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pipewire/spa/plugins/alsa/alsa-acp-device.c
Wim Taymans 5bf2144438 spa: improve volume handling 
Make a new softVolume property that contains only the soft volume
to apply.

In the case of HW/SW volume, we pass the real volume in the
channelVolume and the leftover volume in softVolume. We don't
use the monitorVolume for this anymore because it is a completely
separate volume handled by the merger node.

This way, channelVolume always represents the effective volume
set on routes, channelmix and merger and only the softVolume (when
available) is applied as software volume by channelmix.

This makes things map a bit better to what is actually happening with
the real volume and leftover software volumes after applying the
hardware volumes in the device.

With this change, the volume on the monitor is not affected by the
sink volume anymore and we can use the monitorVolume for this later.

This also means that the monitor volume in pavucontrol of the sinks
does not change when the sink volume changes. PulseAudio is inconsistent
here: If the volume is HW, the monitor volume is not affected, if the
volume is SW, it is. In PipeWire there is an option in merger to
let the volume affect the monitor with monitor.channel-volumes = true.
2021-04-29 12:46:29 +02:00

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/* Spa ALSA Device
*
* Copyright © 2018 Wim Taymans
*
* 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 <stddef.h>
#include <stdio.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <poll.h>
#include <alsa/asoundlib.h>
#include <spa/support/log.h>
#include <spa/utils/type.h>
#include <spa/node/node.h>
#include <spa/utils/keys.h>
#include <spa/utils/names.h>
#include <spa/support/loop.h>
#include <spa/support/plugin.h>
#include <spa/support/i18n.h>
#include <spa/monitor/device.h>
#include <spa/monitor/utils.h>
#include <spa/monitor/event.h>
#include <spa/param/param.h>
#include <spa/pod/filter.h>
#include <spa/pod/parser.h>
#include <spa/debug/pod.h>
#include "acp/acp.h"
extern struct spa_i18n *acp_i18n;
#define NAME "alsa-device"
#define MAX_POLL 16
#define DEFAULT_DEVICE "hw:0"
#define DEFAULT_AUTO_PROFILE true
#define DEFAULT_AUTO_PORT true
struct props {
char device[64];
bool auto_profile;
bool auto_port;
};
static void reset_props(struct props *props)
{
strncpy(props->device, DEFAULT_DEVICE, 64);
props->auto_profile = DEFAULT_AUTO_PROFILE;
props->auto_port = DEFAULT_AUTO_PORT;
}
struct impl {
struct spa_handle handle;
struct spa_device device;
struct spa_log *log;
struct spa_loop *loop;
uint32_t info_all;
struct spa_device_info info;
#define IDX_EnumProfile 0
#define IDX_Profile 1
#define IDX_EnumRoute 2
#define IDX_Route 3
struct spa_param_info params[4];
struct spa_hook_list hooks;
struct props props;
uint32_t profile;
struct acp_card *card;
struct pollfd pfds[MAX_POLL];
int n_pfds;
struct spa_source sources[MAX_POLL];
};
static int emit_info(struct impl *this, bool full);
static void handle_acp_poll(struct spa_source *source)
{
struct impl *this = source->data;
int i;
for (i = 0; i < this->n_pfds; i++)
this->pfds[i].revents = this->sources[i].rmask;
acp_card_handle_events(this->card);
for (i = 0; i < this->n_pfds; i++)
this->sources[i].rmask = 0;
emit_info(this, false);
}
