// Copyright (c) 2010 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. #include "base/file_util.h" #include "base/logging.h" #include "base/path_service.h" #include "base/process_util.h" #include "base/shared_memory.h" #include "base/string16.h" #include "base/string_util.h" #include "base/utf_string_conversions.h" #include "chrome/common/chrome_constants.h" #include "chrome/common/chrome_paths.h" #include "chrome/common/chrome_version_info.h" #include "chrome/common/service_process_util.h" #include "chrome/installer/util/version.h" #if defined(OS_WIN) #include "base/object_watcher.h" #include "base/scoped_handle_win.h" #endif // TODO(hclam): Split this file for different platforms. namespace { // This should be more than enough to hold a version string assuming each part // of the version string is an int64. const uint32 kMaxVersionStringLength = 256; // The structure that gets written to shared memory. struct ServiceProcessSharedData { char service_process_version[kMaxVersionStringLength]; base::ProcessId service_process_pid; }; // Return a name that is scoped to this instance of the service process. We // use the user-data-dir as a scoping prefix. std::string GetServiceProcessScopedName(const std::string& append_str) { FilePath user_data_dir; PathService::Get(chrome::DIR_USER_DATA, &user_data_dir); #if defined(OS_WIN) std::string scoped_name = WideToUTF8(user_data_dir.value()); #elif defined(OS_POSIX) std::string scoped_name = user_data_dir.value(); #endif // defined(OS_WIN) std::replace(scoped_name.begin(), scoped_name.end(), '\\', '!'); scoped_name.append(append_str); return scoped_name; } // Return a name that is scoped to this instance of the service process. We // use the user-data-dir and the version as a scoping prefix. std::string GetServiceProcessScopedVersionedName( const std::string& append_str) { std::string versioned_str; chrome::VersionInfo version_info; DCHECK(version_info.is_valid()); versioned_str.append(version_info.Version()); versioned_str.append(append_str); return GetServiceProcessScopedName(versioned_str); } // Gets the name of the shared memory used by the service process to write its // version. The name is not versioned. std::string GetServiceProcessSharedMemName() { return GetServiceProcessScopedName("_service_shmem"); } // Reads the named shared memory to get the shared data. Returns false if no // matching shared memory was found. bool GetServiceProcessSharedData(std::string* version, base::ProcessId* pid) { scoped_ptr shared_mem_service_data; shared_mem_service_data.reset(new base::SharedMemory()); ServiceProcessSharedData* service_data = NULL; if (shared_mem_service_data.get() && shared_mem_service_data->Open(GetServiceProcessSharedMemName(), true) && shared_mem_service_data->Map(sizeof(ServiceProcessSharedData))) { service_data = reinterpret_cast( shared_mem_service_data->memory()); // Make sure the version in shared memory is null-terminated. If it is not, // treat it as invalid. if (version && memchr(service_data->service_process_version, '\0', sizeof(service_data->service_process_version))) *version = service_data->service_process_version; if (pid) *pid = service_data->service_process_pid; return true; } return false; } enum ServiceProcessRunningState { SERVICE_NOT_RUNNING, SERVICE_OLDER_VERSION_RUNNING, SERVICE_SAME_VERSION_RUNNING, SERVICE_NEWER_VERSION_RUNNING, }; ServiceProcessRunningState GetServiceProcessRunningState( std::string* service_version_out) { std::string version; GetServiceProcessSharedData(&version, NULL); if (version.empty()) return SERVICE_NOT_RUNNING; // At this time we have a version string. Set the out param if it exists. if (service_version_out) *service_version_out = version; scoped_ptr service_version; service_version.reset( installer::Version::GetVersionFromString(ASCIIToUTF16(version))); // If the version string is invalid, treat it like an older version. if (!service_version.get()) return