skip_count;
bool is_input;
bool is_duplex;
};
#define NAME "a2dp-source"
#define CHECK_PORT(this,d,p) ((d) == SPA_DIRECTION_OUTPUT && (p) == 0)
static const uint32_t default_min_latency = MIN_LATENCY;
static const uint32_t default_max_latency = MAX_LATENCY;
static void reset_props(struct props *props)
{
props->min_latency = default_min_latency;
props->max_latency = default_max_latency;
}
static int impl_node_enum_params(void *object, int seq,
uint32_t id, uint32_t start, uint32_t num,
const struct spa_pod *filter)
{
struct impl *this = object;
struct spa_pod *param;
struct spa_pod_builder b = { 0 };
uint8_t buffer[1024];
struct spa_result_node_params result;
uint32_t count = 0, index_offset = 0;
bool enum_codec = false;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(num != 0, -EINVAL);
result.id = id;
result.next = start;
next:
result.index = result.next++;
spa_pod_builder_init(&b, buffer, sizeof(buffer));
switch (id) {
case SPA_PARAM_PropInfo:
{
struct props *p = &this->props;
switch (result.index) {
case 0:
param = spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_PropInfo, id,
SPA_PROP_INFO_id, SPA_POD_Id(SPA_PROP_minLatency),
SPA_PROP_INFO_name, SPA_POD_String("The minimum latency"),
SPA_PROP_INFO_type, SPA_POD_CHOICE_RANGE_Int(p->min_latency, 1, INT32_MAX));
break;
case 1:
param = spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_PropInfo, id,
SPA_PROP_INFO_id, SPA_POD_Id(SPA_PROP_maxLatency),
SPA_PROP_INFO_name, SPA_POD_String("The maximum latency"),
SPA_PROP_INFO_type, SPA_POD_CHOICE_RANGE_Int(p->max_latency, 1, INT32_MAX));
break;
default:
enum_codec = true;
index_offset = 2;
}
break;
}
case SPA_PARAM_Props:
{
struct props *p = &this->props;
switch (result.index) {
case 0:
param = spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_Props, id,
SPA_PROP_minLatency, SPA_POD_Int(p->min_latency),
SPA_PROP_maxLatency, SPA_POD_Int(p->max_latency));
break;
default:
enum_codec = true;
index_offset = 1;
}
break;
}
default:
return -ENOENT;
}
if (enum_codec) {
int res;
if (this->codec->enum_props == NULL || this->codec_props == NULL)
return 0;
else if ((res = this->codec->enum_props(this->codec_props,
this->transport->device->settings,
id, result.index - index_offset,
&b, &param)) != 1)
return res;
}
if (spa_pod_filter(&b, &result.param, param, filter) < 0)
goto next;
spa_node_emit_result(&this->hooks, seq, 0, SPA_RESULT_TYPE_NODE_PARAMS, &result);
if (++count != num)
goto next;
return 0;
}
static int do_reassing_follower(struct spa_loop *loop,
bool async,
uint32_t seq,
const void *data,
size_t size,
void *user_data)
{
return 0;
}
static inline bool is_following(struct impl *this)
{
return this->position && this->clock && this->position->clock.id != this->clock->id;
}
static int impl_node_set_io(void *object, uint32_t id, void *data, size_t size)
{
struct impl *this = object;
bool following;
spa_return_val_if_fail(this != NULL, -EINVAL);
switch (id) {
case SPA_IO_Clock:
this->clock = data;
break;
case SPA_IO_Position:
this->position = data;
break;
default:
return -ENOENT;
}
following = is_following(this);
if (this->started && following != this->following) {
spa_log_debug(this->log, NAME" %p: reassign follower %d->%d", this, this->following, following);
this->following = following;
spa_loop_invoke(this->data_loop, do_reassing_follower, 0, NULL, 0, true, this);
}
return 0;
}
static void emit_node_info(struct impl *this, bool full);
static int apply_props(struct impl *this, const struct spa_pod *param)
{
struct props new_props = this->props;
int changed = 0;
if (param == NULL) {
reset_props(&new_props);
} else {
spa_pod_parse_object(param,
SPA_TYPE_OBJECT_Props, NULL,
SPA_PROP_minLatency, SPA_POD_OPT_Int(&new_props.min_latency),
SPA_PROP_maxLatency, SPA_POD_OPT_Int(&new_props.max_latency));
