/* * Copyright (C) 2012 by Darren Reed. * * See the IPFILTER.LICENCE file for details on licencing. */ #include "ipf.h" #include "ipmon.h" #include #include #include #include #include #include #if !defined(lint) static const char sccsid[] = "@(#)ipmon.c 1.21 6/5/96 (C)1993-2000 Darren Reed"; static const char rcsid[] = "@(#)$Id$"; #endif #define STRERROR(x) strerror(x) extern int optind; extern char *optarg; extern ipmon_saver_t executesaver; extern ipmon_saver_t filesaver; extern ipmon_saver_t nothingsaver; extern ipmon_saver_t snmpv1saver; extern ipmon_saver_t snmpv2saver; extern ipmon_saver_t syslogsaver; struct flags { int value; char flag; }; typedef struct logsource { int fd; int logtype; char *file; int regular; size_t size; } logsource_t; typedef struct config { int opts; int maxfd; logsource_t logsrc[3]; fd_set fdmr; FILE *blog; char *bfile; FILE *log; char *file; char *cfile; } config_t; typedef struct icmp_subtype { int ist_val; char *ist_name; } icmp_subtype_t; typedef struct icmp_type { int it_val; struct icmp_subtype *it_subtable; size_t it_stsize; char *it_name; } icmp_type_t; #define IST_SZ(x) (sizeof(x)/sizeof(icmp_subtype_t)) struct flags tcpfl[] = { { TH_ACK, 'A' }, { TH_RST, 'R' }, { TH_SYN, 'S' }, { TH_FIN, 'F' }, { TH_URG, 'U' }, { TH_PUSH,'P' }, { TH_ECN, 'E' }, { TH_CWR, 'C' }, { 0, '\0' } }; char *reasons[] = { "filter-rule", "log-or-block_1", "pps-rate", "jumbogram", "makefrip-fail", "state_add-fail", "updateipid-fail", "log-or-block_2", "decap-fail", "auth_new-fail", "auth_captured", "coalesce-fail", "pullup-fail", "auth-feedback", "bad-frag", "natv4_out-fail", "natv4_in-fail", "natv6_out-fail", "natv6_in-fail", }; #if SOLARIS static char *pidfile = "/etc/opt/ipf/ipmon.pid"; #else static char *pidfile = "/var/run/ipmon.pid"; #endif static char line[2048]; static int donehup = 0; static void usage(char *); static void handlehup(int); static void flushlogs(char *, FILE *); static void print_log(config_t *, logsource_t *, char *, int); static void print_ipflog(config_t *, char *, int); static void print_natlog(config_t *, char *, int); static void print_statelog(config_t *, char *, int); static int read_log(int, int *, char *, int); static void write_pid(char *); static char *icmpname(u_int, u_int); static char *icmpname6(u_int, u_int); static icmp_type_t *find_icmptype(int, icmp_type_t *, size_t); static icmp_subtype_t *find_icmpsubtype(int, icmp_subtype_t *, size_t); static struct tm *get_tm(time_t); char *portlocalname(int, char *, u_int); int main(int, char *[]); static void logopts(int, char *); static void init_tabs(void); static char *getlocalproto(u_int); static void openlogs(config_t *conf); static int read_loginfo(config_t *conf); static void initconfig(config_t *conf); static char **protocols = NULL; static char **udp_ports = NULL; static char **tcp_ports = NULL; #define HOSTNAMEV4(b) hostname(AF_INET, (u_32_t *)&(b)) #ifndef LOGFAC #define LOGFAC LOG_LOCAL0 #endif int logfac = LOGFAC; int ipmonopts = 0; int opts = OPT_NORESOLVE; int use_inet6 = 0; static icmp_subtype_t icmpunreachnames[] = { { ICMP_UNREACH_NET, "net" }, { ICMP_UNREACH_HOST, "host" }, { ICMP_UNREACH_PROTOCOL, "protocol" }, { ICMP_UNREACH_PORT, "port" }, { ICMP_UNREACH_NEEDFRAG, "needfrag" }, { ICMP_UNREACH_SRCFAIL, "srcfail" }, { ICMP_UNREACH_NET_UNKNOWN, "net_unknown" }, { ICMP_UNREACH_HOST_UNKNOWN, "host_unknown" }, { ICMP_UNREACH_NET, "isolated" }, { ICMP_UNREACH_NET_PROHIB, "net_prohib" }, { ICMP_UNREACH_NET_PROHIB, "host_prohib" }, { ICMP_UNREACH_TOSNET, "tosnet" }, { ICMP_UNREACH_TOSHOST, "toshost" }, { ICMP_UNREACH_ADMIN_PROHIBIT, "admin_prohibit" }, { -2, NULL } }; static icmp_subtype_t redirectnames[] = { { ICMP_REDIRECT_NET, "net" }, { ICMP_REDIRECT_HOST, "host" }, { ICMP_REDIRECT_TOSNET, "tosnet" }, { ICMP_REDIRECT_TOSHOST, "toshost" }, { -2, NULL } }; static icmp_subtype_t timxceednames[] = { { ICMP_TIMXCEED_INTRANS, "transit" }, { ICMP_TIMXCEED_REASS, "reassem" }, { -2, NULL } }; static icmp_subtype_t paramnames[] = { { ICMP_PARAMPROB_ERRATPTR, "errata_pointer" }, { ICMP_PARAMPROB_OPTABSENT, "optmissing" }, { ICMP_PARAMPROB_LENGTH, "length" }, { -2, NULL } }; static icmp_type_t icmptypes4[] = { { ICMP_ECHOREPLY, NULL, 0, "echoreply" }, { -1, NULL, 0, NULL }, { -1, NULL, 0, NULL }, { ICMP_UNREACH, icmpunreachnames, IST_SZ(icmpunreachnames),"unreach" }, { ICMP_SOURCEQUENCH, NULL, 0, "sourcequench" }, { ICMP_REDIRECT, redirectnames, IST_SZ(redirectnames), "redirect" }, { -1, NULL, 0, NULL }, { -1, NULL, 0, NULL }, { ICMP_ECHO, NULL, 0, "echo" }, { ICMP_ROUTERADVERT, NULL, 0, "routeradvert" }, { ICMP_ROUTERSOLICIT, NULL, 