Ejemplo n.º 1
0
static int read_config_from_json(json_t *root)
{
    int ret;
    ret = read_cfg_bool(root, "debug", &settings.debug, false, false);
    if (ret < 0) {
        printf("read debug config fail: %d\n", ret);
        return -__LINE__;
    }
    ret = load_cfg_process(root, "process", &settings.process);
    if (ret < 0) {
        printf("load process config fail: %d\n", ret);
        return -__LINE__;
    }
    ret = load_cfg_log(root, "log", &settings.log);
    if (ret < 0) {
        printf("load log config fail: %d\n", ret);
        return -__LINE__;
    }
    ret = load_cfg_alert(root, "alert", &settings.alert);
    if (ret < 0) {
        printf("load alert config fail: %d\n", ret);
        return -__LINE__;
    }
    ret = load_cfg_rpc_svr(root, "svr", &settings.svr);
    if (ret < 0) {
        printf("load svr config fail: %d\n", ret);
        return -__LINE__;
    }
    ret = load_cfg_kafka_consumer(root, "deals", &settings.deals);
    if (ret < 0) {
        printf("load kafka deals config fail: %d\n", ret);
        return -__LINE__;
    }
    ret = load_cfg_redis_sentinel(root, "redis", &settings.redis);
    if (ret < 0) {
        printf("load kafka deals config fail: %d\n", ret);
        return -__LINE__;
    }

    ERR_RET_LN(read_cfg_int(root, "sec_max", &settings.sec_max, false, 86400 * 7));
    ERR_RET_LN(read_cfg_int(root, "min_max", &settings.min_max, false, 60 * 24 * 365));
    ERR_RET_LN(read_cfg_int(root, "hour_max", &settings.hour_max, false, 24 * 365 * 10));
    ERR_RET_LN(read_cfg_real(root, "cache_timeout", &settings.cache_timeout, false, 0.45));

    settings.timezone = get_timezone_offset();

    return 0;
}
Ejemplo n.º 2
0
Archivo: pgtz.c Proyecto: colinet/sqlix
/*
 * Try to identify a timezone name (in our terminology) that best matches the
 * observed behavior of the system timezone library.  We cannot assume that
 * the system TZ environment setting (if indeed there is one) matches our
 * terminology, so we ignore it and just look at what localtime() returns.
 */
static const char*
identify_system_timezone(void)
{
	static char resultbuf[TZ_STRLEN_MAX + 1];
	time_t tnow;
	time_t t;
	struct tztry tt;
	struct tm  *tm;
	int thisyear;
	int bestscore;
	char tmptzdir[MAX_PG_PATH];
	int std_ofs;
	char std_zone_name[TZ_STRLEN_MAX + 1];
	char dst_zone_name[TZ_STRLEN_MAX + 1];
	char cbuf[TZ_STRLEN_MAX + 1];

	/* Initialize OS timezone library */
	tzset();

	/*
	 * Set up the list of dates to be probed to see how well our timezone
	 * matches the system zone.  We first probe January and July of the
	 * current year; this serves to quickly eliminate the vast majority of the
	 * TZ database entries.  If those dates match, we probe every week for 100
	 * years backwards from the current July.  (Weekly resolution is good
	 * enough to identify DST transition rules, since everybody switches on
	 * Sundays.)  This is sufficient to cover most of the Unix time_t range,
	 * and we don't want to look further than that since many systems won't
	 * have sane TZ behavior further back anyway.  The further back the zone
	 * matches, the better we score it.  This may seem like a rather random
	 * way of doing things, but experience has shown that system-supplied
	 * timezone definitions are likely to have DST behavior that is right for
	 * the recent past and not so accurate further back. Scoring in this way
	 * allows us to recognize zones that have some commonality with the zic
	 * database, without insisting on exact match. (Note: we probe Thursdays,
	 * not Sundays, to avoid triggering DST-transition bugs in localtime
	 * itself.)
	 */
	tnow = time(NULL);
	tm = localtime(&tnow);
	if (!tm)
		return NULL;			/* give up if localtime is broken... */

	thisyear = tm->tm_year + 1900;
	t = build_time_t(thisyear, 1, 15);

	/*
	 * Round back to GMT midnight Thursday.  This depends on the knowledge
	 * that the time_t origin is Thu Jan 01 1970.  (With a different origin
	 * we'd be probing some other day of the week, but it wouldn't matter
	 * anyway unless localtime() had DST-transition bugs.)
	 */
	t -= (t % T_WEEK);

	tt.n_test_times = 0;
	tt.test_times[tt.n_test_times++] = t;

	t = build_time_t(thisyear, 7, 15);
	t -= (t % T_WEEK);

	tt.test_times[tt.n_test_times++] = t;
	while (tt.n_test_times < MAX_TEST_TIMES) {
		t -= T_WEEK;
		tt.test_times[tt.n_test_times++] = t;
	}

