/*************************************************************************** CProcess.c The process management class (c) 2000-2007 Benoit Minisini This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 1, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. ***************************************************************************/ #define __GBX_C_PROCESS_C #include "gbx_info.h" #ifndef GBX_INFO #include "gb_common.h" #include "gb_common_buffer.h" #include #include #include #include #include #include #include /* granpt(), unlockpt() and ptsname() unavailable under OpenBSD and are replaced with openpty() implementation because of security issues */ #ifdef OS_OPENBSD #include #endif #include "gb_replace.h" #include "gbx_api.h" #include "gambas.h" #include "gbx_stream.h" #include "gb_array.h" #include "gbx_exec.h" #include "gbx_class.h" #include "gbx_watch.h" #include "gbx_project.h" #include "gbx_c_array.h" #include "gbx_c_process.h" //#define DEBUG_ME extern char **environ; DECLARE_EVENT(EVENT_Read); DECLARE_EVENT(EVENT_Error); DECLARE_EVENT(EVENT_Kill); static CPROCESS *RunningProcessList = NULL; static int _pipe_child[2]; static bool _init = FALSE; static int _last_status = 0; static void init_child(void); static void exit_child(void); static void callback_write(int fd, int type, CPROCESS *process) { if (process->to_string) { int n = read(fd, COMMON_buffer, 256); if (n > 0) { STRING_add(&process->result, COMMON_buffer, n); CSTREAM_stream(process)->process.read_something = TRUE; #ifdef DEBUG_ME fprintf(stderr, "callback_write: result = '%s'\n", process->result); #endif } } else if (!STREAM_eof(CSTREAM_stream(process))) //process->running && GB_Raise(process, EVENT_Read, 0); } static int callback_error(int fd, int type, CPROCESS *process) { /*fprintf(stderr, ">> Write\n"); fflush(stderr);*/ char buffer[1024]; int n; n = read(fd, buffer, sizeof(buffer)); if (n <= 0) /* || !process->running)*/ { /*close(process->err);*/ return TRUE; } /*printf("callback_error: (%d) %.*s\n", n, n, buffer);*/ GB_Raise(process, EVENT_Error, 1, GB_T_STRING, buffer, n); return FALSE; /*fprintf(stderr, "<< Write\n"); fflush(stderr);*/ } static void update_stream(CPROCESS *process) { STREAM *stream = &process->ob.stream; stream->type = &STREAM_process; (*stream->type->open)(stream, NULL, 0, process); } static void init_process(CPROCESS *process) { process->watch = GB_WATCH_NONE; process->in = process->out = process->err = -1; update_stream(process); process->tag.type = GB_T_NULL; } static void exit_process(CPROCESS *_object) { /* Normalement impossible */ /* if (THIS->running) { fprintf(stderr, "WARNING: CPROCESS_free: running ?\n"); stop_process(THIS); } */ #ifdef DEBUG_ME fprintf(stderr, "exit_process: %p\n", _object); #endif if (THIS->in >= 0) { if (THIS->in != THIS->out) close(THIS->in); THIS->in = -1; } if (THIS->out >= 0) { GB_Watch(THIS->out, GB_WATCH_NONE, NULL, 0); close(THIS->out); THIS->out = -1; } if (THIS->err >= 0) { GB_Watch(THIS->err, GB_WATCH_NONE, NULL, 0); close(THIS->err); THIS->err = -1; } update_stream(THIS); GB_StoreVariant(NULL, &THIS->tag); } static void stop_process_after(CPROCESS *_object) { STREAM *stream; //long long len; #ifdef DEBUG_ME fprintf(stderr, "stop_process_after: %p\n", _object); #endif /* Vidage du tampon d'erreur */ if (THIS->err >= 0) while (callback_error(THIS->err, 0, THIS) == 0); /* Vidage du tampon de sortie */ if (THIS->out >= 0) { stream = CSTREAM_stream(THIS); while (!STREAM_eof(stream)) { stream->process.read_something = FALSE; callback_write(THIS->out, 0, THIS); //GB_Raise(THIS, EVENT_Read, 0); if (!stream->process.read_something) break; } } GB_Raise(THIS, EVENT_Kill, 0); exit_process(THIS); GB_Detach(THIS); /*printf("** stop_process_after\n");*/ //GB_Unref((void **)&_object); /* Ref du post */ } static void stop_process(CPROCESS *process) { if (!process->running) return; #ifdef DEBUG_ME fprintf(stderr, "stop_process: %p\n", process); #endif /*process->pid = -1;*/ /* Remove from running process list */ if (process->prev) process->prev->next = process->next; if (process->next) process->next->prev = process->prev; if (process == RunningProcessList) RunningProcessList = process->next; process->running = FALSE; /*printf("** stop_process\n");*/ stop_process_after(process); OBJECT_UNREF(process, "stop_process"); /* Le processus ne tourne plus */ if (!RunningProcessList) exit_child(); } static void run_process(CPROCESS *process, int mode, void *cmd) { static const char *shell[] = { "sh", "-c", NULL, NULL }; int fdin[2], fdout[2], fderr[2]; pid_t pid; char **argv; CARRAY *array; int i, n; sigset_t sig, old; /* for terminal */ int fd_master = -1; int fd_slave; char *slave = NULL; struct termios termios_stdin; struct termios termios_master; init_child(); if (mode & PM_SHELL) { #ifdef DEBUG_ME fprintf(stderr, "run_process %p: %s\n", process, (char *)cmd); #endif argv = (char **)shell; argv[2] = (char *)cmd; if (argv[2] == NULL || *argv[2] == 0) { /*stop_process(process, FALSE);*/ return; } } else { array = (CARRAY *)cmd; n = ARRAY_count(array->data); if (n == 0) { /*stop_process(process, FALSE);*/ return; } ALLOC(&argv, sizeof(*argv) * (n + 1), "run_process"); memcpy(argv, array->data, sizeof(*argv) * n); argv[n] = NULL; for (i = 0; i < n; i++) { if (!argv[i]) argv[i] = ""; } #ifdef DEBUG_ME { int i; fprintf(stderr, "run_process %p: ", process); for (i = 0; i < n; i++) fprintf(stderr, "%s ", argv[i]); fprintf(stderr, "\n"); } #endif } /*printf("** run_process\n");*/ GB_Ref(process); /* Process is running */ /* Adding to the running process list */ if (RunningProcessList) RunningProcessList->prev = process; process->next = RunningProcessList; process->prev = NULL; RunningProcessList = process; process->running = TRUE; if (mode & PM_STRING) { process->to_string = TRUE; process->result = NULL; mode |= PM_READ; } if (mode & PM_TERM) { #ifdef OS_OPENBSD if (openpty(&fd_master, &fd_slave, slave, NULL, NULL)<0) THROW_SYSTEM(errno, NULL); #else fd_master = getpt(); if (fd_master < 0) THROW_SYSTEM(errno, NULL); grantpt(fd_master); unlockpt(fd_master); slave = ptsname(fd_master); #endif tcgetattr(STDIN_FILENO, &termios_stdin); } else { /* Create pipes */ if ((mode & PM_WRITE) && pipe(fdin) != 0) THROW_SYSTEM(errno, NULL); if ((mode & PM_READ) && (pipe(fdout) != 0 || pipe(fderr) != 0)) THROW_SYSTEM(errno, NULL); } /* Block SIGCHLD */ sigemptyset(&sig); sigaddset(&sig, SIGCHLD); sigprocmask(SIG_BLOCK, &sig, &old); pid = fork(); if (pid == (-1)) { stop_process(process); sigprocmask(SIG_SETMASK, &old, &sig); THROW_SYSTEM(errno, NULL); } if (pid) { process->pid = pid; #ifdef DEBUG_ME fprintf(stderr, "fork: pid = %d\n", pid); #endif /*printf("Running process %d\n", pid); fflush(NULL);*/ if (mode & PM_TERM) { tcgetattr(fd_master, &termios_master); cfmakeraw(&termios_master); //termios_master.c_lflag &= ~ECHO; tcsetattr(fd_master, TCSANOW, &termios_master); } if (mode & PM_WRITE) { if (mode & PM_TERM) { process->in = fd_master; } else { close(fdin[0]); process->in = fdin[1]; } } if (mode & PM_READ) { if (mode & PM_TERM) { process->out = fd_master; process->err = -1; } else { close(fdout[1]); close(fderr[1]); process->out = fdout[0]; process->err = fderr[0]; } fcntl(process->err, F_SETFL, fcntl(process->err, F_GETFL) | O_NONBLOCK); GB_Watch(process->out, GB_WATCH_READ, (void *)callback_write, (intptr_t)process); if (process->err >= 0) GB_Watch(process->err, GB_WATCH_READ, (void *)callback_error, (intptr_t)process); } if ((mode & PM_SHELL) == 0) { FREE(&argv, "run_process"); } sigprocmask(SIG_SETMASK, &old, &sig); } else /* child */ { sigprocmask(SIG_SETMASK, &old, &sig); if (mode & PM_TERM) { close(fd_master); setsid(); fd_slave = open(slave, O_RDWR); if (fd_slave < 0) exit(127); tcsetattr(fd_slave, TCSANOW, &termios_stdin); if (mode & PM_WRITE) { if (dup2(fd_slave, STDIN_FILENO) == -1) exit(127); } if (mode & PM_READ) { if ((dup2(fd_slave, STDOUT_FILENO) == -1) || (dup2(fd_slave, STDERR_FILENO) == -1)) exit(127); } } else { if (mode & PM_WRITE) { close(fdin[1]); if (dup2(fdin[0], STDIN_FILENO) == -1) exit(127); } if (mode & PM_READ) { close(fdout[0]); close(fderr[0]); if ((dup2(fdout[1], STDOUT_FILENO) == -1) || (dup2(fderr[1], STDERR_FILENO) == -1)) exit(127); } } // Return to the parent working directory chdir(PROJECT_oldcwd); execvp(argv[0], (char **)argv); //execve(argv[0], (char **)argv, environ); exit(127); } update_stream(process); } static void callback_child(int fd, int type, void *data) { int status; CPROCESS *process, *next; int buffer; /*old = signal(SIGCHLD, signal_child);*/ read(fd, (char *)&buffer, 1); #ifdef DEBUG_ME fprintf(stderr, "<< callback_child\n"); #endif for (process = RunningProcessList; process; ) { next = process->next; if (wait4(process->pid, &status, WNOHANG, NULL) == process->pid) { process->status = status; _last_status = status; #ifdef DEBUG_ME fprintf(stderr, "Process %d has returned %d\n", process->pid, status); #endif /*printf("** signal_child\n");*/ //GB_Ref(process); stop_process(process); //stop_process_after(process); //break; // one exit at a time // why ? } process = next; } #ifdef DEBUG_ME fprintf(stderr, ">> callback_child\n"); #endif } static void signal_child(int sig) { #ifdef DEBUG_ME fprintf(stderr, "SIGCHLD: _pipe_child[0] = %d\n", _pipe_child[0]); #endif char buffer; if (!_init) return; buffer = 42; write(_pipe_child[1], &buffer, 1); } static void init_child(void) { if (_init) return; #ifdef DEBUG_ME fprintf(stderr, "init_child()\n"); #endif if (pipe(_pipe_child) != 0) ERROR_panic("Cannot create SIGCHLD pipes"); fcntl(_pipe_child[0], F_SETFD, FD_CLOEXEC); fcntl(_pipe_child[1], F_SETFD, FD_CLOEXEC); #ifdef DEBUG_ME fprintf(stderr, "_pipe_child[0] = %d\n", _pipe_child[0]); #endif /* This may work only on Linux. Should use sigaction() instead! */ signal(SIGCHLD, signal_child); GB_Watch(_pipe_child[0], GB_WATCH_READ, (void *)callback_child, 0); _init = TRUE; } static void exit_child(void) { if (!_init) return; #ifdef DEBUG_ME fprintf(stderr, "exit_child()\n"); #endif GB_Watch(_pipe_child[0], GB_WATCH_NONE, NULL, 0); close(_pipe_child[0]); close(_pipe_child[1]); _init = FALSE; } CPROCESS *CPROCESS_create(int mode, void *cmd, char *name) { CPROCESS *process; /*printf("** CPROCESS_create <<<< \n");*/ //if (!name || !*name) // name = "Process"; OBJECT_new((void **)(void *)&process, CLASS_Process, name, OP ? (OBJECT *)OP : (OBJECT *)CP); init_process(process); run_process(process, mode, cmd); OBJECT_UNREF_KEEP(process, "CPROCESS_create"); if (!name || !*name) STREAM_blocking(CSTREAM_stream(process), TRUE); /*printf("** CPROCESS_create >>>> \n");*/ return process; } void CPROCESS_wait_for(CPROCESS *process) { //sigset_t sig, old; //bool have_sigchld; int ret; #ifdef DEBUG_ME printf("Waiting for %d\n", process->pid); #endif /*sigemptyset(&sig); sigaddset(&sig, SIGCHLD); sigprocmask(SIG_BLOCK, &sig, &old); have_sigchld = sigismember(&old, SIGCHLD); if (have_sigchld) sigdelset(&old, SIGCHLD);*/ /*if (process->to_string) { while (process->running) WATCH_loop(); } else { while (process->running) WATCH_loop(); //sigsuspend(&old); }*/ OBJECT_REF(process, "CPROCESS_wait_for"); while (process->running) { //HOOK_DEFAULT(wait, WATCH_wait)(0); #ifdef DEBUG_ME