/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef __IPC_GLUE_GECKOCHILDPROCESSHOST_H__ #define __IPC_GLUE_GECKOCHILDPROCESSHOST_H__ #include "base/file_path.h" #include "base/process_util.h" #include "base/scoped_ptr.h" #include "base/waitable_event.h" #include "chrome/common/child_process_host.h" #include "mozilla/ipc/FileDescriptor.h" #include "mozilla/Monitor.h" #include "nsXULAppAPI.h" // for GeckoProcessType #include "nsString.h" namespace mozilla { namespace ipc { class GeckoChildProcessHost : public ChildProcessHost { protected: typedef mozilla::Monitor Monitor; typedef std::vector StringVector; public: typedef base::ChildPrivileges ChildPrivileges; typedef base::ProcessHandle ProcessHandle; static ChildPrivileges DefaultChildPrivileges(); GeckoChildProcessHost(GeckoProcessType aProcessType, ChildPrivileges aPrivileges=base::PRIVILEGES_DEFAULT); ~GeckoChildProcessHost(); static nsresult GetArchitecturesForBinary(const char *path, uint32_t *result); static uint32_t GetSupportedArchitecturesForProcessType(GeckoProcessType type); // Block until the IPC channel for our subprocess is initialized, // but no longer. The child process may or may not have been // created when this method returns. bool AsyncLaunch(StringVector aExtraOpts=StringVector()); // Block until the IPC channel for our subprocess is initialized and // the OS process is created. The subprocess may or may not have // connected back to us when this method returns. // // NB: on POSIX, this method is relatively cheap, and doesn't // require disk IO. On win32 however, it requires at least the // analogue of stat(). This difference induces a semantic // difference in this method: on POSIX, when we return, we know the // subprocess has been created, but we don't know whether its // executable image can be loaded. On win32, we do know that when // we return. But we don't know if dynamic linking succeeded on // either platform. bool LaunchAndWaitForProcessHandle(StringVector aExtraOpts=StringVector()); // Block until the child process has been created and it connects to // the IPC channel, meaning it's fully initialized. (Or until an // error occurs.) bool SyncLaunch(StringVector aExtraOpts=StringVector(), int32_t timeoutMs=0, base::ProcessArchitecture arch=base::GetCurrentProcessArchitecture()); virtual bool PerformAsyncLaunch(StringVector aExtraOpts=StringVector(), base::ProcessArchitecture aArch=base::GetCurrentProcessArchitecture()); virtual void OnChannelConnected(int32_t peer_pid); virtual void OnMessageReceived(const IPC::Message& aMsg); virtual void OnChannelError(); virtual void GetQueuedMessages(std::queue& queue); virtual void InitializeChannel(); virtual bool CanShutdown() { return true; } virtual void OnWaitableEventSignaled(base::WaitableEvent *event); IPC::Channel* GetChannel() { return channelp(); } base::WaitableEvent* GetShutDownEvent() { return GetProcessEvent(); } ProcessHandle GetChildProcessHandle() { return mChildProcessHandle; } GeckoProcessType GetProcessType() { return mProcessType; } #ifdef XP_MACOSX task_t GetChildTask() { return mChildTask; } #endif /** * Must run on the IO thread. Cause the OS process to exit and * ensure its OS resources are cleaned up. */ void Join(); protected: GeckoProcessType mProcessType; ChildPrivileges mPrivileges; Monitor mMonitor; FilePath mProcessPath; // This value must be accessed while holding mMonitor. enum { // This object has been constructed, but the OS process has not // yet. CREATING_CHANNEL = 0, // The IPC channel for our subprocess has been created, but the OS // process has still not been created. CHANNEL_INITIALIZED, // The OS process has been created, but it hasn't yet connected to // our IPC channel. PROCESS_CREATED, // The process is launched and connected to our IPC channel. All // is well. PROCESS_CONNECTED, PROCESS_ERROR } mProcessState; static int32_t mChildCounter; void PrepareLaunch(); #ifdef XP_WIN void InitWindowsGroupID(); nsString mGroupId; #endif #if defined(OS_POSIX) base::file_handle_mapping_vector mFileMap; #endif base::WaitableEventWatcher::Delegate* mDelegate; ProcessHandle mChildProcessHandle; #if defined(OS_MACOSX) task_t mChildTask; #endif void OpenPrivilegedHandle(base::ProcessId aPid); private: DISALLOW_EVIL_CONSTRUCTORS(GeckoChildProcessHost); // Does the actual work for AsyncLaunch, on the IO thread. bool PerformAsyncLaunchInternal(std::vector& aExtraOpts, base::ProcessArchitecture arch); bool RunPerformAsyncLaunch(StringVector aExtraOpts=StringVector(), base::ProcessArchitecture aArch=base::GetCurrentProcessArchitecture()); // In between launching the subprocess and handing off its IPC // channel, there's a small window of time in which *we* might still // be the channel listener, and receive messages. That's bad // because we have no idea what to do with those messages. So queue // them here until we hand off the eventual listener. // // FIXME/cjones: this strongly indicates bad design. Shame on us. std::queue mQueue; }; #ifdef MOZ_NUWA_PROCESS class GeckoExistingProcessHost MOZ_FINAL : public GeckoChildProcessHost { public: GeckoExistingProcessHost(GeckoProcessType aProcessType, base::ProcessHandle aProcess, const FileDescriptor& aFileDescriptor, ChildPrivileges aPrivileges=base::PRIVILEGES_DEFAULT); ~GeckoExistingProcessHost(); virtual bool PerformAsyncLaunch(StringVector aExtraOpts=StringVector(), base::ProcessArchitecture aArch=base::GetCurrentProcessArchitecture()) MOZ_OVERRIDE; virtual void InitializeChannel() MOZ_OVERRIDE; private: base::ProcessHandle mExistingProcessHandle; mozilla::ipc::FileDescriptor mExistingFileDescriptor; }; #endif /* MOZ_NUWA_PROCESS */ } /* namespace ipc */ } /* namespace mozilla */ #endif /* __IPC_GLUE_GECKOCHILDPROCESSHOST_H__ */