/*** This file is part of PulseAudio. Copyright 2006-2008 Lennart Poettering Copyright 2011 Colin Guthrie PulseAudio is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. PulseAudio is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with PulseAudio; if not, see . ***/ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include PA_MODULE_AUTHOR("Lennart Poettering"); PA_MODULE_DESCRIPTION("Automatically restore the volume/mute state of devices"); PA_MODULE_VERSION(PACKAGE_VERSION); PA_MODULE_LOAD_ONCE(true); PA_MODULE_USAGE( "restore_port= " "restore_volume= " "restore_muted= " "restore_formats="); #define SAVE_INTERVAL (10 * PA_USEC_PER_SEC) static const char* const valid_modargs[] = { "restore_volume", "restore_muted", "restore_port", "restore_formats", NULL }; struct userdata { pa_core *core; pa_module *module; pa_subscription *subscription; pa_time_event *save_time_event; pa_database *database; pa_native_protocol *protocol; pa_idxset *subscribed; bool restore_volume:1; bool restore_muted:1; bool restore_port:1; bool restore_formats:1; }; /* Protocol extension commands */ enum { SUBCOMMAND_TEST, SUBCOMMAND_SUBSCRIBE, SUBCOMMAND_EVENT, SUBCOMMAND_READ_FORMATS_ALL, SUBCOMMAND_READ_FORMATS, SUBCOMMAND_SAVE_FORMATS }; #define ENTRY_VERSION 1 struct entry { uint8_t version; bool port_valid; char *port; }; #define PERPORTENTRY_VERSION 1 struct perportentry { uint8_t version; bool muted_valid, volume_valid; bool muted; pa_channel_map channel_map; pa_cvolume volume; pa_idxset *formats; }; static void save_time_callback(pa_mainloop_api*a, pa_time_event* e, const struct timeval *t, void *userdata) { struct userdata *u = userdata; pa_assert(a); pa_assert(e); pa_assert(u); pa_assert(e == u->save_time_event); u->core->mainloop->time_free(u->save_time_event); u->save_time_event = NULL; pa_database_sync(u->database); pa_log_info("Synced."); } static void trigger_save(struct userdata *u, pa_device_type_t type, uint32_t sink_idx) { pa_native_connection *c; uint32_t idx; if (sink_idx != PA_INVALID_INDEX) { PA_IDXSET_FOREACH(c, u->subscribed, idx) { pa_tagstruct *t; t = pa_tagstruct_new(); pa_tagstruct_putu32(t, PA_COMMAND_EXTENSION); pa_tagstruct_putu32(t, 0); pa_tagstruct_putu32(t, u->module->index); pa_tagstruct_puts(t, u->module->name); pa_tagstruct_putu32(t, SUBCOMMAND_EVENT); pa_tagstruct_putu32(t, type); pa_tagstruct_putu32(t, sink_idx); pa_pstream_send_tagstruct(pa_native_connection_get_pstream(c), t); } } if (u->save_time_event) return; u->save_time_event = pa_core_rttime_new(u->core, pa_rtclock_now() + SAVE_INTERVAL, save_time_callback, u); } #ifdef ENABLE_LEGACY_DATABASE_ENTRY_FORMAT /* Some forward declarations */ static bool legacy_entry_read(struct userdata *u, pa_datum *data, struct entry **entry, struct perportentry **perportentry); static struct perportentry* perportentry_read(struct userdata *u, const char *basekeyname, const char *port); static bool perportentry_write(struct userdata *u, const char *basekeyname, const char *port, const struct perportentry *e); static void perportentry_free(struct perportentry* e); #endif static struct entry* entry_new(void) { struct entry *r = pa_xnew0(struct entry, 1); r->version = ENTRY_VERSION; return r; } static void entry_free(struct entry* e) { pa_assert(e); pa_xfree(e->port); pa_xfree(e); } static bool entry_write(struct userdata *u, const char *name, const struct entry *e) { pa_tagstruct *t; pa_datum key, data; bool r; pa_assert(u); pa_assert(name); pa_assert(e); t = pa_tagstruct_new(); pa_tagstruct_putu8(t, e->version); pa_tagstruct_put_boolean(t, e->port_valid); pa_tagstruct_puts(t, e->port); key.data = (char *) name; key.size = strlen(name); data.data = (void*)pa_tagstruct_data(t, &data.size); r = (pa_database_set(u->database, &key, &data, true) == 0); pa_tagstruct_free(t); return r; } static struct entry* entry_read(struct userdata *u, const char *name) { pa_datum key, data; struct entry *e = NULL; pa_tagstruct *t = NULL; const char* port; pa_assert(u); pa_assert(name); key.data = (char*) name; key.size = strlen(name); pa_zero(data); if (!pa_database_get(u->database, &key, &data)) { pa_log_debug("Database contains no data for key: %s", name); return NULL; } t = pa_tagstruct_new_fixed(data.data, data.size); e = entry_new(); if (pa_tagstruct_getu8(t, &e->version) < 0 || e->version > ENTRY_VERSION || pa_tagstruct_get_boolean(t, &e->port_valid) < 0 || pa_tagstruct_gets(t, &port) < 0) { goto fail; } if (!pa_tagstruct_eof(t)) goto fail; e->port = pa_xstrdup(port); pa_tagstruct_free(t); pa_datum_free(&data); return e; fail: pa_log_debug("Database contains invalid data for key: %s (probably pre-v1.0 data)", name); if (e) entry_free(e); if (t) pa_tagstruct_free(t); #ifdef ENABLE_LEGACY_DATABASE_ENTRY_FORMAT { struct perportentry *ppe; pa_log_debug("Attempting to load legacy (pre-v1.0) data for key: %s", name); if (legacy_entry_read(u, &data, &e, &ppe)) { bool written = false; pa_log_debug("Success. Saving new format for key: %s", name); written = entry_write(u, name, e); /* Now convert the legacy entry into per-port entries */ if (0 == strncmp("sink:", name, 5)) { pa_sink *sink; if ((sink = pa_namereg_get(u->core, name+5, PA_NAMEREG_SINK))) { /* Write a "null" port entry. The read code will automatically try this * if it cannot find a specific port-named entry. */ written = perportentry_write(u, name, NULL, ppe) || written; } } else if (0 == strncmp("source:", name, 7)) { pa_source *source; if ((source = pa_namereg_get(u->core, name+7, PA_NAMEREG_SOURCE))) { /* Write a "null" port entry. The read code will automatically try this * if it cannot find a specific port-named entry. */ written = perportentry_write(u, name, NULL, ppe) || written; } } perportentry_free(ppe); if (written) /* NB The device type doesn't matter when we pass in an invalid index. */ trigger_save(u, PA_DEVICE_TYPE_SINK, PA_INVALID_INDEX); pa_datum_free(&data); return e; } pa_log_debug("Unable to load legacy (pre-v1.0) data for key: %s. Ignoring.", name); } #endif pa_datum_free(&data); return NULL; } static struct entry* entry_copy(const struct entry *e) { struct entry* r; pa_assert(e); r = entry_new(); r->version = e->version; r->port_valid = e->port_valid; r->port = pa_xstrdup(e->port); return r; } static bool entries_equal(const struct entry *a, const struct entry *b) { pa_assert(a && b); if (a->port_valid != b->port_valid || (a->port_valid && !pa_streq(a->port, b->port))) return false; return true; } static struct perportentry* perportentry_new(bool add_pcm_format) { struct perportentry *r = pa_xnew0(struct perportentry, 1); r->version = PERPORTENTRY_VERSION; r->formats = pa_idxset_new(NULL, NULL); if (add_pcm_format) { pa_format_info *f = pa_format_info_new(); f->encoding = PA_ENCODING_PCM; pa_idxset_put(r->formats, f, NULL); } return r; } static void perportentry_free(struct perportentry* e) { pa_assert(e); pa_idxset_free(e->formats, (pa_free_cb_t) pa_format_info_free); pa_xfree(e); } static bool perportentry_write(struct userdata *u, const char *basekeyname, const char *port, const struct perportentry *e) { pa_tagstruct *t; pa_datum key, data; bool r; uint32_t i; pa_format_info *f; uint8_t n_formats; char *name; pa_assert(u); pa_assert(basekeyname); pa_assert(e); name = pa_sprintf_malloc("%s:%s", basekeyname, (port ? port : "null")); n_formats = pa_idxset_size(e->formats); pa_assert(n_formats > 0); t = pa_tagstruct_new(); pa_tagstruct_putu8(t, e->version); pa_tagstruct_put_boolean(t, e->volume_valid); pa_tagstruct_put_channel_map(t, &e->channel_map); pa_tagstruct_put_cvolume(t, &e->volume); pa_tagstruct_put_boolean(t, e->muted_valid); pa_tagstruct_put_boolean(t, e->muted); pa_tagstruct_putu8(t, n_formats); PA_IDXSET_FOREACH(f, e->formats, i) { pa_tagstruct_put_format_info(t, f); } key.data = (char *) name; key.size = strlen(name); data.data = (void*)pa_tagstruct_data(t, &data.size); r = (pa_database_set(u->database, &key, &data, true) == 0); pa_tagstruct_free(t); pa_xfree(name); return r; } static struct perportentry* perportentry_read(struct userdata *u, const char *basekeyname, const char *port) { pa_datum key, data; struct perportentry *e = NULL; pa_tagstruct *t = NULL; uint8_t i, n_formats; char *name; pa_assert(u); pa_assert(basekeyname); name = pa_sprintf_malloc("%s:%s", basekeyname, (port ? port : "null")); key.data = name; key.size = strlen(name); pa_zero(data); if (!pa_database_get(u->database, &key, &data)) goto fail; t = pa_tagstruct_new_fixed(data.data, data.size); e = perportentry_new(false); if (pa_tagstruct_getu8(t, &e->version) < 0 || e->version > PERPORTENTRY_VERSION || pa_tagstruct_get_boolean(t, &e->volume_valid) < 0 || pa_tagstruct_get_channel_map(t, &e->channel_map) < 0 || pa_tagstruct_get_cvolume(t, &e->volume) < 0 || pa_tagstruct_get_boolean(t, &e->muted_valid) < 0 || pa_tagstruct_get_boolean(t, &e->muted) < 0 || pa_tagstruct_getu8(t, &n_formats) < 0 || n_formats < 1) { goto fail; } for (i = 0; i < n_formats; ++i) { pa_format_info *f = pa_format_info_new(); if (pa_tagstruct_get_format_info(t, f) < 0) { pa_format_info_free(f); goto fail; } pa_idxset_put(e->formats, f, NULL); } if (!pa_tagstruct_eof(t)) goto fail; if (e->volume_valid && !pa_channel_map_valid(&e->channel_map)) { pa_log_warn("Invalid channel map stored in database for device %s", name); goto fail; } if (e->volume_valid && (!pa_cvolume_valid(&e->volume) || !pa_cvolume_compatible_with_channel_map(&e->volume, &e->channel_map))) { pa_log_warn("Volume and channel map don't match in database entry for device %s", name); goto fail; } pa_tagstruct_free(t); pa_datum_free(&data); pa_xfree(name); return e; fail: if (e) perportentry_free(e); if (t) pa_tagstruct_free(t); pa_datum_free(&data); #ifdef ENABLE_LEGACY_DATABASE_ENTRY_FORMAT /* Try again with a null port. This is used when dealing with migration from older versions */ if (port) { pa_xfree(name); return perportentry_read(u, basekeyname, NULL); } #endif pa_log_debug("Database contains no (or invalid) data for key: %s", name); pa_xfree(name); return NULL; } static struct perportentry* perportentry_copy(const struct perportentry *e) { struct perportentry* r; uint32_t idx; pa_format_info *f; pa_assert(e); r = perportentry_new(false); r->version = e->version; r->muted_valid = e->muted_valid; r->volume_valid = e->volume_valid; r->muted = e->muted; r->channel_map = e->channel_map; r->volume = e->volume; PA_IDXSET_FOREACH(f, e->formats, idx) { pa_idxset_put(r->formats, pa_format_info_copy(f), NULL); } return r; } static bool perportentries_equal(const struct perportentry *a, const struct perportentry *b) { pa_cvolume t; pa_assert(a && b); if (a->muted_valid != b->muted_valid || (a->muted_valid && (a->muted != b->muted))) return false; t = b->volume; if (a->volume_valid != b->volume_valid || (a->volume_valid && !pa_cvolume_equal(pa_cvolume_remap(&t, &b->channel_map, &a->channel_map), &a->volume))) return false; if (pa_idxset_size(a->formats) != pa_idxset_size(b->formats)) return false; /** TODO: Compare a bit better */ return true; } #ifdef ENABLE_LEGACY_DATABASE_ENTRY_FORMAT #define LEGACY_ENTRY_VERSION 2 static bool legacy_entry_read(struct userdata *u, pa_datum *data, struct entry **entry, struct perportentry **perportentry) { struct legacy_entry { uint8_t version; bool muted_valid:1, volume_valid:1, port_valid:1; bool muted:1; pa_channel_map channel_map; pa_cvolume volume; char port[PA_NAME_MAX]; } PA_GCC_PACKED; struct legacy_entry *le; pa_assert(u); pa_assert(data); pa_assert(entry); pa_assert(perportentry); if (data->size != sizeof(struct legacy_entry)) { pa_log_debug("Size does not match."); return false; } le = (struct legacy_entry*)data->data; if (le->version != LEGACY_ENTRY_VERSION) { pa_log_debug("Version mismatch."); return false; } if (!memchr(le->port, 0, sizeof(le->port))) { pa_log_warn("Port has missing NUL byte."); return false; } if (le->volume_valid && !pa_channel_map_valid(&le->channel_map)) { pa_log_warn("Invalid channel map."); return false; } if (le->volume_valid && (!pa_cvolume_valid(&le->volume) || !pa_cvolume_compatible_with_channel_map(&le->volume, &le->channel_map))) { pa_log_warn("Volume and channel map don't match."); return false; } *entry = entry_new(); (*entry)->port_valid = le->port_valid; (*entry)->port = pa_xstrdup(le->port); *perportentry = perportentry_new(true); (*perportentry)->muted_valid = le->muted_valid; (*perportentry)->volume_valid = le->volume_valid; (*perportentry)->muted = le->muted; (*perportentry)->channel_map = le->channel_map; (*perportentry)->volume = le->volume; return true; } #endif static void subscribe_callback(pa_core *c, pa_subscription_event_type_t t, uint32_t idx, void *userdata) { struct userdata *u = userdata; struct entry *e, *olde; struct perportentry *ppe, *oldppe; char *name; const char *port = NULL; pa_device_type_t type; bool written = false; pa_assert(c); pa_assert(u); if (t != (PA_SUBSCRIPTION_EVENT_SINK|PA_SUBSCRIPTION_EVENT_NEW) && t != (PA_SUBSCRIPTION_EVENT_SINK|PA_SUBSCRIPTION_EVENT_CHANGE) && t != (PA_SUBSCRIPTION_EVENT_SOURCE|PA_SUBSCRIPTION_EVENT_NEW) && t != (PA_SUBSCRIPTION_EVENT_SOURCE|PA_SUBSCRIPTION_EVENT_CHANGE)) return; if ((t & PA_SUBSCRIPTION_EVENT_FACILITY_MASK) == PA_SUBSCRIPTION_EVENT_SINK) { pa_sink *sink; if (!(sink = pa_idxset_get_by_index(c->sinks, idx))) return; type = PA_DEVICE_TYPE_SINK; name = pa_sprintf_malloc("sink:%s", sink->name); if (sink->active_port) port = sink->active_port->name; if ((olde = entry_read(u, name))) e = entry_copy(olde); else e = entry_new(); if (sink->save_port) { pa_xfree(e->port); e->port = pa_xstrdup(port ? port : ""); e->port_valid = true; } if ((oldppe = perportentry_read(u, name, port))) ppe = perportentry_copy(oldppe); else ppe = perportentry_new(true); if (sink->save_volume) { ppe->channel_map = sink->channel_map; ppe->volume = *pa_sink_get_volume(sink, false); ppe->volume_valid = true; } if (sink->save_muted) { ppe->muted = pa_sink_get_mute(sink, false); ppe->muted_valid = true; } } else { pa_source *source; pa_assert((t & PA_SUBSCRIPTION_EVENT_FACILITY_MASK) == PA_SUBSCRIPTION_EVENT_SOURCE); if (!(source = pa_idxset_get_by_index(c->sources, idx))) return; type = PA_DEVICE_TYPE_SOURCE; name = pa_sprintf_malloc("source:%s", source->name); if (source->active_port) port = source->active_port->name; if ((olde = entry_read(u, name))) e = entry_copy(olde); else e = entry_new(); if (source->save_port) { pa_xfree(e->port); e->port = pa_xstrdup(port ? port : ""); e->port_valid = true; } if ((oldppe = perportentry_read(u, name, port))) ppe = perportentry_copy(oldppe); else ppe = perportentry_new(true); if (source->save_volume) { ppe->channel_map = source->channel_map; ppe->volume = *pa_source_get_volume(source, false); ppe->volume_valid = true; } if (source->save_muted) { ppe->muted = pa_source_get_mute(source, false); ppe->muted_valid = true; } } pa_assert(e); if (olde) { if (entries_equal(olde, e)) { entry_free(olde); entry_free(e); e = NULL; } else entry_free(olde); } if (e) { pa_log_info("Storing