Mercurial > hg > toybox
view toys/pending/syslogd.c @ 997:8b1814e4c987
Ashwini Sharma said that Kyungwan Han should be in the contact info for the commands he sent recently.
| author | Rob Landley <rob@landley.net> |
|---|---|
| date | Sun, 11 Aug 2013 21:56:08 -0500 |
| parents | 893c86bbe452 |
| children | f9271a80fedc |
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/* syslogd.c - a system logging utility. * * Copyright 2013 Madhur Verma <mad.flexi@gmail.com> * Copyright 2013 Kyungwan Han <asura321@gmail.com> * * No Standard USE_SYSLOGD(NEWTOY(syslogd,">0l#<1>8=8R:b#<0>99=1s#<0=200m#<0>71582787=20O:p:f:a:nSKLD", TOYFLAG_SBIN|TOYFLAG_STAYROOT)) config SYSLOGD bool "syslogd" default n help Usage: syslogd [-a socket] [-p socket] [-O logfile] [-f config file] [-m interval] [-p socket] [-s SIZE] [-b N] [-R HOST] [-l N] [-nSLKD] System logging utility -a Extra unix socket for listen -O FILE Default log file <DEFAULT: /var/log/messages> -f FILE Config file <DEFAULT: /etc/syslog.conf> -p Alternative unix domain socket <DEFAULT : /dev/log> -n Avoid auto-backgrounding. -S Smaller output -m MARK interval <DEFAULT: 20 minutes> (RANGE: 0 to 71582787) -R HOST Log to IP or hostname on PORT (default PORT=514/UDP)" -L Log locally and via network (default is network only if -R)" -s SIZE Max size (KB) before rotation (default:200KB, 0=off) -b N rotated logs to keep (default:1, max=99, 0=purge) -K Log to kernel printk buffer (use dmesg to read it) -l N Log only messages more urgent than prio(default:8 max:8 min:1) -D Drop duplicates */ #define FOR_syslogd #include "toys.h" #include "toynet.h" GLOBALS( char *socket; char *config_file; char *unix_socket; char *logfile; long interval; long rot_size; long rot_count; char *remote_log; long log_prio; struct arg_list *lsocks; // list of listen sockets struct arg_list *lfiles; // list of write logfiles fd_set rfds; // fds for reading int sd; // socket for logging remote messeges. ) #define flag_get(f,v,d) ((toys.optflags & f) ? v : d) #define flag_chk(f) ((toys.optflags & f) ? 1 : 0) #ifndef SYSLOG_NAMES #define INTERNAL_NOPRI 0x10 #define INTERNAL_MARK LOG_MAKEPRI(LOG_NFACILITIES, 0) typedef struct _code { char *c_name; int c_val; } CODE; static CODE prioritynames[] = { { "alert", LOG_ALERT }, { "crit", LOG_CRIT }, { "debug", LOG_DEBUG }, { "emerg", LOG_EMERG }, { "err", LOG_ERR }, { "error", LOG_ERR }, /* DEPRECATED */ { "info", LOG_INFO }, { "none", INTERNAL_NOPRI }, /* INTERNAL */ { "notice", LOG_NOTICE }, { "panic", LOG_EMERG }, /* DEPRECATED */ { "warn", LOG_WARNING }, /* DEPRECATED */ { "warning", LOG_WARNING }, { NULL, -1 } }; static CODE facilitynames[] = { { "auth", LOG_AUTH }, { "authpriv", LOG_AUTHPRIV }, { "cron", LOG_CRON }, { "daemon", LOG_DAEMON }, { "ftp", LOG_FTP }, { "kern", LOG_KERN }, { "lpr", LOG_LPR }, { "mail", LOG_MAIL }, { "mark", INTERNAL_MARK }, /* INTERNAL */ { "news", LOG_NEWS }, { "security", LOG_AUTH }, /* DEPRECATED */ { "syslog", LOG_SYSLOG }, { "user", LOG_USER }, { "uucp", LOG_UUCP }, { "local0", LOG_LOCAL0 }, { "local1", LOG_LOCAL1 }, { "local2", LOG_LOCAL2 }, { "local3", LOG_LOCAL3 }, { "local4", LOG_LOCAL4 }, { "local5", LOG_LOCAL5 }, { "local6", LOG_LOCAL6 }, { "local7", LOG_LOCAL7 }, { NULL, -1 } }; #endif // Signal handling struct fd_pair { int rd; int wr; }; static struct fd_pair sigfd; // UNIX Sockets for listening typedef struct unsocks_s { char *path; struct sockaddr_un sdu; int sd; } unsocks_t; // Log file entry to log into. typedef struct logfile_s { char *filename; char *config; uint8_t isNetwork; uint32_t facility[8]; uint8_t level[LOG_NFACILITIES]; int logfd; struct sockaddr_in saddr; } logfile_t; // Adds opened socks to rfds for select() static int addrfds(void) { unsocks_t *sock; int ret = 0; struct arg_list *node = TT.lsocks; FD_ZERO(&TT.rfds); while (node) { sock = (unsocks_t*) node->arg; if (sock->sd > 2) { FD_SET(sock->sd, &TT.rfds); ret = sock->sd; } node = node->next; } FD_SET(sigfd.rd, &TT.rfds); return (sigfd.rd > ret)?sigfd.rd:ret; } /* * initializes unsock_t structure * and opens socket for reading * and adds to global lsock list. */ static int open_unix_socks(void) { struct arg_list *node; unsocks_t *sock; int ret = 0; for(node = TT.lsocks; node; node = node->next) { sock = (unsocks_t*) node->arg; sock->sdu.sun_family = AF_UNIX; strcpy(sock->sdu.sun_path, sock->path); sock->sd = socket(AF_UNIX, SOCK_DGRAM, 0); if (sock->sd < 0) { perror_msg("OPEN SOCKS : failed"); continue; } unlink(sock->sdu.sun_path); if (bind(sock->sd, (struct sockaddr *) &sock->sdu, sizeof(sock->sdu))) { perror_msg("BIND SOCKS : failed sock : %s", sock->sdu.sun_path); close(sock->sd); continue; } chmod(sock->path, 0777); ret++; } return ret; } /* * creates a socket of family INET and protocol UDP * if successful then returns SOCK othrwise error */ static int open_udp_socks(char *host, int port, struct sockaddr_in *sadd) { struct addrinfo *info, rp; memset(&rp, 0, sizeof(rp)); rp.ai_family = AF_INET; rp.ai_socktype = SOCK_DGRAM; rp.ai_protocol = IPPROTO_UDP; if (getaddrinfo(host, NULL, &rp, &info) || !info) perror_exit("BAD ADDRESS: can't find : %s ", host); ((struct sockaddr_in*)info->ai_addr)->sin_port = htons(port); memcpy(sadd, info->ai_addr, info->ai_addrlen); freeaddrinfo(info); return xsocket(AF_INET, SOCK_DGRAM, IPPROTO_UDP); } // Returns node having filename static struct arg_list *get_file_node(char *filename, struct arg_list *list) { while (list) { if (!strcmp(((logfile_t*) list->arg)->filename, filename)) return list; list = list->next; } return list; } /* * recurses the logfile list and resolves config * for evry file and updates facilty and log level bits. */ static int resolve_config(logfile_t *file) { char *tk, *fac, *lvl, *tmp, *nfac; int count = 0; unsigned facval = 0; uint8_t set, levval, neg; CODE *val = NULL; tmp = xstrdup(file->config); for (tk = strtok(tmp, "; \0"); tk; tk = strtok(NULL, "; \0")) { fac = tk; tk = strchr(fac, '.'); if (!tk) return -1; *tk = '\0'; lvl = tk + 1; while(1) { count = 0; if (*fac == '*') { facval = 0xFFFFFFFF; fac++; } nfac = strchr(fac, ','); if (nfac) *nfac = '\0'; while (*fac && ((CODE*) &facilitynames[count])->c_name) { val = (CODE*) &facilitynames[count]; if (!strcmp(fac, val->c_name)) { facval |= (1<<LOG_FAC(val->c_val)); break; } count++; } if (((CODE*) &facilitynames[count])->c_val == -1) return -1; if (nfac) fac = nfac+1; else break; } count = 0; set = 0; levval = 0; neg = 0; if (*lvl == '!') { neg = 1; lvl++; } if (*lvl == '=') { set = 1; lvl++; } if (*lvl == '*') { levval = 0xFF; lvl++; } while (*lvl && ((CODE*) &prioritynames[count])->c_name) { val = (CODE*) &prioritynames[count]; if (!strcmp(lvl, val->c_name)) { levval |= set ? LOG_MASK(val->c_val):LOG_UPTO(val->c_val); if (neg) levval = ~levval; break; } count++; } if (((CODE*) &prioritynames[count])->c_val == -1) return -1; count = 0; set = levval; while(set) { if (set & 0x1) file->facility[count] |= facval; set >>= 1; count++; } for (count = 0; count < LOG_NFACILITIES; count++) { if (facval & 0x1) file->level[count] |= levval; facval >>= 1; } } free(tmp); return 0; } // Parse config file and update the log file list. static int parse_config_file(void) { logfile_t *file; FILE *fp = NULL; char *confline = NULL, *tk = NULL, *tokens[2] = {NULL, NULL}; int len, linelen, tcount, lineno = 0; struct arg_list *node; /* * if -K then open only /dev/kmsg * all other log files are neglected * thus no need to open config either. */ if (flag_chk(FLAG_K)) { node = xzalloc(sizeof(struct arg_list)); file = xzalloc(sizeof(logfile_t)); file->filename = "/dev/kmsg"; file->config = "*.*"; memset(file->level, 0xFF, sizeof(file->level)); memset(file->facility, 0xFFFFFFFF, sizeof(file->facility)); node->arg = (char*) file; TT.lfiles = node; return 0; } /* * if -R then add remote host to log list * if -L is not provided all other log * files are neglected thus no need to * open config either so just return. */ if (flag_chk(FLAG_R)) { node = xzalloc(sizeof(struct arg_list)); file = xzalloc(sizeof(logfile_t)); file->filename = xmsprintf("@%s",TT.remote_log); file->isNetwork = 1; file->config = "*.*"; memset(file->level, 0xFF, sizeof(file->level)); memset(file->facility, 0xFFFFFFFF, sizeof(file->facility)); node->arg = (char*) file; TT.lfiles = node; if (!flag_chk(FLAG_L))return 0; } /* * Read config file and add logfiles to the list * with their configuration. */ fp = fopen(TT.config_file, "r"); if (!fp && flag_chk(FLAG_f)) perror_exit("can't open '%s'", TT.config_file); for (len = 0, linelen = 0; fp;) { len = getline(&confline, (size_t*) &linelen, fp); if (len <= 0) break; lineno++; for (; *confline == ' '; confline++, len--) ; if ((confline[0] == '#') || (confline[0] == '\n')) continue; for (tcount = 0, tk = strtok(confline, " \t"); tk && (tcount < 2); tk = strtok(NULL, " \t"), tcount++) { if (tcount == 2) { error_msg("error in '%s' at line %d", TT.config_file, lineno); return -1; } tokens[tcount] = xstrdup(tk); } if (tcount <= 1 || tcount > 2) { if (tokens[0]) free(tokens[0]); error_msg("bad line %d: 1 tokens found, 2 needed", lineno); return -1; } tk = (tokens[1] + (strlen(tokens[1]) - 1)); if (*tk == '\n') *tk = '\0'; if (*tokens[1] == '\0') { error_msg("bad line %d: 1 tokens found, 2 needed", lineno); return -1; } if (*tokens[1] == '*') goto loop_again; node = get_file_node(tokens[1], TT.lfiles); if (!node) { node = xzalloc(sizeof(struct arg_list)); file = xzalloc(sizeof(logfile_t)); file->config = xstrdup(tokens[0]); if (resolve_config(file)==-1) { error_msg("error in '%s' at line %d", TT.config_file, lineno); return -1; } file->filename = xstrdup(tokens[1]); if (*file->filename == '@') file->isNetwork = 1; node->arg = (char*) file; node->next = TT.lfiles; TT.lfiles = node; } else { file = (logfile_t*) node->arg; int rel = strlen(file->config) + strlen(tokens[0]) + 2; file->config = xrealloc(file->config, rel); sprintf(file->config, "%s;%s", file->config, tokens[0]); } loop_again: if (tokens[0]) free(tokens[0]); if (tokens[1]) free(tokens[1]); free(confline); confline = NULL; } /* * Can't open config file or support is not enabled * adding default logfile to the head of list. */ if (!fp){ node = xzalloc(sizeof(struct arg_list)); file = xzalloc(sizeof(logfile_t)); file->filename = flag_get(FLAG_O, TT.logfile, "/var/log/messages"); //DEFLOGFILE file->isNetwork = 0; file->config = "*.*"; memset(file->level, 0xFF, sizeof(file->level)); memset(file->facility, 0xFFFFFFFF, sizeof(file->facility)); node->arg = (char*) file; node->next = TT.lfiles; TT.lfiles = node; } if (fp) { fclose(fp); fp = NULL; } return 0; } static int getport(char *str, char *filename) { char *endptr = NULL; int base = 10; errno = 0; if (str[0] == '0' && (str[1] == 'x' || str[1] == 'X')) { base = 16; str += 2; } long port = strtol(str, &endptr, base); if (errno || *endptr!='\0'|| endptr == str || port < 0 || port > 65535) error_exit("wrong port no in %s", filename); return (int)port; } // open every log file in list. static void open_logfiles(void) { logfile_t *tfd; char *p, *tmpfile; int port = -1; struct arg_list *node = TT.lfiles; while (node) { tfd = (logfile_t*) node->arg; if (tfd->isNetwork) { tmpfile = xstrdup(tfd->filename +1); if ((p = strchr(tmpfile, ':'))) { *p = '\0'; port = getport(p + 1, tfd->filename); } tfd->logfd = open_udp_socks(tmpfile, (port>=0)?port:514, &tfd->saddr); free(tmpfile); } else tfd->logfd = open(tfd->filename, O_CREAT | O_WRONLY | O_APPEND, 0666); if (tfd->logfd < 0) { tfd->filename = "/dev/console"; tfd->logfd = open(tfd->filename, O_APPEND); } node = node->next; } } //write to file with rotation static int write_rotate( logfile_t *tf, int len) { int size, isreg; struct stat statf; isreg = (!fstat(tf->logfd, &statf) && S_ISREG(statf.st_mode)); size = statf.st_size; if (flag_chk(FLAG_s) || flag_chk(FLAG_b)) { if (TT.rot_size && isreg && (size + len) > (TT.rot_size*1024)) { if (TT.rot_count) { /* always 0..99 */ int i = strlen(tf->filename) + 3 + 1; char old_file[i]; char new_file[i]; i = TT.rot_count - 1; while (1) { sprintf(new_file, "%s.%d", tf->filename, i); if (!i) break; sprintf(old_file, "%s.