	/* Search for the best-matching timezone file */
	strcpy(tmptzdir, pg_TZDIR());
	bestscore = -1;
	resultbuf[0] = '\0';
	scan_available_timezones(tmptzdir, tmptzdir + strlen(tmptzdir) + 1, &tt, &bestscore, resultbuf);
	if (bestscore > 0) {
		/* Ignore zic's rather silly "Factory" time zone; use GMT instead */
		if (strcmp(resultbuf, "Factory") == 0)
			return NULL;

		return resultbuf;
	}

	/*
	 * Couldn't find a match in the database, so next we try constructed zone
	 * names (like "PST8PDT").
	 *
	 * First we need to determine the names of the local standard and daylight
	 * zones.  The idea here is to scan forward from today until we have seen
	 * both zones, if both are in use.
	 */
	memset(std_zone_name, 0, sizeof(std_zone_name));
	memset(dst_zone_name, 0, sizeof(dst_zone_name));
	std_ofs = 0;

	tnow = time(NULL);

	/*
	 * Round back to a GMT midnight so results don't depend on local time of
	 * day
	 */
	tnow -= (tnow % T_DAY);

	/*
	 * We have to look a little further ahead than one year, in case today is
	 * just past a DST boundary that falls earlier in the year than the next
	 * similar boundary.  Arbitrarily scan up to 14 months.
	 */
	for (t = tnow; t <= tnow + T_MONTH * 14; t += T_MONTH) {
		tm = localtime(&t);
		if (!tm)
			continue;

		if (tm->tm_isdst < 0)
			continue;

		if (tm->tm_isdst == 0 && std_zone_name[0] == '\0') {
			/* found STD zone */
			memset(cbuf, 0, sizeof(cbuf));
			strftime(cbuf, sizeof(cbuf) - 1, "%Z", tm); /* zone abbr */
			strcpy(std_zone_name, cbuf);
			std_ofs = get_timezone_offset(tm);
		}

		if (tm->tm_isdst > 0 && dst_zone_name[0] == '\0') {
			/* found DST zone */
			memset(cbuf, 0, sizeof(cbuf));
			strftime(cbuf, sizeof(cbuf) - 1, "%Z", tm); /* zone abbr */
			strcpy(dst_zone_name, cbuf);
		}

		/* Done if found both */
		if (std_zone_name[0] && dst_zone_name[0])
			break;
	}

	/* We should have found a STD zone name by now... */
	if (std_zone_name[0] == '\0') {
		ereport(LOG, (
		errmsg("could not determine system time zone"),
		errdetail("The PostgreSQL time zone will be set to \"%s\".", "GMT"),
		errhint("You can specify the correct timezone in postgresql.conf.")));
		return NULL;			/* go to GMT */
	}

	/* If we found DST then try STD<ofs>DST */
	if (dst_zone_name[0] != '\0') {
		snprintf(resultbuf, sizeof(resultbuf), "%s%d%s", std_zone_name, -std_ofs / 3600, dst_zone_name);
		if (score_timezone(resultbuf, &tt) > 0)
			return resultbuf;
	}

	/* Try just the STD timezone (works for GMT at least) */
	strcpy(resultbuf, std_zone_name);
	if (score_timezone(resultbuf, &tt) > 0)
		return resultbuf;

	/* Try STD<ofs> */
	snprintf(resultbuf, sizeof(resultbuf), "%s%d", std_zone_name, -std_ofs / 3600);
	if (score_timezone(resultbuf, &tt) > 0)
		return resultbuf;

	/*
	 * Did not find the timezone.  Fallback to use a GMT zone.	Note that the
	 * zic timezone database names the GMT-offset zones in POSIX style: plus
	 * is west of Greenwich.  It's unfortunate that this is opposite of SQL
	 * conventions.  Should we therefore change the names? Probably not...
	 */
	snprintf(resultbuf, sizeof(resultbuf), "Etc/GMT%s%d", (-std_ofs > 0) ? "+" : "", -std_ofs / 3600);

	ereport(LOG, (
	errmsg("could not recognize system time zone"),
	errdetail("The PostgreSQL time zone will be set to \"%s\".", resultbuf),
	errhint("You can specify the correct timezone in postgresql.conf.")));

	return resultbuf;
}