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/*
Copyright (c) 2015 Miranda NG project (http://miranda-ng.org)
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 version 2
of the License.
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, see <http://www.gnu.org/licenses/>.
*/
#include "stdafx.h"
HANDLE CSkypeProto::m_hCallEvent;
void CSkypeProto::OnCreateTrouter(const NETLIBHTTPREQUEST *response)
{
if (response == NULL || response->pData == NULL)
{
ShowNotification(m_tszUserName, TranslateT("Failed establish a TRouter connection."), NULL, 1);
return;
}
JSONNode root = JSONNode::parse(response->pData);
if (!root) {
ShowNotification(m_tszUserName, TranslateT("Failed establish a TRouter connection."), NULL, 1);
return;
}
const JSONNode &ccid = root["ccid"];
const JSONNode &connId = root["connId"];
const JSONNode &instance = root["instance"];
const JSONNode &socketio = root["socketio"];
const JSONNode &url = root["url"];
if (!ccid || !connId || !instance || !socketio || !url)
{
ShowNotification(m_tszUserName, TranslateT("Failed establish a TRouter connection."), NULL, 1);
return;
}
TRouter.ccid = ccid.as_string();
TRouter.connId = connId.as_string();
TRouter.instance = instance.as_string();
TRouter.socketIo = socketio.as_string();
TRouter.url = url.as_string();
SendRequest(new CreateTrouterPoliciesRequest(m_szTokenSecret, TRouter.connId.c_str()), &CSkypeProto::OnTrouterPoliciesCreated);
}
void CSkypeProto::OnTrouterPoliciesCreated(const NETLIBHTTPREQUEST *response)
{
if (response == NULL || response->pData == NULL)
{
ShowNotification(m_tszUserName, TranslateT("Failed establish a TRouter connection."), NULL, 1);
return;
}
JSONNode root = JSONNode::parse(response->pData);
if (!root)
{
ShowNotification(m_tszUserName, TranslateT("Failed establish a TRouter connection."), NULL, 1);
return;
}
const JSONNode &st = root["st"];
const JSONNode &se = root["se"];
const JSONNode &sig = root["sig"];
if (!st || !se || !sig)
{
ShowNotification(m_tszUserName, TranslateT("Failed establish a TRouter connection."), NULL, 1);
return;
}
TRouter.st = st.as_string();
TRouter.se = se.as_string();
TRouter.sig = sig.as_string();
SendRequest(new GetTrouterRequest(
TRouter.socketIo,
TRouter.connId,
TRouter.st,
TRouter.se,
TRouter.sig,
TRouter.instance,
TRouter.ccid), &CSkypeProto::OnGetTrouter);
}
void CSkypeProto::OnGetTrouter(const NETLIBHTTPREQUEST *response)
{
if (response == NULL || response->pData == NULL)
{
ShowNotification(m_tszUserName, TranslateT("Failed establish a TRouter connection."), NULL, 1);
return;
}
CMStringA data(response->pData);
int iStart = 0;
CMStringA szToken = data.Tokenize(":", iStart).Trim();
TRouter.sessId = szToken.GetString();
if (!m_hTrouterThread)
m_hTrouterThread = ForkThreadEx(&CSkypeProto::TRouterThread, 0, NULL);
else
SetEvent(m_hTrouterEvent);
if ((time(NULL) - TRouter.lastRegistrationTime) >= 3600)
{
SendRequest(new RegisterTrouterRequest(m_szTokenSecret, TRouter.url.c_str(), TRouter.sessId.c_str()));
TRouter.lastRegistrationTime = time(NULL);
}
}
void CSkypeProto::OnHealth(const NETLIBHTTPREQUEST*)
{
SendRequest(new GetTrouterRequest(
TRouter.socketIo,
TRouter.connId,
TRouter.st,
TRouter.se,
TRouter.sig,
TRouter.instance,
TRouter.ccid),
