// Copyright (c) 2011 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // // TODO(satorux): // - Handle "disconnected" signal. #include "dbus/bus.h" #include "base/bind.h" #include "base/logging.h" #include "base/message_loop.h" #include "base/message_loop_proxy.h" #include "base/stl_util.h" #include "base/threading/thread.h" #include "base/threading/thread_restrictions.h" #include "base/time.h" #include "dbus/exported_object.h" #include "dbus/object_proxy.h" #include "dbus/scoped_dbus_error.h" namespace dbus { namespace { // The class is used for watching the file descriptor used for D-Bus // communication. class Watch : public base::MessagePumpLibevent::Watcher { public: Watch(DBusWatch* watch) : raw_watch_(watch) { dbus_watch_set_data(raw_watch_, this, NULL); } ~Watch() { dbus_watch_set_data(raw_watch_, NULL, NULL); } // Returns true if the underlying file descriptor is ready to be watched. bool IsReadyToBeWatched() { return dbus_watch_get_enabled(raw_watch_); } // Starts watching the underlying file descriptor. void StartWatching() { const int file_descriptor = dbus_watch_get_unix_fd(raw_watch_); const int flags = dbus_watch_get_flags(raw_watch_); MessageLoopForIO::Mode mode = MessageLoopForIO::WATCH_READ; if ((flags & DBUS_WATCH_READABLE) && (flags & DBUS_WATCH_WRITABLE)) mode = MessageLoopForIO::WATCH_READ_WRITE; else if (flags & DBUS_WATCH_READABLE) mode = MessageLoopForIO::WATCH_READ; else if (flags & DBUS_WATCH_WRITABLE) mode = MessageLoopForIO::WATCH_WRITE; else NOTREACHED(); const bool persistent = true; // Watch persistently. const bool success = MessageLoopForIO::current()->WatchFileDescriptor( file_descriptor, persistent, mode, &file_descriptor_watcher_, this); CHECK(success) << "Unable to allocate memory"; } // Stops watching the underlying file descriptor. void StopWatching() { file_descriptor_watcher_.StopWatchingFileDescriptor(); } private: // Implement MessagePumpLibevent::Watcher. virtual void OnFileCanReadWithoutBlocking(int file_descriptor) { const bool success = dbus_watch_handle(raw_watch_, DBUS_WATCH_READABLE); CHECK(success) << "Unable to allocate memory"; } // Implement MessagePumpLibevent::Watcher. virtual void OnFileCanWriteWithoutBlocking(int file_descriptor) { const bool success = dbus_watch_handle(raw_watch_, DBUS_WATCH_WRITABLE); CHECK(success) << "Unable to allocate memory"; } DBusWatch* raw_watch_; base::MessagePumpLibevent::FileDescriptorWatcher file_descriptor_watcher_; }; // The class is used for monitoring the timeout used for D-Bus method // calls. // // Unlike Watch, Timeout is a ref counted object, to ensure that |this| of // the object is is alive when HandleTimeout() is called. It's unlikely // but it may be possible that HandleTimeout() is called after // Bus::OnRemoveTimeout(). That's why we don't simply delete the object in // Bus::OnRemoveTimeout(). class Timeout : public base::RefCountedThreadSafe { public: Timeout(DBusTimeout* timeout) : raw_timeout_(timeout), monitoring_is_active_(false), is_completed(false) { dbus_timeout_set_data(raw_timeout_, this, NULL); AddRef(); // Balanced on Complete(). } // Returns true if the timeout is ready to be monitored. bool IsReadyToBeMonitored() { return dbus_timeout_get_enabled(raw_timeout_); } // Starts monitoring the timeout. void StartMonitoring(dbus::Bus* bus) { bus->PostDelayedTaskToDBusThread(FROM_HERE, base::Bind(&Timeout::HandleTimeout, this), GetIntervalInMs()); monitoring_is_active_ = true; } // Stops monitoring the timeout. void StopMonitoring() { // We cannot take back the delayed task we posted in // StartMonitoring(), so we just mark the monitoring is inactive now. monitoring_is_active_ = false; } // Returns the interval in milliseconds. int GetIntervalInMs() { return dbus_timeout_get_interval(raw_timeout_); } // Cleans up the raw_timeout and marks that timeout is completed. // See the class comment above for why we are doing this. void Complete() { dbus_timeout_set_data(raw_timeout_, NULL, NULL); is_completed = true; Release(); } private: friend class base::RefCountedThreadSafe; ~Timeout() { } // Handles