static void remove_sources(struct impl *this)
{
int i;
for (i = 0; i < this->n_pfds; i++) {
spa_loop_remove_source(this->loop, &this->sources[i]);
}
this->n_pfds = 0;
}
static int setup_sources(struct impl *this)
{
int i;
remove_sources(this);
this->n_pfds = acp_card_poll_descriptors(this->card, this->pfds, MAX_POLL);
for (i = 0; i < this->n_pfds; i++) {
this->sources[i].func = handle_acp_poll;
this->sources[i].data = this;
this->sources[i].fd = this->pfds[i].fd;
this->sources[i].mask = this->pfds[i].events;
this->sources[i].rmask = 0;
spa_loop_add_source(this->loop, &this->sources[i]);
}
return 0;
}
static int emit_node(struct impl *this, struct acp_device *dev)
{
struct spa_dict_item *items;
const struct acp_dict_item *it;
uint32_t n_items, i;
char device_name[128], path[180], channels[16], ch[12], routes[16];
char card_id[16], *p;
char positions[SPA_AUDIO_MAX_CHANNELS * 12];
struct spa_device_object_info info;
struct acp_card *card = this->card;
const char *stream, *devstr;;
info = SPA_DEVICE_OBJECT_INFO_INIT();
info.type = SPA_TYPE_INTERFACE_Node;
if (dev->direction == ACP_DIRECTION_PLAYBACK) {
info.factory_name = SPA_NAME_API_ALSA_PCM_SINK;
stream = "playback";
} else {
info.factory_name = SPA_NAME_API_ALSA_PCM_SOURCE;
stream = "capture";
}
info.change_mask = SPA_DEVICE_OBJECT_CHANGE_MASK_PROPS;
n_items = dev->props.n_items + 7;
items = alloca(n_items * sizeof(*items));
snprintf(card_id, sizeof(card), "%d", card->index);
devstr = dev->device_strings[0];
p = strstr(devstr, "%f");
if (p) {
snprintf(device_name, sizeof(device_name), "%.*s%d%s",
(int)SPA_PTRDIFF(p, devstr), devstr,
card->index, p+2);
} else {
snprintf(device_name, sizeof(device_name), "%s", devstr);
}
snprintf(path, sizeof(path), "alsa:pcm:%s:%s:%s", card_id, device_name, stream);
items[0] = SPA_DICT_ITEM_INIT(SPA_KEY_OBJECT_PATH, path);
items[1] = SPA_DICT_ITEM_INIT(SPA_KEY_API_ALSA_PATH, device_name);
items[2] = SPA_DICT_ITEM_INIT(SPA_KEY_API_ALSA_PCM_CARD, card_id);
items[3] = SPA_DICT_ITEM_INIT(SPA_KEY_API_ALSA_PCM_STREAM, stream);
snprintf(channels, sizeof(channels), "%d", dev->format.channels);
items[4] = SPA_DICT_ITEM_INIT(SPA_KEY_AUDIO_CHANNELS, channels);
p = positions;
for (i = 0; i < dev->format.channels; i++) {
p += snprintf(p, 12, "%s%s", i == 0 ? "" : ",",
acp_channel_str(ch, sizeof(ch), dev->format.map[i]));
}
items[5] = SPA_DICT_ITEM_INIT(SPA_KEY_AUDIO_POSITION, positions);
snprintf(routes, sizeof(routes), "%d", dev->n_ports);
items[6] = SPA_DICT_ITEM_INIT("device.routes", routes);
n_items = 7;
acp_dict_for_each(it, &dev->props)
items[n_items++] = SPA_DICT_ITEM_INIT(it->key, it->value);
info.props = &SPA_DICT_INIT(items, n_items);
spa_device_emit_object_info(&this->hooks, dev->index, &info);
return 0;
}
static int emit_info(struct impl *this, bool full)
{
int err = 0;
struct spa_dict_item *items;
uint32_t i, n_items;
const struct acp_dict_item *it;
struct acp_card *card = this->card;
char path[128];
if (full)
this->info.change_mask = this->info_all;
if (this->info.change_mask) {
n_items = card->props.n_items + 4;
items = alloca(n_items * sizeof(*items));
n_items = 0;
#define ADD_ITEM(key, value) items[n_items++] = SPA_DICT_ITEM_INIT(key, value)
snprintf(path, sizeof(path), "alsa:pcm:%d", card->index);
ADD_ITEM(SPA_KEY_OBJECT_PATH, path);
ADD_ITEM(SPA_KEY_DEVICE_API, "alsa:pcm");
