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In windows-based OS, assuming there are several different processes that may read and/or write a file freqently by using fopen/fopen_s/fwrite etc, in such case, do I need to consider data-races, or the OS can handle this automatically to ensure the file can only be opened/updated by a single process here at any given time whilst the rest fopen attemp will fail? And what about linux-based OS on this matter?

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btw i recommend using OS api rather than standard c or c++ libraries in such case because standard c and c++ (not including c++11) are multi-processing or multi-threading agnostic. – Hayri Uğur Koltuk Feb 14 '13 at 12:23
    
@AliVeli That's not totally true: the ios_base::app and the "a" options are intended to be atomic where possible, so having multiple processes appending to the same file should work. Anything more, however, and I'd agree---the system level calls are more appropriate. (In particular, if you need locking, this is only possible with the system level calls.) – James Kanze Feb 14 '13 at 12:30
up vote 1 down vote accepted

In Windows it depends on how you open the file.

see some possible values for uStyle parameter in case of OpenFile and dwShareMode in case of CreateFile.

Please note that OpenFile is kind of deprecated though so better use CreateFile.

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Thats very useful, thanks. – user0002128 Feb 14 '13 at 12:19
    
If he's using iostream or the FILE* functions, he doesn't have any choice with regards to the dwShareMode argument. From a QoI point of view, I would expect FILE_SHARE_READ and FILE_SHARE_WRITE (but my point of view may be influenced by my Unix background, where you don't have this argument, and the open works as if all of the FILE_SHARE_... options were set). – James Kanze Feb 14 '13 at 12:23
    
@James Kanze well true, I haven't taken into consideration that he/she wants to use iostream or cstdio functions. Then I commented on that under the original question. – Hayri Uğur Koltuk Feb 14 '13 at 12:25
    
@AliVeli Unless he's doing something simple (like always appending when writing), it's probably that the system level functions are more appropriate. (But I thought that OpenFile was deprecated, and that one should always use CreateFile in new code.) – James Kanze Feb 14 '13 at 12:28
    
MSDN states the following regarding OpenFile: Note This function has limited capabilities and is not recommended. For new application development, use the CreateFile function. So, indeed it is. – Hayri Uğur Koltuk Feb 14 '13 at 12:41

You will have to take care to not open the same file from multiple threads simultaneously - as it's entirely possible to open the file multiple times, and the OS may or may not do what you expect, depending on the mode you are opening the file in - e.g. if you create a new file it will definitely create two different files (one of which will disappear when it gets closed, because it was deleted by the other thread, great, eh?). The rules are pretty complex, and the worst part is that if you don't take extra care, you'll get "mixed up output to the same file" - so lines or even parts of lines get mixed from the two threads.

Even if the OS stops you from opening the same file twice, you will still have to deal with the consequences of "FILE * came back as NULL". What do you do then? Go back and try again, or fail, or?

I'm not sure I can make a good suggestion as to HOW to solve this problem, since you haven't described very well what you are doing to these files. There are a few different things that come to mind:

  1. Keep a "register" of file-names, and a mutex for each file that has to be held to be able to open the file.
  2. Use a single "file-thread" to read/write data on files, and just queue "I want to write this stuff to file aa.txt", and let the worker write as it goes along.
  3. Use lower level file system calls, and use "exclusive" access to the files, with some sort of "backoff" behaviour in case of collision.

I'm sure there are dozens of other ways to solve the problem - it really depends on what you are trying to do.

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What I want to do at the moment is the following: (1) process #1(not thread) is responsible for the updating of the data (2) process #2 will ONLY read the data updating by process #1, however I need to ensure process #2 will only use completely updated data to avoid any mixed-up between old and new data, I think at least for windows, I dont need to do anything to avoid data race in this case? – user0002128 Feb 14 '13 at 12:17
    
"if you create a new file it will definitely create two different files" -- that's impossible with fopen, and the whole "deleted in other thread" scenario is impossible on Windows. Perhaps not the reason to downvote the entire answer because the matter is indeed complex and some of your solutions make sense, but... – Anton Kovalenko Feb 14 '13 at 12:18
    
in this case you have to implement a consumer-producer solution to notify the reading process that it can read data. You can use events of windows, for example. (CreateEvent, SetEvent, etc...) – Hayri Uğur Koltuk Feb 14 '13 at 12:19
    
@user0002128 That's true for a system level WriteFile; it's not necessarily true for fwrite or ostream::write. It will be true if 1) you ensure that the stream has a buffer that is large enough for any single write, and you flush after each write. – James Kanze Feb 14 '13 at 12:33
    
@James Kanze: Yes, now I know its better and simplier to let OS API handling this. – user0002128 Feb 14 '13 at 12:37

Maybe. If you're talking about different processes (and not threads), the conventional data race conditions which apply to threads don't apply. However (and there is no difference between Unix and Windows here):

  • Any single write/WriteFile operation will be atomic. (I'm not 100% sure concerning Windows, but I can't imagine it otherwise.) However, if you're using iostream or the older FILE* functions, you don't have direct control of when those operations take place. Normally, they will only occur when the stream's buffer is full. You'll want to ensure that the buffer is big enough, and explicitly flush after each output. (If you're outputting lines of a reasonable length, say 80 characters at the most, it's a safe bet that the buffer will hold a complete line. In this case, just use std::endl to terminate the lines in iostreams; for the C style functions, you'll have to call setvbuf( stream, NULL, _IOLBF, 0 ) before the first output.

  • Each open file in the process has its own idea of where to write in the file, and its own idea of where the end of file is. If you want all writes to go to the end of file, you'll need to open it with std::ios_base::app in C++, or "a" in C. Just std::ios_base::out/"w" is not enough. (Also, of course, with just std::ios_base::out or "w", the file will be truncated when it is opened. Having several different processes truncating the file could result in loss of data.)

  • When reading a file that other processes are writing to: when you reach end of file, the stream or FILE goes into an error state, and will not try to read further, even if other processes are appending data. In C, clearerr should (I think) undo this, but it's not clear what happens next; in C++, clearing the error in the stream doesn't necessarily mean that further reads will not immediately encounter end of file either. In both cases, the safest bet is to memorize where you were before each read, and if the read fails, close the file, then later reopen it, seek to where you were, and start reading from there.

  • Random access, writing other than at the end of file, will also work, as long as all writes are atomic (see above); you should always get a consistent state. If what you write depends on what you have read, however, and other processes are doing something similar, you'll need file locking, which isn't available at the iostream/FILE* level.

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Does windows really guarantee that writes are atomic? – Mats Petersson Feb 14 '13 at 13:29
    
@MatsPetersson Hopefully. I've never really been able to figure out what Windows guarantees, and what it doesn't. But normally, system calls should be atomic. (Although typically, even under Unix, there's a maximum size beyond which the write is no longer guaranteed to be atomic.) – James Kanze Feb 14 '13 at 14:13
    
@MatsPetersson I've checked it. Windows guarantees atomicity if the size of the write is less than the size of a disk sector. (Older Unix guaranteed it up to about 4K. Curiously enough, I can't find any guarantee in Posix except when the file descriptor is a pipe.) – James Kanze Feb 14 '13 at 14:37

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