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|
/* Spa ALSA Compress-Offload sink
*
* Copyright © 2022 Wim Taymans
* © 2022 Asymptotic Inc.
*
* 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 <errno.h>
#include <stddef.h>
#include <unistd.h>
#include <string.h>
#include <stdio.h>
#include <fcntl.h>
#include <spa/monitor/device.h>
#include <spa/support/plugin.h>
#include <spa/support/log.h>
#include <spa/support/system.h>
#include <spa/support/loop.h>
#include <spa/utils/list.h>
#include <spa/utils/keys.h>
#include <spa/utils/json.h>
#include <spa/utils/names.h>
#include <spa/utils/string.h>
#include <spa/utils/result.h>
#include <spa/node/node.h>
#include <spa/node/utils.h>
#include <spa/node/io.h>
#include <spa/node/keys.h>
#include <spa/param/audio/format-utils.h>
#include <spa/debug/types.h>
#include <spa/debug/mem.h>
#include <spa/param/audio/type-info.h>
#include <spa/param/param.h>
#include <spa/pod/filter.h>
#include <spa/control/control.h>
#include <sound/compress_params.h>
#include <tinycompress/tinycompress.h>
/*
* This creates a PipeWire sink node which uses the tinycompress user space
* library to use the ALSA Compress-Offload API for writing compressed data
* like MP3, FLAC etc. to an DSP that can handle such data directly.
*
* These show up under /dev/snd like comprCxDx, as opposed to regular
* ALSA PCM devices.
*
* root@dragonboard-845c:~# ls /dev/snd
* by-path comprC0D3 controlC0 pcmC0D0c pcmC0D0p pcmC0D1c pcmC0D1p pcmC0D2c pcmC0D2p timer
*
* ## Example configuration
*\code{.unparsed}
* context.objects = [
* { factory = spa-node-factory
* args = {
* factory.name = api.alsa.compress.offload.sink
* node.name = Compress-Offload-Sink
* media.class = "Audio/Sink"
* api.alsa.path = "hw:0,3"
* }
* }
*]
*\endcode
*
* TODO:
* - Clocking
* - Implement pause and resume
* - Having a better wait mechanism
* - Automatic loading using alsa-udev
*
*/
#define NAME "compress-offload-audio-sink"
#define DEFAULT_CHANNELS 2
#define DEFAULT_RATE 44100
#define MAX_BUFFERS 4
#define MAX_PORTS 1
#define MAX_CODECS 32 /* See include/sound/compress_params.h */
#define MIN_FRAGMENT_SIZE (4 * 1024)
#define MAX_FRAGMENT_SIZE (64 * 1024)
#define MIN_NUM_FRAGMENTS (4)
#define MAX_NUM_FRAGMENTS (8 * 4)
struct props {
uint32_t channels;
uint32_t rate;
uint32_t pos[SPA_AUDIO_MAX_CHANNELS];
char device[64];
};
static void reset_props(struct props *props)
{
props->channels = 0;
props->rate = 0;
}
struct buffer {
uint32_t id;
uint32_t flags;
struct spa_buffer *outbuf;
};
struct impl;
struct port {
uint64_t info_all;
struct spa_port_info info;
struct spa_param_info params[5];
struct spa_io_buffers *io;
bool have_format;
struct spa_audio_info current_format;
struct buffer buffers[MAX_BUFFERS];
uint32_t n_buffers;
uint32_t written;
};
struct impl {
struct spa_handle handle;
struct spa_node node;
struct spa_log *log;
struct props props;
struct spa_node_info info;
struct spa_param_info params[1];
struct spa_hook_list hooks;
struct spa_callbacks callbacks;
struct port port;
unsigned int started_node:1;
unsigned int started_compress:1;
uint64_t info_all;
uint32_t quantum_limit;
struct compr_config compr_conf;
struct snd_codec codec;
struct compress *compress;
int32_t codecs_supported[MAX_CODECS];
uint32_t num_codecs;
};
#define CHECK_PORT(this,d,p) ((d) == SPA_DIRECTION_INPUT && (p) < MAX_PORTS)
static const struct spa_dict_item node_info_items[] = {
{ SPA_KEY_DEVICE_API, "alsa" },
