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I'd like to write a pair of programs where one program reads data and transfers it into an internal format and the other program transfers the internal format into something else. As an excercise, I want to code the interaction between these programs without the use of pipes. I rather like to use signals and shared memory.

What I want

I have programs A and B where A calls B. How can I

  1. Create a memory block from program A
  2. Call program B from program A, giving it the information about where to find the memory block
  3. Use the memory block from both programs.

More specific, A decodes a custom video format and places a single uncompressed frame into a shared buffer. B reads from the buffer and encodes it into an output strean. The decoder decodes up to 100 frames per second which is about 500 MiB/s memory traffic. Pipes turned out to be slow since the data has to be copyied much too often and the buffers aren't exactly big.

What I think might work

My idea is to use mmap(NULL,len,PROT_READ|PROT_WRITE,MAP_SHARED|MAP_ANONYMOUS,-1,0) to create a section of shared memory. The problem is, that the manpage of execve(2) states:

Memory mappings are not preserved (mmap(2)).

So, how can I share that memory with the other program? Is it a better idea to put both functionality into one program and use fork instead?

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You should go ahead with this as a learning exercise, but please be aware that making things work with shared state, in particular shared memory, is too difficult and should be avoided even at large costs. Chances are that the memory sharing will be more expensive anyway. As a friendly warning :) –  Magnus Hoff Sep 15 '12 at 17:07
@Magnus And how do you think should it be done? The shared state are two buffers for uncompressed pixel data. One process decodes images, the other encodes. Using a pipe proved to completely kill parallelity since a buffer of 512 bytes is just too small. –  FUZxxl Sep 15 '12 at 17:10
This is fine as an exercise, but shared memory is usually a very bad idea. You might look at higher-level IPC like sockets or named pipes or zero-MQ. –  singpolyma Sep 15 '12 at 17:37
It's not crazy for huge data. For example, SkypeKit uses shared memory for video transport since it affords high throughput without the overhead of other IPC mechanisms. –  nneonneo Sep 15 '12 at 17:44
@nneonneo I added a paragraph on the size of the data. –  FUZxxl Sep 15 '12 at 17:56

1 Answer 1

up vote 4 down vote accepted

*nix systems have several APIs for shared memory:

  • BSD: use mmap(). To share memory between unrelated processes, you associate it to a file. You can also share memory between related processes using MAP_ANONYMOUS and fork()ing (but make sure to use -1 as fd for portability).
  • System V: (some people really dislike this one) use shmget() to create/get a reference to a shared memory area, attach to it via shmat(), detach via shmdt(), mark for deletion with shmctl(). You identify shared memory areas by a key, which should be unique.
  • POSIX: use shm_open() then mmap() from the returned file descriptor.
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File-backed mmap() for shared memory is not just for BSDs, it is POSIX too. Using a MAP_SHARED mapping, the shared object is in RAM, with pages only flushed to disk if msync() is called, or if there is a lot of memory pressure and the mapping has pages not accessed recently. Personally, I find mmap(..,MAP_SHARED,..) on a file the best option, especially with large amounts of data. –  Nominal Animal Oct 1 '12 at 14:59

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