Thread

  1. Serializable Snapshot Isolation

    Kevin Grittner <kevin.grittner@wicourts.gov> — 2010-09-14T16:34:10Z

    Attached is the latest Serializable Snapshot Isolation (SSI) patch.
     
    With Joe's testing and review, and with stress tests adapted from
    those used by Florian for his patch, we were able to identify and
    fix several bugs.  Stability seems good now.  We have many tests for
    correct behavior which are all looking good.  The only solid
    benchmarks we have so far show no impact on isolation levels other
    than SERIALIZABLE, and a 1.8% increase in run time for a saturation
    run of small, read only SERIALIZABLE transactions against a fully
    cached database.  Dan has been working on setting up some benchmarks
    using DBT-2, but doesn't yet have results to publish.  If we can get
    more eyes on the code during this CF, I'm hoping we can get this
    patch committed this round.
     
    This patch is basically an implementation of the techniques
    described in the 2008 paper by Cahill et al, and which was further
    developed in Cahill's 2009 PhD thesis.  Techniques needed to be
    adapted somewhat because of differences between PostgreSQL and the
    two databases used for prototype implementations for those papers
    (Oracle Berkeley DB and InnoDB), and there are a few original ideas
    from Dan and myself used to optimize the implementation.  One reason
    for hoping that this patch gets committed in this CF is that it will
    leave time to try out some other, more speculative optimizations
    before release.
     
    Documentation is not included in this patch; I plan on submitting
    that to a later CF as a separate patch.  Changes should be almost
    entirely within the Concurrency Control chapter.  The current patch
    has one new GUC which (if kept) will need to be documented, and one
    of the potential optimizations could involve adding a new
    transaction property which would then need documentation.
     
    The premise of the patch is simple: that snapshot isolation comes so
    close to supporting fully serializable transactions that S2PL is not
    necessary -- the database engine can watch for rw-dependencies among
    transactions, without introducing any blocking, and roll back
    transactions as required to prevent serialization anomalies.  This
    eliminates the need for using the SELECT FOR SHARE or SELECT FOR
    UPDATE clauses, the need for explicit locking, and the need for
    additional updates to introduce conflict points.
     
    While block-level locking is included in this patch for btree and
    GiST indexes, an index relation lock is still used for predicate
    locks when a search is made through a GIN or hash index.  These
    additional index types can be implemented separately.  Dan is
    looking at bringing btree indexes to finer granularity, but wants to
    have good benchmarks first, to confirm that the net impact is a gain
    in performance.
     
    Most of the work is in the new predicate.h and predicate.c files,
    which total 2,599 lines, over 39% of which are comment lines.  There
    are 1626 lines in the new pg_dtester.py.in files, which uses Markus
    Wanner's dtester software to implement a large number of correctness
    tests.  We added 79 lines to lockfuncs.c to include the new
    SIReadLock entries in the pg_locks view.  The rest of the patch
    affects 286 lines (counting an updated line twice) across 25
    existing PostgreSQL source files to implement the actual feature.
     
    The code organization and naming issues mentioned here remain:
     
    http://archives.postgresql.org/pgsql-hackers/2010-07/msg00383.php
     
    -Kevin
    
  2. Re: Serializable Snapshot Isolation

    Heikki Linnakangas <heikki.linnakangas@enterprisedb.com> — 2010-09-14T19:48:50Z

    On 14/09/10 19:34, Kevin Grittner wrote:
    > Attached is the latest Serializable Snapshot Isolation (SSI) patch.
    
    Great work! A year ago I thought it would be impossible to have a true 
    serializable mode in PostgreSQL because of the way we do MVCC, and now 
    we have a patch.
    
    At a quick read-through, the code looks very tidy and clear now. Some 
    comments:
    
    Should add a citation to Cahill's work this is based on. Preferably with 
    a hyperlink. A short description of how the predicate locks help to 
    implement serializable mode would be nice too. I haven't read Cahill's 
    papers, and I'm left wondering what the RW conflicts and dependencies 
    are, when you're supposed to grab predicate locks etc.
    
    If a page- or relation level SILOCK is taken, is it possible to get 
    false conflicts? Ie. a transaction is rolled back because it modified a 
    tuple on a page where some other transaction modified another tuple, 
    even though there's no dependency between the two.
    
