/*** This file is part of PulseAudio. Copyright 2004-2008 Lennart Poettering Copyright 2006 Pierre Ossman for Cendio AB 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 #ifdef HAVE_SYS_WAIT_H #include #endif #ifdef HAVE_NETDB_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 "internal.h" #include "context.h" void pa_command_extension(pa_pdispatch *pd, uint32_t command, uint32_t tag, pa_tagstruct *t, void *userdata); static void pa_command_enable_srbchannel(pa_pdispatch *pd, uint32_t command, uint32_t tag, pa_tagstruct *t, void *userdata); static void pa_command_disable_srbchannel(pa_pdispatch *pd, uint32_t command, uint32_t tag, pa_tagstruct *t, void *userdata); static void pa_command_register_memfd_shmid(pa_pdispatch *pd, uint32_t command, uint32_t tag, pa_tagstruct *t, void *userdata); static const pa_pdispatch_cb_t command_table[PA_COMMAND_MAX] = { [PA_COMMAND_REQUEST] = pa_command_request, [PA_COMMAND_OVERFLOW] = pa_command_overflow_or_underflow, [PA_COMMAND_UNDERFLOW] = pa_command_overflow_or_underflow, [PA_COMMAND_PLAYBACK_STREAM_KILLED] = pa_command_stream_killed, [PA_COMMAND_RECORD_STREAM_KILLED] = pa_command_stream_killed, [PA_COMMAND_PLAYBACK_STREAM_MOVED] = pa_command_stream_moved, [PA_COMMAND_RECORD_STREAM_MOVED] = pa_command_stream_moved, [PA_COMMAND_PLAYBACK_STREAM_SUSPENDED] = pa_command_stream_suspended, [PA_COMMAND_RECORD_STREAM_SUSPENDED] = pa_command_stream_suspended, [PA_COMMAND_STARTED] = pa_command_stream_started, [PA_COMMAND_SUBSCRIBE_EVENT] = pa_command_subscribe_event, [PA_COMMAND_EXTENSION] = pa_command_extension, [PA_COMMAND_PLAYBACK_STREAM_EVENT] = pa_command_stream_event, [PA_COMMAND_RECORD_STREAM_EVENT] = pa_command_stream_event, [PA_COMMAND_CLIENT_EVENT] = pa_command_client_event, [PA_COMMAND_PLAYBACK_BUFFER_ATTR_CHANGED] = pa_command_stream_buffer_attr, [PA_COMMAND_RECORD_BUFFER_ATTR_CHANGED] = pa_command_stream_buffer_attr, [PA_COMMAND_ENABLE_SRBCHANNEL] = pa_command_enable_srbchannel, [PA_COMMAND_DISABLE_SRBCHANNEL] = pa_command_disable_srbchannel, [PA_COMMAND_REGISTER_MEMFD_SHMID] = pa_command_register_memfd_shmid, }; static void context_free(pa_context *c); #ifdef HAVE_DBUS static DBusHandlerResult filter_cb(DBusConnection *bus, DBusMessage *message, void *userdata); #endif pa_context *pa_context_new(pa_mainloop_api *mainloop, const char *name) { return pa_context_new_with_proplist(mainloop, name, NULL); } static void reset_callbacks(pa_context *c) { pa_assert(c); c->state_callback = NULL; c->state_userdata = NULL; c->subscribe_callback = NULL; c->subscribe_userdata = NULL; c->event_callback = NULL; c->event_userdata = NULL; c->ext_device_manager.callback = NULL; c->ext_device_manager.userdata = NULL; c->ext_device_restore.callback = NULL; c->ext_device_restore.userdata = NULL; c->ext_stream_restore.callback = NULL; c->ext_stream_restore.userdata = NULL; } pa_context *pa_context_new_with_proplist(pa_mainloop_api *mainloop, const char *name, pa_proplist *p) { pa_context *c; pa_mem_type_t type; pa_assert(mainloop); if (pa_detect_fork()) return NULL; pa_init_i18n(); c = pa_xnew0(pa_context, 1); PA_REFCNT_INIT(c); c->proplist = p ? pa_proplist_copy(p) : pa_proplist_new(); if (name) pa_proplist_sets(c->proplist, PA_PROP_APPLICATION_NAME, name); #ifdef HAVE_DBUS c->system_bus = c->session_bus = NULL; #endif c->mainloop = mainloop; c->playback_streams = pa_hashmap_new(pa_idxset_trivial_hash_func, pa_idxset_trivial_compare_func); c->record_streams = pa_hashmap_new(pa_idxset_trivial_hash_func, pa_idxset_trivial_compare_func); c->client_index = PA_INVALID_INDEX; c->use_rtclock = pa_mainloop_is_our_api(mainloop); PA_LLIST_HEAD_INIT(pa_stream, c->streams); PA_LLIST_HEAD_INIT(pa_operation, c->operations); c->error = PA_OK; c->state = PA_CONTEXT_UNCONNECTED; reset_callbacks(c); #ifndef MSG_NOSIGNAL #ifdef SIGPIPE pa_check_signal_is_blocked(SIGPIPE); #endif #endif c->conf = pa_client_conf_new(); pa_client_conf_load(c->conf, true, true); c->srb_template.readfd = -1; c->srb_template.writefd = -1; c->memfd_on_local = (!c->conf->disable_memfd && pa_memfd_is_locally_supported()); type = (c->conf->disable_shm) ? PA_MEM_TYPE_PRIVATE : ((!c->memfd_on_local) ? PA_MEM_TYPE_SHARED_POSIX : PA_MEM_TYPE_SHARED_MEMFD); if (!(c->mempool = pa_mempool_new(type, c->conf->shm_size, true))) { if (!c->conf->disable_shm) { pa_log_warn("Failed to allocate shared memory pool. Falling back to a normal private one."); c->mempool = pa_mempool_new(PA_MEM_TYPE_PRIVATE, c->conf->shm_size, true); } if (!c->mempool) { context_free(c); return NULL; } } return c; } static void context_unlink(pa_context *c) { pa_stream *s; pa_assert(c); s = c->streams ? pa_stream_ref(c->streams) : NULL; while (s) { pa_stream *n = s->next ? pa_stream_ref(s->next) : NULL; pa_stream_set_state(s, c->state == PA_CONTEXT_FAILED ? PA_STREAM_FAILED : PA_STREAM_TERMINATED); pa_stream_unref(s); s = n; } while (c->operations) pa_operation_cancel(c->operations); if (c->pdispatch) { pa_pdispatch_unref(c->pdispatch); c->pdispatch = NULL; } if (c->pstream) { pa_pstream_unlink(c->pstream); pa_pstream_unref(c->pstream); c->pstream = NULL; } if (c->srb_template.memblock) { pa_memblock_unref(c->srb_template.memblock); c->srb_template.memblock = NULL; } if (c->client) { pa_socket_client_unref(c->client); c->client = NULL; } reset_callbacks(c); } static void context_free(pa_context *c) { pa_assert(c); context_unlink(c); #ifdef HAVE_DBUS if (c->system_bus) { if (c->filter_added) dbus_connection_remove_filter(pa_dbus_wrap_connection_get(c->system_bus), filter_cb, c); pa_dbus_wrap_connection_free(c->system_bus); } if (c->session_bus) { if (c->filter_added) dbus_connection_remove_filter(pa_dbus_wrap_connection_get(c->session_bus), filter_cb, c); pa_dbus_wrap_connection_free(c->session_bus); } #endif if (c->record_streams) pa_hashmap_free(c->record_streams); if (c->playback_streams) pa_hashmap_free(c->playback_streams); if (c->mempool) pa_mempool_unref(c->mempool); if (c->conf) pa_client_conf_free(c->conf); pa_strlist_free(c->server_list); if (c->proplist) pa_proplist_free(c->proplist); pa_xfree(c->server); pa_xfree(c); } pa_context* pa_context_ref(pa_context *c) { pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); PA_REFCNT_INC(c); return c; } void pa_context_unref(pa_context *c) { pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); if (PA_REFCNT_DEC(c) <= 0) context_free(c); } void pa_context_set_state(pa_context *c, pa_context_state_t st) { pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); if (c->state == st) return; pa_context_ref(c); c->state = st; if (c->state_callback) c->state_callback(c, c->state_userdata); if (st == PA_CONTEXT_FAILED || st == PA_CONTEXT_TERMINATED) context_unlink(c); pa_context_unref(c); } int pa_context_set_error(pa_context *c, int error) { pa_assert(error >= 0); pa_assert(error < PA_ERR_MAX); if (c) c->error = error; return error; } void pa_context_fail(pa_context *c, int error) { pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); pa_context_set_error(c, error); pa_context_set_state(c, PA_CONTEXT_FAILED); } static void pstream_die_callback(pa_pstream *p, void *userdata) { pa_context *c = userdata; pa_assert(p); pa_assert(c); pa_context_fail(c, PA_ERR_CONNECTIONTERMINATED); } static void pstream_packet_callback(pa_pstream *p, pa_packet *packet, pa_cmsg_ancil_data *ancil_data, void *userdata) { pa_context *c = userdata; pa_assert(p); pa_assert(packet); pa_assert(c); pa_context_ref(c); if (pa_pdispatch_run(c->pdispatch, packet, ancil_data, c) < 0) pa_context_fail(c, PA_ERR_PROTOCOL); pa_context_unref(c); } static void handle_srbchannel_memblock(pa_context *c, pa_memblock *memblock) { pa_srbchannel *sr; pa_tagstruct *t; pa_assert(c); /* Memblock sanity check */ if (!memblock) { pa_context_fail(c, PA_ERR_PROTOCOL); return; } else if (pa_memblock_is_read_only(memblock)) { pa_context_fail(c, PA_ERR_PROTOCOL); return; } else if (pa_memblock_is_ours(memblock)) { pa_context_fail(c, PA_ERR_PROTOCOL); return; } /* Create the srbchannel */ c->srb_template.memblock = memblock; pa_memblock_ref(memblock); sr = pa_srbchannel_new_from_template(c->mainloop, &c->srb_template); if (!sr) { pa_log_warn("Failed to create srbchannel from template"); c->srb_template.readfd = -1; c->srb_template.writefd = -1; pa_memblock_unref(c->srb_template.memblock); c->srb_template.memblock = NULL; return; } /* Ack the enable command */ t = pa_tagstruct_new(); pa_tagstruct_putu32(t, PA_COMMAND_ENABLE_SRBCHANNEL); pa_tagstruct_putu32(t, c->srb_setup_tag); pa_pstream_send_tagstruct(c->pstream, t); /* ...and switch over */ pa_pstream_set_srbchannel(c->pstream, sr); } static void pstream_memblock_callback(pa_pstream *p, uint32_t channel, int64_t offset, pa_seek_mode_t seek, const pa_memchunk *chunk, void *userdata) { pa_context *c = userdata; pa_stream *s; pa_assert(p); pa_assert(chunk); pa_assert(chunk->length > 0); pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); pa_context_ref(c); if (c->srb_template.readfd != -1 && c->srb_template.memblock == NULL) { handle_srbchannel_memblock(c, chunk->memblock); pa_context_unref(c); return; } if ((s = pa_hashmap_get(c->record_streams, PA_UINT32_TO_PTR(channel)))) { if (chunk->memblock) { pa_memblockq_seek(s->record_memblockq, offset, seek, true); pa_memblockq_push_align(s->record_memblockq, chunk); } else pa_memblockq_seek(s->record_memblockq, offset+chunk->length, seek, true); if (s->read_callback) { size_t l; if ((l = pa_memblockq_get_length(s->record_memblockq)) > 0) s->read_callback(s, l, s->read_userdata); } } pa_context_unref(c); } int pa_context_handle_error(pa_context *c, uint32_t command, pa_tagstruct *t, bool fail) { uint32_t err; pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); if (command == PA_COMMAND_ERROR) { pa_assert(t); if (pa_tagstruct_getu32(t, &err) < 0 || !pa_tagstruct_eof(t)) { pa_context_fail(c, PA_ERR_PROTOCOL); return -1; } } else if (command == PA_COMMAND_TIMEOUT) err = PA_ERR_TIMEOUT; else { pa_context_fail(c, PA_ERR_PROTOCOL); return -1; } if (err == PA_OK) { pa_context_fail(c, PA_ERR_PROTOCOL); return -1; } if (err >= PA_ERR_MAX) err = PA_ERR_UNKNOWN; if (fail) { pa_context_fail(c, (int) err); return -1; } pa_context_set_error(c, (int) err); return 0; } static void setup_complete_callback(pa_pdispatch *pd, uint32_t command, uint32_t tag, pa_tagstruct *t, void *userdata) { pa_context *c = userdata; pa_assert(pd); pa_assert(c); pa_assert(c->state == PA_CONTEXT_AUTHORIZING || c->state == PA_CONTEXT_SETTING_NAME); pa_context_ref(c); if (command != PA_COMMAND_REPLY) { pa_context_handle_error(c, command, t, true); goto finish; } switch(c->state) { case PA_CONTEXT_AUTHORIZING: { pa_tagstruct *reply; bool shm_on_remote = false; bool memfd_on_remote = false; if (pa_tagstruct_getu32(t, &c->version) < 0 || !pa_tagstruct_eof(t)) { pa_context_fail(c, PA_ERR_PROTOCOL); goto finish; } /* Minimum supported version */ if (c->version < 8) { pa_context_fail(c, PA_ERR_VERSION); goto finish; } /* Starting with protocol version 13 the MSB of the version tag reflects if shm is available for this connection or not. */ if (c->version >= 13) { shm_on_remote = !!(c->version & 0x80000000U); /* Starting with protocol version 31, the second MSB of the version * tag reflects whether memfd is supported on the other PA end. */ if (c->version >= 31) memfd_on_remote = !!(c->version & 0x40000000U); /* Reserve the two most-significant _bytes_ of the version tag * for flags. */ c->version &= 0x0000FFFFU; } pa_log_debug("Protocol version: remote %u, local %u", c->version, PA_PROTOCOL_VERSION); /* Enable shared memory support if possible */ if (c->do_shm) if (c->version < 10 || (c->version >= 13 && !shm_on_remote)) c->do_shm = false; if (c->do_shm) { /* Only enable SHM if both sides are owned by the same * user. This is a security measure because otherwise * data private to the user might leak. */ #ifdef HAVE_CREDS const pa_creds *creds; if (!(creds = pa_pdispatch_creds(pd)) || getuid() != creds->uid) c->do_shm = false; #endif } pa_log_debug("Negotiated SHM: %s", pa_yes_no(c->do_shm)); pa_pstream_enable_shm(c->pstream, c->do_shm); c->shm_type = PA_MEM_TYPE_PRIVATE; if (c->do_shm) { if (c->version >= 31 && memfd_on_remote && c->memfd_on_local) { const char *reason; pa_pstream_enable_memfd(c->pstream); if (pa_mempool_is_memfd_backed(c->mempool)) if (pa_pstream_register_memfd_mempool(c->pstream, c->mempool, &reason)) pa_log("Failed to regester memfd mempool. Reason: %s", reason); /* Even if memfd pool registration fails, the negotiated SHM type * shall remain memfd as both endpoints claim to support it. */ c->shm_type = PA_MEM_TYPE_SHARED_MEMFD; } else c->shm_type = PA_MEM_TYPE_SHARED_POSIX; } pa_log_debug("Memfd possible: %s", pa_yes_no(c->memfd_on_local)); pa_log_debug("Negotiated SHM type: %s", pa_mem_type_to_string(c->shm_type)); reply = pa_tagstruct_command(c, PA_COMMAND_SET_CLIENT_NAME, &tag); if (c->version >= 13) { pa_init_proplist(c->proplist); pa_tagstruct_put_proplist(reply, c->proplist); } else pa_tagstruct_puts(reply, pa_proplist_gets(c->proplist, PA_PROP_APPLICATION_NAME)); pa_pstream_send_tagstruct(c->pstream, reply); pa_pdispatch_register_reply(c->pdispatch, tag, DEFAULT_TIMEOUT, setup_complete_callback, c, NULL); pa_context_set_state(c, PA_CONTEXT_SETTING_NAME); break; } case PA_CONTEXT_SETTING_NAME : if ((c->version >= 13 && (pa_tagstruct_getu32(t, &c->client_index) < 0 || c->client_index == PA_INVALID_INDEX)) || !pa_tagstruct_eof(t)) { pa_context_fail(c, PA_ERR_PROTOCOL); goto finish; } pa_context_set_state(c, PA_CONTEXT_READY); break; default: pa_assert_not_reached(); } finish: pa_context_unref(c); } static void setup_context(pa_context *c, pa_iochannel *io) { uint8_t cookie[PA_NATIVE_COOKIE_LENGTH]; pa_tagstruct *t; uint32_t tag; pa_assert(c); pa_assert(io); pa_context_ref(c); pa_assert(!c->pstream); c->pstream = pa_pstream_new(c->mainloop, io, c->mempool); pa_pstream_set_die_callback(c->pstream, pstream_die_callback, c); pa_pstream_set_receive_packet_callback(c->pstream, pstream_packet_callback, c); pa_pstream_set_receive_memblock_callback(c->pstream, pstream_memblock_callback, c); pa_assert(!c->pdispatch); c->pdispatch = pa_pdispatch_new(c->mainloop, c->use_rtclock, command_table, PA_COMMAND_MAX); if (pa_client_conf_load_cookie(c->conf, cookie, sizeof(cookie)) < 0) pa_log_info("No cookie loaded. Attempting to connect without."); t = pa_tagstruct_command(c, PA_COMMAND_AUTH, &tag); c->do_shm = pa_mempool_is_shared(c->mempool) && c->is_local; pa_log_debug("SHM possible: %s", pa_yes_no(c->do_shm)); /* Starting with protocol version 13 we use the MSB of the version * tag for informing the other side if we could do SHM or not. * Starting from version 31, second MSB is used to flag memfd support. */ pa_tagstruct_putu32(t, PA_PROTOCOL_VERSION | (c->do_shm ? 0x80000000U : 0) | (c->memfd_on_local ? 