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gcc 4.7.2
c89

Hello,

I am just wondering about applying a mutex lock for the following code snippet.

Is there any rules that you should following, as I don't want to lock as this would block other threads in this function. As this would really slow things down.

I am compiling with the following CFLAGS:

-Wall -Wextra -g -m32 -O2 -D_DEBUG -D_THREAD_SAFE -D_REENTRANT -D_LARGEFILE64_SOURCE

Code snippet

static void* APR_THREAD_FUNC timeout_duration(apr_thread_t *thd, void *data)
{
apr_status_t rv = 0;
channel_t *channel = NULL;

/*
  APPLY LOCK HERE
*/
channel = (channel_t*)data;

/* simulate some work */
apr_sleep(5000000);

LOG_INFO("Channel id [ %d ] Channel name [ %s ] Delay time [ %d ]",
         channel->id,
         channel->name,
         (apr_int32_t)channel->delay_time);

/*
  UNLOCK HERE
*/

return NULL;
}

I pass channel as the data that is passed into the entry function. However, isn't this just a copy so I don't really need to worry about it?

share|improve this question
    
copy of ptr != copy of data. –  Karoly Horvath Feb 7 '13 at 14:23

4 Answers 4

up vote 2 down vote accepted

The rules are:

1) Locks protect data and not code. When data is protected by a lock, code that accesses that data must acquire the data's lock.

2) Locks should be acquired as late as possible and released as early as possible. This can include shifting work from inside the critical section to outside the critical section.

3) Data that is only read (and not modified) doesn't need a lock. This includes things like "Channel id [ %d ] ..." format strings (which should be treated as constant).

4) Data that can only be accessed by one thread doesn't need a lock. This includes things like function parameters and local variables.

5) Finer grained locking is better than coarse grained locking. For example, rather than having one large data structure with one lock, often you can split that large data structure into many smaller structures with many locks.

6) If any code needs more than one lock at a time, you need to define a "locking order". For example, if one thread acquires lock A then lock B, does some work then releases the locks; and if another thread acquires lock B then lock A, does some work then release the locks; then you can get deadlock (each thread has one lock but needs both to continue). Defining a "locking order" (e.g. saying that lock A must be acquired before lock B) prevents this sort of bug.

For your code, the first few lines don't need a lock at all because they only access function parameters and local variables (rule 4). The data pointed to by void *data may or may not need a lock depending on what it is - e.g. if each thread has its own separate data (rule 4), or if that data is only read (rule 3), then no lock is needed. For the LOG_INFO() function no additional lock is needed (excluding the void *data lock if it exists) in the code you posted, but it may have its own internal lock (e.g. to protect a shared log).

For an example of rule 2, if the LOCK_INFO takes a little while your code could do something like this to release the first lock earlier:

temp_ID = channel->id;
temp_name = strdup(channel->name);  // Should check for NULL!
temp_delay = channel->delay_time;

/*
  UNLOCK HERE
*/

LOG_INFO("Channel id [ %d ] Channel name [ %s ] Delay time [ %d ]",
         temp_ID,
         temp_name,
         temp_delay);
free(temp_name);

Also note that if LOCK_INFO() uses a lock, releasing the first lock earlier will also help with rule 6.

share|improve this answer
    
Re: 3, even reading needs a lock if another thread might write. rwlocks are useful in this case. –  R.. Feb 7 '13 at 14:58
    
@R.. Yes, but rule 1 should cover that (e.g. the data needs a lock if the data is written to; and a function that uses data that has a lock must acquire the data's lock even if that function only read the data). I probably could've made this clearer. –  Brendan Feb 7 '13 at 15:06

If you want to read this channel just when the mutex is unlock, use pthread_mutex_trylock() instead of pthread_mutex_lock(). It does the same but pthread_mutex_trylock() isn't blocant, based on it's return value you can do:

if (pthread_mutex_trylock(your_mutex))
{
    //Read the data.
}
share|improve this answer

No, it's not a copy, the data is really just a pointer to the data, as a result, both your thread and the caller context has access to this same data. Now, if you can guarantee that both (thread and caller context) will not touch the data simultaneously, then there is no need for a lock in the thread function.

share|improve this answer

You definitely need to worry about it, as data is a pointer to your actual channel_t data.

However, having a very long working period with lock held would kind of pointless if you want to use threads to make work in parallel. Finer grain locks would be better - but that of course assumes that the overall operations done can be split into sections that leaves the data in a consistent sate.

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