void YahooClient::moveBuddy(YahooUserData *data, const char *grp)
{
if (getState() != Connected)
return;
if (data->Group.ptr == NULL) {
if ((grp == NULL) || (*grp == 0))
return;
set_str(&data->Group.ptr, grp);
addBuddy(data);
return;
}
if ((grp == NULL) || (*grp == 0)) {
removeBuddy(data);
return;
}
if (!strcmp(data->Group.ptr, grp))
return;
addParam(1, getLogin().utf8());
addParam(7, data->Login.ptr);
addParam(65, grp);
sendPacket(YAHOO_SERVICE_ADDBUDDY);
addParam(1, getLogin().utf8());
addParam(7, data->Login.ptr);
addParam(65, data->Group.ptr ? data->Group.ptr : "");
sendPacket(YAHOO_SERVICE_REMBUDDY);
set_str(&data->Group.ptr, grp);
}
void TelepathyAccountHandler::addContact(TpContact* contact)
{
UT_DEBUGMSG(("TelepathyAccountHandler::addContact()\n"));
UT_return_if_fail(contact);
TelepathyBuddyPtr pBuddy = boost::shared_ptr<TelepathyBuddy>(new TelepathyBuddy(this, contact));
TelepathyBuddyPtr pExistingBuddy = _getBuddy(pBuddy);
if (!pExistingBuddy)
addBuddy(pBuddy);
}
YahooUserData *YahooClient::findContact(const char *id, const char *grpname, Contact *&contact, bool bSend)
{
ContactList::ContactIterator it;
while ((contact = ++it) != NULL) {
YahooUserData *data;
ClientDataIterator itd(contact->clientData);
while ((data = (YahooUserData*)(++itd)) != NULL) {
if (data->Login.ptr && !strcmp(id, data->Login.ptr))
return data;
}
}
it.reset();
while ((contact = ++it) != NULL) {
if (contact->getName() == id) {
YahooUserData *data = (YahooUserData*)contact->clientData.createData(this);
set_str(&data->Login.ptr, id);
set_str(&data->Group.ptr, grpname);
Event e(EventContactChanged, contact);
e.process();
return data;
}
}
if (grpname == NULL)
return NULL;
Group *grp = NULL;
if (*grpname) {
ContactList::GroupIterator it;
while ((grp = ++it) != NULL)
if (grp->getName() == QString::fromLocal8Bit(grpname))
break;
if (grp == NULL) {
grp = getContacts()->group(0, true);
grp->setName(QString::fromLocal8Bit(grpname));
Event e(EventGroupChanged, grp);
e.process();
}
}
if (grp == NULL)
grp = getContacts()->group(0);
contact = getContacts()->contact(0, true);
YahooUserData *data = (YahooUserData*)(contact->clientData.createData(this));
set_str(&data->Login.ptr, id);
contact->setName(id);
contact->setGroup(grp->id());
Event e(EventContactChanged, contact);
e.process();
if (bSend)
addBuddy(data);
return data;
}
void TCPAccountHandler::_handleAccept(IOServerHandler* pHandler, boost::shared_ptr<Session> session)
{
UT_DEBUGMSG(("TCPAccountHandler::handleAccept\n"));
UT_return_if_fail(pHandler);
UT_return_if_fail(session);
// store this buddy/session
UT_UTF8String name;
UT_UTF8String_sprintf(name, "%s:%d", session->getRemoteAddress().c_str(), session->getRemotePort());
TCPBuddyPtr pBuddy = boost::shared_ptr<TCPBuddy>(new TCPBuddy(this,
session->getRemoteAddress(),
boost::lexical_cast<std::string>(session->getRemotePort())));
addBuddy(pBuddy);
m_clients.insert(std::pair<TCPBuddyPtr, boost::shared_ptr<Session> >(pBuddy, session));
// accept a new buddy/session
pHandler->asyncAccept();
}
void XMPPAccountHandler::handleMessage(const gchar* packet_data, const std::string& from_address)
{
UT_return_if_fail(packet_data);
UT_return_if_fail(from_address.size() > 0);
XMPPBuddyPtr pBuddy = _getBuddy(from_address);
if (!pBuddy)
{
// yay, a message from a new buddy
pBuddy = XMPPBuddyPtr(new XMPPBuddy(this, from_address.c_str()));
addBuddy(pBuddy);
}
// construct the packet
// NOTE: all packets are base64 encoded when sent over this backend, so we need to decode them
// FIXME: inefficient copying of data