{ SPA_KEY_MEDIA_CLASS, "Audio/Sink" },
{ SPA_KEY_NODE_DRIVER, "false" },
{ SPA_KEY_NODE_PAUSE_ON_IDLE, "false" },
};
static const struct codec_id {
uint32_t codec_id;
} codec_info[] = {
{ SND_AUDIOCODEC_MP3, },
{ SND_AUDIOCODEC_AAC, },
{ SND_AUDIOCODEC_WMA, },
{ SND_AUDIOCODEC_VORBIS, },
{ SND_AUDIOCODEC_FLAC, },
{ SND_AUDIOCODEC_ALAC, },
{ SND_AUDIOCODEC_APE, },
{ SND_AUDIOCODEC_REAL, },
{ SND_AUDIOCODEC_AMR, },
{ SND_AUDIOCODEC_AMRWB, },
};
static int
open_compress(struct impl *this)
{
struct compress *compress;
compress = compress_open_by_name(this->props.device, COMPRESS_IN, &this->compr_conf);
if (!compress || !is_compress_ready(compress)) {
spa_log_error(this->log, NAME " %p: Unable to open compress device", this);
return -EINVAL;
}
this->compress = compress;
compress_nonblock(this->compress, 1);
return 0;
}
static int
write_compress(struct impl *this, void *buf, int32_t size)
{
int32_t wrote;
int32_t to_write = size;
struct port *port = &this->port;
retry:
wrote = compress_write(this->compress, buf, to_write);
if (wrote < 0) {
spa_log_error(this->log, NAME " %p: Error playing sample: %s",
this, compress_get_error(this->compress));
return wrote;
}
port->written += wrote;
spa_log_debug(this->log, NAME " %p: We wrote %d, DSP accepted %d\n", this, size, wrote);
if (wrote < to_write) {
/*
* The choice of 20ms as the time to wait is
* completely arbitrary.
*/
compress_wait(this->compress, 20);
buf = (uint8_t *)buf + wrote;
to_write = to_write - wrote;
goto retry;
}
/*
* One write has to happen before starting the compressed node. Calling
* compress_start before writing MIN_NUM_FRAGMENTS * MIN_FRAGMENT_SIZE
* will result in a distorted audio playback.
*/
if (!this->started_compress &&
(port->written >= (MIN_FRAGMENT_SIZE * MIN_NUM_FRAGMENTS))) {
compress_start(this->compress);
this->started_compress = true;
}
return size;
}
static void emit_node_info(struct impl *this, bool full)
{
uint64_t old = full ? this->info.change_mask : 0;
if (full)
this->info.change_mask = this->info_all;
if (this->info.change_mask) {
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_INPUT, 0, &port->info);
port->info.change_mask = old;
}
}
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[4096];
struct spa_result_node_params result;
uint32_t count = 0;
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_EnumPortConfig:
case SPA_PARAM_PortConfig:
switch (result.index) {
case 0:
param = spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_ParamPortConfig, id,
SPA_PARAM_PORT_CONFIG_direction, SPA_POD_Id(SPA_DIRECTION_INPUT),
SPA_PARAM_PORT_CONFIG_mode, SPA_POD_Id(SPA_PARAM_PORT_CONFIG_MODE_passthrough));
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
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_set_io(void *object, uint32_t id, void *data, size_t size)
{
return -ENOTSUP;
}
static int do_start(struct impl *this)
{
if (this->started_node)
return 0;
spa_log_debug(this->log, "Open compressed device: %s", this->props.device);
if (open_compress(this) < 0)
return -EINVAL;
this->started_node = true;
this->started_compress = false;
return 0;
}
static int do_drain(struct impl *this)
{
if (!this->started_node)
return 0;
if (this->started_compress) {
spa_log_debug(this->log, NAME " %p: Issuing drain command", this);
compress_drain(this->compress);
spa_log_debug(this->log, NAME " %p: Finished drain", this);
}
return 0;
}
static int do_stop(struct impl *this)