}
changed = (memcmp(&new_props, &this->props, sizeof(struct props)) != 0);
this->props = new_props;
return changed;
}
static int impl_node_set_param(void *object, uint32_t id, uint32_t flags,
const struct spa_pod *param)
{
struct impl *this = object;
spa_return_val_if_fail(this != NULL, -EINVAL);
switch (id) {
case SPA_PARAM_Props:
{
int res, codec_res = 0;
res = apply_props(this, param);
if (this->codec_props && this->codec->set_props) {
codec_res = this->codec->set_props(this->codec_props, param);
if (codec_res > 0)
this->codec_props_changed = true;
}
if (res > 0 || codec_res > 0) {
this->info.change_mask |= SPA_NODE_CHANGE_MASK_PARAMS;
this->params[IDX_Props].flags ^= SPA_PARAM_INFO_SERIAL;
emit_node_info(this, false);
}
break;
}
default:
return -ENOENT;
}
return 0;
}
static void reset_buffers(struct port *port)
{
uint32_t i;
spa_list_init(&port->free);
spa_list_init(&port->ready);
port->current_buffer = NULL;
for (i = 0; i < port->n_buffers; i++) {
struct buffer *b = &port->buffers[i];
spa_list_append(&port->free, &b->link);
b->outstanding = false;
}
}
static void recycle_buffer(struct impl *this, struct port *port, uint32_t buffer_id)
{
struct buffer *b = &port->buffers[buffer_id];
if (b->outstanding) {
spa_log_trace(this->log, NAME " %p: recycle buffer %u", this, buffer_id);
spa_list_append(&port->free, &b->link);
b->outstanding = false;
}
}
static int32_t read_data(struct impl *this) {
const ssize_t b_size = sizeof(this->buffer_read);
int32_t size_read = 0;
again:
/* read data from socket */
size_read = read(this->source.fd, this->buffer_read, b_size);
if (size_read == 0)
return 0;
else if (size_read < 0) {
/* retry if interrupted */
if (errno == EINTR)
goto again;
/* return socket has no data */
if (errno == EAGAIN || errno == EWOULDBLOCK)
return 0;
/* go to 'stop' if socket has an error */
spa_log_error(this->log, "read error: %s", strerror(errno));
return -errno;
}
return size_read;
}
static int32_t decode_data(struct impl *this, uint8_t *src, uint32_t src_size,
uint8_t *dst, uint32_t dst_size)
{
ssize_t processed;
size_t written, avail;
if ((processed = this->codec->start_decode(this->codec_data,
src, src_size, NULL, NULL)) < 0)
return processed;
src += processed;
src_size -= processed;
/* decode */
avail = dst_size;
while (src_size > 0) {
if ((processed = this->codec->decode(this->codec_data,
src, src_size, dst, avail, &written)) <= 0)
return processed;
/* update source and dest pointers */
spa_return_val_if_fail (avail > written, -ENOSPC);
src_size -= processed;
src += processed;
avail -= written;
dst += written;
}
return dst_size - avail;
}
static void skip_ready_buffers(struct impl *this)
{
struct port *port = &this->port;
/* Move all buffers from ready to free */
while (!spa_list_is_empty(&port->ready)) {
struct buffer *b;
b = spa_list_first(&port->ready, struct buffer, link);
spa_list_remove(&b->link);
spa_list_append(&port->free, &b->link);
spa_assert(!b->outstanding);
this->skip_count += b->buf->datas[0].chunk->size / port->frame_size;
}
}
static void a2dp_on_ready_read(struct spa_source *source)
{
struct impl *this = source->data;
struct port *port = &this->port;
struct spa_io_buffers *io = port->io;
int32_t size_read, decoded, avail;
struct spa_data *datas;
struct buffer *buffer;
uint32_t min_data;
uint8_t read_decoded[4096];
/* make sure the source is an input */
if ((source->rmask & SPA_IO_IN) == 0) {
spa_log_error(this->log, "source is not an input, rmask=%d", source->rmask);
goto stop;
}
if (this->transport == NULL) {
spa_log_debug(this->log, "no transport, stop reading");
goto stop;
}
spa_log_trace(this->log, "socket poll");
/* update the current pts */
spa_system_clock_gettime(this->data_system, CLOCK_MONOTONIC, &this->now);
/* read */
size_read = read_data (this);
