It is not really a problem.
Yes, another process may modify the file while you have it mapped, and yes, it is possible that you will see the modifications. It is even likely, since almost all operating systems have unified virtual memory systems, so unless one requests unbuffered writes, there's no way of writing without going through the buffer cache, and no way without someone holding a mapping seeing the change.
That isn't even a bad thing. Actually, it would be more disturbing if you couldn't see the changes. Since the file quasi becomes part of your address space when you map it, it makes perfect sense that you see changes to the file.
If you use conventional I/O (such as read
), someone can still modify the file while you are reading it. Worded differently, copying file content to a memory buffer is not always safe in presence of modifications. It is "safe" insofar as read
will not crash, but it does not guarantee that your data is consistent.
Unless you use readv
, you have no guarantees about atomicity whatsoever (and even with readv
you have no guarantee that what you have in memory is consistent with what is on disk or that it doesn't change between two calls to readv
). Someone might modify the file between two read
operations, or even while you are in the middle of it.
This isn't just something that isn't formally guaranteed but "probably still works" -- on the contrary, e.g. under Linux writes are demonstrably not atomic. Not even by accident.
The good news:
Usually, processes don't just open an arbitrary random file and start writing to it. When such a thing happens, it is usually either a well-known file that belongs to the process (e.g. log file), or a file that you explicitly told the process to write to (e.g. saving in a text editor), or the process creates a new file (e.g. compiler creating an object file), or the process merely appends to an existing file (e.g. db journals, and of course, log files). Or, a process might atomically replace a file with another one (or unlink it).
In every case, the whole scary problem boils down to "no issue" because either you are well aware of what will happen (so it's your responsibility), or it works seamlessly without interfering.
If you really don't like the possibility that another process could possibly write to your file while you have it mapped, you can simply omit FILE_SHARE_WRITE
under Windows when you create the file handle. POSIX makes it somewhat more complicated since you need to fcntl
the descriptor for a mandatory lock, which isn't necessary supported or 100% reliable on every system (for example, under Linux).
MAP_PRIVATE
. It doesn't mean give me a private copy it means modifications made by me are private to me. It has all the same concurrency issues as any other method for accessing a fileMAP_PRIVATE
means "give me a private copy"? I actually quoted the part of the spec stating the opposite. It would be nice though if there was an option that actually did ensure that mapped pages aren't changed by other processes once they have been accessed.