port for device %s.", name); written = entry_write(u, name, e); entry_free(e); } pa_assert(ppe); if (oldppe) { if (perportentries_equal(oldppe, ppe)) { perportentry_free(oldppe); perportentry_free(ppe); ppe = NULL; } else perportentry_free(oldppe); } if (ppe) { pa_log_info("Storing volume/mute for device+port %s:%s.", name, (port ? port : "null")); written = perportentry_write(u, name, port, ppe) || written; perportentry_free(ppe); } pa_xfree(name); if (written) trigger_save(u, type, idx); } static pa_hook_result_t sink_new_hook_callback(pa_core *c, pa_sink_new_data *new_data, struct userdata *u) { char *name; struct entry *e; pa_assert(c); pa_assert(new_data); pa_assert(u); pa_assert(u->restore_port); name = pa_sprintf_malloc("sink:%s", new_data->name); if ((e = entry_read(u, name))) { if (e->port_valid) { if (!new_data->active_port) { pa_log_info("Restoring port for sink %s.", name); pa_sink_new_data_set_port(new_data, e->port); new_data->save_port = true; } else pa_log_debug("Not restoring port for sink %s, because already set.", name); } entry_free(e); } pa_xfree(name); return PA_HOOK_OK; } static pa_hook_result_t sink_fixate_hook_callback(pa_core *c, pa_sink_new_data *new_data, struct userdata *u) { char *name; struct perportentry *e; pa_assert(c); pa_assert(new_data); pa_assert(u); pa_assert(u->restore_volume || u->restore_muted); name = pa_sprintf_malloc("sink:%s", new_data->name); if ((e = perportentry_read(u, name, new_data->active_port))) { if (u->restore_volume && e->volume_valid) { if (!new_data->volume_is_set) { pa_cvolume v; char buf[PA_CVOLUME_SNPRINT_VERBOSE_MAX]; v = e->volume; pa_cvolume_remap(&v, &e->channel_map, &new_data->channel_map); pa_sink_new_data_set_volume(new_data, &v); pa_log_info("Restoring volume for sink %s: %s", new_data->name, pa_cvolume_snprint_verbose(buf, sizeof(buf), &new_data->volume, &new_data->channel_map, false)); new_data->save_volume = true; } else pa_log_debug("Not restoring volume for sink %s, because already set.", new_data->name); } if (u->restore_muted && e->muted_valid) { if (!new_data->muted_is_set) { pa_sink_new_data_set_muted(new_data, e->muted); new_data->save_muted = true; pa_log_info("Restoring mute state for sink %s: %smuted", new_data->name, new_data->muted ? "" : "un"); } else pa_log_debug("Not restoring mute state for sink %s, because already set.", new_data->name); } perportentry_free(e); } pa_xfree(name); return PA_HOOK_OK; } static pa_hook_result_t sink_port_hook_callback(pa_core *c, pa_sink *sink, struct userdata *u) { char *name; struct perportentry *e; pa_assert(c); pa_assert(sink); pa_assert(u); pa_assert(u->restore_volume || u->restore_muted); name = pa_sprintf_malloc("sink:%s", sink->name); if ((e = perportentry_read(u, name, (sink->active_port ? sink->active_port->name : NULL)))) { if (u->restore_volume && e->volume_valid) { pa_cvolume v; pa_log_info("Restoring volume for sink %s.", sink->name); v = e->volume; pa_cvolume_remap(&v, &e->channel_map, &sink->channel_map); pa_sink_set_volume(sink, &v, true, false); sink->save_volume = true; } if (u->restore_muted && e->muted_valid) { pa_log_info("Restoring mute state for sink %s.", sink->name); pa_sink_set_mute(sink, e->muted, false); sink->save_muted = true; } perportentry_free(e); } pa_xfree(name); return PA_HOOK_OK; } static pa_hook_result_t sink_put_hook_callback(pa_core *c, pa_sink *sink, struct userdata *u) { char *name; struct perportentry *e; pa_assert(c); pa_assert(sink); pa_assert(u); pa_assert(u->restore_formats); name = pa_sprintf_malloc("sink:%s", sink->name); if ((e = perportentry_read(u, name, (sink->active_port ? sink->active_port->name : NULL)))) { if (!pa_sink_set_formats(sink, e->formats)) pa_log_debug("Could not set format