/* ---------------------------------------------------------------------------- (c) The University of Glasgow 2004 Support for System.Process ------------------------------------------------------------------------- */ /* XXX This is a nasty hack; should put everything necessary in this package */ #include "HsBase.h" #include "Rts.h" #include "runProcess.h" #if !(defined(_MSC_VER) || defined(__MINGW32__) || defined(_WIN32)) #include "execvpe.h" /* ---------------------------------------------------------------------------- UNIX versions ------------------------------------------------------------------------- */ static void disableItimers() { #if !defined(USE_TIMER_CREATE) // we only need to do this if we're using itimers, because // timer_create timers are not carried across a fork(). stopTimer(); #endif } ProcHandle runProcess (char *const args[], char *workingDirectory, char **environment, int fdStdInput, int fdStdOutput, int fdStdError, int set_inthandler, long inthandler, int set_quithandler, long quithandler) { int pid; struct sigaction dfl; switch(pid = fork()) { case -1: return -1; case 0: { disableItimers(); if (workingDirectory) { if (chdir (workingDirectory) < 0) { // See #1593. The convention for the exit code when // exec() fails seems to be 127 (gleened from C's // system()), but there's no equivalent convention for // chdir(), so I'm picking 126 --SimonM. _exit(126); } } /* Set the SIGINT/SIGQUIT signal handlers in the child, if requested */ (void)sigemptyset(&dfl.sa_mask); dfl.sa_flags = 0; if (set_inthandler) { dfl.sa_handler = (void *)inthandler; (void)sigaction(SIGINT, &dfl, NULL); } if (set_quithandler) { dfl.sa_handler = (void *)quithandler; (void)sigaction(SIGQUIT, &dfl, NULL); } dup2 (fdStdInput, STDIN_FILENO); dup2 (fdStdOutput, STDOUT_FILENO); dup2 (fdStdError, STDERR_FILENO); if (environment) { execvpe(args[0], args, environment); } else { execvp(args[0], args); } } _exit(127); } return pid; } ProcHandle runInteractiveProcess (char *const args[], char *workingDirectory, char **environment, int *pfdStdInput, int *pfdStdOutput, int *pfdStdError) { int pid; int fdStdInput[2], fdStdOutput[2], fdStdError[2]; pipe(fdStdInput); pipe(fdStdOutput); pipe(fdStdError); switch(pid = fork()) { case -1: close(fdStdInput[0]); close(fdStdInput[1]); close(fdStdOutput[0]); close(fdStdOutput[1]); close(fdStdError[0]); close(fdStdError[1]); return -1; case 0: { disableItimers(); if (workingDirectory) { if (chdir (workingDirectory) < 0) { // See #1593. The convention for the exit code when // exec() fails seems to be 127 (gleened from C's // system()), but there's no equivalent convention for // chdir(), so I'm picking 126 --SimonM. _exit(126); } } if (fdStdInput[0] != STDIN_FILENO) { dup2 (fdStdInput[0], STDIN_FILENO); close(fdStdInput[0]); } if (fdStdOutput[1] != STDOUT_FILENO) { dup2 (fdStdOutput[1], STDOUT_FILENO); close(fdStdOutput[1]); } if (fdStdError[1] != STDERR_FILENO) { dup2 (fdStdError[1], STDERR_FILENO); close(fdStdError[1]); } close(fdStdInput[1]); close(fdStdOutput[0]); close(fdStdError[0]); /* the child */ if (environment) { execvpe(args[0], args, environment); } else { execvp(args[0], args); } } _exit(127); default: close(fdStdInput[0]); close(fdStdOutput[1]); close(fdStdError[1]); *pfdStdInput = fdStdInput[1]; *pfdStdOutput = fdStdOutput[0]; *pfdStdError = fdStdError[0]; break; } return pid; } int terminateProcess (ProcHandle handle) { return (kill(handle, SIGTERM) == 0); } int getProcessExitCode (ProcHandle handle, int *pExitCode) { int wstat, res; *pExitCode = 0; if ((res = waitpid(handle, &wstat, WNOHANG)) > 0) { if (WIFEXITED(wstat)) { *pExitCode = WEXITSTATUS(wstat); return 1; } else if (WIFSIGNALED(wstat)) { errno = EINTR; return -1; } else { /* This should never happen */ } } if (res == 0) return 0; if (errno == ECHILD) { *pExitCode = 0; return 1; } return -1; } int waitForProcess (ProcHandle handle) { int wstat; while (waitpid(handle, &wstat, 0) < 0) { if (errno != EINTR) { return -1; } } if (WIFEXITED(wstat)) return WEXITSTATUS(wstat); else if (WIFSIGNALED(wstat)) { return wstat; } else { /* This should never happen */ } return -1; } #else /* ---------------------------------------------------------------------------- Win32 versions ------------------------------------------------------------------------- */ /* -------------------- WINDOWS VERSION --------------------- */ /* * Function: mkAnonPipe * * Purpose: create an anonymous pipe with read and write ends being * optionally (non-)inheritable. */ static BOOL mkAnonPipe (HANDLE* pHandleIn, BOOL isInheritableIn, HANDLE* pHandleOut, BOOL isInheritableOut) { HANDLE hTemporaryIn = NULL; HANDLE hTemporaryOut = NULL; BOOL status; SECURITY_ATTRIBUTES sec_attrs; /* Create inheritable security attributes */ sec_attrs.nLength = sizeof(SECURITY_ATTRIBUTES); sec_attrs.lpSecurityDescriptor = NULL; sec_attrs.bInheritHandle = TRUE; /* Create the anon pipe with both ends inheritable */ if (!CreatePipe(&hTemporaryIn, &hTemporaryOut, &sec_attrs, 0)) { maperrno(); *pHandleIn = NULL; *pHandleOut = NULL; return FALSE; } if (isInheritableIn) *pHandleIn = hTemporaryIn; else { /* Make the read end non-inheritable */ status = DuplicateHandle(GetCurrentProcess(), hTemporaryIn, GetCurrentProcess(), pHandleIn, 0, FALSE, /* non-inheritable */ DUPLICATE_SAME_ACCESS); CloseHandle(hTemporaryIn); if (!status) { maperrno(); *pHandleIn = NULL; *pHandleOut = NULL; CloseHandle(hTemporaryOut); return FALSE; } } if (isInheritableOut) *pHandleOut = hTemporaryOut; else { /* Make the write end non-inheritable */ status = DuplicateHandle(GetCurrentProcess(), hTemporaryOut, GetCurrentProcess(), pHandleOut, 0, FALSE, /* non-inheritable */ DUPLICATE_SAME_ACCESS); CloseHandle(hTemporaryOut); if (!status) { maperrno(); *pHandleIn = NULL; *pHandleOut = NULL; CloseHandle(*pHandleIn); return FALSE; } } return TRUE; } ProcHandle runProcess (char *cmd, char *workingDirectory, void *environment, int fdStdInput, int fdStdOutput, int fdStdError) { STARTUPINFO sInfo; PROCESS_INFORMATION pInfo; DWORD flags; ZeroMemory(&sInfo, sizeof(sInfo)); sInfo.cb = sizeof(sInfo); sInfo.hStdInput = (HANDLE) _get_osfhandle(fdStdInput); sInfo.hStdOutput= (HANDLE) _get_osfhandle(fdStdOutput); sInfo.hStdError = (HANDLE) _get_osfhandle(fdStdError); if (sInfo.hStdInput == INVALID_HANDLE_VALUE) sInfo.hStdInput = NULL; if (sInfo.hStdOutput == INVALID_HANDLE_VALUE) sInfo.hStdOutput = NULL; if (sInfo.hStdError == INVALID_HANDLE_VALUE) sInfo.hStdError = NULL; if (sInfo.hStdInput || sInfo.hStdOutput || sInfo.hStdError) sInfo.dwFlags = STARTF_USESTDHANDLES; if (sInfo.hStdInput != GetStdHandle(STD_INPUT_HANDLE) && sInfo.hStdOutput != GetStdHandle(STD_OUTPUT_HANDLE) && sInfo.hStdError != GetStdHandle(STD_ERROR_HANDLE)) flags = CREATE_NO_WINDOW; // Run without console window only when both output and error are redirected else flags = 0; if (!CreateProcess(NULL, cmd, NULL, NULL, TRUE, flags, environment, workingDirectory, &sInfo, &pInfo)) { maperrno(); return -1; } CloseHandle(pInfo.hThread); return (ProcHandle)pInfo.hProcess; } ProcHandle runInteractiveProcess (char *cmd, char *workingDirectory, void *environment, int *pfdStdInput, int *pfdStdOutput, int *pfdStdError) { STARTUPINFO sInfo; PROCESS_INFORMATION pInfo; HANDLE hStdInputRead, hStdInputWrite; HANDLE hStdOutputRead, hStdOutputWrite; HANDLE hStdErrorRead, hStdErrorWrite; if (!mkAnonPipe(&hStdInputRead, TRUE, &hStdInputWrite, FALSE)) return -1; if (!mkAnonPipe(&hStdOutputRead, FALSE, &hStdOutputWrite, TRUE)) { CloseHandle(hStdInputRead); CloseHandle(hStdInputWrite); return -1; } if (!mkAnonPipe(&hStdErrorRead, FALSE, &hStdErrorWrite, TRUE)) { CloseHandle(hStdInputRead); CloseHandle(hStdInputWrite); CloseHandle(hStdOutputRead); CloseHandle(hStdOutputWrite); return -1; } ZeroMemory(&sInfo, sizeof(sInfo)); sInfo.cb = sizeof(sInfo); sInfo.dwFlags = STARTF_USESTDHANDLES; sInfo.hStdInput = hStdInputRead; sInfo.hStdOutput= hStdOutputWrite; sInfo.hStdError = hStdErrorWrite; if (!CreateProcess(NULL, cmd, NULL, NULL, TRUE, CREATE_NO_WINDOW, environment, workingDirectory, &sInfo, &pInfo)) { maperrno(); CloseHandle(hStdInputRead); CloseHandle(hStdInputWrite); CloseHandle(hStdOutputRead); CloseHandle(hStdOutputWrite); CloseHandle(hStdErrorRead); CloseHandle(hStdErrorWrite); return -1; } CloseHandle(pInfo.hThread); // Close the ends of the pipes that were inherited by the // child process. This is important, otherwise we won't see // EOF on these pipes when the child process exits. CloseHandle(hStdInputRead); CloseHandle(hStdOutputWrite); CloseHandle(hStdErrorWrite); *pfdStdInput = _open_osfhandle((intptr_t) hStdInputWrite, _O_WRONLY); *pfdStdOutput = _open_osfhandle((intptr_t) hStdOutputRead, _O_RDONLY); *pfdStdError = _open_osfhandle((intptr_t) hStdErrorRead, _O_RDONLY); return (int) pInfo.hProcess; } int terminateProcess (ProcHandle handle) { if (!TerminateProcess((HANDLE) handle, 1)) { maperrno(); return -1; } return 0; } int getProcessExitCode (ProcHandle handle, int *pExitCode) { *pExitCode = 0; if (WaitForSingleObject((HANDLE) handle, 1) == WAIT_OBJECT_0) { if (GetExitCodeProcess((HANDLE) handle, (DWORD *) pExitCode) == 0) { maperrno(); return -1; } return 1; } return 0; } int waitForProcess (ProcHandle handle) { DWORD retCode; if (WaitForSingleObject((HANDLE) handle, INFINITE) == WAIT_OBJECT_0) { if (GetExitCodeProcess((HANDLE) handle, &retCode) == 0) { maperrno(); return -1; } return retCode; } maperrno(); return -1; } #endif /* Win32 */