SERVICE_OLDER_VERSION_RUNNING; // Get the version of the currently *running* instance of Chrome. chrome::VersionInfo version_info; if (!version_info.is_valid()) { NOTREACHED() << "Failed to get current file version"; // Our own version is invalid. This is an error case. Pretend that we // are out of date. return SERVICE_NEWER_VERSION_RUNNING; } scoped_ptr running_version( installer::Version::GetVersionFromString( ASCIIToUTF16(version_info.Version()))); if (!running_version.get()) { NOTREACHED() << "Failed to parse version info"; // Our own version is invalid. This is an error case. Pretend that we // are out of date. return SERVICE_NEWER_VERSION_RUNNING; } if (running_version->IsHigherThan(service_version.get())) { return SERVICE_OLDER_VERSION_RUNNING; } else if (service_version->IsHigherThan(running_version.get())) { return SERVICE_NEWER_VERSION_RUNNING; } return SERVICE_SAME_VERSION_RUNNING; } #if defined(OS_WIN) string16 GetServiceProcessReadyEventName() { return UTF8ToWide( GetServiceProcessScopedVersionedName("_service_ready")); } string16 GetServiceProcessShutdownEventName() { return UTF8ToWide( GetServiceProcessScopedVersionedName("_service_shutdown_evt")); } class ServiceProcessShutdownMonitor : public base::ObjectWatcher::Delegate { public: explicit ServiceProcessShutdownMonitor(Task* shutdown_task) : shutdown_task_(shutdown_task) { } void Start() { string16 event_name = GetServiceProcessShutdownEventName(); CHECK(event_name.length() <= MAX_PATH); shutdown_event_.Set(CreateEvent(NULL, TRUE, FALSE, event_name.c_str())); watcher_.StartWatching(shutdown_event_.Get(), this); } // base::ObjectWatcher::Delegate implementation. virtual void OnObjectSignaled(HANDLE object) { shutdown_task_->Run(); shutdown_task_.reset(); } private: ScopedHandle shutdown_event_; base::ObjectWatcher watcher_; scoped_ptr shutdown_task_; }; #else // defined(OS_WIN) // Gets the name of the lock file for service process. Used on non-Windows OSes. FilePath GetServiceProcessLockFilePath() { FilePath user_data_dir; PathService::Get(chrome::DIR_USER_DATA, &user_data_dir); chrome::VersionInfo version_info; std::string lock_file_name = version_info.Version() + "Service Process Lock"; return user_data_dir.Append(lock_file_name); } #endif // defined(OS_WIN) struct ServiceProcessGlobalState { scoped_ptr shared_mem_service_data; #if defined(OS_WIN) // An event that is signaled when a service process is ready. ScopedHandle ready_event; scoped_ptr shutdown_monitor; #endif // defined(OS_WIN) }; // TODO(sanjeevr): Remove this ugly global pointer and move all methods and // data members used by the service process into one singleton class which // could be owned by the service process. ServiceProcessGlobalState* g_service_globals = NULL; } // namespace // Gets the name of the service process IPC channel. std::string GetServiceProcessChannelName() { return GetServiceProcessScopedVersionedName("_service_ipc"); } std::string GetServiceProcessAutoRunKey() { return GetServiceProcessScopedName("_service_run"); } bool TakeServiceProcessSingletonLock() { DCHECK(g_service_globals == NULL); std::string running_version; ServiceProcessRunningState state = GetServiceProcessRunningState(&running_version); switch (state) { case SERVICE_SAME_VERSION_RUNNING: case SERVICE_NEWER_VERSION_RUNNING: return false; case SERVICE_OLDER_VERSION_RUNNING: // If an older version is running, kill it. ForceServiceProcessShutdown(running_version); break; case SERVICE_NOT_RUNNING: break; } g_service_globals = new ServiceProcessGlobalState; // TODO(sanjeevr): We can probably use the shared mem as the sole singleton // mechanism. For that the shared mem class needs to return whether it created // new instance or opened an existing one. #if defined(OS_WIN) string16 event_name = GetServiceProcessReadyEventName(); CHECK(event_name.length() <= MAX_PATH); ScopedHandle service_process_ready_event; service_process_ready_event.Set( CreateEvent(NULL, TRUE, FALSE, event_name.c_str())); DWORD