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|
//
// File : class_socket.cpp
// Creation date : Sun Nov 11 03:13:45 2001 GMT by Szymon Stefanek
//
// This file is part of the KVirc irc client distribution
// Copyright (C) 2001 Szymon Stefanek (pragma at kvirc dot net)
//
// This program is FREE software. You can redistribute it and/or
// modify it under the terms of the GNU General Public License
// as published by the Free Software Foundation; either version 2
// of the License, or (at your opinion) any later version.
//
// This program 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 General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, write to the Free Software Foundation,
// Inc. ,51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
//
#include "kvi_settings.h"
#include "kvi_qstring.h"
#define _KVI_DEBUG_CHECK_RANGE_
#include "kvi_debug.h"
#include "kvi_locale.h"
#include "kvi_error.h"
#include "kvi_netutils.h"
#include "kvi_dns.h"
#include "kvi_error.h"
#include "kvi_socket.h"
#include "kvi_malloc.h"
#include "kvi_memmove.h"
#include "kvi_databuffer.h"
#include "kvi_qcstring.h"
#include "class_socket.h"
//#include <stdlib.h>
#define KVI_IN_BUFFER_ALLOC_CHUNK 4096
#define KVI_READ_CHUNK 1024
/*
static KviScriptObjectClass * g_pSocketClass = 0;
static KviScriptObject * socketClassCreateInstance(KviScriptObjectClass * cls,KviScriptObject *par,const char * nam)
{
return new KviScriptSocketObject(cls,par,nam);
}
KviScriptSocketObject::KviScriptSocketObject(KviScriptObjectClass * cla,KviScriptObject * par,const char * nam)
: KviScriptObject(cla,par,nam)
{
m_uConnectionId = 0;
m_sock = KVI_INVALID_SOCKET;
m_iStatus = KVI_SCRIPT_SOCKET_STATUS_DISCONNECTED;
m_uRemotePort = 0;
m_uSecondaryPort = 0;
m_pSn = 0;
m_pDns = 0;
m_pDelayTimer = 0;
m_uConnectTimeout = 60000;
m_pInBuffer = 0;
m_uInBufferLen = 0;
m_uInDataLen = 0;
m_pOutBuffer = new KviDataBuffer();
m_pFlushTimer = new TQTimer();
m_bIpV6 = false;
m_uLocalPort = 0;
m_secondarySock = KVI_INVALID_SOCKET;
connect(m_pFlushTimer,TQT_SIGNAL(timeout()),this,TQT_SLOT(tryFlush()));
}
KviScriptSocketObject::~KviScriptSocketObject()
{
delete m_pOutBuffer;
delete m_pFlushTimer;
if(m_pInBuffer)kvi_free(m_pInBuffer);
if(m_pDelayTimer)delete m_pDelayTimer;
if(m_pDns)delete m_pDns;
if(m_pSn)delete m_pSn;
if(m_sock != KVI_INVALID_SOCKET)kvi_socket_close(m_sock);
if(m_secondarySock != KVI_INVALID_SOCKET)kvi_socket_close(m_secondarySock);
}
void KviScriptSocketObject::reset()
{
m_uConnectionId++; // this is the only place where this is incremented!
if(m_pDelayTimer)
{
delete m_pDelayTimer;
m_pDelayTimer = 0;
}
if(m_pDns)
{
delete m_pDns;
m_pDns = 0;
}
if(m_pSn)
{
delete m_pSn;
m_pSn = 0;
}
if(m_sock != KVI_INVALID_SOCKET)
{
kvi_socket_close(m_sock);
m_sock = KVI_INVALID_SOCKET;
}
if(m_pInBuffer)
{
kvi_free(m_pInBuffer);
m_pInBuffer = 0;
}
if(m_secondarySock)
{
kvi_socket_close(m_secondarySock);
m_secondarySock = KVI_INVALID_SOCKET;
}
m_uSecondaryPort = 0;
m_szSecondaryIp.clear();
delete m_pOutBuffer;
if(m_pFlushTimer->isActive())m_pFlushTimer->stop();
m_pOutBuffer = new KviDataBuffer();
m_uInBufferLen = 0;
m_uInDataLen = 0;
m_iStatus = KVI_SCRIPT_SOCKET_STATUS_DISCONNECTED;
m_uRemotePort = 0;
m_szRemoteIp.clear();
m_uLocalPort = 0;
m_szLocalIp.clear();
m_bIpV6 = false;
}
/*
@doc: socket
@keyterms:
socket object class
@title:
socket class
@type:
class
@short:
A Ipv4/Ipv6 TCP socket
@inherits:
[class]object[/class]
@description:
This class provides a standard TCP/IP socket functionality.[br]
It can be used either for connecting to a remote host or to listening for incoming connections.[br]
If the KVIrc executable has been compiled with the IPV6 protocol support , this socket also supports it.[br]
@functions:
!fn: $status()
Returns the status of the socket :[br]
4=connected[br]
3=listening[br]
2=connecting[br]
1=in dns call[br]
0=disconnected
!fn: $connectTimeout()
Returns the value of the connect attempt timeout in milliseconds.[br]
This is the timeout after that a connection attempt will be considered as failed if the remote
host is not responding. You can set it with [classfnc:socket]$setConnectTimeout[/classfnc]().
!fn: $setConnectTimeout(<timeout>)
Sets the connect timeout for this socket. <timeout> must be a positive value in milliseconds.[br]
The default timeout is 60000.
!fn: $connect(<host>,<port>)
Attempts a connection to <host> on port <port>.[br]
<host> can be a numeric internet address (either Ipv4 or Ipv6 (if supported)) or a hostname.[br]
If a hostname is used, a DNS lookup is performed (the socket enters the "dns call" state).[br]
This function returns 1 if the connect attempt can be succesfully initiated,
0 otherwise.[br] In fact , this function returns 0 only if the supplied <port> parameter
is invalid or the socket is in an incoherent state (already connected or listening):
for a newly created socket and with a valid <port> number you can safely ignore
the return value.[br]
Please note that the connection is asynchronous: when this function returns
the socket is NOT connected: it has just initiated the connect attempt
and you will be notified of the attempt result by an asynchronous event call:
in case of failure , $connectFailedEvent() will be called , in case of
succes , $connectEvent() will be called.