std::string packet_str = packet_data;
size_t len = gsf_base64_decode_simple((guint8*)(&packet_str[0]), packet_str.size());
packet_str.resize(len);
Packet* pPacket = _createPacket(packet_str, pBuddy);
UT_return_if_fail(pPacket);
AccountHandler::handleMessage(pPacket, pBuddy);
}
ConnectResult TCPAccountHandler::connect()
{
UT_DEBUGMSG(("TCPAccountHandler::connect()\n"));
AbiCollabSessionManager* pManager = AbiCollabSessionManager::getManager();
UT_return_val_if_fail(pManager, CONNECT_INTERNAL_ERROR);
UT_return_val_if_fail(!m_pDelegator, CONNECT_INTERNAL_ERROR);
UT_return_val_if_fail(!m_bConnected, CONNECT_ALREADY_CONNECTED);
UT_return_val_if_fail(!m_thread, CONNECT_INTERNAL_ERROR);
m_io_service.reset();
m_thread = new asio::thread(boost::bind(&asio::io_service::run, &m_io_service));
// set up the connection
if (getProperty("server") == "")
{
UT_sint32 port = _getPort(getProperties());
UT_DEBUGMSG(("Start accepting connections on port %d...\n", port));
try
{
IOServerHandler* pDelegator = new IOServerHandler(port,
boost::bind(&TCPAccountHandler::_handleAccept, this, _1, _2),
boost::bind(&TCPAccountHandler::handleEvent, this, _1), m_io_service);
m_pDelegator = pDelegator;
m_bConnected = true; // todo: ask it to the acceptor
pDelegator->run();
}
catch (asio::system_error se)
{
UT_DEBUGMSG(("Failed to start accepting connections: %s\n", se.what()));
_teardownAndDestroyHandler();
return CONNECT_FAILED;
}
catch (...)
{
UT_DEBUGMSG(("Caught unhandled server exception!\n"));
_teardownAndDestroyHandler();
return CONNECT_FAILED;
}
}
else
{
UT_DEBUGMSG(("Connecting to server %s on port %d...\n", getProperty("server").c_str(), _getPort(getProperties())));
try
{
asio::ip::tcp::resolver resolver(m_io_service);
asio::ip::tcp::resolver::query query(getProperty("server"), getProperty("port"));
asio::ip::tcp::resolver::iterator iterator(resolver.resolve(query));
bool connected = false;
boost::shared_ptr<Session> session_ptr(new Session(m_io_service, boost::bind(&TCPAccountHandler::handleEvent, this, _1)));
while (iterator != tcp::resolver::iterator())
{
try
{
UT_DEBUGMSG(("Attempting to connect...\n"));
session_ptr->connect(iterator);
UT_DEBUGMSG(("Connected!\n"));
connected = true;
break;
}
catch (asio::system_error se)
{
UT_DEBUGMSG(("Connection attempt failed: %s\n", se.what()));
// make sure we close the socket after a failed attempt, as it
// may have been opened by the connect() call.
try { session_ptr->getSocket().close(); } catch(...) {}
}
iterator++;
}
if (!connected)
{
UT_DEBUGMSG(("Giving up to connecting to server!\n"));
_teardownAndDestroyHandler();
return CONNECT_FAILED;
}
session_ptr->asyncReadHeader();
m_bConnected = true; // todo: ask it to the socket
// Add a buddy
TCPBuddyPtr pBuddy = boost::shared_ptr<TCPBuddy>(new TCPBuddy(this,
session_ptr->getRemoteAddress(),
boost::lexical_cast<std::string>(session_ptr->getRemotePort())));
addBuddy(pBuddy);
m_clients.insert(std::pair<TCPBuddyPtr, boost::shared_ptr<Session> >(pBuddy, session_ptr));
}
catch (asio::system_error se)
{
UT_DEBUGMSG(("Failed to resolve %s:%d: %s\n", getProperty("server").c_str(), _getPort(getProperties()), se.what()));
_teardownAndDestroyHandler();
return CONNECT_FAILED;
}
}
if (!m_bConnected)
return CONNECT_FAILED;
// we are connected now, time to start sending out messages (such as events)
pManager->registerEventListener(this);
// signal all listeners we are logged in
AccountOnlineEvent event;
// TODO: fill the event
AbiCollabSessionManager::getManager()->signal(event);
return CONNECT_SUCCESS;
}
