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The situation is this.

  1. A large buffer of data (which shall exceed reasonable RAM consumption) is being generated by the program.

  2. The program concurrently serves a websocket which will allow a web client to specify a small subset of this buffer of data to view.

To support the first goal, the file is written to using standard methods (I use portable C-stdio fopen and fwrite because it's been shown to be faster than various "pure C++" methods. Doesn't matter. Data gets appended to file; stdio will buffer the writes and periodically flush them.)

To support the second goal (on BSD, in particular iOS), the file is opened (open from sys/fcntl.h -- not as portable as stdio.h) and memory-mapped (mmap from sys/mman.h -- ditto). By deciding to use memory mapping I have to give up some portability with this code. It seems like Boost is something I could look at to avoid wheel reinvention.

Anyway, my question is about how exactly I'm supposed to do this, because there will be at least two threads: The main program thread appending to the file periodically, and the network (or a worker) thread which responds to web requests and delivers data read out of the memory regions that are mapped to the file on disk.

Supposing the file starts out 1024 bytes in size, mmap is called initially mapping 1024 bytes. As the main thread writes a further 512 bytes into the file, how can the network thread be notified or know anything about the current actual size of the file (so that it can munmap and mmap again with a larger buffer corresponding to the new size)? Furthermore, if I do this naively, I am wary of a situation where the main thread reports that 512 bytes are written, so the other thread now maps 1536 bytes of the file, but not all of the new 512 bytes actually got written to disk yet (OS is still working on writing it, maybe). What happens now? Could there be some garbage that shows up? Will my program crash?

How can I determine when data has been properly flushed? How can I be notified in a timely fashion after the data has been flushed so that I can memory map it?

In particular, is calling fflush the only way to guarantee that the file is now updated w.r.t. the stream, and then can I guarantee (once fflush returns) that the memory map can access the new size without an access violation? What about fsync?

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For what I'm working on at the moment, it is more important not to slow the process down (with extra fflush/fsync), so I am thinking now that perhaps the most suitable method is to open the file anew periodically (read-only of course) to fseek and ftell to check its length. –  Steven Lu Mar 27 '14 at 5:41

1 Answer 1

When you are using POSIX API directly in the form of mmap, you should also be using it directly for the writing. POSIX and LibC interfaces just don't play well together.

write is a system call which transfers the data directly to kernel. It would be slow for writing byte-by-byte, but for writing large buffers it is tiny fraction faster because it has less overhead (fwrite ends up calling write under the hood anyway). And it is definitely more efficient that fwrite+fflush, because those may end up being two or more calls to write and if you do direct write, it is just one.

The documentation of mmap is not very clear about it, but it seems you must not request more bytes than the file actually has.

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So how then can I append to a file? I was pretty sure you can't use mmap to append to a file (make it bigger than it already is). But I would love to be proven wrong about that. There's nothing that makes it so I can't also use mmap to do the appending, it's just that I don't think there's a way to do it. And it just seems like you're telling me to "just use write"... which... probably could work too but I just figured it would be a lot more complicated than using the c std lib. –  Steven Lu Mar 27 '14 at 14:55
Ah, sorry. You are simply saying use write since that's also POSIX API. –  Steven Lu Mar 27 '14 at 15:01
@StevenLu: Yes, I am simply saying that it will be easier when you use POSIX API, write, for writing as well, because it is lower level and so the interaction with mmap will be more obvious.. mmap can't be used for appending; if I read the documentation right (which I am not completely sure) it will fail if you try passing bigger len than the current size of the file. –  Jan Hudec Mar 27 '14 at 15:21
Well I still don't know if this answers the fundamental question of how can I synchronize my concurrent memory-mapped reads so as to ensure I don't seg-fault... How do I know that once I call write that my subsequent access (via mmapped memory from a different thread, no less) to that data (that has just been passed over to the kernel) will not be an access violation? –  Steven Lu Mar 27 '14 at 18:19
It is because of this uncertainty (and a similar uncertainties if I just pick some size to back off from) that I think I'll just resort to independently opening and checking the length of the file using the cstdio method, and do this periodically from the thread that calls mmap. That should guarantee that I never attempt to read past the boundary. –  Steven Lu Mar 27 '14 at 18:24

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