Difference between UNIX domain STREAM and DATAGRAM sockets?
Solution 1:
Just as the manual page says Unix sockets are always reliable. The difference between SOCK_STREAM
and SOCK_DGRAM
is in the semantics of consuming data out of the socket.
Stream socket allows for reading arbitrary number of bytes, but still preserving byte sequence. In other words, a sender might write 4K of data to the socket, and the receiver can consume that data byte by byte. The other way around is true too - sender can write several small messages to the socket that the receiver can consume in one read. Stream socket does not preserve message boundaries.
Datagram socket, on the other hand, does preserve these boundaries - one write by the sender always corresponds to one read by the receiver (even if receiver's buffer given to read(2)
or recv(2)
is smaller then that message).
So if your application protocol has small messages with known upper bound on message size you are better off with SOCK_DGRAM
since that's easier to manage.
If your protocol calls for arbitrary long message payloads, or is just an unstructured stream (like raw audio or something), then pick SOCK_STREAM
and do the required buffering.
Performance should be the same since both types just go through local in-kernel memory, just the buffer management is different.
Solution 2:
The main difference is that one is connection based (STREAM
) and the other is connection-less (DGRAM
) - the difference between stream and packet oriented communication is usually much less important.
With SOCK_STREAM
you still get all the connection handling, i.e. listen
/accept
and you can tell if a connection is closed by the other side.
Note that there is also a SEQPACKET
socket type that's still connection oriented, but preserves message boundaries (which might save you from implementing a message-oriented layer on top of a STREAM
socket).
I would expect data transfer performance to be similar for all of these types, the main difference is just what semantics you want.
Solution 3:
One likely difference are message boundaries. Datagrams will be delivered as a whole with the datagrams being the natural message boundaries. With stream sockets you can read N bytes and the socket will block until N bytes are ready. But this means no obvious message boundaries.
All things being equal, if speed is a concern, instrument and measure. (I assume you already know that only a stream socket provides built-in reliable in-order transport, and only datagram sockets can be used to send to multiple receivers).