/* -*- C++ -*- */ //============================================================================= /** * @file Process.h * * $Id$ * * @author Tim Harrison */ //============================================================================= #ifndef ACE_PROCESS_H #define ACE_PROCESS_H #include "ace/pre.h" #include "ace/OS.h" #include "ace/Handle_Set.h" #if !defined (ACE_LACKS_PRAGMA_ONCE) # pragma once #endif /* ACE_LACKS_PRAGMA_ONCE */ /** * @class ACE_Process_Options * * @brief Process Options * * This class controls the options passed to (or * and ). * Notice that on Windows CE, creating a process merely means * instantiating a new process. You can't set the handles (since * there's no stdin, stdout and stderr,) specify process/thread * options, set environment,... So, basically, this class only * set the command line and nothing else. * Notice that on UNIX platforms, if the is used, the * is using the system call. It means that the * should include a full path to the program file * ( does not search the PATH). If is not used * then, the is using the which searches for the * program file in the PATH variable. */ class ACE_Export ACE_Process_Options { public: enum { DEFAULT_COMMAND_LINE_BUF_LEN = 1024, // UNIX process creation flags. #if defined (ACE_WIN32) NO_EXEC = 0 #else NO_EXEC = 1 #endif /* ACE_WIN32 */ }; protected: // = Default settings not part of public Interface. // // @@todo These sizes should be taken from the appropriate // POSIX/system header files and/or defined dynamically. enum { MAX_COMMAND_LINE_OPTIONS = 128, ENVIRONMENT_BUFFER = 16 * 1024, // 16K MAX_ENVIRONMENT_ARGS = 512 // }; public: /** * If == 1, the new process will inherit the * environment of the current process. is the * max strlen for command-line arguments. */ ACE_Process_Options (int inherit_environment = 1, int command_line_buf_len = DEFAULT_COMMAND_LINE_BUF_LEN, int env_buf_len = ENVIRONMENT_BUFFER, int max_env_args = MAX_ENVIRONMENT_ARGS); /// Destructor. ~ACE_Process_Options (void); // = Methods to set process creation options portably. /** * Set the standard handles of the new process to the respective * handles. If you want to affect a subset of the handles, make * sure to set the others to ACE_INVALID_HANDLE. Returns 0 on * success, -1 on failure. */ int set_handles (ACE_HANDLE std_in, ACE_HANDLE std_out = ACE_INVALID_HANDLE, ACE_HANDLE std_err = ACE_INVALID_HANDLE); /// must be of the form "VARIABLE=VALUE". There can not be /// any spaces between VARIABLE and the equal sign. int setenv (const ACE_TCHAR *format, ...); /** * Set a single environment variable, . Since * different platforms separate each environment variable * differently, you must call this method once for each variable. * can be any printf format string. So options->setenv * ("FOO","one + two = %s", "three") will result in "FOO=one + two = * three". */ int setenv (const ACE_TCHAR *variable_name, const ACE_TCHAR *format, ...); /// Same as above with argv format. must be null terminated. int setenv (ACE_TCHAR *envp[]); /// Set the working directory for the process. strlen of must /// be <= MAXPATHLEN. void working_directory (const char *wd); #if defined (ACE_HAS_WCHAR) /// wchar_t version of working_directory void working_directory (const wchar_t *wd); #endif /* ACE_HAS_WCHAR */ /** * Set the command-line arguments. can use any printf * formats. The first token in should be the path to the * application. This can either be a full path, relative path, or * just an executable name. If an executable name is used, we rely * on the platform's support for searching paths. Since we need a * path to run a process, this method *must* be called! Returns 0 * on success, -1 on failure. */ int command_line (const ACE_TCHAR *format, ...); #if defined (ACE_HAS_WCHAR) && !defined (ACE_HAS_WINCE) /// Anti-TChar version of command_line () int command_line (const ACE_ANTI_TCHAR *format, ...); #endif /* ACE_HAS_WCHAR && !ACE_HAS_WINCE */ /// Same as above in argv format. must be