ADD_ITEM(SPA_KEY_MEDIA_CLASS, "Audio/Device");
ADD_ITEM(SPA_KEY_API_ALSA_PATH, (char *)this->props.device);
acp_dict_for_each(it, &card->props)
ADD_ITEM(it->key, it->value);
this->info.props = &SPA_DICT_INIT(items, n_items);
#undef ADD_ITEM
if (this->info.change_mask & SPA_DEVICE_CHANGE_MASK_PARAMS) {
for (i = 0; i < SPA_N_ELEMENTS(this->params); i++) {
if (this->params[i].user > 0) {
this->params[i].flags ^= SPA_PARAM_INFO_SERIAL;
this->params[i].user = 0;
}
}
}
spa_device_emit_info(&this->hooks, &this->info);
this->info.change_mask = 0;
}
return err;
}
static int impl_add_listener(void *object,
struct spa_hook *listener,
const struct spa_device_events *events,
void *data)
{
struct impl *this = object;
struct spa_hook_list save;
struct acp_card *card;
struct acp_card_profile *profile;
uint32_t i;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(events != NULL, -EINVAL);
card = this->card;
if (card->active_profile_index < card->n_profiles)
profile = card->profiles[card->active_profile_index];
else
profile = NULL;
spa_hook_list_isolate(&this->hooks, &save, listener, events, data);
if (events->info || events->object_info)
emit_info(this, true);
if (profile) {
for (i = 0; i < profile->n_devices; i++)
emit_node(this, profile->devices[i]);
}
spa_hook_list_join(&this->hooks, &save);
return 0;
}
static int impl_sync(void *object, int seq)
{
struct impl *this = object;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_device_emit_result(&this->hooks, seq, 0, 0, NULL);
return 0;
}
static struct spa_pod *build_profile(struct spa_pod_builder *b, uint32_t id,
struct acp_card_profile *pr, bool current)
{
struct spa_pod_frame f[2];
uint32_t i, n_classes, n_capture = 0, n_playback = 0;
uint32_t *capture, *playback;
capture = alloca(sizeof(uint32_t) * pr->n_devices);
playback = alloca(sizeof(uint32_t) * pr->n_devices);
for (i = 0; i < pr->n_devices; i++) {
struct acp_device *dev = pr->devices[i];
switch (dev->direction) {
case ACP_DIRECTION_PLAYBACK:
playback[n_playback++] = dev->index;
break;
case ACP_DIRECTION_CAPTURE:
capture[n_capture++] = dev->index;
break;
}
}
n_classes = n_capture > 0 ? 1 : 0;
n_classes += n_playback > 0 ? 1 : 0;
spa_pod_builder_push_object(b, &f[0], SPA_TYPE_OBJECT_ParamProfile, id);
spa_pod_builder_add(b,
SPA_PARAM_PROFILE_index, SPA_POD_Int(pr->index),
SPA_PARAM_PROFILE_name, SPA_POD_String(pr->name),
SPA_PARAM_PROFILE_description, SPA_POD_String(pr->description),
SPA_PARAM_PROFILE_priority, SPA_POD_Int(pr->priority),
SPA_PARAM_PROFILE_available, SPA_POD_Id(pr->available),
0);
spa_pod_builder_prop(b, SPA_PARAM_PROFILE_classes, 0);
spa_pod_builder_push_struct(b, &f[1]);
spa_pod_builder_int(b, n_classes);
if (n_capture > 0) {
spa_pod_builder_add_struct(b,
SPA_POD_String("Audio/Source"),
SPA_POD_Int(n_capture),
SPA_POD_String("card.profile.devices"),
SPA_POD_Array(sizeof(uint32_t), SPA_TYPE_Int,
n_capture, capture));
}
if (n_playback > 0) {
spa_pod_builder_add_struct(b,
SPA_POD_String("Audio/Sink"),
SPA_POD_Int(n_playback),
SPA_POD_String("card.profile.devices"),
SPA_POD_Array(sizeof(uint32_t), SPA_TYPE_Int,
n_playback, playback));
}
spa_pod_builder_pop(b, &f[1]);
if (current) {
spa_pod_builder_prop(b, SPA_PARAM_PROFILE_save, 0);
spa_pod_builder_bool(b, SPA_FLAG_IS_SET(pr->flags, ACP_PROFILE_SAVE));
}
return spa_pod_builder_pop(b, &f[0]);
}
