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Instead of opening several transactions (read a table, write to a table, write to another table, etc) is it possible to do this all from a single transaction as long as you are using an appropriate IDBTransaction?

Mozilla says: "The only way to keep the transaction active is to make a request on it. When the request is finished you'll get a DOM event and, assuming that the request succeeded, you'll have another opportunity to extend the transaction during that callback." which is a little vague. Does that mean if I provide an event handler for the DOM callback that I can use the transaction at any point in that callback without ever having to worry about the transaction being closed?

https://developer.mozilla.org/en/IndexedDB/Using_IndexedDB#Adding_data_to_the_database

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4 Answers 4

up vote 5 down vote accepted

IndexedDB transactions commit as soon as the last callback is fired, so the way to keep them alive is to pass them along via callbacks.

I'm sourcing my transaction info from Jonas Sicking, a Mozilla dev and co-spec writer for IndexedDB, who commented on this excellent blog post to say the following:

The following sentence isn't correct "Transactions today auto-commit when the transaction variable goes out of scope and no more requests can be placed against it".

Transaction never automatically commit when a variable goes out of scope. Generally they only commit when the last success/error callback fires and that callback schedules no more requests. So it's not related to the scope of any variables.

The only exception to this is if you create a transaction but place no requests against it. In that case the transaction is "committed" (whatever that means for a transaction which has no requests) as soon as you return to the event loop. In this scenario you could technically "commit" the transaction as soon as all references to it go out of scope, but it's not a particularly interesting use case to optimize.

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okay thanks for the reply. i think ive got it. –  anonymous May 3 '12 at 16:26
    
Does the last paragraph mean that that if you create ReadWrite transaction, you don't place any requests against it and don't return to event loop before creating a new ReadWrite transaction, then basically you'll get a potential dead lock / infinite writer starvation. –  lisak Dec 5 '14 at 23:05
    
Another interesting question. In regards to auto-commit after success callback returns, what happens if you enqueue a new IDB request to event loop from within the success callback instead of placing new request synchronously? In that case the first success callback immediately returns but another IDB request has been scheduled. –  lisak Dec 5 '14 at 23:43
    
I asked a new question, would you please look at it? stackoverflow.com/questions/27326698/… –  lisak Dec 6 '14 at 0:49
    
I love how into the spec you are! If you have improvements for my lib please open an issue at Github github.com/buley/dash/issues I've been doing IDB forever, and you'll hate this advice but: read the spec, but trust your eyeballs. Give the spec a study and engineer away, but these things are kinda weird in practice and spending time only studying the spec can sometimes counter productive to your end goal of getting something working –  buley Dec 7 '14 at 2:42

Short answer: If you provide an event handler for a "success" or "error" event, you can place a new request inside that event handler and not have to worry about the transaction getting automatically closed.

Long answer: Transaction committing should generally be completely transparent. The only rule is that you can't hold a transaction open while doing non-database "stuff". I.e. you can't start a transaction, then hold it open while doing some XMLHttpRequests, or while waiting for the user to click a button.

As soon as you stop placing requests against a transaction and the last request callback finishes, the transaction is automatically closed.

However you can start a transaction, use that transaction to read some data and then write some results.

So make sure that you have all the data that you need before you start the transaction, then do all reads and writes that you want to do in the request callbacks. Once you are done the transaction will automatically finish.

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2  
thanks for hopping in - awesome to have a IDB spec writer hanging around –  buley Jun 16 '12 at 2:55
    
In my case, which is migrating a whole bunch of data from a websqldb to indexeddb, this means that I have to hold all of that data (possibly many megs) in memory before starting saving with IndexedDB? That sucks. –  oligofren Apr 2 '14 at 10:33
    
In regards to auto-commit after success callback returns, what happens if you enqueue a new IDB request to event loop from within the success callback instead of placing new request synchronously? In that case the first success callback immediately returns but another IDB request has been scheduled. –  lisak Dec 5 '14 at 23:42
    
I'd be glad if you could look at the question I asked regarding transaction behavior stackoverflow.com/questions/27326698/… –  lisak Dec 6 '14 at 0:50

Short answer: Don't keep.

To prevent race condition, IndexedDB is designed for implicit commit and hence you must NOT explicitly keep an transaction alive. If it is required, change your algorithm so that it does not require to keep it alive.

Reuse transaction for performance and executing ordered requests. In these cases, transaction will implicitly keep alive.

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To keep the transaction active, keep performing the next operations from the callbacks of the complete operation. Refer to the following sample code.

function put_data(db,tableName,data_array)
{
    var objectStore=db.transaction([tableName],"readwrite").objectStore(tableName);
    put_record(data_array,objectStore,num_rows,0);
}

function put_record(data_array,objectStore,row_index)
{
    if(row_index<data_array.length)
    {
        var req=objectStore.put(data_array[row_index]);
        req.onsuccess=function(e)
        {
            row_index+=1;
            put_record(data_array,objectStore,row_index);
        };
        req.onerror = function()
        {
            console.error("error", this.error);
            row_index+=1;
            put_record(data_array,objectStore,row_index);
        };
    }
}
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