!fn: $listen([<port>[,<interface>[,<force_ipv6>]]])
Attempts to listen on the specified <port> and <interface>.[br]
If <port> is not passed it is assumed to be 0 , if <interface> is not passed , it is assumed to be
"any interface" (INADDR_ANY).[br] Port 0 means that the kernel should choose a "random" port to listen on.[br]
If the <interface> is recognized as IPV6 address , and IPV6 is supported , the socket listens
in IPV6 mode. If <interface> is an empty string and <force_ipv6> is 1 the socket listens
on "any ipv6 interface".[br]
This function returns '1' in case of success and '0' in case of failure.[br]
On some systems listening in the IPV6 namespace allows to accept also IPV4 connections (this includes
linux but not windows afaik).[br]
When an incoming connection will arrive , $incomingConnectionEvent() will be called.
!fn: $accept(<socketId>)
This function can be called only from inside $incomingConnectionEvent().[br]
<socketId> must be a newly created socket sub-class instance object.[br]
The passed object will be set up to handle the incoming connection and this object
will remain in listening state (unless you explicitly close it).[br]
This function returns '1' in case of success and '0' in case of failure.
!fn: $connectEvent()
This function is called when a connection attempt has been succesfully completed.
The socket is actually connected to [classfnc:socket]$remoteIp[/classfnc]() on
[classfnc:socket]$remotePort[/classfnc](). You can start
writing data and you may expect [classfnc:socket]$dataAvailableEvent[/classfnc]() to be
triggered.
!fn: $incomingConnectionEvent()
This function is called when an incoming connection arrives over a socket in listening state.[br]
You must call [classfnc:socket]$accept[/classfnc]() passing a newly created socket object
to accept and handle the connection.[br] If you don't call [classfnc:socket]$accept[/classfnc]()
the incoming connection will be automatically terminated.
!fn: $connectFailedEvent(<reason>)
This function is called when a connection attempt fails for some reason. <reason> contains
the error string.[br]
This function may be called only between a call to [classfnc:socket]$connect[/classfnc]() and
the [classfnc:socket]$connectEvent[/classfnc]().
!fn: $disconnectEvent([error])
This function is called when a connection is terminated either cleanly or because of an error.[br]
[error] is an empty string in case of a "clean" termination (connection closed by the remote host)
or is a message describing the socket error that caused the connection to be interrupted.
!fn: $dataAvailableEvent(<data_length>)
This function is called when some data is available to be read: the <data_length> parameter specifies
the length of the available data in bytes.[br]
You can use one of the $read* functions to obtain the data.
!fn: $read(<length>)
Reads at most <length> bytes of data from the socket. If <length> is anything "outside" the
available data range (<length> < 0 or <length> > available_data_length), this function
returns all the available data.[br]
Please note that this function can't deal withi binary data: NULL characters are transformed to
ASCII characters 255.
!fn: $readHex(<length>)
Reads at most <length> bytes of data from the socket. If <length> is anything "outside" the
available data range (<length> < 0 or <length> > available_data_length), this function
returns all the available data.[br]
Returns the data encoded as hexadecimal digit string: this function can deal with binary data too.
!fn: $write(<data>)
Writes <data> to the socket.[br]
This function can't deal with binary data (you can't send a NULL character)[br]
Please note that when this function finishes it does not mean that the data has reached the remote end.[br]
Basically it does not even mean that the data has been sent to the remote host.[br]
The data is enqueued for sending and will be sent as soon as possible.[br]
If you're going to [cmd]delete[/cmd] this object just after the $write call, you should
call [classfnc:socket]$close[/classfnc]() just before [cmd]delete[/cmd] to ensure the data delivery.
!fn: $writeHex(<hex_data>)
Writes <data> to the socket.[br]
<data> is expected to be a hexadecimal rappresentation of the bytes to be sent (two HEX characters
for each byte). This means that the length of <hex_data> string must be a multiple of 2.[br]
Returns the length of the actually decoded and sent data in bytes or -1 in case of error (the string
was not a valid hexadecimla rappresentation).[br]
Please note that when this function finishes it does not mean that the data has reached the remote end.[br]
Basically it does not even mean that the data has been sent to the remote host.[br]
The data is enqueued for sending and will be sent as soon as possible.[br]
If you're going to [cmd]delete[/cmd] this object just after the $writeHex call, you should
call [classfnc:socket]$close[/classfnc]() just before [cmd]delete[/cmd] to ensure the data delivery.
!fn: $close()
Resets this socket state: kills any pending or active connection. After a close() call
the socket may be used for a new connection.[br]
If there is an active connection, there is a last attempt to flush the pending outgoing data.[br]
You don't need to call $close() if you [cmd]delete[/cmd] the socket: KVIrc will
reset the socket state automatically and free the memory. But if you want to ensure data delivery
after a $write call sequece and just before a [cmd]delete[/cmd], $close() is the only chance to do it.
!fn: $remoteIp()
Returns the IP address of the remote end of this socket.[br]
The return value is meaningful only if the socket is in connected or connecting state.
!fn: $setProtocol(<protocol>)
Let KVIrc use TCP jr UDP protocol
!fn: $remotePort()
Returns the port of the remote end of this socket.[br]
The return value is meaningful only if the socket is in connected or connecting state.
!fn: $localIp()
Returns the IP address of the local end of this socket.[br]
The return value is meaningful only if the socket is in connected , listening or connecting state.
!fn: $localPort()
Returns the port of the local end of this socket.[br]
The return value is meaningful only if the socket is in connected , listening or connecting state.
