/* * Copyright © 2019 Collabora Ltd. * @author George Kiagiadakis * * SPDX-License-Identifier: MIT */ #include "audiomixer.h" #include #include //#include #define debug(...) pw_log_debug(__VA_ARGS__) struct audiomixer { struct pw_thread_loop *main_loop; struct pw_core *core; struct pw_remote *remote; struct spa_hook remote_listener; struct pw_core_proxy *core_proxy; struct pw_registry_proxy *registry_proxy; struct spa_hook registry_listener; struct pw_array endpoints; struct pw_array all_mixer_controls; const struct audiomixer_events *events; void *events_data; }; enum endpoint_state { EP_STATE_INITIAL, EP_STATE_COLLECT_ENUM_STREAM, EP_STATE_COLLECT_ENUM_CONTROL, EP_STATE_COLLECT_CONTROL, EP_STATE_ACTIVE, }; struct endpoint { struct audiomixer *audiomixer; //struct pw_endpoint_proxy *proxy; struct pw_properties *properties; enum endpoint_state state; struct spa_hook proxy_listener; struct spa_hook endpoint_listener; struct pw_array mixer_controls; }; struct mixer_control_impl { struct mixer_control pub; struct endpoint *endpoint; uint32_t stream_id; uint32_t volume_control_id; uint32_t mute_control_id; }; #if 0 static void emit_controls_changed(struct audiomixer *self) { pw_thread_loop_signal(self->main_loop, false); if (!self->events || !self->events->controls_changed) return; self->events->controls_changed(self->events_data); } static void emit_value_changed(struct audiomixer *self, unsigned int change_mask, struct mixer_control *ctl) { if (!self->events || !self->events->value_changed) return; self->events->value_changed(self->events_data, change_mask, ctl); } static void advance_endpoint_state(struct endpoint *endpoint) { debug("%p advance endpoint state, was:%d", endpoint, endpoint->state); switch (endpoint->state) { case EP_STATE_INITIAL: endpoint->state = EP_STATE_COLLECT_ENUM_STREAM; pw_endpoint_proxy_enum_params(endpoint->proxy, 0, PW_ENDPOINT_PARAM_EnumStream, 0, -1, NULL); pw_proxy_sync((struct pw_proxy *) endpoint->proxy, 0); break; case EP_STATE_COLLECT_ENUM_STREAM: endpoint->state = EP_STATE_COLLECT_ENUM_CONTROL; pw_endpoint_proxy_enum_params(endpoint->proxy, 0, PW_ENDPOINT_PARAM_EnumControl, 0, -1, NULL); pw_proxy_sync((struct pw_proxy *) endpoint->proxy, 0); break; case EP_STATE_COLLECT_ENUM_CONTROL: { uint32_t ids[1] = { PW_ENDPOINT_PARAM_Control }; endpoint->state = EP_STATE_COLLECT_CONTROL; pw_endpoint_proxy_subscribe_params(endpoint->proxy, ids, 1); pw_proxy_sync((struct pw_proxy *) endpoint->proxy, 0); break; } case EP_STATE_COLLECT_CONTROL: { struct mixer_control_impl *ctl; struct audiomixer *self = endpoint->audiomixer; endpoint->state = EP_STATE_ACTIVE; pw_array_for_each(ctl, &endpoint->mixer_controls) { pw_array_add_ptr(&self->all_mixer_controls, ctl); } emit_controls_changed(self); break; } default: break; } } static void endpoint_param (void *object, int seq, uint32_t id, uint32_t index, uint32_t next, const struct spa_pod *param) { struct endpoint *endpoint = object; struct mixer_control_impl *ctl; const struct spa_pod_prop *prop; struct spa_pod_object *obj = (struct spa_pod_object *) param; if (!spa_pod_is_object(param)) { debug("endpoint_param: bad param - not an object"); return; } switch (id) { case PW_ENDPOINT_PARAM_EnumStream: /* verify conditions */ if (endpoint->state != EP_STATE_COLLECT_ENUM_STREAM) { debug("endpoint_param EnumStream: wrong state"); return; } if (SPA_POD_OBJECT_TYPE(obj) != PW_ENDPOINT_OBJECT_ParamStream) { debug("endpoint_param EnumStream: invalid param"); return; } /* create new mixer control */ ctl = pw_array_add(&endpoint->mixer_controls, sizeof(*ctl)); ctl->endpoint = endpoint; SPA_POD_OBJECT_FOREACH(obj, prop) { switch (prop->key) { case PW_ENDPOINT_PARAM_STREAM_id: spa_pod_get_int(&prop->value, &ctl->stream_id); break; case PW_ENDPOINT_PARAM_STREAM_name: spa_pod_copy_string(&prop->value, SPA_N_ELEMENTS(ctl->pub.name), ctl->pub.name); break; default: break; } } break; case PW_ENDPOINT_PARAM_EnumControl: { uint32_t tmp_id = -1; const char *name = NULL; /* verify conditions */ if (endpoint->state != EP_STATE_COLLECT_ENUM_CONTROL) { debug("endpoint_param EnumControl: wrong state"); return; } if (SPA_POD_OBJECT_TYPE(obj) != PW_ENDPOINT_OBJECT_ParamControl) { debug("endpoint_param EnumControl: invalid param"); return; } /* find the mixer control */ prop = spa_pod_object_find_prop(obj, NULL, PW_ENDPOINT_PARAM_CONTROL_stream_id); if (prop) spa_pod_get_int(&prop->value, &tmp_id); else { debug("endpoint_param EnumControl: invalid control without stream"); return; } pw_array_for_each(ctl, &endpoint->mixer_controls) { if (ctl->stream_id == tmp_id) break; } /* check if we reached the end of the array * without finding the stream */ if (!pw_array_check(&endpoint->mixer_controls, ctl)) { debug("endpoint_param EnumControl: could not find " "stream id %u", tmp_id); return; } /* store the control id based on the control's name */ prop = spa_pod_object_find_prop(obj, NULL, PW_ENDPOINT_PARAM_CONTROL_name); if (prop) spa_pod_get_string(&prop->value, &name); else { debug("endpoint_param EnumControl: invalid control without name"); return; } prop = spa_pod_object_find_prop(obj, NULL, PW_ENDPOINT_PARAM_CONTROL_id); if (!prop) { debug("endpoint_param EnumControl: invalid control without id"); return; } if (!strcmp (name, "volume")) { spa_pod_get_int(&prop->value, &ctl->volume_control_id); prop = spa_pod_object_find_prop(obj, NULL, PW_ENDPOINT_PARAM_CONTROL_type); } else if (!strcmp (name, "mute")) { spa_pod_get_int(&prop->value, &ctl->mute_control_id); } break; } case PW_ENDPOINT_PARAM_Control: { uint32_t tmp_id = -1; /* verify conditions */ if (endpoint->state != EP_STATE_COLLECT_CONTROL && endpoint->state != EP_STATE_ACTIVE) { debug("endpoint_param Control: wrong state"); return; } if (SPA_POD_OBJECT_TYPE(obj) != PW_ENDPOINT_OBJECT_ParamControl) { debug("endpoint_param Control: invalid param"); return; } /* match the control id and set the value */ prop = spa_pod_object_find_prop(obj, NULL, PW_ENDPOINT_PARAM_CONTROL_id); if (prop) spa_pod_get_int(&prop->value, &tmp_id); else { debug("endpoint_param Control: invalid control without id"); return; } prop = spa_pod_object_find_prop(obj, NULL, PW_ENDPOINT_PARAM_CONTROL_value); if (!prop) { debug("endpoint_param Control: invalid control without value"); return; } pw_array_for_each(ctl, &endpoint->mixer_controls) { if (ctl->volume_control_id == tmp_id) { spa_pod_get_double(&prop->value, &ctl->pub.volume); if (endpoint->state == EP_STATE_ACTIVE) { emit_value_changed(endpoint->audiomixer, MIXER_CONTROL_CHANGE_FLAG_VOLUME, &ctl->pub); } break; } else if (ctl->mute_control_id == tmp_id) { spa_pod_get_bool(&prop->value, &ctl->pub.mute); if (endpoint->state == EP_STATE_ACTIVE) { emit_value_changed(endpoint->audiomixer, MIXER_CONTROL_CHANGE_FLAG_MUTE, &ctl->pub); } break; } } break; } default: break; } } struct pw_endpoint_proxy_events endpoint_events = { PW_VERSION_ENDPOINT_PROXY_EVENTS, .param = endpoint_param, }; static void endpoint_proxy_destroyed(void *object) { struct endpoint *endpoint = object; struct audiomixer *self = endpoint->audiomixer; struct mixer_control_impl *ctl; struct