if (size_read == 0)
return;
if (size_read < 0) {
spa_log_error(this->log, "failed to read data: %s", spa_strerror(size_read));
goto stop;
}
spa_log_trace(this->log, "read socket data %d", size_read);
if (this->codec_props_changed && this->codec_props
&& this->codec->update_props) {
this->codec->update_props(this->codec_data, this->codec_props);
this->codec_props_changed = false;
}
/* decode */
decoded = decode_data(this, this->buffer_read, size_read,
read_decoded, sizeof (read_decoded));
if (decoded < 0) {
spa_log_error(this->log, "failed to decode data: %d", decoded);
goto stop;
}
if (decoded == 0)
return;
spa_log_trace(this->log, "decoded socket data %d", decoded);
/* discard when not started */
if (!this->started)
return;
/* get buffer */
if (!port->current_buffer) {
if (spa_list_is_empty(&port->free)) {
/* xrun, skip ahead */
skip_ready_buffers(this);
this->skip_count += decoded / port->frame_size;
this->sample_count += decoded / port->frame_size;
return;
}
if (this->skip_count > 0) {
spa_log_info(this->log, NAME " %p: xrun, skipped %"PRIu64" usec",
this, (uint64_t)(this->skip_count * SPA_USEC_PER_SEC / port->current_format.info.raw.rate));
this->skip_count = 0;
}
buffer = spa_list_first(&port->free, struct buffer, link);
spa_list_remove(&buffer->link);
port->current_buffer = buffer;
port->ready_offset = 0;
spa_log_trace(this->log, "dequeue %d", buffer->id);
if (buffer->h) {
buffer->h->seq = this->sample_count;
buffer->h->pts = SPA_TIMESPEC_TO_NSEC(&this->now);
buffer->h->dts_offset = 0;
}
} else {
buffer = port->current_buffer;
}
datas = buffer->buf->datas;
/* copy data into buffer */
avail = SPA_MIN(decoded, (int32_t)(datas[0].maxsize - port->ready_offset));
if (avail < decoded)
spa_log_warn(this->log, NAME ": buffer too small (%d > %d)", decoded, avail);
memcpy ((uint8_t *)datas[0].data + port->ready_offset, read_decoded, avail);
port->ready_offset += avail;
this->sample_count += decoded / port->frame_size;
/* send buffer if full */
min_data = SPA_MIN(this->props.min_latency * port->frame_size, datas[0].maxsize / 2);
if (port->ready_offset >= min_data) {
uint64_t sample_count;
datas[0].chunk->offset = 0;
datas[0].chunk->size = port->ready_offset;
datas[0].chunk->stride = port->frame_size;
sample_count = datas[0].chunk->size / port->frame_size;
spa_log_trace(this->log, "queue %d", buffer->id);
spa_list_append(&port->ready, &buffer->link);
port->current_buffer = NULL;
if (!this->following && this->clock) {
this->clock->nsec = SPA_TIMESPEC_TO_NSEC(&this->now);
this->clock->duration = sample_count * this->clock->rate.denom / port->current_format.info.raw.rate;
this->clock->position = this->sample_count * this->clock->rate.denom / port->current_format.info.raw.rate;
this->clock->delay = 0;
this->clock->rate_diff = 1.0f;
this->clock->next_nsec = this->clock->nsec + (uint64_t)sample_count * SPA_NSEC_PER_SEC / port->current_format.info.raw.rate;
}
}
/* done if there are no buffers ready */
if (spa_list_is_empty(&port->ready))
return;
if (this->following)
return;
/* process the buffer if IO does not have any */
if (io != NULL && io->status != SPA_STATUS_HAVE_DATA) {
struct buffer *b;
if (io->buffer_id < port->n_buffers)
recycle_buffer(this, port, io->buffer_id);
b = spa_list_first(&port->ready, struct buffer, link);
spa_list_remove(&b->link);
b->outstanding = true;
io->buffer_id = b->id;
io->status = SPA_STATUS_HAVE_DATA;
}
/* notify ready */
spa_node_call_ready(&this->callbacks, SPA_STATUS_HAVE_DATA);
return;
stop:
if (this->source.loop)
spa_loop_remove_source(this->data_loop, &this->source);
}
static int transport_start(struct impl *this)
{
int res, val;
struct port *port = &this->port;
if (this->transport_acquired)
return 0;
spa_log_debug(this->log, NAME" %p: transport %p acquire", this,
this->transport);