static struct spa_pod *build_route(struct spa_pod_builder *b, uint32_t id,
struct acp_port *p, struct acp_device *dev, uint32_t profile)
{
struct spa_pod_frame f[2];
const struct acp_dict_item *item;
uint32_t i;
enum spa_direction direction;
switch (p->direction) {
case ACP_DIRECTION_PLAYBACK:
direction = SPA_DIRECTION_OUTPUT;
break;
case ACP_DIRECTION_CAPTURE:
direction = SPA_DIRECTION_INPUT;
break;
default:
errno = EINVAL;
return NULL;
}
spa_pod_builder_push_object(b, &f[0], SPA_TYPE_OBJECT_ParamRoute, id);
spa_pod_builder_add(b,
SPA_PARAM_ROUTE_index, SPA_POD_Int(p->index),
SPA_PARAM_ROUTE_direction, SPA_POD_Id(direction),
SPA_PARAM_ROUTE_name, SPA_POD_String(p->name),
SPA_PARAM_ROUTE_description, SPA_POD_String(p->description),
SPA_PARAM_ROUTE_priority, SPA_POD_Int(p->priority),
SPA_PARAM_ROUTE_available, SPA_POD_Id(p->available),
0);
spa_pod_builder_prop(b, SPA_PARAM_ROUTE_info, SPA_POD_PROP_FLAG_HINT_DICT);
spa_pod_builder_push_struct(b, &f[1]);
spa_pod_builder_int(b, p->props.n_items);
acp_dict_for_each(item, &p->props) {
spa_pod_builder_add(b,
SPA_POD_String(item->key),
SPA_POD_String(item->value),
NULL);
}
spa_pod_builder_pop(b, &f[1]);
spa_pod_builder_prop(b, SPA_PARAM_ROUTE_profiles, 0);
spa_pod_builder_push_array(b, &f[1]);
for (i = 0; i < p->n_profiles; i++)
spa_pod_builder_int(b, p->profiles[i]->index);
spa_pod_builder_pop(b, &f[1]);
if (dev != NULL) {
uint32_t channels = dev->format.channels;
float volumes[channels];
float soft_volumes[channels];
bool mute;
acp_device_get_mute(dev, &mute);
spa_zero(volumes);
spa_zero(soft_volumes);
acp_device_get_volume(dev, volumes, channels);
acp_device_get_soft_volume(dev, soft_volumes, channels);
spa_pod_builder_prop(b, SPA_PARAM_ROUTE_device, 0);
spa_pod_builder_int(b, dev->index);
spa_pod_builder_prop(b, SPA_PARAM_ROUTE_props, 0);
spa_pod_builder_push_object(b, &f[1], SPA_TYPE_OBJECT_Props, id);
spa_pod_builder_prop(b, SPA_PROP_mute,
SPA_FLAG_IS_SET(dev->flags, ACP_DEVICE_HW_MUTE) ?
SPA_POD_PROP_FLAG_HARDWARE : 0);
spa_pod_builder_bool(b, mute);
spa_pod_builder_prop(b, SPA_PROP_channelVolumes,
SPA_FLAG_IS_SET(dev->flags, ACP_DEVICE_HW_VOLUME) ?
SPA_POD_PROP_FLAG_HARDWARE : 0);
spa_pod_builder_array(b, sizeof(float), SPA_TYPE_Float,
channels, volumes);
spa_pod_builder_prop(b, SPA_PROP_volumeBase, SPA_POD_PROP_FLAG_READONLY);
spa_pod_builder_float(b, dev->base_volume);
spa_pod_builder_prop(b, SPA_PROP_volumeStep, SPA_POD_PROP_FLAG_READONLY);
spa_pod_builder_float(b, dev->volume_step);
spa_pod_builder_prop(b, SPA_PROP_channelMap, 0);
spa_pod_builder_array(b, sizeof(uint32_t), SPA_TYPE_Id,
channels, dev->format.map);
spa_pod_builder_prop(b, SPA_PROP_softVolumes, 0);
spa_pod_builder_array(b, sizeof(float), SPA_TYPE_Float,
channels, soft_volumes);
spa_pod_builder_pop(b, &f[1]);
}
spa_pod_builder_prop(b, SPA_PARAM_ROUTE_devices, 0);
spa_pod_builder_push_array(b, &f[1]);
for (i = 0; i < p->n_devices; i++)
spa_pod_builder_int(b, p->devices[i]->index);
spa_pod_builder_pop(b, &f[1]);
if (profile != SPA_ID_INVALID) {
spa_pod_builder_prop(b, SPA_PARAM_ROUTE_profile, 0);
spa_pod_builder_int(b, profile);
spa_pod_builder_prop(b, SPA_PARAM_ROUTE_save, 0);
spa_pod_builder_bool(b, SPA_FLAG_IS_SET(p->flags, ACP_PORT_SAVE));
}
return spa_pod_builder_pop(b, &f[0]);
}
static struct acp_port *find_port_for_device(struct acp_card *card, struct acp_device *dev)
