/* SAMHAIN file system integrity testing */ /* Copyright (C) 1999, 2000 Rainer Wichmann */ /* */ /* 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 of the License, 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. */ #include "config_xor.h" /* Required on Linux to get the correct strerror_r function. Also * for recursive mutexes (_XOPEN_SOURCE >= 500). Gives funny error * on Solaris 10/gcc ('c99' compiler required - huh? Isn't gcc * good enough?). */ #if !defined(__sun__) && !defined(__sun) #define _XOPEN_SOURCE 600 #undef _GNU_SOURCE #endif #include #include #include #include #include #include #include /* Required on FreeBSD */ #include #ifdef HAVE_MEMORY_H #include #endif #if defined(HAVE_MLOCK) && !defined(HAVE_BROKEN_MLOCK) #include #endif #include "samhain.h" #include "sh_cat.h" #include "sh_database.h" #include "sh_error.h" #include "sh_utils.h" #include "sh_unix.h" #include "sh_tiger.h" #include "sh_nmail.h" #include "sh_forward.h" #include "sh_prelude.h" #include "sh_pthread.h" #if defined(WITH_DATABASE) #include "sh_tools.h" #endif #if defined(WITH_EXTERNAL) #include "sh_extern.h" #endif #undef FIL__ #define FIL__ _("sh_error.c") /*@-noret -compmempass@*/ extern int clt_class; int flag_err_debug = SL_FALSE; int flag_err_info = SL_FALSE; int ShDFLevel[SH_ERR_T_END]; typedef struct _log_t { char file[SH_PATHBUF]; char format[SH_PATHBUF]; /*@null@*/char * msg; size_t msg_len; int severity; int class; int pid; long status; long line; char timestamp[TIM_MAX]; } sh_log_t; struct _errFlags errFlags; static int sh_error_init (void); /*@owned@*//*@null@*/inline static char * get_format(unsigned long msg_id, /*@out@*/int * priority, /*@out@*/unsigned int * class); static int sh_error_string (struct _log_t * lmsg, va_list vl); extern int sh_log_console (/*@null@*/const char *message); extern int sh_log_syslog (int severity, /*@null@*/char *message); extern int sh_log_file (/*@null@*/char *message, /*@null@*/char * inet_peer); /* convert a string to a numeric priority */ int sh_error_convert_level (const char * str_s); static int IsInitialized = BAD; /* --- Only log to stderr. --- */ int OnlyStderr = S_TRUE; /* --- Enable facilities not safe for closeall(). --- */ int enableUnsafe = S_FALSE; /********************************************* * utility functions for verifying entries *********************************************/ int sh_error_verify (const char * s) { char * foo; char hashbuf[KEYBUF_SIZE]; if (s[0] == '/') { foo = sh_tiger_hash_gpg (s, TIGER_FILE, TIGER_NOLIM); fprintf (stdout, _("%s\n"), foo); SH_FREE(foo); } else { fprintf (stdout, _("string=<%s>, hash=<%s>\n"), s, sh_tiger_hash (s, TIGER_DATA, (unsigned long) sl_strlen(s), hashbuf, sizeof(hashbuf)) ); } (void) fflush(stdout); _exit (EXIT_SUCCESS); /*@i@*/return 0; } /********************************************* * end utility functions *********************************************/ void sh_error_only_stderr (int flag) { OnlyStderr = flag; return; } void sh_error_enable_unsafe (int flag) { enableUnsafe = flag; return; } static int dbg_store = 0; static int dbg_flag = 0; static void compute_flag_err_debug(void) { if ((errFlags.loglevel & SH_ERR_ALL) != 0) flag_err_debug = SL_TRUE; else if ((errFlags.printlevel & SH_ERR_ALL) != 0) flag_err_debug = SL_TRUE; else if ((errFlags.maillevel & SH_ERR_ALL) != 0) flag_err_debug = SL_TRUE; else if ((errFlags.exportlevel & SH_ERR_ALL) != 0) flag_err_debug = SL_TRUE; else if ((errFlags.sysloglevel & SH_ERR_ALL) != 0) flag_err_debug = SL_TRUE; else if ((errFlags.externallevel & SH_ERR_ALL) != 0) flag_err_debug = SL_TRUE; else if ((errFlags.databaselevel & SH_ERR_ALL) != 0) flag_err_debug = SL_TRUE; else if ((errFlags.preludelevel & SH_ERR_ALL) != 0) flag_err_debug = SL_TRUE; else flag_err_debug = SL_FALSE; return; } static void compute_flag_err_info(void) { if ((errFlags.loglevel & SH_ERR_INFO) != 0) flag_err_info = SL_TRUE; else if ((errFlags.printlevel & SH_ERR_INFO) != 0) flag_err_info = SL_TRUE; else if ((errFlags.maillevel & SH_ERR_INFO) != 0) flag_err_info = SL_TRUE; else if ((errFlags.exportlevel & SH_ERR_INFO) != 0) flag_err_info = SL_TRUE; else if ((errFlags.sysloglevel & SH_ERR_INFO) != 0) flag_err_info = SL_TRUE; else if ((errFlags.externallevel & SH_ERR_INFO) != 0) flag_err_info = SL_TRUE; else if ((errFlags.databaselevel & SH_ERR_INFO) != 0) flag_err_info = SL_TRUE; else if ((errFlags.preludelevel & SH_ERR_INFO) != 0) flag_err_info = SL_TRUE; else