PostgreSQL has a highly efficient and sophisticated transaction machinery that is capable of handling locks in a really fine-grained and efficient way. Some years ago, some people came up with the idea of using this code to synchronize applications with each other.
Thus, advisory locks were born.
When using advisory locks, it is important to mention that they won't go away on COMMIT as normal locks do. Therefore, it is really important to make sure that unlocking is done properly and in a totally reliable way.
If you decide to use an advisory lock, what you really lock is a number. So, this is not about rows or data; it is really just a number. Here is how it works:
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Session 1 |
Session 2 |
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BEGIN; |
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SELECT pg_advisory_lock(15); |
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SELECT pg_advisory_lock(15); |
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It has to wait |
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COMMIT; |
It still has to wait |
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SELECT pg_advisory_unlock(15); |
It still waiting |
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Lock is taken |
The first transaction will lock 15. The second transaction has to wait until this number has been unlocked again. The second session will even wait after the first one has committed. This is highly important as you cannot rely on the fact that the end of the transaction will nicely and miraculously solve things for you.
If you want to unlock all locked numbers, PostgreSQL offers the pg_advisory_unlock_all() function to do exactly this:
test=# SELECT pg_advisory_unlock_all(); pg_advisory_unlock_all
------------------------
(1 row)
Sometimes, you might want to see if you can get a lock and error out if it is not possible. To achieve this, PostgreSQL offers a couple of functions; to see a list of all such available functions, at the command line, enter: df *try*advisory*.