{
uint32_t i;
for (i = 0; i < dev->n_ports; i++) {
struct acp_port *p = dev->ports[i];
if (SPA_FLAG_IS_SET(p->flags, ACP_PORT_ACTIVE))
return p;
}
return NULL;
}
static int impl_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_device_params result;
uint32_t count = 0;
struct acp_card *card;
struct acp_card_profile *pr;
struct acp_port *p;
struct acp_device *dev;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(num != 0, -EINVAL);
card = this->card;
result.id = id;
result.next = start;
next:
result.index = result.next++;
spa_pod_builder_init(&b, buffer, sizeof(buffer));
switch (id) {
case SPA_PARAM_EnumProfile:
if (result.index >= card->n_profiles)
return 0;
pr = card->profiles[result.index];
param = build_profile(&b, id, pr, false);
break;
case SPA_PARAM_Profile:
if (result.index > 0 || card->active_profile_index >= card->n_profiles)
return 0;
pr = card->profiles[card->active_profile_index];
param = build_profile(&b, id, pr, true);
break;
case SPA_PARAM_EnumRoute:
if (result.index >= card->n_ports)
return 0;
p = card->ports[result.index];
param = build_route(&b, id, p, NULL, SPA_ID_INVALID);
break;
case SPA_PARAM_Route:
while (true) {
if (result.index >= card->n_devices)
return 0;
dev = card->devices[result.index];
if (SPA_FLAG_IS_SET(dev->flags, ACP_DEVICE_ACTIVE) &&
(p = find_port_for_device(card, dev)) != NULL)
break;
result.index++;
}
result.next = result.index + 1;
param = build_route(&b, id, p, dev, card->active_profile_index);
if (param == NULL)
return -errno;
break;
default:
return -ENOENT;
}
if (spa_pod_filter(&b, &result.param, param, filter) < 0)
goto next;
spa_device_emit_result(&this->hooks, seq, 0,
SPA_RESULT_TYPE_DEVICE_PARAMS, &result);
if (++count != num)
goto next;
return 0;
}
static int apply_device_props(struct impl *this, struct acp_device *dev, struct spa_pod *props)
{
float volume = 0;
bool mute = 0;
struct spa_pod_prop *prop;
struct spa_pod_object *obj = (struct spa_pod_object *) props;
int changed = 0;
float volumes[ACP_MAX_CHANNELS];
uint32_t channels[ACP_MAX_CHANNELS];
uint32_t n_volumes = 0, n_channels = 0;
if (!spa_pod_is_object_type(props, SPA_TYPE_OBJECT_Props))
return -EINVAL;
SPA_POD_OBJECT_FOREACH(obj, prop) {
switch (prop->key) {
case SPA_PROP_volume:
if (spa_pod_get_float(&prop->value, &volume) == 0) {
acp_device_set_volume(dev, &volume, 1);
changed++;
}
break;
case SPA_PROP_mute:
if (spa_pod_get_bool(&prop->value, &mute) == 0) {
acp_device_set_mute(dev, mute);
changed++;
}
break;
case SPA_PROP_channelVolumes:
if ((n_volumes = spa_pod_copy_array(&prop->value, SPA_TYPE_Float,
volumes, ACP_MAX_CHANNELS)) > 0) {
changed++;
}
break;
case SPA_PROP_channelMap:
if ((n_channels = spa_pod_copy_array(&prop->value, SPA_TYPE_Id,
channels, ACP_MAX_CHANNELS)) > 0) {
changed++;
}
break;
}
}
if (n_volumes > 0)
acp_device_set_volume(dev, volumes, n_volumes);
return changed;
}
static int impl_set_param(void *object,
uint32_t id, uint32_t flags,
const struct spa_pod *param)
{
struct impl *this = object;
int res;
spa_return_val_if_fail(this != NULL, -EINVAL);
switch (id) {
case SPA_PARAM_Profile:
{
uint32_t id;
bool save = false;
if (param == NULL) {
id = acp_card_find_best_profile_index(this->card, NULL);
save = true;
} else if ((res = spa_pod_parse_object(param,
SPA_TYPE_OBJECT_ParamProfile, NULL,