@examples:
[example]
#Server socket: listen 80 port and answer to requests (multi-threaded)[br]
[br]
class (webserver,socket) {[br]
constructor () {[br]
$$->$listen(80, "127.0.0.1")[br]
}[br]
incomingConnectionEvent()[br]
{[br]
%tmp = $new(socket)[br]
$$->$accept(%tmp)[br]
echo "Webserver incoming Conection from: %tmp->$remoteIp : %tmp->$remotePort"[br]
%tmp->$write("HTTP/1.1 200 OK\n\n<html><head></head><body><h1>KVIrc Webserver</h1></body></html>\n")[br]
%tmp->$close()[br]
delete %tmp[br]
}[br]
}[br]
[br]
#finally start webserver[br]
%WebS = $new(webserver)[br]
[br]
[/example]
[example]
#Client socket - go to google and grab request header[br]
class (httprequest,socket) {[br]
constructor () [br]
{[br]
# connect to the server[br]
$$->$connect("www.google.de",80)[br]
}[br]
destructor()[br]
{[br]
# if the socket is still open close it[br]
if($$->$status() == 4) $$->$close()[br]
}[br]
connectFailedEvent() [br]
{[br]
# the connection to the server failed[br]
echo "Connection failed: "$0[br]
delete $$[br]
}[br]
connectEvent() [br]
{[br]
# connection is complete[br]
# send a request to receive the headers only from http://www.google.de/[br]
$$->$write("HEAD / HTTP/1.1\r\nHost: www.google.de\r\nConnction: Close\r\nUser-Agent: KVIrc socket\r\n\r\n");[br]
}[br]
dataAvailableEvent() [br]
{[br]
# reading the received data[br]
%newdata = $$->$read($0)[br]
echo %newdata[br]
#close and delete the socket[br]
$$->$close()[br]
delete $$[br]
}[br]
disconnectEvent() [br]
{[br]
# connection has been closed[br]
echo "Connection closed"[br]
delete $$[br]
}[br]
}[br]
#Creating the socket[br]
%Temp = $new(httprequest)[br]
[/example]
*/
KVSO_BEGIN_REGISTERCLASS(KviKvsObject_socket,"socket","object")
KVSO_REGISTER_HANDLER(KviKvsObject_socket,"status",functionStatus)
KVSO_REGISTER_HANDLER(KviKvsObject_socket,"remotePort",functionRemotePort)
KVSO_REGISTER_HANDLER(KviKvsObject_socket,"remoteIp",functionRemoteIp)
KVSO_REGISTER_HANDLER(KviKvsObject_socket,"localIp",functionLocalIp)
KVSO_REGISTER_HANDLER(KviKvsObject_socket,"localPort",functionLocalPort)
KVSO_REGISTER_HANDLER(KviKvsObject_socket,"connect",functionConnect)
KVSO_REGISTER_HANDLER(KviKvsObject_socket,"connectTimeout",functionConnectTimeout)
KVSO_REGISTER_HANDLER(KviKvsObject_socket,"setConnectTimeout",functionSetConnectTimeout)
KVSO_REGISTER_HANDLER(KviKvsObject_socket,"close",functionClose)
KVSO_REGISTER_HANDLER(KviKvsObject_socket,"read",functionRead)
KVSO_REGISTER_HANDLER(KviKvsObject_socket,"readHex",functionReadHex)
KVSO_REGISTER_HANDLER(KviKvsObject_socket,"write",functionWrite)
KVSO_REGISTER_HANDLER(KviKvsObject_socket,"writeHex",functionWriteHex)
KVSO_REGISTER_HANDLER(KviKvsObject_socket,"setProtocol",functionSetProtocol)
KVSO_REGISTER_HANDLER(KviKvsObject_socket,"listen",functionListen)
KVSO_REGISTER_HANDLER(KviKvsObject_socket,"accept",functionAccept)
KVSO_REGISTER_STANDARD_NOTHINGRETURN_HANDLER(KviKvsObject_socket,"connectEvent")
KVSO_REGISTER_STANDARD_NOTHINGRETURN_HANDLER(KviKvsObject_socket,"connectFailedEvent")
KVSO_REGISTER_STANDARD_NOTHINGRETURN_HANDLER(KviKvsObject_socket,"disconnectEvent")
KVSO_REGISTER_STANDARD_NOTHINGRETURN_HANDLER(KviKvsObject_socket,"dataAvailableEvent")
KVSO_REGISTER_STANDARD_NOTHINGRETURN_HANDLER(KviKvsObject_socket,"incomingConnectionEvent")
KVSO_END_REGISTERCLASS(KviKvsObject_socket)
KVSO_BEGIN_CONSTRUCTOR(KviKvsObject_socket,KviKvsObject)
m_bUdp = false;
m_uConnectionId = 0;
m_sock = KVI_INVALID_SOCKET;
m_iStatus = KVI_SCRIPT_SOCKET_STATUS_DISCONNECTED;
m_uRemotePort = 0;
m_uSecondaryPort = 0;
m_pSn = 0;
m_pDns = 0;
m_pDelayTimer = 0;
m_uConnectTimeout = 60000;
m_pInBuffer = 0;
m_uInBufferLen = 0;
m_uInDataLen = 0;
m_pOutBuffer = new KviDataBuffer();
m_pFlushTimer = new TQTimer();
m_bIpV6 = false;
m_uLocalPort = 0;
m_secondarySock = KVI_INVALID_SOCKET;
connect(m_pFlushTimer,TQT_SIGNAL(timeout()),this,TQT_SLOT(tryFlush()));
KVSO_END_CONSTRUCTOR(KviKvsObject_socket)