mixer_control **ctlptr; struct endpoint **epptr; debug("%p endpoint destroyed", endpoint); if (endpoint->properties) pw_properties_free(endpoint->properties); pw_array_for_each(ctl, &endpoint->mixer_controls) { pw_array_for_each(ctlptr, &self->all_mixer_controls) { if (*ctlptr == &ctl->pub) { pw_array_remove(&self->all_mixer_controls, ctlptr); break; } } } emit_controls_changed(self); pw_array_clear(&endpoint->mixer_controls); pw_array_for_each(epptr, &self->endpoints) { if (*epptr == endpoint) { pw_array_remove(&self->endpoints, epptr); break; } } } static void endpoint_proxy_done(void *object, int seq) { struct endpoint *endpoint = object; advance_endpoint_state(endpoint); } struct pw_proxy_events proxy_events = { PW_VERSION_PROXY_EVENTS, .destroy = endpoint_proxy_destroyed, .done = endpoint_proxy_done, }; #endif static void registry_event_global(void *data, uint32_t id, uint32_t parent_id, uint32_t permissions, uint32_t type, uint32_t version, const struct spa_dict *props) { #if 0 struct audiomixer *self = data; const char *media_class; struct pw_proxy *proxy; struct endpoint *endpoint; if (type != PW_TYPE_INTERFACE_Endpoint) return; /* we are only interested in mixer endpoints */ media_class = props ? spa_dict_lookup(props, "media.class") : NULL; if (!media_class || strcmp(media_class, "Mixer/Audio") != 0) return; proxy = pw_registry_proxy_bind(self->registry_proxy, id, type, PW_VERSION_ENDPOINT, sizeof(struct endpoint)); endpoint = pw_proxy_get_user_data(proxy); endpoint->audiomixer = self; endpoint->proxy = (struct pw_endpoint_proxy *) proxy; endpoint->properties = props ? pw_properties_new_dict(props) : NULL; endpoint->state = EP_STATE_INITIAL; pw_array_init(&endpoint->mixer_controls, 4 * sizeof(struct mixer_control)); pw_proxy_add_listener(proxy, &endpoint->proxy_listener, &proxy_events, endpoint); pw_endpoint_proxy_add_listener(endpoint->proxy, &endpoint->endpoint_listener, &endpoint_events, endpoint); debug("%p added endpoint: %u", endpoint, id); pw_array_add_ptr(&self->endpoints, endpoint); advance_endpoint_state(endpoint); #endif } static const struct pw_registry_proxy_events registry_events = { PW_VERSION_REGISTRY_PROXY_EVENTS, .global = registry_event_global, }; static void on_remote_state_changed(void *data, enum pw_remote_state old, enum pw_remote_state state, const char *error) { struct audiomixer *self = data; if (state == PW_REMOTE_STATE_CONNECTED) { self->core_proxy = pw_remote_get_core_proxy(self->remote); self->registry_proxy = pw_core_proxy_get_registry( self->core_proxy, PW_TYPE_INTERFACE_Registry, PW_VERSION_REGISTRY, 0); pw_registry_proxy_add_listener(self->registry_proxy, &self->registry_listener, ®istry_events, self); } pw_thread_loop_signal(self->main_loop, false); } static const struct pw_remote_events remote_events = { PW_VERSION_REMOTE_EVENTS, .state_changed = on_remote_state_changed, }; struct audiomixer * audiomixer_new(void) { struct audiomixer *self; struct pw_loop *loop; pw_init(NULL, NULL); self = calloc(1, sizeof(struct audiomixer)); loop = pw_loop_new(NULL); self->main_loop = pw_thread_loop_new(loop, "audiomixer-loop"); self->core = pw_core_new(loop, NULL, 0); self->remote = pw_remote_new(self->core, NULL, 0); pw_array_init(&self->endpoints, 1 * sizeof(void*)); pw_array_init(&self->all_mixer_controls, 8 * sizeof(void*)); pw_remote_add_listener(self->remote, &self->remote_listener, &remote_events, self); // pw_module_load(self->core, "libpipewire-module-endpoint", NULL, NULL, // NULL, NULL); pw_thread_loop_start(self->main_loop); return self; } void