/*
* psocksxx - A C++ wrapper for POSIX sockets
* Copyright (C) 2013 Uditha Atukorala
*
* This software library is free software; you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This software library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this software library. If not, see .
*
*/
#include "sockstreambuf.h"
#include
#include
// Mac OSX does not define MSG_NOSIGNAL
#ifndef MSG_NOSIGNAL
#define MSG_NOSIGNAL 0
#endif
namespace psocksxx {
sockstreambuf::sockstreambuf() throw() :
_socket( -1 ), _bufsize( SOCKSTREAMBUF_SIZE ),
_putbacksize( SOCKSTREAMBUF_PUTBACK_SIZE ) {
// initialise defaults
init_defaults();
// initialise internal buffers
init_buffers();
}
sockstreambuf::sockstreambuf( socket_t socket ) throw() :
_bufsize( SOCKSTREAMBUF_SIZE ),
_putbacksize( SOCKSTREAMBUF_PUTBACK_SIZE ) {
// update local copy of the socket data
_socket = socket;
// initialise defaults
init_defaults();
// initialise internal buffers
init_buffers();
}
sockstreambuf::~sockstreambuf() {
// close any open sockets
close();
// cleanup buffers
cleanup_buffers();
// cleanup timeout
if ( _timeout != 0 ) {
delete _timeout;
}
}
void sockstreambuf::init_defaults() throw() {
// timeout structure reference
_timeout = 0;
// timed-out status
_timed_out = false;
}
void sockstreambuf::open( socket_domain_t domain, socket_type_t type, socket_protocol_t proto ) throw( sockexception ) {
// create a communication endpoint
_socket = ::socket( domain, type, proto );
// sanity check
if ( _socket == -1 ) {
throw sockexception();
}
#ifdef SO_NOSIGPIPE
// suppress SIGPIPE (Mac OSX)
int optval = 1;
if ( setsockopt( _socket, SOL_SOCKET, SO_NOSIGPIPE, &optval, sizeof( optval ) ) != 0 ) {
throw sockexception();
}
#endif
}
void sockstreambuf::close() throw() {
// sanity check
if ( _socket > -1 ) {
// sync
sync();
// close the socket
::close( _socket );
// update socket data
_socket = -1;
}
}
void sockstreambuf::connect( const sockaddr * dest_addr, unsigned int timeout ) throw( sockexception, socktimeoutexception ) {
timeval t_val;
timeval * t_ptr;
// check timeout value
if ( timeout > 0 ) {
// setup timeval structure
t_val.tv_sec = timeout;
t_val.tv_usec = 0;
// update pointer
t_ptr = &t_val;
} else {
// fall-back to class value
t_ptr = _timeout;
}
// call overloaded connect()
connect( dest_addr, t_ptr );
}
void sockstreambuf::connect( const sockaddr * dest_addr, timeval * timeout ) throw( sockexception, socktimeoutexception ) {
// copy current flags
int s_flags = fcntl( _socket, F_GETFL );
// sanity check - affectively we ignore the fcntl() error
if ( s_flags == -1 ) {
s_flags = 0;
}
// setup timeout if needed
if ( timeout > 0 ) {
// make the socket non-blocking
if ( fcntl( _socket, F_SETFL, ( s_flags | O_NONBLOCK ) ) == -1 ) {
throw sockexception();
}
}
// connect
if ( ::connect( _socket, dest_addr->psockaddr(), dest_addr->size() ) != 0 ) {
throw sockexception();
}
// check for timeout if set
if ( timeout > 0 ) {
if (! ready( timeout ) ) {
// shutdown
::shutdown( _socket, 2 );
// throw a timeout exception
if ( _timed_out ) {
throw socktimeoutexception( timeout, "sockstreambuf::connect()" );
}
}
// reset flags back to what they were
fcntl( _socket, F_SETFL, s_flags );
}
}
void sockstreambuf::bind( const sockaddr * bind_addr, bool reuse_addr ) throw( sockexception ) {
// set socket options - SO_REUSEADDR
if ( reuse_addr ) {
int optval = 1;
if ( setsockopt( _socket, SOL_SOCKET, SO_REUSEADDR, &optval, sizeof( optval ) ) != 0 ) {
throw sockexception();
}
}
// bind
if ( ::bind( _socket, bind_addr->psockaddr(), bind_addr->size() ) != 0 ) {
throw sockexception();
}
}
void sockstreambuf::listen( int backlog ) throw( sockexception ) {
if ( ::listen( _socket, backlog ) != 0 ) {
throw sockexception();
}
}
sockstreambuf::socket_t sockstreambuf::accept() throw( sockexception ) {
socket_t peer_sock;
if ( ( peer_sock = ::accept( _socket, 0, 0 ) ) < 0 ) {
throw sockexception();
}
return peer_sock;
}
const sockstreambuf::socket_t & sockstreambuf::socket() const throw() {
return _socket;
}
const timeval * sockstreambuf::timeout( time_t sec, suseconds_t usec ) throw() {
_timeout = new timeval;
