/* source: error.c */ /* Copyright Gerhard Rieger */ /* Published under the GNU General Public License V.2, see file COPYING */ /* the logging subsystem */ #include "config.h" #include "sysincludes.h" #include "mytypes.h" #include "compat.h" #include "utils.h" #include "vsnprintf_r.h" #include "snprinterr.h" #include "error.h" #include "sysincludes.h" #include "sycls.h" /* translate MSG level to SYSLOG level */ int syslevel[] = { LOG_DEBUG, LOG_INFO, LOG_NOTICE, LOG_WARNING, LOG_ERR, LOG_CRIT }; struct diag_opts { const char *progname; int msglevel; int exitlevel; int syslog; FILE *logfile; int logfacility; bool micros; int exitstatus; /* pass signal number to error exit */ bool withhostname; /* in custom logs add hostname */ char *hostname; } ; static void _diag_exit(int status); struct diag_opts diagopts = { NULL, E_ERROR, E_ERROR, 0, NULL, LOG_DAEMON, false, 0 } ; static void msg2( #if HAVE_CLOCK_GETTIME struct timespec *now, #elif HAVE_GETTIMEOFDAY struct timeval *now, #else time_t *now, #endif int level, int exitcode, int handler, const char *text); static void _msg(int level, const char *buff, const char *syslp); sig_atomic_t diag_in_handler; /* !=0 indicates to msg() that in signal handler */ sig_atomic_t diag_immediate_msg; /* !=0 prints messages even from within signal handler instead of deferring them */ sig_atomic_t diag_immediate_exit; /* !=0 calls exit() from diag_exit() even when in signal handler. For system() */ static struct wordent facilitynames[] = { {"auth", (void *)LOG_AUTH}, #ifdef LOG_AUTHPRIV {"authpriv", (void *)LOG_AUTHPRIV}, #endif #ifdef LOG_CONSOLE {"console", (void *)LOG_CONSOLE}, #endif {"cron", (void *)LOG_CRON}, {"daemon", (void *)LOG_DAEMON}, #ifdef LOG_FTP {"ftp", (void *)LOG_FTP}, #endif {"kern", (void *)LOG_KERN}, {"local0", (void *)LOG_LOCAL0}, {"local1", (void *)LOG_LOCAL1}, {"local2", (void *)LOG_LOCAL2}, {"local3", (void *)LOG_LOCAL3}, {"local4", (void *)LOG_LOCAL4}, {"local5", (void *)LOG_LOCAL5}, {"local6", (void *)LOG_LOCAL6}, {"local7", (void *)LOG_LOCAL7}, {"lpr", (void *)LOG_LPR}, {"mail", (void *)LOG_MAIL}, {"news", (void *)LOG_NEWS}, #ifdef LOG_SECURITY {"security", (void *)LOG_SECURITY}, #endif {"syslog", (void *)LOG_SYSLOG}, {"user", (void *)LOG_USER}, {"uucp", (void *)LOG_UUCP} } ; /* serialize message for sending from signal handlers */ struct sermsg { int severity; #if HAVE_CLOCK_GETTIME struct timespec ts; #else struct timeval tv; #endif } ; static int diaginitialized; static int diag_sock_send = -1; static int diag_sock_recv = -1; static int diag_msg_avail = 0; /* !=0: messages from within signal handler may be waiting */ static int diag_init(void) { int handlersocks[2]; if (diaginitialized) { return 0; } diaginitialized = 1; /* gcc with GNU libc refuses to set this in the initializer */ diagopts.logfile = stderr; if (socketpair(AF_UNIX, SOCK_DGRAM, 0, handlersocks) < 0) { diag_sock_send = -1; diag_sock_recv = -1; return -1; } diag_sock_send = handlersocks[1]; diag_sock_recv = handlersocks[0]; return 0; } #define DIAG_INIT ((void)(diaginitialized || diag_init())) void diag_set(char what, const char *arg) { DIAG_INIT; switch (what) { const struct wordent *keywd; case 'y': diagopts.syslog = true; if (arg && arg[0]) { if ((keywd = keyw(facilitynames, arg, sizeof(facilitynames)/sizeof(struct wordent))) == NULL) { Error1("unknown syslog facility \"%s\"", arg); } else { diagopts.logfacility = (int)(size_t)keywd->desc; } } openlog(diagopts.progname, LOG_PID, diagopts.logfacility); if (diagopts.logfile != NULL && diagopts.logfile != stderr) { fclose(diagopts.logfile); } diagopts.logfile = NULL; break; case 'f': if (diagopts.logfile != NULL && diagopts.logfile != stderr) { fclose(diagopts.logfile); } if ((diagopts.logfile = fopen(arg, "a")) == NULL) { Error2("cannot open log file \"%s\": %s", arg, strerror(errno)); } break; case 's': if (diagopts.logfile != NULL && diagopts.logfile != stderr) { fclose(diagopts.logfile); } diagopts.logfile = stderr; break; /* logging to stderr is default */ case 'p': diagopts.progname = arg; openlog(diagopts.progname, LOG_PID, diagopts.logfacility); break; case 'd': --diagopts.msglevel; break; case 'u': diagopts.micros = true; break; default: msg(E_ERROR, "unknown diagnostic option %c", what); } } void diag_set_int(char what, int arg) { DIAG_INIT; switch (what) { case 'D': diagopts.msglevel = arg; break; case 'e': diagopts.exitlevel = arg; break; case 'x': diagopts.exitstatus = arg; break; case 'h': diagopts.withhostname = arg; if ((diagopts.hostname = getenv("HOSTNAME")) == NULL) { struct utsname ubuf; uname(&ubuf); diagopts.hostname = strdup(ubuf.nodename); } break; default: msg(E_ERROR, "unknown diagnostic option %c", what); } } int diag_get_int(char what) { DIAG_INIT; switch (what) { case 'y': return diagopts.syslog; case 's': return diagopts.logfile == stderr; case 'd': case 'D': return diagopts.msglevel; case 'e': return diagopts.exitlevel; } return -1; } const char *diag_get_string(char what) { DIAG_INIT; switch (what) { case 'p': return diagopts.progname; } return NULL; } /* Linux and AIX syslog format: Oct 4 17:10:37 hostname socat[52798]: D signal(13, 1) */ void msg(int level, const char *format, ...) { struct diag_dgram diag_dgram; va_list ap; /* does not perform a system call if nothing todo, thanks diag_msg_avail */ diag_dgram._errno = errno; /* keep for passing from signal handler to sock. reason is that strerror is definitely not async-signal-safe */ DIAG_INIT; /* in normal program flow (not in signal handler) */ /* first flush the queue of datagrams from the socket */ if (diag_msg_avail && !diag_in_handler) { diag_msg_avail = 0; /* _before_ flush to prevent inconsistent state when signal occurs inbetween */ diag_flush(); } if (level < diagopts.msglevel) { va_end(ap); return; } va_start(ap, format); /* we do only a minimum in the outer parts which may run in a signal handler these are: get actual time, level, serialized message and write them to socket */ diag_dgram.op = DIAG_OP_MSG; #if HAVE_CLOCK_GETTIME clock_gettime(CLOCK_REALTIME, &diag_dgram.now); #elif HAVE_GETTIMEOFDAY gettimeofday(&diag_dgram.now, NULL); #else diag_dgram.now = time(NULL); #endif diag_dgram.level = level; diag_dgram.exitcode = diagopts.exitstatus; vsnprintf_r(diag_dgram.text, sizeof(diag_dgram.text), format, ap); if (diag_in_handler && !diag_immediate_msg) { send(diag_sock_send, &diag_dgram, sizeof(diag_dgram)-TEXTLEN + strlen(diag_dgram.text)+1, MSG_DONTWAIT #ifdef MSG_NOSIGNAL |MSG_NOSIGNAL #endif ); diag_msg_avail = 1; va_end(ap); return; } msg2(&diag_dgram.now, diag_dgram.level, diagopts.exitstatus, 0, diag_dgram.text); va_end(ap); return; } void msg2( #if HAVE_CLOCK_GETTIME struct timespec *now, #elif HAVE_GETTIMEOFDAY struct timeval *now, #else time_t *now, #endif int level, /* E_INFO... */ int exitcode, /* on exit use this exit code */ int handler, /* message comes from signal handler */ const char *text) { time_t epoch; unsigned long micros; #if HAVE_STRFTIME struct tm struct_tm; #endif #define BUFLEN 512 char buff[BUFLEN], *bufp, *syslp; size_t bytes; #if HAVE_CLOCK_GETTIME epoch = now->tv_sec; #elif HAVE_GETTIMEOFDAY epoch = now->tv_sec; #else epoch = *now; #endif #if HAVE_STRFTIME bytes = strftime(buff, 20, "%Y/%m/%d %H:%M:%S", localtime_r(&epoch, &struct_tm)); buff[bytes] = '\0'; #else bytes = snprintf(buff, 11, F_time, epoch); #endif if (diagopts.micros) { #if HAVE_CLOCK_GETTIME micros = now->tv_nsec/1000; #elif HAVE_GETTIMEOFDAY micros = now->tv_usec; #else micros = 0; #endif bytes += sprintf(buff+19, ".