    -- 
       Heikki Linnakangas
       EnterpriseDB   http://www.enterprisedb.com
    
    
  3. Re: Serializable Snapshot Isolation

    Kevin Grittner <kevin.grittner@wicourts.gov> — 2010-09-14T20:42:37Z

    Heikki Linnakangas <heikki.linnakangas@enterprisedb.com> wrote:
     
    > Great work! A year ago I thought it would be impossible to have a
    > true serializable mode in PostgreSQL because of the way we do
    > MVCC, and now we have a patch.
    > 
    > At a quick read-through, the code looks very tidy and clear now.
    > Some comments:
    > 
    > Should add a citation to Cahill's work this is based on.
    > Preferably with a hyperlink.
     
    I'm planning on drawing from the current Wiki page:
     
    http://wiki.postgresql.org/wiki/Serializable
     
    to put together a README file; do you think the references should go
    in the README file, the source code, or both?
     
    
    > A short description of how the predicate locks help to implement
    > serializable mode would be nice too. I haven't read Cahill's
    > papers, and I'm left wondering what the RW conflicts and
    > dependencies are, when you're supposed to grab predicate locks
    > etc.
     
    Again, I summarize that in the Wiki page, and was planning on
    putting it into the README.  If you've read the Wiki page and it's
    not clear, then I definitely have some work to do there.
     
    > If a page- or relation level SILOCK is taken, is it possible to
    > get false conflicts?
     
    Yes.  This technique will generate some false positive rollbacks. 
    Software will need to be prepared to retry any database transaction
    which fails with a serialization failure SQLSTATE.  I expect that
    proper connection pooling will be particularly important when using
    SSI, and flagging transactions which don't write to permanent tables
    as READ ONLY transactions will help reduce the rollback rate, too.
     
    Some of the optimizations we have sketched out will definitely
    reduce the rate of false positives; however, we don't want to
    implement them without a better performance baseline because the
    cost of tracking the required information and the contention for LW
    locks to maintain the information may hurt performance more than the
    restart of transactions which experience serialization failure.
     
    I don't want to steal Dan's thunder after all the hard work he's
    done to get good numbers from the DBT-2 benchmark, but suffice it to
    say that I've been quite pleased with the performance on that
    benchmark.  He's pulling together the data for a post on the topic.
     
    > Ie. a transaction is rolled back because it modified a tuple on a
    > page where some other transaction modified another tuple, even
    > though there's no dependency between the two.
     
    Well, no, because this patch doesn't do anything new with write
    conflicts.  It's all about the apparent order of execution, based on
    one transaction not being able to read what was written by a
    concurrent transaction.  The reading transaction must be considered
    to have run first in that case (Hey, now you know what a rw-conflict
    is!) -- but such references can create a cycle -- which is the
    source of all serialization anomalies in snapshot isolation.
     
    -Kevin
    
    
  4. Re: Serializable Snapshot Isolation

    Kevin Grittner <kevin.grittner@wicourts.gov> — 2010-09-14T21:49:48Z

    I've been thinking about these points, and reconsidered somewhat.
    
    Heikki Linnakangas <heikki.linnakangas@enterprisedb.com> wrote:
     
    > Should add a citation to Cahill's work this is based on.
    > Preferably with a hyperlink.
     
    I've been thinking that this should be mentioned in both the README
    and the source code.
     
    > A short description of how the predicate locks help to implement
    > serializable mode would be nice too.  I haven't read Cahill's
    > papers, and I'm left wondering what the RW conflicts and
    > dependencies are, when you're supposed to grab predicate locks
    > etc.
     
