/* -*- Mode: c++; c-basic-offset: 2; indent-tabs-mode: nil; tab-width: 40 -*- */ /* vim: set ts=2 et sw=2 tw=40: */ /* * Copyright 2009, The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * * NOTE: Due to being based on the dbus compatibility layer for * android's bluetooth implementation, this file is licensed under the * apache license instead of MPL. * */ #include "DBusThread.h" #include "RawDBusConnection.h" #include "DBusUtils.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "base/eintr_wrapper.h" #include "base/message_loop.h" #include "nsTArray.h" #include "nsDataHashtable.h" #include "mozilla/RefPtr.h" #include "mozilla/Monitor.h" #include "mozilla/Util.h" #include "mozilla/FileUtils.h" #include "nsThreadUtils.h" #include "nsIThread.h" #include "nsXULAppAPI.h" #include "nsServiceManagerUtils.h" #include "nsCOMPtr.h" #undef LOG #if defined(MOZ_WIDGET_GONK) #include #define LOG(args...) __android_log_print(ANDROID_LOG_INFO, "GonkDBus", args); #else #define BTDEBUG true #define LOG(args...) if(BTDEBUG) printf(args); #endif #define DEFAULT_INITIAL_POLLFD_COUNT 8 // Functions for converting between unix events in the poll struct, // and their dbus definitions // TODO Add Wakeup to this list once we've moved to ics enum { DBUS_EVENT_LOOP_EXIT = 1, DBUS_EVENT_LOOP_ADD = 2, DBUS_EVENT_LOOP_REMOVE = 3, } DBusEventTypes; // Signals that the DBus thread should listen for. Needs to include // all signals any DBus observer object may need. static const char* DBUS_SIGNALS[] = { "type='signal',interface='org.freedesktop.DBus'", "type='signal',interface='org.bluez.Adapter'", "type='signal',interface='org.bluez.Manager'", "type='signal',interface='org.bluez.Device'", "type='signal',interface='org.bluez.Input'", "type='signal',interface='org.bluez.Network'", "type='signal',interface='org.bluez.NetworkServer'", "type='signal',interface='org.bluez.HealthDevice'", "type='signal',interface='org.bluez.AudioSink'" }; static unsigned int UnixEventsToDBusFlags(short events) { return (events & DBUS_WATCH_READABLE ? POLLIN : 0) | (events & DBUS_WATCH_WRITABLE ? POLLOUT : 0) | (events & DBUS_WATCH_ERROR ? POLLERR : 0) | (events & DBUS_WATCH_HANGUP ? POLLHUP : 0); } static short DBusFlagsToUnixEvents(unsigned int flags) { return (flags & POLLIN ? DBUS_WATCH_READABLE : 0) | (flags & POLLOUT ? DBUS_WATCH_WRITABLE : 0) | (flags & POLLERR ? DBUS_WATCH_ERROR : 0) | (flags & POLLHUP ? DBUS_WATCH_HANGUP : 0); } namespace mozilla { namespace ipc { struct PollFdComparator { bool Equals(const pollfd& a, const pollfd& b) const { return ((a.fd == b.fd) && (a.events == b.events)); } bool LessThan(const pollfd& a, const pollfd&b) const { return false; } }; // DBus Thread Class prototype struct DBusThread : public RawDBusConnection { DBusThread(); ~DBusThread(); bool StartEventLoop(); void StopEventLoop(); bool IsEventLoopRunning(); static void* EventLoop(void* aPtr); // Thread members pthread_t mThread; Mutex mMutex; bool mIsRunning; // Information about the sockets we're polling. Socket counts // increase/decrease depending on how many add/remove watch signals // we're received via the control sockets. nsTArray mPollData; nsTArray mWatchData; // Sockets for receiving dbus control information (watch // add/removes, loop shutdown, etc...) ScopedClose mControlFdR; ScopedClose mControlFdW; protected: bool SetUpEventLoop(); bool TearDownData(); bool TearDownEventLoop(); }; static nsAutoPtr sDBusThread; // DBus utility functions // Free statics, as they're used as function pointers in dbus setup static dbus_bool_t AddWatch(DBusWatch *aWatch, void *aData) { DBusThread *dbt = (DBusThread *)aData; if (dbus_watch_get_enabled(aWatch)) { // note that we can't just send the watch and inspect it later // because we may get a removeWatch call before this data is reacted // to by our eventloop and remove this watch.. reading the add first // and then inspecting the recently deceased watch would be bad. char control = DBUS_EVENT_LOOP_ADD; if(write(dbt->mControlFdW.get(), &control, sizeof(char)) < 0) { LOG("Cannot write DBus add watch control data to socket!\n"); return false; } // TODO change this to dbus_watch_get_unix_fd once we move to ics int fd = dbus_watch_get_fd(aWatch); if(write(dbt->mControlFdW.get(), &fd, sizeof(int)) < 0) { LOG("Cannot write DBus add watch descriptor data to socket!