/* * ntp_util.c - stuff I didn't have any other place for */ #ifdef HAVE_CONFIG_H # include #endif #include "ntpd.h" #include "ntp_io.h" #include "ntp_unixtime.h" #include "ntp_filegen.h" #include "ntp_if.h" #include "ntp_stdlib.h" #include #include #include #ifdef HAVE_SYS_IOCTL_H # include #endif #ifdef HAVE_IEEEFP_H # include #endif #ifdef HAVE_MATH_H # include #endif #ifdef DOSYNCTODR # if !defined(VMS) # include # endif /* VMS */ #endif #if defined(VMS) # include #endif /* VMS */ /* * This contains odds and ends. Right now the only thing you'll find * in here is the hourly stats printer and some code to support * rereading the keys file, but I may eventually put other things in * here such as code to do something with the leap bits. */ /* * Name of the keys file */ static char *key_file_name; /* * The name of the drift_comp file and the temporary. */ static char *stats_drift_file; static char *stats_temp_file; int stats_write_period = 3600; /* # of seconds between writes. */ double stats_write_tolerance = 0; static double prev_drift_comp = 99999.; /* * Statistics file stuff */ #ifndef NTP_VAR # ifndef SYS_WINNT # define NTP_VAR "/var/NTP/" /* NOTE the trailing '/' */ # else # define NTP_VAR "c:\\var\\ntp\\" /* NOTE the trailing '\\' */ # endif /* SYS_WINNT */ #endif #ifndef MAXPATHLEN # define MAXPATHLEN 256 #endif static char statsdir[MAXPATHLEN] = NTP_VAR; static FILEGEN peerstats; static FILEGEN loopstats; static FILEGEN clockstats; static FILEGEN rawstats; static FILEGEN sysstats; #ifdef DEBUG_TIMING static FILEGEN timingstats; #endif #ifdef OPENSSL static FILEGEN cryptostats; #endif /* OPENSSL */ /* * This controls whether stats are written to the fileset. Provided * so that ntpdc can turn off stats when the file system fills up. */ int stats_control; /* * Initial frequency offset later passed to the loopfilter. */ double old_drift; /* * init_util - initialize the utilities */ void init_util(void) { stats_drift_file = 0; stats_temp_file = 0; key_file_name = 0; filegen_register(&statsdir[0], "peerstats", &peerstats); filegen_register(&statsdir[0], "loopstats", &loopstats); filegen_register(&statsdir[0], "clockstats", &clockstats); filegen_register(&statsdir[0], "rawstats", &rawstats); filegen_register(&statsdir[0], "sysstats", &sysstats); #ifdef OPENSSL filegen_register(&statsdir[0], "cryptostats", &cryptostats); #endif /* OPENSSL */ #ifdef DEBUG_TIMING filegen_register(&statsdir[0], "timingstats", &timingstats); #endif } /* * hourly_stats - print some interesting stats */ void write_stats(void) { FILE *fp; #ifdef DOSYNCTODR struct timeval tv; #if !defined(VMS) int prio_set; #endif #ifdef HAVE_GETCLOCK struct timespec ts; #endif int o_prio; /* * Sometimes having a Sun can be a drag. * * The kernel variable dosynctodr controls whether the system's * soft clock is kept in sync with the battery clock. If it * is zero, then the soft clock is not synced, and the battery * clock is simply left to rot. That means that when the system * reboots, the battery clock (which has probably gone wacky) * sets the soft clock. That means ntpd starts off with a very * confused idea of what time it is. It then takes a large * amount of time to figure out just how wacky the battery clock * has made things drift, etc, etc. The solution is to make the * battery clock sync up to system time. The way to do THAT is * to simply set the time of day to the current time of day, but * as quickly as possible. This may, or may not be a sensible * thing to do. * * CAVEAT: settimeofday() steps the sun clock by about 800 us, * so setting DOSYNCTODR seems a bad idea in the * case of us resolution */ #if !defined(VMS) /* (prr) getpriority returns -1 on error, but -1 is also a valid * return value (!), so instead we have to zero errno before the * call and check it for non-zero afterwards. */ errno = 0; prio_set = 0; o_prio = getpriority(PRIO_PROCESS,0); /* Save setting */ /* * (prr) if getpriority succeeded, call setpriority to raise * scheduling priority as high