    Again -- why be stingy?  Given a more complete README file, how
    about something like?:
     
    /*
     * A rw-conflict occurs when a read by one serializable transaction
     * does not see the write of a concurrent serializable transaction
     * when that write would have been visible had the writing
     * transaction committed before the start of the reading
     * transaction. When the write occurs first, the read can detect
     * this conflict by examining the MVCC information.  When the read
     * occurs first, it must record this somewhere so that writes can
     * check for a conflict.  Predicate locks are used for this. 
     * Detection of such a conflict does not cause blocking, and does
     * not, in itself, cause a transaction rollback.
     *
     * Transaction rollback is required when one transaction (called a
     * "pivot") has a rw-conflict *in* (a concurrent transaction
     * couldn't see its write) as well as *out* (it couldn't see the
     * write of another transaction).  In addition, the transaction on
     * the "out" side of the pivot must commit first, and if the
     * transaction on the "in" side of the pivot is read-only, it must
     * acquire its snapshot after the successful commit of the
     * transaction on the "out" side of the pivot.
     */
     
    Would something like that have helped?
     
    -Kevin
    
    
  5. Re: Serializable Snapshot Isolation

    Heikki Linnakangas <heikki.linnakangas@enterprisedb.com> — 2010-09-15T07:49:19Z

    On 15/09/10 00:49, Kevin Grittner wrote:
    > Heikki Linnakangas<heikki.linnakangas@enterprisedb.com>  wrote:
    >> A short description of how the predicate locks help to implement
    >> serializable mode would be nice too.  I haven't read Cahill's
    >> papers, and I'm left wondering what the RW conflicts and
    >> dependencies are, when you're supposed to grab predicate locks
    >> etc.
    >
    > Again -- why be stingy?  Given a more complete README file, how
    > about something like?:
    
    Well, if it's explained in the readme, that's probably enough.
    
    > /*
    >   * A rw-conflict occurs when a read by one serializable transaction
    >   * does not see the write of a concurrent serializable transaction
    >   * when that write would have been visible had the writing
    >   * transaction committed before the start of the reading
    >   * transaction. When the write occurs first, the read can detect
    >   * this conflict by examining the MVCC information.  When the read
    >   * occurs first, it must record this somewhere so that writes can
    >   * check for a conflict.  Predicate locks are used for this.
    >   * Detection of such a conflict does not cause blocking, and does
    >   * not, in itself, cause a transaction rollback.
    >   *
    >   * Transaction rollback is required when one transaction (called a
    >   * "pivot") has a rw-conflict *in* (a concurrent transaction
    >   * couldn't see its write) as well as *out* (it couldn't see the
    >   * write of another transaction).  In addition, the transaction on
    >   * the "out" side of the pivot must commit first, and if the
    >   * transaction on the "in" side of the pivot is read-only, it must
    >   * acquire its snapshot after the successful commit of the
    >   * transaction on the "out" side of the pivot.
    >   */
    >
    > Would something like that have helped?
    
    Yes. An examples would be very nice too, that description alone is 
    pretty hard to grasp. Having read the Wiki page, and the slides from 
    your presentation at pg east 2010, I think understand it now.
    
    Now that I understand what the predicate locks are for, I'm now trying 
    to get my head around all the data structures in predicate.c. The 
    functions are well commented, but an overview at the top of the file of 
    all the hash tables and other data structures would be nice. What is 
    stored in each, when are they updated, etc.
    
    I've been meaning to look at this patch for some time, but now I'm 
    actually glad I haven't because I'm now getting a virgin point of view 
    on the code, seeing the problems that anyone who's not familiar with the 
    approach will run into. :-)
    
    BTW, does the patch handle prepared transactions yet? It introduces a 
    call to PreCommit_CheckForSerializationFailure() in CommitTransaction, I 
    think you'll need that in PrepareTransaction as well.
    
    -- 
       Heikki Linnakangas
       EnterpriseDB   http://www.enterprisedb.com
    
    
  6. Re: Serializable Snapshot Isolation

    Kevin Grittner <kevin.grittner@wicourts.gov> — 2010-09-15T13:15:53Z

    Heikki Linnakangas <heikki.linnakangas@enterprisedb.com> wrote:
     
    > Now that I understand what the predicate locks are for, I'm now
    > trying to get my head around all the data structures in
    > predicate.c.  The functions are well commented, but an overview at
    > the top of the file of all the hash tables and other data
    > structures would be nice. What is stored in each, when are they
    > updated, etc.
     
    It probably doesn't help that they're split between predicate.c and
    predicate.h.  (They were originally all in predicate.c because
    nobody else needed to see them, but we moved some to the .h file to
    expose them to lockfuncs.c to support listing the locks.)
     