%d", tf->filename, --i); rename(old_file, new_file); } rename(tf->filename, new_file); unlink(tf->filename); close(tf->logfd); tf->logfd = open(tf->filename, O_CREAT | O_WRONLY | O_APPEND, 0666); } ftruncate(tf->logfd, 0); } } return write(tf->logfd, toybuf, len); } //search the given name and return its value static char *dec(int val, CODE *clist) { const CODE *c; for (c = clist; c->c_name; c++) if (val == c->c_val) return c->c_name; return itoa(val); } // Compute priority from "facility.level" pair static void priority_to_string(int pri, char **facstr, char **lvlstr) { int fac,lev; fac = LOG_FAC(pri); lev = LOG_PRI(pri); *facstr = dec(fac<<3, facilitynames); *lvlstr = dec(lev, prioritynames); } //Parse messege and write to file. static void logmsg(char *msg, int len) { time_t now; char *p, *ts, *lvlstr, *facstr; struct utsname uts; int pri = 0; struct arg_list *lnode = TT.lfiles; char *omsg = msg; int olen = len, fac, lvl; if (*msg == '<') { // Extract the priority no. pri = (int) strtoul(msg + 1, &p, 10); if (*p == '>') msg = p + 1; } /* Jan 18 00:11:22 msg... * 01234567890123456 */ if (len < 16 || msg[3] != ' ' || msg[6] != ' ' || msg[9] != ':' || msg[12] != ':' || msg[15] != ' ') { time(&now); ts = ctime(&now) + 4; /* skip day of week */ } else { now = 0; ts = msg; msg += 16; } ts[15] = '\0'; fac = LOG_FAC(pri); lvl = LOG_PRI(pri); if (flag_chk(FLAG_K)) { len = sprintf(toybuf, "<%d> %s\n", pri, msg); goto do_log; } priority_to_string(pri, &facstr, &lvlstr); p = "local"; if (!uname(&uts)) p = uts.nodename; if (flag_chk(FLAG_S)) len = sprintf(toybuf, "%s %s\n", ts, msg); else len = sprintf(toybuf, "%s %s %s.%s %s\n", ts, p, facstr, lvlstr, msg); do_log: if (lvl >= TT.log_prio) return; while (lnode) { logfile_t *tf = (logfile_t*) lnode->arg; if (tf->logfd > 0) { if ((tf->facility[lvl] & (1 << fac)) && (tf->level[fac] & (1<<lvl))) { int wlen; if (tf->isNetwork) wlen = sendto(tf->logfd, omsg, olen, 0, (struct sockaddr*)&tf->saddr, sizeof(tf->saddr)); else wlen = write_rotate(tf, len); if (wlen < 0) perror_msg("write failed file : %s ", (tf->isNetwork)?(tf->filename+1):tf->filename); } } lnode = lnode->next; } } /* * closes all read and write fds * and frees all nodes and lists */ static void cleanup(void) { struct arg_list *fnode; while (TT.lsocks) { fnode = TT.lsocks; if (((unsocks_t*) fnode->arg)->sd >= 0) close(((unsocks_t*) fnode->arg)->sd); free(fnode->arg); TT.lsocks = fnode->next; free(fnode); } unlink("/dev/log"); while (TT.lfiles) { fnode = TT.lfiles; if (((logfile_t*) fnode->arg)->logfd >= 0) close(((logfile_t*) fnode->arg)->logfd); free(fnode->arg); TT.lfiles = fnode->next; free(fnode); } } static void signal_handler(int sig) { unsigned char ch = sig; if (write(sigfd.wr, &ch, 1) != 1) error_msg("can't send signal"); } static void setup_signal() { if (pipe((int *)&sigfd) < 0) error_exit("pipe failed\n"); fcntl(sigfd.wr , F_SETFD, FD_CLOEXEC); fcntl(sigfd.rd , F_SETFD, FD_CLOEXEC); int flags = fcntl(sigfd.wr, F_GETFL); fcntl(sigfd.wr, F_SETFL, flags | O_NONBLOCK); signal(SIGHUP, signal_handler); signal(SIGTERM, signal_handler); signal(SIGINT, signal_handler); signal(SIGQUIT, signal_handler); } void