0, "routersolicit" }, { ICMP_TIMXCEED, timxceednames, IST_SZ(timxceednames), "timxceed" }, { ICMP_PARAMPROB, paramnames, IST_SZ(paramnames), "paramprob" }, { ICMP_TSTAMP, NULL, 0, "timestamp" }, { ICMP_TSTAMPREPLY, NULL, 0, "timestampreply" }, { ICMP_IREQ, NULL, 0, "inforeq" }, { ICMP_IREQREPLY, NULL, 0, "inforeply" }, { ICMP_MASKREQ, NULL, 0, "maskreq" }, { ICMP_MASKREPLY, NULL, 0, "maskreply" }, { -2, NULL, 0, NULL } }; static icmp_subtype_t icmpredirect6[] = { { ICMP6_DST_UNREACH_NOROUTE, "noroute" }, { ICMP6_DST_UNREACH_ADMIN, "admin" }, { ICMP6_DST_UNREACH_NOTNEIGHBOR, "neighbour" }, { ICMP6_DST_UNREACH_ADDR, "address" }, { ICMP6_DST_UNREACH_NOPORT, "noport" }, { -2, NULL } }; static icmp_subtype_t icmptimexceed6[] = { { ICMP6_TIME_EXCEED_TRANSIT, "intransit" }, { ICMP6_TIME_EXCEED_REASSEMBLY, "reassem" }, { -2, NULL } }; static icmp_subtype_t icmpparamprob6[] = { { ICMP6_PARAMPROB_HEADER, "header" }, { ICMP6_PARAMPROB_NEXTHEADER, "nextheader" }, { ICMP6_PARAMPROB_OPTION, "option" }, { -2, NULL } }; static icmp_subtype_t icmpquerysubject6[] = { { ICMP6_NI_SUBJ_IPV6, "ipv6" }, { ICMP6_NI_SUBJ_FQDN, "fqdn" }, { ICMP6_NI_SUBJ_IPV4, "ipv4" }, { -2, NULL }, }; static icmp_subtype_t icmpnodeinfo6[] = { { ICMP6_NI_SUCCESS, "success" }, { ICMP6_NI_REFUSED, "refused" }, { ICMP6_NI_UNKNOWN, "unknown" }, { -2, NULL } }; static icmp_subtype_t icmprenumber6[] = { { ICMP6_ROUTER_RENUMBERING_COMMAND, "command" }, { ICMP6_ROUTER_RENUMBERING_RESULT, "result" }, { ICMP6_ROUTER_RENUMBERING_SEQNUM_RESET, "seqnum_reset" }, { -2, NULL } }; static icmp_type_t icmptypes6[] = { { 0, NULL, 0, NULL }, { ICMP6_DST_UNREACH, icmpredirect6, IST_SZ(icmpredirect6), "unreach" }, { ICMP6_PACKET_TOO_BIG, NULL, 0, "toobig" }, { ICMP6_TIME_EXCEEDED, icmptimexceed6, IST_SZ(icmptimexceed6), "timxceed" }, { ICMP6_PARAM_PROB, icmpparamprob6, IST_SZ(icmpparamprob6), "paramprob" }, { ICMP6_ECHO_REQUEST, NULL, 0, "echo" }, { ICMP6_ECHO_REPLY, NULL, 0, "echoreply" }, { ICMP6_MEMBERSHIP_QUERY, icmpquerysubject6, IST_SZ(icmpquerysubject6), "groupmemberquery" }, { ICMP6_MEMBERSHIP_REPORT,NULL, 0, "groupmemberreport" }, { ICMP6_MEMBERSHIP_REDUCTION,NULL, 0, "groupmemberterm" }, { ND_ROUTER_SOLICIT, NULL, 0, "routersolicit" }, { ND_ROUTER_ADVERT, NULL, 0, "routeradvert" }, { ND_NEIGHBOR_SOLICIT, NULL, 0, "neighborsolicit" }, { ND_NEIGHBOR_ADVERT, NULL, 0, "neighboradvert" }, { ND_REDIRECT, NULL, 0, "redirect" }, { ICMP6_ROUTER_RENUMBERING, icmprenumber6, IST_SZ(icmprenumber6), "routerrenumber" }, { ICMP6_WRUREQUEST, NULL, 0, "whoareyourequest" }, { ICMP6_WRUREPLY, NULL, 0, "whoareyoureply" }, { ICMP6_FQDN_QUERY, NULL, 0, "fqdnquery" }, { ICMP6_FQDN_REPLY, NULL, 0, "fqdnreply" }, { ICMP6_NI_QUERY, icmpnodeinfo6, IST_SZ(icmpnodeinfo6), "nodeinforequest" }, { ICMP6_NI_REPLY, NULL, 0, "nodeinforeply" }, { MLD6_MTRACE_RESP, NULL, 0, "mtraceresponse" }, { MLD6_MTRACE, NULL, 0, "mtracerequest" }, { -2, NULL, 0, NULL } }; static icmp_subtype_t * find_icmpsubtype(int type, icmp_subtype_t *table, size_t tablesz) { icmp_subtype_t *ist; if (tablesz < 2) return (NULL); if ((type < 0) || (type > table[tablesz - 2].ist_val)) return (NULL); if (table[type].ist_val == type) return (table + type); for (ist = table; ist->ist_val != -2; ist++) if (ist->ist_val == type) return (ist); return (NULL); } static icmp_type_t * find_icmptype(int type, icmp_type_t *table, size_t tablesz) { icmp_type_t *it; if (tablesz < 2) return (NULL); if ((type < 0) || (type > table[tablesz - 2].it_val)) return (NULL); if (table[type].it_val == type) return (table + type); for (it = table; it->it_val != -2; it++) if (it->it_val == type) return (it); return (NULL); } static void handlehup(int sig) { signal(SIGHUP, handlehup); donehup = 1; } static void init_tabs(void) { struct protoent *p; struct servent *s; char *name, **tab; int port, i; if (protocols != NULL) { for (i = 0; i < 256; i++) if (protocols[i] != NULL) { free(protocols[i]); protocols[i] = NULL; } free(protocols); protocols = NULL; } protocols = (char **)malloc(256 * sizeof(*protocols)); if (protocols != NULL) { bzero((char *)protocols, 256 * sizeof(*protocols)); setprotoent(1); while ((p = getprotoent()) != NULL) if (p->p_proto >= 0 && p->p_proto <= 255 && p->p_name != NULL && protocols[p->p_proto] == NULL) protocols[p->p_proto] = strdup(p->p_name); endprotoent(); if (protocols[0]) free(protocols[0]); protocols[0] = strdup("ip"); } if (udp_ports != NULL) { for (i = 0; i < 65536; i++) if (udp_ports[i] != NULL) { free(udp_ports[i]); udp_ports[i] = NULL; } free(udp_ports); udp_ports = NULL; } udp_ports = (char **)malloc(65536 * sizeof(*udp_ports)); if (udp_ports != NULL) bzero((char *)udp_ports, 65536 * sizeof(*udp_ports)); if (tcp_ports != NULL) { for (i = 0; i < 65536; i++) if (tcp_ports[i] != NULL) { free(tcp_ports[i]); tcp_ports[i] = NULL; } free(tcp_ports); tcp_ports = NULL; } tcp_ports = (char **)malloc(65536 * sizeof(*tcp_ports)); if (tcp_ports != NULL) bzero((char *)tcp_ports, 65536 * sizeof(*tcp_ports)); setservent(1); while ((s = getservent()) != NULL) { if (s->s_proto == NULL) continue; else if (!strcmp(s->s_proto, "tcp")) { port = ntohs(s->s_port); name = s->s_name; tab = tcp_ports; } else if (!strcmp(s->s_proto, "udp")) { port = ntohs(s->s_port); name = s->s_name; tab = udp_ports; } else continue; if ((port < 0 || port > 65535) || (name == NULL)) continue; if (tab != NULL) tab[port] = strdup(name); } endservent(); } static char * getlocalproto(u_int p) { static char pnum[4]; char *s; p &= 0xff; s = protocols ? protocols[p] : NULL; if (s == NULL) { sprintf(pnum, "%u", p); s = pnum; } return (s); } static int read_log(int fd, int *lenp, char *buf, int bufsize) { int nr; if (bufsize > IPFILTER_LOGSIZE) bufsize = IPFILTER_LOGSIZE; nr = read(fd, buf, bufsize); if (!nr) return (2); if ((nr < 0) && (errno != EINTR)) return (-1); *lenp = nr; return (0); } char * portlocalname(int res, char *proto, u_int port) { static char pname[8]; char *s; port = ntohs(port); port &= 0xffff; sprintf(pname, "%u", port); if (!res || (ipmonopts & IPMON_PORTNUM)) return (pname); s = NULL; if (!strcmp(proto, "tcp")) s = tcp_ports[port]; else if (!strcmp(proto, "udp")) s = udp_ports[port]; if (s == NULL) s = pname; return (s); } static char * icmpname(u_int type, u_int code) { static char name[80]; icmp_subtype_t *ist; icmp_type_t *it; char *s; s = NULL; it = find_icmptype(type, icmptypes4, sizeof(icmptypes4) / sizeof(*it)); if (it != NULL) s = it->it_name; if (s == NULL) sprintf(name, "icmptype(%d)/", type); else sprintf(name, "%s/", s); ist = NULL; if (it != NULL && it->it_subtable != NULL) ist = find_icmpsubtype(code, it->it_subtable, it->it_stsize); if (ist != NULL && ist->ist_name != NULL) strcat(name, ist->ist_name); else sprintf(name + strlen(name), "%d", code); return (name); } static char * icmpname6(u_int type, u_int code) { static char name[80]; icmp_subtype_t *ist; icmp_type_t *it; char *s; s = NULL; it = find_icmptype(type, icmptypes6, sizeof(icmptypes6) / sizeof(*it)); if (it != NULL) s = it->it_name; if (s == NULL) sprintf(name, "icmpv6type(%d)/", type); else sprintf(name, "%s/", s); ist = NULL; if (it != NULL && it->it_subtable != NULL) ist = find_icmpsubtype(code, it->it_subtable, it->it_stsize); if (ist != NULL && ist->ist_name != NULL) strcat(name, ist->ist_name); else sprintf(name + strlen(name), "%d", code); return (name); } void dumphex(FILE *log, int dopts, char *buf, int len) { char hline[80]; int i, j, k; u_char *s = (u_char *)buf, *t = (u_char *)hline; if (buf == NULL || len == 0) return; *hline = '\0'; for (i = len, j = 0; i; i--, j++, s++) { if (j && !(j & 0xf)) { *t++ = '\n'; *t = '\0'; if ((dopts & IPMON_SYSLOG)) syslog(LOG_INFO, "%s", hline); else if (log != NULL) fputs(hline, log); t = (u_char *)hline; *t = '\0'; } sprintf((char *)t, "%02x", *s & 0xff); t += 2; if (!((j + 1) & 0xf)) { s -= 15; sprintf((char *)t, " "); t += 8; for (k = 16; k; k--, s++) *t++ = (isprint(*s) ? *s : '.'); s--; } if ((j + 1) & 0xf) *t++ = ' ';; } if (j & 0xf) { for (k = 16 - (j & 0xf); k; k--) { *t++ = ' '; *t++ = ' '; *t++ = ' '; } sprintf((char *)t, " "); t += 7; s -= j & 0xf; for (k = j & 0xf; k; k--, s++) *t++ = (isprint(*s) ? *s : '.'); *t++ = '\n'; *t = '\0'; } if ((dopts & IPMON_SYSLOG) != 0) syslog(LOG_INFO, "%s", hline); else if (log != NULL) { fputs(hline, log); fflush(log); } } static struct tm * get_tm(time_t sec) { struct tm *tm; time_t t; t = sec; tm = localtime(&t); return (tm); } static void print_natlog(config_t *conf, char *buf, int blen) { static u_32_t seqnum = 0; int res, i, len, family; struct natlog *nl; struct tm *tm; iplog_t *ipl; char *proto; int simple; char *t; t = line; simple = 0; ipl = (iplog_t *)buf; if (ipl->ipl_seqnum != seqnum) { if ((ipmonopts & IPMON_SYSLOG) != 0) { syslog(LOG_WARNING, "missed %u NAT log entries: %u %u", ipl->ipl_seqnum - seqnum, seqnum, ipl->ipl_seqnum); } else { (void) fprintf(conf->log, "missed %u NAT log entries: %u %u\n", ipl->ipl_seqnum - seqnum, seqnum, ipl->ipl_seqnum); } } seqnum = ipl->ipl_seqnum + ipl->ipl_count; nl = (struct natlog *)((char *)ipl + sizeof(*ipl)); res = (ipmonopts & IPMON_RESOLVE) ? 1 : 0; tm = get_tm(ipl->ipl_sec); len = sizeof(line); if (!