    I'm inclined to move everything except the function prototypes out
    of predicate.h to a new predicate_interal.h, and move the structures
    defined in predicate.c there, too.  And, of course, add the overview
    comments in the new file.  If that sounds good, I can probably
    post a new patch with those changes today -- would that be a good
    idea, or should I wait for more feedback before doing that?  (It
    will be in the git repo either way.)
     
    > BTW, does the patch handle prepared transactions yet? It
    > introduces a call to PreCommit_CheckForSerializationFailure() in
    > CommitTransaction, I think you'll need that in PrepareTransaction
    > as well.
     
    Good point.  In spite of the NB comment, I did not notice that. 
    Will fix.
     
    Thanks for the feedback!
     
    -Kevin
    
    
  7. Re: Serializable Snapshot Isolation

    Alvaro Herrera <alvherre@commandprompt.com> — 2010-09-15T18:29:11Z

    Excerpts from Kevin Grittner's message of mié sep 15 09:15:53 -0400 2010:
    
    > I'm inclined to move everything except the function prototypes out
    > of predicate.h to a new predicate_interal.h, and move the structures
    > defined in predicate.c there, too.
    
    I think that would also solve a concern that I had, which is that we
    were starting to include relcache.h (and perhaps other headers as well,
    but that's the one that triggered it for me) a bit too liberally, so +1
    from me.
    
    -- 
    Álvaro Herrera <alvherre@commandprompt.com>
    The PostgreSQL Company - Command Prompt, Inc.
    PostgreSQL Replication, Consulting, Custom Development, 24x7 support
    
    
  8. Re: Serializable Snapshot Isolation

    Kevin Grittner <kevin.grittner@wicourts.gov> — 2010-09-15T18:52:36Z

    Alvaro Herrera <alvherre@commandprompt.com> wrote:
     
    > I think that would also solve a concern that I had, which is that
    > we were starting to include relcache.h (and perhaps other headers
    > as well, but that's the one that triggered it for me) a bit too
    > liberally, so +1 from me.
     
    Unfortunately, what I proposed doesn't solve that for relcache.h,
    although it does eliminate lock.h from almost everywhere and htup.h
    from everywhere.  (The latter seemed to be left over from an
    abandoned approach, and was no longer needed in predicate.h in any
    event.)
     
    Most of the functions in predicate.c take a Relation as a parameter.
    I could split out the function prototypes for those which *don't*
    use it to a separate .h file if you think it is worthwhile.  The
    functions would be:
     
    void InitPredicateLocks(void);
    Size PredicateLockShmemSize(void);
    void RegisterSerializableTransaction(const Snapshot snapshot);
    void ReleasePredicateLocks(const bool isCommit);
    void PreCommit_CheckForSerializationFailure(void);
     
    The files where these are used are:
     
    src/backend/storage/ipc/ipci.c
    src/backend/utils/time/snapmgr.c
    src/backend/utils/resowner/resowner.c
    src/backend/access/transam/xact.c
     
    So any of these files which don't already include relcache.h could
    remain without it if we make this split.  Is there an easy way to
    check which might already include it?  Is it worth adding one more
    .h file to avoid including relcache.h and snapshot.h in these four
    files?
     
    Let me know -- I'm happy to arrange this any way people feel is most
    appropriate.  I have a profound appreciation for the organization of
    this code, and want to maintain it, even if I don't possess the
    perspective to know how to best do so.  The respect comes from
    developing this patch -- every time I gave my manager an estimate of
    how long it would take to do something, I found it actually took
    about one-third of that time -- and it was entirely due to the
    organization and documentation of the code.
     
    -Kevin
    
    
  9. Re: Serializable Snapshot Isolation

    Kevin Grittner <kevin.grittner@wicourts.gov> — 2010-09-16T22:35:10Z

    Heikki Linnakangas <heikki.linnakangas@enterprisedb.com> wrote:
     
    > The functions are well commented, but an overview at the top of
    > the file of all the hash tables and other data structures would be
    > nice. What is stored in each, when are they updated, etc.
     
