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A few time ago I was struggling with a scenario in my application where needed to treat a pessimistic locking. Now, that I thought a little bit on this, I want to share my concern with stackoverflow.com.

At first I want to specify that data what I'm talking about is stored in a database.

Lets assume that in a client-server application, user needs to edit some data. But here comes a situation : at the same time, another user can also edit the same data.

A solution to this problem: we can simple treat this situation with optimistic locking (everytime you update the data, there is a check that verifies if the data was modified during your editing, and if yes, you need to retake the step of editing).

Now the problem comes when the user has very big forms to complete(not necessary big as volume how much big as time). If this situation comes a few times for the same user and the same form, it can became very frustrating. To treat this scenario we need a pesimistic locking - as long as somebdy is editing a specific data, this specific data must be locked for other clients to edit it.

In a client-server application, we know that any database transaction can last at most up to user request duration. But in my scenario, there are at least two requests :

  1. data retrieving for edit new data
  2. data sending for update

So, for this scenario what I presented, what do you think that are best approach(es)?

EDIT: In other words, how would you realize a pessimistic locking on duration of many user requests?

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where's the question? –  Mitch Wheat Sep 13 '11 at 14:12
    
Last line of text –  artaxerxe Sep 14 '11 at 5:12
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closed as not constructive by George Stocker Jul 19 '12 at 2:02

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1 Answer

The way we do it (in a desktop application) is to keep a table of locks in the database. This could be one table, or multiple tables for different kinds of thing that need to be locked, but they share a similar structure: there's some method of identifying the thing that is locked, an identifier for the user who caused the lock, and a timestamp at which the lock was created.

At the application level, when you start editing something that needs to be locked you check this table to see if somebody else already locked it. If they didn't, you can insert your own row. Obviously this needs to be done within a transaction as the check and lock has to be atomic with respect to everything else. A transaction failure here would indicate somebody else managed to get the lock behind your back.

Assuming the lock was successful, the application keeps track of it on a timer, and periodically updates the timestamp on the row in the database. Then, when it's no longer required, the row is deleted.

The purpose of the timestamp is to avoid the situation where the client application crashes or is disconnected unexpectedly and is unable to remove the row from the database. If something trying to take a lock finds a lock row but the timestamp is over a certain threshold value old, it disregards it and assumes the original client just failed to clear it up. This prevents the database administrator having to clear out locks for people after crashes.

We've also implemented a policy whereby if the username attached to the lock is your own, you get the lock for free (i.e. our locks are re-entrant).

In some ways it's really clunky, but it's working for us, and like your scenario we're not keen on optimistic locking and handling transaction failures.

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