I spent hours to dig the behavior, first about those questions:
- Atomicity of `write(2)` to a local filesystem
- How can I synchronize -- make atomic -- writes on one file from from two processes?
- How does one programmatically determine if "write" system call is atomic on a particular file?
- What happens if a write system call is called on same file by 2 different processes simultaneously
It seems if we use 'O_APPEND' flag when opening file, it will always be ok to logging to same file from multiple processes, on linux. And i believe python surely use 'O_APPEND' flag in its logging module.
And from a small test:
#!/bin/env python import os import logging logger = logging.getLogger('spam_application') logger.setLevel(logging.DEBUG) # create file handler which logs even debug messages fh = logging.FileHandler('spam.log') logger.addHandler(fh) formatter = logging.Formatter( '%(asctime)s - %(name)s - %(levelname)s - %(message)s') fh.setFormatter(formatter) for i in xrange(10000): p = os.getpid() logger.debug('Log line number %s in %s', i, p)
And i run it with:
./test.py & ./test.py & ./test.py & ./test.py &
I found there were nothing wrong in spam.log. This behavior may support the conclusion above.
But problems comming:
At last, if two process are doing write on one same file, i mean they are invoking write(2) on the same file, who make sure the data from the two processes not interleave(kernel or filesystem?), and how.[NOTE: i just want to see in deep about the write syscall, any hit about this is welcome.]
One more test, feed 8KB strings to logging.debug each time. And this time i can see the "interleaving" behavior in spam.log. This behavior is just what specified about PIPE_BUF in one page above. So it seems the behavior is clear on linux, using O_APPEND is ok if the size to write(2) is less then PIPE_BUF.