static gboolean __parse_bsd_timestamp(const guchar **data, gint *length, const GTimeVal *now, struct tm* tm, glong *usec) { gint left = *length; const guchar *src = *data; time_t now_tv_sec = (time_t) now->tv_sec; cached_localtime(&now_tv_sec, tm); if (__is_bsd_pix_or_asa(src, left)) { if (!scan_pix_timestamp((const gchar **) &src, &left, tm)) return FALSE; if (*src == ':') { src++; left--; } } else if (__is_bsd_linksys(src, left)) { if (!scan_linksys_timestamp((const gchar **) &src, &left, tm)) return FALSE; } else if (__is_bsd_rfc_3164(src, left)) { if (!scan_bsd_timestamp((const gchar **) &src, &left, tm)) return FALSE; *usec = __parse_usec(&src, &left); tm->tm_year = determine_year_for_month(tm->tm_mon, tm); } else { return FALSE; } *data = src; *length = left; return TRUE; }
/* FIXME: this function should really be exploded to a lot of smaller functions... (Bazsi) */ static gboolean log_msg_parse_date(LogMessage *self, const guchar **data, gint *length, guint parse_flags, glong assume_timezone) { const guchar *src = *data; gint left = *length; GTimeVal now; struct tm tm; gint unnormalized_hour; cached_g_current_time(&now); if ((parse_flags & LP_SYSLOG_PROTOCOL) == 0) { /* Cisco timestamp extensions, the first '*' indicates that the clock is * unsynced, '.' if it is known to be synced */ if (G_UNLIKELY(src[0] == '*')) { log_msg_set_value(self, is_synced, "0", 1); src++; left--; } else if (G_UNLIKELY(src[0] == '.')) { log_msg_set_value(self, is_synced, "1", 1); src++; left--; } } /* If the next chars look like a date, then read them as a date. */ if (left >= 19 && src[4] == '-' && src[7] == '-' && src[10] == 'T' && src[13] == ':' && src[16] == ':') { /* RFC3339 timestamp, expected format: YYYY-MM-DDTHH:MM:SS[.frac]<+/->ZZ:ZZ */ gint hours, mins; time_t now_tv_sec = (time_t)now.tv_sec; self->timestamps[LM_TS_STAMP].tv_usec = 0; /* NOTE: we initialize various unportable fields in tm using a * localtime call, as the value of tm_gmtoff does matter but it does * not exist on all platforms and 0 initializing it causes trouble on * time-zone barriers */ cached_localtime(&now_tv_sec, &tm); if (!scan_iso_timestamp((const gchar **) &src, &left, &tm)) { goto error; } self->timestamps[LM_TS_STAMP].tv_usec = 0; if (left > 0 && *src == '.') { gulong frac = 0; gint div = 1; /* process second fractions */ src++; left--; while (left > 0 && div < 10e5 && isdigit(*src)) { frac = 10 * frac + (*src) - '0'; div = div * 10; src++; left--; } while (isdigit(*src)) { src++; left--; } self->timestamps[LM_TS_STAMP].tv_usec = frac * (1000000 / div); } if (left > 0 && *src == 'Z') { /* Z is special, it means UTC */ self->timestamps[LM_TS_STAMP].zone_offset = 0; src++; left--; } else if (left >= 5 && (*src == '+' || *src == '-') && isdigit(*(src+1)) && isdigit(*(src+2)) && *(src+3) == ':' && isdigit(*(src+4)) && isdigit(*(src+5)) && !isdigit(*(src+6))) { /* timezone offset */ gint sign = *src == '-' ? -1 : 1; hours = (*(src+1) - '0') * 10 + *(src+2) - '0'; mins = (*(src+4) - '0') * 10 + *(src+5) - '0'; self->timestamps[LM_TS_STAMP].zone_offset = sign * (hours * 3600 + mins * 60); src += 6; left -= 6; } /* we convert it to UTC */ tm.tm_isdst = -1; unnormalized_hour = tm.tm_hour; self->timestamps[LM_TS_STAMP].tv_sec = cached_mktime(&tm); } else if ((parse_flags & LP_SYSLOG_PROTOCOL) == 0) { if (left >= 21 && src[3] == ' ' && src[6] == ' ' && src[11] == ' ' && src[14] == ':' && src[17] == ':' && (src[20] == ':' || src[20] == ' ') && (isdigit(src[7]) && isdigit(src[8]) && isdigit(src[9]) && isdigit(src[10]))) { /* PIX timestamp, expected format: MMM DD YYYY HH:MM:SS: */ /* ASA timestamp, expected format: MMM DD YYYY HH:MM:SS */ time_t now_tv_sec = (time_t)now.tv_sec; cached_localtime(&now_tv_sec, &tm); if (!scan_pix_timestamp((const gchar **) &src, &left, &tm)) goto error; if (*src == ':') { src++; left--; } tm.tm_isdst = -1; /* NOTE: no timezone information in the message, assume it is local time */ unnormalized_hour = tm.tm_hour; self->timestamps[LM_TS_STAMP].tv_sec = cached_mktime(&tm); self->timestamps[LM_TS_STAMP].tv_usec = 0; } else if (left >= 21 && src[3] == ' ' && src[6] == ' ' && src[9] == ':' && src[12] == ':' && src[15] == ' ' && isdigit(src[16]) && isdigit(src[17]) && isdigit(src[18]) && isdigit(src[19]) && isspace(src[20])) { /* LinkSys timestamp, expected format: MMM DD HH:MM:SS YYYY */ time_t now_tv_sec = (time_t)now.tv_sec; cached_localtime(&now_tv_sec, &tm); if (!scan_linksys_timestamp((const gchar **) &src, &left, &tm)) goto error; tm.tm_isdst = -1; /* NOTE: no timezone information in the message, assume it is local time */ unnormalized_hour = tm.tm_hour; self->timestamps[LM_TS_STAMP].tv_sec = cached_mktime(&tm); self->timestamps[LM_TS_STAMP].tv_usec = 0; } else if (left >= 15 && src[3] == ' ' && src[6] == ' ' && src[9] == ':' && src[12] == ':') { /* RFC 3164 timestamp, expected format: MMM DD HH:MM:SS ... */ struct tm nowtm; glong usec = 0; time_t now_tv_sec = (time_t)now.tv_sec; cached_localtime(&now_tv_sec, &nowtm); tm = nowtm; if (!scan_bsd_timestamp((const gchar **) &src, &left, &tm)) goto error; if (left > 0 && src[0] == '.') { gulong frac = 0; gint div = 1; gint i = 1; /* gee, funny Cisco extension, BSD timestamp with fraction of second support */ while (i < left && div < 10e5 && isdigit(src[i])) { frac = 10 * frac + (src[i]) - '0'; div = div * 10; i++; } while (i < left && isdigit(src[i])) i++; usec = frac * (1000000 / div); left -= i; src += i; } /* detect if the message is coming from last year. If current * month is January, and the message comes from December, the * year of the message is inferred to be last year. * Conversely, if current month is December, and message comes * from January, year of message is inferred to be next year. */ if (tm.tm_mon == 11 && nowtm.tm_mon == 0) tm.tm_year--; else if (tm.tm_mon == 0 && nowtm.tm_mon == 11) tm.tm_year++; /* NOTE: no timezone information in the message, assume it is local time */ unnormalized_hour = tm.tm_hour; self->timestamps[LM_TS_STAMP].tv_sec = cached_mktime(&tm); self->timestamps[LM_TS_STAMP].tv_usec = usec; } else { goto error; } } else { if (left >= 1 && src[0] == '-') { /* NILVALUE */ self->timestamps[LM_TS_STAMP] = self->timestamps[LM_TS_RECVD]; *length = --left; *data = ++src; return TRUE; } else return FALSE; } /* NOTE: mktime() returns the time assuming that the timestamp we * received was in local time. This is not true, as there's a * zone_offset in the timestamp as well. We need to adjust this offset * by adding the local timezone offset at the specific time to get UTC, * which means that tv_sec becomes as if tm was in the 00:00 timezone. * Also we have to take into account that at the zone barriers an hour * might be skipped or played twice this is what the * (tm.tm_hour - * unnormalized_hour) part fixes up. */ if (self->timestamps[LM_TS_STAMP].zone_offset == -1) { self->timestamps[LM_TS_STAMP].zone_offset = assume_timezone; } if (self->timestamps[LM_TS_STAMP].zone_offset == -1) { self->timestamps[LM_TS_STAMP].zone_offset = get_local_timezone_ofs(self->timestamps[LM_TS_STAMP].tv_sec); } self->timestamps[LM_TS_STAMP].tv_sec = self->timestamps[LM_TS_STAMP].tv_sec + get_local_timezone_ofs(self->timestamps[LM_TS_STAMP].tv_sec) - (tm.tm_hour - unnormalized_hour) * 3600 - self->timestamps[LM_TS_STAMP].zone_offset; *data = src; *length = left; return TRUE; error: /* no recognizable timestamp, use current time */ self->timestamps[LM_TS_STAMP] = self->timestamps[LM_TS_RECVD]; return FALSE; }