0x40000000 : 0)); pa_tagstruct_put_arbitrary(t, cookie, sizeof(cookie)); #ifdef HAVE_CREDS { pa_creds ucred; if (pa_iochannel_creds_supported(io)) pa_iochannel_creds_enable(io); ucred.uid = getuid(); ucred.gid = getgid(); pa_pstream_send_tagstruct_with_creds(c->pstream, t, &ucred); } #else pa_pstream_send_tagstruct(c->pstream, t); #endif pa_pdispatch_register_reply(c->pdispatch, tag, DEFAULT_TIMEOUT, setup_complete_callback, c, NULL); pa_context_set_state(c, PA_CONTEXT_AUTHORIZING); pa_context_unref(c); } static pa_strlist *prepend_per_user(pa_strlist *l) { char *ufn; /* The per-user instance */ if ((ufn = pa_runtime_path(PA_NATIVE_DEFAULT_UNIX_SOCKET))) { l = pa_strlist_prepend(l, ufn); pa_xfree(ufn); } return l; } #ifndef OS_IS_WIN32 static int context_autospawn(pa_context *c) { pid_t pid; int status, r; struct sigaction sa; pa_context_ref(c); if (sigaction(SIGCHLD, NULL, &sa) < 0) { pa_log_debug("sigaction() failed: %s", pa_cstrerror(errno)); pa_context_fail(c, PA_ERR_INTERNAL); goto fail; } #ifdef SA_NOCLDWAIT if ((sa.sa_flags & SA_NOCLDWAIT) || sa.sa_handler == SIG_IGN) { #else if (sa.sa_handler == SIG_IGN) { #endif pa_log_debug("Process disabled waitpid(), cannot autospawn."); pa_context_fail(c, PA_ERR_CONNECTIONREFUSED); goto fail; } pa_log_debug("Trying to autospawn..."); if (c->spawn_api.prefork) c->spawn_api.prefork(); if ((pid = fork()) < 0) { pa_log_error(_("fork(): %s"), pa_cstrerror(errno)); pa_context_fail(c, PA_ERR_INTERNAL); if (c->spawn_api.postfork) c->spawn_api.postfork(); goto fail; } else if (!pid) { /* Child */ const char *state = NULL; const char * argv[32]; unsigned n = 0; if (c->spawn_api.atfork) c->spawn_api.atfork(); /* We leave most of the cleaning up of the process environment * to the executable. We only clean up the file descriptors to * make sure the executable can actually be loaded * correctly. */ pa_close_all(-1); /* Setup argv */ argv[n++] = c->conf->daemon_binary; argv[n++] = "--start"; while (n < PA_ELEMENTSOF(argv)-1) { char *a; if (!(a = pa_split_spaces(c->conf->extra_arguments, &state))) break; argv[n++] = a; } argv[n++] = NULL; pa_assert(n <= PA_ELEMENTSOF(argv)); execv(argv[0], (char * const *) argv); _exit(1); } /* Parent */ if (c->spawn_api.postfork) c->spawn_api.postfork(); do { r = waitpid(pid, &status, 0); } while (r < 0 && errno == EINTR); if (r < 0) { if (errno != ESRCH) { pa_log(_("waitpid(): %s"), pa_cstrerror(errno)); pa_context_fail(c, PA_ERR_INTERNAL); goto fail; } /* hmm, something already reaped our child, so we assume * startup worked, even if we cannot know */ } else if (!WIFEXITED(status) || WEXITSTATUS(status) != 0) { pa_context_fail(c, PA_ERR_CONNECTIONREFUSED); goto fail; } pa_context_unref(c); return 0; fail: pa_context_unref(c); return -1; } #endif /* OS_IS_WIN32 */ static void on_connection(pa_socket_client *client, pa_iochannel*io, void *userdata); #ifdef HAVE_DBUS static void track_pulseaudio_on_dbus(pa_context *c, DBusBusType type, pa_dbus_wrap_connection **conn) { DBusError error; pa_assert(c); pa_assert(conn); dbus_error_init(&error); if (!(*conn = pa_dbus_wrap_connection_new(c->mainloop, c->use_rtclock, type, &error)) || dbus_error_is_set(&error)) { pa_log_warn("Unable to contact DBUS: %s: %s", error.name, error.message); goto fail; } if (!dbus_connection_add_filter(pa_dbus_wrap_connection_get(*conn), filter_cb, c, NULL)) { pa_log_warn("Failed to add filter function"); goto fail; } c->filter_added = true; if (pa_dbus_add_matches( pa_dbus_wrap_connection_get(*conn), &error, "type='signal',sender='" DBUS_SERVICE_DBUS "',interface='" DBUS_INTERFACE_DBUS "',member='NameOwnerChanged',arg0='org.pulseaudio.Server',arg1=''", NULL) < 0) { pa_log_warn("Unable to track org.pulseaudio.Server: %s: %s", error.name, error.message); goto fail; } return; fail: if (*conn) { pa_dbus_wrap_connection_free(*conn); *conn = NULL; } dbus_error_free(&error); } #endif static int try_next_connection(pa_context *c) { char *u = NULL; int r = -1; pa_assert(c); pa_assert(!c->client); for (;;) { pa_xfree(u); u = NULL; c->server_list = pa_strlist_pop(c->server_list, &u); if (!u) { #ifndef OS_IS_WIN32 if (c->do_autospawn) { if ((r = context_autospawn(c)) < 0) goto finish; /* Autospawn only once */ c->do_autospawn = false; /* Connect only to per-user sockets this time */ c->server_list = prepend_per_user(c->server_list); /* Retry connection */ continue; } #endif #ifdef HAVE_DBUS if (c->no_fail && !c->server_specified) { if (!c->session_bus) track_pulseaudio_on_dbus(c, DBUS_BUS_SESSION, &c->session_bus); if (!c->system_bus) track_pulseaudio_on_dbus(c, DBUS_BUS_SYSTEM, &c->system_bus); if (c->session_bus || c->system_bus) { pa_log_debug("Waiting for PA on D-Bus..."); break; } } else #endif pa_context_fail(c, PA_ERR_CONNECTIONREFUSED); goto finish; } pa_log_debug("Trying to connect to %s...", u); pa_xfree(c->server); c->server = pa_xstrdup(u); if (!