// // Copyright (C) 2015 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. // #ifndef SHILL_PROCESS_MANAGER_H_ #define SHILL_PROCESS_MANAGER_H_ #include #include #include #include #include #include #include #include #include #include #include #include namespace shill { class EventDispatcher; // The ProcessManager is a singleton providing process creation and // asynchronous process termination. Need to initialize it once with // Init method call. class ProcessManager { public: virtual ~ProcessManager(); // This is a singleton -- use ProcessManager::GetInstance()->Foo(). static ProcessManager* GetInstance(); // Register async signal handler and setup process reaper. virtual void Init(EventDispatcher* dispatcher); // Call on shutdown to release async_signal_handler_. virtual void Stop(); // Create and start a process for |program| with |arguments|. |enivronment| // variables will be setup in the child process before exec the |program|. // |terminate_with_parent| is used to indicate if child process should // self terminate if the parent process exits. |exit_callback| will be // invoked when child process exits (not terminated by us). Return -1 // if failed to start the process, otherwise, return the pid of the child // process. virtual pid_t StartProcess( const tracked_objects::Location& spawn_source, const base::FilePath& program, const std::vector& arguments, const std::map& environment, bool terminate_with_parent, const base::Callback& exit_callback); // Similar to StartProcess(), with the following differences: // - environment variables are not supported (no need yet) // - terminate_with_parent is not supported (may be non-trivial) // - the child process will run as |user| and |group| // - the |capmask| argument can be used to provide the child process // with capabilities, which |user| might not have on its own virtual pid_t StartProcessInMinijail( const tracked_objects::Location& spawn_source, const base::FilePath& program, const std::vector& arguments, const std::string& user, const std::string& group, uint64_t capmask, const base::Callback& exit_callback) { return StartProcessInMinijailWithPipes( spawn_source, program, arguments, user, group, capmask, exit_callback, nullptr, nullptr, nullptr); } // Similar to StartProcessInMinijail(), with the additional ability to // pipe the child's stdin/stdout/stderr back to us. If any of those // streams is not needed, simply pass nullptr for the corresponding // 'fd' argument. If no pipes are needed, use StartProcessInMinijail(). virtual pid_t StartProcessInMinijailWithPipes( const tracked_objects::Location& spawn_source, const base::FilePath& program, const std::vector& arguments, const std::string& user, const std::string& group, uint64_t capmask, const base::Callback& exit_callback, int* stdin_fd, int* stdout_fd, int* stderr_fd); // Stop the given |pid|. Previously registered |exit_callback| will be // unregistered, since the caller is not interested in this process anymore // and that callback might not be valid by the time this process terminates. // This will attempt to terminate the child process by sending a SIGTERM // signal first. If the process doesn't terminate within a certain time, // ProcessManager will attempt to send a SIGKILL signal. It will give up // with an error log If the process still doesn't terminate within a certain // time. virtual bool StopProcess(pid_t pid); // Stop the given |pid| in a synchronous manner. virtual bool StopProcessAndBlock(pid_t pid); // Replace the current exit callback for |pid| with |new_callback|. virtual bool UpdateExitCallback( pid_t pid, const base::Callback& new_callback); protected: ProcessManager(); private: friend class ProcessManagerTest; friend struct base::DefaultLazyInstanceTraits; using TerminationTimeoutCallback = base::CancelableClosure; // Invoked when process |pid| exited. void OnProcessExited(pid_t pid, const siginfo_t& info); // Invoked when process |pid| did not terminate within a certain timeout. // |kill_signal| indicates the signal used for termination. When it is set // to true, SIGKILL was used to terminate the process, otherwise, SIGTERM // was used. void ProcessTerminationTimeoutHandler(pid_t pid, bool kill_signal); // Send a termination signal to process |pid|. If |kill_signal| is set to // true, SIGKILL is sent, otherwise, SIGTERM is sent. After signal is sent, // |pid| and timeout handler is added to |pending_termination_processes_| // list, to make sure process |pid| does exit in timely manner. bool TerminateProcess(pid_t pid, bool kill_signal); // Kill process |pid|. If |kill_signal| is true it will send SIGKILL, // otherwise it will send SIGTERM. // It returns true when the process was already dead or killed within // the timeout. // It returns false when the process failed to exit within the timeout // or the system failed to send kill singal. bool KillProcessWithTimeout(pid_t pid, bool kill_signal); // Kill process |pid| using signal |signal|. // The |killed| will be set true when the process was already dead. // It returns true when it sent the |signal| successfully or the // process was already dead. // It returns false when the system failed to send |signal|. bool KillProcess(pid_t pid, int signal, bool* killed); // Wait for process |pid| to exit. This function will check it for at most // |tries| times. The interval of waiting time grows exponentially from // |sleep_ms| and it has an |upper_bound_ms| upper bound. bool WaitpidWithTimeout(pid_t pid, unsigned int sleep_ms, unsigned int upper_bound_ms, int tries); // Used to watch processes. std::unique_ptr async_signal_handler_; brillo::ProcessReaper process_reaper_; EventDispatcher* dispatcher_; brillo::Minijail* minijail_; // Processes to watch for the caller. std::map> watched_processes_; // Processes being terminated by us. Use a timer to make sure process // does exit, log an error if it failed to exit within a specific timeout. std::map> pending_termination_processes_; base::WeakPtrFactory weak_factory_{this}; DISALLOW_COPY_AND_ASSIGN(ProcessManager); }; } // namespace shill #endif // SHILL_PROCESS_MANAGER_H_