{
if (!this->started_node)
return 0;
compress_stop(this->compress);
compress_close(this->compress);
spa_log_info(this->log, NAME " %p: Closed compress device", this);
this->compress = NULL;
this->started_node = false;
this->started_compress = false;
return 0;
}
static int impl_node_send_command(void *object, const struct spa_command *command)
{
struct impl *this = object;
struct port *port;
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;
do_start(this);
break;
}
case SPA_NODE_COMMAND_Pause:
case SPA_NODE_COMMAND_Suspend:
do_drain(this);
do_stop(this);
break;
default:
return -ENOTSUP;
}
return 0;
}
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
port_enum_formats(struct impl *this,
enum spa_direction direction, uint32_t port_id,
uint32_t index,
struct spa_pod **param,
struct spa_pod_builder *builder)
{
struct spa_audio_info info;
uint32_t codec;
if (index >= this->num_codecs)
return 0;
codec = this->codecs_supported[index];
spa_zero(info);
info.media_type = SPA_MEDIA_TYPE_audio;
switch (codec) {
case SND_AUDIOCODEC_MP3:
info.media_subtype = SPA_MEDIA_SUBTYPE_mp3;
info.info.mp3.rate = this->props.rate;
info.info.mp3.channels = this->props.channels;
break;
case SND_AUDIOCODEC_AAC:
info.media_subtype = SPA_MEDIA_SUBTYPE_aac;
info.info.aac.rate = this->props.rate;
info.info.aac.channels = this->props.channels;
break;
case SND_AUDIOCODEC_WMA:
info.media_subtype = SPA_MEDIA_SUBTYPE_wma;
info.info.wma.rate = this->props.rate;
info.info.wma.channels = this->props.channels;
break;
case SND_AUDIOCODEC_VORBIS:
info.media_subtype = SPA_MEDIA_SUBTYPE_vorbis;
info.info.vorbis.rate = this->props.rate;
info.info.vorbis.channels = this->props.channels;
break;
case SND_AUDIOCODEC_FLAC:
info.media_subtype = SPA_MEDIA_SUBTYPE_flac;
info.info.flac.rate = this->props.rate;
info.info.flac.channels = this->props.channels;
break;
case SND_AUDIOCODEC_ALAC:
info.media_subtype = SPA_MEDIA_SUBTYPE_alac;
info.info.alac.rate = this->props.rate;
info.info.alac.channels = this->props.channels;
break;
case SND_AUDIOCODEC_APE:
info.media_subtype = SPA_MEDIA_SUBTYPE_ape;
info.info.ape.rate = this->props.rate;
info.info.ape.channels = this->props.channels;
break;
case SND_AUDIOCODEC_REAL:
info.media_subtype = SPA_MEDIA_SUBTYPE_ra;
info.info.ra.rate = this->props.rate;
info.info.ra.channels = this->props.channels;
break;
case SND_AUDIOCODEC_AMR:
info.media_subtype = SPA_MEDIA_SUBTYPE_amr;
info.info.amr.rate = this->props.rate;
info.info.amr.channels = this->props.channels;
info.info.amr.band_mode = SPA_AUDIO_AMR_BAND_MODE_NB;
break;
case SND_AUDIOCODEC_AMRWB:
info.media_subtype = SPA_MEDIA_SUBTYPE_amr;
info.info.amr.rate = this->props.rate;
info.info.amr.channels = this->props.channels;
info.info.amr.band_mode = SPA_AUDIO_AMR_BAND_MODE_WB;
break;
default:
return -ENOTSUP;
}
if ((*param = spa_format_audio_build(builder, SPA_PARAM_EnumFormat, &info)) == NULL)
return -errno;
return 1;
}
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_builder b = { 0 };
uint8_t buffer[1024];
struct spa_pod *param;
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 ((res = port_enum_formats(this, direction, port_id,
result.index, ¶m, &b)) <= 0)
return res;
break;
case SPA_PARAM_Format:
if (!port->have_format)
return -EIO;
if (result.index > 0)
return 0;
param = spa_format_audio_build(&b, id, &port->current_format);
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(1, 1, MAX_BUFFERS),