null terminated. int command_line (const ACE_TCHAR * const argv[]); // = Set/get the pathname used to name the process. /** * Specify the full path or relative path, or just the executable * name for the process. If this is set, then will be used to * create the process instead of argv[0] set in the command * line. This is here so that you can supply something other than * executable name as argv[0]. */ void process_name (const ACE_TCHAR *name); /// Return the process_name. If the set /// method is not called, this method will return argv[0]. const ACE_TCHAR *process_name (void); // = Set/get creation flags. /// Get the creation flags. /// Set the creation flags. u_long creation_flags (void) const; void creation_flags (u_long); // = uses these operations to retrieve option values. /// Current working directory. Returns "" if nothing has been set. ACE_TCHAR *working_directory (void); /// Buffer of command-line options. Returns exactly what was passed /// to this->command_line. If @arg max_len is not 0, receives the /// maximum length of the command line buffer. ACE_TCHAR *command_line_buf (int *max_len = 0); /** * argv-style command-line options. Parses and modifies the string * created from . All spaces not in quotes ("" or * '') are replaced with null (\0) bytes. An argv array is built * and returned with each entry pointing to the start of * null-terminated string. Returns { 0 } if nothing has been set. */ ACE_TCHAR * const *command_line_argv (void); /** * Null-terminated buffer of null terminated strings. Each string * is an environment assignment "VARIABLE=value". This buffer * should end with two null characters. */ ACE_TCHAR *env_buf (void); // = Get/set process group. /// On UNIX, these methods are used by the to /// manage groups of processes. pid_t getgroup (void) const; pid_t setgroup (pid_t pgrp); /// Default is TRUE. /// Allows disabling of handle inheritence. int handle_inheritence (void); void handle_inheritence (int); /// Cause the specified handle to be passed to a child process /// when it runs a new program image. /** * The specified handle value will be included in the spawned * process's command line as @arg +H @arg handle, if a new * program is spawned (always on Win32; else if NO_EXEC is not * set in creation flags). The passed handle value will be * duplicated if on Win32 less capable than NT. * @return 0 if success, -1 if failure. */ int pass_handle (ACE_HANDLE); /// Get a copy of the handles the ACE_Process_Options duplicated /// for the spawned process. /** * Any handles created through duplication of those passed into * @arg pass_handle are returned in @arg set. * @return 0 if there were no handles to return; 1 if there were. */ int dup_handles (ACE_Handle_Set &set) const; /// Get a copy of the handles passed to the spawned process. This /// will be the set of handles previously passed to @arg pass_handle(). /** * Any handles previously passed to @arg pass_handle are returned * in @arg set. * @return 0 if there were no handles to return; 1 if there were. */ int passed_handles (ACE_Handle_Set &set) const; /// Set value for avoid_zombies (has no real effect except on *nix). /// Get current value for avoid_zombies. void avoid_zombies (int); int avoid_zombies (void); #if defined (ACE_WIN32) // = Non-portable accessors for when you "just have to use them." /// Used for setting and getting. ACE_TEXT_STARTUPINFO *startup_info (void); /// Get the process_attributes. Returns NULL if /// set_process_attributes has not been set. LPSECURITY_ATTRIBUTES get_process_attributes (void) const; /// If this is called, a non-null process attributes is sent to /// CreateProcess. LPSECURITY_ATTRIBUTES set_process_attributes (void); /// Get the thread_attributes. Returns NULL if set_thread_attributes /// has not been set. LPSECURITY_ATTRIBUTES get_thread_attributes (void) const; /// If this is called, a non-null thread attributes is sent to /// CreateProcess. LPSECURITY_ATTRIBUTES set_thread_attributes (void); #else /* All things not WIN32 */ /// argv-style array of environment settings. ACE_TCHAR *const *env_argv (void); // = Accessors for the standard handles. ACE_HANDLE get_stdin (void); ACE_HANDLE get_stdout (void); ACE_HANDLE get_stderr (void); // = Set/get real & effective user & group id associated with user. int setreugid (const ACE_TCHAR* user); void setruid (uid_t id); void seteuid (uid_t id); void setrgid (uid_t id); void setegid (uid_t id); uid_t getruid (void); uid_t geteuid (void); uid_t getrgid (void); uid_t getegid (void); #endif /* ACE_WIN32 */ protected: #if !defined (ACE_HAS_WINCE) /// Add to environment_buf_ and adjust /// environment_argv_. is the strlen of . int setenv_i (ACE_TCHAR *assignment, int len); /// Whether the child process inherits the current process /// environment. int inherit_environment_; #endif /* !ACE_HAS_WINCE */ /// Default 0. u_long creation_flags_; /// Avoid zombies for spawned processes. int avoid_zombies_; #if defined (ACE_WIN32) && !defined (ACE_HAS_WINCE) /// Helper function to grab win32 environment and stick it in /// environment_buf_ using this->setenv_i. void inherit_environment (void); /// Ensures once only call to inherit environment. int environment_inherited_; ACE_TEXT_STARTUPINFO startup_info_; /// Default TRUE. BOOL handle_inheritence_; /// Pointer to security_buf1_. LPSECURITY_ATTRIBUTES process_attributes_; /// Pointer to security_buf2_. LPSECURITY_ATTRIBUTES thread_attributes_; /// Data for process_attributes_. SECURITY_ATTRIBUTES security_buf1_; /// Data for thread_attributes_. SECURITY_ATTRIBUTES security_buf2_; #else /* !ACE_WIN32 */ ACE_HANDLE stdin_; ACE_HANDLE stdout_; ACE_HANDLE stderr_; // = Real & effective user & group id's. // These should be set to -1 to leave unchanged (default). uid_t ruid_; uid_t euid_; uid_t rgid_; uid_t egid_; #endif /* ACE_WIN32 */ #if !defined (ACE_HAS_WINCE) /// Is 1 if stdhandles was called. int set_handles_called_; /// Pointer into environment_buf_. This should point to the next /// free spot. int environment_buf_index_; /// Pointer to environment_argv_. int environment_argv_index_; /// Pointer to buffer of the environment settings. ACE_TCHAR *environment_buf_; /// Size of the environment buffer. Configurable int environment_buf_len_; /// Pointers into environment_buf_. ACE_TCHAR **environment_argv_; /// Maximum number of environment variables. Configurable int max_environment_args_; /// Maximum index of environment_argv_ buffer int max_environ_argv_index_; /// The current working directory. ACE_TCHAR working_directory_[MAXPATHLEN + 1]; #endif /* !ACE_HAS_WINCE */ /// Ensures command_line_argv is only calculated once. int command_line_argv_calculated_; /// Pointer to buffer of command-line arguments. E.g., "-f foo -b bar". ACE_TCHAR *command_line_buf_; /// Max length of command_line_buf_ int command_line_buf_len_; /// Argv-style command-line arguments. ACE_TCHAR *command_line_argv_[MAX_COMMAND_LINE_OPTIONS]; /// Process-group on Unix; unused on Win32. pid_t process_group_; /// Set of handles that were passed in pass_handle (). ACE_Handle_Set handles_passed_; /// Results of duplicating handles passed in pass_handle (). ACE_Handle_Set dup_handles_; /// Pathname for the process. Relative path or absolute path or just /// the program name. ACE_TCHAR process_name_[MAXPATHLEN + 1]; }; /** * @class ACE_Process * * @brief Process * * A Portable encapsulation for creating new processes. * Notice that on UNIX platforms, if the is used, the * is using the system call. It means that the * should include a full path to the program file * ( does not search the PATH). If is not used * then, the is using the which searches for the * program file in the PATH variable. */ class ACE_Export ACE_Process { public: /// Default construction. Must use to start. ACE_Process (void); /// Destructor. virtual ~ACE_Process (void); /** * Called just before in the . If this * returns non-zero, the is aborted (and returns * ACE_INVALID_PID). The default