flag_err_info = SL_FALSE; return; } void sh_error_dbg_switch(void) { if (dbg_flag == 0) { dbg_store = errFlags.printlevel; errFlags.printlevel = (SH_ERR_ALL | SH_ERR_INFO | SH_ERR_NOTICE | SH_ERR_WARN | SH_ERR_STAMP | SH_ERR_ERR | SH_ERR_SEVERE | SH_ERR_FATAL); dbg_flag = 1; flag_err_debug = SL_TRUE; } else { errFlags.printlevel = dbg_store; dbg_store = 0; dbg_flag = 0; compute_flag_err_debug(); } return; } static int sh_error_set_classmask (const char * str, int * facility_mask) { char * p; int num = 0; unsigned int i; size_t len; char * c; SL_ENTER(_("sh_error_set_classmask")); if (str == NULL) SL_RETURN( -1, _("sh_error_set_classmask")); if (IsInitialized == BAD) (void) sh_error_init(); if (str[0] == (char) 34) ++str; len = strlen(str); c = SH_ALLOC(len+1); sl_strlcpy(c, str, len+1); if (c[len-1] == (char) 34) c[len-1] = '\0'; *facility_mask = 0; do { #if defined(HAVE_PTHREAD) && defined (_POSIX_THREAD_SAFE_FUNCTIONS) && defined(HAVE_STRTOK_R) char * saveptr; if (num == 0) { p = strtok_r (c, " ,\t", &saveptr); ++num; } else { p = strtok_r (NULL, " ,\t", &saveptr); } #else if (num == 0) { p = strtok (c, " ,\t"); ++num; } else { p = strtok (NULL, " ,\t"); } #endif if (p == NULL) break; for (i = 0; i < SH_CLA_MAX; ++i) { if (i < SH_CLA_RAW_MAX) { if (0 == strcmp(p, _(class_cat[i]))) *facility_mask |= (1 << i); } else { if (0 == strcmp(p, _(class_cat[SH_CLA_RAW_MAX + 0]))) *facility_mask |= OTHER_CLA; if (0 == strcmp(p, _(class_cat[SH_CLA_RAW_MAX + 1]))) *facility_mask |= RUN_NEW; if (0 == strcmp(p, _(class_cat[SH_CLA_RAW_MAX + 2]))) *facility_mask |= FIL_NEW; if (0 == strcmp(p, _(class_cat[SH_CLA_RAW_MAX + 3]))) *facility_mask |= ERROR_CLA; } } } while (p); SH_FREE(c); SL_RETURN( 0, _("sh_error_set_classmask")); } int sh_error_log_mask (const char * c) { return (sh_error_set_classmask(c, &(errFlags.log_class))); } int sh_error_mail_mask (const char * c) { return (sh_error_set_classmask(c, &(errFlags.mail_class))); } int sh_error_print_mask (const char * c) { return (sh_error_set_classmask(c, &(errFlags.print_class))); } int sh_error_export_mask (const char * c) { return (sh_error_set_classmask(c, &(errFlags.export_class))); } int sh_error_syslog_mask (const char * c) { return (sh_error_set_classmask(c, &(errFlags.syslog_class))); } int sh_error_external_mask (const char * c) { return (sh_error_set_classmask(c, &(errFlags.external_class))); } int sh_error_database_mask (const char * c) { return (sh_error_set_classmask(c, &(errFlags.database_class))); } int sh_error_prelude_mask (const char * c) { return (sh_error_set_classmask(c, &(errFlags.prelude_class))); } char * sh_error_message (int tellme, char * str, size_t len) { #if defined(HAVE_STRERROR_R) if (len > 0) str[0] = '\0'; strerror_r(tellme, str, len); return str; #elif defined(HAVE_STRERROR) sl_strlcpy(str, strerror(tellme), len); return str; #else char *p = NULL; #ifdef EACCES if (tellme == EACCES) p = _("Permission denied."); #endif #ifdef EAGAIN if (tellme == EAGAIN) p = _("Try again."); #endif #ifdef EBADF if (tellme == EBADF) p = _("File descriptor in bad state."); #endif #ifdef EEXIST if (tellme == EEXIST) p = _("File exists."); #endif #ifdef EFAULT if (tellme == EFAULT) p = _("Bad address."); #endif #ifdef EINVAL if (tellme == EINVAL) p = _("Invalid argument."); #endif #ifdef EISDIR if (tellme == EISDIR) p = _("Is a directory."); #endif #ifdef EINTR if (tellme == EINTR) p = _("System call was interrupted."); #endif #ifdef EIO if (tellme == EIO) p = _("Low-level I/O error."); #endif #ifdef ELOOP if (tellme == ELOOP) p = _("Too many symbolic links encountered."); #endif #ifdef EMFILE if (tellme == EMFILE) p = _("Too many open files."); #endif #ifdef EMLINK if (tellme == EMLINK) p = _("Too many links."); #endif #ifdef ENAMETOOLONG if (tellme == ENAMETOOLONG) p = _("File name too long."); #endif #ifdef ENFILE if (tellme == ENFILE) p = _("File table overflow."); #endif #ifdef ENOENT if (tellme == ENOENT) p = _("File does not exist."); #endif #ifdef ENOMEM if (tellme == ENOMEM) p = _("Out of memory."); #endif #ifdef ENOSPC if (tellme == ENOSPC) p = _("No space on device."); #endif #ifdef ENOTDIR if (tellme == ENOTDIR) p = _("Not a directory."); #endif #ifdef ENOTSOCK if (tellme == ENOTSOCK) p = _("Not a socket."); #endif #ifdef EOPNOTSUPP if (tellme == EOPNOTSUPP) p = _("Socket is not of type SOCK_STREAM."); #endif #ifdef EPERM if (tellme == EPERM) p = _("Permission denied."); #endif #ifdef EPIPE if (tellme == EPIPE) p = _("No read on pipe."); #endif #ifdef EROFS if (tellme == EROFS) p = _("Read-only file system."); #endif #ifdef ETXTBSY if (tellme == ETXTBSY) p = _("Text file busy."); #endif #ifdef EWOULDBLOCK if (tellme == EWOULDBLOCK) p = _("No connections on non-blocking socket."); #endif #ifdef EXDEV if (tellme == EXDEV) p = _("Not on same file system."); #endif if (!p) p = _("Unknown error"); sl_strlcpy(str, p, len); return str; #endif /* ifndef HAVE_STRERROR */ } /* switch off file log */ void sh_error_logoff() { errFlags.HaveLog = BAD; return; } /* switch on file log */ void sh_error_logrestore() { errFlags.HaveLog = GOOD; return; } /* --- Relate priority levels to literals. --- */ typedef struct eef { const char * str; int val; } eef_struc; static eef_struc eef_tab[] = { { N_("none"), SH_ERR_NOT }, { N_("debug"), SH_ERR_ALL }, { N_("info"), SH_ERR_INFO }, { N_("notice"), SH_ERR_NOTICE }, { N_("warn"), SH_ERR_WARN }, { N_("mark"), SH_ERR_STAMP }, { N_("err"), SH_ERR_ERR }, { N_("crit"), SH_ERR_SEVERE }, { N_("alert"), SH_ERR_FATAL }, #if defined(SH_WITH_SERVER) #define SH_EEF_MAX 10 { N_("inet"), SH_ERR_INET }, #else #define SH_EEF_MAX 9 #endif }; int sh_error_convert_level (const char * str_s) { int i; int level = (-1); SL_ENTER(_("sh_error_convert_level")); if (str_s == NULL) SL_RETURN( -1, _("sh_error_convert_level")); for (i = 0; i < SH_EEF_MAX; ++i) { if (0 == sl_strncmp(str_s, _(eef_tab[i].str), sl_strlen(eef_tab[i].str))) { level = eef_tab[i].val; break; } } SL_RETURN( level, _("sh_error_convert_level")); } /* --- Set severity levels. --- */ int sh_error_set_iv (int iv, const char * str_s) { int level = (-1); SL_ENTER(_("sh_error_set_iv")); if (IsInitialized == BAD) (void) sh_error_init(); level = sh_error_convert_level (str_s); if (level == (-1)) { sh_error_handle ((-1), FIL__, __LINE__, EINVAL, MSG_EINVALS, _("severity"), str_s != NULL ? str_s : _("(NULL)")); SL_RETURN (-1, _("sh_error_set_iv")); } if (iv > SH_ERR_T_START && iv < SH_ERR_T_END) { ShDFLevel[iv] = level; } else { sh_error_handle ((-1), FIL__, __LINE__, EINVAL, MSG_EINVALL, _("severity"), (long) iv); SL_RETURN (-1, _("sh_error_set_iv")); } SL_RETURN (0, _("sh_error_set_iv")); } int sh_error_set_level(const char * str_in, int * facility) { register int i, j, f = BAD; int old_facility; const char * str_s = str_in; SL_ENTER(_("sh_error_set_level")); if (IsInitialized == BAD) (void) sh_error_init(); old_facility = *facility; *facility = 0; checkstr: if (str_s != NULL) { if (0 == sl_strncmp(str_s, _(eef_tab[0].str), sl_strlen(eef_tab[0].str))) { *facility |= eef_tab[0].val; /* This is 'none' */ for (i = 1; i < SH_EEF_MAX; ++i) *facility &= ~eef_tab[i].val; f = GOOD; } else if (str_s[0] == '*') /* all */ { for (i = 1; i < SH_EEF_MAX; ++i) *facility |= eef_tab[i].val; f = GOOD; } else if (str_s[0] == '=') { for (i = 1; i < SH_EEF_MAX; ++i) if (0 == sl_strncmp(&str_s[1], _(eef_tab[i].str), sl_strlen(eef_tab[i].str))) { *facility |= eef_tab[i].val; f = GOOD; } } else if (str_s[0] == '!') { if (str_s[1] == '*' || 0 == sl_strncmp(&str_s[1], _(eef_tab[1].str), sl_strlen(eef_tab[1].str))) { *facility |= eef_tab[0].val; /* This is 'none' */ for (i = 1; i < SH_EEF_MAX; ++i) *facility &= ~eef_tab[i].val; f = GOOD; } else if (str_s[1] == '=') { for (i = 1; i < SH_EEF_MAX; ++i) { if (0 == sl_strncmp(&str_s[2], _(eef_tab[i].str), sl_strlen(eef_tab[i].str))) { *facility &= ~eef_tab[i].val; f = GOOD; } } } else { for (i = 1; i < SH_EEF_MAX; ++i) { if (0 == sl_strncmp(&str_s[1], _(eef_tab[i].str), sl_strlen(eef_tab[i].str))) { for (j = i; j < SH_EEF_MAX; ++j) { *facility &= ~eef_tab[j].val; } f = GOOD; } } } } else /* plain severity name */ { for (i = 1; i < SH_EEF_MAX; ++i) { if (0 == sl_strncmp(str_s, _(eef_tab[i].str), sl_strlen(eef_tab[i].str))) { for (j = i; j < SH_EEF_MAX; ++j) { *facility |= eef_tab[j].val; } f = GOOD; break; } } } } if (!str_s) { SL_RETURN ((-1), _("sh_error_set_level")); } /* skip to end of string */ while (*str_s != '\0' && *str_s != ';' && *str_s != ',' && *str_s != ' ' && *str_s != '\t') ++str_s; /* skip seperator */ while ((*str_s != '\0') && (*str_s == ';' || *str_s == ',' || *str_s == ' ' || *str_s == '\t')) ++str_s; if (*str_s != '\0') { f = BAD; goto checkstr; } if (f == BAD) { *facility = old_facility; sh_error_handle ((-1), FIL__, __LINE__, EINVAL, MSG_EINVALS, _("priority"), str_in); SL_RETURN (-1, _("sh_error_set_level")); } compute_flag_err_debug(); compute_flag_err_info(); SL_RETURN (0, _("sh_error_set_level")); } #if defined(SH_WITH_CLIENT) || defined(SH_WITH_SERVER) /* set severity for TCP export */ int sh_error_setexport(const char * str_s) { static int reject = 0; if (reject == 1) return (0); if (sh.flag.opts == S_TRUE) reject = 1; return (sh_error_set_level(str_s, &errFlags.exportlevel)); } #endif /* set severity for printing */ extern void dlog_set_active(int flag); int sh_error_setprint(const char * str_s) { static int reject = 0; int retval; if (reject == 1) return (0); if (sh.flag.opts == S_TRUE) reject = 1; retval = sh_error_set_level(str_s, &errFlags.printlevel); if (0 != (errFlags.printlevel & SH_ERR_INFO)) dlog_set_active(1); if (0 != (errFlags.printlevel & SH_ERR_ALL)) dlog_set_active(2); return retval; } /* set level for error logging */ int sh_error_setlog(const char * str_s) { static int reject = 0; if (reject == 1) return (0); if (sh.flag.opts == S_TRUE) reject = 1; return ( sh_error_set_level(str_s, &errFlags.loglevel) ); } /* set severity for syslog */ int sh_error_set_syslog (const char * str_s) { static int reject = 0; if (reject == 1) return (0); if (sh.flag.opts == S_TRUE) reject = 1; return (sh_error_set_level(str_s, &errFlags.sysloglevel)); } #if defined(WITH_EXTERNAL) /* set severity for external */ int sh_error_set_external (const char * str_s) { static int reject = 0; if (reject == 1) return (0); if (sh.flag.opts == S_TRUE) reject = 1; return (sh_error_set_level(str_s, &errFlags.externallevel)); } #endif #if defined(WITH_DATABASE) /* set severity for database */ int sh_error_set_database (const char * str_s) { static int reject = 0; if (reject == 1) return (0); if (sh.flag.opts == S_TRUE) reject = 1; return (sh_error_set_level(str_s, &errFlags.databaselevel)); } #endif #if defined(HAVE_LIBPRELUDE) /* set severity for prelude */ int sh_error_set_prelude (const char * str_s) { static int reject = 0; if (reject == 1) return (0); if (sh.flag.opts == S_TRUE) reject = 1; return sh_error_set_level(str_s, &errFlags.preludelevel); } #endif /* init or re-init log facilities that need it */ void sh_error_fixup(void) { #if defined(HAVE_LIBPRELUDE) if ((errFlags.preludelevel & SH_ERR_NOT) == 0) sh_prelude_init(); else sh_prelude_stop(); #endif #ifdef WITH_DATABASE sh_database_reset(); #endif return; } /* to be called from sh_prelude_reset */ void sh_error_init_prelude(void) { #if defined(HAVE_LIBPRELUDE) if ((errFlags.preludelevel & SH_ERR_NOT) == 0) sh_prelude_init(); else sh_prelude_stop(); #endif return; } /* set severity for mailing */ int sh_error_setseverity (const char * str_s) { static int reject = 0; if (reject == 1) return (0); if (sh.flag.opts == S_TRUE) reject = 1; return (sh_error_set_level(str_s, &errFlags.maillevel)); } #ifdef SH_WITH_SERVER static char inet_peer[SH_MINIBUF] = { '\0' }; #ifdef HAVE_LIBPRELUDE static char inet_peer_ip[SH_IP_BUF] = { '\0' }; void sh_error_set_peer_ip(const char * str) { if (str == NULL) inet_peer_ip[0] = '\0'; else sl_strlcpy(inet_peer_ip, str, sizeof(inet_peer_ip)); } #endif void sh_error_set_peer(const char * str) { if (str == NULL) inet_peer[0] = '\0'; else sl_strlcpy(inet_peer, str, sizeof(inet_peer)); } #endif /********************************************************** ********************************************************** * * -------- MAIN ERROR HANDLING FUNCTION ----------------- * * * this function should be called to report an error * ********************************************************** **********************************************************/ SH_MUTEX_RECURSIVE(mutex_err_handle); void sh_error_handle (int sev1, const char * file, long line, long status, unsigned long msg_id, ...) { va_list vl; /* argument list */ struct _log_t * lmsg; int severity; unsigned int class; char * fmt; volatile int sev = sev1; /* Avoids the 'clobbered by longjmp' warning. */ int flag_inet; #ifdef SH_WITH_SERVER int class_inet = clt_class; /* initialize from global */ char local_inet_peer[SH_MINIBUF]; #ifdef HAVE_LIBPRELUDE char local_inet_peer_ip[SH_IP_BUF]; #endif #endif #if defined(SH_WITH_CLIENT) || defined(SH_WITH_SERVER) char * ex_msg; #endif #if defined(WITH_DATABASE) char * escape_msg; #endif static int own_block = 0; /* * Block a facility for errors generated * within that facility. */ static int print_block = 0; #if defined(SH_WITH_MAIL) static int mail_block = 0; #endif static int syslog_block = 0; static int log_block = 0; #if