as possible. If that succeeds * as well, set the prio_set flag so we remember to reset * priority to its previous value below. Note that on Solaris * 2.6 (and beyond?), both getpriority and setpriority will fail * with ESRCH, because sched_setscheduler (called from main) put * us in the real-time scheduling class which setpriority * doesn't know about. Being in the real-time class is better * than anything setpriority can do, anyhow, so this error is * silently ignored. */ if ((errno == 0) && (setpriority(PRIO_PROCESS,0,-20) == 0)) prio_set = 1; /* overdrive */ #endif /* VMS */ #ifdef HAVE_GETCLOCK (void) getclock(TIMEOFDAY, &ts); tv.tv_sec = ts.tv_sec; tv.tv_usec = ts.tv_nsec / 1000; #else /* not HAVE_GETCLOCK */ GETTIMEOFDAY(&tv,(struct timezone *)NULL); #endif /* not HAVE_GETCLOCK */ if (ntp_set_tod(&tv,(struct timezone *)NULL) != 0) { msyslog(LOG_ERR, "can't sync battery time: %m"); } #if !defined(VMS) if (prio_set) setpriority(PRIO_PROCESS, 0, o_prio); /* downshift */ #endif /* VMS */ #endif /* DOSYNCTODR */ NLOG(NLOG_SYSSTATIST) msyslog(LOG_INFO, "offset %.6f sec freq %.3f ppm error %.6f poll %d", last_offset, drift_comp * 1e6, sys_jitter, sys_poll); record_sys_stats(); if ((u_long)(fabs(prev_drift_comp - drift_comp) * 1e9) <= (u_long)(fabs(stats_write_tolerance * drift_comp) * 1e9)) { return; } prev_drift_comp = drift_comp; if (stats_drift_file != 0) { if ((fp = fopen(stats_temp_file, "w")) == NULL) { msyslog(LOG_ERR, "can't open %s: %m", stats_temp_file); return; } fprintf(fp, "%.3f\n", drift_comp * 1e6); (void)fclose(fp); /* atomic */ #ifdef SYS_WINNT (void) _unlink(stats_drift_file); /* rename semantics differ under NT */ #endif /* SYS_WINNT */ #ifndef NO_RENAME (void) rename(stats_temp_file, stats_drift_file); #else /* we have no rename NFS of ftp in use */ if ((fp = fopen(stats_drift_file, "w")) == NULL) { msyslog(LOG_ERR, "can't open %s: %m", stats_drift_file); return; } #endif #if defined(VMS) /* PURGE */ { $DESCRIPTOR(oldvers,";-1"); struct dsc$descriptor driftdsc = { strlen(stats_drift_file),0,0,stats_drift_file }; while(lib$delete_file(&oldvers,&driftdsc) & 1) ; } #endif } } /* * stats_config - configure the stats operation */ void stats_config( int item, const char *invalue /* only one type so far */ ) { FILE *fp; const char *value; int len; /* * Expand environment strings under Windows NT, since the * command interpreter doesn't do this, the program must. */ #ifdef SYS_WINNT char newvalue[MAX_PATH], parameter[MAX_PATH]; if (!ExpandEnvironmentStrings(invalue, newvalue, MAX_PATH)) { switch(item) { case STATS_FREQ_FILE: strcpy(parameter,"STATS_FREQ_FILE"); break; case STATS_STATSDIR: strcpy(parameter,"STATS_STATSDIR"); break; case STATS_PID_FILE: strcpy(parameter,"STATS_PID_FILE"); break; default: strcpy(parameter,"UNKNOWN"); break; } value = invalue; msyslog(LOG_ERR, "ExpandEnvironmentStrings(%s) failed: %m\n", parameter); } else { value = newvalue; } #else value = invalue; #endif /* SYS_WINNT */ switch(item) { case STATS_FREQ_FILE: if (stats_drift_file != 0) { (void) free(stats_drift_file); (void) free(stats_temp_file); stats_drift_file = 0; stats_temp_file = 0; } if (value == 0 || (len = strlen(value)) == 0) break; stats_drift_file = (char*)emalloc((u_int)(len + 1)); #if !defined(VMS) stats_temp_file = (char*)emalloc((u_int)(len + sizeof(".TEMP"))); #else stats_temp_file = (char*)emalloc((u_int)(len + sizeof("-TEMP"))); #endif /* VMS */ memmove(stats_drift_file, value, (unsigned)(len+1)); memmove(stats_temp_file, value, (unsigned)len); #if !defined(VMS) memmove(stats_temp_file + len, ".TEMP", sizeof(".TEMP")); #else memmove(stats_temp_file + len, "-TEMP", sizeof("-TEMP")); #endif /* VMS */ /* * Open drift file and read frequency. If the file is * missing or contains errors, tell the loop to reset. */ if ((fp = fopen(stats_drift_file, "r")) == NULL) { old_drift = 1e9; break; } if (fscanf(fp, "%lf", &old_drift) != 1) { msyslog(LOG_ERR, "Frequency format error in %s", stats_drift_file); old_drift = 