SPA_PARAM_PROFILE_index, SPA_POD_Int(&id),
SPA_PARAM_PROFILE_save, SPA_POD_OPT_Bool(&save))) < 0) {
spa_log_warn(this->log, "can't parse profile");
spa_debug_pod(0, NULL, param);
return res;
}
res = acp_card_set_profile(this->card, id, save ? ACP_PROFILE_SAVE : 0);
emit_info(this, false);
break;
}
case SPA_PARAM_Route:
{
uint32_t id, device;
struct spa_pod *props = NULL;
struct acp_device *dev;
bool save = false;
if (param == NULL)
return -EINVAL;
if ((res = spa_pod_parse_object(param,
SPA_TYPE_OBJECT_ParamRoute, NULL,
SPA_PARAM_ROUTE_index, SPA_POD_Int(&id),
SPA_PARAM_ROUTE_device, SPA_POD_Int(&device),
SPA_PARAM_ROUTE_props, SPA_POD_OPT_Pod(&props),
SPA_PARAM_ROUTE_save, SPA_POD_OPT_Bool(&save))) < 0) {
spa_log_warn(this->log, "can't parse route");
spa_debug_pod(0, NULL, param);
return res;
}
if (device >= this->card->n_devices)
return -EINVAL;
dev = this->card->devices[device];
res = acp_device_set_port(dev, id, save ? ACP_PORT_SAVE : 0);
if (props)
apply_device_props(this, dev, props);
emit_info(this, false);
break;
}
default:
return -ENOENT;
}
return 0;
}
static const struct spa_device_methods impl_device = {
SPA_VERSION_DEVICE_METHODS,
.add_listener = impl_add_listener,
.sync = impl_sync,
.enum_params = impl_enum_params,
.set_param = impl_set_param,
};
static void card_props_changed(void *data)
{
struct impl *this = data;
spa_log_info(this->log, "card properties changed");
}
static bool has_device(struct acp_card_profile *pr, uint32_t index)
{
uint32_t i;
for (i = 0; i < pr->n_devices; i++)
if (pr->devices[i]->index == index)
return true;
return false;
}
static void card_profile_changed(void *data, uint32_t old_index, uint32_t new_index)
{
struct impl *this = data;
struct acp_card *card = this->card;
struct acp_card_profile *op = card->profiles[old_index];
struct acp_card_profile *np = card->profiles[new_index];
uint32_t i;
spa_log_info(this->log, "card profile changed from %s to %s",
op->name, np->name);
for (i = 0; i < op->n_devices; i++) {
uint32_t index = op->devices[i]->index;
if (has_device(np, index))
continue;
spa_device_emit_object_info(&this->hooks, index, NULL);
}
for (i = 0; i < np->n_devices; i++) {
emit_node(this, np->devices[i]);
}
setup_sources(this);
this->info.change_mask |= SPA_DEVICE_CHANGE_MASK_PARAMS;
this->params[IDX_Profile].user++;
this->params[IDX_Route].user++;
this->params[IDX_EnumRoute].user++;
}
static void card_profile_available(void *data, uint32_t index,
enum acp_available old, enum acp_available available)
{
struct impl *this = data;
struct acp_card *card = this->card;
struct acp_card_profile *p = card->profiles[index];
spa_log_info(this->log, "card profile %s available %s -> %s", p->name,
acp_available_str(old), acp_available_str(available));
this->info.change_mask |= SPA_DEVICE_CHANGE_MASK_PARAMS;
this->params[IDX_EnumProfile].user++;
this->params[IDX_Profile].user++;
if (this->props.auto_profile) {
uint32_t best = acp_card_find_best_profile_index(card, NULL);
acp_card_set_profile(card, best, 0);
}
}
static void card_port_changed(void *data, uint32_t old_index, uint32_t new_index)
{
struct impl *this = data;
struct acp_card *card = this->card;
struct acp_port *op = card->ports[old_index];
struct acp_port *np = card->ports[new_index];
spa_log_info(this->log, "card port changed from %s to %s",
op->name, np->name);