defined(SH_WITH_CLIENT) || defined(SH_WITH_SERVER) static int export_block = 0; #endif #if defined(WITH_EXTERNAL) static int external_block = 0; #endif #if defined(WITH_DATABASE) static int database_block = 0; #endif #ifdef HAVE_LIBPRELUDE static int prelude_block = 0; #endif SL_ENTER(_("sh_error_handle")); SH_MUTEX_RECURSIVE_INIT(mutex_err_handle); SH_MUTEX_RECURSIVE_LOCK(mutex_err_handle); #ifdef SH_WITH_SERVER /* copy the global string into a local array */ if ((msg_id == MSG_TCP_MSG) && (inet_peer[0] != '\0')) { sl_strlcpy(local_inet_peer, inet_peer, sizeof(local_inet_peer)); sh_error_set_peer(NULL); } else local_inet_peer[0] = '\0'; #ifdef HAVE_LIBPRELUDE if ((msg_id == MSG_TCP_MSG) && (inet_peer_ip[0] != '\0')) { sl_strlcpy(local_inet_peer_ip, inet_peer_ip, sizeof(local_inet_peer_ip)); sh_error_set_peer_ip(NULL); } else local_inet_peer_ip[0] = '\0'; #endif clt_class = (-1); /* reset global */ #endif if (own_block == 1) { goto exit_here; } /* --- Initialize to default values. --- */ if (IsInitialized == BAD) (void) sh_error_init(); /* Returns pointer to (constant|thread-specific) static memory */ fmt = /*@i@*/get_format (msg_id, &severity, &class); #ifdef SH_WITH_SERVER if (class_inet != (-1)) class = (unsigned int) class_inet; #endif /* --- Consistency check. --- */ ASSERT((fmt != NULL), _("fmt != NULL")) if (fmt == NULL) { fprintf(stderr, _("ERROR: msg=, file=<%s>, line=<%ld>\n"), file, line); goto exit_here; } /* --- Override the catalogue severity. --- */ if (sev != (-1)) severity = sev; /* --- Some statistics. --- */ #if defined (SH_WITH_CLIENT) || defined (SH_STANDALONE) if ( ((1 << class) & ERROR_CLA) && (severity & (SH_ERR_ERR|SH_ERR_SEVERE|SH_ERR_FATAL))) { ++sh.statistics.files_error; } #endif /* these are messages from remote sources */ if ((severity & SH_ERR_INET) != 0) { flag_inet = S_TRUE; } else { flag_inet = S_FALSE; } /* --- Messages not wanted for logging. --- */ if ( ( (errFlags.printlevel & severity ) == 0 || (errFlags.print_class & (1 << class)) == 0 ) && ( (errFlags.loglevel & severity ) == 0 || (errFlags.log_class & (1 << class)) == 0 ) && ( (errFlags.sysloglevel & severity ) == 0 || (errFlags.syslog_class & (1 << class)) == 0 ) && #if defined(SH_WITH_CLIENT) || defined(SH_WITH_CLIENT) ( (errFlags.exportlevel & severity ) == 0 || (errFlags.export_class & (1 << class)) == 0 ) && #endif #ifdef WITH_EXTERNAL ( (errFlags.externallevel & severity ) == 0 || (errFlags.external_class & (1 << class)) == 0 ) && #endif #ifdef HAVE_LIBPRELUDE ( (errFlags.preludelevel & severity ) == 0 || (errFlags.prelude_class & (1 << class)) == 0 ) && #endif #ifdef WITH_DATABASE ( (errFlags.databaselevel & severity ) == 0 || (errFlags.database_class & (1 << class)) == 0 ) && #endif ( (errFlags.maillevel & severity ) == 0 || (errFlags.mail_class & (1 << class)) == 0 ) #ifdef SH_WITH_SERVER && (flag_inet == S_FALSE) /* still log messages from remote sources */ #endif ) { goto exit_here; } if ((severity & SH_ERR_NOT) != 0) { goto exit_here; } /* Allocate space for the message. */ own_block = 1; lmsg = (struct _log_t *) SH_ALLOC(sizeof(struct _log_t)); MLOCK( (char *) lmsg, sizeof(struct _log_t)); /*@i@*/lmsg->msg = NULL; /*@i@*/(void) sl_strlcpy(lmsg->format, fmt, SH_PATHBUF); (void) sl_strlcpy(lmsg->file, file, SH_PATHBUF); lmsg->severity = severity; lmsg->class = (int) class; lmsg->line = line; lmsg->status = status; /* Format the log message with timestamp etc. * Allocate lmsg->msg */ va_start (vl, msg_id); (void) sh_error_string (lmsg, vl); va_end (vl); own_block = 0; /* Log to stderr. */ if ( ((errFlags.printlevel & severity) != 0 && (errFlags.print_class & (1 << class)) != 0 && (errFlags.printlevel & SH_ERR_NOT) == 0) #ifdef SH_WITH_SERVER || (flag_inet == S_TRUE) #endif ) { if (print_block == 0 && (errFlags.printlevel & SH_ERR_NOT) == 0) { /* no truncation */ print_block = 1; TPT(( 0, FIL__, __LINE__, lmsg->msg)); /* * Reports first error after failure. Always tries. */ (void) sh_log_console (lmsg->msg); print_block = 0; } } /* Full logging enabled. */ if (OnlyStderr == S_FALSE) /* full error logging enabled */ { /* Log to syslog. */ if ( (errFlags.sysloglevel & severity) != 0 && (errFlags.syslog_class & (1 << class)) != 0 && #ifndef INET_SYSLOG (flag_inet != S_TRUE) && /* !inet->syslog */ #endif (errFlags.sysloglevel & SH_ERR_NOT) == 0 ) { /* will truncate to 1023 bytes */ if (syslog_block == 0) { syslog_block = 1; /* * Ignores errors. Always tries. */ (void) sh_log_syslog (lmsg->severity, lmsg->msg); syslog_block = 0; } } #if defined(WITH_EXTERNAL) /* * -- external facility */ if ((errFlags.externallevel & severity) != 0 && (errFlags.external_class & (1 << class)) != 0 && (errFlags.externallevel & SH_ERR_NOT) == 0 && class != AUD) { if (external_block == 0) { /* no truncation */ external_block = 1; /* * Reports first error after failure. Always tries. */ (void) sh_ext_execute ('l', 'o', 'g', lmsg->msg, 0); external_block = 0; } } #endif #if defined(WITH_DATABASE) /* * -- database facility */ if ((errFlags.databaselevel & severity) != 0 && (errFlags.database_class & (1 << class)) != 0 && (errFlags.databaselevel & SH_ERR_NOT) == 0 && class != AUD) { if (database_block == 0 && enableUnsafe == S_TRUE) { /* truncates; query_max is 16k */ database_block = 1; #ifndef SH_STANDALONE if (msg_id == MSG_TCP_MSG #ifdef INET_SYSLOG || msg_id == MSG_INET_SYSLOG #endif ) { /* do not escape twice */ /* * Reports failure every 60 min. Always tries. */ (void) sh_database_insert (lmsg->msg); } else #endif { escape_msg = sh_tools_safe_name(lmsg->msg, 0); /* * Reports failure every 60 min. Always tries. */ (void) sh_database_insert (escape_msg); SH_FREE(escape_msg); } database_block = 0; } } #endif /**************************************************** * Optionally include client code for TCP forwarding * to log server ****************************************************/ #if defined(SH_WITH_CLIENT) || defined(SH_WITH_SERVER) /* Export by TCP. */ if ( ((errFlags.exportlevel & severity ) != 0 && (errFlags.export_class & (1 << class)) != 0 && (errFlags.exportlevel & SH_ERR_NOT) == 0 && class != AUD ) #ifdef SH_WITH_SERVER /* always log inet to export */ || (flag_inet == S_TRUE && sh.srvexport.name[0] != '\0') #endif /* sh.flag.isserver != GOOD && */ /* (flag_inet == S_FALSE) */ /* don't log inet to export */ ) { if (export_block == 0) { int retval; size_t ex_len; /* will truncate to 65280 bytes */ export_block = 1; /* ex_len = 64 + sl_strlen(lmsg->msg) + 1; */ ex_len = sl_strlen(lmsg->msg); if (sl_ok_adds(ex_len, 65)) ex_len = 64 + ex_len + 1; ex_msg = SH_ALLOC (ex_len); sl_snprintf(ex_msg, ex_len, _("%d?%u?%s"), severity, class, lmsg->msg); retval = sh_forward (ex_msg); SH_FREE(ex_msg); export_block = 0; if (retval == -2) { sh_error_handle ((-1), FIL__, __LINE__, 0, MSG_QUEUE_FULL, _("log server")); } } } #endif /* Log to mail. */ #if defined(SH_WITH_MAIL) if ((errFlags.maillevel & severity ) != 0 && (errFlags.mail_class & (1 << class)) != 0 && (errFlags.maillevel & SH_ERR_NOT) == 0 && class != AUD && (flag_inet == S_FALSE) ) /* don't log inet to email */ { if (mail_block == 0) { int retval; /* will truncate to 998 bytes */ mail_block = 1; BREAKEXIT(sh_nmail_msg); if ( (severity & SH_ERR_FATAL) == 0) retval = sh_nmail_pushstack (severity, lmsg->msg, NULL); else retval = sh_nmail_msg (severity, lmsg->msg, NULL); mail_block = 0; if (retval == -2) { sh_error_handle ((-1), FIL__, __LINE__, 0, MSG_QUEUE_FULL, _("email")); } } } #endif #ifdef HAVE_LIBPRELUDE if (((errFlags.preludelevel & severity ) != 0 && (errFlags.prelude_class & (1 << class)) != 0 && (errFlags.preludelevel & SH_ERR_NOT) == 0 && (class != AUD)) #ifdef SH_WITH_SERVER || (flag_inet == S_TRUE) #endif ) { if (prelude_block == 0 && enableUnsafe == S_TRUE) { /* will truncate to 998 bytes */ prelude_block = 1; BREAKEXIT(sh_prelude_alert); /* * Reports first error after failure. Always tries. */ #if defined(HAVE_LIBPRELUDE) && defined(SH_WITH_SERVER) (void) sh_prelude_alert (severity, (int) class, lmsg->msg, lmsg->status, msg_id, local_inet_peer_ip); #else (void) sh_prelude_alert (severity, (int) class, lmsg->msg, lmsg->status, msg_id, NULL); #endif prelude_block = 0; } } #endif /* Log to logfile */ if ( ( ( (errFlags.loglevel & severity) != 0 && (errFlags.log_class & (1 << class)) != 0 && (errFlags.loglevel & SH_ERR_NOT) == 0 ) #ifdef SH_WITH_SERVER || (flag_inet == S_TRUE) #endif ) && class != AUD && (errFlags.HaveLog != BAD) && /* temporary switched off */ (severity & SH_ERR_NOT) == 0 /* paranoia */ ) { if (log_block == 0) { /* no truncation */ log_block = 1; BREAKEXIT(sh_log_file); #ifdef SH_WITH_SERVER if (0 != sl_ret_euid()) { /* * Reports first error after failure. Always tries. */ if (local_inet_peer[0] == '\0') (void) sh_log_file (lmsg->msg, NULL); else (void) sh_log_file (lmsg->msg, local_inet_peer); } #else (void) sh_log_file (lmsg->msg, NULL); #endif /* sh_log_file (lmsg->msg); */ log_block = 