simply returns zero. */ virtual int prepare (ACE_Process_Options &options); /** * Launch a new process as described by . Returns the * process id of the newly spawned child on success or -1 on * failure. */ virtual pid_t spawn (ACE_Process_Options &options); /// Called just after in the parent's context, if the /// succeeds. The default is to do nothing. virtual void parent (pid_t child); /** * Called just after in the child's context. The * default does nothing. This function is *not* called on Win32 * because the process-creation scheme does not allow it. */ virtual void child (pid_t parent); /// Called by a that is removing this Process from /// its table of managed Processes. Default is to do nothing. virtual void unmanage (void); /** * Wait for the process we've created to exit. If != 0, it * points to an integer where the function store the exit status of * child process to. If == then return 0 * and don't block if the child process hasn't exited yet. A return * value of -1 represents the operation failed, otherwise, * the child process id is returned. */ pid_t wait (ACE_exitcode *status = 0, int wait_options = 0); /** * Timed wait for the process we've created to exit. A return value * of -1 indicates that the something failed; 0 indicates that a * timeout occurred. Otherwise, the child's process id is returned. * If != 0, it points to an integer where the function * stores the child's exit status. * * NOTE: on UNIX platforms this function uses , i.e., it * overwrites any existing alarm. In addition, it steals all * s during the timeout period, which will break another * in the same process that's expecting * to kick off process reaping. */ pid_t wait (const ACE_Time_Value &tv, ACE_exitcode *status = 0); /// Send the process a signal. This is only portable to operating /// systems that support signals, such as UNIX/POSIX. int kill (int signum = SIGINT); /** * Terminate the process abruptly using . * This call doesn't give the process a chance to cleanup, so use it * with caution... */ int terminate (void); /// Return the process id of the new child process. pid_t getpid (void) const; /// Return the handle of the process, if it has one. ACE_HANDLE gethandle (void) const; /// Return 1 if running; 0 otherwise. int running (void) const; /// Return the Process' exit code int exit_code (void) const; /// Set the Process' exit code (completely unrelated to whether the /// Process has actually exited)! void exit_code (int code); /// Close all the handles in the set obtained from the /// @arg ACE_Process_Options::dup_handles object used to spawn /// the process. void close_dup_handles (void); /// Close all the handles in the set obtained from the /// @arg ACE_Process_Options::passed_handles object used to spawn /// the process. void close_passed_handles (void); #if defined (ACE_WIN32) PROCESS_INFORMATION process_info (void); #endif /* ACE_WIN32 */ protected: #if defined (ACE_WIN32) PROCESS_INFORMATION process_info_; #else /* ACE_WIN32 */ /// Process id of the child. pid_t child_id_; #endif /* ACE_WIN32 */ int exit_code_; /// Set of handles that were passed to the child process. ACE_Handle_Set handles_passed_; /// Handle duplicates made for the child process. ACE_Handle_Set dup_handles_; }; /** * @class ACE_Managed_Process * * @brief A process easily managed by ACE_Process_Manager. * * @arg ACE_Managed_Process is just an @arg ACE_Process with an * @arg unmanage method that deletes the instance. * This class is only valid for use as a dynamically-allocated object! */ class ACE_Export ACE_Managed_Process : public ACE_Process { public: ACE_Managed_Process (); virtual void unmanage (void); // Cleanup by deleting . private: virtual ~ACE_Managed_Process (void); // Make sure that we're allocated dynamically! friend class ace_dewarn_gplusplus; // Keep G++ happy... }; #include "ace/SString.h" #if defined (__ACE_INLINE__) #include "ace/Process.i" #endif /* __ACE_INLINE__ */ #include "ace/post.h" #endif /* ACE_PROCESS_H */