// $Id$ #define ACE_BUILD_DLL #include "ace/Process.h" #include "ace/ARGV.h" #include "ace/SString.h" #if !defined (__ACE_INLINE__) #include "ace/Process.i" #endif /* __ACE_INLINE__ */ ACE_RCSID(ace, Process, "$Id$") ACE_Process::ACE_Process (void) #if !defined (ACE_WIN32) : child_id_ (0) #endif /* !defined (ACE_WIN32) */ { #if defined (ACE_WIN32) ACE_OS::memset ((void *) &this->process_info_, 0, sizeof this->process_info_); #endif /* ACE_WIN32 */ } ACE_Process::~ACE_Process (void) { #if defined (ACE_WIN32) // Free resources allocated in kernel. ACE_OS::close (this->process_info_.hThread); ACE_OS::close (this->process_info_.hProcess); #endif /* ACE_WIN32 */ } pid_t ACE_Process::spawn (ACE_Process_Options &options) { #if defined (ACE_WIN32) BOOL fork_result = ::CreateProcess (0, options.command_line_buf (), // command-line options options.get_process_attributes (), options.get_thread_attributes (), options.handle_inheritence (), options.creation_flags (), options.env_buf (), // environment variables options.working_directory (), options.startup_info (), &this->process_info_); if (fork_result) // If success. return this->getpid (); else // CreateProcess failed. return -1; #else /* ACE_WIN32 */ // Fork the new process. this->child_id_ = ACE_OS::fork (options.command_line_argv ()[0]); // If we're not supposed to exec, return the process id. if (ACE_BIT_ENABLED (options.creation_flags (), ACE_Process_Options::NO_EXEC)) return this->child_id_; switch (this->child_id_) { case -1: // Error. return -1; case 0: // Child process. { if (options.get_stdin () != ACE_INVALID_HANDLE && ACE_OS::dup2 (options.get_stdin (), ACE_STDIN) == -1) ACE_OS::exit (errno); else if (options.get_stdout () != ACE_INVALID_HANDLE && ACE_OS::dup2 (options.get_stdout (), ACE_STDOUT) == -1) ACE_OS::exit (errno); else if (options.get_stderr () != ACE_INVALID_HANDLE && ACE_OS::dup2 (options.get_stderr (), ACE_STDERR) == -1) ACE_OS::exit (errno); // close down unneeded descriptors ACE_OS::close (options.get_stdin ()); ACE_OS::close (options.get_stdout ()); ACE_OS::close (options.get_stderr ()); // If we must, set the working directory for the child process. if (options.working_directory () != 0) ACE_OS::chdir (options.working_directory ()); // Child process executes the command. int result; if (options.env_argv ()[0] == 0) // command-line args result = ACE_OS::execvp (options.command_line_argv ()[0], options.command_line_argv ()); else { #if defined( ghs ) // GreenHills 1.8.8 (for VxWorks 5.3.x) can't compile // this code. Processes aren't supported on VxWorks // anyways. ACE_NOTSUP_RETURN (-1); #else // command-line args and environment variables result = ACE_OS::execve (options.command_line_argv ()[0], options.command_line_argv (), options.env_argv ()); #endif /* ghs */ } if (result == -1) { // If the execv fails, this child needs to exit. // Exit with the errno so that the calling process can // catch this and figure out what went wrong. ACE_OS::exit (errno); } return 0; } default: // Server process. The fork succeeded. return this->child_id_; } #endif /* ACE_WIN32 */ } int ACE_Process::wait (int *status) { #if defined (ACE_WIN32) // Notice that status doesn't get updated. int retv; // Don't try to get the process exit status if wait failed so we can // keep the original error code intact. if ((retv = ::WaitForSingleObject (process_info_.hProcess, INFINITE)) != WAIT_FAILED && status != 0) // The error status of GetExitCodeProcess is nontheless not tested. // (Don't know how to return the value.) ::GetExitCodeProcess (process_info_.hProcess, (LPDWORD) status); return retv; #else /* ACE_WIN32 */ return ACE_OS::waitpid (this->child_id_, status, 0); #endif /* ACE_WIN32 */ } int ACE_Process::wait (const ACE_Time_Value &tv) { #if defined (ACE_WIN32) return ::WaitForSingleObject (process_info_.hProcess, tv.msec ()); #else /* ACE_WIN32 */ ACE_UNUSED_ARG (tv); ACE_NOTSUP_RETURN (-1); #endif /* ACE_WIN32 */ } // ************************************************************ ACE_Process_Options::ACE_Process_Options (int ie, int cobl, int ebl, int mea) : #if !defined (ACE_HAS_WINCE) inherit_environment_ (ie), #endif creation_flags_ (0), #if !defined (ACE_HAS_WINCE) #if defined (ACE_WIN32) environment_inherited_ (0), handle_inheritence_ (TRUE), process_attributes_ (NULL), thread_attributes_ (NULL), #else /* ACE_WIN32 */ stdin_ (ACE_INVALID_HANDLE), stdout_ (ACE_INVALID_HANDLE), stderr_ (ACE_INVALID_HANDLE), #endif /* ACE_WIN32 */ set_handles_called_ (0), environment_buf_index_ (0), environment_argv_index_ (0), environment_buf_ (0), environment_buf_len_ (ebl), max_environment_args_ (mea), max_environ_argv_index_ (mea - 1), #endif /* !ACE_HAS_WINCE */ command_line_argv_calculated_ (0), command_line_buf_ (0) { ACE_NEW (command_line_buf_, TCHAR[cobl]); command_line_buf_[0] = '\0'; #if !defined (ACE_HAS_WINCE) working_directory_[0] = '\0'; ACE_NEW (environment_buf_, TCHAR[ebl]); ACE_NEW (environment_argv_, LPTSTR[mea]); environment_buf_[0] = '\0'; environment_argv_[0] = 0; #if defined (ACE_WIN32) ACE_OS::memset ((void *) &this->startup_info_, 0, sizeof this->startup_info_); this->startup_info_.cb = sizeof this->startup_info_; #endif /* ACE_WIN32 */ #endif /* !ACE_HAS_WINCE */ } #if !defined (ACE_HAS_WINCE) #if defined (ACE_WIN32) // Notice that CE version is an empty function and is placed // in Process.i for efficiency. void ACE_Process_Options::inherit_environment (void) { // Ensure only once execution. if (environment_inherited_) return; environment_inherited_ = 1; // Get the existing environment. LPTSTR existing_environment = ::GetEnvironmentStrings (); int index = 0; while (existing_environment[index] != '\0') { int len = ACE_OS::strlen (existing_environment + index); // Add the string to our env buffer. if (this->setenv_i (existing_environment+index, len) == -1) { ACE_ERROR ((LM_ERROR, "%p.\n", "ACE_Process_Options::ACE_Process_Options")); break; } // Skip to the next word. index += len + 1; } ::FreeEnvironmentStrings (existing_environment); } #else /* defined ACE_WIN32 */ char * const * ACE_Process_Options::command_line_argv (void) { if (command_line_argv_calculated_ == 0) { command_line_argv_calculated_ = 1; // This tokenizer will replace all spaces with end-of-string // characters and will preserve text between "" and '' pairs. ACE_Tokenizer parser (command_line_buf_); parser.delimiter_replace (' ', '\0'); parser.preserve_designators ('\"', '\"'); // " parser.preserve_designators ('\'', '\''); int x = 0; do { command_line_argv_[x] = parser.next (); } while (command_line_argv_[x] != 0 && // substract one for the ending zero. ++x < MAX_COMMAND_LINE_OPTIONS-1); command_line_argv_[x] = 0; } return command_line_argv_; } char * const * ACE_Process_Options::env_argv (void) { return environment_argv_; } #endif /* ACE_WIN32 */ int ACE_Process_Options::setenv (LPTSTR envp[]) { int i = 0; while (envp[i]) { if (this->setenv_i (envp[i], ACE_OS::strlen (envp[i])) == -1) return -1; i++; } #if defined (ACE_WIN32) if (inherit_environment_) this->inherit_environment (); #endif /* ACE_WIN32 */ return 0; } int ACE_Process_Options::setenv (LPCTSTR format, ...) { TCHAR stack_buf[DEFAULT_COMMAND_LINE_BUF_LEN]; // Start varargs. va_list argp; va_start (argp, format); // Add the rest of the varargs. ACE_OS::vsprintf (stack_buf, format, argp); // End varargs. va_end (argp); // Append the string to are environment buffer. if (this->setenv_i (stack_buf, ACE_OS::strlen (stack_buf)) == -1) return -1; #if defined (ACE_WIN32) if (inherit_environment_) this->inherit_environment (); #endif /* ACE_WIN32 */ return 0; } int ACE_Process_Options::setenv (LPCTSTR variable_name, LPCTSTR format, ...) { TCHAR newformat[DEFAULT_COMMAND_LINE_BUF_LEN]; // Add in the variable name. ACE_OS::sprintf (newformat, __TEXT ("%s=%s"), variable_name, format); TCHAR stack_buf[DEFAULT_COMMAND_LINE_BUF_LEN]; // Start varargs. va_list argp; va_start (argp, format); // Add the rest of the varargs. ACE_OS::vsprintf (stack_buf, newformat, argp); // End varargs. va_end (argp); // Append the string to our environment buffer. if (this->setenv_i (stack_buf, ACE_OS::strlen (stack_buf)) == -1) return -1; #if defined (ACE_WIN32) if (inherit_environment_) this->inherit_environment (); #endif /* ACE_WIN32 */ return 0; } int ACE_Process_Options::setenv_i (LPTSTR assignment, int len) { // Add one for the null char. len++; // If environment larger than allocated buffer return. Also check to // make sure we have enough room. if ( environment_argv_index_ == max_environ_argv_index_ || (len + environment_buf_index_) >= environment_buf_len_ ) { return -1; } // Copy the new environment string. ACE_OS::memcpy (environment_buf_ + environment_buf_index_, assignment, len * sizeof (TCHAR)); // Update the argv array. environment_argv_[environment_argv_index_++] = environment_buf_ + environment_buf_index_; environment_argv_[environment_argv_index_] = 0; // Update our index. environment_buf_index_ += len; // Make sure the buffer is null-terminated. environment_buf_[environment_buf_index_] = '\0'; return 0; } int ACE_Process_Options::set_handles (ACE_HANDLE std_in, ACE_HANDLE std_out, ACE_HANDLE std_err) { this->set_handles_called_ = 1; #if defined (ACE_WIN32) // Tell the new process to use our std handles. this->startup_info_.dwFlags = STARTF_USESTDHANDLES; if (std_in == ACE_INVALID_HANDLE) std_in = ACE_STDIN; if (std_out == ACE_INVALID_HANDLE) std_out = ACE_STDOUT; if (std_err == ACE_INVALID_HANDLE) std_err = ACE_STDERR; if (!::DuplicateHandle (::GetCurrentProcess(), std_in, ::GetCurrentProcess(), &this->startup_info_.hStdInput, NULL, TRUE, DUPLICATE_SAME_ACCESS)) return -1; if (!::DuplicateHandle (::GetCurrentProcess(), std_out, ::GetCurrentProcess(), &this->startup_info_.hStdOutput, NULL, TRUE, DUPLICATE_SAME_ACCESS)) return -1; if (!::DuplicateHandle (::GetCurrentProcess(), std_err, ::GetCurrentProcess(), &this->startup_info_.hStdError, NULL, TRUE, DUPLICATE_SAME_ACCESS)) return -1; #else /* ACE_WIN32 */ this->stdin_ = ACE_OS::dup (std_in); this->stdout_ = ACE_OS::dup (std_out); this->stderr_ = ACE_OS::dup (std_err); #endif /* ACE_WIN32 */ return 0; // Success. } #endif /* !ACE_HAS_WINCE */ ACE_Process_Options::~ACE_Process_Options (void) { #if !defined (ACE_HAS_WINCE) if (set_handles_called_) { #if defined (ACE_WIN32) ACE_OS::close (startup_info_.hStdInput); ACE_OS::close (startup_info_.hStdOutput); ACE_OS::close (startup_info_.hStdError); #else /* ACE_WIN32 */ ACE_OS::close (stdin_); ACE_OS::close (stdout_); ACE_OS::close (stderr_); #endif /* ACE_WIN32 */ set_handles_called_ = 0; } delete [] environment_buf_; delete [] environment_argv_; #endif /* !ACE_HAS_WINCE */ delete [] command_line_buf_; } int ACE_Process_Options::command_line (LPTSTR argv[]) { int i; if (argv[i = 0]) { ACE_OS::strcat (command_line_buf_, argv[i]); while (argv[++i]) { ACE_OS::strcat (command_line_buf_, __TEXT (" ")); ACE_OS::strcat (command_line_buf_, argv[i]); } } return 0; // Success. } int ACE_Process_Options::command_line (LPCTSTR format, ...) { // Store all ... args in argp. va_list argp; va_start (argp, format); // sprintf the format and args into command_line_buf__. ACE_OS::vsprintf (command_line_buf_, format, argp); // Useless macro. va_end (argp); return 0; } LPTSTR ACE_Process_Options::env_buf (void) { #if !defined (ACE_HAS_WINCE) if (environment_buf_[0] == '\0') return 0; else return environment_buf_; #else return 0; #endif /* !ACE_HAS_WINCE */ }