this->info.change_mask |= SPA_DEVICE_CHANGE_MASK_PARAMS;
this->params[IDX_Route].user++;
}
static void card_port_available(void *data, uint32_t index,
enum acp_available old, enum acp_available available)
{
struct impl *this = data;
struct acp_card *card = this->card;
struct acp_port *p = card->ports[index];
spa_log_info(this->log, "card port %s available %s -> %s", p->name,
acp_available_str(old), acp_available_str(available));
this->info.change_mask |= SPA_DEVICE_CHANGE_MASK_PARAMS;
this->params[IDX_EnumRoute].user++;
this->params[IDX_Route].user++;
if (this->props.auto_port) {
uint32_t i;
for (i = 0; i < p->n_devices; i++) {
struct acp_device *d = p->devices[i];
uint32_t best;
if (!(d->flags & ACP_DEVICE_ACTIVE))
continue;
best = acp_device_find_best_port_index(d, NULL);
acp_device_set_port(d, best, 0);
}
}
}
static void on_volume_changed(void *data, struct acp_device *dev)
{
struct impl *this = data;
struct spa_event *event;
uint8_t buffer[4096];
struct spa_pod_builder b = { 0 };
struct spa_pod_frame f[1];
uint32_t n_volume = dev->format.channels;
float volume[n_volume];
float soft_volume[n_volume];
spa_log_info(this->log, "device %s volume changed", dev->name);
this->info.change_mask |= SPA_DEVICE_CHANGE_MASK_PARAMS;
this->params[IDX_Route].user++;
spa_zero(volume);
spa_zero(soft_volume);
acp_device_get_volume(dev, volume, n_volume);
acp_device_get_soft_volume(dev, soft_volume, n_volume);
spa_pod_builder_init(&b, buffer, sizeof(buffer));
spa_pod_builder_push_object(&b, &f[0],
SPA_TYPE_EVENT_Device, SPA_DEVICE_EVENT_ObjectConfig);
spa_pod_builder_prop(&b, SPA_EVENT_DEVICE_Object, 0);
spa_pod_builder_int(&b, dev->index);
spa_pod_builder_prop(&b, SPA_EVENT_DEVICE_Props, 0);
spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_Props, SPA_EVENT_DEVICE_Props,
SPA_PROP_channelVolumes, SPA_POD_Array(sizeof(float),
SPA_TYPE_Float, n_volume, volume),
SPA_PROP_channelMap, SPA_POD_Array(sizeof(uint32_t),
SPA_TYPE_Id, dev->format.channels,
dev->format.map),
SPA_PROP_softVolumes, SPA_POD_Array(sizeof(float),
SPA_TYPE_Float, n_volume, soft_volume));
event = spa_pod_builder_pop(&b, &f[0]);
spa_device_emit_event(&this->hooks, event);
}
static void on_mute_changed(void *data, struct acp_device *dev)
{
struct impl *this = data;
struct spa_event *event;
uint8_t buffer[4096];
struct spa_pod_builder b = { 0 };
struct spa_pod_frame f[1];
bool mute;
spa_log_info(this->log, "device %s mute changed", dev->name);
this->info.change_mask |= SPA_DEVICE_CHANGE_MASK_PARAMS;
this->params[IDX_Route].user++;
acp_device_get_mute(dev, &mute);
spa_pod_builder_init(&b, buffer, sizeof(buffer));
spa_pod_builder_push_object(&b, &f[0],
SPA_TYPE_EVENT_Device, SPA_DEVICE_EVENT_ObjectConfig);
spa_pod_builder_prop(&b, SPA_EVENT_DEVICE_Object, 0);
spa_pod_builder_int(&b, dev->index);
spa_pod_builder_prop(&b, SPA_EVENT_DEVICE_Props, 0);
spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_Props, SPA_EVENT_DEVICE_Props,
SPA_PROP_mute, SPA_POD_Bool(mute),
SPA_PROP_monitorMute, SPA_POD_Bool(mute));
event = spa_pod_builder_pop(&b, &f[0]);
spa_device_emit_event(&this->hooks, event);
}
struct acp_card_events card_events = {
ACP_VERSION_CARD_EVENTS,
.props_changed = card_props_changed,
.profile_changed = card_profile_changed,
.profile_available = card_profile_available,
.port_changed = card_port_changed,
