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socket.pmc
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socket.pmc
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/*
Copyright (C) 2008-2011, Parrot Foundation.
=head1 NAME
src/pmc/socket.pmc - Socket PMC
=head1 DESCRIPTION
The Socket PMC performs network I/O operations.
=head2 Vtable Functions
=over 4
=cut
*/
#include "../src/io/io_private.h"
#include "pmc/pmc_sockaddr.h"
#define CHUNK_SIZE 2048
/* HEADERIZER HFILE: none */
/* HEADERIZER BEGIN: static */
/* HEADERIZER END: static */
pmclass Socket extends Handle provides socket auto_attrs {
ATTR PMC *local; /* Local addr */
ATTR PMC *remote; /* Remote addr */
ATTR INTVAL family;
ATTR INTVAL type;
ATTR INTVAL protocol;
ATTR STRING *buf;
/*
=item C<void init()>
Initializes a newly created Socket object.
=cut
*/
VTABLE void init() {
Parrot_Socket_attributes * const data_struct =
(Parrot_Socket_attributes *) PMC_data(SELF);
data_struct->local = PMCNULL;
data_struct->remote = PMCNULL;
data_struct->buf = STRINGNULL;
Parrot_io_socket_initialize_handle(INTERP, SELF);
PObj_custom_mark_destroy_SETALL(SELF);
}
/*
=item C<PMC *clone()>
Create a copy of the socket handle.
=cut
*/
VTABLE PMC *clone() {
PMC * const copy = Parrot_pmc_new(interp, SELF->vtable->base_type);
const Parrot_Socket_attributes * const old_struct = PARROT_SOCKET(SELF);
Parrot_Socket_attributes * const data_struct = PARROT_SOCKET(copy);
if (!PMC_IS_NULL(old_struct->local))
data_struct->local = VTABLE_clone(INTERP, old_struct->local);
if (!PMC_IS_NULL(old_struct->remote))
data_struct->remote = VTABLE_clone(INTERP, old_struct->remote);
return copy;
}
/*
=item C<void mark()>
Mark active socket handle data as live.
=cut
*/
VTABLE void mark() {
Parrot_Socket_attributes * const data = PARROT_SOCKET(SELF);
if (data) {
Parrot_gc_mark_PMC_alive(INTERP, data->local);
Parrot_gc_mark_PMC_alive(INTERP, data->remote);
Parrot_gc_mark_STRING_alive(INTERP, data->buf);
}
}
/*
=item C<void destroy()>
Free structures.
=cut
*/
VTABLE void destroy() {
if (PARROT_SOCKET(SELF)) {
Parrot_Socket_attributes * const data_struct = PARROT_SOCKET(SELF);
if (data_struct->os_handle != PIO_INVALID_HANDLE)
Parrot_io_close_socket(INTERP, data_struct->os_handle);
data_struct->os_handle = PIO_INVALID_HANDLE;
}
}
/*
=item C<INTVAL get_bool()>
Returns whether the Socket is currently open.
=cut
*/
VTABLE INTVAL get_bool() {
return !Parrot_io_socket_is_closed(INTERP, SELF);
}
/*
=back
=head2 Methods
=over 4
=item C<socket(INTVAL fam, INTVAL type, INTVAL proto)>
=cut
*/
METHOD socket(INTVAL fam, INTVAL type, INTVAL proto) {
if (Parrot_io_socket_handle(INTERP, SELF, fam, type, proto) < 0)
RETURN(PMC * PMCNULL);
RETURN(PMC * SELF);
}
/*
=item C<poll(INTVAL which, INTVAL sec, INTVAL usec)>
Watches the socket for C<sec> seconds and C<usec> milliseconds. C<which>
is a bitmask representing the states you want to watch for. Or together 1
for readable, two for writeable, and four for exceptions.
=cut
*/
METHOD poll(INTVAL which, INTVAL sec, INTVAL usec) {
const INTVAL poll = Parrot_io_poll_handle(INTERP, SELF, which, sec, usec);
RETURN(INTVAL poll);
}
/*
=item C<sockaddr(STRING * address, INTVAL port, INTVAL family :optional)>
C<sockaddr> returns an object representing a socket address, generated
from a port number (integer) , address (string) and an optional address
family (integer). If no address family is given, it defaults to IPv4.