KVSO_BEGIN_DESTRUCTOR(KviKvsObject_socket)
delete m_pOutBuffer;
delete m_pFlushTimer;
if(m_pInBuffer)kvi_free(m_pInBuffer);
if(m_pDelayTimer)delete m_pDelayTimer;
if(m_pDns)delete m_pDns;
if(m_pSn)delete m_pSn;
if(m_sock != KVI_INVALID_SOCKET)kvi_socket_close(m_sock);
if(m_secondarySock != KVI_INVALID_SOCKET)kvi_socket_close(m_secondarySock);
KVSO_END_DESTRUCTOR(KviKvsObject_socket)
//----------------------
bool KviKvsObject_socket::functionStatus(KviKvsObjectFunctionCall *c)
{
c->returnValue()->setInteger(m_iStatus);
return true;
}
bool KviKvsObject_socket::functionClose(KviKvsObjectFunctionCall *c)
{
if((m_pOutBuffer->size() != 0) && (m_iStatus == KVI_SCRIPT_SOCKET_STATUS_CONNECTED))
tryFlush();
reset();
return true;
}
bool KviKvsObject_socket::functionConnectTimeout(KviKvsObjectFunctionCall *c)
{
c->returnValue()->setInteger(m_uConnectTimeout);
return true;
}
bool KviKvsObject_socket::functionSetConnectTimeout(KviKvsObjectFunctionCall *c)
{
kvs_uint_t uTimeout;
KVSO_PARAMETERS_BEGIN(c)
KVSO_PARAMETER("time_out",KVS_PT_UNSIGNEDINTEGER,0,uTimeout)
KVSO_PARAMETERS_END(c)
m_uConnectTimeout = uTimeout;
return true;
}
bool KviKvsObject_socket::functionRemotePort(KviKvsObjectFunctionCall *c)
{
c->returnValue()->setInteger(m_uRemotePort);
return true;
}
bool KviKvsObject_socket::functionRemoteIp(KviKvsObjectFunctionCall *c)
{
c->returnValue()->setString(m_szRemoteIp);
return true;
}
bool KviKvsObject_socket::functionLocalPort(KviKvsObjectFunctionCall *c)
{
c->returnValue()->setInteger(m_uLocalPort);
return true;
}
bool KviKvsObject_socket::functionLocalIp(KviKvsObjectFunctionCall *c)
{
c->returnValue()->setString(m_szLocalIp);
return true;
}
bool KviKvsObject_socket::functionAccept(KviKvsObjectFunctionCall *c)
{
KviKvsObject * pObject;
kvs_hobject_t hObject;
KVSO_PARAMETERS_BEGIN(c)
KVSO_PARAMETER("object_socket",KVS_PT_HOBJECT,0,hObject)
KVSO_PARAMETERS_END(c)
pObject = KviKvsKernel::instance()->objectController()->lookupObject(hObject);
if(!pObject)
{
c->warning(__tr2qs("No socket object specified"));
return true;
}
if(!pObject->inherits("KviKvsObject_socket"))
{
c->warning(__tr2qs("Invalid socket object specified (it doesn't inherit from socket)"));
return true;
}
if(m_secondarySock != KVI_INVALID_SOCKET)
{
((KviKvsObject_socket *)pObject)->acceptConnection(m_secondarySock,m_uSecondaryPort,m_szSecondaryIp);
m_secondarySock = KVI_INVALID_SOCKET;
m_uSecondaryPort = 0;
m_szSecondaryIp="";
} else {
c->warning(__tr2qs("There is no connection to accept!"));
}
return true;
}
bool KviKvsObject_socket::functionSetProtocol(KviKvsObjectFunctionCall *c)
{
TQString m_szHex;
KVSO_PARAMETERS_BEGIN(c)
KVSO_PARAMETER("hex_string",KVS_PT_STRING,0,m_szHex)
KVSO_PARAMETERS_END(c)
m_bUdp=KviTQString::equalCI(m_szHex,"udp");
return false;
}
bool KviKvsObject_socket::functionWriteHex(KviKvsObjectFunctionCall *c)
{
TQString m_szHex;
KVSO_PARAMETERS_BEGIN(c)
KVSO_PARAMETER("hex_string",KVS_PT_STRING,0,m_szHex)
KVSO_PARAMETERS_END(c)
if(m_szHex.length() > 0)
{
bool bOk;
TQString szTmp;
szTmp=m_szHex.setNum(m_szHex.toInt(&bOk,16),16);
if(szTmp.length()>0)
{
KviTQCString szData8 = szTmp.utf8();
m_pOutBuffer->append((const unsigned char *)(szData8.data()),szData8.length());
delayedFlush(0);
c->returnValue()->setInteger(szData8.length());
}
}
/*
if(pszData)
{
if(pszData->len() > 0)
{
char * ptr;
len = pszData->hexToBuffer(&ptr);
if(len > 0)
{
m_pOutBuffer->append((const unsigned char *)(ptr),len);
delayedFlush(0);
KviStr::freeBuffer(ptr);
}
}
}
buffer.append(KviStr::Format,"%d",len);
*/
return true;
}
bool KviKvsObject_socket::functionConnect(KviKvsObjectFunctionCall *c)
{
KVSO_PARAMETERS_BEGIN(c)
KVSO_PARAMETER("remote_ip",KVS_PT_STRING,0,m_szRemoteIp)
KVSO_PARAMETER("remote_port",KVS_PT_UNSIGNEDINTEGER,0,m_uRemotePort)
KVSO_PARAMETERS_END(c)
tqDebug ("Function connect");
if (m_uRemotePort>65535)
{
c->warning(__tr2qs("Value %d for port is out of range (values allowed are from 0 to 65535"),m_uRemotePort);
