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  • Say you retrieve a set of records from the datastore (something like: select * from MyClass where reserved='false').

  • how do i ensure that another user doesn't set the reserved is still false?

I've looked in the Transaction documentation and got shocked from google's solution which is to catch the exception and retry in a loop.

Any solution that I'm missing - it's hard to believe that there's no way to have an atomic operation in this environment.

(btw - i could use 'syncronize' inside the servlet but i think it's not valid as there's no way to ensure that there's only one instance of the servlet object, isn't it? same applies to static variable solution)

Any idea on how to solve?

(here's the google solution:


look at:

Key k = KeyFactory.createKey("Employee", "k12345");
Employee e = pm.getObjectById(Employee.class, k);
e.counter += 1;

'This requires a transaction because the value may be updated by another user after this code fetches the object, but before it saves the modified object. Without a transaction, the user's request will use the value of counter prior to the other user's update, and the save will overwrite the new value. With a transaction, the application is told about the other user's update. If the entity is updated during the transaction, then the transaction fails with an exception. The application can repeat the transaction to use the new data'

Horrible solution, isn't it?

share|improve this question
No, it's not horrible. The general principle is called "optimistic locking", and it is more efficient than mutual exclusion ("pessimistic locking") in situations where contention is reasonably rare. It's also more friendly to massively distributed implementations. – Steve Jessop Mar 31 '10 at 22:02
it is horrible if you have many clients trying to reserve a room at the same time and before each reserve you need to perform a select statement! – bach Apr 1 '10 at 0:12
not to mention that after the select you hold ALL the unreserved rooms, so any other client request at that time will cause an exception... Locking mechanism isn't my invention... it's trivial and needed... – bach Apr 1 '10 at 0:30
It's still not that bad. With mutual exclusion all those clients but one would be sat about doing nothing, whereas with Google's solution all but one are sat in a loop throwing an exception and trying again. Somebody is succeeding either way since an exception is only thrown if somebody has written something (i.e successfully reserved a room). This is a locking mechanism, it's just not the one you're used to. And it's far from trivial to implement mutual exclusion on a distributed system with lossy communication between nodes. I can only suggest you go with the flow. – Steve Jessop Apr 1 '10 at 0:32
And no, locks aren't better, because they impose overhead always, even in the vast majority of situations where there's no conflict. Optimistic concurrency only causes extra overhead when an actual conflict is detected. – Nick Johnson Apr 1 '10 at 9:26

You are correct that you cannot use synchronize or a static variable.

You are incorrect that it is impossible to have an atomic action in the App Engine environment. (See what atomic means here) When you do a transaction, it is atomic - either everything happens, or nothing happens. It sounds like what you want is some kind of global locking mechanism. In the RDBMS world, that might be something like "select for update" or setting your transaction isolation level to serialized transactions. Neither one of those types of options are very scalable. Or as you would say, they are both horrible solutions :)

If you really want global locking in app engine, you can do it, but it will be ugly and seriously impair scalability. All you need to do is create some kind of CurrentUser entity, where you store the username of the current user who has a global lock. Before you let a user do anything, you would need to first check that no user is already listed as the CurrentUser, and then write that user's key into the CurrentUser entity. The check and the write would have to be in a transaction. This way, only one user will ever be "Current" and therefore have the global lock.

share|improve this answer
Hopefully it's obvious to bach that this operation (grabbing the CurrentUser in a transaction) will be worse than just doing the original update operation in a transaction in the first place... if not, after reading this comment, I hope it will be :) – Jason Hall Apr 1 '10 at 4:24
thanks for your replies. - Where does it written that synchronize can't be used in GAE? - I'm not looking for "atomic" in the DB world sense but in programming languages sense - I actually don't really need more than 1 JVM running my application as it's a local application. – bach Apr 1 '10 at 7:25
using a while loop in all clients where inside that loop there's a call to the datastore will eat all my DB/CPU qouata, sin't it? – bach Apr 1 '10 at 7:48
No, because the loop only iterates as long as there are conflicts. App Engine in particular can handle 5 to 10 updates per second to each entity group before conflicts cause substantial overhead. – Nick Johnson Apr 1 '10 at 9:27
@Peter: bach has sort of provided an example in another question. Suppose you have some robot which is continually flooding the DB with updates, at a rate higher than the time it takes to complete the transaction. Then mutual exclusion blocks out the robot long enough to get some work done. You can argue whether you should have a robot running at that frequency in the first place, and whether a transaction should take that long, but in point of fact a blocking lock would compensate for it. As would your suggestion, or an entity meaning "don't update for X seconds from my creation time". – Steve Jessop Apr 1 '10 at 16:09

Do you mean like this:

   public void func(Data data2) {

        String query = "select from " + objectA.class.getName()
                + " where reserved == false";
        List<objectA> Table = (List<objectA>) pm.newQuery(

        for (objectA row : Table)
            Data data1 = row.getData1();
            row.setWeight(JUtils.CalcWeight(data1, data2));

        Collections.sort(Table, new objectA.SortByWeight());

        int retries = 0;
        int NUM_RETRIES = 10;
        for (int i = 0; i < Table.size() ; i++)
            pm.currentTransaction().begin(); //    <---- BEGIN
            ObjectA obj = pm.getObjectById(Table.get(i).class, Table.get(i).getKey());
            if (obj .getReserved() == false)   // <--- CHECK if still reserved

            catch (JDOCanRetryException ex)
                if (j == (NUM_RETRIES - 1))
                    throw ex;
                i--; //so we retry again on the same object
share|improve this answer
ok now i think I've nailed it! – bach Apr 1 '10 at 13:27

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