syslogd_main(void) { unsocks_t *tsd; int maxfd, retval, last_len=0; struct timeval tv; struct arg_list *node; char *temp, *buffer = (toybuf +2048), *last_buf = (toybuf + 3072); //these two buffs are of 1K each if (flag_chk(FLAG_p) && strlen(TT.unix_socket) > 108) error_exit("Socket path should not be more than 108"); TT.config_file = flag_get(FLAG_f, TT.config_file, "/etc/syslog.conf"); //DEFCONFFILE init_jumpin: TT.lsocks = xzalloc(sizeof(struct arg_list)); tsd = xzalloc(sizeof(unsocks_t)); tsd->path = flag_get(FLAG_p, TT.unix_socket , "/dev/log"); // DEFLOGSOCK TT.lsocks->arg = (char*) tsd; if (flag_chk(FLAG_a)) { for (temp = strtok(TT.socket, ":"); temp; temp = strtok(NULL, ":")) { struct arg_list *ltemp = xzalloc(sizeof(struct arg_list)); if (strlen(temp) > 107) temp[108] = '\0'; tsd = xzalloc(sizeof(unsocks_t)); tsd->path = temp; ltemp->arg = (char*) tsd; ltemp->next = TT.lsocks; TT.lsocks = ltemp; } } if (!open_unix_socks()) { error_msg("Can't open single socket for listenning."); goto clean_and_exit; } setup_signal(); if (parse_config_file() == -1) goto clean_and_exit; open_logfiles(); if (!flag_chk(FLAG_n)) { //don't daemonize again if SIGHUP received. toys.optflags |= FLAG_n; } { int pid_fd = open("/var/run/syslogd.pid", O_CREAT | O_WRONLY | O_TRUNC, 0666); if (pid_fd > 0) { unsigned pid = getpid(); int len = sprintf(toybuf, "%u\n", pid); write(pid_fd, toybuf, len); close(pid_fd); } } logmsg("<46>Toybox: syslogd started", 27); //27 : the length of message for (;;) { maxfd = addrfds(); tv.tv_usec = 0; tv.tv_sec = TT.interval*60; retval = select(maxfd + 1, &TT.rfds, NULL, NULL, (TT.interval)?&tv:NULL); if (retval < 0) { /* Some error. */ if (errno == EINTR) continue; perror_msg("Error in select "); continue; } if (!retval) { /* Timed out */ logmsg("<46>-- MARK --", 14); continue; } if (FD_ISSET(sigfd.rd, &TT.rfds)) { /* May be a signal */ unsigned char sig; if (read(sigfd.rd, &sig, 1) != 1) { error_msg("signal read failed.\n"); continue; } switch(sig) { case SIGTERM: /* FALLTHROUGH */ case SIGINT: /* FALLTHROUGH */ case SIGQUIT: logmsg("<46>syslogd exiting", 19); if (CFG_TOYBOX_FREE ) cleanup(); signal(sig, SIG_DFL); sigset_t ss; sigemptyset(&ss); sigaddset(&ss, sig); sigprocmask(SIG_UNBLOCK, &ss, NULL); raise(sig); _exit(1); /* Should not reach it */ break; case SIGHUP: logmsg("<46>syslogd exiting", 19); cleanup(); //cleanup is done, as we restart syslog. goto init_jumpin; default: break; } } if (retval > 0) { /* Some activity on listen sockets. */ node = TT.lsocks; while (node) { int sd = ((unsocks_t*) node->arg)->sd; if (FD_ISSET(sd, &TT.rfds)) { int len = read(sd, buffer, 1023); //buffer is of 1K, hence readingonly 1023 bytes, 1 for NUL if (len > 0) { buffer[len] = '\0'; if(flag_chk(FLAG_D) && (len == last_len)) if (!memcmp(last_buf, buffer, len)) break; memcpy(last_buf, buffer, len); last_len = len; logmsg(buffer, len); } break; } node = node->next; } } } clean_and_exit: logmsg("<46>syslogd exiting", 19); if (CFG_TOYBOX_FREE ) cleanup(); }