if ((res = spa_bt_transport_acquire(this->transport, false)) < 0)
return res;
this->transport_acquired = true;
this->codec_data = this->codec->init(this->codec, 0,
this->transport->configuration,
this->transport->configuration_len,
&port->current_format,
this->codec_props,
this->transport->read_mtu);
if (this->codec_data == NULL)
return -EIO;
spa_log_info(this->log, NAME " %p: using A2DP codec %s", this, this->codec->description);
val = fcntl(this->transport->fd, F_GETFL);
if (fcntl(this->transport->fd, F_SETFL, val | O_NONBLOCK) < 0)
spa_log_warn(this->log, NAME" %p: fcntl %u %m", this, val | O_NONBLOCK);
val = FILL_FRAMES * this->transport->write_mtu;
if (setsockopt(this->transport->fd, SOL_SOCKET, SO_SNDBUF, &val, sizeof(val)) < 0)
spa_log_warn(this->log, NAME" %p: SO_SNDBUF %m", this);
val = FILL_FRAMES * this->transport->read_mtu;
if (setsockopt(this->transport->fd, SOL_SOCKET, SO_RCVBUF, &val, sizeof(val)) < 0)
spa_log_warn(this->log, NAME" %p: SO_RCVBUF %m", this);
val = 6;
if (setsockopt(this->transport->fd, SOL_SOCKET, SO_PRIORITY, &val, sizeof(val)) < 0)
spa_log_warn(this->log, "SO_PRIORITY failed: %m");
reset_buffers(&this->port);
this->source.data = this;
this->source.fd = this->transport->fd;
this->source.func = a2dp_on_ready_read;
this->source.mask = SPA_IO_IN;
this->source.rmask = 0;
spa_loop_add_source(this->data_loop, &this->source);
this->sample_count = 0;
this->skip_count = 0;
return 0;
}
static int do_start(struct impl *this)
{
int res = 0;
if (this->started)
return 0;
this->following = is_following(this);
spa_log_debug(this->log, NAME" %p: start state:%d following:%d",
this, this->transport->state, this->following);
spa_return_val_if_fail(this->transport != NULL, -EIO);
if (this->transport->state >= SPA_BT_TRANSPORT_STATE_PENDING ||
this->is_duplex)
res = transport_start(this);
this->started = true;
return res;
}
static int do_remove_source(struct spa_loop *loop,
bool async,
uint32_t seq,
const void *data,
size_t size,
void *user_data)
{
struct impl *this = user_data;
if (this->source.loop)
spa_loop_remove_source(this->data_loop, &this->source);
return 0;
}
static int transport_stop(struct impl *this)
{
int res;
spa_log_debug(this->log, NAME" %p: transport stop", this);
spa_loop_invoke(this->data_loop, do_remove_source, 0, NULL, 0, true, this);
if (this->transport && this->transport_acquired)
res = spa_bt_transport_release(this->transport);
else
res = 0;
this->transport_acquired = false;
if (this->codec_data)
this->codec->deinit(this->codec_data);
this->codec_data = NULL;
return res;
}
static int do_stop(struct impl *this)
{
int res;
if (!this->started)
return 0;
spa_log_debug(this->log, NAME" %p: stop", this);
res = transport_stop(this);
this->started = false;
return res;
}
static int impl_node_send_command(void *object, const struct spa_command *command)
{
struct impl *this = object;
struct port *port;
int res;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(command != NULL, -EINVAL);
port = &this->port;
switch (SPA_NODE_COMMAND_ID(command)) {
case SPA_NODE_COMMAND_Start:
if (!port->have_format)
return -EIO;
if (port->n_buffers == 0)
return -EIO;
if ((res = do_start(this)) < 0)
return res;
break;
case SPA_NODE_COMMAND_Suspend:
case SPA_NODE_COMMAND_Pause:
if ((res = do_stop(this)) < 0)
return res;
break;
default:
return -ENOTSUP;
}
return 0;
}
static void emit_node_info(struct impl *this, bool full)
{
char latency[64] = SPA_STRINGIFY(MIN_LATENCY)"/48000";
uint64_t old = full ? this->info.change_mask : 0;
struct spa_dict_item node_info_items[] = {
{ SPA_KEY_DEVICE_API, "bluez5" },
{ SPA_KEY_MEDIA_CLASS, this->is_input ? "Audio/Source" : "Stream/Output/Audio" },
{ SPA_KEY_NODE_LATENCY, latency },
{ "media.name", ((this->transport && this->transport->device->name) ?
