/* source: xiosigchld.c */ /* Copyright Gerhard Rieger and contributors (see file CHANGES) */ /* Published under the GNU General Public License V.2, see file COPYING */ /* this is the source of the extended child signal handler */ #include "xiosysincludes.h" #include "xioopen.h" /*!! with socat, at most 4 exec children exist */ pid_t diedunknown[NUMUNKNOWN]; /* children that died before they were registered */ int statunknown[NUMUNKNOWN]; /* exit state of unknown dead child */ size_t nextunknown; int engine_result = EXIT_SUCCESS; /* register for a xio filedescriptor a callback (handler). when a SIGCHLD occurs, the signal handler will ??? */ int xiosetsigchild(xiofile_t *xfd, int (*callback)(struct single *)) { if (xfd->tag != XIO_TAG_DUAL) { xfd->stream.sigchild = callback; } else { xfd->dual.stream[0]->sigchild = callback; xfd->dual.stream[1]->sigchild = callback; } return 0; } /* exec'd child has died, perform appropriate changes to descriptor */ /* is async-signal-safe */ static int sigchld_stream(struct single *file) { /*!! call back to application */ file->para.exec.pid = 0; if (file->sigchild) { return (*file->sigchild)(file); } return 0; } /* return 0 if socket is not responsible for deadchild */ static int xio_checkchild(xiofile_t *socket, int socknum, pid_t deadchild) { int retval; if (socket != NULL) { if (socket->tag != XIO_TAG_DUAL) { if ((socket->stream.howtoend == END_KILL || socket->stream.howtoend == END_CLOSE_KILL || socket->stream.howtoend == END_SHUTDOWN_KILL) && socket->stream.para.exec.pid == deadchild) { Info2("exec'd process %d on socket %d terminated", socket->stream.para.exec.pid, socknum); sigchld_stream(&socket->stream); /* is async-signal-safe */ return 1; } } else { if (retval = xio_checkchild((xiofile_t *)socket->dual.stream[0], socknum, deadchild)) return retval; else return xio_checkchild((xiofile_t *)socket->dual.stream[1], socknum, deadchild); } } return 0; } /* this is the "physical" signal handler for SIGCHLD */ /* the current socat/xio implementation knows two kinds of children: exec/system addresses perform a fork: these children are registered and there death influences the parents flow; listen-socket with fork children: these children are "anonymous" and their death does not affect the parent process (now; maybe we have a child process counter later) */ void childdied(int signum) { pid_t pid; int _errno; int status = 0; bool wassig = false; int i; _errno = errno; /* save current value; e.g., select() on Cygwin seems to set it to EINTR _before_ handling the signal, and then passes the value left by the signal handler to the caller of select(), accept() etc. */ diag_in_handler = 1; Notice1("childdied(): handling signal %d", signum); Info1("childdied(signum=%d)", signum); do { pid = Waitpid(-1, &status, WNOHANG); if (pid == 0) { Msg(wassig?E_INFO:E_WARN, "waitpid(-1, {}, WNOHANG): no child has exited"); Info("childdied() finished"); diag_in_handler = 0; errno = _errno; return; } else if (pid < 0 && errno == EINTR) { Info1("childdied(): %s", strerror(errno)); } else if (pid < 0 && errno == ECHILD) { Msg(wassig?E_INFO:E_NOTICE, "waitpid(-1, {}, WNOHANG): "F_strerror); Info("childdied() finished"); diag_in_handler = 0; errno = _errno; return; } wassig = true; if (pid < 0) { Warn1("waitpid(-1, {%d}, WNOHANG): "F_strerror, status); Info("childdied() finished"); diag_in_handler = 0; errno = _errno; return; } /*! indent */ if (num_child) num_child--; /* check if it was a registered child process */ i = 0; while (i < XIO_MAXSOCK) { if (xio_checkchild(sock[i], i, pid)) break; ++i; } if (i == XIO_MAXSOCK) { Info2("childdied(%d): cannot identify child %d", signum, pid); if (nextunknown == NUMUNKNOWN) { nextunknown = 0; } diedunknown[nextunknown] = pid; statunknown[nextunknown++] = WEXITSTATUS(status); Debug1("saving pid in diedunknown"F_Zu, nextunknown/*sic, for compatibility*/); } if (WIFEXITED(status)) { if (WEXITSTATUS(status) == 0) { Info2("waitpid(): child %d exited with status %d", pid, WEXITSTATUS(status)); } else { if (i == XIO_MAXSOCK) { Info2("waitpid(): child %d exited with status %d", pid, WEXITSTATUS(status)); } else { Warn2("waitpid(): child %d exited with status %d", pid, WEXITSTATUS(status)); engine_result = 1; } } } else if (WIFSIGNALED(status)) { if (i == XIO_MAXSOCK) { Info2("waitpid(): child %d exited on signal %d", pid, WTERMSIG(status)); } else { Warn2("waitpid(): child %d exited on signal %d", pid, WTERMSIG(status)); engine_result = 1; } } else if (WIFSTOPPED(status)) { Info2("waitpid(): child %d stopped on signal %d", pid, WSTOPSIG(status)); } else { Warn1("waitpid(): cannot determine status of child %d", pid); } #if !HAVE_SIGACTION /* we might need to re-register our handler */ if (Signal(SIGCHLD, childdied) == SIG_ERR) { Warn("signal(SIGCHLD, childdied): "F_strerror); } #endif /* !HAVE_SIGACTION */ } while (1); Info("childdied() finished"); diag_in_handler = 0; errno = _errno; } int xiosetchilddied(void) { #if HAVE_SIGACTION struct sigaction act; memset(&act, 0, sizeof(struct sigaction)); act.sa_flags = SA_NOCLDSTOP/*|SA_RESTART*/ #ifdef SA_NOMASK |SA_NOMASK #endif ; act.sa_handler = childdied; sigfillset(&act.sa_mask); if (Sigaction(SIGCHLD, &act, NULL) < 0) { /*! man does not say that errno is defined */ Warn2("sigaction(SIGCHLD, %p, NULL): %s", childdied, strerror(errno)); } #else /* HAVE_SIGACTION */ if (Signal(SIGCHLD, childdied) == SIG_ERR) { Warn2("signal(SIGCHLD, %p): %s", childdied, strerror(errno)); } #endif /* !HAVE_SIGACTION */ return 0; }