Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

It turns out this whole misunderstanding of the open() versus fopen() stems from a buggy I2C driver in the Linux 2.6.14 kernel on an ARM. Backporting a working bit bashed driver solved the root cause of the problem I was trying to address here.

I'm trying to figure out an issue with a serial device driver in Linux (I2C). It appears that by adding timed OS pauses (sleeps) between writes and reads on the device things work ... (much) better.

Aside: The nature of I2C is that each byte read or written by the master is acknowledged by the device on the other end of the wire (slave) - the pauses improving things encourage me to think of the driver as working asynchronously - something that I can't reconcile with how the bus works. Anyhoo ...

I'd either like to flush the write to be sure (rather than using fixed duration pause), or somehow test that the write/read transaction has completed in an multi-threaded friendly way.

The trouble with using fflush(fd); is that it requires 'fd' to be stream pointer (not a file descriptor) i.e.

FILE * fd = fopen("filename","r+");
... // do read and writes

My problem is that I require the use of the ioctl(), which doesn't use a stream pointer. i.e.

int fd = open("filename",O_RDWR);


share|improve this question
In user-land code, the write() function is automatically non-buffered. You don't need to flush it -- it is self-flushing. Indeed, unless you use special system calls, it is also synchronous with device driver. – Jonathan Leffler Nov 3 '08 at 23:09
If you are writing a kernel-level module, the rules may be somewhat different, but then you should probably be using the file descriptor i/o and not standard (file pointer) i/o. – Jonathan Leffler Nov 3 '08 at 23:10
up vote 22 down vote accepted

You have two choices:

  1. Use fileno() to obtain the file descriptor associated with the stdio stream pointer

  2. Don't use <stdio.h> at all, that way you don't need to worry about flush either - all writes will go to the device immediately, and for character devices the write() call won't even return until the lower-level IO has completed (in theory).

For device-level IO I'd say it's pretty unusual to use stdio. I'd strongly recommend using the lower-level open(), read() and write() functions instead (based on your later reply):

int fd = open("/dev/i2c", O_RDWR);
ioctl(fd, IOCTL_COMMAND, args);
write(fd, buf, length);
share|improve this answer
Avoiding <stdio.h> is what I've been doing; the "Aside" in my original post led me to thinking that the file descriptors might have been buffered. Thanks for confirming that they aren't and that I should be looking for another reason pummelling the I2C bus causes trouble. – Jamie Nov 4 '08 at 14:19
Let's make the terminology clear - a UNIX file descriptor is an integer index and is supposed to be unbuffered so that a call to write/read is immediate. It is supposed to be very efficient for "large" writes and inefficient for single byte writes. fopen gives you buffered I/O. Use open/read/write. – plinth Nov 4 '08 at 14:31

I think what you are looking for may be

int fsync(int fd);


int fdatasync(int fd);

fsync will flush the file from kernel buffer to the disk. fdatasync will also do except for the meta data.

share|improve this answer
The OP stated this is an i2c character device, not a disk. – Alnitak Apr 20 '14 at 22:45
Ok, i2c dev nodes are not page-buffered so it does not need to be flushed/sync'ed. The fops in device driver determine what are actually done. – Danke Xie May 22 '14 at 1:37
Though this is not the solution to the OP's question, it is useful to others asking the main title question. I am writing to a disk via an fd, so it was very helpful to see how to flush the kernel buffers. – Eponymous Aug 12 '15 at 14:27
IMHO this should be the accepted answer. – Rohit Rokde Mar 21 at 10:38

fflush() only flushes the buffering added by the stdio fopen() layer, as managed by the FILE * object. The underlying file itself, as seen by the kernel, is not buffered at this level. This means that writes that bypass the FILE * layer, using fileno() and a raw write(), are also not buffered in a way that fflush() would flush.

As others have pointed out, try not mixing the two. If you need to use "raw" I/O functions such as ioctl(), then open() the file yourself directly, without using fopen<() and friends from stdio.

share|improve this answer

It sounds like what you are looking for is the fsync() function (or fdatasync()?), or you could use the O_SYNC flag in your open() call.

share|improve this answer

If you want to go the other way round (associate FILE* with existing file descriptor), use fdopen() :



       fdopen - associate a stream with a file descriptor


       #include <stdio.h>

       FILE *fdopen(int fildes, const char *mode);
share|improve this answer

Your Answer


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.