this->transport->device->name : "A2DP") },
{ SPA_KEY_NODE_DRIVER, this->is_input ? "true" : "false" },
};
if (full)
this->info.change_mask = this->info_all;
if (this->info.change_mask) {
if (this->transport && this->port.have_format)
snprintf(latency, sizeof(latency), "%d/%d", (int)this->props.min_latency,
(int)this->port.current_format.info.raw.rate);
this->info.props = &SPA_DICT_INIT_ARRAY(node_info_items);
spa_node_emit_info(&this->hooks, &this->info);
this->info.change_mask = old;
}
}
static void emit_port_info(struct impl *this, struct port *port, bool full)
{
uint64_t old = full ? port->info.change_mask : 0;
if (full)
port->info.change_mask = port->info_all;
if (port->info.change_mask) {
spa_node_emit_port_info(&this->hooks,
SPA_DIRECTION_OUTPUT, 0, &port->info);
port->info.change_mask = old;
}
}
static int
impl_node_add_listener(void *object,
struct spa_hook *listener,
const struct spa_node_events *events,
void *data)
{
struct impl *this = object;
struct spa_hook_list save;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_hook_list_isolate(&this->hooks, &save, listener, events, data);
emit_node_info(this, true);
emit_port_info(this, &this->port, true);
spa_hook_list_join(&this->hooks, &save);
return 0;
}
static int
impl_node_set_callbacks(void *object,
const struct spa_node_callbacks *callbacks,
void *data)
{
struct impl *this = object;
spa_return_val_if_fail(this != NULL, -EINVAL);
this->callbacks = SPA_CALLBACKS_INIT(callbacks, data);
return 0;
}
static int impl_node_sync(void *object, int seq)
{
struct impl *this = object;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_node_emit_result(&this->hooks, seq, 0, 0, NULL);
return 0;
}
static int impl_node_add_port(void *object, enum spa_direction direction, uint32_t port_id,
const struct spa_dict *props)
{
return -ENOTSUP;
}
static int impl_node_remove_port(void *object, enum spa_direction direction, uint32_t port_id)
{
return -ENOTSUP;
}
static int
impl_node_port_enum_params(void *object, int seq,
enum spa_direction direction, uint32_t port_id,
uint32_t id, uint32_t start, uint32_t num,
const struct spa_pod *filter)
{
struct impl *this = object;
struct port *port;
struct spa_pod *param;
struct spa_pod_builder b = { 0 };
uint8_t buffer[1024];
struct spa_result_node_params result;
uint32_t count = 0;
int res;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(num != 0, -EINVAL);
spa_return_val_if_fail(CHECK_PORT(this, direction, port_id), -EINVAL);
port = &this->port;
result.id = id;
result.next = start;
next:
result.index = result.next++;
spa_pod_builder_init(&b, buffer, sizeof(buffer));
switch (id) {
case SPA_PARAM_EnumFormat:
if (result.index > 0)
return 0;
if (this->codec == NULL)
return -EIO;
if (this->transport == NULL)
return -EIO;
if ((res = this->codec->enum_config(this->codec,
this->transport->configuration,
this->transport->configuration_len,
id, result.index, &b, &param)) != 1)
return res;
break;
case SPA_PARAM_Format:
if (!port->have_format)
return -EIO;
if (result.index > 0)
return 0;
param = spa_format_audio_raw_build(&b, id, &port->current_format.info.raw);
break;
case SPA_PARAM_Buffers:
if (!port->have_format)
return -EIO;
if (result.index > 0)
return 0;
param = spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_ParamBuffers, id,
SPA_PARAM_BUFFERS_buffers, SPA_POD_CHOICE_RANGE_Int(8, 8, MAX_BUFFERS),
SPA_PARAM_BUFFERS_blocks, SPA_POD_Int(1),
SPA_PARAM_BUFFERS_size, SPA_POD_CHOICE_RANGE_Int(
this->props.max_latency * port->frame_size,
this->props.min_latency * port->frame_size,
INT32_MAX),
SPA_PARAM_BUFFERS_stride, SPA_POD_Int(port->frame_size),
SPA_PARAM_BUFFERS_align, SPA_POD_Int(16));
break;
case SPA_PARAM_Meta:
switch (result.index) {
case 0:
param = spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_ParamMeta, id,
SPA_PARAM_META_type, SPA_POD_Id(SPA_META_Header),
SPA_PARAM_META_size, SPA_POD_Int(sizeof(struct spa_meta_header)));
break;
default:
return 0;
}
break;
case SPA_PARAM_IO:
switch (result.index) {
case 0:
param = spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_ParamIO, id,
SPA_PARAM_IO_id, SPA_POD_Id(SPA_IO_Buffers),