_timeout->tv_sec = sec;
_timeout->tv_usec = usec;
return _timeout;
}
void * sockstreambuf::clear_timeout() throw() {
// sanity check
if ( _timeout != 0 ) {
// delete structure
delete _timeout;
// set a null pointer
_timeout = 0;
}
return _timeout;
}
bool sockstreambuf::timedout() const throw() {
return _timed_out;
}
void sockstreambuf::init_buffers() throw() {
// allocate output buffer space
char * pbuf = new char[_bufsize];
// allocate input buffer space
char * gbuf = new char[_bufsize];
// setup output buffer
setp( pbuf, pbuf + ( _bufsize - 1 ) );
// setup input buffer
setg( gbuf, gbuf, gbuf );
}
void sockstreambuf::cleanup_buffers() throw() {
// cleanup output buffer
delete [] pbase();
// cleanup input buffer
delete [] eback();
}
int sockstreambuf::flush() throw( socktimeoutexception ) {
int flush_size = pptr() - pbase();
bool b_ready = false;
// sanity check
if ( flush_size > 0 ) {
try {
b_ready = ready( _timeout, false, true );
} catch ( sockexception &e ) {
// couldn't select the socket
return eof;
}
if ( b_ready ) {
if ( ::send( _socket, pbase(), flush_size, MSG_NOSIGNAL ) == flush_size ) {
pbump( -flush_size );
return flush_size;
}
} else {
// timed out - throw a timeout exception
if ( _timed_out ) {
throw socktimeoutexception( _timeout, "sockstreambuf::flush()" );
}
}
}
return eof;
}
int sockstreambuf::sync() throw() {
try {
// flush buffer
if ( flush() != eof ) {
return 0;
}
} catch ( socktimeoutexception &e ) {
// communication timeout - suppress the exception
}
// sync failed
return -1;
}
int sockstreambuf::overflow( int c ) throw( socktimeoutexception ) {
// sanity check
if ( c != eof ) {
// insert the overflowed char into the buffer
*pptr() = c;
pbump( 1 );
}
// flush the buffer - could throw a timeout exception
if ( flush() == eof ) {
return eof;
}
return c;
}
int sockstreambuf::underflow() throw( socktimeoutexception ) {
// sanity check - read position before end-of-buffer?
if ( gptr() < egptr() ) {
return traits_type::to_int_type( *gptr() );
}
char * read_buffer;
size_t putback_size = gptr() - eback();
size_t readable_size = 0;
bool b_ready = false;
ssize_t read_size = 0;
// sanitise putback size
if ( putback_size > _putbacksize ) {
putback_size = _putbacksize;
}
// update read buffer position
read_buffer = eback() + putback_size;
// calculate read buffer size
readable_size = _bufsize - putback_size;
// check for availability
try {
b_ready = ready( _timeout, true, false );
} catch ( sockexception &e ) {
// couldn't select the socket
return eof;
}
// read from socket
if ( b_ready ) {
read_size = ::read( _socket, read_buffer, readable_size );
} else {
// timed out - throw a timeout exception
if ( _timed_out ) {
throw socktimeoutexception( _timeout, "sockstreambuf::overflow()" );
}
}
// sanity check
if ( read_size <= 0 ) {
return eof;
}
// update pointers
setg( eback(), read_buffer, read_buffer + read_size );
// return next character
return traits_type::to_int_type( *gptr() );
}
bool sockstreambuf::ready( timeval * timeout, bool chk_read, bool chk_write ) throw( sockexception ) {
// sanity check
if ( _socket < 0 ) {
throw sockexception( "sockstreambuf::ready(): invalid socket" );
}
fd_set fds;
fd_set * read_fds = 0;
fd_set * write_fds = 0;
// timespec structure
timespec * t_spec = 0;
// set the fd_set so we only check our socket
memset( &fds, 0, sizeof( fds ) );
FD_SET( _socket, &fds );
// set the actions we want to check
if ( chk_read ) {
read_fds = &fds;
}
if ( chk_write ) {
write_fds = &fds;
}
// reset timed-out status
_timed_out = false;
// create timespec structure from timeval structure
if ( timeout != 0 ) {
t_spec = new timespec;
t_spec->tv_sec = timeout->tv_sec;
t_spec->tv_nsec = ( timeout->tv_usec * 1000 );
}
// select the socket
int s_status = ::pselect( ( _socket + 1 ), read_fds, write_fds, 0, t_spec, 0 );
// cleanup
if ( t_spec != 0 ) {
delete t_spec;
}
// check status
switch ( s_status ) {
case 0:
// timed-out
_timed_out = true;
break;
case -1:
throw sockexception();
break;
default:
break;
}
// sanity check
if ( FD_ISSET( _socket, &fds ) ) {
return true;
}
return false;
}
} /* end of namespace psocksxx */