1e9; fclose(fp); break; } fclose(fp); prev_drift_comp = old_drift / 1e6; msyslog(LOG_INFO, "frequency initialized %.3f PPM from %s", old_drift, stats_drift_file); break; case STATS_STATSDIR: if (strlen(value) >= sizeof(statsdir)) { msyslog(LOG_ERR, "value for statsdir too long (>%d, sigh)", (int)sizeof(statsdir)-1); } else { l_fp now; get_systime(&now); strcpy(statsdir,value); if(peerstats.prefix == &statsdir[0] && peerstats.fp != NULL) { fclose(peerstats.fp); peerstats.fp = NULL; filegen_setup(&peerstats, now.l_ui); } if(loopstats.prefix == &statsdir[0] && loopstats.fp != NULL) { fclose(loopstats.fp); loopstats.fp = NULL; filegen_setup(&loopstats, now.l_ui); } if(clockstats.prefix == &statsdir[0] && clockstats.fp != NULL) { fclose(clockstats.fp); clockstats.fp = NULL; filegen_setup(&clockstats, now.l_ui); } if(rawstats.prefix == &statsdir[0] && rawstats.fp != NULL) { fclose(rawstats.fp); rawstats.fp = NULL; filegen_setup(&rawstats, now.l_ui); } if(sysstats.prefix == &statsdir[0] && sysstats.fp != NULL) { fclose(sysstats.fp); sysstats.fp = NULL; filegen_setup(&sysstats, now.l_ui); } #ifdef OPENSSL if(cryptostats.prefix == &statsdir[0] && cryptostats.fp != NULL) { fclose(cryptostats.fp); cryptostats.fp = NULL; filegen_setup(&cryptostats, now.l_ui); } #endif /* OPENSSL */ } break; case STATS_PID_FILE: if ((fp = fopen(value, "w")) == NULL) { msyslog(LOG_ERR, "Can't open %s: %m", value); break; } fprintf(fp, "%d", (int) getpid()); fclose(fp);; break; default: /* oh well */ break; } } /* * record_peer_stats - write peer statistics to file * * file format: * day (mjd) * time (s past UTC midnight) * peer (ip address) * peer status word (hex) * peer offset (s) * peer delay (s) * peer error bound (s) * peer error (s) */ void record_peer_stats( struct sockaddr_storage *addr, int status, double offset, double delay, double dispersion, double skew ) { l_fp now; u_long day; if (!stats_control) return; get_systime(&now); filegen_setup(&peerstats, now.l_ui); day = now.l_ui / 86400 + MJD_1900; now.l_ui %= 86400; if (peerstats.fp != NULL) { fprintf(peerstats.fp, "%lu %s %s %x %.9f %.9f %.9f %.9f\n", day, ulfptoa(&now, 3), stoa(addr), status, offset, delay, dispersion, skew); fflush(peerstats.fp); } } /* * record_loop_stats - write loop filter statistics to file * * file format: * day (mjd) * time (s past midnight) * offset (s) * frequency (approx ppm) * time constant (log base 2) */ void record_loop_stats( double offset, double freq, double jitter, double stability, int spoll ) { l_fp now; u_long day; if (!stats_control) return; get_systime(&now); filegen_setup(&loopstats, now.l_ui); day = now.l_ui / 86400 + MJD_1900; now.l_ui %= 86400; if (loopstats.fp != NULL) { fprintf(loopstats.fp, "%lu %s %.9f %.3f %.9f %.6f %d\n", day, ulfptoa(&now, 3), offset, freq * 1e6, jitter, stability * 1e6, spoll); fflush(loopstats.fp); } } /* * record_clock_stats - write clock statistics to file * * file format: * day (mjd) * time (s past midnight) * peer (ip address) * text message */ void record_clock_stats( struct sockaddr_storage *addr, const char *text ) { l_fp now; u_long day; if (!stats_control) return; get_systime(&now); filegen_setup(&clockstats, now.l_ui); day = now.l_ui / 86400 + MJD_1900; now.l_ui %= 86400; if (clockstats.fp != NULL) { fprintf(clockstats.fp, "%lu %s %s %s\n", day, ulfptoa(&now, 3), stoa(addr), text); fflush(clockstats.fp); } } /* * record_raw_stats - write raw timestamps to file * * * file format * time (s past midnight) * peer ip address * local ip address * t1 t2 t3 t4 timestamps */ void record_raw_stats( struct sockaddr_storage *srcadr, struct sockaddr_storage *dstadr, l_fp *t1, l_fp *t2, l_fp *t3, l_fp *t4 ) { l_fp now; u_long day; if (!stats_control) return; get_systime(&now); filegen_setup(&rawstats, now.l_ui); day = now.l_ui / 86400 + MJD_1900; now.l_ui %= 86400; if (rawstats.fp != NULL) { fprintf(rawstats.fp, "%lu %s %s %s %s %s %s %s\n", day, ulfptoa(&now, 3), stoa(srcadr), dstadr ? stoa(dstadr) : "-", ulfptoa(t1, 9), ulfptoa(t2, 9), ulfptoa(t3, 9), ulfptoa(t4, 