on sink %s", sink->name); perportentry_free(e); } pa_xfree(name); return PA_HOOK_OK; } static pa_hook_result_t source_new_hook_callback(pa_core *c, pa_source_new_data *new_data, struct userdata *u) { char *name; struct entry *e; pa_assert(c); pa_assert(new_data); pa_assert(u); pa_assert(u->restore_port); name = pa_sprintf_malloc("source:%s", new_data->name); if ((e = entry_read(u, name))) { if (e->port_valid) { if (!new_data->active_port) { pa_log_info("Restoring port for source %s.", name); pa_source_new_data_set_port(new_data, e->port); new_data->save_port = true; } else pa_log_debug("Not restoring port for source %s, because already set.", name); } entry_free(e); } pa_xfree(name); return PA_HOOK_OK; } static pa_hook_result_t source_fixate_hook_callback(pa_core *c, pa_source_new_data *new_data, struct userdata *u) { char *name; struct perportentry *e; pa_assert(c); pa_assert(new_data); pa_assert(u); pa_assert(u->restore_volume || u->restore_muted); name = pa_sprintf_malloc("source:%s", new_data->name); if ((e = perportentry_read(u, name, new_data->active_port))) { if (u->restore_volume && e->volume_valid) { if (!new_data->volume_is_set) { pa_cvolume v; char buf[PA_CVOLUME_SNPRINT_VERBOSE_MAX]; v = e->volume; pa_cvolume_remap(&v, &e->channel_map, &new_data->channel_map); pa_source_new_data_set_volume(new_data, &v); pa_log_info("Restoring volume for source %s: %s", new_data->name, pa_cvolume_snprint_verbose(buf, sizeof(buf), &new_data->volume, &new_data->channel_map, false)); new_data->save_volume = true; } else pa_log_debug("Not restoring volume for source %s, because already set.", new_data->name); } if (u->restore_muted && e->muted_valid) { if (!new_data->muted_is_set) { pa_source_new_data_set_muted(new_data, e->muted); new_data->save_muted = true; pa_log_info("Restoring mute state for source %s: %smuted", new_data->name, new_data->muted ? "" : "un"); } else pa_log_debug("Not restoring mute state for source %s, because already set.", new_data->name); } perportentry_free(e); } pa_xfree(name); return PA_HOOK_OK; } static pa_hook_result_t source_port_hook_callback(pa_core *c, pa_source *source, struct userdata *u) { char *name; struct perportentry *e; pa_assert(c); pa_assert(source); pa_assert(u); pa_assert(u->restore_volume || u->restore_muted); name = pa_sprintf_malloc("source:%s", source->name); if ((e = perportentry_read(u, name, (source->active_port ? source->active_port->name : NULL)))) { if (u->restore_volume && e->volume_valid) { pa_cvolume v; pa_log_info("Restoring volume for source %s.", source->name); v = e->volume; pa_cvolume_remap(&v, &e->channel_map, &source->channel_map); pa_source_set_volume(source, &v, true, false); source->save_volume = true; } if (u->restore_muted && e->muted_valid) { pa_log_info("Restoring mute state for source %s.", source->name); pa_source_set_mute(source, e->muted, false); source->save_muted = true; } perportentry_free(e); } pa_xfree(name); return PA_HOOK_OK; } #define EXT_VERSION 1 static void read_sink_format_reply(struct userdata *u, pa_tagstruct *reply, pa_sink *sink) { struct perportentry *e; char *name; pa_assert(u); pa_assert(reply); pa_assert(sink); pa_tagstruct_putu32(reply, PA_DEVICE_TYPE_SINK); pa_tagstruct_putu32(reply, sink->index); /* Read or create an entry */ name = pa_sprintf_malloc("sink:%s", sink->name); if (!