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I'm using a library where they used paths to define input and output files where data gets read from/written to.

App1 writes the input file, App2 reads that input file and creates an output file. Then, App1 reads the output and everyone is happy.

Now, we get the requirement that for the communication between App1 and App2, no files shall be created anymore. Therefore, App1 shall pass a buffer to App2 (a simple char*) along with a pre-allocated output buffer where App2 shall write the results to.

Unfortunately, throughout the library that is used in App2, a FILE* is used to read from/write to.

So, here's the question: can I achieve – it without rewriting the library used by App2 – (or with minor changes) that I can use the buffers passed from App1 to App2 for information exchange? IMHO this would require that I could create a FILE* from a buffer without having that FILE* on the disk.

I read that for .NET I could use the System.IO.StringReader class, but since I'm using plain C++ and no .NET, I cannot use that stuff.


Extra Bonus:
The caller (i.e. App1) is managed code (C# application), the callee (i.e. App2) is a plain C++ DLL (i.e. App1 calls a function in that DLL).


Edit:
I'd favor answers where the data exchange could happen synchronously in a way that the caller passes buffers to the callee, the callee reads from the input buffer and writes to the output buffer, then the callee terminates and the caller could read the content of the buffers.

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1  
For the last part, just create a thread in the caller that deals with the callee. –  MSalters Aug 2 '11 at 8:22
    
@MSalters: hm. this would be the consequence. tried to avoid this... –  eckes Aug 2 '11 at 8:58

1 Answer 1

up vote 3 down vote accepted

For IPC you can use pipes, it is easy to make FILE* from winapi HANDLE created for pipe.

This code will show how:

HANDLE read_hnd;
HANDLE write_hnd;
//make sa (SECURITY_ATTRIBUTES)
if(!CreatePipe(&read_hnd, &write_hnd, &sa, NULL))
{
//error
}
int fd = _open_osfhandle((intptr_t)read_hnd, _O_RDONLY|_O_TEXT);
FILE *pipe_read_file = _fdopen(fd, "rt");

For IPC you should use named pipes, but idea the same.

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See edited question: is communication over pipes also possible between managed and unmanaged code? –  eckes Aug 1 '11 at 13:07
    
@eckes See edited answer, you can create FILE* which really points to pipe. –  Mihran Hovsepyan Aug 1 '11 at 13:11
    
I think, pipes are not the right measure. In order to get the efforts minimal, the data exchange should happen synchronously. But for pipes, there seem to be waiting points where one side waits for the other. Could you expand your answer by that case (i.e. is it possible for the caller to store a message for the callee in a named pipe)? See updated question for that. –  eckes Aug 1 '11 at 14:01
    
Yes @eckes you can do what you want via named pipes: 1. Create named pipe and let App1 writes to the pipe and App2 reads to from pipe (the operation can be even asincroniously). 2. App2 will create named pipe and write to it, and App1 will read from this file (seperate thread should be used for this operation in both apps) –  Mihran Hovsepyan Aug 1 '11 at 18:49
    
You may need to be aware of the pipe's internal buffer size, though: if App1 attempts to write more than the buffer size to the pipe, the write will block until App2 reads from the pipe enough that there is space for App1 to write again. (If you do need to manage a large amount of data, one workaround might be to use an intermediate thread, C, where App1 writes via pipe to C, which stores the data in memory that you allocate and grow as needed, and then writes that to another pipe for App2 to read.) –  BrendanMcK Aug 1 '11 at 21:18

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