\n"); return false; } unsigned int flags = dbus_watch_get_flags(aWatch); if(write(dbt->mControlFdW.get(), &flags, sizeof(unsigned int)) < 0) { LOG("Cannot write DBus add watch flag data to socket!\n"); return false; } if(write(dbt->mControlFdW.get(), &aWatch, sizeof(DBusWatch*)) < 0) { LOG("Cannot write DBus add watch struct data to socket!\n"); return false; } } return true; } static void RemoveWatch(DBusWatch *aWatch, void *aData) { DBusThread *dbt = (DBusThread *)aData; char control = DBUS_EVENT_LOOP_REMOVE; if(write(dbt->mControlFdW.get(), &control, sizeof(char)) < 0) { LOG("Cannot write DBus remove watch control data to socket!\n"); return; } // TODO change this to dbus_watch_get_unix_fd once we move to ics int fd = dbus_watch_get_fd(aWatch); if(write(dbt->mControlFdW.get(), &fd, sizeof(int)) < 0) { LOG("Cannot write DBus remove watch descriptor data to socket!\n"); return; } unsigned int flags = dbus_watch_get_flags(aWatch); if(write(dbt->mControlFdW.get(), &flags, sizeof(unsigned int)) < 0) { LOG("Cannot write DBus remove watch flag data to socket!\n"); return; } } static void ToggleWatch(DBusWatch *aWatch, void *aData) { if (dbus_watch_get_enabled(aWatch)) { AddWatch(aWatch, aData); } else { RemoveWatch(aWatch, aData); } } static void HandleWatchAdd(DBusThread* aDbt) { DBusWatch *watch; int newFD; unsigned int flags; if(read(aDbt->mControlFdR.get(), &newFD, sizeof(int)) < 0) { LOG("Cannot read DBus watch add descriptor data from socket!\n"); return; } if(read(aDbt->mControlFdR.get(), &flags, sizeof(unsigned int)) < 0) { LOG("Cannot read DBus watch add flag data from socket!\n"); return; } if(read(aDbt->mControlFdR.get(), &watch, sizeof(DBusWatch *)) < 0) { LOG("Cannot read DBus watch add watch data from socket!\n"); return; } short events = DBusFlagsToUnixEvents(flags); pollfd p; p.fd = newFD; p.revents = 0; p.events = events; if(aDbt->mPollData.Contains(p, PollFdComparator())) return; aDbt->mPollData.AppendElement(p); aDbt->mWatchData.AppendElement(watch); } static void HandleWatchRemove(DBusThread* aDbt) { int removeFD; unsigned int flags; if(read(aDbt->mControlFdR.get(), &removeFD, sizeof(int)) < 0) { LOG("Cannot read DBus watch remove descriptor data from socket!\n"); return; } if(read(aDbt->mControlFdR.get(), &flags, sizeof(unsigned int)) < 0) { LOG("Cannot read DBus watch remove flag data from socket!\n"); return; } short events = DBusFlagsToUnixEvents(flags); pollfd p; p.fd = removeFD; p.events = events; int index = aDbt->mPollData.IndexOf(p, 0, PollFdComparator()); // There are times where removes can be requested for watches that // haven't been added (for example, whenever gecko comes up after // adapters have already been enabled), so check to make sure we're // using the watch in the first place if(index < 0) { LOG("DBus requested watch removal of non-existant socket, ignoring..."); return; } aDbt->mPollData.RemoveElementAt(index); // DBusWatch pointers are maintained by DBus, so we won't leak by // removing. aDbt->mWatchData.RemoveElementAt(index); } // DBus Thread Implementation DBusThread::DBusThread() : mMutex("DBusGonk.mMutex") , mIsRunning(false) { } DBusThread::~DBusThread() { } bool DBusThread::SetUpEventLoop() { // If we already have a connection, exit if(mConnection) { return false; } dbus_threads_init_default(); DBusError err; dbus_error_init(&err); // If we can't establish a connection to dbus, nothing else will work nsresult rv = EstablishDBusConnection(); if(NS_FAILED(rv)) { NS_WARNING("Cannot create DBus Connection for DBus Thread!"); return false; } // Set which messages will be processed by this dbus connection. // Since we are maintaining a single thread for all the DBus bluez // signals we want, register all of them in this thread at startup. // The event handler will sort the destinations out as needed. for(uint32_t i = 0; i < ArrayLength(DBUS_SIGNALS); ++i) { dbus_bus_add_match(mConnection, DBUS_SIGNALS[i], &err); if (dbus_error_is_set(&err)) { LOG_AND_FREE_DBUS_ERROR(&err); return false; } } return true; } bool DBusThread::TearDownData() { LOG("Removing DBus Sockets\n"); if (mControlFdW.get()) { mControlFdW.dispose(); } if (mControlFdR.get()) { mControlFdR.dispose(); } mPollData.Clear(); // DBusWatch pointers are maintained by DBus, so we won't leak by // clearing. mWatchData.Clear(); return