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E. Notes de version

Les notes de version contiennent les modifications significatives apparaissant dans chaque version de PostgreSQL™. Elles contiennent aussi les fonctionnalités majeures et les problèmes de migration éventuels. Les notes de version ne contiennent pas les modifications qui n'affectent que peu d'utilisateurs ainsi que les modifications internes, non visibles pour les utilisateurs. Par exemple, l'optimiseur est amélioré dans pratiquement chaque version, mais les améliorations ne sont visibles par les utilisateurs que par la plus grande rapidité des requêtes.

Une liste complète de modifications est récupérable pour chaque version en lisant les validations Git. La liste de diffusion pgsql-committers enregistre en plus toutes les modifications du code source. Il existe aussi une interface web montrant les modifications sur chaque fichier.

Le nom apparaissant auprès de chaque élément précise le développeur principal de cet élément. Bien sûr, toutes les modifications impliquent des discussions de la communauté et une relecture des correctifs, donc chaque élément est vraiment un travail de la communauté.

E.1. Release 9.1.24

[Note]

Release Date

2016-10-27

This release contains a variety of fixes from 9.1.23. For information about new features in the 9.1 major release, see Section E.25, « Release 9.1 ».

This is expected to be the last PostgreSQL™ release in the 9.1.X series. Users are encouraged to update to a newer release branch soon.

E.1.1. Migration to Version 9.1.24

A dump/restore is not required for those running 9.1.X.

However, if you are upgrading from a version earlier than 9.1.16, see Section E.9, « Release 9.1.16 ».

E.1.2. Changes

  • Fix EvalPlanQual rechecks involving CTE scans (Tom Lane)

    The recheck would always see the CTE as returning no rows, typically leading to failure to update rows that were recently updated.

  • Fix improper repetition of previous results from hashed aggregation in a subquery (Andrew Gierth)

    The test to see if we can reuse a previously-computed hash table of the aggregate state values neglected the possibility of an outer query reference appearing in an aggregate argument expression. A change in the value of such a reference should lead to recalculating the hash table, but did not.

  • Fix timeout length when VACUUM is waiting for exclusive table lock so that it can truncate the table (Simon Riggs)

    The timeout was meant to be 50 milliseconds, but it was actually only 50 microseconds, causing VACUUM to give up on truncation much more easily than intended. Set it to the intended value.

  • Remove artificial restrictions on the values accepted by numeric_in() and numeric_recv() (Tom Lane)

    We allow numeric values up to the limit of the storage format (more than 1e100000), so it seems fairly pointless that numeric_in() rejected scientific-notation exponents above 1000. Likewise, it was silly for numeric_recv() to reject more than 1000 digits in an input value.

  • Avoid very-low-probability data corruption due to testing tuple visibility without holding buffer lock (Thomas Munro, Peter Geoghegan, Tom Lane)

  • Fix file descriptor leakage when truncating a temporary relation of more than 1GB (Andres Freund)

  • Disallow starting a standalone backend with standby_mode turned on (Michael Paquier)

    This can't do anything useful, since there will be no WAL receiver process to fetch more WAL data; and it could result in misbehavior in code that wasn't designed with this situation in mind.

  • Don't try to share SSL contexts across multiple connections in libpq (Heikki Linnakangas)

    This led to assorted corner-case bugs, particularly when trying to use different SSL parameters for different connections.

  • Avoid corner-case memory leak in libpq (Tom Lane)

    The reported problem involved leaking an error report during PQreset(), but there might be related cases.

  • Make ecpg's --help and --version options work consistently with our other executables (Haribabu Kommi)

  • Fix contrib/intarray/bench/bench.pl to print the results of the EXPLAIN it does when given the -e option (Daniel Gustafsson)

  • Prevent failure of obsolete dynamic time zone abbreviations (Tom Lane)

    If a dynamic time zone abbreviation does not match any entry in the referenced time zone, treat it as equivalent to the time zone name. This avoids unexpected failures when IANA removes abbreviations from their time zone database, as they did in tzdata release 2016f and seem likely to do again in the future. The consequences were not limited to not recognizing the individual abbreviation; any mismatch caused the pg_timezone_abbrevs view to fail altogether.

  • Update time zone data files to tzdata release 2016h for DST law changes in Palestine and Turkey, plus historical corrections for Turkey and some regions of Russia. Switch to numeric abbreviations for some time zones in Antarctica, the former Soviet Union, and Sri Lanka.

    The IANA time zone database previously provided textual abbreviations for all time zones, sometimes making up abbreviations that have little or no currency among the local population. They are in process of reversing that policy in favor of using numeric UTC offsets in zones where there is no evidence of real-world use of an English abbreviation. At least for the time being, PostgreSQL™ will continue to accept such removed abbreviations for timestamp input. But they will not be shown in the pg_timezone_names view nor used for output.

    In this update, AMT is no longer shown as being in use to mean Armenia Time. Therefore, we have changed the Default abbreviation set to interpret it as Amazon Time, thus UTC-4 not UTC+4.