In my application, there is one process which writes data to a file, and then, in response to receiving a request, will send (some) of that data via the network to the requesting process. The basis of this question is to see if we can speed up communication when both processes happen to be on the same host. (In my case, the processes are Java, but I think this discussion can apply more broadly.)
There are a few projects out there which use the MappedByteBuffers returned by Java's FileChannel.map() as a way to have shared memory IPC between JVMs on the same host (see Chronicle Queue, Aeron IPC, etc.).
One approach to speeding up same-host communication would be to have my application use one of those technologies to provide the request-response pathway for same-host communication, either in conjunction with the existing mechanism for writing to the data file, or by providing a unified means of both communication and writing to the file.
Another approach would be to allow the requesting process to have direct access to the data file.
I tend to favor the second approach - assuming it would be correct - as it would be easier to implement, and seems more efficient than copying/transmitting a copy of the data for each request (assuming we didn't replace the existing mechanism for writing to the file).
Essentially, I'd like to understanding what exactly occurs when two processes have access to the same file, and use it to communicate, specifically Java (1.8) and Linux (3.10).
From my understanding, it seems like if two processes have the same file open at the same time, the "communication" between them will essentially be via "shared memory".
Note that this question is not concerned with the performance implication of using a MappedByteBuffer or not - it seem highly likely that a using mapped buffers, and the reduction in copying and system calls, will reduce overhead compared to reading and writing the file, but that might require significant changes to the application.
Here is my understanding:
- When Linux loads a file from disk, it copies the contents of that file to pages in memory. That region of memory is called the page cache. As far as I can tell, it does this regardless of which Java method (FileInputStream.read(), RandomAccessFile.read(), FileChannel.read(), FileChannel.map()) or native method is used to read the file (obseved with "free" and monitoring the "cache" value).
- If another process attempts to load the same file (while it is still resident in the cache) the kernel detects this and doesn't need to reload the file. If the page cache gets full, pages will get evicted - dirty ones being written back out to the disk. (Pages also get written back out if there is an explicit flush to disk, and periodically, with a kernel thread).
- Having a (large) file already in the cache is a significant performance boost, much more so than the differences based on which Java methods we use to open/read that file.
- If a file is loaded using the mmap system call (C) or via FileChannel.map() (Java), essentially the file's pages (in the cache) are loaded directly into the process' address space. Using other methods to open a file, the file is loaded into pages not in the process' address space, and then the various methods to read/write that file copy some bytes from/to those pages into a buffer in the process' address space. There is an obvious performance benefit avoiding that copy, but my question isn't concerned with performance.
So in summary, if I understand correctly - while mapping offer a performance advantage, it doesn't seem like it offers any "shared memory" functionality that we don't already get just from the nature of the Linux and the page cache.
So, please let me know where my understanding is off.