.port_available = card_port_available,
.volume_changed = on_volume_changed,
.mute_changed = on_mute_changed,
};
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 (strcmp(type, SPA_TYPE_INTERFACE_Device) == 0)
*interface = &this->device;
else
return -ENOENT;
return 0;
}
static SPA_PRINTF_FUNC(6,0) void impl_acp_log_func(void *data,
int level, const char *file, int line, const char *func,
const char *fmt, va_list arg)
{
struct spa_log *log = data;
spa_log_logv(log, (enum spa_log_level)level, file, line, func, fmt, arg);
}
static int impl_clear(struct spa_handle *handle)
{
struct impl *this = (struct impl *) handle;
remove_sources(this);
if (this->card) {
acp_card_destroy(this->card);
this->card = NULL;
}
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;
const char *str;
struct acp_dict_item *items = NULL;
const struct spa_dict_item *it;
uint32_t n_items = 0;
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->loop = spa_support_find(support, n_support, SPA_TYPE_INTERFACE_Loop);
acp_i18n = spa_support_find(support, n_support, SPA_TYPE_INTERFACE_I18N);
if (this->loop == NULL) {
spa_log_error(this->log, "a Loop interface is needed");
return -EINVAL;
}
acp_set_log_func(impl_acp_log_func, this->log);
acp_set_log_level(6);
this->device.iface = SPA_INTERFACE_INIT(
SPA_TYPE_INTERFACE_Device,
SPA_VERSION_DEVICE,
&impl_device, this);
spa_hook_list_init(&this->hooks);
reset_props(&this->props);
if (info) {
if ((str = spa_dict_lookup(info, SPA_KEY_API_ALSA_PATH)) != NULL)
snprintf(this->props.device, sizeof(this->props.device), "%s", str);
if ((str = spa_dict_lookup(info, "api.acp.auto-port")) != NULL)
this->props.auto_port = strcmp(str, "true") == 0 || atoi(str) != 0;
if ((str = spa_dict_lookup(info, "api.acp.auto-profile")) != NULL)
this->props.auto_profile = strcmp(str, "true") == 0 || atoi(str) != 0;
items = alloca((info->n_items) * sizeof(*items));
spa_dict_for_each(it, info)
items[n_items++] = ACP_DICT_ITEM_INIT(it->key, it->value);
}
spa_log_debug(this->log, "probe card %s", this->props.device);
if ((str = strchr(this->props.device, ':')) == NULL)
return -EINVAL;
this->card = acp_card_new(atoi(str+1), &ACP_DICT_INIT(items, n_items));
if (this->card == NULL)
return -errno;
setup_sources(this);
acp_card_add_listener(this->card, &card_events, this);
this->info = SPA_DEVICE_INFO_INIT();
this->info_all = SPA_DEVICE_CHANGE_MASK_PROPS |
SPA_DEVICE_CHANGE_MASK_PARAMS;
this->params[IDX_EnumProfile] = SPA_PARAM_INFO(SPA_PARAM_EnumProfile, SPA_PARAM_INFO_READ);
this->params[IDX_Profile] = SPA_PARAM_INFO(SPA_PARAM_Profile, SPA_PARAM_INFO_READWRITE);
this->params[IDX_EnumRoute] = SPA_PARAM_INFO(SPA_PARAM_EnumRoute, SPA_PARAM_INFO_READ);
this->params[IDX_Route] = SPA_PARAM_INFO(SPA_PARAM_Route, SPA_PARAM_INFO_READWRITE);
this->info.params = this->params;
this->info.n_params = 4;
return 0;
}
static const struct spa_interface_info impl_interfaces[] = {
{SPA_TYPE_INTERFACE_Device,},
};
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);
if (*index >= SPA_N_ELEMENTS(impl_interfaces))
return 0;
*info = &impl_interfaces[(*index)++];
return 1;
}
const struct spa_handle_factory spa_alsa_acp_device_factory = {
SPA_VERSION_HANDLE_FACTORY,
SPA_NAME_API_ALSA_ACP_DEVICE,
NULL,
impl_get_size,
impl_init,
impl_enum_interface_info,
};
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