(ipmonopts & IPMON_SYSLOG)) { (void) strftime(t, len, "%d/%m/%Y ", tm); i = strlen(t); len -= i; t += i; } (void) strftime(t, len, "%T", tm); t += strlen(t); sprintf(t, ".%-.6ld @%hd ", (long)ipl->ipl_usec, nl->nl_rule + 1); t += strlen(t); switch (nl->nl_action) { case NL_NEW : strcpy(t, "NAT:NEW"); break; case NL_FLUSH : strcpy(t, "NAT:FLUSH"); break; case NL_CLONE : strcpy(t, "NAT:CLONE"); break; case NL_EXPIRE : strcpy(t, "NAT:EXPIRE"); break; case NL_DESTROY : strcpy(t, "NAT:DESTROY"); break; case NL_PURGE : strcpy(t, "NAT:PURGE"); break; default : sprintf(t, "NAT:Action(%d)", nl->nl_action); break; } t += strlen(t); switch (nl->nl_type) { case NAT_MAP : strcpy(t, "-MAP "); simple = 1; break; case NAT_REDIRECT : strcpy(t, "-RDR "); simple = 1; break; case NAT_BIMAP : strcpy(t, "-BIMAP "); simple = 1; break; case NAT_MAPBLK : strcpy(t, "-MAPBLOCK "); simple = 1; break; case NAT_REWRITE|NAT_MAP : strcpy(t, "-RWR_MAP "); break; case NAT_REWRITE|NAT_REDIRECT : strcpy(t, "-RWR_RDR "); break; case NAT_ENCAP|NAT_MAP : strcpy(t, "-ENC_MAP "); break; case NAT_ENCAP|NAT_REDIRECT : strcpy(t, "-ENC_RDR "); break; case NAT_DIVERTUDP|NAT_MAP : strcpy(t, "-DIV_MAP "); break; case NAT_DIVERTUDP|NAT_REDIRECT : strcpy(t, "-DIV_RDR "); break; default : sprintf(t, "-Type(%d) ", nl->nl_type); break; } t += strlen(t); proto = getlocalproto(nl->nl_p[0]); family = vtof(nl->nl_v[0]); if (simple == 1) { sprintf(t, "%s,%s <- -> ", hostname(family, nl->nl_osrcip.i6), portlocalname(res, proto, (u_int)nl->nl_osrcport)); t += strlen(t); sprintf(t, "%s,%s ", hostname(family, nl->nl_nsrcip.i6), portlocalname(res, proto, (u_int)nl->nl_nsrcport)); t += strlen(t); sprintf(t, "[%s,%s] ", hostname(family, nl->nl_odstip.i6), portlocalname(res, proto, (u_int)nl->nl_odstport)); } else { sprintf(t, "%s,%s ", hostname(family, nl->nl_osrcip.i6), portlocalname(res, proto, (u_int)nl->nl_osrcport)); t += strlen(t); sprintf(t, "%s,%s <- -> ", hostname(family, nl->nl_odstip.i6), portlocalname(res, proto, (u_int)nl->nl_odstport)); t += strlen(t); sprintf(t, "%s,%s ", hostname(family, nl->nl_nsrcip.i6), portlocalname(res, proto, (u_int)nl->nl_nsrcport)); t += strlen(t); sprintf(t, "%s,%s ", hostname(family, nl->nl_ndstip.i6), portlocalname(res, proto, (u_int)nl->nl_ndstport)); } t += strlen(t); strcpy(t, getlocalproto(nl->nl_p[0])); t += strlen(t); if (nl->nl_action == NL_EXPIRE || nl->nl_action == NL_FLUSH) { #ifdef USE_QUAD_T # ifdef PRId64 sprintf(t, " Pkts %" PRId64 "/%" PRId64 " Bytes %" PRId64 "/%" PRId64, # else sprintf(t, " Pkts %qd/%qd Bytes %qd/%qd", # endif #else sprintf(t, " Pkts %ld/%ld Bytes %ld/%ld", #endif nl->nl_pkts[0], nl->nl_pkts[1], nl->nl_bytes[0], nl->nl_bytes[1]); t += strlen(t); } *t++ = '\n'; *t++ = '\0'; if (ipmonopts & IPMON_SYSLOG) syslog(LOG_INFO, "%s", line); else if (conf->log != NULL) (void) fprintf(conf->log, "%s", line); } static void print_statelog(config_t *conf, char *buf, int blen) { static u_32_t seqnum = 0; int res, i, len, family; struct ipslog *sl; char *t, *proto; struct tm *tm; iplog_t *ipl; t = line; ipl = (iplog_t *)buf; if (ipl->ipl_seqnum != seqnum) { if ((ipmonopts & IPMON_SYSLOG) != 0) { syslog(LOG_WARNING, "missed %u state log entries: %u %u", ipl->ipl_seqnum - seqnum, seqnum, ipl->ipl_seqnum); } else { (void) fprintf(conf->log, "missed %u state log entries: %u %u\n", ipl->ipl_seqnum - seqnum, seqnum, ipl->ipl_seqnum); } } seqnum = ipl->ipl_seqnum + ipl->ipl_count; sl = (struct ipslog *)((char *)ipl + sizeof(*ipl)); res = (ipmonopts & IPMON_RESOLVE) ? 1 : 0; tm = get_tm(ipl->ipl_sec); len = sizeof(line); if (!(ipmonopts & IPMON_SYSLOG)) { (void) strftime(t, len, "%d/%m/%Y ", tm); i = strlen(t); len -= i; t += i; } (void) strftime(t, len, "%T", tm); t += strlen(t); sprintf(t, ".%-.6ld ", (long)ipl->ipl_usec); t += strlen(t); family = vtof(sl->isl_v); switch (sl->isl_type) { case ISL_NEW : strcpy(t, "STATE:NEW "); break; case ISL_CLONE : strcpy(t, "STATE:CLONED "); break; case ISL_EXPIRE : if ((sl->isl_p == IPPROTO_TCP) && (sl->isl_state[0] > IPF_TCPS_ESTABLISHED || sl->isl_state[1] > IPF_TCPS_ESTABLISHED)) strcpy(t, "STATE:CLOSE "); else strcpy(t, "STATE:EXPIRE "); break; case ISL_FLUSH : strcpy(t, "STATE:FLUSH "); break; case ISL_INTERMEDIATE : strcpy(t, "STATE:INTERMEDIATE "); break; case ISL_REMOVE : strcpy(t, "STATE:REMOVE "); break; case ISL_KILLED : strcpy(t, "STATE:KILLED "); break; case ISL_UNLOAD : strcpy(t, "STATE:UNLOAD "); break; default : sprintf(t, "Type: %d ", sl->isl_type); break; } t += strlen(t); proto = getlocalproto(sl->isl_p); if (sl->isl_p == IPPROTO_TCP || sl->isl_p == IPPROTO_UDP) { sprintf(t, "%s,%s -> ", hostname(family, (u_32_t *)&sl->isl_src), portlocalname(res, proto, (u_int)sl->isl_sport)); t += strlen(t); sprintf(t, "%s,%s PR %s", hostname(family, (u_32_t *)&sl->isl_dst), portlocalname(res, proto, (u_int)sl->isl_dport), proto); } else if (sl->isl_p == IPPROTO_ICMP) { sprintf(t, "%s -> ", hostname(family, (u_32_t *)&sl->isl_src)); t += strlen(t); sprintf(t, "%s PR icmp %d", hostname(family, (u_32_t *)&sl->isl_dst), sl->isl_itype); } else if (sl->isl_p == IPPROTO_ICMPV6) { sprintf(t, "%s -> ", hostname(family, (u_32_t *)&sl->isl_src)); t += strlen(t); sprintf(t, "%s PR icmpv6 %d", hostname(family, (u_32_t *)&sl->isl_dst), sl->isl_itype); } else { sprintf(t, "%s -> ", hostname(family, (u_32_t *)&sl->isl_src)); t += strlen(t); sprintf(t, "%s PR %s", hostname(family, (u_32_t *)&sl->isl_dst), proto); } t += strlen(t); if (sl->isl_tag != FR_NOLOGTAG) { sprintf(t, " tag %u", sl->isl_tag); t += strlen(t); } if (sl->isl_type != ISL_NEW) { sprintf(t, #ifdef USE_QUAD_T #ifdef PRId64 " Forward: Pkts in %" PRId64 " Bytes in %" PRId64 " Pkts out %" PRId64 " Bytes out %" PRId64 " Backward: Pkts in %" PRId64 " Bytes in %" PRId64 " Pkts out %" PRId64 " Bytes out %" PRId64, #else " Forward: Pkts in %qd Bytes in %qd Pkts out %qd Bytes out %qd Backward: Pkts in %qd Bytes in %qd Pkts out %qd Bytes out %qd", #endif /* PRId64 */ #else " Forward: Pkts in %ld Bytes in %ld Pkts out %ld Bytes out %ld Backward: Pkts in %ld Bytes in %ld Pkts out %ld Bytes out %ld", #endif sl->isl_pkts[0], sl->isl_bytes[0], sl->isl_pkts[1], sl->isl_bytes[1], sl->isl_pkts[2], sl->isl_bytes[2], sl->isl_pkts[3], sl->isl_bytes[3]); t += strlen(t); } *t++ = '\n'; *t++ = '\0'; if (ipmonopts & IPMON_SYSLOG) syslog(LOG_INFO, "%s", line); else if (conf->log != NULL) (void) fprintf(conf->log, "%s", line); } static void print_log(config_t *conf, logsource_t *log, char *buf, int blen) { char *bp, *bpo; iplog_t *ipl; int psize; bp = NULL; bpo = NULL; while (blen > 0) { ipl = (iplog_t *)buf; if ((u_long)ipl & (sizeof(long)-1)) { if (bp) bpo = bp; bp = (char *)malloc(blen); bcopy((char *)ipl, bp, blen); if (bpo) { free(bpo); bpo = NULL; } buf = bp; continue; } psize = ipl->ipl_dsize; if (psize > blen) break; if (conf->blog != NULL) { fwrite(buf, psize, 1, conf->blog); fflush(conf->blog); } if (log->logtype == IPL_LOGIPF) { if (ipl->ipl_magic == IPL_MAGIC) print_ipflog(conf, buf, psize); } else if (log->logtype == IPL_LOGNAT) { if (ipl->ipl_magic == IPL_MAGIC_NAT) print_natlog(conf, buf, psize); } else if (log->logtype == IPL_LOGSTATE) { if (ipl->ipl_magic == IPL_MAGIC_STATE) print_statelog(conf, buf, psize); } blen -= psize; buf += psize; } if (bp) free(bp); return; } static void print_ipflog(config_t *conf, char *buf, int blen) { static u_32_t seqnum = 0; int i, f, lvl, res, len, off, plen, ipoff, defaction; struct icmp *icmp; struct icmp *ic; char *t, *proto; ip_t *ipc, *ip; struct tm *tm; u_32_t *s, *d; u_short hl, p; ipflog_t *ipf; iplog_t *ipl; tcphdr_t *tp; #ifdef USE_INET6 struct ip6_ext *ehp; u_short ehl; ip6_t *ip6; int go; #endif ipl = (iplog_t *)buf; if (ipl->ipl_seqnum != seqnum) { if ((ipmonopts & IPMON_SYSLOG) != 0) { syslog(LOG_WARNING, "missed %u ipf log entries: %u %u", ipl->ipl_seqnum - seqnum, seqnum, ipl->ipl_seqnum); } else { (void) fprintf(conf->log, "missed %u ipf log entries: %u %u\n", ipl->ipl_seqnum - seqnum, seqnum, ipl->ipl_seqnum); } } seqnum = ipl->ipl_seqnum + ipl->ipl_count; ipf = (ipflog_t *)((char *)buf + sizeof(*ipl)); ip = (ip_t *)((char *)ipf + sizeof(*ipf)); f = ipf->fl_family; res = (ipmonopts & IPMON_RESOLVE) ? 1 : 0; t = line; *t = '\0'; tm = get_tm(ipl->ipl_sec); len = sizeof(line); if (!(ipmonopts & IPMON_SYSLOG)) { (void) strftime(t, len, "%d/%m/%Y ", tm); i = strlen(t); len -= i; t += i; } (void) strftime(t, len, "%T", tm); t += strlen(t); sprintf(t, ".%-.6ld ", (long)ipl->ipl_usec); t += strlen(t); if (ipl->ipl_count > 1) { sprintf(t, "%dx ", ipl->ipl_count); t += strlen(t); } { char ifname[sizeof(ipf->fl_ifname) + 1]; strncpy(ifname, ipf->fl_ifname, sizeof(ipf->fl_ifname)); ifname[sizeof(ipf->fl_ifname)] = '\0'; sprintf(t, "%s", ifname); t += strlen(t); # if SOLARIS if (ISALPHA(*(t - 1))) { sprintf(t, "%d", ipf->fl_unit); t += strlen(t); } # endif } if ((ipf->fl_group[0] == (char)~0) && (ipf->fl_group[1] == '\0')) strcat(t, " @-1:"); else if (ipf->fl_group[0] == '\0') (void) strcpy(t, " @0:"); else sprintf(t, " @%s:", ipf->fl_group); t += strlen(t); if (ipf->fl_rule == 0xffffffff) strcat(t, "-1 "); else sprintf(t, "%u ", ipf->fl_rule + 1); t += strlen(t); lvl = LOG_NOTICE; if (ipf->fl_lflags & FI_SHORT) { *t++ = 'S'; lvl = LOG_ERR; } if (FR_ISPASS(ipf->fl_flags)) { if (ipf->fl_flags & FR_LOGP) *t++ = 'p'; else *t++ = 'P'; } else if (FR_ISBLOCK(ipf->fl_flags)) { if (ipf->fl_flags & FR_LOGB) *t++ = 'b'; else *t++ = 'B'; lvl = LOG_WARNING; } else if ((ipf->fl_flags & FR_LOGMASK) == FR_LOG) { *t++ = 'L'; lvl = LOG_INFO; } else if (ipf->fl_flags & FF_LOGNOMATCH) { *t++ = 'n'; } else { *t++ = '?'; lvl = LOG_EMERG; } if (ipf->fl_loglevel != 0xffff) lvl = ipf->fl_loglevel; *t++ = ' '; *t = '\0'; if (f == AF_INET) { hl = IP_HL(ip) << 2; ipoff = ntohs(ip->ip_off); off = ipoff & IP_OFFMASK; p = (u_short)ip->ip_p; s = (u_32_t *)&ip->ip_src; d = (u_32_t *)&ip->ip_dst; plen = ntohs(ip->ip_len); } else #ifdef USE_INET6 if (f == AF_INET6) { off = 0; ipoff = 0; hl = sizeof(ip6_t); ip6 = (ip6_t *)ip; p = (u_short)ip6->ip6_nxt; s = (u_32_t *)&ip6->ip6_src; d = (u_32_t *)&ip6->ip6_dst; plen = hl + ntohs(ip6->ip6_plen); go = 1; ehp = (struct ip6_ext *)((char *)ip6 + hl); while (go == 1) { switch (p) { case IPPROTO_HOPOPTS : case IPPROTO_MOBILITY : case IPPROTO_DSTOPTS : case IPPROTO_ROUTING : case IPPROTO_AH : p = ehp->ip6e_nxt; ehl = 8 + (ehp->ip6e_len << 3); hl += ehl; ehp = (struct ip6_ext *)((char *)ehp + ehl); break; case IPPROTO_FRAGMENT : hl += sizeof(struct ip6_frag); /* FALLTHROUGH */ default : go = 0; break; } } } else #endif { goto printipflog; } proto = getlocalproto(p); if ((p == IPPROTO_TCP || p == IPPROTO_UDP) && !off) { tp = (tcphdr_t *)((char *)ip + hl); if (!(ipf->fl_lflags & FI_SHORT)) { sprintf(t, "%s,%s -> ", hostname(f, s), portlocalname(res, proto, (u_int)tp->th_sport)); t += strlen(t); sprintf(t, "%s,%s PR %s len %hu %hu", hostname(f, d), portlocalname(res, proto, (u_int)tp->th_dport), proto, hl, plen); t += strlen(t); if (p == IPPROTO_TCP) { *t++ = ' '; *t++ = '-'; for (i = 0; tcpfl[i].value; i++) if (tp->th_flags & tcpfl[i].value) *t++ = tcpfl[i].flag; if (ipmonopts & IPMON_VERBOSE) { sprintf(t, " %lu %lu %hu", (u_long)(ntohl(tp->th_seq)), (u_long)(ntohl(tp->th_ack)), ntohs(tp->th_win)); t += strlen(t); } } *t = '\0'; } else { sprintf(t, "%s -> ", hostname(f, s)); t += strlen(t); sprintf(t, "%s PR %s len %hu %hu", hostname(f, d), proto, hl, plen); } #if defined(AF_INET6) && defined(IPPROTO_ICMPV6) } else if ((p == IPPROTO_ICMPV6) && !off && (f == AF_INET6)) { ic = (struct icmp *)((char *)ip + hl); sprintf(t, "%s -> ", hostname(f, s)); t += strlen(t); sprintf(t, "%s PR icmpv6 len %hu %hu icmpv6 %s", hostname(f, d), hl, plen, icmpname6(ic->icmp_type, ic->icmp_code)); #endif } else if ((p == IPPROTO_ICMP) && !off && (f == AF_INET)) { ic = (struct icmp *)((char *)ip + hl); sprintf(t, "%s -> ", hostname(f, s)); t += strlen(t); sprintf(t, "%s PR icmp len %hu %hu icmp %s", hostname(f, d), hl, plen, icmpname(ic->icmp_type, ic->icmp_code)); if (ic->icmp_type == ICMP_UNREACH || ic->icmp_type == ICMP_SOURCEQUENCH || ic->icmp_type == ICMP_PARAMPROB || ic->icmp_type == ICMP_REDIRECT || ic->icmp_type == ICMP_TIMXCEED) { ipc = &ic->icmp_ip; i = ntohs(ipc->ip_len); /* * XXX - try to guess endian of ip_len in ICMP * returned data. */ if (i > 1500) i = ipc->ip_len; ipoff = ntohs(ipc->ip_off); proto = getlocalproto(ipc->ip_p); if (!(ipoff & IP_OFFMASK) && ((ipc->ip_p == IPPROTO_TCP) || (ipc->ip_p == IPPROTO_UDP))) { tp = (tcphdr_t *)((char *)ipc + hl); t += strlen(t); sprintf(t, " for %s,%s -", HOSTNAMEV4(ipc->ip_src), portlocalname(res, proto, (u_int)tp->th_sport)); t += strlen(t); sprintf(t, " %s,%s PR %s len %hu %hu", HOSTNAMEV4(ipc->ip_dst), portlocalname(res, proto, (u_int)tp->th_dport), proto, IP_HL(ipc) << 2, i); } else if (!(ipoff & IP_OFFMASK) && (ipc->ip_p == IPPROTO_ICMP)) { icmp = (icmphdr_t *)((char *)ipc + hl); t += strlen(t); sprintf(t, " for %s -", HOSTNAMEV4(ipc->ip_src)); t += strlen(t); sprintf(t, " %s PR icmp len %hu %hu icmp %d/%d", HOSTNAMEV4(ipc->ip_dst), IP_HL(ipc) << 2, i, icmp->icmp_type, icmp->icmp_code); } else { t += strlen(t); sprintf(t, " for %s -", HOSTNAMEV4(ipc->ip_src)); t += strlen(t); sprintf(t, " %s PR %s len %hu (%hu)", HOSTNAMEV4(ipc->ip_dst), proto, IP_HL(ipc) << 2, i); t += strlen(t); if (ipoff & IP_OFFMASK) { sprintf(t, "(frag %d:%hu@%hu%s%s)", ntohs(ipc->ip_id), i - (IP_HL(ipc) << 2), (ipoff & IP_OFFMASK) << 3, ipoff & IP_MF ? "+" : "", ipoff & IP_DF ? "-" : ""); } } } } else { sprintf(t, "%s -> ", hostname(f, s)); t += strlen(t); sprintf(t, "%s PR %s len %hu (%hu)", hostname(f, d), proto, hl, plen); t += strlen(t); if (off & IP_OFFMASK) sprintf(t, " (frag %d:%hu@%hu%s%s)", ntohs(ip->ip_id), plen - hl, (off & IP_OFFMASK) << 3, ipoff & IP_MF ? "+" : "", ipoff & IP_DF ? "-" : ""); } t += strlen(t); printipflog: if (ipf->fl_flags & FR_KEEPSTATE) { (void) strcpy(t, " K-S"); t += strlen(t); } if (ipf->fl_flags & FR_KEEPFRAG) { (void) strcpy(t, " K-F"); t += strlen(t); } if (ipf->fl_dir == 0) strcpy(t, " IN"); else if (ipf->fl_dir == 1) strcpy(t, " OUT"); t += strlen(t); if (ipf->fl_logtag != 0) { sprintf(t, " log-tag %d", ipf->fl_logtag); t += strlen(t); } if (ipf->fl_nattag.ipt_num[0] != 0) { strcpy(t, " nat-tag "); t += strlen(t); strncpy(t, ipf->fl_nattag.ipt_tag, sizeof(ipf->fl_nattag)); t += strlen(t); } if ((ipf->fl_lflags & FI_LOWTTL) != 0) { strcpy(t, " low-ttl"); t += 8; } if ((ipf->fl_lflags & FI_OOW) != 0) { strcpy(t, " OOW"); t += 4; } if ((ipf->fl_lflags & FI_BAD) != 0) { strcpy(t, " bad"); t += 4; } if ((ipf->fl_lflags & FI_NATED) != 0) { strcpy(t, " NAT"); t += 4; } if ((ipf->fl_lflags & FI_BADNAT) != 0) { strcpy(t, " bad-NAT"); t += 8; } if ((ipf->fl_lflags & FI_BADSRC) != 0) { strcpy(t, " bad-src"); t += 8; } if ((ipf->fl_lflags & FI_MULTICAST) != 0) { strcpy(t, " multicast"); t += 10; } if ((ipf->fl_lflags & FI_BROADCAST) != 0) { strcpy(t, " broadcast"); t += 10; } if ((ipf->fl_lflags & (FI_MULTICAST|FI_BROADCAST|FI_MBCAST)) == FI_MBCAST) { strcpy(t, " mbcast"); t += 7; } if (ipf->fl_breason != 0) { strcpy(t, " reason:"); t += 8; strcpy(t, reasons[ipf->fl_breason]); t += strlen(reasons[ipf->fl_breason]); } *t++ = '\n'; *t++ = '\0'; defaction = 0; if (conf->cfile != NULL) defaction = check_action(buf, line, ipmonopts, lvl); if (defaction == 0) { if (ipmonopts & IPMON_SYSLOG) { syslog(lvl, "%s", line); } else if (conf->log != NULL) { (void) fprintf(conf->log, "%s", line); } if (ipmonopts & IPMON_HEXHDR) { dumphex(conf->log, ipmonopts, buf, sizeof(iplog_t) + sizeof(*ipf)); } if (ipmonopts & IPMON_HEXBODY) { dumphex(conf->log, ipmonopts, (char *)ip, ipf->fl_plen + ipf->fl_hlen); } else if ((ipmonopts & IPMON_LOGBODY) && (ipf->fl_flags & FR_LOGBODY)) { dumphex(conf->log, ipmonopts, (char *)ip + ipf->fl_hlen, ipf->fl_plen); } } } static void usage(char *prog) { fprintf(stderr, "Usage: %s [ -abDFhnpstvxX ] [ -B ] [ -C ]\n" "\t[ -f ] [ -L ] [ -N ]\n" "\t[ -o [NSI] ] [ -O [NSI] ] [ -P ] [ -S ]\n" "\t[ ]\n", prog); exit(1); } static void write_pid(char *file) { FILE *fp = NULL; int fd; if ((fd = open(file, O_CREAT|O_TRUNC|O_WRONLY, 0644)) >= 0) { fp = fdopen(fd, "w"); if (fp == NULL) { close(fd); fprintf(stderr, "unable to open/create pid file: %s\n", file); return; } fprintf(fp, "%d", getpid()); fclose(fp); } } static void flushlogs(char *file, FILE *log) { int fd, flushed = 0; if ((fd = open(file, O_RDWR)) == -1) { (void) fprintf(stderr, "%s: open: %s\n", file, STRERROR(errno)); exit(1); } if (ioctl(fd, SIOCIPFFB, &flushed) == 0) { printf("%d bytes flushed from log buffer\n", flushed); fflush(stdout); } else ipferror(fd, "SIOCIPFFB"); (void) close(fd); if (flushed) { if (ipmonopts & IPMON_SYSLOG) { syslog(LOG_INFO, "%d bytes flushed from log\n", flushed); } else if ((log != stdout) && (log != NULL)) { fprintf(log, "%d bytes flushed from log\n", flushed); } } } static void logopts(int turnon, char *options) { int flags = 0; char *s; for (s = options; *s; s++) { switch (*s) { case 'N' : flags |= IPMON_NAT; break; case 'S' : flags |= IPMON_STATE; break; case 'I' : flags |= IPMON_FILTER; break; default : fprintf(stderr, "Unknown log option %c\n", *s); exit(1); } } if (turnon) ipmonopts |= flags; else ipmonopts &= ~(flags); } static void initconfig(config_t *conf) { int i; memset(conf, 0, sizeof(*conf)); conf->log = stdout; conf->maxfd = -1; for (i = 0; i < 3; i++) { conf->logsrc[i].fd = -1; conf->logsrc[i].logtype = -1; conf->logsrc[i].regular = -1; } conf->logsrc[0].file = IPL_NAME; conf->logsrc[1].file = IPNAT_NAME; conf->logsrc[2].file = IPSTATE_NAME; add_doing(&executesaver); add_doing(&snmpv1saver); add_doing(&snmpv2saver); add_doing(&syslogsaver); add_doing(&filesaver); add_doing(¬hingsaver); } int main(int argc, char *argv[]) { int doread, c, make_daemon = 0; char *prog; config_t config; prog = strrchr(argv[0], '/'); if (prog == NULL) prog = argv[0]; else prog++; initconfig(&config); while ((c = getopt(argc, argv, "?abB:C:Df:FhL:nN:o:O:pP:sS:tvxX")) != -1) switch (c) { case 'a' : ipmonopts |= IPMON_LOGALL; config.logsrc[0].logtype = IPL_LOGIPF; config.logsrc[1].logtype = IPL_LOGNAT; config.logsrc[2].logtype = IPL_LOGSTATE; break; case 'b' : ipmonopts |= IPMON_LOGBODY; break; case 'B' : config.bfile = optarg; config.blog = fopen(optarg, "a"); break; case 'C' : config.cfile = optarg; break; case 'D' : make_daemon = 1; break; case 'f' : case 'I' : ipmonopts |= IPMON_FILTER; config.logsrc[0].logtype = IPL_LOGIPF; config.logsrc[0].file = optarg; break; case 'F' : flushlogs(config.logsrc[0].file, config.log); flushlogs(config.logsrc[1].file, config.log); flushlogs(config.logsrc[2].file, config.log); break; case 'L' : logfac = fac_findname(optarg); if (logfac == -1) { fprintf(stderr, "Unknown syslog facility '%s'\n", optarg); exit(1); } break; case 'n' : ipmonopts |= IPMON_RESOLVE; opts &= ~OPT_NORESOLVE; break; case 'N' : ipmonopts |= IPMON_NAT; config.logsrc[1].logtype = IPL_LOGNAT; config.logsrc[1].file = optarg; break; case 'o' : case 'O' : logopts(c == 'o', optarg); if (ipmonopts & IPMON_FILTER) config.logsrc[0].logtype = IPL_LOGIPF; if (ipmonopts & IPMON_NAT) config.logsrc[1].logtype = IPL_LOGNAT; if (ipmonopts & IPMON_STATE) config.logsrc[2].logtype = IPL_LOGSTATE; break; case 'p' : ipmonopts |= IPMON_PORTNUM; break; case 'P' : pidfile = optarg; break; case 's' : ipmonopts |= IPMON_SYSLOG; config.log = NULL; break; case 'S' : ipmonopts |= IPMON_STATE; config.logsrc[2].logtype = IPL_LOGSTATE; config.logsrc[2].file = optarg; break; case 't' : ipmonopts |= IPMON_TAIL; break; case 'v' : ipmonopts |= IPMON_VERBOSE; break; case 'x' : ipmonopts |= IPMON_HEXBODY; break; case 'X' : ipmonopts |= IPMON_HEXHDR; break; default : case 'h' : case '?' : usage(argv[0]); } if (ipmonopts & IPMON_SYSLOG) openlog(prog, LOG_NDELAY|LOG_PID, logfac); init_tabs(); if (config.cfile) if (load_config(config.cfile) == -1) { unload_config(); exit(1); } /* * Default action is to only open the filter log file. */ if ((config.logsrc[0].logtype == -1) && (config.logsrc[0].logtype == -1) && (config.logsrc[0].logtype == -1)) config.logsrc[0].logtype = IPL_LOGIPF; openlogs(&config); if (!(ipmonopts & IPMON_SYSLOG)) { config.file = argv[optind]; config.log = config.file ? fopen(config.file, "a") : stdout; if (config.log == NULL) { (void) fprintf(stderr, "%s: fopen: %s\n", argv[optind], STRERROR(errno)); exit(1); /* NOTREACHED */ } setvbuf(config.log, NULL, _IONBF, 0); } else { config.log = NULL; } if (make_daemon && ((config.log != stdout) || (ipmonopts & IPMON_SYSLOG))) { #ifdef BSD daemon(0, !(ipmonopts & IPMON_SYSLOG)); #else int pid; switch (fork()) { case -1 : (void) fprintf(stderr, "%s: fork() failed: %s\n", argv[0], STRERROR(errno)); exit(1); /* NOTREACHED */ case 0 : break; default : exit(0); } setsid(); if ((ipmonopts & IPMON_SYSLOG)) close(2); #endif /* !BSD */ close(0); close(1); write_pid(pidfile); } signal(SIGHUP, handlehup); for (doread = 1; doread; ) doread = read_loginfo(&config); unload_config(); return (0); /* NOTREACHED */ } static void openlogs(config_t *conf) { logsource_t *l; struct stat sb; int i; for (i = 0; i < 3; i++) { l = &conf->logsrc[i]; if (l->logtype == -1) continue; if (!strcmp(l->file, "-")) l->fd = 0; else { if ((l->fd= open(l->file, O_RDONLY)) == -1) { (void) fprintf(stderr, "%s: open: %s\n", l->file, STRERROR(errno)); exit(1); /* NOTREACHED */ } if (fstat(l->fd, &sb) == -1) { (void) fprintf(stderr, "%d: fstat: %s\n", l->fd, STRERROR(errno)); exit(1); /* NOTREACHED */ } l->regular = !S_ISCHR(sb.st_mode); if (l->regular) l->size = sb.st_size; FD_SET(l->fd, &conf->fdmr); if (l->fd > conf->maxfd) conf->maxfd = l->fd; } } } static int read_loginfo(config_t *conf) { iplog_t buf[DEFAULT_IPFLOGSIZE/sizeof(iplog_t)+1]; int n, tr, nr, i; logsource_t *l; fd_set fdr; fdr = conf->fdmr; n = select(conf->maxfd + 1, &fdr, NULL, NULL, NULL); if (n == 0) return (1); if (n == -1) { if (errno == EINTR) return (1); return (-1); } for (i = 0, nr = 0; i < 3; i++) { l = &conf->logsrc[i]; if ((l->logtype == -1) || !FD_ISSET(l->fd, &fdr)) continue; tr = 0; if (l->regular) { tr = (lseek(l->fd, 0, SEEK_CUR) < l->size); if (!tr && !(ipmonopts & IPMON_TAIL)) return (0); } n = 0; tr = read_log(l->fd, &n, (char *)buf, sizeof(buf)); if (donehup) { if (conf->file != NULL) { if (conf->log != NULL) { fclose(conf->log); conf->log = NULL; } conf->log = fopen(conf->file, "a"); } if (conf->bfile != NULL) { if (conf->blog != NULL) { fclose(conf->blog); conf->blog = NULL; } conf->blog = fopen(conf->bfile, "a"); } init_tabs(); if (conf->cfile != NULL) load_config(conf->cfile); donehup = 0; } switch (tr) { case -1 : if (ipmonopts & IPMON_SYSLOG) syslog(LOG_CRIT, "read: %m\n"); else { ipferror(l->fd, "read"); } return (0); case 1 : if (ipmonopts & IPMON_SYSLOG) syslog(LOG_CRIT, "aborting logging\n"); else if (conf->log != NULL) fprintf(conf->log, "aborting logging\n"); return (0); case 2 : break; case 0 : nr += tr; if (n > 0) { print_log(conf, l, (char *)buf, n); if (!(ipmonopts & IPMON_SYSLOG)) fflush(conf->log); } break; } } if (!nr && (ipmonopts & IPMON_TAIL)) sleep(1); return (1); }