9)); fflush(rawstats.fp); } } /* * record_sys_stats - write system statistics to file * * file format * time (s past midnight) * time since startup (hr) * packets recieved * packets processed * current version * previous version * bad version * access denied * bad length or format * bad authentication * rate exceeded */ void record_sys_stats(void) { l_fp now; u_long day; if (!stats_control) return; get_systime(&now); filegen_setup(&sysstats, now.l_ui); day = now.l_ui / 86400 + MJD_1900; now.l_ui %= 86400; if (sysstats.fp != NULL) { fprintf(sysstats.fp, "%lu %s %lu %lu %lu %lu %lu %lu %lu %lu %lu %lu\n", day, ulfptoa(&now, 3), sys_stattime / 3600, sys_received, sys_processed, sys_newversionpkt, sys_oldversionpkt, sys_unknownversion, sys_restricted, sys_badlength, sys_badauth, sys_limitrejected); fflush(sysstats.fp); proto_clr_stats(); } } #ifdef OPENSSL /* * record_crypto_stats - write crypto statistics to file * * file format: * day (mjd) * time (s past midnight) * peer (ip address) * text message */ void record_crypto_stats( struct sockaddr_storage *addr, const char *text ) { l_fp now; u_long day; if (!stats_control) return; get_systime(&now); filegen_setup(&cryptostats, now.l_ui); day = now.l_ui / 86400 + MJD_1900; now.l_ui %= 86400; if (cryptostats.fp != NULL) { if (addr == NULL) fprintf(cryptostats.fp, "%lu %s %s\n", day, ulfptoa(&now, 3), text); else fprintf(cryptostats.fp, "%lu %s %s %s\n", day, ulfptoa(&now, 3), stoa(addr), text); fflush(cryptostats.fp); } } #endif /* OPENSSL */ #ifdef DEBUG_TIMING /* * record_crypto_stats - write crypto statistics to file * * file format: * day (mjd) * time (s past midnight) * text message */ void record_timing_stats( const char *text ) { static unsigned int flshcnt; l_fp now; u_long day; if (!stats_control) return; get_systime(&now); filegen_setup(&timingstats, now.l_ui); day = now.l_ui / 86400 + MJD_1900; now.l_ui %= 86400; if (timingstats.fp != NULL) { fprintf(timingstats.fp, "%lu %s %s\n", day, lfptoa(&now, 3), text); if (++flshcnt % 100 == 0) fflush(timingstats.fp); } } #endif /* * getauthkeys - read the authentication keys from the specified file */ void getauthkeys( const char *keyfile ) { int len; len = strlen(keyfile); if (len == 0) return; if (key_file_name != 0) { if (len > (int)strlen(key_file_name)) { (void) free(key_file_name); key_file_name = 0; } } if (key_file_name == 0) { #ifndef SYS_WINNT key_file_name = (char*)emalloc((u_int) (len + 1)); #else key_file_name = (char*)emalloc((u_int) (MAXPATHLEN)); #endif } #ifndef SYS_WINNT memmove(key_file_name, keyfile, (unsigned)(len+1)); #else if (!ExpandEnvironmentStrings(keyfile, key_file_name, MAXPATHLEN)) { msyslog(LOG_ERR, "ExpandEnvironmentStrings(KEY_FILE) failed: %m\n"); } #endif /* SYS_WINNT */ authreadkeys(key_file_name); } /* * rereadkeys - read the authentication key file over again. */ void rereadkeys(void) { if (key_file_name != 0) authreadkeys(key_file_name); } /* * sock_hash - hash an sockaddr_storage structure */ int sock_hash( struct sockaddr_storage *addr ) { int hashVal; int i; int len; char *ch; hashVal = 0; len = 0; /* * We can't just hash the whole thing because there are hidden * fields in sockaddr_in6 that might be filled in by recvfrom(), * so just use the family, port and address. */ ch = (char *)&addr->ss_family; hashVal = 37 * hashVal + (int)*ch; if (sizeof(addr->ss_family) > 1) { ch++; hashVal = 37 * hashVal + (int)*ch; } switch(addr->ss_family) { case AF_INET: ch = (char *)&((struct sockaddr_in *)addr)->sin_addr; len = sizeof(struct in_addr); break; case AF_INET6: ch = (char *)&((struct sockaddr_in6 *)addr)->sin6_addr; len = sizeof(struct in6_addr); break; } for (i = 0; i < len ; i++) hashVal = 37 * hashVal + (int)*(ch + i); hashVal = hashVal % 128; /* % MON_HASH_SIZE hardcoded */ if (hashVal < 0) hashVal += 128; return hashVal; } #if notyet /* * ntp_exit - document explicitly that ntpd has exited */ void ntp_exit(int retval) { msyslog(LOG_ERR, "EXITING with return code %d", retval); exit(retval); } #endif