0; } } } /* Cleanup. */ own_block = 1; if (lmsg->msg) SH_FREE( lmsg->msg ); memset ( lmsg, (int) '\0', sizeof(struct _log_t) ); MUNLOCK( (char *) lmsg, sizeof(struct _log_t) ); SH_FREE( lmsg ); own_block = 0; exit_here: ; /* label at end of compound statement */ SH_MUTEX_RECURSIVE_UNLOCK(mutex_err_handle); /*@i@*/SL_RET0(_("sh_error_handle")); /*@i@*/} #if defined(SH_WITH_MAIL) void sh_error_mail (const char * alias, int sev, const char * file, long line, long status, unsigned long msg_id, ...) { va_list vl; /* argument list */ struct _log_t * lmsg; int severity; unsigned int class; char * fmt; int retval; SL_ENTER(_("sh_error_mail")); /* Returns pointer to (constant|thread-specific) static memory */ fmt = /*@i@*/get_format (msg_id, &severity, &class); if (!fmt) { SL_RET0(_("sh_error_mail")); } /* --- Override the catalogue severity. --- */ if (sev != (-1)) severity = sev; /* --- Build the message. --- */ lmsg = (struct _log_t *) SH_ALLOC(sizeof(struct _log_t)); MLOCK( (char *) lmsg, sizeof(struct _log_t)); /*@i@*/lmsg->msg = NULL; /*@i@*/(void) sl_strlcpy(lmsg->format, fmt, SH_PATHBUF); (void) sl_strlcpy(lmsg->file, file, SH_PATHBUF); lmsg->severity = severity; lmsg->class = (int) class; lmsg->line = line; lmsg->status = status; /* Format the log message with timestamp etc. * Allocate lmsg->msg */ va_start (vl, msg_id); (void) sh_error_string (lmsg, vl); va_end (vl); if ( (severity & SH_ERR_FATAL) == 0) retval = sh_nmail_pushstack (severity, lmsg->msg, alias); else retval = sh_nmail_msg (severity, lmsg->msg, alias); if (retval == -2) { sh_error_handle ((-1), FIL__, __LINE__, 0, MSG_QUEUE_FULL, _("email")); } SL_RET0(_("sh_error_mail")); } #else void sh_error_mail (const char * alias, int sev, const char * file, long line, long status, unsigned long msg_id, ...) { (void) alias; (void) sev; (void) file; (void) line; (void) status; (void) msg_id; return; } /* defined(SH_WITH_MAIL) */ #endif /* ------------------------- * * private functions below * * ------------------------- */ /* --- Get the format from the message catalog. --- */ /*@owned@*/ /*@null@*/inline static char * get_format(unsigned long msg_id, /*@out@*/ int * priority, /*@out@*/unsigned int * class) { int i = 0; SL_ENTER(_("get_format")); while (1 == 1) { if ( msg_cat[i].format == NULL ) break; if ( (unsigned long) msg_cat[i].id == msg_id) { *priority = (int) msg_cat[i].priority; *class = (unsigned int) msg_cat[i].class; SL_RETURN (((char *) _(msg_cat[i].format)), _("get_format")); } ++i; } *priority = SH_ERR_ERR; *class = ERR; SL_RETURN (NULL, _("get_format")); } /*@null@*//*@only@*/static char * ehead_format = NULL; /* allocate space for user-defined message header */ int sh_error_ehead (/*@null@*/const char * str_s) { size_t size; const char * s; SL_ENTER(_("sh_error_ehead")); if (str_s == NULL) { SL_RETURN (-1, _("sh_error_ehead")); } /* ascii 34 ist t\"ttelchen */ /*@i@*/ if (str_s[0] == 34) s = &str_s[1]; else s = str_s; size = /*@i@*/strlen(s); if (/*@i@*/s[size-1] == (char) 34) --size; /* truncate */ if (ehead_format != NULL) SH_FREE(ehead_format); /*@i@*/ehead_format = SH_ALLOC(size+1); /*@i@*/ (void) sl_strlcpy(ehead_format, s, size+1); SL_RETURN( 0, _("sh_error_ehead")); } #if !defined(VA_COPY) #if defined(__GNUC__) && defined(__PPC__) && (defined(_CALL_SYSV) || defined(_WIN32)) #define VA_COPY(ap1, ap2) (*(ap1) = *(ap2)) #elif defined(VA_COPY_AS_ARRAY) #define VA_COPY(ap1, ap2) memmove ((ap1), (ap2), sizeof (va_list)) #else /* va_list is a pointer */ #define VA_COPY(ap1, ap2) ((ap1) = (ap2)) #endif #endif /* print an error into string */ static int sh_error_string (struct _log_t * lmsg, va_list vl) { size_t len; int required; unsigned long line; char sev[16] = ""; char cla[16] = ""; char tst[64] = ""; char *p; va_list vl2; st_format rep_ehead_tab[] = { { 'S', S_FMT_STRING, 0, 0, NULL}, /* severity */ { 'T', S_FMT_STRING, 0, 0, NULL}, /* timestamp */ { 'F', S_FMT_STRING, 0, 0, NULL}, /* file */ { 'L', S_FMT_ULONG, 0, 0, NULL}, /* line */ { 'C', S_FMT_STRING, 0, 0, NULL}, /* class */ { 'E', S_FMT_LONG, 0, 0, NULL}, /* status */ {'\0', S_FMT_ULONG, 0, 0, NULL}, }; SL_ENTER(_("sh_error_string")); if (ehead_format == NULL) { ehead_format = SH_ALLOC(64); #ifdef SH_USE_XML if ((errFlags.printlevel & SH_ERR_ALL) == 0) (void) sl_strlcpy(ehead_format, _("severity & SH_ERR_INET) != 0) (void) sl_strlcpy (sev, _("RCVT"), 11); else if ( (lmsg->severity & SH_ERR_ALL) != 0) (void) sl_strlcpy (sev, _("DEBG"), 