SPA_PARAM_IO_size, SPA_POD_Int(sizeof(struct spa_io_buffers)));
break;
default:
return 0;
}
break;
case SPA_PARAM_Latency:
switch (result.index) {
case 0:
param = spa_latency_build(&b, id, &port->latency);
break;
default:
return 0;
}
break;
default:
return -ENOENT;
}
if (spa_pod_filter(&b, &result.param, param, filter) < 0)
goto next;
spa_node_emit_result(&this->hooks, seq, 0, SPA_RESULT_TYPE_NODE_PARAMS, &result);
if (++count != num)
goto next;
return 0;
}
static int clear_buffers(struct impl *this, struct port *port)
{
do_stop(this);
if (port->n_buffers > 0) {
spa_list_init(&port->free);
spa_list_init(&port->ready);
port->n_buffers = 0;
}
port->current_buffer = NULL;
return 0;
}
static int port_set_format(struct impl *this, struct port *port,
uint32_t flags,
const struct spa_pod *format)
{
int err;
if (format == NULL) {
spa_log_debug(this->log, "clear format");
clear_buffers(this, port);
port->have_format = false;
} else {
struct spa_audio_info info = { 0 };
if ((err = spa_format_parse(format, &info.media_type, &info.media_subtype)) < 0)
return err;
if (info.media_type != SPA_MEDIA_TYPE_audio ||
info.media_subtype != SPA_MEDIA_SUBTYPE_raw)
return -EINVAL;
if (spa_format_audio_raw_parse(format, &info.info.raw) < 0)
return -EINVAL;
port->frame_size = info.info.raw.channels;
switch (info.info.raw.format) {
case SPA_AUDIO_FORMAT_S16:
port->frame_size *= 2;
break;
case SPA_AUDIO_FORMAT_S24:
port->frame_size *= 3;
break;
case SPA_AUDIO_FORMAT_S24_32:
case SPA_AUDIO_FORMAT_S32:
case SPA_AUDIO_FORMAT_F32:
port->frame_size *= 4;
break;
default:
return -EINVAL;
}
port->current_format = info;
port->have_format = true;
}
port->info.change_mask |= SPA_PORT_CHANGE_MASK_PARAMS;
if (port->have_format) {
port->info.change_mask |= SPA_PORT_CHANGE_MASK_FLAGS;
port->info.flags = SPA_PORT_FLAG_LIVE;
port->info.change_mask |= SPA_PORT_CHANGE_MASK_RATE;
port->info.rate = SPA_FRACTION(1, port->current_format.info.raw.rate);
port->params[IDX_Format] = SPA_PARAM_INFO(SPA_PARAM_Format, SPA_PARAM_INFO_READWRITE);
port->params[IDX_Buffers] = SPA_PARAM_INFO(SPA_PARAM_Buffers, SPA_PARAM_INFO_READ);
port->params[IDX_Latency].flags ^= SPA_PARAM_INFO_SERIAL;
} else {
port->params[IDX_Format] = SPA_PARAM_INFO(SPA_PARAM_Format, SPA_PARAM_INFO_WRITE);
port->params[IDX_Buffers] = SPA_PARAM_INFO(SPA_PARAM_Buffers, 0);
}
emit_port_info(this, port, false);
return 0;
}
static int
impl_node_port_set_param(void *object,
enum spa_direction direction, uint32_t port_id,
uint32_t id, uint32_t flags,
const struct spa_pod *param)
{
struct impl *this = object;
struct port *port;
int res;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(CHECK_PORT(node, direction, port_id), -EINVAL);
port = &this->port;
switch (id) {
case SPA_PARAM_Format:
res = port_set_format(this, port, flags, param);
break;
case SPA_PARAM_Latency:
res = 0;
break;
default:
res = -ENOENT;
break;
}
return res;
}
static int
impl_node_port_use_buffers(void *object,
enum spa_direction direction, uint32_t port_id,
uint32_t flags,
struct spa_buffer **buffers, uint32_t n_buffers)
{
struct impl *this = object;
struct port *port;
uint32_t i;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(CHECK_PORT(this, direction, port_id), -EINVAL);
port = &this->port;
spa_log_debug(this->log, "use buffers %d", n_buffers);
if (!port->have_format)
return -EIO;
clear_buffers(this, port);
for (i = 0; i < n_buffers; i++) {
struct buffer *b = &port->buffers[i];
struct spa_data *d = buffers[i]->datas;
b->buf = buffers[i];
b->id = i;
b->h = spa_buffer_find_meta_data(buffers[i], SPA_META_Header, sizeof(*b->h));
if (d[0].data == NULL) {
spa_log_error(this->log, NAME " %p: need mapped memory", this);
return -EINVAL;
}
spa_list_append(&port->free, &b->link);
b->outstanding = false;
}
port->n_buffers = n_buffers;
return 0;
}
static int
impl_node_port_set_io(void *object,
enum spa_direction direction,
uint32_t port_id,
uint32_t id,
void *data, size_t size)
{
struct impl *this = object;
struct port *port;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(CHECK_PORT(this, direction, port_id), -EINVAL);
port = &this->port;
switch (id) {
case SPA_IO_Buffers:
port->io = data;
break;
default:
return -ENOENT;
}
return 0;
}
static int impl_node_port_reuse_buffer(void *object, uint32_t port_id, uint32_t buffer_id)
{
struct impl *this = object;
struct port *port;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(port_id == 0, -EINVAL);
port = &this->port;
if (port->n_buffers == 0)
return -EIO;
if (buffer_id >= port->n_buffers)
return -EINVAL;
recycle_buffer(this, port, buffer_id);
return 0;
}
static int impl_node_process(void *object)
{
struct impl *this = object;
struct port *port;
struct spa_io_buffers *io;
struct buffer *buffer;
spa_return_val_if_fail(this != NULL, -EINVAL);
port = &this->port;
io = port->io;
spa_return_val_if_fail(io != NULL, -EIO);
spa_log_trace(this->log, "%p status:%d", this, io->status);
/* Return if we already have a buffer */
if (io->status == SPA_STATUS_HAVE_DATA)
return SPA_STATUS_HAVE_DATA;
/* Recycle */
if (io->buffer_id < port->n_buffers) {
recycle_buffer(this, port, io->buffer_id);
io->buffer_id = SPA_ID_INVALID;
}
/* Return if there are no buffers ready to be processed */
if (spa_list_is_empty(&port->ready))
return SPA_STATUS_OK;
/* Get the new buffer from the ready list */
buffer = spa_list_first(&port->ready, struct buffer, link);
spa_list_remove(&buffer->link);
buffer->outstanding = true;
/* Set the new buffer in IO */
io->buffer_id = buffer->id;
io->status = SPA_STATUS_HAVE_DATA;
/* Notify we have a buffer ready to be processed */
return SPA_STATUS_HAVE_DATA;
}
static const struct spa_node_methods impl_node = {
SPA_VERSION_NODE_METHODS,
.add_listener = impl_node_add_listener,
.set_callbacks = impl_node_set_callbacks,
.sync = impl_node_sync,
.enum_params = impl_node_enum_params,
.set_param = impl_node_set_param,
.set_io = impl_node_set_io,
.send_command = impl_node_send_command,
.add_port = impl_node_add_port,
.remove_port = impl_node_remove_port,
.port_enum_params = impl_node_port_enum_params,
.port_set_param = impl_node_port_set_param,
.port_use_buffers = impl_node_port_use_buffers,
.port_set_io = impl_node_port_set_io,
.port_reuse_buffer = impl_node_port_reuse_buffer,
.process = impl_node_process,
};
static int do_transport_destroy(struct spa_loop *loop,
bool async,
uint32_t seq,
const void *data,
size_t size,
void *user_data)
{
struct impl *this = user_data;
this->transport = NULL;
this->transport_acquired = false;
return 0;
}
static void transport_destroy(void *data)
{
struct impl *this = data;
spa_log_debug(this->log, "transport %p destroy", this->transport);
spa_loop_invoke(this->data_loop, do_transport_destroy, 0, NULL, 0, true, this);
}
static const struct spa_bt_transport_events transport_events = {
SPA_VERSION_BT_TRANSPORT_EVENTS,
.destroy = transport_destroy,
};
static int impl_get_interface(struct spa_handle *handle, const char *type, void **interface)
{
struct impl *this;
spa_return_val_if_fail(handle != NULL, -EINVAL);
spa_return_val_if_fail(interface != NULL, -EINVAL);
this = (struct impl *) handle;
if (spa_streq(type, SPA_TYPE_INTERFACE_Node))
*interface = &this->node;
else
return -ENOENT;
return 0;
}
static int impl_clear(struct spa_handle *handle)
{
struct impl *this = (struct impl *) handle;
if (this->codec_data)
this->codec->deinit(this->codec_data);
if (this->codec_props && this->codec->clear_props)
this->codec->clear_props(this->codec_props);
if (this->transport)
spa_hook_remove(&this->transport_listener);
return 0;
}
static size_t
impl_get_size(const struct spa_handle_factory *factory,
const struct spa_dict *params)
{
return sizeof(struct impl);
}
static int
impl_init(const struct spa_handle_factory *factory,
struct spa_handle *handle,
const struct spa_dict *info,
const struct spa_support *support,
uint32_t n_support)
{
struct impl *this;
struct port *port;
const char *str;
spa_return_val_if_fail(factory != NULL, -EINVAL);
spa_return_val_if_fail(handle != NULL, -EINVAL);
handle->get_interface = impl_get_interface;
handle->clear = impl_clear;
this = (struct impl *) handle;
this->log = spa_support_find(support, n_support, SPA_TYPE_INTERFACE_Log);
this->data_loop = spa_support_find(support, n_support, SPA_TYPE_INTERFACE_DataLoop);
this->data_system = spa_support_find(support, n_support, SPA_TYPE_INTERFACE_DataSystem);