&CSkypeProto::OnGetTrouter);
}
void CSkypeProto::TRouterThread(void*)
{
debugLogA(__FUNCTION__": entering");
int errors = 0;
while (!isTerminated && errors < POLLING_ERRORS_LIMIT)
{
TrouterPollRequest *request = new TrouterPollRequest(TRouter.socketIo, TRouter.connId, TRouter.st, TRouter.se, TRouter.sig, TRouter.instance, TRouter.ccid, TRouter.sessId);
request->nlc = m_TrouterConnection;
NLHR_PTR response(request->Send(m_hNetlibUser));
if (response == NULL)
{
errors++;
delete request;
continue;
}
if (response->resultCode == 200)
{
if (response->pData)
{
char *json = strstr(response->pData, "{");
if (json != NULL)
{
JSONNode root = JSONNode::parse(json);
std::string szBody = root["body"].as_string();
const JSONNode &headers = root["headers"];
const JSONNode body = JSONNode::parse(szBody.c_str());
OnTrouterEvent(body, headers);
}
}
}
else
{
SendRequest(new HealthTrouterRequest(TRouter.ccid.c_str()), &CSkypeProto::OnHealth);
WaitForSingleObject(m_hTrouterEvent, INFINITE);
}
m_TrouterConnection = response->nlc;
delete request;
}
m_hTrouterThread = NULL;
m_TrouterConnection = NULL;
debugLogA(__FUNCTION__": leaving");
}
void CSkypeProto::OnTrouterEvent(const JSONNode &body, const JSONNode &)
{
//std::string displayname = body["displayName"].as_string();
//std::string cuid = body["callerId"].as_string();
std::string uid = body["conversationId"].as_string();
std::string gp = body["gp"].as_string();
int evt = body["evt"].as_int();
switch (evt)
{
case 100: //incoming call
{
std::string callId = body["convoCallId"].as_string();
if (!uid.empty())
{
MCONTACT hContact = AddContact(uid.c_str(), true);
MEVENT hEvent = AddDbEvent(SKYPE_DB_EVENT_TYPE_INCOMING_CALL, hContact, time(NULL), DBEF_READ, gp.c_str(), callId.c_str());
SkinPlaySound("skype_inc_call");
CLISTEVENT cle = { sizeof(cle) };
cle.flags |= CLEF_TCHAR;
cle.hContact = hContact;
cle.hDbEvent = hEvent;
cle.lParam = SKYPE_DB_EVENT_TYPE_INCOMING_CALL;
cle.hIcon = IcoLib_GetIconByHandle(GetIconHandle("inc_call"));
CMStringA service(FORMAT, "%s/IncomingCallCLE", GetContactProto(hContact));
cle.pszService = service.GetBuffer();
CMString tooltip(FORMAT, TranslateT("Incoming call from %s"), pcli->pfnGetContactDisplayName(hContact, 0));
cle.ptszTooltip = tooltip.GetBuffer();
CallService(MS_CLIST_ADDEVENT, 0, (LPARAM)&cle);
ShowNotification(pcli->pfnGetContactDisplayName(hContact, 0), TranslateT("Incoming call"), hContact, SKYPE_DB_EVENT_TYPE_INCOMING_CALL);
}
}
break;
case 104: //call canceled: callerId=""; conversationId=NULL; callId=call id
// std::string callId = body["callId"].as_string();
SkinPlaySound("skype_call_canceled");
break;
}
}
INT_PTR CSkypeProto::OnIncomingCallCLE(WPARAM, LPARAM lParam)
{
CLISTEVENT *cle = (CLISTEVENT*)lParam;
NotifyEventHooks(m_hCallEvent, (WPARAM)cle->hContact, (LPARAM)0);
return 0;
}
INT_PTR CSkypeProto::OnIncomingCallPP(WPARAM wParam, LPARAM hContact)
{
CLISTEVENT *cle = NULL;
while ((cle = (CLISTEVENT*)CallService(MS_CLIST_GETEVENT, hContact, 0)))
{
if (cle->lParam == SKYPE_DB_EVENT_TYPE_INCOMING_CALL)
{
CallService(MS_CLIST_REMOVEEVENT, hContact, cle->hDbEvent);
break;
}
}
if (wParam == 1)
NotifyEventHooks(m_hCallEvent, (WPARAM)hContact, (LPARAM)0);
return 0;
}
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