class UNIXServer
UNIXServer
represents a UNIX domain stream server socket.
Public Class Methods
Creates a new UNIX server socket bound to path.
require 'socket' serv = UNIXServer.new("/tmp/sock") s = serv.accept p s.read
static VALUE unix_svr_init(VALUE sock, VALUE path) { return rsock_init_unixsock(sock, path, 1); }
Public Instance Methods
Accepts an incoming connection. It returns a new UNIXSocket
object.
UNIXServer.open("/tmp/sock") {|serv| UNIXSocket.open("/tmp/sock") {|c| s = serv.accept s.puts "hi" s.close p c.read #=> "hi\n" } }
static VALUE unix_accept(VALUE server) { struct sockaddr_un buffer; socklen_t length = sizeof(buffer); return rsock_s_accept(rb_cUNIXSocket, server, (struct sockaddr*)&buffer, &length); }
Accepts an incoming connection using accept(2) after O_NONBLOCK is set for the underlying file descriptor. It returns an accepted UNIXSocket
for the incoming connection.
Example¶ ↑
require 'socket' serv = UNIXServer.new("/tmp/sock") begin # emulate blocking accept sock = serv.accept_nonblock rescue IO::WaitReadable, Errno::EINTR IO.select([serv]) retry end # sock is an accepted socket.
Refer to Socket#accept
for the exceptions that may be thrown if the call to UNIXServer#accept_nonblock
fails.
UNIXServer#accept_nonblock
may raise any error corresponding to accept(2) failure, including Errno::EWOULDBLOCK.
If the exception is Errno::EWOULDBLOCK, Errno::EAGAIN, Errno::ECONNABORTED or Errno::EPROTO, it is extended by IO::WaitReadable. So IO::WaitReadable can be used to rescue the exceptions for retrying accept_nonblock.
By specifying a keyword argument exception to false
, you can indicate that accept_nonblock
should not raise an IO::WaitReadable exception, but return the symbol :wait_readable
instead.
See¶ ↑
# File socket/lib/socket.rb, line 1790 def accept_nonblock(exception: true) __accept_nonblock(exception) end
Listens for connections, using the specified int
as the backlog. A call to listen only applies if the socket
is of type SOCK_STREAM or SOCK_SEQPACKET.
Parameter¶ ↑
-
backlog
- the maximum length of the queue for pending connections.
Example 1¶ ↑
require 'socket' include Socket::Constants socket = Socket.new( AF_INET, SOCK_STREAM, 0 ) sockaddr = Socket.pack_sockaddr_in( 2200, 'localhost' ) socket.bind( sockaddr ) socket.listen( 5 )
Example 2 (listening on an arbitrary port, unix-based systems only):¶ ↑
require 'socket' include Socket::Constants socket = Socket.new( AF_INET, SOCK_STREAM, 0 ) socket.listen( 1 )
Unix-based Exceptions¶ ↑
On unix based systems the above will work because a new sockaddr
struct is created on the address ADDR_ANY, for an arbitrary port number as handed off by the kernel. It will not work on Windows, because Windows requires that the socket
is bound by calling bind before it can listen.
If the backlog amount exceeds the implementation-dependent maximum queue length, the implementation’s maximum queue length will be used.
On unix-based based systems the following system exceptions may be raised if the call to listen fails:
-
Errno::EBADF - the socket argument is not a valid file descriptor
-
Errno::EDESTADDRREQ - the socket is not bound to a local address, and the protocol does not support listening on an unbound socket
-
Errno::EINVAL - the socket is already connected
-
Errno::ENOTSOCK - the socket argument does not refer to a socket
-
Errno::EOPNOTSUPP - the socket protocol does not support listen
-
Errno::EACCES - the calling process does not have appropriate privileges
-
Errno::EINVAL - the socket has been shut down
-
Errno::ENOBUFS - insufficient resources are available in the system to complete the call
Windows Exceptions¶ ↑
On Windows systems the following system exceptions may be raised if the call to listen fails:
-
Errno::ENETDOWN - the network is down
-
Errno::EADDRINUSE - the socket’s local address is already in use. This usually occurs during the execution of bind but could be delayed if the call to bind was to a partially wildcard address (involving ADDR_ANY) and if a specific address needs to be committed at the time of the call to listen
-
Errno::EINPROGRESS - a Windows Sockets 1.1 call is in progress or the service provider is still processing a callback function
-
Errno::EINVAL - the
socket
has not been bound with a call to bind. -
Errno::EISCONN - the
socket
is already connected -
Errno::EMFILE - no more socket descriptors are available
-
Errno::ENOBUFS - no buffer space is available
-
Errno::ENOTSOC -
socket
is not a socket -
Errno::EOPNOTSUPP - the referenced
socket
is not a type that supports the listen method
See¶ ↑
-
listen manual pages on unix-based systems
-
listen function in Microsoft’s Winsock functions reference
VALUE rsock_sock_listen(VALUE sock, VALUE log) { rb_io_t *fptr; int backlog; backlog = NUM2INT(log); GetOpenFile(sock, fptr); if (listen(fptr->fd, backlog) < 0) rb_sys_fail("listen(2)"); return INT2FIX(0); }
Accepts a new connection. It returns the new file descriptor which is an integer.
UNIXServer.open("/tmp/sock") {|serv| UNIXSocket.open("/tmp/sock") {|c| fd = serv.sysaccept s = IO.new(fd) s.puts "hi" s.close p c.read #=> "hi\n" } }
static VALUE unix_sysaccept(VALUE server) { struct sockaddr_un buffer; socklen_t length = sizeof(buffer); return rsock_s_accept(0, server, (struct sockaddr*)&buffer, &length); }