return true;
}
if((m_sock != KVI_INVALID_SOCKET) || (m_iStatus != KVI_SCRIPT_SOCKET_STATUS_DISCONNECTED))
{
c->warning(__tr2qs("Another connection in progress"));
c->returnValue()->setBoolean(true);
return true;
}
#ifdef COMPILE_IPV6_SUPPORT
if(kvi_isValidStringIp(m_szRemoteIp) || kvi_isValidStringIp_V6(m_szRemoteIp))
#else
if(kvi_isValidStringIp(m_szRemoteIp))
#endif
{
tqDebug ("ok connecting");
tqDebug ("connectinhg on ip %s ",m_szRemoteIp.latin1());
tqDebug ("non so ip");
m_iStatus = KVI_SCRIPT_SOCKET_STATUS_CONNECTING;
delayedConnect();
} else {
tqDebug ("connectinhg on ip %s port %d",m_szRemoteIp.latin1(),m_uRemotePort);
m_iStatus = KVI_SCRIPT_SOCKET_STATUS_DNS;
delayedLookupRemoteIp();
}
c->returnValue()->setBoolean(true);
return true;
}
bool KviKvsObject_socket::functionListen(KviKvsObjectFunctionCall *c)
{
if((m_sock != KVI_INVALID_SOCKET) || (m_iStatus != KVI_SCRIPT_SOCKET_STATUS_DISCONNECTED))
{
c->warning(__tr2qs("Another connection in progress"));
c->returnValue()->setBoolean(false);
return true;
}
kvs_uint_t uLocalPort;
TQString m_szLocalIp;
bool m_bIpV6;
KVSO_PARAMETERS_BEGIN(c)
KVSO_PARAMETER("local_port",KVS_PT_UNSIGNEDINTEGER,0,uLocalPort)
KVSO_PARAMETER("local_ip",KVS_PT_STRING,KVS_PF_OPTIONAL,m_szLocalIp)
KVSO_PARAMETER("bool_ipV6",KVS_PT_BOOLEAN,KVS_PF_OPTIONAL,m_bIpV6)
KVSO_PARAMETERS_END(c)
m_uLocalPort=uLocalPort;
#ifndef COMPILE_IPV6_SUPPORT
if(m_bIpV6)
{
c->warning(__tr2qs("No IPV6 support in this executable"));
c->returnValue()->setBoolean(false);
reset();
return true;
}
#endif
bool bGotIp = false;
if(!m_szLocalIp.isEmpty())
{
// Check the address type
if(kvi_isValidStringIp(m_szLocalIp))bGotIp = true;
else {
#ifdef COMPILE_IPV6_SUPPORT
if(kvi_isValidStringIp_V6(m_szLocalIp))
{
bGotIp = true;
m_bIpV6 = true;
} else {
#else
c->warning(__tr2qs("Invalid IP address specified ('%Q')"),&m_szLocalIp);
c->returnValue()->setBoolean(false);
reset();
return true;
#endif
#ifdef COMPILE_IPV6_SUPPORT
}
#endif
}
}
#ifdef COMPILE_IPV6_SUPPORT
m_sock = kvi_socket_create(m_bIpV6 ? KVI_SOCKET_PF_INET6 : KVI_SOCKET_PF_INET,
m_bUdp ? KVI_SOCKET_TYPE_DGRAM : KVI_SOCKET_TYPE_STREAM,KVI_SOCKET_PROTO_TCP);
#else
m_sock = kvi_socket_create(KVI_SOCKET_PF_INET,m_bUdp ? KVI_SOCKET_TYPE_DGRAM : KVI_SOCKET_TYPE_STREAM,KVI_SOCKET_PROTO_TCP);
#endif
if(m_sock == KVI_INVALID_SOCKET)
{
c->warning(__tr2qs("Socket creation failed"));
c->returnValue()->setBoolean(false);
reset();
return true;
}
if(!m_szLocalIp.isEmpty())
{
#ifdef COMPILE_IPV6_SUPPORT
KviSockaddr sa(m_szLocalIp,m_uLocalPort,m_bIpV6,m_bUdp);
#else
KviSockaddr sa(m_szLocalIp,m_uLocalPort,false,m_bUdp);
#endif
if(!sa.socketAddress())
{
c->warning(__tr2qs("Invalid socket address"));
reset();
c->returnValue()->setBoolean(false);
return true;
}
if(!kvi_socket_bind(m_sock,sa.socketAddress(),((int)(sa.addressLength()))))
{
c->warning(__tr2qs("Bind failure"));
reset();
c->returnValue()->setBoolean(false);
return true;
}
} else {
#ifdef COMPILE_IPV6_SUPPORT
KviSockaddr sa(m_uLocalPort,m_bIpV6,m_bUdp);
#else
KviSockaddr sa(m_uLocalPort,false,m_bUdp);
#endif
if(!sa.socketAddress())
{
c->warning(__tr2qs("Invalid socket address"));
reset();
c->returnValue()->setBoolean(false);
return true;
}
if(!kvi_socket_bind(m_sock,sa.socketAddress(),((int)(sa.addressLength()))))
{
c->warning(__tr2qs("Bind failure"));
reset();
c->returnValue()->setBoolean(false);
return true;
}
}
if(!kvi_socket_listen(m_sock,5))
{
c->warning(__tr2qs("Listen failure"));
reset();
c->returnValue()->setBoolean(false);
return true;
}
// Reread the port in case we're binding to a random one (0)
#ifdef COMPILE_IPV6_SUPPORT
KviSockaddr sareal(0,m_bIpV6,m_bUdp);
#else
KviSockaddr sareal(0,false,m_bUdp);
#endif
int size = (int)sareal.addressLength();
if(kvi_socket_getsockname(m_sock,sareal.socketAddress(),&size))
{
m_uLocalPort = sareal.port();
sareal.getStringAddress(m_szLocalIp);
}
// and setup the READ notifier...
