/*************************************************************************** gbx_c_task.c (c) 2000-2017 BenoƮt 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 2, 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. ***************************************************************************/ #define __GBX_C_TASK_C #include "gbx_info.h" #ifndef GBX_INFO #include #include #include #include #include "gb_common.h" #include "gb_list.h" #include "gb_file.h" #include "gb_error.h" #include "gbx_api.h" #include "gbx_exec.h" #include "gbx_string.h" #include "gbx_signal.h" #include "gbx_event.h" #include "gbx_c_file.h" #include "gbx_c_task.h" //#define DEBUG_ME 1 #ifdef __CYGWIN__ #define FIONREAD TIOCINQ #endif DECLARE_EVENT(EVENT_Read); DECLARE_EVENT(EVENT_Error); DECLARE_EVENT(EVENT_Kill); enum { CHILD_OK = 0, CHILD_ERROR = 1, CHILD_STDOUT = 2, CHILD_STDERR = 3, CHILD_RETURN = 4 }; static SIGNAL_CALLBACK *_signal_handler = NULL; static CTASK *_task_list = NULL; static int _task_count = 0; //------------------------------------------------------------------------- static void cleanup_task(CTASK *_object); static void stop_task(CTASK *_object); static void close_fd(int *pfd); static void has_forked(void) { CTASK *task; pid_t pid = getpid(); STREAM *stream; FILE_init(); EXEC_debug = FALSE; EXEC_task = TRUE; if (EXEC_profile) DEBUG.Profile.Cancel(); EXEC_profile = FALSE; EXEC_profile_instr = FALSE; EXEC_Hook.loop = NULL; EXEC_Hook.wait = NULL; EXEC_Hook.timer = NULL; EXEC_Hook.watch = NULL; EXEC_Hook.post = NULL; //EXEC_Hook.quit = NULL; stream = CSTREAM_stream(CFILE_out); stream->common.eol = 0; STREAM_blocking(stream, TRUE); SIGNAL_has_forked(); task = _task_list; while (task) { if (task->pid != pid) { close_fd(&task->fd_out); close_fd(&task->fd_err); } task = task->list.next; } } static void callback_child(int signum, intptr_t data) { CTASK *_object, *next; int status; #if DEBUG_ME fprintf(stderr, ">> callback_child\n"); #endif _object = _task_list; while (_object) { next = THIS->list.next; if (wait4(THIS->pid, &status, WNOHANG, NULL) == THIS->pid) { THIS->status = status; stop_task(THIS); } _object = next; } #if DEBUG_ME fprintf(stderr, "<< callback_child\n"); #endif } static int get_readable(int fd) { int len; if (ioctl(fd, FIONREAD, &len) < 0 || len <= 0) return 0; else return len; } static bool callback_read(int fd, int type, CTASK *_object) { int len; char *data; char *p; int n; //fprintf(stderr, "callback_read: %d %p\n", fd, THIS); len = get_readable(fd); if (len == 0) return TRUE; data = STRING_new(NULL, len); p = data; while (len > 0) { n = read(fd, p, len); if (n < 0) { if (errno == EINTR) continue; else break; } len -= n; p += n; } GB_Raise(THIS, EVENT_Read, 1, GB_T_STRING, data, STRING_length(data) - len); STRING_free(&data); return FALSE; } static int callback_error(int fd, int type, CTASK *_object) { char buffer[256]; int n; //fprintf(stderr, "callback_error: %d %p\n", fd, THIS); n = read(fd, buffer, sizeof(buffer)); if (n <= 0) return TRUE; GB_Raise(THIS, EVENT_Error, 1, GB_T_STRING, buffer, n); return FALSE; } static bool create_return_directory(void) { static bool mkdir_done = FALSE; char buf[PATH_MAX]; if (mkdir_done) return FALSE; sprintf(buf, RETURN_DIR_PATTERN, getuid(), getpid()); if (mkdir(buf, S_IRWXU) != 0) { GB_Error("Cannot create task return directory"); return TRUE; } mkdir_done = TRUE; return FALSE; } static void init_task(void) { _task_count++; if (_task_count > 1) return; _signal_handler = SIGNAL_register(SIGCHLD, callback_child, 0); } static void exit_task(void) { _task_count--; if (_task_count > 0) return; SIGNAL_unregister(SIGCHLD, _signal_handler); _signal_handler = NULL; } static void prepare_task(CTASK *_object) { THIS->fd_out = -1; THIS->fd_err = -1; } static void exit_child(int ret) { FILE_exit(); _exit(ret); } static bool start_task(CTASK *_object) { const char *err = NULL; pid_t pid; sigset_t sig, old; GB_FUNCTION func; int fd_out[2], fd_err[2]; bool has_read, has_error; GB_VALUE *ret; char buf[PATH_MAX]; FILE *f; if (EXEC_task) return TRUE; if (THIS->stopped) { cleanup_task(THIS); return TRUE; } init_task(); LIST_insert(&_task_list, THIS, &THIS->list); // Create pipes has_read = GB_CanRaise(THIS, EVENT_Read); has_error = GB_CanRaise(THIS, EVENT_Error); if (has_read && pipe(fd_out) != 0) goto __ERROR; if (has_error && pipe(fd_err) != 0) goto __ERROR; // Block SIGCHLD sigemptyset(&sig); sigaddset(&sig, SIGCHLD); sigprocmask(SIG_BLOCK, &sig, &old); pid = fork(); if (pid == (-1)) { stop_task(THIS); sigprocmask(SIG_SETMASK, &old, NULL); goto __ERROR; } if (pid) { #if DEBUG_ME fprintf(stderr, "start_task: %p %d\n", THIS, pid); #endif THIS->pid = pid; if (has_read) { close(fd_out[1]); THIS->fd_out = fd_out[0]; GB_Watch(THIS->fd_out, GB_WATCH_READ, (void *)callback_read, (intptr_t)THIS); } if (has_error) { close(fd_err[1]); THIS->fd_err = fd_err[0]; fcntl(THIS->fd_err, F_SETFL, fcntl(THIS->fd_err, F_GETFL) | O_NONBLOCK); GB_Watch(THIS->fd_err, GB_WATCH_READ, (void *)callback_error, (intptr_t)THIS); } sigprocmask(SIG_SETMASK, &old, NULL); } else // child task { THIS->child = TRUE; THIS->pid = getpid(); sigprocmask(SIG_SETMASK, &old, NULL); if (has_read) { close(fd_out[0]); if (dup2(fd_out[1], STDOUT_FILENO) == -1) exit_child(CHILD_STDOUT); setlinebuf(stdout); } else close(CHILD_STDOUT); if (has_error) { close(fd_err[0]); if (dup2(fd_err[1], STDERR_FILENO) == -1) exit_child(CHILD_STDERR); setlinebuf(stderr); } else close(CHILD_STDERR); has_forked(); // After the redirection GB_GetFunction(&func, THIS, "Main", "", NULL); TRY { ret = GB_Call(&func, 0, FALSE); if (ret->type != GB_T_VOID) { sprintf(buf, RETURN_FILE_PATTERN, getuid(), getppid(), getpid()); #if DEBUG_ME fprintf(stderr, "serialize to: %s\n", buf); #endif GB_ReturnConvVariant(); if (GB_Serialize(buf, ret)) { #if DEBUG_ME fprintf(stderr, "gb.task: serialization has failed\n"); #endif exit_child(CHILD_RETURN); } } } CATCH { if (ERROR_current->info.code && ERROR_current->info.code != E_ABORT) { sprintf(buf, RETURN_FILE_PATTERN, getuid(), getppid(), getpid()); f = fopen(buf, "w+"); if (f) { ERROR_print_at(f, FALSE, FALSE); fclose(f); } exit_child(CHILD_ERROR); } } END_TRY exit_child(CHILD_OK); } return FALSE; __ERROR: // TODO: as the routine is posted, nobody will see the error! if (!err) err = strerror(errno); fprintf(stderr, "gb.task: cannot run task: %s\n", err); GB_Error("Cannot run task: &1", err); return TRUE; } static void close_fd(int *pfd) { int fd = *pfd; if (fd >= 0) { GB_Watch(fd, GB_WATCH_NONE, NULL, 0); close(fd); *pfd = -1; } } static bool get_return_value(CTASK *_object, bool cleanup) { char path[PATH_MAX]; GB_VALUE value; bool fail = FALSE; struct stat info; char *err = NULL; int fd; int n; sprintf(path, RETURN_FILE_PATTERN, getuid(), getpid(), THIS->pid); if (!cleanup) { switch (THIS->status) { case CHILD_OK: #if DEBUG_ME fprintf(stderr,"unserialize from: %s\n", path); #endif if (!THIS->got_value) { if (stat(path, &info)) { GB_Error((char *)E_NRETURN); return TRUE; } fail = GB_UnSerialize(path, &value); if (!fail) GB_StoreVariant(&value._variant, &THIS->ret); THIS->got_value = TRUE; } break; case CHILD_ERROR: if (stat(path, &info)) { fail = TRUE; } else { err = STRING_new_temp(NULL, info.st_size); fd = open(path, O_RDONLY); if (fd < 0) { fail = TRUE; break; } else { for(;;) { n = read(fd, err, info.st_size); if (n == info.st_size || errno != EINTR) break; } close(fd); if (n == info.st_size) GB_Error("Task has failed: &1", err); else fail = TRUE; } } if (fail) GB_Error("Unable to get task error"); break; } } unlink(path); return fail; } static void cleanup_task(CTASK *_object) { //printf("cleanup task %p\n", THIS); fflush(stdout); OBJECT_UNREF(_object); } static void stop_task(CTASK *_object) { int len; GB_RAISE_HANDLER handler; #if DEBUG_ME fprintf(stderr, "stop_task: %p %d\n", THIS, THIS->pid); #endif THIS->stopped = TRUE; // Remove task temporary files FILE_remove_temp_file_pid(THIS->pid); // Flush standard error if (THIS->fd_err >= 0) while (callback_error(THIS->fd_err, 0, THIS) == 0); // Flush standard output if (THIS->fd_out >= 0) { for(;;) { len = get_readable(THIS->fd_out); if (len <= 0) break; if (callback_read(THIS->fd_out, 0, THIS)) break; } } close_fd(&THIS->fd_out); close_fd(&THIS->fd_err); LIST_remove(&_task_list, THIS, &THIS->list); exit_task(); //printf("Kill event...\n"); fflush(stdout); if (GB_CanRaise(THIS, EVENT_Kill)) { handler.callback = (GB_CALLBACK)cleanup_task; handler.data = (intptr_t)THIS; GB_RaiseBegin(&handler); GB_Raise(THIS, EVENT_Kill, 0); GB_RaiseEnd(&handler); } cleanup_task(THIS); } //------------------------------------------------------------------------- BEGIN_METHOD_VOID(Task_new) GB_FUNCTION func; THIS->ret.type = GB_T_NULL; if (EXEC_task) { GB_Error("A task cannot create other tasks"); return; } if (create_return_directory()) return; if (GB_GetFunction(&func, THIS, "Main", "", NULL)) return; if (_task_count > MAX_TASK) { GB_Error("Too many tasks"); return; } prepare_task(THIS); OBJECT_REF(THIS); EVENT_post((GB_CALLBACK)start_task, (intptr_t)THIS); END_METHOD BEGIN_METHOD_VOID(Task_free) get_return_value(THIS, TRUE); GB_StoreVariant(NULL, &THIS->ret); END_METHOD BEGIN_PROPERTY(Task_Handle) GB_ReturnInteger(THIS->pid); END_PROPERTY BEGIN_METHOD_VOID(Task_Stop) if (THIS->pid > 0) kill(THIS->pid, SIGKILL); else THIS->stopped = TRUE; END_METHOD static void error_Task_Wait(CTASK *task) { OBJECT_UNREF(task); } BEGIN_METHOD_VOID(Task_Wait) OBJECT_REF(THIS); //printf("Task_Wait: %p\n", THIS); fflush(stdout); ON_ERROR_1(error_Task_Wait, THIS) { for(;;) { //printf("GB_Wait\n"); fflush(stdout); GB_Wait(0); //printf("stopped = %d\n", THIS->stopped); fflush(stdout); if (THIS->stopped) break; //printf("sleep\n"); fflush(stdout); sleep(10); } } END_ERROR OBJECT_UNREF(_object); END_METHOD BEGIN_PROPERTY(Task_Value) if (!THIS->child && THIS->stopped) { if (WIFEXITED(THIS->status)) { switch (WEXITSTATUS(THIS->status)) { case CHILD_OK: if (get_return_value(THIS, FALSE)) break; GB_ReturnVariant(&THIS->ret); return; case CHILD_STDOUT: GB_Error("Unable to redirect task standard output"); return; case CHILD_STDERR: GB_Error("Unable to redirect task error output"); return; case CHILD_RETURN: GB_Error("Unable to serialize task return value"); return; case CHILD_ERROR: get_return_value(THIS, FALSE); break; } } else if (WIFSIGNALED(THIS->status)) { GB_Error("Task has aborted: &1", strsignal(WTERMSIG(THIS->status))); return; } } GB_ReturnNull(); GB_ReturnConvVariant(); END_PROPERTY BEGIN_PROPERTY(Task_Running) GB_ReturnBoolean(!THIS->stopped); END_PROPERTY //------------------------------------------------------------------------- #endif GB_DESC TaskDesc[] = { GB_DECLARE("Task", sizeof(CTASK)), GB_NOT_CREATABLE(), GB_METHOD("_new", NULL, Task_new, NULL), GB_METHOD("_free", NULL, Task_free, NULL), GB_PROPERTY_READ("Handle", "i", Task_Handle), GB_PROPERTY_READ("Value", "v", Task_Value), GB_PROPERTY_READ("Running", "b", Task_Running), GB_METHOD("Stop", NULL, Task_Stop, NULL), GB_METHOD("Wait", NULL, Task_Wait, NULL), GB_EVENT("Read", NULL, "(Data)s", &EVENT_Read), GB_EVENT("Error", NULL, "(Data)s", &EVENT_Error), GB_EVENT("Kill", NULL, NULL, &EVENT_Kill), GB_END_DECLARE };