%06lu ", micros); } else { buff[19] = ' '; buff[20] = '\0'; } bytes = strlen(buff); bufp = buff + bytes; if (diagopts.withhostname) { bytes = sprintf(bufp, "%s ", diagopts.hostname), bufp+=bytes; } bytes = sprintf(bufp, "%s["F_pid"] ", diagopts.progname, getpid()); bufp += bytes; syslp = bufp; *bufp++ = "DINWEF"[level]; #if 0 /* only for debugging socat */ if (handler) bufp[-1] = tolower(bufp[-1]); /* for debugging, low chars indicate messages from signal handlers */ #endif *bufp++ = ' '; strncpy(bufp, text, BUFLEN-(bufp-buff)-1); strcat(bufp, "\n"); _msg(level, buff, syslp); if (level >= diagopts.exitlevel) { if (E_NOTICE >= diagopts.msglevel) { snprintf_r(syslp, 16, "N exit(%d)\n", exitcode?exitcode:(diagopts.exitstatus?diagopts.exitstatus:1)); _msg(E_NOTICE, buff, syslp); } exit(exitcode?exitcode:(diagopts.exitstatus?diagopts.exitstatus:1)); } } static void _msg(int level, const char *buff, const char *syslp) { if (diagopts.syslog) { /* prevent format string attacks (thanks to CoKi) */ syslog(syslevel[level], "%s", syslp); } if (diagopts.logfile) { fputs(buff, diagopts.logfile); fflush(diagopts.logfile); } } /* handle the messages in the queue */ void diag_flush(void) { struct diag_dgram recv_dgram; char exitmsg[20]; while (recv(diag_sock_recv, &recv_dgram, sizeof(recv_dgram)-1, MSG_DONTWAIT) > 0) { recv_dgram.text[TEXTLEN-1] = '\0'; switch (recv_dgram.op) { case DIAG_OP_EXIT: /* we want the actual time, not when this dgram was sent */ #if HAVE_CLOCK_GETTIME clock_gettime(CLOCK_REALTIME, &recv_dgram.now); #elif HAVE_GETTIMEOFDAY gettimeofday(&recv_dgram.now, NULL); #else recv_dgram.now = time(NULL); #endif if (E_NOTICE >= diagopts.msglevel) { snprintf_r(exitmsg, sizeof(exitmsg), "exit(%d)", recv_dgram.exitcode?recv_dgram.exitcode:1); msg2(&recv_dgram.now, E_NOTICE, recv_dgram.exitcode?recv_dgram.exitcode:1, 1, exitmsg); } exit(recv_dgram.exitcode?recv_dgram.exitcode:1); case DIAG_OP_MSG: if (recv_dgram._errno) { /* there might be a %m control in the string (glibc compatible, replace with strerror(...errno) ) */ char text[TEXTLEN]; errno = recv_dgram._errno; snprinterr(text, TEXTLEN, recv_dgram.text); msg2(&recv_dgram.now, recv_dgram.level, recv_dgram.exitcode, 1, text); } else { msg2(&recv_dgram.now, recv_dgram.level, recv_dgram.exitcode, 1, recv_dgram.text); } break; } } } /* use a new log output file descriptor that is dup'ed from the current one. this is useful when socat logs to stderr but fd 2 should be redirected to serve other purposes */ int diag_dup(void) { int newfd; DIAG_INIT; if (diagopts.logfile == NULL) { return -1; } newfd = dup(fileno(diagopts.logfile)); if (diagopts.logfile != stderr) { fclose(diagopts.logfile); } if (newfd >= 0) { diagopts.logfile = fdopen(newfd, "w"); } return newfd; } /* this function is kind of async-signal-safe exit(). When invoked from signal handler it defers exit. */ void diag_exit(int status) { struct diag_dgram diag_dgram; if (diag_in_handler && !diag_immediate_exit) { diag_dgram.op = DIAG_OP_EXIT; diag_dgram.exitcode = status; send(diag_sock_send, &diag_dgram, sizeof(diag_dgram)-TEXTLEN, MSG_DONTWAIT #ifdef MSG_NOSIGNAL |MSG_NOSIGNAL #endif ); return; } _diag_exit(status); } static void _diag_exit(int status) { Exit(status); } /* a function that appears to the application like select() but that also monitors the diag socket diag_sock_recv and processes its messages. Do not call from within a signal handler. */ int diag_select(int nfds, fd_set *readfds, fd_set *writefds, fd_set *exceptfds, struct timeval *timeout) { int result; fd_set save_readfds, save_writefds, save_exceptfds; if (readfds) { memcpy(&save_readfds, readfds, sizeof(*readfds)); } if (writefds) { memcpy(&save_writefds, writefds, sizeof(*writefds)); } if (exceptfds) { memcpy(&save_exceptfds, exceptfds, sizeof(*exceptfds)); } while (1) { FD_SET(diag_sock_recv, readfds); result = Select(nfds, readfds, writefds, exceptfds, timeout); if (!FD_ISSET(diag_sock_recv, readfds)) { /* select terminated not due to diag_sock_recv, normalt continuation */ break; } diag_flush(); if (readfds) { memcpy(readfds, &save_readfds, sizeof(*readfds)); } if (writefds) { memcpy(writefds, &save_writefds, sizeof(*writefds)); } if (exceptfds) { memcpy(exceptfds, &save_exceptfds, sizeof(*exceptfds)); } } return result; }