if (this->data_loop == NULL) {
spa_log_error(this->log, "a data loop is needed");
return -EINVAL;
}
if (this->data_system == NULL) {
spa_log_error(this->log, "a data system is needed");
return -EINVAL;
}
this->node.iface = SPA_INTERFACE_INIT(
SPA_TYPE_INTERFACE_Node,
SPA_VERSION_NODE,
&impl_node, this);
spa_hook_list_init(&this->hooks);
reset_props(&this->props);
/* set the node info */
this->info_all = SPA_NODE_CHANGE_MASK_FLAGS |
SPA_NODE_CHANGE_MASK_PROPS |
SPA_NODE_CHANGE_MASK_PARAMS;
this->info = SPA_NODE_INFO_INIT();
this->info.max_input_ports = 0;
this->info.max_output_ports = 1;
this->info.flags = SPA_NODE_FLAG_RT;
this->params[IDX_PropInfo] = SPA_PARAM_INFO(SPA_PARAM_PropInfo, SPA_PARAM_INFO_READ);
this->params[IDX_Props] = SPA_PARAM_INFO(SPA_PARAM_Props, SPA_PARAM_INFO_READWRITE);
this->params[IDX_NODE_IO] = SPA_PARAM_INFO(SPA_PARAM_IO, SPA_PARAM_INFO_READ);
this->info.params = this->params;
this->info.n_params = N_NODE_PARAMS;
/* set the port info */
port = &this->port;
port->info_all = SPA_PORT_CHANGE_MASK_FLAGS |
SPA_PORT_CHANGE_MASK_PARAMS;
port->info = SPA_PORT_INFO_INIT();
port->info.change_mask = SPA_PORT_CHANGE_MASK_FLAGS;
port->info.flags = SPA_PORT_FLAG_LIVE |
SPA_PORT_FLAG_TERMINAL;
port->params[IDX_EnumFormat] = SPA_PARAM_INFO(SPA_PARAM_EnumFormat, SPA_PARAM_INFO_READ);
port->params[IDX_Meta] = SPA_PARAM_INFO(SPA_PARAM_Meta, SPA_PARAM_INFO_READ);
port->params[IDX_IO] = SPA_PARAM_INFO(SPA_PARAM_IO, SPA_PARAM_INFO_READ);
port->params[IDX_Format] = SPA_PARAM_INFO(SPA_PARAM_Format, SPA_PARAM_INFO_WRITE);
port->params[IDX_Buffers] = SPA_PARAM_INFO(SPA_PARAM_Buffers, 0);
port->params[IDX_Latency] = SPA_PARAM_INFO(SPA_PARAM_Latency, SPA_PARAM_INFO_READWRITE);
port->info.params = port->params;
port->info.n_params = N_PORT_PARAMS;
port->latency = SPA_LATENCY_INFO(SPA_DIRECTION_OUTPUT);
port->latency.min_quantum = 1.0f;
port->latency.max_quantum = 1.0f;
/* Init the buffer lists */
spa_list_init(&port->ready);
spa_list_init(&port->free);
if (info != NULL) {
if ((str = spa_dict_lookup(info, SPA_KEY_API_BLUEZ5_TRANSPORT)) != NULL)
sscanf(str, "pointer:%p", &this->transport);
if ((str = spa_dict_lookup(info, "bluez5.a2dp-source-role")) != NULL)
this->is_input = spa_streq(str, "input");
if ((str = spa_dict_lookup(info, "api.bluez5.a2dp-duplex")) != NULL)
this->is_duplex = spa_atob(str);
}
if (this->transport == NULL) {
spa_log_error(this->log, "a transport is needed");
return -EINVAL;
}
if (this->transport->a2dp_codec == NULL) {
spa_log_error(this->log, "a transport codec is needed");
return -EINVAL;
}
this->codec = this->transport->a2dp_codec;
if (this->is_duplex) {
if (!this->codec->duplex_codec) {
spa_log_error(this->log, "transport codec doesn't support duplex");
return -EINVAL;
}
this->codec = this->codec->duplex_codec;
this->is_input = true;
}
if (this->codec->init_props != NULL)
this->codec_props = this->codec->init_props(this->codec,
this->transport->device->settings);
spa_bt_transport_add_listener(this->transport,
&this->transport_listener, &transport_events, this);
return 0;
}
static const struct spa_interface_info impl_interfaces[] = {
{SPA_TYPE_INTERFACE_Node,},
};
static int
impl_enum_interface_info(const struct spa_handle_factory *factory,
const struct spa_interface_info **info, uint32_t *index)
{
spa_return_val_if_fail(factory != NULL, -EINVAL);
spa_return_val_if_fail(info != NULL, -EINVAL);
spa_return_val_if_fail(index != NULL, -EINVAL);
switch (*index) {
case 0:
*info = &impl_interfaces[*index];
break;
default:
return 0;
}
(*index)++;
return 1;
}
static const struct spa_dict_item info_items[] = {
{ SPA_KEY_FACTORY_AUTHOR, "Collabora Ltd. <contact@collabora.com>" },
{ SPA_KEY_FACTORY_DESCRIPTION, "Capture bluetooth audio with a2dp" },
{ SPA_KEY_FACTORY_USAGE, SPA_KEY_API_BLUEZ5_TRANSPORT"=<transport>" },
};
static const struct spa_dict info = SPA_DICT_INIT_ARRAY(info_items);
const struct spa_handle_factory spa_a2dp_source_factory = {
SPA_VERSION_HANDLE_FACTORY,
SPA_NAME_API_BLUEZ5_A2DP_SOURCE,
&info,
impl_get_size,
impl_init,
impl_enum_interface_info,
};
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