Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Since the release of iOS6, my web app has hit a series of bugs, one of the worst being what I'm almost 100% positive is websql transactions being queued. When I first load the app in mobile safari( ipad ), the transactions work fine. Then, if I close safari and open it again the transactions seem to be queued and never execute.

If I open the dev tools and run a simple alert, the methods will fire, if I just hit reload the transactions work fine as well, or if I delay the running of the db transactions by 1sec or something it works fine as well.

I do not want to run a setTimeout to run the transactions.

Is this a caching issue that safari has now since implemented?

If anyone has ANY good ideas on how to fix this please answer below.

Thanks in advance.

share|improve this question
add comment

2 Answers

It may not be bug. You may be using series of transaction unnecessarily. You could use mulitple requests per transaction. onsuccess callback, you can reuse the transaction. It should work. At the same time, limit number of requests per transaction. setTimeout should never necessary.

Here is how a single transaction is used to insert multiple objects

/**
* @param {goog.async.Deferred} df
* @param {string} store_name table name.
* @param {!Array.<!Object>} objects object to put.
 * @param {!Array.<(Array|string|number)>=} opt_keys
*/
ydn.db.req.WebSql.prototype.putObjects = function (df, store_name, objects, opt_keys) {

  var table = this.schema.getStore(store_name);
  if (!table) {
    throw new ydn.db.NotFoundError(store_name);
  }

  var me = this;
  var result_keys = [];
  var result_count = 0;

  /**
   * Put and item at i. This ydn.db.core.Storage will invoke callback to df if all objects
   * have been put, otherwise recursive call to itself at next i+1 item.
   * @param {number} i
   * @param {SQLTransaction} tx
   */
  var put = function (i, tx) {

    // todo: handle undefined or null object

    var out;
    if (goog.isDef(opt_keys)) {
      out = table.getIndexedValues(objects[i], opt_keys[i]);
    } else {
      out = table.getIndexedValues(objects[i]);
    }
    //console.log([obj, JSON.stringify(obj)]);

    var sql = 'INSERT OR REPLACE INTO ' + table.getQuotedName() +
        ' (' + out.columns.join(', ') + ') ' +
        'VALUES (' + out.slots.join(', ') + ');';

    /**
     * @param {SQLTransaction} transaction transaction.
     * @param {SQLResultSet} results results.
     */
    var success_callback = function (transaction, results) {
      result_count++;
      result_keys[i] = goog.isDef(out.key) ? out.key : results.insertId;
      if (result_count == objects.length) {
        df.callback(result_keys);
      } else {
        var next = i + ydn.db.req.WebSql.RW_REQ_PER_TX;
        if (next < objects.length) {
          put(next, transaction);
        }
      }
    };

    /**
     * @param {SQLTransaction} tr transaction.
     * @param {SQLError} error error.
     */
    var error_callback = function (tr, error) {
      if (ydn.db.req.WebSql.DEBUG) {
        window.console.log([sql, out, tr, error]);
      }
      df.errback(error);
      return true; // roll back
    };

    //console.log([sql, out.values]);
    tx.executeSql(sql, out.values, success_callback, error_callback);
  };

  if (objects.length > 0) {
    // send parallel requests
    for (var i = 0; i < ydn.db.req.WebSql.RW_REQ_PER_TX && i < objects.length; i++) {
      put(i, this.getTx());
    }
  } else {
    df.callback([]);
  }
};

Regarding transaction queue, it is better to handle by the application rather than by the SQLite for robustness. Basically we can watch transaction complete event before starting a new transaction. It is also fine to run multiple transactions as long as they are under control. Out of control will be opening transactions under a loop. Generally I will open only couple of transactions.

Here is how transaction is queued:

/**
 * Create a new isolated transaction. After creating a transaction, use
 * {@link #getTx} to received an active transaction. If transaction is not
 * active, it return null. In this case a new transaction must re-create.
 * @export
 * @param {Function} trFn function that invoke in the transaction.
 * @param {!Array.<string>} store_names list of keys or
 * store name involved in the transaction.
 * @param {ydn.db.TransactionMode=} opt_mode mode, default to 'readonly'.
 * @param {function(ydn.db.TransactionEventTypes, *)=} oncompleted
 * @param {...} opt_args
 * @override
 */
ydn.db.tr.TxStorage.prototype.transaction = function (trFn, store_names, opt_mode, oncompleted, opt_args) {

  //console.log('tr starting ' + trFn.name);
  var scope_name = trFn.name || '';

  var names = store_names;
  if (goog.isString(store_names)) {
    names = [store_names];
  } else if (!goog.isArray(store_names) ||
    (store_names.length > 0 && !goog.isString(store_names[0]))) {
    throw new ydn.error.ArgumentException("storeNames");
  }
  var mode = goog.isDef(opt_mode) ? opt_mode : ydn.db.TransactionMode.READ_ONLY;
  var outFn = trFn;
  if (arguments.length > 4) { // handle optional parameters
    var args = Array.prototype.slice.call(arguments, 4);
    outFn = function () {
      // Prepend the bound arguments to the current arguments.
      var newArgs = Array.prototype.slice.call(arguments);
       //newArgs.unshift.apply(newArgs, args); // pre-apply
      newArgs = newArgs.concat(args); // post-apply
      return trFn.apply(this, newArgs);
    }
  }
  outFn.name = scope_name;

  var me = this;

  if (this.mu_tx_.isActive()) {
    //console.log(this + ' active')
    this.pushTxQueue(outFn, store_names, mode, oncompleted);
  } else {
    //console.log(this + ' not active')
    var transaction_process = function (tx) {

      me.mu_tx_.up(tx, scope_name);

      // now execute transaction process
      outFn(me);

      me.mu_tx_.out(); // flag transaction callback scope is over.
      // transaction is still active and use in followup request handlers
    };

    var completed_handler = function (type, event) {
      me.mu_tx_.down(type, event);
      /**
       * @preserve_try
       */
      try {
        if (goog.isFunction(oncompleted)) {
          oncompleted(type, event);
        }
      } catch (e) {
        // swallow error. document it publicly.
        // this is necessary to continue transaction queue
        if (goog.DEBUG) {
          throw e;
        }
      } finally {
        me.popTxQueue_();
      }
    };

    if (ydn.db.tr.TxStorage.DEBUG) {
      window.console.log(this + ' transaction ' + mode + ' open for ' + JSON.stringify(names) + ' in ' + scope_name);
    }
    this.storage_.newTransaction(transaction_process, names, mode, completed_handler);
  }

};
share|improve this answer
    
Thanks for the reply. I am using a single transaction to execute multiple requests. As stated in my question, this problem was NOT introduced until iOS6 and works fine if I delay the transaction calls or reload the page. It only happens if the page loads from a closed safari. –  Trevor Sep 27 '12 at 12:37
    
I see. My guess was iOS6 tighten up request. It may be other reasons. A few source code might help to see the problem. –  Kyaw Tun Sep 27 '12 at 14:25
add comment
up vote 0 down vote accepted

As it turns out, initializing Facebook before websql was causing the problem. After commenting out FB the app behaved properly, which is why setTimeout solved the issue as well; the fb api was ready. How the thread of execution gets blocked, I don't know.

So, to anyone using FB and then trying to execute websql transactions...delay FB!

Though, websql is still running a bit slow on safari load...

share|improve this answer
    
I have experienced this problem again when an email dialog is open and a websql transaction tries to execute. It never executes! –  Trevor Oct 4 '12 at 14:53
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.