(e = perportentry_read(u, name, (sink->active_port ? sink->active_port->name : NULL)))) { /* Fake a reply with PCM encoding supported */ pa_format_info *f = pa_format_info_new(); pa_tagstruct_putu8(reply, 1); f->encoding = PA_ENCODING_PCM; pa_tagstruct_put_format_info(reply, f); pa_format_info_free(f); } else { uint32_t idx; pa_format_info *f; /* Write all the formats from the entry to the reply */ pa_tagstruct_putu8(reply, pa_idxset_size(e->formats)); PA_IDXSET_FOREACH(f, e->formats, idx) { pa_tagstruct_put_format_info(reply, f); } perportentry_free(e); } pa_xfree(name); } static int extension_cb(pa_native_protocol *p, pa_module *m, pa_native_connection *c, uint32_t tag, pa_tagstruct *t) { struct userdata *u; uint32_t command; pa_tagstruct *reply = NULL; pa_assert(p); pa_assert(m); pa_assert(c); pa_assert(t); u = m->userdata; if (pa_tagstruct_getu32(t, &command) < 0) goto fail; reply = pa_tagstruct_new(); pa_tagstruct_putu32(reply, PA_COMMAND_REPLY); pa_tagstruct_putu32(reply, tag); switch (command) { case SUBCOMMAND_TEST: { if (!pa_tagstruct_eof(t)) goto fail; pa_tagstruct_putu32(reply, EXT_VERSION); break; } case SUBCOMMAND_SUBSCRIBE: { bool enabled; if (pa_tagstruct_get_boolean(t, &enabled) < 0 || !pa_tagstruct_eof(t)) goto fail; if (enabled) pa_idxset_put(u->subscribed, c, NULL); else pa_idxset_remove_by_data(u->subscribed, c, NULL); break; } case SUBCOMMAND_READ_FORMATS_ALL: { pa_sink *sink; uint32_t idx; if (!pa_tagstruct_eof(t)) goto fail; PA_IDXSET_FOREACH(sink, u->core->sinks, idx) { read_sink_format_reply(u, reply, sink); } break; } case SUBCOMMAND_READ_FORMATS: { pa_device_type_t type; uint32_t sink_index; pa_sink *sink; pa_assert(reply); /* Get the sink index and the number of formats from the tagstruct */ if (pa_tagstruct_getu32(t, &type) < 0 || pa_tagstruct_getu32(t, &sink_index) < 0) goto fail; if (type != PA_DEVICE_TYPE_SINK) { pa_log("Device format reading is only supported on sinks"); goto fail; } if (!pa_tagstruct_eof(t)) goto fail; /* Now find our sink */ if (!(sink = pa_idxset_get_by_index(u->core->sinks, sink_index))) goto fail; read_sink_format_reply(u, reply, sink); break; } case SUBCOMMAND_SAVE_FORMATS: { struct perportentry *e; pa_device_type_t type; uint32_t sink_index; char *name; pa_sink *sink; uint8_t i, n_formats; /* Get the sink index and the number of formats from the tagstruct */ if (pa_tagstruct_getu32(t, &type) < 0 || pa_tagstruct_getu32(t, &sink_index) < 0 || pa_tagstruct_getu8(t, &n_formats) < 0 || n_formats < 1) { goto fail; } if (type != PA_DEVICE_TYPE_SINK) { pa_log("Device format saving is only supported on sinks"); goto fail; } /* Now find our sink */ if (!(sink = pa_idxset_get_by_index(u->core->sinks, sink_index))) { pa_log("Could not find sink #%d", sink_index); goto fail; } /* Read or create an entry */ name = pa_sprintf_malloc("sink:%s", sink->name); if (!(e = perportentry_read(u, name, (sink->active_port ? sink->active_port->name : NULL)))) e = perportentry_new(false); else { /* Clean out any saved formats */ pa_idxset_free(e->formats, (pa_free_cb_t) pa_format_info_free); e->formats = pa_idxset_new(NULL, NULL); } /* Read all the formats from our tagstruct */ for (i = 0; i < n_formats; ++i) { pa_format_info *f = pa_format_info_new(); if (pa_tagstruct_get_format_info(t, f) < 0) { pa_format_info_free(f); perportentry_free(e); pa_xfree(name); goto fail; } pa_idxset_put(e->formats, f, NULL); } if (!pa_tagstruct_eof(t)) { perportentry_free(e); pa_xfree(name); goto fail; } if (pa_sink_set_formats(sink, e->formats) && perportentry_write(u, name, (sink->active_port ? sink->active_port->name : NULL), e)) trigger_save(u, type, sink_index); else pa_log_warn("Could not save format info for sink %s", sink->name); pa_xfree(name); perportentry_free(e); break; } default: goto fail; } pa_pstream_send_tagstruct(pa_native_connection_get_pstream(c), reply); return 0; fail: if (reply) pa_tagstruct_free(reply); return -1; } static pa_hook_result_t connection_unlink_hook_cb(pa_native_protocol *p, pa_native_connection *c, struct userdata *u) { pa_assert(p); pa_assert(c); pa_assert(u); pa_idxset_remove_by_data(u->subscribed, c, NULL); return PA_HOOK_OK; } int pa__init(pa_module*m) { pa_modargs *ma = NULL; struct userdata *u; char *state_path; pa_sink *sink; pa_source *source; uint32_t idx; bool restore_volume = true, restore_muted = true, restore_port = true, restore_formats = true; pa_assert(m); if (!