PHP's documentation page for
flock() indicates that it's not safe to use under IIS. If I can't rely on
flock under all circumstances, is there another way I could safely achieve the same thing?
There is no alternative available to safely achieve the same under all imaginary possible circumstances. That's by design of computer systems and the job is not trivial for cross-platform code.
If you need to make safe use of
Alternatively you can create your own locking mechanism, however you must ensure it's atomic. That means, you must test for the lock and if it does not exists, establish the lock while you need to ensure that nothing else can acquire the lock in-between.
This can be done by creating a lock-file representing the lock but only if it does not exists. Unfortunately, PHP does not offer such a function to create a file in such a way.
Alternatively you can create a directory with
You can implement a filelock - unlock pattern around your read/write operations based on mkdir, since that is atomic and pretty fast. I've stress tested this and unlike mgutt did not find a bottleneck. You have to take care of deadlock situations though, which is probably what mgutt experienced. A dead lock is when two lock attempts keep waiting on each other. It can be remedied by a random interval on the lock attempts. Like so:
Then work on your file in filepath and when you're done, call:
I've chosen to remove old locks, well after the maximum PHP execution time in case a script exits before it has unlocked. A better way would be to remove locks always when the script fails. There is a neat way for this, but I have forgotten.
As you can see I used
Why I do not use
1.) If you lock a file and your script stops while writing to a file the lock is released. This means you have a partial file. Nobody wants that.
2.) If you use LOCK_NB for reading the file you are not race condition safe. If you avoid using LOCK_NB you produce bottlenecks (one process is waiting for the last one to release the lock).
3.) I think its to heavy to use
4.) I do not need to think about which OS the server is using.
This example shows the problems:
Now the alternative:
As you can see there is a minimum potential of a race condition:
This means if the 1st process is writing to the cache while the 2nd is checking if a lock exists, the 2nd will run the sql query again and in this time the first process could release the lock, causing writing the cache file again. In my projects I faced in rare cases 2 or 3 parallel cache writings, but this has no disadvantage for me. Conclusion: Only the code between
The very good thing of using
But the best part is the file reading. We use only one