the timeout. void HandleTimeout() { // If the timeout is marked completed, we should do nothing. This can // occur if this function is called after Bus::OnRemoveTimeout(). if (is_completed) return; // Skip if monitoring is canceled. if (!monitoring_is_active_) return; const bool success = dbus_timeout_handle(raw_timeout_); CHECK(success) << "Unable to allocate memory"; } DBusTimeout* raw_timeout_; bool monitoring_is_active_; bool is_completed; }; } // namespace Bus::Options::Options() : bus_type(SESSION), connection_type(PRIVATE) { } Bus::Options::~Options() { } Bus::Bus(const Options& options) : bus_type_(options.bus_type), connection_type_(options.connection_type), dbus_thread_message_loop_proxy_(options.dbus_thread_message_loop_proxy), on_shutdown_(false /* manual_reset */, false /* initially_signaled */), connection_(NULL), origin_thread_id_(base::PlatformThread::CurrentId()), async_operations_set_up_(false), shutdown_completed_(false), num_pending_watches_(0), num_pending_timeouts_(0) { // This is safe to call multiple times. dbus_threads_init_default(); // The origin message loop is unnecessary if the client uses synchronous // functions only. if (MessageLoop::current()) origin_message_loop_proxy_ = MessageLoop::current()->message_loop_proxy(); } Bus::~Bus() { DCHECK(!connection_); DCHECK(owned_service_names_.empty()); DCHECK(match_rules_added_.empty()); DCHECK(filter_functions_added_.empty()); DCHECK(registered_object_paths_.empty()); DCHECK_EQ(0, num_pending_watches_); DCHECK_EQ(0, num_pending_timeouts_); } ObjectProxy* Bus::GetObjectProxy(const std::string& service_name, const std::string& object_path) { AssertOnOriginThread(); // Check if we already have the requested object proxy. const std::string key = service_name + object_path; ObjectProxyTable::iterator iter = object_proxy_table_.find(key); if (iter != object_proxy_table_.end()) { return iter->second; } scoped_refptr object_proxy = new ObjectProxy(this, service_name, object_path); object_proxy_table_[key] = object_proxy; return object_proxy.get(); } ExportedObject* Bus::GetExportedObject(const std::string& service_name, const std::string& object_path) { AssertOnOriginThread(); // Check if we already have the requested exported object. const std::string key = service_name + object_path; ExportedObjectTable::iterator iter = exported_object_table_.find(key); if (iter != exported_object_table_.end()) { return iter->second; } scoped_refptr exported_object = new ExportedObject(this, service_name, object_path); exported_object_table_[key] = exported_object; return exported_object.get(); } bool Bus::Connect() { // dbus_bus_get_private() and dbus_bus_get() are blocking calls. AssertOnDBusThread(); // Check if it's already initialized. if (connection_) return true; ScopedDBusError error; const DBusBusType dbus_bus_type = static_cast(bus_type_); if (connection_type_ == PRIVATE) { connection_ = dbus_bus_get_private(dbus_bus_type, error.get()); } else { connection_ = dbus_bus_get(dbus_bus_type, error.get()); } if (!connection_) { LOG(ERROR) << "Failed to connect to the bus: " << (dbus_error_is_set(error.get()) ? error.message() : ""); return false; } // We shouldn't exit on the disconnected signal. dbus_connection_set_exit_on_disconnect(connection_, false); return true; } void Bus::ShutdownAndBlock() { AssertOnDBusThread(); // Unregister the exported objects. for (ExportedObjectTable::iterator iter = exported_object_table_.begin(); iter != exported_object_table_.end(); ++iter) { iter->second->Unregister(); } // Release all service names. for (std::set::iterator iter = owned_service_names_.begin(); iter != owned_service_names_.end();) { // This is a bit tricky but we should increment the iter here as // ReleaseOwnership() may remove |service_name| from the set. const std::string& service_name = *iter++; ReleaseOwnership(service_name); } if (!owned_service_names_.empty()) { LOG(ERROR) << "Failed to release all service names. # of services left: " << owned_service_names_.size(); } // Detach from the remote objects. for (ObjectProxyTable::iterator iter = object_proxy_table_.begin(); iter != object_proxy_table_.end(); ++iter) { iter->second->Detach(); } // Private connection should be closed. if (connection_) { if (connection_type_ == PRIVATE) dbus_connection_close(connection_); // dbus_connection_close() won't unref. dbus_connection_unref(connection_); } connection_ = NULL; shutdown_completed_ = true; } void Bus::ShutdownOnDBusThreadAndBlock() { AssertOnOriginThread(); DCHECK(dbus_thread_message_loop_proxy_.get()); PostTaskToDBusThread(FROM_HERE, base::Bind( &Bus::ShutdownOnDBusThreadAndBlockInternal, this)); // Wait until the shutdown is complete on the D-Bus thread. // The shutdown should not hang, but set timeout just in case. const int kTimeoutSecs = 3; const base::TimeDelta timeout(base::TimeDelta::FromSeconds(kTimeoutSecs)); const bool signaled = on_shutdown_.TimedWait(timeout); LOG_IF(ERROR, !signaled) << "Failed to shutdown the bus"; } bool Bus::RequestOwnership(const std::string& service_name) { DCHECK(connection_); // dbus_bus_request_name() is a blocking call. AssertOnDBusThread(); // Check if we already own the service name. if (owned_service_names_.find(service_name) != owned_service_names_.end()) { return true; } ScopedDBusError error; const int result = dbus_bus_request_name(connection_, service_name.c_str(), DBUS_NAME_FLAG_DO_NOT_QUEUE, error.get()); if (result != DBUS_REQUEST_NAME_REPLY_PRIMARY_OWNER) { LOG(ERROR) << "Failed to get the ownership of " << service_name << ": " << (dbus_error_is_set(error.get()) ? error.message() : ""); return false; } owned_service_names_.insert(service_name); return true; } bool Bus::ReleaseOwnership(const std::string& service_name) { DCHECK(connection_); // dbus_bus_request_name() is a blocking call. AssertOnDBusThread(); // Check if we already own the service name. std::set::iterator found = owned_service_names_.find(service_name); if (found == owned_service_names_.end()) { LOG(ERROR) << service_name << " is not owned by the bus"; return false; } ScopedDBusError error; const int result = dbus_bus_release_name(connection_, service_name.c_str(), error.get()); if (result == DBUS_RELEASE_NAME_REPLY_RELEASED) { owned_service_names_.erase(found); return true; } else { LOG(ERROR) << "Failed to release the ownership of " << service_name << ": " << (error.is_set() ? error.message() : ""); return false; } } bool Bus::SetUpAsyncOperations() { DCHECK(connection_); AssertOnDBusThread(); if (async_operations_set_up_) return true; // Process all the incoming data if any, so that OnDispatchStatus() will // be called when the incoming data is ready. ProcessAllIncomingDataIfAny(); bool success = dbus_connection_set_watch_functions(connection_, &Bus::OnAddWatchThunk, &Bus::OnRemoveWatchThunk, &Bus::OnToggleWatchThunk, this, NULL); CHECK(success) << "Unable to allocate memory"; success = dbus_connection_set_timeout_functions(connection_, &Bus::OnAddTimeoutThunk, &Bus::OnRemoveTimeoutThunk, &Bus::OnToggleTimeoutThunk, this, NULL); CHECK(success) << "Unable to allocate memory"; dbus_connection_set_dispatch_status_function( connection_, &Bus::OnDispatchStatusChangedThunk, this, NULL); async_operations_set_up_ = true; return true; } DBusMessage* Bus::SendWithReplyAndBlock(DBusMessage* request, int timeout_ms, DBusError* error) { DCHECK(connection_); AssertOnDBusThread(); return dbus_connection_send_with_reply_and_block( connection_, request, timeout_ms, error); } void Bus::SendWithReply(DBusMessage* request, DBusPendingCall** pending_call, int timeout_ms) { DCHECK(connection_); AssertOnDBusThread(); const bool success = dbus_connection_send_with_reply( connection_, request, pending_call, timeout_ms); CHECK(success) << "Unable to allocate memory"; } void Bus::Send(DBusMessage* request, uint32* serial) { DCHECK(connection_); AssertOnDBusThread(); const bool success = dbus_connection_send(connection_, request, serial); CHECK(success) << "Unable to allocate memory"; } bool Bus::AddFilterFunction(DBusHandleMessageFunction filter_function, void* user_data) { DCHECK(connection_); AssertOnDBusThread(); std::pair filter_data_pair = std::make_pair(filter_function, user_data); if (filter_functions_added_.find(filter_data_pair) != filter_functions_added_.end()) { VLOG(1) << "Filter function already exists: " << filter_function << " with associated data: " << user_data; return false; } const bool success = dbus_connection_add_filter( connection_, filter_function, user_data, NULL); CHECK(success) << "Unable to allocate memory"; filter_functions_added_.insert(filter_data_pair); return true; } bool Bus::RemoveFilterFunction(DBusHandleMessageFunction filter_function, void* user_data) { DCHECK(connection_); AssertOnDBusThread(); std::pair filter_data_pair = std::make_pair(filter_function, user_data); if (filter_functions_added_.find(filter_data_pair) == filter_functions_added_.end()) { VLOG(1) << "Requested to remove an unknown filter function: " << filter_function << " with associated data: " << user_data; return false; } dbus_connection_remove_filter(connection_, filter_function, user_data); filter_functions_added_.erase(filter_data_pair); return true; } void Bus::AddMatch(const std::string& match_rule, DBusError* error) { DCHECK(connection_); AssertOnDBusThread(); if (match_rules_added_.find(match_rule) != match_rules_added_.end()) { VLOG(1) << "Match rule already exists: " << match_rule; return; } dbus_bus_add_match(connection_, match_rule.c_str(), error); match_rules_added_.insert(match_rule); } void Bus::RemoveMatch(const std::string& match_rule, DBusError* error) { DCHECK(connection_); AssertOnDBusThread(); if (match_rules_added_.find(match_rule) == match_rules_added_.end()) { LOG(ERROR) << "Requested to remove an unknown match rule: " << match_rule; return; } dbus_bus_remove_match(connection_, match_rule.c_str(), error); match_rules_added_.erase(match_rule); } bool Bus::TryRegisterObjectPath(const std::string& object_path, const DBusObjectPathVTable* vtable, void* user_data, DBusError* error) { DCHECK(connection_); AssertOnDBusThread(); if (registered_object_paths_.find(object_path) != registered_object_paths_.end()) { LOG(ERROR) << "Object path already registered: " << object_path; return false; } const bool success = dbus_connection_try_register_object_path( connection_, object_path.c_str(), vtable, user_data, error); if (success) registered_object_paths_.insert(object_path); return success; } void Bus::UnregisterObjectPath(const std::string& object_path) { DCHECK(connection_); AssertOnDBusThread(); if (registered_object_paths_.find(object_path) == registered_object_paths_.end()) { LOG(ERROR) << "Requested to unregister an unknown object path: " << object_path; return; } const bool success = dbus_connection_unregister_object_path( connection_, object_path.c_str()); CHECK(success) << "Unable to allocate memory"; registered_object_paths_.erase(object_path); } void Bus::ShutdownOnDBusThreadAndBlockInternal() { AssertOnDBusThread(); ShutdownAndBlock(); on_shutdown_.Signal(); } void Bus::ProcessAllIncomingDataIfAny() { AssertOnDBusThread(); // As mentioned at the class comment in .h file, connection_ can be NULL. if (!connection_ || !dbus_connection_get_is_connected(connection_)) return; if (dbus_connection_get_dispatch_status(connection_) == DBUS_DISPATCH_DATA_REMAINS) { while (dbus_connection_dispatch(connection_) == DBUS_DISPATCH_DATA_REMAINS); } } void Bus::PostTaskToOriginThread(const tracked_objects::Location& from_here, const base::Closure& task) { DCHECK(origin_message_loop_proxy_.get()); if (!origin_message_loop_proxy_->PostTask(from_here, task)) { LOG(WARNING) << "Failed to post a task to the origin message loop"; } } void Bus::PostTaskToDBusThread(const tracked_objects::Location& from_here, const base::Closure& task) { if (dbus_thread_message_loop_proxy_.get()) { if (!dbus_thread_message_loop_proxy_->PostTask(from_here, task)) { LOG(WARNING) << "Failed to post a task to the D-Bus thread message loop"; } } else { DCHECK(origin_message_loop_proxy_.get()); if (!origin_message_loop_proxy_->PostTask(from_here, task)) { LOG(WARNING) << "Failed to post a task to the origin message loop"; } } } void Bus::PostDelayedTaskToDBusThread( const