From 39b691f251167bbb3d49203abfb39d430f68f411 Mon Sep 17 00:00:00 2001 From: Tom Lane Date: Fri, 2 Sep 2016 17:29:31 -0400 Subject: [PATCH] Don't require dynamic timezone abbreviations to match underlying time zone. Previously, we threw an error if a dynamic timezone abbreviation did not match any abbreviation recorded in the referenced IANA time zone entry. That seemed like a good consistency check at the time, but it turns out that a number of the abbreviations in the IANA database are things that Olson and crew made up out of whole cloth. Their current policy is to remove such names in favor of using simple numeric offsets. Perhaps unsurprisingly, a lot of these made-up abbreviations have varied in meaning over time, which meant that our commit b2cbced9e and later changes made them into dynamic abbreviations. So with newer IANA database versions that don't mention these abbreviations at all, we fail, as reported in bug #14307 from Neil Anderson. It's worse than just a few unused-in-the-wild abbreviations not working, because the pg_timezone_abbrevs view stops working altogether (since its underlying function tries to compute the whole view result in one call). We considered deleting these abbreviations from our abbreviations list, but the problem with that is that we can't stay ahead of possible future IANA changes. Instead, let's leave the abbreviations list alone, and treat any "orphaned" dynamic abbreviation as just meaning the referenced time zone. It will behave a bit differently than it used to, in that you can't any longer override the zone's standard vs. daylight rule by using the "wrong" abbreviation of a pair, but that's better than failing entirely. (Also, this solution can be interpreted as adding a small new feature, which is that any abbreviation a user wants can be defined as referencing a time zone name.) Back-patch to all supported branches, since this problem affects all of them when using tzdata 2016f or newer. Report: <20160902031551.15674.67337@wrigleys.postgresql.org> Discussion: <6189.1472820913@sss.pgh.pa.us> --- doc/src/sgml/catalogs.sgml | 7 ++ doc/src/sgml/datetime.sgml | 41 ++++++++--- src/backend/utils/adt/datetime.c | 85 +++++++++++++++++------ src/test/regress/expected/timestamptz.out | 20 ++++++ src/test/regress/sql/timestamptz.sql | 11 +++ 5 files changed, 132 insertions(+), 32 deletions(-) diff --git a/doc/src/sgml/catalogs.sgml b/doc/src/sgml/catalogs.sgml index 4e09e06aed..322d8d6dc7 100644 --- a/doc/src/sgml/catalogs.sgml +++ b/doc/src/sgml/catalogs.sgml @@ -9811,6 +9811,13 @@ SELECT * FROM pg_locks pl LEFT JOIN pg_prepared_xacts ppx + + While most timezone abbreviations represent fixed offsets from UTC, + there are some that have historically varied in value + (see for more information). + In such cases this view presents their current meaning. + + diff --git a/doc/src/sgml/datetime.sgml b/doc/src/sgml/datetime.sgml index ffd0715128..ef9139f9e3 100644 --- a/doc/src/sgml/datetime.sgml +++ b/doc/src/sgml/datetime.sgml @@ -384,19 +384,38 @@ A zone_abbreviation is just the abbreviation - being defined. The offset is the equivalent - offset in seconds from UTC, positive being east from Greenwich and - negative being west. For example, -18000 would be five hours west - of Greenwich, or North American east coast standard time. D - indicates that the zone name represents local daylight-savings time rather - than standard time. Alternatively, a time_zone_name can - be given, in which case that time zone definition is consulted, and the - abbreviation's meaning in that zone is used. This alternative is - recommended only for abbreviations whose meaning has historically varied, - as looking up the meaning is noticeably more expensive than just using - a fixed integer value. + being defined. An offset is an integer giving + the equivalent offset in