error = GetLastError(); if ((error == ERROR_ALREADY_EXISTS) || (error == ERROR_ACCESS_DENIED)) { delete g_service_globals; g_service_globals = NULL; return false; } DCHECK(service_process_ready_event.IsValid()); g_service_globals->ready_event.Set(service_process_ready_event.Take()); #else // TODO(sanjeevr): Implement singleton mechanism for other platforms. NOTIMPLEMENTED(); #endif // Now that we have the singleton, let is also write the version we are using // to shared memory. This can be used by a newer service to signal us to exit. chrome::VersionInfo version_info; if (!version_info.is_valid()) { NOTREACHED() << "Failed to get current file version"; return false; } if (version_info.Version().length() >= kMaxVersionStringLength) { NOTREACHED() << "Version string length is << " << version_info.Version().length() << "which is longer than" << kMaxVersionStringLength; return false; } scoped_ptr shared_mem_service_data; shared_mem_service_data.reset(new base::SharedMemory()); if (!shared_mem_service_data.get()) return false; uint32 alloc_size = sizeof(ServiceProcessSharedData); if (!shared_mem_service_data->Create(GetServiceProcessSharedMemName(), false, true, alloc_size)) return false; if (!shared_mem_service_data->Map(alloc_size)) return false; memset(shared_mem_service_data->memory(), 0, alloc_size); ServiceProcessSharedData* shared_data = reinterpret_cast( shared_mem_service_data->memory()); memcpy(shared_data->service_process_version, version_info.Version().c_str(), version_info.Version().length()); shared_data->service_process_pid = base::GetCurrentProcId(); g_service_globals->shared_mem_service_data.reset( shared_mem_service_data.release()); return true; } void SignalServiceProcessReady(Task* shutdown_task) { #if defined(OS_WIN) DCHECK(g_service_globals != NULL); DCHECK(g_service_globals->ready_event.IsValid()); SetEvent(g_service_globals->ready_event.Get()); g_service_globals->shutdown_monitor.reset( new ServiceProcessShutdownMonitor(shutdown_task)); g_service_globals->shutdown_monitor->Start(); #else // TODO(hclam): Implement better mechanism for these platform. // Also we need to save shutdown task. For now we just delete the shutdown // task because we have not way to listen for shutdown requests. delete shutdown_task; const FilePath path = GetServiceProcessLockFilePath(); FILE* file = file_util::OpenFile(path, "wb+"); if (!file) return; LOG(INFO) << "Created Service Process lock file: " << path.value(); file_util::TruncateFile(file) && file_util::CloseFile(file); #endif } void SignalServiceProcessStopped() { delete g_service_globals; g_service_globals = NULL; #if !defined(OS_WIN) // TODO(hclam): Implement better mechanism for these platform. const FilePath path = GetServiceProcessLockFilePath(); file_util::Delete(path, false); #endif } bool ForceServiceProcessShutdown(const std::string& version) { #if defined(OS_WIN) ScopedHandle shutdown_event; std::string versioned_name = version; versioned_name.append("_service_shutdown_evt"); string16 event_name = UTF8ToWide(GetServiceProcessScopedName(versioned_name)); shutdown_event.Set(OpenEvent(EVENT_MODIFY_STATE, FALSE, event_name.c_str())); if (!shutdown_event.IsValid()) return false; SetEvent(shutdown_event.Get()); return true; #else // defined(OS_WIN) NOTIMPLEMENTED(); return false; #endif // defined(OS_WIN) } bool CheckServiceProcessReady() { #if defined(OS_WIN) string16 event_name = GetServiceProcessReadyEventName(); ScopedHandle event( OpenEvent(SYNCHRONIZE | READ_CONTROL, false, event_name.c_str())); if (!event.IsValid()) return false; // Check if the event is signaled. return WaitForSingleObject(event, 0) == WAIT_OBJECT_0; #else // TODO(hclam): Implement better mechanism for these platform. const FilePath path = GetServiceProcessLockFilePath(); return file_util::PathExists(path); #endif } base::ProcessId GetServiceProcessPid() { base::ProcessId pid = 0; GetServiceProcessSharedData(NULL, &pid); return pid; }