// // Process.h // // Library: Foundation // Package: Processes // Module: Process // // Definition of the Process class. // // Copyright (c) 2004-2006, Applied Informatics Software Engineering GmbH. // and Contributors. // // SPDX-License-Identifier: BSL-1.0 // #ifndef Foundation_Process_INCLUDED #define Foundation_Process_INCLUDED #include "Poco/Foundation.h" #if defined(POCO_OS_FAMILY_WINDOWS) && defined(POCO_WIN32_UTF8) #if defined(_WIN32_WCE) #include "Process_WINCE.h" #else #include "Poco/Process_WIN32U.h" #endif #elif defined(POCO_OS_FAMILY_WINDOWS) #include "Poco/Process_WIN32.h" #elif defined(POCO_VXWORKS) #include "Poco/Process_VX.h" #elif defined(POCO_OS_FAMILY_UNIX) #include "Poco/Process_UNIX.h" #else #include "Poco/Process_VMS.h" #endif namespace Poco { class Pipe; class Foundation_API ProcessHandle /// A handle for a process created with Process::launch(). /// /// This handle can be used to determine the process ID of /// the newly created process and it can be used to wait for /// the completion of a process. { public: typedef ProcessImpl::PIDImpl PID; ProcessHandle(const ProcessHandle& handle); /// Creates a ProcessHandle by copying another one. ~ProcessHandle(); /// Destroys the ProcessHandle. ProcessHandle& operator = (const ProcessHandle& handle); /// Assigns another handle. PID id() const; /// Returns the process ID. int wait() const; /// Waits for the process to terminate /// and returns the exit code of the process. protected: ProcessHandle(ProcessHandleImpl* pImpl); private: ProcessHandle(); ProcessHandleImpl* _pImpl; friend class Process; }; class Foundation_API Process: public ProcessImpl /// This class provides methods for working with processes. { public: typedef PIDImpl PID; typedef ArgsImpl Args; typedef EnvImpl Env; static PID id(); /// Returns the process ID of the current process. static void times(long& userTime, long& kernelTime); /// Returns the number of seconds spent by the /// current process in user and kernel mode. static ProcessHandle launch(const std::string& command, const Args& args); /// Creates a new process for the given command and returns /// a ProcessHandle of the new process. The given arguments are /// passed to the command on the command line. static ProcessHandle launch( const std::string& command, const Args& args, const std::string& initialDirectory); /// Creates a new process for the given command and returns /// a ProcessHandle of the new process. The given arguments are /// passed to the command on the command line. /// The process starts executing in the specified initial directory. static ProcessHandle launch( const std::string& command, const Args& args, Pipe* inPipe, Pipe* outPipe, Pipe* errPipe); /// Creates a new process for the given command and returns /// a ProcessHandle of the new process. The given arguments are /// passed to the command on the command line. /// /// If inPipe, outPipe or errPipe is non-null, the corresponding /// standard input, standard output or standard error stream /// of the launched process is redirected to the Pipe. /// PipeInputStream or PipeOutputStream can be used to /// send receive data from, or send data to the process. /// /// Note: the same Pipe can be used for both outPipe and errPipe. /// /// After a Pipe has been passed as inPipe, only write operations /// are valid. After a Pipe has been passed as outPipe or errPipe, /// only read operations are valid. /// /// It is forbidden to pass the same pipe as inPipe and outPipe or errPipe. /// /// Usage example: /// Pipe outPipe; /// Process::Args args; /// ProcessHandle ph(launch("/bin/ps", args, 0, &outPipe, 0)); /// PipeInputStream istr(outPipe); /// ... // read output of ps from istr /// int rc = ph.wait(); static ProcessHandle launch( const std::string& command, const Args& args, const std::string& initialDirectory, Pipe* inPipe, Pipe* outPipe, Pipe* errPipe); /// Creates a new process for the given command and returns /// a ProcessHandle of the new process. The given arguments are /// passed to the command on the command line. /// The process starts executing in the specified initial directory. /// /// If inPipe, outPipe or errPipe is non-null, the corresponding /// standard input, standard output or standard error stream /// of the launched process is redirected to the Pipe. /// PipeInputStream or PipeOutputStream can be used to /// send receive data from, or send data to the process. /// /// Note: the same Pipe can be used for both outPipe and errPipe. /// /// After a Pipe has been passed as inPipe, only write operations /// are valid. After a Pipe has been passed as outPipe or errPipe, /// only read operations are valid. /// /// It is forbidden to pass the same pipe as inPipe and outPipe or errPipe. /// /// Usage example: /// Pipe outPipe; /// Process::Args args; /// ProcessHandle ph(launch("/bin/ps", args, 0, &outPipe, 0)); /// PipeInputStream istr(outPipe); /// ... // read output of ps from istr /// int rc = ph.wait(); static ProcessHandle launch( const std::string& command, const Args& args, Pipe* inPipe, Pipe* outPipe, Pipe* errPipe, const Env& env); /// Creates a new process for the given command and returns /// a ProcessHandle of the new process. The given arguments are /// passed to the command on the command line. /// /// If inPipe, outPipe or errPipe is non-null, the corresponding /// standard input, standard output or standard error stream /// of the launched process is redirected to the Pipe. /// /// The launched process is given the specified environment variables. static ProcessHandle launch( const std::string& command, const Args& args, const std::string& initialDirectory, Pipe* inPipe, Pipe* outPipe, Pipe* errPipe, const Env& env); /// Creates a new process for the given command and returns /// a ProcessHandle of the new process. The given arguments are /// passed to the command on the command line. /// The process starts executing in the specified initial directory. /// If inPipe, outPipe or errPipe is non-null, the corresponding /// standard input, standard output or standard error stream /// of the launched process is redirected to the Pipe. /// The launched process is given the specified environment variables. static int wait(const ProcessHandle& handle); /// Waits for the process specified by handle to terminate /// and returns the exit code of the process. static bool isRunning(const ProcessHandle& handle); /// check if the process specified by handle is running or not /// /// This is preferable on Windows where process IDs /// may be reused. static bool isRunning(PID pid); /// Check if the process specified by given pid is running or not. static void kill(ProcessHandle& handle); /// Kills the process specified by handle. /// /// This is preferable on Windows where process IDs /// may be reused. static void kill(PID pid); /// Kills the process with the given pid. static void requestTermination(PID pid); /// Requests termination of the process with the give PID. /// /// On Unix platforms, this will send a SIGINT to the /// process and thus work with arbitrary processes. /// /// On other platforms, a global event flag /// will be set. Setting the flag will cause /// Util::ServerApplication::waitForTerminationRequest() to /// return. Therefore this will only work with applications /// based on Util::ServerApplication. }; // // inlines // inline Process::PID Process::id() { return ProcessImpl::idImpl(); } inline void Process::times(long& userTime, long& kernelTime) { ProcessImpl::timesImpl(userTime, kernelTime); } } // namespace Poco #endif // Foundation_Process_INCLUDED