SPA_PARAM_BUFFERS_blocks, SPA_POD_Int(0),
SPA_PARAM_BUFFERS_size, SPA_POD_CHOICE_RANGE_Int(
MIN_FRAGMENT_SIZE * MIN_NUM_FRAGMENTS,
MIN_FRAGMENT_SIZE * MIN_NUM_FRAGMENTS,
MAX_FRAGMENT_SIZE),
SPA_PARAM_BUFFERS_stride, SPA_POD_Int(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;
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)
{
if (port->n_buffers > 0) {
spa_log_info(this->log, NAME " %p: clear buffers", this);
port->n_buffers = 0;
this->started_node = false;
}
return 0;
}
static int
compress_setup(struct impl *this, struct spa_audio_info *info, uint32_t *out_rate)
{
struct compr_config *config;
struct snd_codec *codec;
uint32_t channels, rate;
memset(&this->codec, 0, sizeof(this->codec));
memset(&this->compr_conf, 0, sizeof(this->compr_conf));
config = &this->compr_conf;
codec = &this->codec;
switch (info->media_subtype) {
case SPA_MEDIA_SUBTYPE_vorbis:
codec->id = SND_AUDIOCODEC_VORBIS;
rate = info->info.vorbis.rate;
channels = info->info.vorbis.channels;
break;
case SPA_MEDIA_SUBTYPE_mp3:
codec->id = SND_AUDIOCODEC_MP3;
rate = info->info.mp3.rate;
channels = info->info.mp3.channels;
break;
case SPA_MEDIA_SUBTYPE_aac:
codec->id = SND_AUDIOCODEC_AAC;
rate = info->info.aac.rate;
channels = info->info.aac.channels;
break;
case SPA_MEDIA_SUBTYPE_flac:
codec->id = SND_AUDIOCODEC_FLAC;
/*
* Taken from the fcplay utility in tinycompress. Required for
* FLAC to work.
*/
codec->options.flac_d.sample_size = 16;
codec->options.flac_d.min_blk_size = 16;
codec->options.flac_d.max_blk_size = 65535;
codec->options.flac_d.min_frame_size = 11;
codec->options.flac_d.max_frame_size = 8192 * 4;
rate = info->info.flac.rate;
channels = info->info.flac.channels;
break;
case SPA_MEDIA_SUBTYPE_wma:
codec->id = SND_AUDIOCODEC_WMA;
/*
* WMA does not work with Compress-Offload if codec profile
* is not set.
*/
switch (info->info.wma.profile) {
case SPA_AUDIO_WMA_PROFILE_WMA9:
codec->profile = SND_AUDIOPROFILE_WMA9;
break;
case SPA_AUDIO_WMA_PROFILE_WMA9_PRO:
codec->profile = SND_AUDIOPROFILE_WMA9_PRO;
break;
case SPA_AUDIO_WMA_PROFILE_WMA9_LOSSLESS:
codec->profile = SND_AUDIOPROFILE_WMA9_LOSSLESS;
break;
case SPA_AUDIO_WMA_PROFILE_WMA10:
codec->profile = SND_AUDIOPROFILE_WMA10;
break;
case SPA_AUDIO_WMA_PROFILE_WMA10_LOSSLESS:
codec->profile = SND_AUDIOPROFILE_WMA10_LOSSLESS;
break;
default:
spa_log_error(this->log, NAME " %p: Invalid WMA codec profile", this);
return -EINVAL;
}
codec->bit_rate = info->info.wma.bitrate;
codec->align = info->info.wma.block_align;
rate = info->info.wma.rate;
channels = info->info.wma.channels;
break;
case SPA_MEDIA_SUBTYPE_alac:
codec->id = SND_AUDIOCODEC_ALAC;
rate = info->info.alac.rate;
channels = info->info.alac.channels;
break;
case SPA_MEDIA_SUBTYPE_ape:
codec->id = SND_AUDIOCODEC_APE;
rate = info->info.ape.rate;
channels = info->info.ape.channels;
break;
case SPA_MEDIA_SUBTYPE_ra:
codec->id = SND_AUDIOCODEC_REAL;
rate = info->info.ra.rate;
channels = info->info.ra.channels;
break;
case SPA_MEDIA_SUBTYPE_amr:
if (info->info.amr.band_mode == SPA_AUDIO_AMR_BAND_MODE_WB)
codec->id = SND_AUDIOCODEC_AMRWB;
else
codec->id = SND_AUDIOCODEC_AMR;
rate = info->info.amr.rate;
channels = info->info.amr.channels;
break;
break;
default:
return -ENOTSUP;
}
codec->ch_in = channels;
codec->ch_out = channels;
codec->sample_rate = rate;
*out_rate = rate;
codec->rate_control = 0;
codec->level = 0;
codec->ch_mode = 0;
codec->format = 0;