true; } bool DBusThread::TearDownEventLoop() { MOZ_ASSERT(mConnection); DBusError err; dbus_error_init(&err); for(uint32_t i = 0; i < ArrayLength(DBUS_SIGNALS); ++i) { dbus_bus_remove_match(mConnection, DBUS_SIGNALS[i], &err); if (dbus_error_is_set(&err)) { LOG_AND_FREE_DBUS_ERROR(&err); } } return true; } void* DBusThread::EventLoop(void *aPtr) { DBusThread* dbt = static_cast(aPtr); MOZ_ASSERT(dbt); dbus_connection_set_watch_functions(dbt->mConnection, AddWatch, RemoveWatch, ToggleWatch, aPtr, NULL); dbt->mIsRunning = true; LOG("DBus Event Loop Starting\n"); while (1) { poll(dbt->mPollData.Elements(), dbt->mPollData.Length(), -1); for (uint32_t i = 0; i < dbt->mPollData.Length(); i++) { if (!dbt->mPollData[i].revents) { continue; } if (dbt->mPollData[i].fd == dbt->mControlFdR.get()) { char data; while (recv(dbt->mControlFdR.get(), &data, sizeof(char), MSG_DONTWAIT) != -1) { switch (data) { case DBUS_EVENT_LOOP_EXIT: { LOG("DBus Event Loop Exiting\n"); dbus_connection_set_watch_functions(dbt->mConnection, NULL, NULL, NULL, NULL, NULL); dbt->TearDownEventLoop(); return NULL; } case DBUS_EVENT_LOOP_ADD: { HandleWatchAdd(dbt); break; } case DBUS_EVENT_LOOP_REMOVE: { HandleWatchRemove(dbt); break; } } } } else { short events = dbt->mPollData[i].revents; unsigned int flags = UnixEventsToDBusFlags(events); dbus_watch_handle(dbt->mWatchData[i], flags); dbt->mPollData[i].revents = 0; // Break at this point since we don't know if the operation // was destructive break; } } while (dbus_connection_dispatch(dbt->mConnection) == DBUS_DISPATCH_DATA_REMAINS) {} } } bool DBusThread::StartEventLoop() { MutexAutoLock lock(mMutex); mIsRunning = false; // socketpair opens two sockets for the process to communicate on. // This is how android's implementation of the dbus event loop // communicates with itself in relation to IPC signals. These // sockets are contained sequentially in the same struct in the // android code, but we break them out into class members here. // Therefore we read into a local array and then copy. int sockets[2]; if (socketpair(AF_LOCAL, SOCK_STREAM, 0, (int*)(&sockets)) < 0) { TearDownData(); return false; } mControlFdR.rwget() = sockets[0]; mControlFdW.rwget() = sockets[1]; pollfd p; p.fd = mControlFdR.get(); p.events = POLLIN; mPollData.AppendElement(p); // Due to the fact that mPollData and mWatchData have to match, we // push a null to the front of mWatchData since it has the control // fd in the first slot of mPollData. mWatchData.AppendElement((DBusWatch*)NULL); if (!SetUpEventLoop()) { TearDownData(); return false; } LOG("DBus Thread Starting\n"); pthread_create(&(mThread), NULL, DBusThread::EventLoop, this); return true; } void DBusThread::StopEventLoop() { MutexAutoLock lock(mMutex); if (mIsRunning) { char data = DBUS_EVENT_LOOP_EXIT; ssize_t wret = write(mControlFdW.get(), &data, sizeof(char)); if(wret < 0) { LOG("Cannot write exit bit to DBus Thread!\n"); } void *ret; LOG("DBus Thread Joining\n"); pthread_join(mThread, &ret); LOG("DBus Thread Joined\n"); TearDownData(); } mIsRunning = false; } bool DBusThread::IsEventLoopRunning() { MutexAutoLock lock(mMutex); return mIsRunning; } // Startup/Shutdown utility functions static void ConnectDBus(Monitor* aMonitor, bool* aSuccess) { if(sDBusThread) { NS_WARNING("Trying to start DBus Thread that is already currently running, skipping."); return; } sDBusThread = new DBusThread(); *aSuccess = true; if(!sDBusThread->StartEventLoop()) { *aSuccess = false; } { MonitorAutoLock lock(*aMonitor); lock.Notify(); } } static void DisconnectDBus(Monitor* aMonitor, bool* aSuccess) { if(!sDBusThread) { NS_WARNING("Trying to shutdown DBus Thread that is not currently running, skipping."); return; } *aSuccess = true; sDBusThread->StopEventLoop(); sDBusThread = NULL; { MonitorAutoLock lock(*aMonitor); lock.Notify(); } } bool StartDBus() { Monitor monitor("StartDBus.monitor"); bool success; { MonitorAutoLock lock(monitor); XRE_GetIOMessageLoop()->PostTask( FROM_HERE, NewRunnableFunction(ConnectDBus, &monitor, &success)); lock.Wait(); } return success; } bool StopDBus() { Monitor monitor("StopDBus.monitor"); bool success; { MonitorAutoLock lock(monitor); XRE_GetIOMessageLoop()->PostTask( FROM_HERE, NewRunnableFunction(DisconnectDBus, &monitor, &success)); lock.Wait(); } return success; } } }