seconds from UTC, positive being east from + Greenwich and negative being west. For example, -18000 would be five + hours west of Greenwich, or North American east coast standard time. + D indicates that the zone name represents local + daylight-savings time rather than standard time. + + Alternatively, a time_zone_name can be given, referencing + a zone name defined in the IANA timezone database. The zone's definition + is consulted to see whether the abbreviation is or has been in use in + that zone, and if so, the appropriate meaning is used — that is, + the meaning that was currently in use at the timestamp whose value is + being determined, or the meaning in use immediately before that if it + wasn't current at that time, or the oldest meaning if it was used only + after that time. This behavior is essential for dealing with + abbreviations whose meaning has historically varied. It is also allowed + to define an abbreviation in terms of a zone name in which that + abbreviation does not appear; then using the abbreviation is just + equivalent to writing out the zone name. + + + + + Using a simple integer offset is preferred + when defining an abbreviation whose offset from UTC has never changed, + as such abbreviations are much cheaper to process than those that + require consulting a time zone definition. + + + The @INCLUDE syntax allows inclusion of another file in the .../share/timezonesets/ directory. Inclusion can be nested, diff --git a/src/backend/utils/adt/datetime.c b/src/backend/utils/adt/datetime.c index 965c3b4ff0..45ba7cd906 100644 --- a/src/backend/utils/adt/datetime.c +++ b/src/backend/utils/adt/datetime.c @@ -56,8 +56,9 @@ static void AdjustFractDays(double frac, struct pg_tm * tm, fsec_t *fsec, int scale); static int DetermineTimeZoneOffsetInternal(struct pg_tm * tm, pg_tz *tzp, pg_time_t *tp); -static int DetermineTimeZoneAbbrevOffsetInternal(pg_time_t t, const char *abbr, - pg_tz *tzp, int *isdst); +static bool DetermineTimeZoneAbbrevOffsetInternal(pg_time_t t, + const char *abbr, pg_tz *tzp, + int *offset, int *isdst); static pg_tz *FetchDynamicTimeZone(TimeZoneAbbrevTable *tbl, const datetkn *tp); @@ -1689,19 +1690,40 @@ overflow: * This differs from the behavior of DetermineTimeZoneOffset() in that a * standard-time or daylight-time abbreviation forces use of the corresponding * GMT offset even when the zone was then in DS or standard time respectively. + * (However, that happens only if we can match the given abbreviation to some + * abbreviation that appears in the IANA timezone data. Otherwise, we fall + * back to doing DetermineTimeZoneOffset().) */ int DetermineTimeZoneAbbrevOffset(struct pg_tm * tm, const char *abbr, pg_tz *tzp) { pg_time_t t; + int zone_offset; + int abbr_offset; + int abbr_isdst; /* * Compute the UTC time we want to probe at. (In event of overflow, we'll * probe at the epoch, which is a bit random but probably doesn't matter.) */ - (void) DetermineTimeZoneOffsetInternal(tm, tzp, &t); + zone_offset = DetermineTimeZoneOffsetInternal(tm, tzp, &t); - return DetermineTimeZoneAbbrevOffsetInternal(t, abbr, tzp, &tm->tm_isdst); + /* + * Try to match the abbreviation to something in the zone definition. + */ + if (DetermineTimeZoneAbbrevOffsetInternal(t, abbr, tzp, + &abbr_offset, &abbr_isdst)) + { + /* Success, so use the abbrev-specific answers. */ + tm->tm_isdst = abbr_isdst; + return abbr_offset; + } + + /* + * No match, so use the answers we already got from + * DetermineTimeZoneOffsetInternal. + */ + return zone_offset; } @@ -1715,19 +1737,41 @@ DetermineTimeZoneAbbrevOffsetTS(TimestampTz ts, const char *abbr, pg_tz *tzp, int *isdst) { pg_time_t t = timestamptz_to_time_t(ts); + int zone_offset; + int abbr_offset; + int tz; + struct pg_tm tm; + fsec_t fsec; - return DetermineTimeZoneAbbrevOffsetInternal(t, abbr, tzp, isdst); + /* + * If