14

I'm creating large file with my python script (more than 1GB, actually there's 8 of them). Right after I create them I have to create process that will use those files.

The script looks like:

# This is more complex function, but it basically does this:
def use_file():
    subprocess.call(['C:\\use_file', 'C:\\foo.txt']);


f = open( 'C:\\foo.txt', 'wb')
for i in 10000:
    f.write( one_MB_chunk)
f.flush()
os.fsync( f.fileno())
f.close()

time.sleep(5) # With this line added it just works fine

t = threading.Thread( target=use_file)
t.start()

But application use_file acts like foo.txt is empty. There are some weird things going on:

  • if I execute C:\use_file C:\foo.txt in console (after script finished) I get correct results
  • if I execute manually use_file() in another python console I get correct results
  • C:\foo.txt is visible on disk right after open() was called, but remains size 0B until the end of script
  • if I add time.sleep(5) it just starts working as expected (or rather required)

I've already found:

  • os.fsync() but it doesn't seem to work (result from use_file is as if C:\foo.txt was empty)
  • Using buffering=(1<<20) (when opening file) doesn't seem to work either

I'm more and more curious about this behaviour.

Questions:

  • Does python fork close() operation into background? Where is this documented?
  • How to work this around?
  • Am I missing something?
  • After adding sleep: is that a windows/python bug?

Notes: (for the case that there's something wrong with the other side) application use_data uses:

handle = CreateFile("foo.txt", GENERIC_READ, FILE_SHARE_READ, NULL,
                               OPEN_EXISTING, 0, NULL);
size = GetFileSize(handle, NULL)

And then processes size bytes from foo.txt.

  • I suspect you are missing something, like full paths versus local files, perhaps. – Martijn Pieters Dec 7 '12 at 11:14
  • Why are you naming a file written with "wb" (binary mode) as foo.txt? Confusing. – unwind Dec 7 '12 at 11:17
  • 1
    @unwind source files for those large files are at different encodings and we want to preserve encodings from original files (using bytes seems to work just fine for this purpose). – Vyktor Dec 7 '12 at 11:20
  • 1
    @unwind: In python 3, if you do not want / need to deal with encodings of text files, you open them in binary mode instead. Perfectly valid use of wb there. – Martijn Pieters Dec 7 '12 at 11:22
  • 1
    are you sure there is enough space on the disk? There is a bug in Python 3 that a file stays open after f.close() if implicit call to f.flush() fails. Try to call f.flush() explicitly before f.close(). os.fsync() shouldn't be necessary unless there is a power-fail. – jfs Dec 7 '12 at 11:29
10

f.close() calls f.flush(), which sends the data to the OS. That doesn't necessarily write the data to disk, because the OS buffers it. As you rightly worked out, if you want to force the OS to write it to disk, you need to os.fsync().

Have you considered just piping the data directly into use_file?


EDIT: you say that os.fsync() 'doesn't work'. To clarify, if you do

f = open(...)
# write data to f
f.flush()
os.fsync(f.fileno())
f.close()

import pdb; pdb.set_trace()

and then look at the file on disk, does it have data?

  • Piping data is unfortunately not an option (it's proprietary application that we are using). I'm gonna check now whether those 3 commands are executed when and where they should. Please not that the subprocess.call is executed in new thread (create after calling close). – Vyktor Dec 7 '12 at 11:33
  • By default Windows uses write caching on hard disks, so normally almost no data is immediately written to disc. You can disable this in the Device Manager by double-clicking the hard disk under Disk Drives and then switching to the Policies tab and removing the check-mark next to the setting, – martineau Dec 7 '12 at 13:14
  • Adding sleep(5) (added to my question) fixed the issue. But I'm still looking for more pythonic and correct way to do this. – Vyktor Dec 7 '12 at 13:37
  • 8
    Although flush() doesn't necessarily write the data to the physical disk immediately, it should still be visible to other applications (from the cache) immediately. – Harry Johnston Dec 9 '12 at 23:20
6

Edit: updated with information specific to Python 3.x

There is a super old bug report discussing a suspiciosly similar problem at https://bugs.python.org/issue4944. I made a small test that shows the bug: https://gist.github.com/estyrke/c2f5d88156dcffadbf38

After getting a wonderful explanation from user eryksun at the bug link above, I now understand why this happens, and it is not a bug per se. When a child process is created on Windows, by default it inherits all open file handles from the parent process. So what you're seeing is probably actually a sharing violation because the file you're trying to read in the child process is open for writing through an inherited handle in another child process. A possible sequence of events that causes this (using the reproduction example at the Gist above):

Thread 1 opens file 1 for writing
  Thread 2 opens file 2 for writing
  Thread 2 closes file 2
  Thread 2 launches child 2
  -> Inherits the file handle from file 1, still open with write access
Thread 1 closes file 1
Thread 1 launches child 1
-> Now it can't open file 1, because the handle is still open in child 2
Child 2 exits
-> Last handle to file 1 closed
Child 1 exits

When I compile the simple C child program and run the script on my machine, it fails in at least one of the threads most of the time with Python 2.7.8. With Python 3.2 and 3.3 the test script without redirection does not fail, because the default value of the close_fds argument to subprocess.call is now True when redirection is not used. The other test script using redirection still fails in those versions. In Python 3.4 both tests succeed, because of PEP 446 which makes all file handles non-inheritable by default.

Conclusion

Spawning a child process from a thread in Python means the child inherits all open file handles, even from other threads than the one where the child is spawned. This is, at least for me, not particularly intuitive.

Possible solutions:

  • Upgrade to Python 3.4, where file handles are non-inheritable by default.
  • Pass close_fds=True to subprocess.call to disable inheriting altogether (this is the default in Python 3.x). Note though that this prevents redirection of the child process' standard input/output/error.
  • Make sure all files are closed before spawning new processes.
  • Use os.open to open files with the os.O_NOINHERIT flag on Windows.
    • tempfile.mkstemp also uses this flag.
  • Use the win32api instead. Passing a NULL pointer for the lpSecurityAttributes parameter also prevents inheriting the descriptor:

    from contextlib import contextmanager
    import win32file
    
    @contextmanager
    def winfile(filename):
        try:
            h = win32file.CreateFile(filename, win32file.GENERIC_WRITE, 0, None, win32file.CREATE_ALWAYS, 0, 0)
            yield h
        finally:
            win32file.CloseHandle(h)
    
    with winfile(tempfilename) as infile:
        win32file.WriteFile(infile, data)
    
  • 1
    The OP didn't report a sharing violation. I think perhaps this is a different issue? – Harry Johnston Mar 27 '15 at 23:27
  • @HarryJohnston Hmm, you're right. I think that is simply because the OP simply didn't check his error code (since the symptoms are exactly the same otherwise), but it may be as you say. – Emil Styrke Mar 29 '15 at 16:21
  • @HarryJohnston I rewrote the answer to make this more clear, and to be more clear in general. – Emil Styrke Mar 29 '15 at 16:36
  • What Python version do you use? Do any of the tests fail on your Windows machine? All handles are closed in OPs code (no redirection). – jfs Mar 30 '15 at 5:12
  • @J.F.Sebastian I have used 2.7.8, 2.7.9 (shows issue) and 3.4.1 (doesn't show issue, which is expected given the PEP you linked: default is to make handles non-inheritable since 3.4). None of your tests fail on my machine, but then again, as far as I can see they are unrelated to the explanation I've given in my answer. The OP explicitly says that his actual function is more complex, so I wouldn't trust that there's no redirection involved - Vyktor, can you confirm this? – Emil Styrke Mar 31 '15 at 7:25

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