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I have a very specific application where I need an auto-increment variable with persistent storage.

To be precise, I store the decimal representation of an int variable on a file. To generate the next number, I read() from the file, convert the contents back to int, add 1 and write() back to the file. I do NOT need concurrent access to this data. Only one thread from one process calls the functions to retrieve the auto-increment number. The program runs on an embedded environment, where no-one will have access to the console, so security should not be a concern. If it matters, it runs on Linux 2.6.24 on MIPS.
The problem is, I am not getting 100% reproducible results. Sometimes I get repeated numbers, which is unacceptable for my application.

My implementation is as follows.

On starting the application, I have:

int fd = open("myfile", O_RDWR|O_CREAT|O_SYNC, S_IRWXU|S_IRWXG|S_IRWXO);

And the auto-increment functions:

int get_current(int fd)
    char value[SIZE];
    lseek(fd, 0, SEEK_SET);
    read(fd, value, SIZE);
    return atoi(value);

int get_next(int fd)
    char value[SIZE];
    int cur = get_current(fd);
    memset(value, 0, SIZE);
    sprintf(value, "%d", cur + 1);
    lseek(fd, 0, SEEK_SET);
    write(fd, value, SIZE);
    //fsync(fd);  /* Could inserting this be the solution? */
    return (cur + 1);

I have intentionally left out error checking above for the sake of code readability. I have code in place to check return values of all syscalls.

The code was originally written by another person, and now that I have detected this problem, the first step to solve it is to find out what could have caused it. I am concerned that it could be related to the way file accesses are cached. I know when I write() I have no gurantee the data ever actually reached the physical medium, but is it safe to call read() without having called fsync() and still get predictable results? If it is, then I'm out of ideas ;)

Thanks for reading through.

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Note that data files should not be executable. Publicly writable files fill me with concern - but can occasionally be necessary. However, you have to be aware that anyone can write anything into the file at any time - alphabetic characters, punctuation, gibberish, nothing. Granted, it likely requires malice to do that, but don't underestimate the ability of fools to break your system. You might be better off with a daemon-like process that doles out the numbers, recording the last issued number in a file that only it (the daemon, and the daemon's owner) can write to. –  Jonathan Leffler Dec 20 '10 at 3:31
Debugging idea...add a log file opened with O_APPEND. Format a second buffer which contains a newline and maybe identifying information (TID, PID, sub-second time), and arrange for the code to write to that file too. You should then be able to see when the reads don't match with the writes - unless the extra write converts the bug into a Heisenbug and suppresses the problem. (Is there any chance that there are multiple file descriptors all referring to the same file?) –  Jonathan Leffler Dec 20 '10 at 3:49
Is get_current() file static? Is the only call to it the call in get_next()? If not, where else is it used and why? –  Jonathan Leffler Dec 20 '10 at 3:54
@Leffler: What do you mean by file static? get_current is called from at least one other place to query how many number have been generated, but why would that matter? –  David Dec 20 '10 at 4:02
@David: 'file static' is 'static', but emphasizing that it is only accessible from within a single source file. One way you could run into problems is if the code that calls get_current() then uses that value as if it had come from get_next(). Since you're dealing with a single process, and the multi-threading is apparently kept away from get_next(), then can the problem be that get_current() is used where get_next() should be used? It is clutching at straws. You might also want to look at the MTD FAQ too. –  Jonathan Leffler Dec 20 '10 at 5:02
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3 Answers

up vote 5 down vote accepted

Yes, it is safe to read immediately after writing. In a Unix-like system, the data is safely in the kernel buffer pool when a write() returns and will be returned to other processes that need to read the data. Similar comments apply when using O_SYNC, O_DSYNC, O_FSYNC (which ensure that data is written to disk) and to Windows systems. Clearly, an asynchronous write will not be complete when the aio_write() call returns, but it will be complete when the completion is signalled.