    I moved all the structures from predicate.h and predicate.c to a new
    predicate_internal.h file and added comments.  You can view its
    current contents here:
     
    http://git.postgresql.org/gitweb?p=users/kgrittn/postgres.git;a=blob;f=src/include/storage/predicate_internal.h;h=7cdb5af6eebdc148dd5ed5030847ca50d7df4fe8;hb=7f05b21bc4d846ad22ae8c160b1bf8888495e254
     
    Does this work for you?
     
    That leaves the predicate.h file with just this:
     
    http://git.postgresql.org/gitweb?p=users/kgrittn/postgres.git;a=blob;f=src/include/storage/predicate.h;h=7dcc2af7628b860f9cec9ded6b78f55163b58934;hb=7f05b21bc4d846ad22ae8c160b1bf8888495e254
     
    -Kevin
    
    
  10. Re: Serializable Snapshot Isolation

    Alvaro Herrera <alvherre@commandprompt.com> — 2010-09-16T22:58:06Z

    Excerpts from Kevin Grittner's message of mié sep 15 14:52:36 -0400 2010:
    > Alvaro Herrera <alvherre@commandprompt.com> wrote:
    >  
    > > I think that would also solve a concern that I had, which is that
    > > we were starting to include relcache.h (and perhaps other headers
    > > as well, but that's the one that triggered it for me) a bit too
    > > liberally, so +1 from me.
    >  
    > Unfortunately, what I proposed doesn't solve that for relcache.h,
    > although it does eliminate lock.h from almost everywhere and htup.h
    > from everywhere.
    
    Now that I look at your new patch, I noticed that I was actually
    confusing relcache.h with rel.h.  The latter includes a big chunk of our
    headers, but relcache.h is pretty thin.  Including relcache.h in another
    header is not much of a problem.
    
    -- 
    Álvaro Herrera <alvherre@commandprompt.com>
    The PostgreSQL Company - Command Prompt, Inc.
    PostgreSQL Replication, Consulting, Custom Development, 24x7 support
    
    
  11. Re: Serializable Snapshot Isolation

    Kevin Grittner <kevin.grittner@wicourts.gov> — 2010-09-16T23:09:45Z

    Alvaro Herrera <alvherre@commandprompt.com> wrote:
     
    > Now that I look at your new patch, I noticed that I was actually
    > confusing relcache.h with rel.h.  The latter includes a big chunk
    > of our headers, but relcache.h is pretty thin.  Including
    > relcache.h in another header is not much of a problem.
     
    OK, thanks for the clarification.
     
    With the structures all brought back together in a logical order,
    and the new comments in front of the structure declarations, do you
    think a summary at the top of the file is still needed in that
    header file?
     
    -Kevin
    
    
  12. Re: Serializable Snapshot Isolation

    Heikki Linnakangas <heikki.linnakangas@enterprisedb.com> — 2010-09-17T06:11:35Z

    On 17/09/10 01:35, Kevin Grittner wrote:
    > Heikki Linnakangas<heikki.linnakangas@enterprisedb.com>  wrote:
    >
    >> The functions are well commented, but an overview at the top of
    >> the file of all the hash tables and other data structures would be
    >> nice. What is stored in each, when are they updated, etc.
    >
    > I moved all the structures from predicate.h and predicate.c to a new
    > predicate_internal.h file and added comments.  You can view its
    > current contents here:
    >
    > http://git.postgresql.org/gitweb?p=users/kgrittn/postgres.git;a=blob;f=src/include/storage/predicate_internal.h;h=7cdb5af6eebdc148dd5ed5030847ca50d7df4fe8;hb=7f05b21bc4d846ad22ae8c160b1bf8888495e254
    >
    > Does this work for you?
    
    Yes, thank you, that helps a lot.
    
    So, the purpose of SerializableXidHash is to provide quick access to the 
    SERIALIZABLEXACT struct of a top-level transaction, when you know its 
    transaction id or any of its subtransaction ids. To implement the "or 
    any of its subtransaction ids" part, you need to have a SERIALIZABLEXID 
    struct for each subtransaction in shared memory. That sounds like it can 
    eat through your shared memory very quickly if you have a lot of 
    subtransactions.
    
    Why not use SubTransGetTopmostTransaction() ?
    
    -- 
       Heikki Linnakangas
       EnterpriseDB   http://www.enterprisedb.com