m_pSn = new TQSocketNotifier(m_sock,TQSocketNotifier::Read);
TQObject::connect(m_pSn,TQT_SIGNAL(activated(int)),this,TQT_SLOT(incomingConnection(int)));
m_pSn->setEnabled(true);
m_iStatus = KVI_SCRIPT_SOCKET_STATUS_LISTENING;
c->returnValue()->setBoolean(true);
return true;
}
void KviKvsObject_socket::incomingConnection(int)
{
#ifdef COMPILE_IPV6_SUPPORT
struct sockaddr_in6 hostSockAddr6;
#endif
struct sockaddr_in hostSockAddr;
int size = sizeof(hostSockAddr);
struct sockaddr * addr = (struct sockaddr *)&hostSockAddr;
#ifdef COMPILE_IPV6_SUPPORT
if(m_bIpV6)
{
addr = (struct sockaddr *)&hostSockAddr6;
size = sizeof(hostSockAddr6);
}
#endif
// Incoming connection
m_secondarySock = kvi_socket_accept(m_sock,addr,&size);
if(m_secondarySock != KVI_INVALID_SOCKET)
{
// Connected
#ifdef COMPILE_IPV6_SUPPORT
if(m_bIpV6)
{
m_uSecondaryPort = ntohs(((struct sockaddr_in6 *)addr)->sin6_port);
if(!kvi_binaryIpToStringIp_V6(((struct sockaddr_in6 *)addr)->sin6_addr,m_szSecondaryIp))
m_szSecondaryIp = __tr("unknown");
} else {
#endif
m_uSecondaryPort = ntohs(((struct sockaddr_in *)addr)->sin_port);
if(!kvi_binaryIpToStringIp(((struct sockaddr_in *)addr)->sin_addr,m_szSecondaryIp))
m_szSecondaryIp = __tr("unknown");
#ifdef COMPILE_IPV6_SUPPORT
}
#endif
KviKvsVariantList *params=0;
callFunction(this,"incomingConnectionEvent",params);
if(m_secondarySock != KVI_INVALID_SOCKET)
{
kvi_socket_close(m_secondarySock);
m_secondarySock = KVI_INVALID_SOCKET;
m_uSecondaryPort = 0;
m_szSecondaryIp="";
}
} // else..huh ?... wait for the next notifier call
}
void KviKvsObject_socket::acceptConnection(kvi_socket_t s,kvi_u32_t uPort,const char * szIp)
{
reset();
m_sock = s;
m_uRemotePort = uPort;
m_szRemoteIp = szIp;
#ifdef COMPILE_IPV6_SUPPORT
KviSockaddr sareal(0,m_bIpV6,m_bUdp);
#else
KviSockaddr sareal(0,false,m_bUdp);
#endif
int size = (int)sareal.addressLength();
if(kvi_socket_getsockname(m_sock,sareal.socketAddress(),&size))
{
m_uLocalPort = sareal.port();
sareal.getStringAddress(m_szLocalIp);
}
m_iStatus = KVI_SCRIPT_SOCKET_STATUS_CONNECTED;
m_pSn = new TQSocketNotifier((int)m_sock,TQSocketNotifier::Read);
TQObject::connect(m_pSn,TQT_SIGNAL(activated(int)),this,TQT_SLOT(readNotifierFired(int)));
m_pSn->setEnabled(true);
}
void KviKvsObject_socket::delayedConnect()
{
if(m_pDelayTimer)delete m_pDelayTimer;
m_pDelayTimer = new TQTimer();
connect(m_pDelayTimer,TQT_SIGNAL(timeout()),this,TQT_SLOT(doConnect()));
m_pDelayTimer->start(0,true);
}
void KviKvsObject_socket::doConnect()
{
tqDebug ("doConnect function");
if(m_pDelayTimer)delete m_pDelayTimer;
m_pDelayTimer = 0;
KviSockaddr sa(m_szRemoteIp,m_uRemotePort,!kvi_isValidStringIp(m_szRemoteIp),m_bUdp);
if(!sa.socketAddress())
{
unsigned int uOldConnectionId = m_uConnectionId;
TQString ipAddressError=__tr2qs("Invalid ip address ");
ipAddressError.append(m_szRemoteIp);
KviKvsVariantList params;
TQString tmp;
KviTQString::sprintf(tmp,__tr2qs("Invalid ip address (%Q)"),&m_szRemoteIp);
params.append(new KviKvsVariant(tmp));
callFunction(this,"connectFailedEvent",¶ms);
/* callEventFunction("connectFailedEvent",0,new KviParameterList(
new KviStr(KviStr::Format,__tr("Invalid ip address (%s)"),m_szRemoteIp.ptr())));
*/ if(m_uConnectionId == uOldConnectionId)reset();
// else it has already been called!
return;
}
tqDebug ("Socket created");
// create the socket
#ifdef COMPILE_IPV6_SUPPORT
m_bIpV6 = sa.isIpV6();
m_sock = kvi_socket_create(sa.isIpV6() ? KVI_SOCKET_PF_INET6 : KVI_SOCKET_PF_INET,m_bUdp ? KVI_SOCKET_TYPE_DGRAM : KVI_SOCKET_TYPE_STREAM,KVI_SOCKET_PROTO_TCP);
#else
m_bIpV6 = false;
m_sock = kvi_socket_create(KVI_SOCKET_PF_INET,m_bUdp ? KVI_SOCKET_TYPE_DGRAM : KVI_SOCKET_TYPE_STREAM,KVI_SOCKET_PROTO_TCP);
#endif
if(m_sock == KVI_INVALID_SOCKET)
{
unsigned int uOldConnectionId = m_uConnectionId;
callFunction(this,"connectFailedEvent",new KviKvsVariantList(
new KviKvsVariant(__tr2qs("Failed to create the socket"))));
if(m_uConnectionId == uOldConnectionId)reset();
// else it has already been called!
return;
}
tqDebug ("Valid socket");
if(!kvi_socket_setNonBlocking(m_sock))
{
unsigned int uOldConnectionId = m_uConnectionId;
callFunction(this,"connectFailedEvent",new KviKvsVariantList(
new KviKvsVariant(__tr2qs("Failed to setup a nonblocking socket"))));
if(m_uConnectionId == uOldConnectionId)reset();
// else it has already been called!
return;
}
if(!kvi_socket_connect(m_sock,sa.socketAddress(),((int)(sa.addressLength()))))
{
int err = kvi_socket_error();
if(!kvi_socket_recoverableConnectError(err))
{
// Ops...
int sockError=err;
if(sockError==0)
{
// Zero error ?...let's look closer
int iSize=sizeof(int);
if(!kvi_socket_getsockopt(m_sock,SOL_SOCKET,SO_ERROR,
(void *)&sockError,&iSize))sockError=0;
}
unsigned int uOldConnectionId = m_uConnectionId;
TQString callBackError=__tr2qs("Connect failure: ");
callBackError.append((KviError::getDescription(KviError::translateSystemError(sockError)).utf8().data()));
callFunction(this,"connectFailedEvent",new KviKvsVariantList(
new KviKvsVariant(callBackError)));
/* callEventFunction("connectFailedEvent",0,new KviParameterList(
new KviStr(KviStr::Format,__tr("Connect failure: %s"),KviError::getDescription(KviError::translateSystemError(sockError)).utf8().data())));
*/ if(m_uConnectionId == uOldConnectionId)reset();
// else it has already been called!
return;
}
}
tqDebug ("Socket connected");
m_pDelayTimer = new TQTimer();
connect(m_pDelayTimer,TQT_SIGNAL(timeout()),this,TQT_SLOT(connectTimeout()));
m_pDelayTimer->start(m_uConnectTimeout,true);
m_pSn = new TQSocketNotifier((int)m_sock,TQSocketNotifier::Write);
TQObject::connect(m_pSn,TQT_SIGNAL(activated(int)),this,TQT_SLOT(writeNotifierFired(int)));
m_pSn->setEnabled(true);
}
void KviKvsObject_socket::connectTimeout()
{
unsigned int uOldConnectionId = m_uConnectionId;
callFunction(this,"connectFailedEvent",new KviKvsVariantList(
new KviKvsVariant(__tr2qs("Connect attempt timed out"))));
if(m_uConnectionId == uOldConnectionId)reset();
// else it has already been called!