=cut
*/
METHOD sockaddr(STRING * address, INTVAL port, INTVAL family :optional) {
PMC *array;
PMC *res;
if (!family)
family = PIO_PF_INET;
array = Parrot_io_getaddrinfo(INTERP, address, port, PIO_PROTO_TCP,
family, 0);
if (VTABLE_elements(interp, array))
res = VTABLE_get_pmc_keyed_int(interp, array, 0);
else
res = PMCNULL;
RETURN(PMC * res);
}
/*
=item C<getaddrinfo(STRING * address, INTVAL port, INTVAL protocol, INTVAL family, INTVAL passive)>
C<getaddrinfo> returns an array of Sockaddr PMCs representing the result of the
C<getaddrinfo(3)> function which consists of multiple socket addresses,
including family and protocol. It can be passed to C<bind()> or C<connect()>.
=cut
*/
METHOD getaddrinfo(STRING * address,
INTVAL port, INTVAL protocol, INTVAL family, INTVAL passive) {
PMC * const res = Parrot_io_getaddrinfo(INTERP, address, port, protocol, family, passive);
RETURN(PMC * res);
}
/*
=item C<remote_address()>
C<remote_address> returns the remote address of this socket PMC.
=cut
*/
METHOD remote_address() {
PMC * const res = PARROT_SOCKET(SELF)->remote;
RETURN(PMC * res);
}
/*
=item C<local_address()>
C<local_address> returns the local address of this socket PMC.
=cut
*/
METHOD local_address() {
PMC * const res = PARROT_SOCKET(SELF)->local;
RETURN(PMC * res);
}
/*
=item C<METHOD is_closed()>
Test if the socket is closed.
=cut
*/
METHOD is_closed() {
const INTVAL status = !VTABLE_get_bool(INTERP, SELF);
RETURN(INTVAL status);
}
/*
=item C<connect(PMC * address)>
Connects a socket object to an address.
The asynchronous version takes an additional final PMC callback
argument, and only returns a status object. When the socket operation is
complete, it invokes the callback, passing it a status object and the
socket object it was called on. [If you want notification when a connect
operation is completed, you probably want to do something with that
connected socket object.]
=cut
*/
METHOD connect(PMC * address) {
Parrot_io_connect_handle(INTERP, SELF, address);
RETURN(INTVAL 0);
}
/*
=item C<recv()>
Receives a message from a connected socket object. It returns
the message in a string.
The asynchronous version takes an additional final PMC callback
argument, and only returns a status object. When the recv operation is
complete, it invokes the callback, passing it a status object and a
string containing the received message.
=cut
*/
METHOD recv() {
STRING * result;
GET_ATTR_buf(INTERP, SELF, result);
if (result != STRINGNULL && Parrot_str_length(INTERP, result) > 0) {
SET_ATTR_buf(INTERP, SELF, STRINGNULL);
}
else {
result = Parrot_io_reads(INTERP, SELF, CHUNK_SIZE);
}
RETURN(STRING * result);
}
/*
=item C<send(STRING *buf)>
Sends a message string to a connected socket object.
The asynchronous version takes an additional final PMC callback
argument, and only returns a status object. When the send operation is
complete, it invokes the callback, passing it a status object.
=cut
*/
METHOD send(STRING *buf) {
const INTVAL res = Parrot_io_send_handle(INTERP, SELF, buf);
RETURN(INTVAL res);
}
/*
=item C<bind(PMC *host)>
C<bind> binds a socket object to the port and address specified by an
address object (the result of C<getaddrinfo>).
The asynchronous version takes an additional final PMC callback
argument, and only returns a status object. When the bind operation is
complete, it invokes the callback, passing it a status object and the
socket object it was called on. [If you want notification when a bind
operation is completed, you probably want to do something with that
bound socket object.]