fprintf(stderr, "watching _pipe_child[0] = %d\n", _pipe_child[0]); #endif ret = WATCH_process(_pipe_child[0], process->out); if (ret == _pipe_child[0]) callback_child(_pipe_child[0], GB_WATCH_READ, 0); else if (ret == process->out) callback_write(process->out, GB_WATCH_READ, process); } OBJECT_UNREF(process, "CPROCESS_wait_for"); #if 0 { sigsuspend(&old); if (!process->running) break; #ifdef DEBUG_ME fprintf(stderr, "Waiting: %d\n", process->running); #endif sleep(10); } #endif /*if (have_sigchld) sigaddset(&old, SIGCHLD); sigprocmask(SIG_SETMASK, &old, NULL);*/ #ifdef DEBUG_ME printf("Got it !\n"); #endif } BEGIN_METHOD_VOID(CPROCESS_exit) //fprintf(stderr, "CPROCESS_exit\n"); while (RunningProcessList) stop_process(RunningProcessList); exit_child(); END_METHOD BEGIN_METHOD_VOID(CPROCESS_new) init_process(THIS); END_METHOD BEGIN_METHOD_VOID(CPROCESS_free) #ifdef DEBUG_ME printf("CPROCESS_free %p\n", THIS); #endif exit_process(THIS); END_METHOD BEGIN_PROPERTY(CPROCESS_id) GB_ReturnInt(THIS->pid); END_PROPERTY BEGIN_METHOD_VOID(CPROCESS_kill) if (!THIS->running) return; kill(THIS->pid, SIGKILL); CPROCESS_wait_for(THIS); END_METHOD BEGIN_METHOD_VOID(CPROCESS_signal) if (!THIS->running) return; /* printf("Send SIGUSR1 to process %d\n", THIS->pid); fflush(NULL);*/ kill(THIS->pid, SIGUSR1); END_METHOD #if 0 BEGIN_METHOD(CPROCESS_send, GB_STRING text) if (!THIS->running || THIS->in < 0) return; STREAM_write(&THIS->ob.stream, STRING(text), LENGTH(text)); END_METHOD #endif BEGIN_PROPERTY(CPROCESS_state) if (THIS->running) GB_ReturnInteger(1); else { if (WIFEXITED(THIS->status)) GB_ReturnInteger(0); else GB_ReturnInteger(2); } END_PROPERTY BEGIN_PROPERTY(CPROCESS_value) int status; if (THIS->running) { GB_ReturnInteger(0); return; } status = THIS->status; if (WIFEXITED(status)) GB_ReturnInteger(WEXITSTATUS(status)); else if (WIFSIGNALED(status)) GB_ReturnInteger(WTERMSIG(status)); else GB_ReturnInteger(-1); END_PROPERTY BEGIN_PROPERTY(CPROCESS_last_state) if (WIFEXITED(_last_status)) GB_ReturnInteger(0); else GB_ReturnInteger(2); END_PROPERTY BEGIN_PROPERTY(CPROCESS_last_value) int status; status = _last_status; if (WIFEXITED(status)) GB_ReturnInteger(WEXITSTATUS(status)); else if (WIFSIGNALED(status)) GB_ReturnInteger(WTERMSIG(status)); else GB_ReturnInteger(-1); END_PROPERTY BEGIN_PROPERTY(CPROCESS_tag) if (READ_PROPERTY) GB_ReturnPtr(GB_T_VARIANT, &THIS->tag); else GB_StoreVariant(PROP(GB_VARIANT), (void *)&THIS->tag); END_METHOD BEGIN_METHOD_VOID(CPROCESS_wait) CPROCESS_wait_for(THIS); END_METHOD #endif GB_DESC NATIVE_Process[] = { GB_DECLARE("Process", sizeof(CPROCESS)), GB_NOT_CREATABLE(), GB_INHERITS("Stream"), GB_CONSTANT("Stopped", "i", 0), GB_CONSTANT("Running", "i", 1), GB_CONSTANT("Crashed", "i", 2), GB_CONSTANT("Signaled", "i", 2), GB_STATIC_PROPERTY_READ("LastState", "i", CPROCESS_last_state), GB_STATIC_PROPERTY_READ("LastValue", "i", CPROCESS_last_value), GB_PROPERTY_READ("Id", "i", CPROCESS_id), GB_PROPERTY_READ("Handle", "i", CPROCESS_id), GB_PROPERTY_READ("State", "i", CPROCESS_state), GB_PROPERTY_READ("Value", "i", CPROCESS_value), GB_PROPERTY("Tag", "v", CPROCESS_tag), //GB_STATIC_METHOD("_init", NULL, CPROCESS_init, NULL), GB_STATIC_METHOD("_exit", NULL, CPROCESS_exit, NULL), GB_METHOD("_new", NULL, CPROCESS_new, NULL), GB_METHOD("_free", NULL, CPROCESS_free, NULL), GB_METHOD("Kill", NULL, CPROCESS_kill, NULL), GB_METHOD("Signal", NULL, CPROCESS_signal, NULL), GB_METHOD("Wait", NULL, CPROCESS_wait, NULL), //GB_METHOD("Send", NULL, CPROCESS_send, "(Input)s"), //GB_METHOD("_print", NULL, CPROCESS_send, "(Input)s"), GB_EVENT("Read", NULL, NULL, &EVENT_Read), GB_EVENT("Error", NULL, "(Error)s", &EVENT_Error), GB_EVENT("Kill", NULL, NULL, &EVENT_Kill), GB_END_DECLARE };