}
void KviKvsObject_socket::delayedLookupRemoteIp()
{
if(m_pDelayTimer)delete m_pDelayTimer;
m_pDelayTimer = new TQTimer();
connect(m_pDelayTimer,TQT_SIGNAL(timeout()),this,TQT_SLOT(lookupRemoteIp()));
m_pDelayTimer->start(0,true);
}
void KviKvsObject_socket::lookupRemoteIp()
{
tqDebug ("Resolve dns");
if(m_pDelayTimer)delete m_pDelayTimer;
m_pDelayTimer = 0;
if(m_pDns)delete m_pDns;
m_pDns = new KviDns();
connect(m_pDns,TQT_SIGNAL(lookupDone(KviDns *)),this,TQT_SLOT(lookupDone(KviDns *)));
if(!m_pDns->lookup(m_szRemoteIp,KviDns::Any))
{
unsigned int uOldConnectionId = m_uConnectionId;
callFunction(this,"connectFailedEvent",new KviKvsVariantList(
new KviKvsVariant(__tr2qs("Can't start the DNS thread"))));
if(m_uConnectionId == uOldConnectionId)reset();
// else it has already been called!
}
}
void KviKvsObject_socket::lookupDone(KviDns *pDns)
{
if(pDns->state() != KviDns::Success)
{
unsigned int uOldConnectionId = m_uConnectionId;
callFunction(this,"connectFailedEvent",new KviKvsVariantList(
new KviKvsVariant(KviError::getDescription(pDns->error()))));
if(m_uConnectionId == uOldConnectionId)reset();
// else it has already been called!
return;
}
m_szRemoteIp = pDns->firstIpAddress();
tqDebug ("Dns resolved in %s",m_szRemoteIp.latin1());
delete m_pDns;
m_pDns = 0;
doConnect();
}
void KviKvsObject_socket::writeNotifierFired(int)
{
tqDebug ("Here in the writeNotifierFired");
if(m_pSn)
{
delete m_pSn;
m_pSn = 0;
}
if(m_pDelayTimer)
{
delete m_pDelayTimer;
m_pDelayTimer = 0;
}
// Check for errors...
int sockError;
int iSize=sizeof(int);
if(!kvi_socket_getsockopt(m_sock,SOL_SOCKET,SO_ERROR,(void *)&sockError,&iSize))sockError = -1;
//sockError = 0;
if(sockError != 0)
{
//tqDebug("Failed here %d",sockError);
//failed
if(sockError > 0)sockError = KviError::translateSystemError(sockError);
else sockError = KviError_unknownError; //Error 0 ?
unsigned int uOldConnectionId = m_uConnectionId;
callFunction(this,"connectFailedEvent",new KviKvsVariantList(
new KviKvsVariant(KviError::getDescription(sockError))));
if(m_uConnectionId == uOldConnectionId)reset();
// else it has already been called!
} else {
// Succesfully connected
// create the correct read notifier now...
m_pSn = new TQSocketNotifier((int)m_sock,TQSocketNotifier::Read);
TQObject::connect(m_pSn,TQT_SIGNAL(activated(int)),this,TQT_SLOT(readNotifierFired(int)));
m_pSn->setEnabled(true);
#ifdef COMPILE_IPV6_SUPPORT
KviSockaddr sareal(0,m_bIpV6,m_bUdp);
#else
KviSockaddr sareal(0,false,m_bUdp);
#endif
int size = (int)sareal.addressLength();
if(kvi_socket_getsockname(m_sock,sareal.socketAddress(),&size))
{
m_uLocalPort = sareal.port();
sareal.getStringAddress(m_szLocalIp);
}
unsigned int uOldConnectionId = m_uConnectionId;
KviKvsVariantList *params=0;
callFunction(this,"connectEvent",params);
if(m_uConnectionId == uOldConnectionId)
m_iStatus = KVI_SCRIPT_SOCKET_STATUS_CONNECTED;
// else the connection has been already changed!
}
}
void KviKvsObject_socket::readNotifierFired(int)
{
tqDebug ("here in the readNotifierFired");
//read data
if((m_uInBufferLen - m_uInDataLen) < KVI_READ_CHUNK)
{
m_uInBufferLen += KVI_IN_BUFFER_ALLOC_CHUNK;
m_pInBuffer = (char *)kvi_realloc(m_pInBuffer,m_uInBufferLen);
}
int readLength = kvi_socket_recv(m_sock,m_pInBuffer + m_uInDataLen,KVI_READ_CHUNK);
if(readLength <= 0)
{
if(readLength==0)
{
unsigned int uOldConnectionId = m_uConnectionId;
KviKvsVariantList *params=0;
callFunction(this,"disconnectEvent",params);
if(m_uConnectionId == uOldConnectionId)reset();
// else it has already been called!
return;
} else {
//check for transmission errors
int err = kvi_socket_error();
#ifdef COMPILE_ON_WINDOWS
if((err != EAGAIN) && (err != EINTR) && (err != WSAEWOULDBLOCK))
#else
if((err != EAGAIN) && (err != EINTR))
#endif
{
unsigned int uOldConnectionId = m_uConnectionId;
if(err > 0)
{
// TQString error=KviError::translateSystemError(err);
callFunction(this,"disconnectEvent",new KviKvsVariantList(
new KviKvsVariant((kvs_int_t)KviError::translateSystemError(err))));
} else {
callFunction(this,"disconnectEvent",new KviKvsVariantList(
new KviKvsVariant(KviError::getDescription(KviError_remoteEndClosedConnection))));
}
if(m_uConnectionId == uOldConnectionId)reset();
// else it has already been called!
return;
} //else transient error...wait again...