spa_log_info(this->log, NAME " %p: Codec info, profile: %d align: %d rate: %d bitrate: %d",
this, codec->profile, codec->align, codec->sample_rate, codec->bit_rate);
if (!is_codec_supported_by_name(this->props.device, 0, codec)) {
spa_log_error(this->log, NAME " %p: Requested codec is not supported by DSP", this);
return -EINVAL;
}
config->codec = codec;
config->fragment_size = MIN_FRAGMENT_SIZE;
config->fragments = MIN_NUM_FRAGMENTS;
return 0;
}
static int
port_set_format(struct impl *this,
enum spa_direction direction,
uint32_t port_id,
uint32_t flags,
const struct spa_pod *format)
{
int res;
struct port *port = &this->port;
if (format == NULL) {
port->have_format = false;
clear_buffers(this, port);
} else {
struct spa_audio_info info = { 0 };
uint32_t rate;
if ((res = spa_format_audio_parse(format, &info)) < 0) {
spa_log_error(this->log, NAME " %p: format parse error: %s", this,
spa_strerror(res));
return res;
}
if ((res = compress_setup(this, &info, &rate)) < 0) {
spa_log_error(this->log, NAME " %p: can't setup compress: %s",
this, spa_strerror(res));
return res;
}
port->current_format = info;
port->have_format = true;
port->info.rate = SPA_FRACTION(1, rate);
}
this->info.change_mask |= SPA_NODE_CHANGE_MASK_FLAGS;
this->info.flags &= ~SPA_NODE_FLAG_NEED_CONFIGURE;
emit_node_info(this, false);
port->info.change_mask |= SPA_PORT_CHANGE_MASK_RATE;
port->info.change_mask |= SPA_PORT_CHANGE_MASK_PARAMS;
if (port->have_format) {
port->params[1] = SPA_PARAM_INFO(SPA_PARAM_Format, SPA_PARAM_INFO_READWRITE);
port->params[3] = SPA_PARAM_INFO(SPA_PARAM_Buffers, SPA_PARAM_INFO_READ);
} else {
port->params[1] = SPA_PARAM_INFO(SPA_PARAM_Format, SPA_PARAM_INFO_WRITE);
port->params[3] = 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;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(CHECK_PORT(this, direction, port_id), -EINVAL);
switch (id) {
case SPA_PARAM_Format:
return port_set_format(this, direction, port_id, flags, param);
default:
return -ENOENT;
}
return 0;
}
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;
if (!port->have_format)
return -EIO;
clear_buffers(this, port);
for (i = 0; i < n_buffers; i++) {
struct buffer *b;
struct spa_data *d = buffers[i]->datas;
b = &port->buffers[i];
b->id = i;
b->flags = 0;
b->outbuf = buffers[i];
if (d[0].data == NULL) {
spa_log_error(this->log, NAME " %p: invalid memory on buffer %p", this,
buffers[i]);
return -EINVAL;
}
}
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_process(void *object)
{
struct impl *this = object;
struct port *port;
struct spa_io_buffers *io;
struct buffer *b;
uint32_t i;
spa_return_val_if_fail(this != NULL, -EINVAL);
port = &this->port;
io = port->io;
spa_return_val_if_fail(io != NULL, -EIO);
if (io->status != SPA_STATUS_HAVE_DATA)
return io->status;
if (io->buffer_id >= port->n_buffers) {
io->status = -EINVAL;
return io->status;
}
b = &port->buffers[io->buffer_id];
for (i = 0; i < b->outbuf->n_datas; i++) {
int32_t offs, size;
int32_t wrote;
void *buf;
struct spa_data *d = b->outbuf->datas;
d = b->outbuf->datas;
offs = SPA_MIN(d->chunk->offset, d->maxsize);
size = SPA_MIN(d->maxsize - offs, d->chunk->size);
buf = SPA_PTROFF(d[0].data, offs, void);
wrote = write_compress(this, buf, size);
if (wrote < 0) {
spa_log_error(this->log, NAME " %p: Error playing sample: %s",
this, compress_get_error(this->compress));
io->status = wrote;
return SPA_STATUS_STOPPED;
}
}
io->status = SPA_STATUS_OK;