(ma = pa_modargs_new(m->argument, valid_modargs))) { pa_log("Failed to parse module arguments"); goto fail; } if (pa_modargs_get_value_boolean(ma, "restore_volume", &restore_volume) < 0 || pa_modargs_get_value_boolean(ma, "restore_muted", &restore_muted) < 0 || pa_modargs_get_value_boolean(ma, "restore_port", &restore_port) < 0 || pa_modargs_get_value_boolean(ma, "restore_formats", &restore_formats) < 0) { pa_log("restore_port, restore_volume, restore_muted and restore_formats expect boolean arguments"); goto fail; } if (!restore_muted && !restore_volume && !restore_port && !restore_formats) pa_log_warn("Neither restoring volume, nor restoring muted, nor restoring port enabled!"); m->userdata = u = pa_xnew0(struct userdata, 1); u->core = m->core; u->module = m; u->restore_volume = restore_volume; u->restore_muted = restore_muted; u->restore_port = restore_port; u->restore_formats = restore_formats; u->subscribed = pa_idxset_new(pa_idxset_trivial_hash_func, pa_idxset_trivial_compare_func); u->protocol = pa_native_protocol_get(m->core); pa_native_protocol_install_ext(u->protocol, m, extension_cb); pa_module_hook_connect(m, &pa_native_protocol_hooks(u->protocol)[PA_NATIVE_HOOK_CONNECTION_UNLINK], PA_HOOK_NORMAL, (pa_hook_cb_t) connection_unlink_hook_cb, u); u->subscription = pa_subscription_new(m->core, PA_SUBSCRIPTION_MASK_SINK|PA_SUBSCRIPTION_MASK_SOURCE, subscribe_callback, u); if (restore_port) { pa_module_hook_connect(m, &m->core->hooks[PA_CORE_HOOK_SINK_NEW], PA_HOOK_EARLY, (pa_hook_cb_t) sink_new_hook_callback, u); pa_module_hook_connect(m, &m->core->hooks[PA_CORE_HOOK_SOURCE_NEW], PA_HOOK_EARLY, (pa_hook_cb_t) source_new_hook_callback, u); } if (restore_muted || restore_volume) { pa_module_hook_connect(m, &m->core->hooks[PA_CORE_HOOK_SINK_FIXATE], PA_HOOK_EARLY, (pa_hook_cb_t) sink_fixate_hook_callback, u); pa_module_hook_connect(m, &m->core->hooks[PA_CORE_HOOK_SOURCE_FIXATE], PA_HOOK_EARLY, (pa_hook_cb_t) source_fixate_hook_callback, u); pa_module_hook_connect(m, &m->core->hooks[PA_CORE_HOOK_SINK_PORT_CHANGED], PA_HOOK_EARLY, (pa_hook_cb_t) sink_port_hook_callback, u); pa_module_hook_connect(m, &m->core->hooks[PA_CORE_HOOK_SOURCE_PORT_CHANGED], PA_HOOK_EARLY, (pa_hook_cb_t) source_port_hook_callback, u); } if (restore_formats) pa_module_hook_connect(m, &m->core->hooks[PA_CORE_HOOK_SINK_PUT], PA_HOOK_EARLY, (pa_hook_cb_t) sink_put_hook_callback, u); if (!(state_path = pa_state_path(NULL, true))) goto fail; if (!(u->database = pa_database_open(state_path, "device-volumes", true, true))) { pa_xfree(state_path); goto fail; } pa_xfree(state_path); PA_IDXSET_FOREACH(sink, m->core->sinks, idx) subscribe_callback(m->core, PA_SUBSCRIPTION_EVENT_SINK|PA_SUBSCRIPTION_EVENT_NEW, sink->index, u); PA_IDXSET_FOREACH(source, m->core->sources, idx) subscribe_callback(m->core, PA_SUBSCRIPTION_EVENT_SOURCE|PA_SUBSCRIPTION_EVENT_NEW, source->index, u); pa_modargs_free(ma); return 0; fail: pa__done(m); if (ma) pa_modargs_free(ma); return -1; } void pa__done(pa_module*m) { struct userdata* u; pa_assert(m); if (!(u = m->userdata)) return; if (u->subscription) pa_subscription_free(u->subscription); if (u->save_time_event) { u->core->mainloop->time_free(u->save_time_event); pa_database_sync(u->database); } if (u->database) pa_database_close(u->database); if (u->protocol) { pa_native_protocol_remove_ext(u->protocol, m); pa_native_protocol_unref(u->protocol); } if (u->subscribed) pa_idxset_free(u->subscribed, NULL); pa_xfree(u); }