}
return; // can do nothing
}
// readLength > 0
m_uInDataLen += readLength;
//KviStr * s = new KviStr();
TQString s;
s.setNum(m_uInDataLen);
unsigned int uOldConnectionId = m_uConnectionId;
callFunction(this,"dataAvailableEvent",new KviKvsVariantList(new KviKvsVariant(s)));
if(m_uConnectionId == uOldConnectionId)
{
if(m_uInDataLen > (4096 * 1024)) // too much data in buffer (not reading)
{
callFunction(this,"disconnectEvent",new KviKvsVariantList(
new KviKvsVariant(__tr2qs("Too much unprocessed incoming data (you've left this socket unmanaged ?)"))));
reset();
}
}
}
void KviKvsObject_socket::eatInData(unsigned int uLen)
{
if(uLen > m_uInDataLen)uLen = m_uInDataLen;
m_uInDataLen -= uLen;
if(m_uInDataLen > 0)
{
kvi_memmove(m_pInBuffer,m_pInBuffer + uLen,m_uInDataLen);
}
unsigned int uSpace = m_uInBufferLen - m_uInDataLen;
if(uSpace > KVI_IN_BUFFER_ALLOC_CHUNK)
{
m_uInBufferLen -= KVI_IN_BUFFER_ALLOC_CHUNK;
m_pInBuffer = (char *)kvi_realloc(m_pInBuffer,m_uInBufferLen);
}
}
void KviKvsObject_socket::delayedFlush(unsigned int uTimeout)
{
if(m_pFlushTimer->isActive())m_pFlushTimer->stop();
m_pFlushTimer->start(uTimeout);
}
void KviKvsObject_socket::tryFlush()
{
if(m_pFlushTimer->isActive())m_pFlushTimer->stop();
if(m_pOutBuffer->size() == 0)
{
return;
}
int result = kvi_socket_send(m_sock,m_pOutBuffer->data(),m_pOutBuffer->size());
if(result >= 0)
{
if(result == m_pOutBuffer->size())
{
m_pOutBuffer->clear();
} else {
if(result > 0)m_pOutBuffer->remove(result);
delayedFlush(500);
}
} else {
// Oops...error ?
int err = kvi_socket_error();
#ifdef COMPILE_ON_WINDOWS
if((err == EAGAIN) || (err == EINTR) || (err = WSAEWOULDBLOCK))
#else
if((err == EAGAIN)||(err == EINTR))
#endif
{
// Transient error...partial send as before...
// Async continue...
delayedFlush(500);
return;
} else {
// Disconnected... :(
unsigned int uOldConnectionId = m_uConnectionId;
callFunction(this,"disconnectEvent",0,new KviKvsVariantList(
new KviKvsVariant(KviError::getDescription(KviError::translateSystemError(err)))));
if(m_uConnectionId == uOldConnectionId)reset();
// else it has already been called!
return;
}
}
}
void KviKvsObject_socket::reset()
{
m_uConnectionId++; // this is the only place where this is incremented!
if(m_pDelayTimer)
{
delete m_pDelayTimer;
m_pDelayTimer = 0;
}
if(m_pDns)
{
delete m_pDns;
m_pDns = 0;
}
if(m_pSn)
{
delete m_pSn;
m_pSn = 0;
}
if(m_sock != KVI_INVALID_SOCKET)
{
kvi_socket_close(m_sock);
m_sock = KVI_INVALID_SOCKET;
}
if(m_pInBuffer)
{
kvi_free(m_pInBuffer);
m_pInBuffer = 0;
}
if(m_secondarySock)
{
kvi_socket_close(m_secondarySock);
m_secondarySock = KVI_INVALID_SOCKET;
}
m_uSecondaryPort = 0;
m_szSecondaryIp="";
delete m_pOutBuffer;
if(m_pFlushTimer->isActive())m_pFlushTimer->stop();
m_pOutBuffer = new KviDataBuffer();
m_uInBufferLen = 0;
m_uInDataLen = 0;
m_iStatus = KVI_SCRIPT_SOCKET_STATUS_DISCONNECTED;
m_uRemotePort = 0;
m_szRemoteIp="";
m_uLocalPort = 0;
m_szLocalIp="";
m_bIpV6 = false;
}
unsigned int KviKvsObject_socket::readGetLength(KviKvsObjectFunctionCall *c)
{
kvs_uint_t uLen;
KVSO_PARAMETERS_BEGIN(c)
KVSO_PARAMETER("length",KVS_PT_UNSIGNEDINTEGER,KVS_PF_OPTIONAL,uLen)
KVSO_PARAMETERS_END(c)
if (uLen>m_uInDataLen || !uLen) return m_uInDataLen;
else return uLen;
}
bool KviKvsObject_socket::functionRead(KviKvsObjectFunctionCall *c)
{
unsigned int uLen = readGetLength(c);
if(uLen > 0)
{
// convert NULLS to char 255
for(unsigned int i = 0;i < uLen;i++)
{
if(!m_pInBuffer[i])m_pInBuffer[i] = (char)(255);
}
TQString tmpBuffer = TQString::fromUtf8(m_pInBuffer,uLen);
c->returnValue()->setString(tmpBuffer);
eatInData(uLen);
}
return true;
}
bool KviKvsObject_socket::functionReadHex(KviKvsObjectFunctionCall *c)
{
//??? funzioner�
unsigned int uLen = readGetLength(c);
bool bOk;
if(uLen > 0)
{
TQString szTmp;
szTmp =m_pInBuffer;
szTmp.toInt(&bOk,16);
c->returnValue()->setString(szTmp);
eatInData(uLen);
}
return true;
}
bool KviKvsObject_socket::functionWrite(KviKvsObjectFunctionCall *c)
{
TQString szData;
KVSO_PARAMETERS_BEGIN(c)
KVSO_PARAMETER("szData",KVS_PT_STRING,0,szData)
KVSO_PARAMETERS_END(c)
KviTQCString szData8 = szData.utf8();
if(szData8.length() > 0)
{
m_pOutBuffer->append((const unsigned char*)szData8.data(),szData8.length());
delayedFlush(0);
}
return true;
}
//--------------
#include "m_class_socket.moc"
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