However, your problem arises because you are not ensuring that you have a single process or thread accessing the file at a time. You must ensure that you get serial access so that you don't get two processes (or threads) reading from the file at the same time. This is the 'lost update' problem in DBMS terms.

You need to ensure that only one process has access at a time. If your processes cooperate, you can use advisory locking (via fcntl() on POSIX systems). If your processes don't cooperate, or you're not sure, you may need to go for mandatory locking, or use some other technique altogether.

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I was afraid of that answer.. If it is indeed safe to read() immediately after write() then what could be causing the problem I encountered? My process does not have any other thread accessing that same file, nor is there any other process doing so. Perhaps I should have mentioned before, I am running on Linux 2.6.24 on MIPS and the physical medium is a Memory Technology Device (mtdblock). –  David Dec 20 '10 at 3:27
POSIX intentionally omits mandatory locking, and good systems do not allow it because it's dangerous and generally Considered Harmful(tm). –  R.. Dec 20 '10 at 3:28
@R..: In what way is mandatory locking Considered Harmful™? The main concern is that it tends to inhibit concurrency, but superficially, that seems to be what is needed here. (I'm about to address David's comments that he is not dealing with multiple threads or multiple processes. I'm just not quite sure how, yet.) –  Jonathan Leffler Dec 20 '10 at 3:37
For the same reason Windows users hate when they get errors like "Cannot delete foo: File is in use by another program" or whatever. –  R.. Dec 20 '10 at 3:40
@David: if threads are involved at all, I suspect you're wrong and that the function is somehow getting called from another thread. One easy way to test would be to wrap the function with something like assert(pthread_mutex_trylock(&lock)==0); and pthread_mutex_unlock(&lock); Note the assert form - this way your program will crash rather than just waiting when concurrent access is attempted so you can track down what's happening. Or just use pthread_mutex_lock if you don't care that it's being called from multiple threads. –  R.. Dec 20 '10 at 4:36
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Yes, if you write() to a file and then read() from it you should see the data you just wrote. The exception is if another process or thread has overwritten the file in the meantime, or if the write() actually failed.

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The content of a file is a really bad way to implement an atomic counter. How big will your count get? If it's not huge, one simple method would be to write a single byte (doesn't matter what) to increment the counter, and use fstat (st_size) to read the counter. ftrunc can reset the counter to zero.

A cleaner way to implement what you want would be to memory-map the file (with mmap) and store not just the count but also a pthread_mutex_t that's initialized to be process-shared, and lock it when updating the count.

Another way you could use mmap is if you have C1x atomic types (_Atomic int) but you'll have to wait 5-10 years. :-) Or you could use gcc intrinsics or asm for atomic operations. This solution has by far the best performance (mildly better than the pthread_mutex_t approach, and hundreds of times faster than the write approach).

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I appreciate your reply, but my application does not have to deal with concurrent access or any of the complications it brings. I just have to stamp every line of output from my program with a unique sequential number. This does, however, mean that the counter could get pretty big. I'll update my question to make this clear. –  David Dec 20 '10 at 3:40
If it's only a single program, why do you store the counter in a file and not just a global variable? If the value is kept and used across multiple runs of the program, what are you doing to ensure that more than one instance of the program is not run at the same time? –  R.. Dec 20 '10 at 3:46
It is an embedded system. The application running is started on boot and handles every aspect of interaction with the user. I need to store the value in a file because I need the variable to start from the last generated number when the device reboots. –  David Dec 20 '10 at 3:48
@David, Use a global. Checkpoint the count in the file on every write (less often if you can trap failure and checkpoint then), and read the file only once at start up to set the initial value of the count in a global. –  RBerteig Dec 20 '10 at 4:05
@RBerteig: That does seem like a more elegant solution. But I just don't feel confident it would solve the problem I find myself with. If only I could identify what was causing it, then I could safely look for alternatives, like the one you proposed. Thanks! –  David Dec 20 '10 at 4:18
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