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56 lines
2.7 KiB
Plaintext
56 lines
2.7 KiB
Plaintext
User locks, by Massimo Dal Zotto <dz@cs.unitn.it>
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Copyright (C) 1999, Massimo Dal Zotto <dz@cs.unitn.it>
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This software is distributed under the GNU General Public License
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either version 2, or (at your option) any later version.
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This loadable module, together with my user-lock.patch applied to the
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backend, provides support for user-level long-term cooperative locks.
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For example one can write:
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select some_fields, user_write_lock_oid(oid) from table where id='key';
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Now if the returned user_write_lock_oid field is 1 you have acquired an
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user lock on the oid of the selected tuple and can now do some long operation
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on it, like let the data being edited by the user.
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If it is 0 it means that the lock has been already acquired by some other
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process and you should not use that item until the other has finished.
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Note that in this case the query returns 0 immediately without waiting on
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the lock. This is good if the lock is held for long time.
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After you have finished your work on that item you can do:
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update table set some_fields where id='key';
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select user_write_unlock_oid(oid) from table where id='key';
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You can also ignore the failure and go ahead but this could produce conflicts
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or inconsistent data in your application. User locks require a cooperative
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behavior between users. User locks don't interfere with the normal locks
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used by postgres for transaction processing.
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This could also be done by setting a flag in the record itself but in
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this case you have the overhead of the updates to the records and there
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could be some locks not released if the backend or the application crashes
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before resetting the lock flag.
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It could also be done with a begin/end block but in this case the entire
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table would be locked by postgres and it is not acceptable to do this for
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a long period because other transactions would block completely.
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The generic user locks use two values, group and id, to identify a lock,
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which correspond to ip_posid and ip_blkid of an ItemPointerData.
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Group is a 16 bit value while id is a 32 bit integer which could also be
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an oid. The oid user lock functions, which take only an oid as argument,
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use a group equal to 0.
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The meaning of group and id is defined by the application. The user
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lock code just takes two numbers and tells you if the corresponding
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entity has been succesfully locked. What this mean is up to you.
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My succestion is that you use the group to identify an area of your
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application and the id to identify an object in this area.
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Or you can just lock the oid of the tuples which are by definition unique.
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Note also that a process can acquire more than one lock on the same entity
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and it must release the lock the corresponding number of times. This can
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be done calling the unlock funtion until it returns 0.
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