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Objective-C makes it very easy to use network sockets with streams doing something like this:

// Setup comms with the server, assumed to be running on the local host
NSHost* host = [NSHost hostWithAddress:@"127.0.0.1"];

NSInputStream *iStream;
NSOutputStream *oStream;

[NSStream getStreamsToHost:host port:_PORT inputStream: &iStream outputStream: &oStream];

However, is it possible to create and or connect to a local domain socket this way, or does Objective-C provide other classes for this?

If I can still use NSStream and getStreamsToHost, how would I specify the file and what would I put for the port number?

My research on this, so far, shows many examples working with TCP/IP or UDP, but not local domain sockets.

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up vote 2 down vote accepted

You can’t use -getStreamsToHost:port:inputStream:outputStream: for a UNIX domain socket, no. You can, however, create your own NSInputStream and NSOutputStream instances; the easiest way is to take advantage of toll-free bridging between CF(Read|Write)Stream and NS(Input|Output)Stream; for instance:

struct sockaddr_un sun;

sun.sun_family = AF_UNIX;
strcpy (sun.sun_path, "/path/to/my/socket");
sun.sun_len = SUN_LEN(&sun);

// Server side (naive)
int server_sock = socket (SOCK_UNIX, SOCK_STREAM, 0);
int ret = bind (server_sock, (struct sockaddr *)&sun, sun.sun_len);

listen (server_sock, 1);               // In practice you'd specify more than 1

s = accept (server_sock, NULL, NULL);  // In practice you want to keep calling this

// Client side
int s = socket (SOCK_UNIX, SOCK_STREAM, 0);

int ret = connect (s, (struct sockaddr *)&sun, sun.sun_len);

CFReadStreamRef readStream;
CFWriteStreamRef writeStream;

CFStreamCreatePairWithSocket (kCFAllocatorDefault, s, &readStream, &writeStream);

Then to get an NSInputStream and NSOutputStream you can just do

NSInputStream *inputStream = (__bridge_transfer NSInputStream *)readStream;
NSOutputStream *outputStream = (__bridge_transfer NSOutputSteram *)outputStream;

Obviously in practice you may want to wrap all of the above in a function or method in your own code. Also, take care with sockaddr_un; the sun_path member was probably supposed to have 1024 characters, but in the headers it seems to only have 104 (this is a long-standing problem and apparently goes way back to BSD4.4; some systems have other character counts here too). This is nowhere near PATH_MAX, so in practice you may wish to write something more like

struct sockaddr_un *new_unix_addr (const char *path) {
  size_t len = strlen (path);
  size_t bytes = sizeof (struct sockaddr_un) + len + 1
                 - sizeof (((struct sockaddr_un *)0)->sun_path);
  struct sockaddr_un *pun = (struct sockaddr_un *)malloc (bytes);

  pun->sun_family = AF_UNIX;
  pun->sun_len = bytes;
  memcpy (pun->sun_path, path, len + 1);
  return pun;
}

remembering later to free() it.

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1  
I am not sure if 1024 accidentally became 104 in the definition of sun_path, it is 104 or 108 on other platforms as well (Linux, Solaris). Compare pubs.opengroup.org/onlinepubs/009604499/basedefs/sys/un.h.html. – Martin R Mar 6 '14 at 10:40
    
@MartinR Looks like it’s a very old accident, then :-) – alastair Mar 6 '14 at 10:43
    
Unix domain sockets probably existed before such long path names were allowed in Unix systems. - I am also not sure if you can simply allocate a larger sockaddr_un (did you try it?). That would require that the kernel can cope with a larger path. The POSIX specification states that "Applications should not assume a particular length for sun_path or assume that it can hold {_POSIX_PATH_MAX} characters (255)." – Martin R Mar 6 '14 at 10:48
    
@MartinR Haven't tried it, but I’d expect if the kernel doesn’t support it that it would fail with an error code, which is better than a buffer overrun. And if it does support it, then it will work. Seems a reasonable choice. – alastair Mar 6 '14 at 10:54
    
Thanks, this all looks good, though I'm having a problem connecting to the created socket. I've previously written a program in Qt, which can create sockets that I can connect to. That socket file has the permissions of sxrwxrw-rw-, but the code you've posted creates the file with srwxr-xr-x permissions. Both sockets are owned by the same user and group. I can't telnet to the socket created by the above code as it states that permission is denied. Any ideas why the permissions are different? Even if I chmod the file to 777, it still fails to allow a connection. – TheDarkKnight Mar 6 '14 at 16:13

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