11); else if ( (lmsg->severity & SH_ERR_INFO) != 0) (void) sl_strlcpy (sev, _("INFO"), 11); else if ( (lmsg->severity & SH_ERR_NOTICE) != 0) (void) sl_strlcpy (sev, _("NOTE"), 11); else if ( (lmsg->severity & SH_ERR_WARN) != 0) (void) sl_strlcpy (sev, _("WARN"), 11); else if ( (lmsg->severity & SH_ERR_STAMP) != 0) (void) sl_strlcpy (sev, _("MARK"), 11); else if ( (lmsg->severity & SH_ERR_ERR) != 0) (void) sl_strlcpy (sev, _("ERRO"), 11); else if ( (lmsg->severity & SH_ERR_SEVERE) != 0) (void) sl_strlcpy (sev, _("CRIT"), 11); else if ( (lmsg->severity & SH_ERR_FATAL) != 0) (void) sl_strlcpy (sev, _("ALRT"), 11); else { (void) sl_strlcpy (sev, _("????"), 11); #else #if defined(INET_SYSLOG) if ( (lmsg->severity & SH_ERR_INET) != 0) (void) sl_strlcpy (sev, _(" : "), 11); #else if ( (lmsg->severity & SH_ERR_INET) != 0) (void) sl_strlcpy (sev, _(" : "), 11); #endif else if ( (lmsg->severity & SH_ERR_ALL) != 0) (void) sl_strlcpy (sev, _("DEBUG : "), 11); else if ( (lmsg->severity & SH_ERR_INFO) != 0) (void) sl_strlcpy (sev, _("INFO : "), 11); else if ( (lmsg->severity & SH_ERR_NOTICE) != 0) (void) sl_strlcpy (sev, _("NOTICE : "), 11); else if ( (lmsg->severity & SH_ERR_WARN) != 0) (void) sl_strlcpy (sev, _("WARN : "), 11); else if ( (lmsg->severity & SH_ERR_STAMP) != 0) (void) sl_strlcpy (sev, _("MARK : "), 11); else if ( (lmsg->severity & SH_ERR_ERR) != 0) (void) sl_strlcpy (sev, _("ERROR : "), 11); else if ( (lmsg->severity & SH_ERR_SEVERE) != 0) (void) sl_strlcpy (sev, _("CRIT : "), 11); else if ( (lmsg->severity & SH_ERR_FATAL) != 0) (void) sl_strlcpy (sev, _("ALERT : "), 11); else { (void) sl_strlcpy (sev, _("??? : "), 11); #endif } (void) sh_unix_time (0, tst, 64); line = (unsigned long) lmsg->line; (void) sl_strlcpy (cla, _(class_cat[lmsg->class]), 11); /*@i@*/rep_ehead_tab[0].data_str = sev; /*@i@*/rep_ehead_tab[1].data_str = tst; /*@i@*/rep_ehead_tab[2].data_str = lmsg->file; /*@i@*/rep_ehead_tab[3].data_ulong = line; /*@i@*/rep_ehead_tab[4].data_str = cla; /*@i@*/rep_ehead_tab[5].data_long = lmsg->status; p = /*@i@*/sh_util_formatted(ehead_format, rep_ehead_tab); /* --- copy the header to lmsg->msg --- */ /*@i@*/lmsg->msg = SH_ALLOC(SH_BUFSIZE); lmsg->msg_len = SH_BUFSIZE; if (p) { (void) sl_strlcpy (lmsg->msg, p, SH_BUFSIZE); SH_FREE(p); } else { lmsg->msg[0] = '\0'; } /* --- copy message to lmsg->msg --- */ if ( NULL == strchr(lmsg->format, '%') ) { (void) sl_strlcat (lmsg->msg, lmsg->format, (size_t) lmsg->msg_len); } else { /* use VA_COPY */ /*@i@*/VA_COPY(vl2, vl); len = sl_strlen(lmsg->msg); /*@i@*/required = sl_vsnprintf(&(lmsg->msg[len]), (lmsg->msg_len - len), lmsg->format, vl); if ((required >= 0) && sl_ok_adds(required, len) && sl_ok_adds((required+len), 4) && ((required + len) > (lmsg->msg_len - 4)) ) { /*@i@*/p = SH_ALLOC(required + len + 4); (void) sl_strlcpy (p, lmsg->msg, required + len + 1); SH_FREE(lmsg->msg); lmsg->msg = p; lmsg->msg_len = required + len + 4; (void) sl_vsnprintf(&(lmsg->msg[len]), (required + 1), lmsg->format, vl2); } va_end(vl2); } #ifdef SH_USE_XML /* closing tag */ if (lmsg->msg[sl_strlen(lmsg->msg)-1] != '>') (void) sl_strlcat (lmsg->msg, _(" />"), lmsg->msg_len); #endif SL_RETURN(0, _("sh_error_string")); } /* --- Initialize. --- */ static int sh_error_init () { register int j; SL_ENTER(_("sh_error_init")); errFlags.debug = 0; errFlags.HaveLog = GOOD; errFlags.sysloglevel = SH_ERR_NOT; #if defined(SH_STEALTH) errFlags.loglevel = SH_ERR_NOT; #else errFlags.loglevel = (SH_ERR_STAMP | SH_ERR_ERR | SH_ERR_SEVERE | SH_ERR_FATAL); #endif errFlags.externallevel = SH_ERR_NOT; errFlags.databaselevel = SH_ERR_NOT; errFlags.preludelevel = SH_ERR_NOT; errFlags.maillevel = SH_ERR_FATAL; #if defined(SH_STEALTH) errFlags.printlevel = SH_ERR_NOT; #else errFlags.printlevel = (SH_ERR_INFO | SH_ERR_NOTICE | SH_ERR_WARN | SH_ERR_STAMP | SH_ERR_ERR | SH_ERR_SEVERE | SH_ERR_FATAL); flag_err_info = SL_TRUE; #endif #if defined(SH_WITH_SERVER) errFlags.exportlevel = SH_ERR_NOT; #else errFlags.exportlevel = (SH_ERR_STAMP | SH_ERR_ERR | SH_ERR_SEVERE | SH_ERR_FATAL); #endif errFlags.log_class = 0xFFFF; errFlags.print_class = 0xFFFF; errFlags.mail_class = 0xFFFF; errFlags.export_class = 0xFFFF; errFlags.syslog_class = 0xFFFF; errFlags.external_class = 0xFFFF; errFlags.database_class = 0xFFFF; errFlags.prelude_class = 0xFFFF; for (j = 0; j < SH_ERR_T_END; ++j) ShDFLevel[j] = SH_ERR_SEVERE; IsInitialized = GOOD; SL_RETURN (0, _("sh_error_init")); }