the abbrev matches anything in the zone data, this is pretty easy. + */ + if (DetermineTimeZoneAbbrevOffsetInternal(t, abbr, tzp, + &abbr_offset, isdst)) + return abbr_offset; + + /* + * Else, break down the timestamp so we can use DetermineTimeZoneOffset. + */ + if (timestamp2tm(ts, &tz, &tm, &fsec, NULL, tzp) != 0) + ereport(ERROR, + (errcode(ERRCODE_DATETIME_VALUE_OUT_OF_RANGE), + errmsg("timestamp out of range"))); + + zone_offset = DetermineTimeZoneOffset(&tm, tzp); + *isdst = tm.tm_isdst; + return zone_offset; } /* DetermineTimeZoneAbbrevOffsetInternal() * * Workhorse for above two functions: work from a pg_time_t probe instant. - * DST status is returned into *isdst. + * On success, return GMT offset and DST status into *offset and *isdst. */ -static int -DetermineTimeZoneAbbrevOffsetInternal(pg_time_t t, const char *abbr, - pg_tz *tzp, int *isdst) +static bool +DetermineTimeZoneAbbrevOffsetInternal(pg_time_t t, const char *abbr, pg_tz *tzp, + int *offset, int *isdst) { char upabbr[TZ_STRLEN_MAX + 1]; unsigned char *p; @@ -1739,18 +1783,17 @@ DetermineTimeZoneAbbrevOffsetInternal(pg_time_t t, const char *abbr, *p = pg_toupper(*p); /* Look up the abbrev's meaning at this time in this zone */ - if (!pg_interpret_timezone_abbrev(upabbr, - &t, - &gmtoff, - isdst, - tzp)) - ereport(ERROR, - (errcode(ERRCODE_CONFIG_FILE_ERROR), - errmsg("time zone abbreviation \"%s\" is not used in time zone \"%s\"", - abbr, pg_get_timezone_name(tzp)))); - - /* Change sign to agree with DetermineTimeZoneOffset() */ - return (int) -gmtoff; + if (pg_interpret_timezone_abbrev(upabbr, + &t, + &gmtoff, + isdst, + tzp)) + { + /* Change sign to agree with DetermineTimeZoneOffset() */ + *offset = (int) -gmtoff; + return true; + } + return false; } diff --git a/src/test/regress/expected/timestamptz.out b/src/test/regress/expected/timestamptz.out index 67f26db204..2bfc13ad72 100644 --- a/src/test/regress/expected/timestamptz.out +++ b/src/test/regress/expected/timestamptz.out @@ -2603,3 +2603,23 @@ SELECT '2007-12-09 07:30:00 UTC'::timestamptz AT TIME ZONE 'VET'; Sun Dec 09 03:00:00 2007 (1 row) +-- +-- Test that the pg_timezone_names and pg_timezone_abbrevs views are +-- more-or-less working. We can't test their contents in any great detail +-- without the outputs changing anytime IANA updates the underlying data, +-- but it seems reasonable to expect at least one entry per major meridian. +-- (At the time of writing, the actual counts are around 38 because of +-- zones using fractional GMT offsets, so this is a pretty loose test.) +-- +select count(distinct utc_offset) >= 24 as ok from pg_timezone_names; + ok +---- + t +(1 row) + +select count(distinct utc_offset) >= 24 as ok from pg_timezone_abbrevs; + ok +---- + t +(1 row) + diff --git a/src/test/regress/sql/timestamptz.sql b/src/test/regress/sql/timestamptz.sql index c023095bb8..ce9d1c2fa1 100644 --- a/src/test/regress/sql/timestamptz.sql +++ b/src/test/regress/sql/timestamptz.sql @@ -468,3 +468,14 @@ SELECT '2007-12-09 07:00:00 UTC'::timestamptz AT TIME ZONE 'VET'; SELECT '2007-12-09 07:00:01 UTC'::timestamptz AT TIME ZONE 'VET'; SELECT '2007-12-09 07:29:59 UTC'::timestamptz AT TIME ZONE 'VET'; SELECT '2007-12-09 07:30:00 UTC'::timestamptz AT TIME ZONE 'VET'; + +-- +-- Test that the pg_timezone_names and pg_timezone_abbrevs views are +-- more-or-less working. We can't test their contents in any great detail +-- without the outputs changing anytime IANA updates the underlying data, +-- but it seems reasonable to expect at least one entry per major meridian. +-- (At the time of writing, the actual counts are around 38 because of +-- zones using fractional GMT offsets, so this is a pretty loose test.) +-- +select count(distinct utc_offset) >= 24 as ok from pg_timezone_names; +select count(distinct utc_offset) >= 24 as ok from pg_timezone_abbrevs;