Stop thinking about "messages". The pipe accepts a sequence of bytes, and your application is entirely responsible for assigning any structure to the sequence. Each byte written to the pipe can be read exactly once, and not multiple times. If each write to the pipe is a fixed size and smaller than a system specified amount, then the write will be atomic and the data will not be "corrupted" (interleaved with other writes) during the write. However, if any of the readers are reading blocks of a different size, then data may be interleaved on the read end. (eg, a writer writes 64 bytes as one "message", but a reader reads 60 bytes from the pipe. The reader expecting a 64 byte sequence will then get 4 bytes from the tail of one and 60 from the start of another, and your data may appear "corrupted"). It is very easy to get "corrupted" data in a multi-threaded environment. It is possible to ensure that none of the writes are interleaved, but it can be difficult to get it right. Keep the messages small and of a fixed size, and make sure the are written with a single
write system call (eg, do not use fprintf on a FILE* with the pipe as the underlying file descriptor.)
Note that I'm using the word "corrupted" in quotes throughout, because I believe you really mean interleaved. The byte sequence that you write will not be corrupt from the system's perspective. You may not get back what you expect, but that is not corruption of the data. Rather, it is a programming error.