audiomixer_free(struct audiomixer *self) { struct pw_loop *loop; pw_thread_loop_lock(self->main_loop); self->events = NULL; self->events_data = NULL; pw_remote_disconnect(self->remote); pw_thread_loop_unlock(self->main_loop); pw_thread_loop_stop(self->main_loop); pw_array_clear(&self->endpoints); pw_array_clear(&self->all_mixer_controls); pw_remote_destroy(self->remote); pw_core_destroy(self->core); loop = pw_thread_loop_get_loop(self->main_loop); pw_thread_loop_destroy(self->main_loop); pw_loop_destroy(loop); free(self); } void audiomixer_lock(struct audiomixer *self) { pw_thread_loop_lock(self->main_loop); } void audiomixer_unlock(struct audiomixer *self) { pw_thread_loop_unlock(self->main_loop); } int audiomixer_ensure_connected(struct audiomixer *self, int timeout_sec) { enum pw_remote_state state; int res; state = pw_remote_get_state(self->remote, NULL); if (state == PW_REMOTE_STATE_CONNECTED) return 0; if ((res = pw_remote_connect(self->remote)) < 0) return res; while (true) { state = pw_remote_get_state(self->remote, NULL); if (state == PW_REMOTE_STATE_CONNECTED) return 0; else if (state == PW_REMOTE_STATE_ERROR) return -EIO; if (pw_thread_loop_timed_wait(self->main_loop, timeout_sec) != 0) return -ETIMEDOUT; } } int audiomixer_ensure_controls(struct audiomixer *self, int timeout_sec) { while (pw_array_get_len(&self->all_mixer_controls, void*) == 0) { if (pw_thread_loop_timed_wait(self->main_loop, timeout_sec) != 0) return -ETIMEDOUT; } return 0; } const struct mixer_control ** audiomixer_get_active_controls(struct audiomixer *self, unsigned int *n_controls) { const struct mixer_control **ret; *n_controls = pw_array_get_len(&self->all_mixer_controls, void*); ret = (const struct mixer_control **) pw_array_first(&self->all_mixer_controls); return ret; } const struct mixer_control * audiomixer_find_control(struct audiomixer *self, const char *name) { struct mixer_control **ctlptr; pw_array_for_each(ctlptr, &self->all_mixer_controls) { if (!strcmp((*ctlptr)->name, name)) { return *ctlptr; } } return NULL; } void audiomixer_add_event_listener(struct audiomixer *self, const struct audiomixer_events *events, void *data) { self->events = events; self->events_data = data; } void audiomixer_change_volume(struct audiomixer *self, const struct mixer_control *control, double volume) { #if 0 const struct mixer_control_impl *impl = (const struct mixer_control_impl *) control; struct endpoint *endpoint = impl->endpoint; char buffer[1024]; struct spa_pod_builder b = SPA_POD_BUILDER_INIT(buffer, 1024); struct spa_pod *param; param = spa_pod_builder_add_object(&b, PW_ENDPOINT_OBJECT_ParamControl, PW_ENDPOINT_PARAM_Control, PW_ENDPOINT_PARAM_CONTROL_id, SPA_POD_Int(impl->volume_control_id), PW_ENDPOINT_PARAM_CONTROL_value, SPA_POD_Double(volume), NULL); pw_endpoint_proxy_set_param(endpoint->proxy, PW_ENDPOINT_PARAM_Control, 0, param); #endif } void audiomixer_change_mute(struct audiomixer *self, const struct mixer_control *control, bool mute) { #if 0 const struct mixer_control_impl *impl = (const struct mixer_control_impl *) control; struct endpoint *endpoint = impl->endpoint; char buffer[1024]; struct spa_pod_builder b = SPA_POD_BUILDER_INIT(buffer, 1024); struct spa_pod *param; param = spa_pod_builder_add_object(&b, PW_ENDPOINT_OBJECT_ParamControl, PW_ENDPOINT_PARAM_Control, PW_ENDPOINT_PARAM_CONTROL_id, SPA_POD_Int(impl->mute_control_id), PW_ENDPOINT_PARAM_CONTROL_value, SPA_POD_Bool(mute), NULL); pw_endpoint_proxy_set_param(endpoint->proxy, PW_ENDPOINT_PARAM_Control, 0, param); #endif }