(c->client = pa_socket_client_new_string(c->mainloop, c->use_rtclock, u, PA_NATIVE_DEFAULT_PORT))) continue; c->is_local = pa_socket_client_is_local(c->client); pa_socket_client_set_callback(c->client, on_connection, c); break; } r = 0; finish: pa_xfree(u); return r; } static void on_connection(pa_socket_client *client, pa_iochannel*io, void *userdata) { pa_context *c = userdata; int saved_errno = errno; pa_assert(client); pa_assert(c); pa_assert(c->state == PA_CONTEXT_CONNECTING); pa_context_ref(c); pa_socket_client_unref(client); c->client = NULL; if (!io) { /* Try the next item in the list */ if (saved_errno == ECONNREFUSED || saved_errno == ETIMEDOUT || saved_errno == EHOSTUNREACH) { try_next_connection(c); goto finish; } pa_context_fail(c, PA_ERR_CONNECTIONREFUSED); goto finish; } setup_context(c, io); finish: pa_context_unref(c); } #ifdef HAVE_DBUS static DBusHandlerResult filter_cb(DBusConnection *bus, DBusMessage *message, void *userdata) { pa_context *c = userdata; bool is_session; pa_assert(bus); pa_assert(message); pa_assert(c); if (c->state != PA_CONTEXT_CONNECTING) goto finish; if (!c->no_fail) goto finish; /* FIXME: We probably should check if this is actually the NameOwnerChanged we were looking for */ is_session = c->session_bus && bus == pa_dbus_wrap_connection_get(c->session_bus); pa_log_debug("Rock!! PulseAudio might be back on %s bus", is_session ? "session" : "system"); if (is_session) /* The user instance via PF_LOCAL */ c->server_list = prepend_per_user(c->server_list); else /* The system wide instance via PF_LOCAL */ c->server_list = pa_strlist_prepend(c->server_list, PA_SYSTEM_RUNTIME_PATH PA_PATH_SEP PA_NATIVE_DEFAULT_UNIX_SOCKET); if (!c->client) try_next_connection(c); finish: return DBUS_HANDLER_RESULT_NOT_YET_HANDLED; } #endif int pa_context_connect( pa_context *c, const char *server, pa_context_flags_t flags, const pa_spawn_api *api) { int r = -1; pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); PA_CHECK_VALIDITY(c, !pa_detect_fork(), PA_ERR_FORKED); PA_CHECK_VALIDITY(c, c->state == PA_CONTEXT_UNCONNECTED, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(c, !(flags & ~(PA_CONTEXT_NOAUTOSPAWN|PA_CONTEXT_NOFAIL)), PA_ERR_INVALID); PA_CHECK_VALIDITY(c, !server || *server, PA_ERR_INVALID); if (server) c->conf->autospawn = false; else server = c->conf->default_server; pa_context_ref(c); c->no_fail = !!(flags & PA_CONTEXT_NOFAIL); c->server_specified = !!server; pa_assert(!c->server_list); if (server) { if (!(c->server_list = pa_strlist_parse(server))) { pa_context_fail(c, PA_ERR_INVALIDSERVER); goto finish; } } else { char *d; /* Prepend in reverse order */ /* Follow the X display */ if (c->conf->auto_connect_display) { if ((d = getenv("DISPLAY"))) { d = pa_xstrndup(d, strcspn(d, ":")); if (*d) c->server_list = pa_strlist_prepend(c->server_list, d); pa_xfree(d); } } /* Add TCP/IP on the localhost */ if (c->conf->auto_connect_localhost) { c->server_list = pa_strlist_prepend(c->server_list, "tcp6:[::1]"); c->server_list = pa_strlist_prepend(c->server_list, "tcp4:127.0.0.1"); } /* The system wide instance via PF_LOCAL */ c->server_list = pa_strlist_prepend(c->server_list, PA_SYSTEM_RUNTIME_PATH PA_PATH_SEP PA_NATIVE_DEFAULT_UNIX_SOCKET); /* The user instance via PF_LOCAL */ c->server_list = prepend_per_user(c->server_list); } /* Set up autospawning */ if (!(flags & PA_CONTEXT_NOAUTOSPAWN) && c->conf->autospawn) { #ifdef HAVE_GETUID if (getuid() == 0) pa_log_debug("Not doing autospawn since we are root."); else { c->do_autospawn = true; if (api) c->spawn_api = *api; } #endif } pa_context_set_state(c, PA_CONTEXT_CONNECTING); r = try_next_connection(c); finish: pa_context_unref(c); return r; } void pa_context_disconnect(pa_context *c) { pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); if (pa_detect_fork()) return; if (PA_CONTEXT_IS_GOOD(c->state)) pa_context_set_state(c, PA_CONTEXT_TERMINATED); } pa_context_state_t pa_context_get_state(pa_context *c) { pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); return c->state; } int pa_context_errno(pa_context *c) { if (!c) return PA_ERR_INVALID; pa_assert(PA_REFCNT_VALUE(c) >= 1); return c->error; } void pa_context_set_state_callback(pa_context *c, pa_context_notify_cb_t cb, void *userdata) { pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); if (pa_detect_fork()) return; if (c->state == PA_CONTEXT_TERMINATED || c->state == PA_CONTEXT_FAILED) return; c->state_callback = cb; c->state_userdata = userdata; } void pa_context_set_event_callback(pa_context *c, pa_context_event_cb_t cb, void *userdata) { pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); if (pa_detect_fork()) return; if (c->state == PA_CONTEXT_TERMINATED || c->state == PA_CONTEXT_FAILED) return; c->event_callback = cb; c->event_userdata = userdata; } int pa_context_is_pending(pa_context *c) { pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); PA_CHECK_VALIDITY(c, !pa_detect_fork(), PA_ERR_FORKED); PA_CHECK_VALIDITY(c, PA_CONTEXT_IS_GOOD(c->state), PA_ERR_BADSTATE); return (c->pstream && pa_pstream_is_pending(c->pstream)) || (c->pdispatch && pa_pdispatch_is_pending(c->pdispatch)) || c->client; } static void set_dispatch_callbacks(pa_operation *o); static