=cut
*/
METHOD bind(PMC *host) {
Parrot_io_bind_handle(INTERP, SELF, host);
RETURN(INTVAL 0);
}
/*
=item C<listen(INTVAL backlog)>
C<listen> specifies that a socket object is willing to accept incoming
connections. The integer argument gives the maximum size of the queue
for pending connections.
There is no asynchronous version. C<listen> marks a set of attributes on
the socket object.
=cut
*/
METHOD listen(INTVAL backlog) {
Parrot_io_listen_handle(INTERP, SELF, backlog);
RETURN(INTVAL 0);
}
/*
=item C<accept()>
C<accept> accepts a new connection on a given socket object, and returns
a newly created socket object for the connection.
The asynchronous version takes an additional final PMC callback
argument, and only returns a status object. When the accept operation
receives a new connection, it invokes the callback, passing it a status
object and a newly created socket object for the connection. [While the
synchronous C<accept> has to be called repeatedly in a loop (once for
each connection received), the asynchronous version is only called once,
but continues to send new connection events until the socket is closed.]
=cut
*/
METHOD accept() {
PMC * const res = Parrot_io_accept_handle(INTERP, SELF);
RETURN(PMC * res);
}
/*
=item C<METHOD read(INTVAL bytes)>
Read the given number of bytes from the socket and return them in a string.
=cut
*/
METHOD read(INTVAL nb) {
STRING *result;
STRING *buf;
GET_ATTR_buf(INTERP, SELF, buf);
if (Parrot_io_socket_is_closed(INTERP, SELF))
RETURN(STRING * STRINGNULL);
if (buf == STRINGNULL)
buf = Parrot_io_reads(INTERP, SELF, CHUNK_SIZE);
while (Parrot_str_length(INTERP, buf) < nb) {
STRING * const more = Parrot_io_reads(INTERP, SELF, CHUNK_SIZE);
if (Parrot_str_length(INTERP, more) == 0) {
SET_ATTR_buf(INTERP, SELF, STRINGNULL);
RETURN(STRING *buf);
}
buf = Parrot_str_concat(INTERP, buf, more);
}
result = Parrot_str_substr(INTERP, buf, 0, nb);
buf = Parrot_str_substr(INTERP, buf, nb, Parrot_str_length(INTERP, buf) - nb);
SET_ATTR_buf(INTERP, SELF, buf);
RETURN(STRING *result);
}
/*
=item C<METHOD readline()>
Read a line from the socket and return it in a string.
=cut
*/
METHOD readline() {
INTVAL idx;
STRING *result;
STRING *buf;
GET_ATTR_buf(INTERP, SELF, buf);
if (Parrot_io_socket_is_closed(INTERP, SELF))
RETURN(STRING * STRINGNULL);
if (buf == STRINGNULL)
buf = Parrot_io_reads(INTERP, SELF, CHUNK_SIZE);
while ((idx = Parrot_str_find_index(INTERP, buf, CONST_STRING(INTERP, "\n"), 0)) < 0) {
STRING * const more = Parrot_io_reads(INTERP, SELF, CHUNK_SIZE);
if (Parrot_str_length(INTERP, more) == 0) {
SET_ATTR_buf(INTERP, SELF, STRINGNULL);
RETURN(STRING *buf);
}
buf = Parrot_str_concat(INTERP, buf, more);
}
idx++;
result = Parrot_str_substr(INTERP, buf, 0, idx);
buf = Parrot_str_substr(INTERP, buf, idx, Parrot_str_length(INTERP, buf) - idx);
SET_ATTR_buf(INTERP, SELF, buf);
RETURN(STRING *result);
}
/*
=item C<METHOD puts(STRING *buf)>
Print the string to the socket.
=cut
*/
METHOD puts(STRING *buf) {
const INTVAL res = Parrot_io_send_handle(INTERP, SELF, buf);
RETURN(INTVAL res);
}
/*
=back
=cut
*/
} /* end pmclass */
/*
* Local variables:
* c-file-style: "parrot"
* End:
* vim: expandtab shiftwidth=4 cinoptions='\:2=2' :
*/