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I'm writing CGI scripts in Haskell. When the user hits ‘submit’, a Haskell program runs on the server, updating (i.e. reading in, processing, overwriting) a status file. Reading then overwriting sometimes causes issues with lazy IO, as we may be able to generate a large output prefix before we've finished reading the input. Worse, users sometimes bounce on the submit button and two instances of the process run concurrently, fighting over the same file!

What's a good way to implement

transactionalUpdate :: FilePath -> (String -> String) -> IO ()

where the function (‘update’) computes the new file contents from the old file contents? It is not safe to presume that ‘update’ is strict, but it may be presumed that it is total (robustness to partial update functions is a bonus). Transactions may be attempted concurrently, but no transaction should be able to update if the file has been written by anyone else since it was read. It's ok for a transaction to abort in case of competition for file access. We may assume a source of systemwide-unique temporary filenames.

My current attempt writes to a temporary file, then uses a system copy command to overwrite. That seems to deal with the lazy IO problems, but it doesn't strike me as safe from races. Is there a tried and tested formula that we could just bottle?

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A temporary file followed by a rename is the usual way. It works pretty well on most platforms. – augustss Aug 14 '11 at 19:46
I think that's the basis of it, but I might need locking too. Otherwise I get A-reads B-reads A-writes B-writes. I wonder if I can make creative use of write-locks to avoid that. – pigworker Aug 14 '11 at 19:50
@pigworker, what if you rename the file before reading? I think renaming should be atomic on the file-system level. – Rotsor Aug 14 '11 at 21:23
@Rotsor That might indeed be a good way to take a lock. Thanks. – pigworker Aug 14 '11 at 21:31
up vote 6 down vote accepted

The most idiomatic unixy way to do this is with flock:

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Ooh, has someone bottled it already? Looks like that handles the locking, leaving me just the tail-chasing-avoidance problem. That said, using this locking mechanism militates against a renaming-based approach to the latter. – pigworker Aug 15 '11 at 8:49
I think the renaming approach to the latter is fine. Flocks are advisory opt-in locks. Grab a lock on a "file.ext". Then write to "file.ext.out" then rename over "file.ext" and finally release the lock? – sclv Aug 15 '11 at 12:42
Yes, as long as I ensure that there's no competition for the temporary filename while I have the lock on the main file, it should be ok. Thanks. – pigworker Aug 15 '11 at 16:03
Yep -- that sounds just about right. – sclv Aug 15 '11 at 16:19

Here is a rough first cut that relies on the atomicity of the underlying mkdir. It seems to fulfill the specification, but I'm not sure how robust or fast it is:

import Control.DeepSeq
import Control.Exception
import System.Directory
import System.IO

transactionalUpdate :: FilePath -> (String -> String) -> IO ()
transactionalUpdate file upd = bracket acquire release update
    acquire = do
      let lockName = file ++ ".lock"
      createDirectory lockName
      return lockName
    release = removeDirectory
    update _ = nonTransactionalUpdate file upd

nonTransactionalUpdate :: FilePath -> (String -> String) -> IO ()
nonTransactionalUpdate file upd = do
  h <- openFile file ReadMode
  s <- upd `fmap` hGetContents h
  s `deepseq` hClose h
  h <- openFile file WriteMode
  hPutStr h s
  hClose h

I tested this by adding the following main and throwing a threadDelay in the middle of nonTransactionalUpdate:

main = do
  [n] <- getArgs
  transactionalUpdate "foo.txt" ((show n ++ "\n") ++)
  putStrLn $ "successfully updated " ++ show n

Then I compiled and ran a bunch of instances with this script:


rm foo.txt
touch foo.txt
for i in {1..50}
    ./SO $i &

A process that printed a successful update message if and only if the corresponding number was in foo.txt; all the others printed the expected SO: foo.txt.notveryunique: createDirectory: already exists (File exists).

Update: You actually do not want to use unique names here; it must be a consistent name across the competing processes. I've updated the code accordingly.

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After seeing @Rotsor's comment on the original question, I think renaming the original file would work as well; either way, you're getting down to the level where system calls should guarantee atomicity. – acfoltzer Aug 14 '11 at 21:45
At the moment I'm thinking it's rename file to file-in, process file-in to file-out (lazily, no worries!), rename file-out to file. Any way up, it's a good steer to use atomic file system operations for the taking and release of locks. Thanks also for the steer about testing, too. – pigworker Aug 14 '11 at 22:05
No worries; I agree it's a simpler solution, and more robust against things like my original error of suggesting a unique suffix. You should be able to drop it into the acquire and release definitions I wrote above. – acfoltzer Aug 14 '11 at 22:11
It sounds like flocks are the way to go, but thanks for all your help. – pigworker Aug 15 '11 at 16:05

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