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Trying to implement an app which sends offline data stored on local db to web server when connected to internet. I use the code shown below. As far I have tested it works fine, not sure it will work fine for huge number of records. I would like to know whether any tweaking on this code may increase the performance???

NOTE

  • I know this would be a worst code for offline sync purpose, so trying to tweak it better.
  • Its a single way synchronization, from app to server.

    -(void)FormatAnswersInJSON {
    
      DMInternetReachability *checkInternet = [[DMInternetReachability alloc] init];
      if ([checkInternet isInternetReachable]) {
         if ([checkInternet isHostReachable:@"www.apple.com"]) {//Change to domain
            responseArray = [[NSMutableArray alloc] init];
    
            dispatch_async(backgroundQueue, ^(void) {
    
                NSArray *auditIDArray = [[NSArray alloc] initWithArray: [self getUnuploadedIDs]];
                for (int temp = 0; temp < [auditIDArray count]; temp ++) {
    
                    // Code to post JSON to server
    
                    NSURLResponse *response;
                    NSData *urlData=[NSURLConnection sendSynchronousRequest:request returningResponse:&response error:&error];
                    if (!error) {
                        NSString *responseID = [[NSString alloc]initWithData:urlData encoding:NSUTF8StringEncoding];
                        if ([responseID isEqualToString:@"ERROR"]) {
                            //Error uploading records
                        } else {
                           [responseArray addObject:responseID];
                        }
                    } else {
                       //Error
                       return;
                    }
                }
                dispatch_async( backgroundQueue, ^{
    
                    /* Based on return code update local DB */
                    for (int temp = 0; temp < [responseArray count]; temp ++) {
                       [self updateRecordsForID:[auditIDArray objectAtIndex:temp] withID:[responseArray objectAtIndex:temp]];
                    }
                });
            });
         }
      }
    }
    
    - (void)upload { //Called when internet connection available
    
        if(backgroundQueue){
            dispatch_suspend(backgroundQueue);
            dispatch_release(backgroundQueue);
            backgroundQueue = nil;
        }
        backgroundQueue = dispatch_queue_create("com.XXXX.TestApp.bgqueue", NULL);
        dispatch_async(backgroundQueue, ^(void) {
            [self FormatAnswersInJSON];
        });    
    }
    
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If you upload x items, then the server throws an error, you are not going to update your local DB. Did I get that right? Maybe break from that for rather than return, so you can update your local DB to what has succeeded. –  7usam Mar 14 '13 at 22:30
    
Yes. You got that right. I would change that!! –  Nina Mar 15 '13 at 5:44
1  
@7usam true, unless it's important to rollback changes when a failure occurs; "all or nothing" approach. –  Sam Mar 15 '13 at 14:50
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2 Answers

up vote 1 down vote accepted
+50

If this code were sitting in front of me, my approach would be:

  • Look at the use cases and define 'huge number of records': Will 50 record updates at a time occur regularly? Or will it be in 1s and 2s? Do my users have wifi connections or is it over the paid network?, etc.
  • If possible, test in the wild. If my user base was small enough, gather real data and let that guide my decisions, or only release the feature to a subset of users/beta tests and measure.
  • If the data tells you to, then optimize this code to be more efficient.

My avenue of optimization would be doing group processing. The rough algorithm would be something like:

for records in groups of X
  collect
  post to server {
    on return:
      gather records that updated successfully
      update locally
  }

This assumes you can modify the server code. You could do groups of 10, 20, 50, etc. all depends on the type of data being sent, and the size.

A group algorithm means a bit more pre-processing client side, but has the pro of reducing HTTP requests. If you're only ever going to get a small number of updates, this is YAGNI and pre-mature optimization.

Don't let this decision keep you from shipping!

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Thanks for much valid points. I will check them out first. At present what I am doing is not similar to batch? I kinda modified my code to use Queue! –  Nina Mar 15 '13 at 5:53
    
@Nina sorry, my usage of batch was incorrect. I've updated my answer accordingly. –  Gavin Miller Mar 15 '13 at 14:42
    
Right now I am adding the post object in queue and processing one by one.. The second post object processes only after the completion of first.. Will that be worst too? –  Nina Mar 15 '13 at 14:59
    
@Nina so what you've described is single item processing. If you have 100 records, that's 100 http requests (1 record, 1 request). What I'm suggesting for you is grouping those together. Break up 100 records into groups of 10. Then send that group of 10 as a single http request (10 records, 1 request). That will make your network communication much more efficient. Does that make sense? –  Gavin Miller Mar 15 '13 at 16:17
    
Understood your point. Grouping records and posting. Need to change the server side code. Before that i may need to know max offline count :) Thank you so much. You clarified my major doubts :) –  Nina Mar 15 '13 at 17:58
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Your code has a couple of issues. One convention is to always check the return value before you test the error parameter. The error parameter might be set - even though the method succeeded.

When using NSURLConnection for anything else than a quick sample or test, you should also always use the asynchronous style with handling the delegate methods. Since using NSURLConnection properly may become quickly cumbersome and error prone, I would suggest to utilize a third party framework which encapsulates a NSURLConnection object and all connection related state info as a subclass of NSOperation. You can find one example implementation in the Apple samples: QHTTPOperation. Another appropriate third party framework would be AFNetworking (on GitHub).

When you use either the async style with delegates or a third party subclass, you can cancel the connection, retrieve detailed error or progress information, perform authentication and much more - which you can't with the synchronous API.

I think, once you have accomplished this and your approach works correctly, you may test whether the performance is acceptable. But unless you have large data - say >2 MByte - I wouldn't worry too much.

If your data becomes really large, say >10 MByte you need to consider to improve your approach. For example, you could provide the POST data as file stream instead a NSData object (see NSURLRequest's property HTTPBodyStream). Using a stream avoids to load all the POST data into RAM which helps alleviate the limited RAM problem.

If you have instead smaller POST data, but possibly many of them, you might consider to use a NSOperationQueue where you put your NSOperation connection subclass. Set the maximum number of concurrent operations to 2. This then may leverage HTTP pipelining - if the server supports this, which in effect reduces latency.

Of course, there might be other parts in your app, for example you create or retrieve the data which you have to send, which may affect the overall performance. However, if your code is sound and utilizes dispatch queues or NSOperations which let things perform in paralel there aren't many more options to improve the performance of the connection.

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