This module provides an API for the socket interface. It is used to create, delete and manipulate sockets, send and receive data.
The idea is that it shall be as "close as possible" to the OS
level socket interface. The only significant addition is that some of
the functions,
e.g.
There is currently no support for Windows.
Support for IPv6 has been implemented but not tested.
SCTP has only been partly implemented (and not tested).
As returned by
Accept a connection on a socket.
This call is used with connection-based socket types
(
Bind a name to a socket.
When a socket is created
(with
The rules used for name binding vary between domains.
Closes the socket.
Note that for e.g.
One way to handle this is to use the
This function connects the socket to the address
specied by the
Get an option on a socket.
What properties are valid depend both on
See the
Not all options are valid on all platforms. That is, even if "we" support an option, that does not mean that the underlying OS does.
Get an option on a socket.
What properties are valid depend both on
When specifying
See the
Not all options are valid on all platforms. That is, even if "we" support an option, that does not mean that the underlying OS does.
Listen for connections on a socket.
Creates an endpoint (socket) for communication.
For some
The
Returns the address of the peer connected to the socket.
Receive a message from a socket.
There is a special case for the argument
Receive a message from a socket.
This function reads "messages", which means that regardless of how much we want to read, it returns when we get a message.
The
It may be impossible to know what (buffer) size is appropriate "in advance", and in those cases it may be convenient to use the (recv) 'peek' flag. When this flag is provided, the message is *not* "consumed" from the underlying buffers, so another recvfrom call is needed, possibly with a then adjusted buffer size.
Receive a message from a socket.
This function reads "messages", which means that regardless of how much we want to read, it returns when we get a message.
The message will be delivered in the form of a
The
The
It may be impossible to know what (buffer) size is appropriate "in advance", and in those cases it may be convenient to use the (recv) 'peek' flag. When this flag is provided, the message is *not* "consumed" from the underlying buffers, so another recvmsg call is needed, possibly with a then adjusted buffer size.
Send a message on a connected socket.
Send a message on a socket. The destination, if needed
(socket not connected) is provided in the
Unlike the
Send a message on a socket, to the specified destination.
Set options on a socket.
What properties are valid depend both on
See the
Not all options are valid on all platforms. That is, even if "we" support an option, that does not mean that the underlying OS does.
Sockets are set 'non-blocking' when created, so this option is *not* available (as it would adversely effect the Erlang VM to set a socket 'blocking').
Set options on a socket.
What properties are valid depend both on
See the
Not all options are valid on all platforms. That is, even if "we" support an option, that does not mean that the underlying OS does.
Sockets are set 'non-blocking' when created, so this option is *not* available (as it would adversely effect the Erlang VM to set a socket 'blocking').
Shut down all or part of a full-duplex connection.
Returns the current address to which the socket is bound.
This function intends to retreive information about what the platform supports. Such as if SCTP is supported. Or which socket options are supported.
client(Addr, SAddr, SPort) ->
{ok, Sock} = socket:open(inet, stream, tcp),
{ok, _} = socket:bind(Sock, #{family => inet,
addr => Addr}),
ok = socket:connect(Sock, #{family => inet,
addr => SAddr,
port => SPort}),
Msg = list_to_binary("hello"),
ok = socket:send(Sock, Msg),
ok = socket:shutdown(Sock, write),
{ok, Msg} = socket:recv(Sock),
ok = socket:close(Sock).
server(Addr, Port) ->
{ok, LSock} = socket:open(inet, stream, tcp),
{ok, _} = socket:bind(LSock, #{family => inet,
port => Port,
addr => Addr}),
ok = socket:listen(LSock),
{ok, Sock} = socket:accept(LSock),
{ok, Msg} = socket:recv(Sock),
ok = socket:send(Sock, Msg),
ok = socket:shutdown(Sock, write),
ok = socket:close(Sock),
ok = socket:close(LSock).