void pdispatch_drain_callback(pa_pdispatch*pd, void *userdata) { set_dispatch_callbacks(userdata); } static void pstream_drain_callback(pa_pstream *s, void *userdata) { set_dispatch_callbacks(userdata); } static void set_dispatch_callbacks(pa_operation *o) { int done = 1; pa_assert(o); pa_assert(PA_REFCNT_VALUE(o) >= 1); pa_assert(o->context); pa_assert(PA_REFCNT_VALUE(o->context) >= 1); pa_assert(o->context->state == PA_CONTEXT_READY); pa_pstream_set_drain_callback(o->context->pstream, NULL, NULL); pa_pdispatch_set_drain_callback(o->context->pdispatch, NULL, NULL); if (pa_pdispatch_is_pending(o->context->pdispatch)) { pa_pdispatch_set_drain_callback(o->context->pdispatch, pdispatch_drain_callback, o); done = 0; } if (pa_pstream_is_pending(o->context->pstream)) { pa_pstream_set_drain_callback(o->context->pstream, pstream_drain_callback, o); done = 0; } if (done) { if (o->callback) { pa_context_notify_cb_t cb = (pa_context_notify_cb_t) o->callback; cb(o->context, o->userdata); } pa_operation_done(o); pa_operation_unref(o); } } pa_operation* pa_context_drain(pa_context *c, pa_context_notify_cb_t cb, void *userdata) { pa_operation *o; pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); PA_CHECK_VALIDITY_RETURN_NULL(c, !pa_detect_fork(), PA_ERR_FORKED); PA_CHECK_VALIDITY_RETURN_NULL(c, c->state == PA_CONTEXT_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(c, pa_context_is_pending(c), PA_ERR_BADSTATE); o = pa_operation_new(c, NULL, (pa_operation_cb_t) cb, userdata); set_dispatch_callbacks(pa_operation_ref(o)); return o; } void pa_context_simple_ack_callback(pa_pdispatch *pd, uint32_t command, uint32_t tag, pa_tagstruct *t, void *userdata) { pa_operation *o = userdata; int success = 1; pa_assert(pd); pa_assert(o); pa_assert(PA_REFCNT_VALUE(o) >= 1); if (!o->context) goto finish; if (command != PA_COMMAND_REPLY) { if (pa_context_handle_error(o->context, command, t, false) < 0) goto finish; success = 0; } else if (!pa_tagstruct_eof(t)) { pa_context_fail(o->context, PA_ERR_PROTOCOL); goto finish; } if (o->callback) { pa_context_success_cb_t cb = (pa_context_success_cb_t) o->callback; cb(o->context, success, o->userdata); } finish: pa_operation_done(o); pa_operation_unref(o); } pa_operation* pa_context_send_simple_command(pa_context *c, uint32_t command, pa_pdispatch_cb_t internal_cb, pa_operation_cb_t cb, void *userdata) { pa_tagstruct *t; pa_operation *o; uint32_t tag; pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); PA_CHECK_VALIDITY_RETURN_NULL(c, !pa_detect_fork(), PA_ERR_FORKED); PA_CHECK_VALIDITY_RETURN_NULL(c, c->state == PA_CONTEXT_READY, PA_ERR_BADSTATE); o = pa_operation_new(c, NULL, cb, userdata); t = pa_tagstruct_command(c, command, &tag); pa_pstream_send_tagstruct(c->pstream, t); pa_pdispatch_register_reply(c->pdispatch, tag, DEFAULT_TIMEOUT, internal_cb, pa_operation_ref(o), (pa_free_cb_t) pa_operation_unref); return o; } pa_operation* pa_context_exit_daemon(pa_context *c, pa_context_success_cb_t cb, void *userdata) { pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); return pa_context_send_simple_command(c, PA_COMMAND_EXIT, pa_context_simple_ack_callback, (pa_operation_cb_t) cb, userdata); } pa_operation* pa_context_set_default_sink(pa_context *c, const char *name, pa_context_success_cb_t cb, void *userdata) { pa_tagstruct *t; pa_operation *o; uint32_t tag; pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); PA_CHECK_VALIDITY_RETURN_NULL(c, !pa_detect_fork(), PA_ERR_FORKED); PA_CHECK_VALIDITY_RETURN_NULL(c, c->state == PA_CONTEXT_READY, PA_ERR_BADSTATE); o = pa_operation_new(c, NULL, (pa_operation_cb_t) cb, userdata); t = pa_tagstruct_command(c, PA_COMMAND_SET_DEFAULT_SINK, &tag); pa_tagstruct_puts(t, name); pa_pstream_send_tagstruct(c->pstream, t); pa_pdispatch_register_reply(c->pdispatch, tag, DEFAULT_TIMEOUT, pa_context_simple_ack_callback, pa_operation_ref(o), (pa_free_cb_t) pa_operation_unref); return o; } pa_operation* pa_context_set_default_source(pa_context *c, const char *name, pa_context_success_cb_t cb, void *userdata) { pa_tagstruct *t; pa_operation *o; uint32_t tag; pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); PA_CHECK_VALIDITY_RETURN_NULL(c, !pa_detect_fork(), PA_ERR_FORKED); PA_CHECK_VALIDITY_RETURN_NULL(c, c->state == PA_CONTEXT_READY, PA_ERR_BADSTATE); o = pa_operation_new(c, NULL, (pa_operation_cb_t) cb, userdata); t = pa_tagstruct_command(c, PA_COMMAND_SET_DEFAULT_SOURCE, &tag); pa_tagstruct_puts(t, name); pa_pstream_send_tagstruct(c->pstream, t); pa_pdispatch_register_reply(c->pdispatch, tag, DEFAULT_TIMEOUT, pa_context_simple_ack_callback, pa_operation_ref(o), (pa_free_cb_t) pa_operation_unref); return o; } int pa_context_is_local(pa_context *c) { pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); PA_CHECK_VALIDITY_RETURN_ANY(c, !pa_detect_fork(), PA_ERR_FORKED, -1); PA_CHECK_VALIDITY_RETURN_ANY(c, PA_CONTEXT_IS_GOOD(c->state), PA_ERR_BADSTATE, -1); return c->is_local; } pa_operation* pa_context_set_name(pa_context *c, const char *name, pa_context_success_cb_t cb, void *userdata) { pa_operation *o; pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); pa_assert(name); PA_CHECK_VALIDITY_RETURN_NULL(c, !pa_detect_fork(), PA_ERR_FORKED); PA_CHECK_VALIDITY_RETURN_NULL(c, c->state == PA_CONTEXT_READY, PA_ERR_BADSTATE); if (c->version >= 13) { pa_proplist *p = pa_proplist_new(); pa_proplist_sets(p, PA_PROP_APPLICATION_NAME, name); o = pa_context_proplist_update(c, PA_UPDATE_REPLACE, p, cb, userdata); pa_proplist_free(p); } else { pa_tagstruct *t; uint32_t tag; o = pa_operation_new(c, NULL, (pa_operation_cb_t) cb, userdata); t = pa_tagstruct_command(c, PA_COMMAND_SET_CLIENT_NAME, &tag); pa_tagstruct_puts(t, name); pa_pstream_send_tagstruct(c->pstream, t); pa_pdispatch_register_reply(c->pdispatch, tag, DEFAULT_TIMEOUT, pa_context_simple_ack_callback, pa_operation_ref(o), (pa_free_cb_t) pa_operation_unref); } return o; } const char* pa_get_library_version(void) { return pa_get_headers_version(); } const char* pa_context_get_server(pa_context *c) { pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); PA_CHECK_VALIDITY_RETURN_NULL(c, !pa_detect_fork(), PA_ERR_FORKED); PA_CHECK_VALIDITY_RETURN_NULL(c, c->server, PA_ERR_NOENTITY); if (*c->server == '{') { char *e = strchr(c->server+1, '}'); return e ? e+1 : c->server; } return c->server; } uint32_t pa_context_get_protocol_version(pa_context *c) { return PA_PROTOCOL_VERSION; } uint32_t pa_context_get_server_protocol_version(pa_context *c) { pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); PA_CHECK_VALIDITY_RETURN_ANY(c, !pa_detect_fork(), PA_ERR_FORKED, PA_INVALID_INDEX); PA_CHECK_VALIDITY_RETURN_ANY(c, PA_CONTEXT_IS_GOOD(c->state), PA_ERR_BADSTATE, PA_INVALID_INDEX); return c->version; } pa_tagstruct *pa_tagstruct_command(pa_context *c, uint32_t command, uint32_t *tag) { pa_tagstruct *t; pa_assert(c); pa_assert(tag); t = pa_tagstruct_new(); pa_tagstruct_putu32(t, command); pa_tagstruct_putu32(t, *tag = c->ctag++); return t; } uint32_t pa_context_get_index(pa_context *c) { pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); PA_CHECK_VALIDITY_RETURN_ANY(c, !pa_detect_fork(), PA_ERR_FORKED, PA_INVALID_INDEX); PA_CHECK_VALIDITY_RETURN_ANY(c, c->state == PA_CONTEXT_READY, PA_ERR_BADSTATE, PA_INVALID_INDEX); PA_CHECK_VALIDITY_RETURN_ANY(c, c->version >= 13, PA_ERR_NOTSUPPORTED, PA_INVALID_INDEX); return c->client_index; } pa_operation *pa_context_proplist_update(pa_context *c, pa_update_mode_t mode, pa_proplist *p, pa_context_success_cb_t cb, void *userdata) { pa_operation *o; pa_tagstruct *t; uint32_t tag; pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); PA_CHECK_VALIDITY_RETURN_NULL(c, !pa_detect_fork(), PA_ERR_FORKED); PA_CHECK_VALIDITY_RETURN_NULL(c, mode == PA_UPDATE_SET || mode == PA_UPDATE_MERGE || mode == PA_UPDATE_REPLACE, PA_ERR_INVALID); PA_CHECK_VALIDITY_RETURN_NULL(c, c->state == PA_CONTEXT_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(c, c->version >= 13, PA_ERR_NOTSUPPORTED); o = pa_operation_new(c, NULL, (pa_operation_cb_t) cb, userdata); t = pa_tagstruct_command(c, PA_COMMAND_UPDATE_CLIENT_PROPLIST, &tag); pa_tagstruct_putu32(t, (uint32_t) mode); pa_tagstruct_put_proplist(t, p); pa_pstream_send_tagstruct(c->pstream, t); pa_pdispatch_register_reply(c->pdispatch, tag, DEFAULT_TIMEOUT, pa_context_simple_ack_callback, pa_operation_ref(o), (pa_free_cb_t) pa_operation_unref); /* Please note that we don't update c->proplist here, because we * don't export that field */ return o; } pa_operation *pa_context_proplist_remove(pa_context *c, const char *const keys[], pa_context_success_cb_t cb, void *userdata) { pa_operation *o; pa_tagstruct *t; uint32_t tag; const char * const *k; pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); PA_CHECK_VALIDITY_RETURN_NULL(c, !pa_detect_fork(), PA_ERR_FORKED); PA_CHECK_VALIDITY_RETURN_NULL(c, keys && keys[0], PA_ERR_INVALID); PA_CHECK_VALIDITY_RETURN_NULL(c, c->state == PA_CONTEXT_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(c, c->version >= 13, PA_ERR_NOTSUPPORTED); o = pa_operation_new(c, NULL, (pa_operation_cb_t) cb, userdata); t = pa_tagstruct_command(c, PA_COMMAND_REMOVE_CLIENT_PROPLIST, &tag); for (k = keys; *k; k++) pa_tagstruct_puts(t, *k); pa_tagstruct_puts(t, NULL); pa_pstream_send_tagstruct(c->pstream, t); pa_pdispatch_register_reply(c->pdispatch, tag, DEFAULT_TIMEOUT, pa_context_simple_ack_callback, pa_operation_ref(o), (pa_free_cb_t) pa_operation_unref); /* Please note that we don't update c->proplist here, because we * don't export that field */ return o; } void pa_command_extension(pa_pdispatch *pd, uint32_t command, uint32_t tag, pa_tagstruct *t, void *userdata) { pa_context *c = userdata; uint32_t idx; const char *name; pa_assert(pd); pa_assert(command == PA_COMMAND_EXTENSION); pa_assert(t); pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); pa_context_ref(c); if (c->version < 15) { pa_context_fail(c, PA_ERR_PROTOCOL); goto finish; } if (pa_tagstruct_getu32(t, &idx) < 0 || pa_tagstruct_gets(t, &name) < 0) { pa_context_fail(c, PA_ERR_PROTOCOL); goto finish; } if (pa_streq(name, "module-device-manager")) pa_ext_device_manager_command(c, tag, t); else if (pa_streq(name, "module-device-restore")) pa_ext_device_restore_command(c, tag, t); else if (pa_streq(name, "module-stream-restore")) pa_ext_stream_restore_command(c, tag, t); else pa_log(_("Received message for unknown extension '%s'"), name); finish: pa_context_unref(c); } static void pa_command_enable_srbchannel(pa_pdispatch *pd, uint32_t command, uint32_t tag, pa_tagstruct *t, void *userdata) { pa_context *c = userdata; #ifdef HAVE_CREDS pa_cmsg_ancil_data *ancil = NULL; pa_assert(pd); pa_assert(command == PA_COMMAND_ENABLE_SRBCHANNEL); pa_assert(t); pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); ancil = pa_pdispatch_take_ancil_data(pd); if (!ancil) goto fail; /* Currently only one srb channel is supported, might change in future versions */ if (c->srb_template.readfd != -1) goto fail; if (ancil->nfd != 2 || ancil->fds[0] == -1 || ancil->fds[1] == -1) goto fail; pa_context_ref(c); c->srb_template.readfd = ancil->fds[0]; c->srb_template.writefd = ancil->fds[1]; c->srb_setup_tag = tag; pa_context_unref(c); ancil->close_fds_on_cleanup = false; return; fail: if (ancil) pa_cmsg_ancil_data_close_fds(ancil); pa_context_fail(c, PA_ERR_PROTOCOL); return; #else pa_assert(c); pa_context_fail(c, PA_ERR_PROTOCOL); #endif } static void pa_command_disable_srbchannel(pa_pdispatch *pd, uint32_t command, uint32_t tag, pa_tagstruct *t, void *userdata) { pa_context *c = userdata; pa_tagstruct *t2; pa_assert(pd); pa_assert(command == PA_COMMAND_DISABLE_SRBCHANNEL); pa_assert(t); pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); pa_pstream_set_srbchannel(c->pstream, NULL); c->srb_template.readfd = -1; c->srb_template.writefd = -1; if (c->srb_template.memblock) { pa_memblock_unref(c->srb_template.memblock); c->srb_template.memblock = NULL; } /* Send disable command back again */ t2 = pa_tagstruct_new(); pa_tagstruct_putu32(t2, PA_COMMAND_DISABLE_SRBCHANNEL); pa_tagstruct_putu32(t2, tag); pa_pstream_send_tagstruct(c->pstream, t2); } static void pa_command_register_memfd_shmid(pa_pdispatch *pd, uint32_t command, uint32_t tag, pa_tagstruct *t, void *userdata) { pa_context *c = userdata; pa_assert(pd); pa_assert(command == PA_COMMAND_REGISTER_MEMFD_SHMID); pa_assert(t); pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); if (pa_common_command_register_memfd_shmid(c->pstream, pd, c->version, command, t)) pa_context_fail(c, PA_ERR_PROTOCOL); } void pa_command_client_event(pa_pdispatch *pd, uint32_t command, uint32_t tag, pa_tagstruct *t, void *userdata) { pa_context *c = userdata; pa_proplist *pl = NULL; const char *event; pa_assert(pd); pa_assert(command == PA_COMMAND_CLIENT_EVENT); pa_assert(t); pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); pa_context_ref(c); if (c->version < 15) { pa_context_fail(c, PA_ERR_PROTOCOL); goto finish; } pl = pa_proplist_new(); if (pa_tagstruct_gets(t, &event) < 0 || pa_tagstruct_get_proplist(t, pl) < 0 || !pa_tagstruct_eof(t) || !event) { pa_context_fail(c, PA_ERR_PROTOCOL); goto finish; } if (c->event_callback) c->event_callback(c, event, pl, c->event_userdata); finish: pa_context_unref(c); if (pl) pa_proplist_free(pl); } pa_time_event* pa_context_rttime_new(pa_context *c, pa_usec_t usec, pa_time_event_cb_t cb, void *userdata) { struct timeval tv; pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); pa_assert(c->mainloop); if (usec == PA_USEC_INVALID) return c->mainloop->time_new(c->mainloop, NULL, cb, userdata); pa_timeval_rtstore(&tv, usec, c->use_rtclock); return c->mainloop->time_new(c->mainloop, &tv, cb, userdata); } void pa_context_rttime_restart(pa_context *c, pa_time_event *e, pa_usec_t usec) { struct timeval tv; pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); pa_assert(c->mainloop); if (usec == PA_USEC_INVALID) c->mainloop->time_restart(e, NULL); else { pa_timeval_rtstore(&tv, usec, c->use_rtclock); c->mainloop->time_restart(e, &tv); } } size_t pa_context_get_tile_size(pa_context *c, const pa_sample_spec *ss) { size_t fs, mbs; pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); PA_CHECK_VALIDITY_RETURN_ANY(c, !pa_detect_fork(), PA_ERR_FORKED, (size_t) -1); PA_CHECK_VALIDITY_RETURN_ANY(c, !ss || pa_sample_spec_valid(ss), PA_ERR_INVALID, (size_t) -1); fs = ss ? pa_frame_size(ss) : 1; mbs = PA_ROUND_DOWN(pa_mempool_block_size_max(c->mempool), fs); return PA_MAX(mbs, fs); } int pa_context_load_cookie_from_file(pa_context *c, const char *cookie_file_path) { pa_assert(c); pa_assert(PA_REFCNT_VALUE(c) >= 1); PA_CHECK_VALIDITY(c, !pa_detect_fork(), PA_ERR_FORKED); PA_CHECK_VALIDITY(c, c->state == PA_CONTEXT_UNCONNECTED, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(c, !cookie_file_path || *cookie_file_path, PA_ERR_INVALID); pa_client_conf_set_cookie_file_from_application(c->conf, cookie_file_path); return 0; }