tracked_objects::Location& from_here, const base::Closure& task, int delay_ms) { if (dbus_thread_message_loop_proxy_.get()) { if (!dbus_thread_message_loop_proxy_->PostDelayedTask( from_here, task, delay_ms)) { LOG(WARNING) << "Failed to post a task to the D-Bus thread message loop"; } } else { DCHECK(origin_message_loop_proxy_.get()); if (!origin_message_loop_proxy_->PostDelayedTask( from_here, task, delay_ms)) { LOG(WARNING) << "Failed to post a task to the origin message loop"; } } } bool Bus::HasDBusThread() { return dbus_thread_message_loop_proxy_.get() != NULL; } void Bus::AssertOnOriginThread() { DCHECK_EQ(origin_thread_id_, base::PlatformThread::CurrentId()); } void Bus::AssertOnDBusThread() { base::ThreadRestrictions::AssertIOAllowed(); if (dbus_thread_message_loop_proxy_.get()) { DCHECK(dbus_thread_message_loop_proxy_->BelongsToCurrentThread()); } else { AssertOnOriginThread(); } } dbus_bool_t Bus::OnAddWatch(DBusWatch* raw_watch) { AssertOnDBusThread(); // watch will be deleted when raw_watch is removed in OnRemoveWatch(). Watch* watch = new Watch(raw_watch); if (watch->IsReadyToBeWatched()) { watch->StartWatching(); } ++num_pending_watches_; return true; } void Bus::OnRemoveWatch(DBusWatch* raw_watch) { AssertOnDBusThread(); Watch* watch = static_cast(dbus_watch_get_data(raw_watch)); delete watch; --num_pending_watches_; } void Bus::OnToggleWatch(DBusWatch* raw_watch) { AssertOnDBusThread(); Watch* watch = static_cast(dbus_watch_get_data(raw_watch)); if (watch->IsReadyToBeWatched()) { watch->StartWatching(); } else { // It's safe to call this if StartWatching() wasn't called, per // message_pump_libevent.h. watch->StopWatching(); } } dbus_bool_t Bus::OnAddTimeout(DBusTimeout* raw_timeout) { AssertOnDBusThread(); // timeout will be deleted when raw_timeout is removed in // OnRemoveTimeoutThunk(). Timeout* timeout = new Timeout(raw_timeout); if (timeout->IsReadyToBeMonitored()) { timeout->StartMonitoring(this); } ++num_pending_timeouts_; return true; } void Bus::OnRemoveTimeout(DBusTimeout* raw_timeout) { AssertOnDBusThread(); Timeout* timeout = static_cast(dbus_timeout_get_data(raw_timeout)); timeout->Complete(); --num_pending_timeouts_; } void Bus::OnToggleTimeout(DBusTimeout* raw_timeout) { AssertOnDBusThread(); Timeout* timeout = static_cast(dbus_timeout_get_data(raw_timeout)); if (timeout->IsReadyToBeMonitored()) { timeout->StartMonitoring(this); } else { timeout->StopMonitoring(); } } void Bus::OnDispatchStatusChanged(DBusConnection* connection, DBusDispatchStatus status) { DCHECK_EQ(connection, connection_); AssertOnDBusThread(); if (!dbus_connection_get_is_connected(connection)) return; // We cannot call ProcessAllIncomingDataIfAny() here, as calling // dbus_connection_dispatch() inside DBusDispatchStatusFunction is // prohibited by the D-Bus library. Hence, we post a task here instead. // See comments for dbus_connection_set_dispatch_status_function(). PostTaskToDBusThread(FROM_HERE, base::Bind(&Bus::ProcessAllIncomingDataIfAny, this)); } dbus_bool_t Bus::OnAddWatchThunk(DBusWatch* raw_watch, void* data) { Bus* self = static_cast(data); return self->OnAddWatch(raw_watch); } void Bus::OnRemoveWatchThunk(DBusWatch* raw_watch, void* data) { Bus* self = static_cast(data); return self->OnRemoveWatch(raw_watch); } void Bus::OnToggleWatchThunk(DBusWatch* raw_watch, void* data) { Bus* self = static_cast(data); return self->OnToggleWatch(raw_watch); } dbus_bool_t Bus::OnAddTimeoutThunk(DBusTimeout* raw_timeout, void* data) { Bus* self = static_cast(data); return self->OnAddTimeout(raw_timeout); } void Bus::OnRemoveTimeoutThunk(DBusTimeout* raw_timeout, void* data) { Bus* self = static_cast(data); return self->OnRemoveTimeout(raw_timeout); } void Bus::OnToggleTimeoutThunk(DBusTimeout* raw_timeout, void* data) { Bus* self = static_cast(data); return self->OnToggleTimeout(raw_timeout); } void Bus::OnDispatchStatusChangedThunk(DBusConnection* connection, DBusDispatchStatus status, void* data) { Bus* self = static_cast(data); return self->OnDispatchStatusChanged(connection, status); } } // namespace dbus