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,
.enum_params = impl_node_enum_params,
.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,
.process = impl_node_process,
};
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)
{
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;
uint32_t i;
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);
spa_hook_list_init(&this->hooks);
this->node.iface = SPA_INTERFACE_INIT(
SPA_TYPE_INTERFACE_Node,
SPA_VERSION_NODE,
&impl_node, this);
this->info_all |= SPA_NODE_CHANGE_MASK_FLAGS |
SPA_NODE_CHANGE_MASK_PARAMS;
this->info = SPA_NODE_INFO_INIT();
this->info.max_input_ports = MAX_PORTS;
this->info.max_output_ports = 0;
this->info.flags = SPA_NODE_FLAG_RT |
SPA_NODE_FLAG_IN_PORT_CONFIG |
SPA_NODE_FLAG_NEED_CONFIGURE;
this->params[0] = SPA_PARAM_INFO(SPA_PARAM_EnumPortConfig, SPA_PARAM_INFO_READ);
this->info.params = this->params;
this->info.n_params = 1;
reset_props(&this->props);
port = &this->port;
port->info_all = SPA_PORT_CHANGE_MASK_FLAGS |
SPA_PORT_CHANGE_MASK_PARAMS;
port->info = SPA_PORT_INFO_INIT();
port->info.flags = SPA_PORT_FLAG_NO_REF |
SPA_PORT_FLAG_LIVE |
SPA_PORT_FLAG_PHYSICAL |
SPA_PORT_FLAG_TERMINAL;
port->params[0] = SPA_PARAM_INFO(SPA_PARAM_EnumFormat, SPA_PARAM_INFO_READ);
port->params[1] = SPA_PARAM_INFO(SPA_PARAM_Format, SPA_PARAM_INFO_WRITE);
port->params[2] = SPA_PARAM_INFO(SPA_PARAM_IO, SPA_PARAM_INFO_READ);
port->params[3] = SPA_PARAM_INFO(SPA_PARAM_Buffers, 0);
port->info.params = port->params;
port->info.n_params = 4;
port->written = 0;
for (i = 0; info && i < info->n_items; i++) {
const char *k = info->items[i].key;
const char *s = info->items[i].value;
if (spa_streq(k, "clock.quantum-limit")) {
spa_atou32(s, &this->quantum_limit, 0);
} else if (spa_streq(k, SPA_KEY_AUDIO_CHANNELS)) {
this->props.channels = atoi(s);
} else if (spa_streq(k, SPA_KEY_AUDIO_RATE)) {
this->props.rate = atoi(s);
}
}
if (info && (str = spa_dict_lookup(info, SPA_KEY_API_ALSA_PATH))) {
if ((str[0] == 'h') || (str[1] == 'w') || (str[2] == ':')) {
snprintf(this->props.device, sizeof(this->props.device), "%s", str);
} else {
spa_log_error(this->log, NAME " %p: Invalid Compress-Offload hw %s", this, str);
return -EINVAL;
}
} else {
spa_log_error(this->log, NAME " %p: Invalid compress hw", this);
return -EINVAL;
}
/*
* TODO:
*
* Move this to use new compress_get_supported_codecs_by_name API once
* merged upstream.
*
* Right now, we pretend all codecs are supported and then error out
* at runtime in port_set_format during compress_setup if not
* supported.
*/
this->num_codecs = SPA_N_ELEMENTS (codec_info);
for (i = 0; i < this->num_codecs; i++) {
this->codecs_supported[i] = codec_info[i].codec_id;
}
spa_log_info(this->log, NAME " %p: Initialized Compress-Offload sink %s",
this, this->props.device);
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, "Sanchayan Maity <sanchayan@asymptotic.io>" },
{ SPA_KEY_FACTORY_DESCRIPTION, "Play compressed audio (like MP3 or AAC) with the ALSA Compress-Offload API" },
{ SPA_KEY_FACTORY_USAGE, "["SPA_KEY_API_ALSA_PATH"=<path>]" },
};
static const struct spa_dict info = SPA_DICT_INIT_ARRAY(info_items);
const struct spa_handle_factory spa_alsa_compress_offload_sink_factory = {
SPA_VERSION_HANDLE_FACTORY,
SPA_NAME_API_ALSA_COMPRESS_OFFLOAD_SINK,
&info,
impl_get_size,
impl_init,
impl_enum_interface_info,
};
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