/* * libretroshare/src/services msgservice.cc * * Services for RetroShare. * * Copyright 2004-2008 by Robert Fernie. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License Version 2 as published by the Free Software Foundation. * * This 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 * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * USA. * * Please report all bugs and problems to "retroshare@lunamutt.com". * */ #include "retroshare/rsiface.h" #include "retroshare/rspeers.h" #include "pqi/pqibin.h" #include "pqi/pqiarchive.h" #include "pqi/p3linkmgr.h" #include "pqi/authgpg.h" #include "services/p3msgservice.h" #include "pgp/pgpkeyutil.h" #include "pqi/p3cfgmgr.h" #include "rsserver/p3face.h" #include "serialiser/rsconfigitems.h" #include "util/rsdebug.h" #include "util/rsdir.h" #include "util/rsstring.h" #include "util/radix64.h" #include "util/rsrandom.h" #include #include //#define MSG_DEBUG 1 //#define DEBUG_DISTANT_MSG //#define DISABLE_DISTANT_MESSAGES const int msgservicezone = 54319; static const uint32_t RS_DISTANT_MSG_STATUS_TUNNEL_OK = 0x0001 ; static const uint32_t RS_DISTANT_MSG_STATUS_TUNNEL_DN = 0x0000 ; static const uint32_t DISTANT_MSG_HASH_SIZE = 20 ; static const uint8_t ENCRYPTED_MSG_PROTOCOL_VERSION_01 = 0x37 ; /* Another little hack ..... unique message Ids * will be handled in this class..... * These are unique within this run of the server, * and are not stored long term.... * * Only 3 entry points: * (1) from network.... * (2) from local send * (3) from storage... */ p3MsgService::p3MsgService(p3LinkMgr *lm) :p3Service(RS_SERVICE_TYPE_MSG), p3Config(CONFIG_TYPE_MSGS), mLinkMgr(lm), mMsgMtx("p3MsgService"), mMsgUniqueId(time(NULL)) { _serialiser = new RsMsgSerialiser(); addSerialType(_serialiser); mDistantMessagingEnabled = true ; /* Initialize standard tag types */ if(lm) initStandardTagTypes(); } uint32_t p3MsgService::getNewUniqueMsgId() { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ return mMsgUniqueId++; } int p3MsgService::tick() { pqioutput(PQL_DEBUG_BASIC, msgservicezone, "p3MsgService::tick()"); /* don't worry about increasing tick rate! * (handled by p3service) */ incomingMsgs(); static time_t last_management_time = 0 ; time_t now = time(NULL) ; if(now > last_management_time + 5) { manageDistantPeers() ; checkOutgoingMessages(); last_management_time = now ; } return 0; } int p3MsgService::status() { pqioutput(PQL_DEBUG_BASIC, msgservicezone, "p3MsgService::status()"); return 1; } void p3MsgService::processMsg(RsMsgItem *mi, bool incoming) { mi -> recvTime = time(NULL); mi -> msgId = getNewUniqueMsgId(); { RsStackMutex stack(mMsgMtx); /*** STACK LOCKED MTX ***/ if (incoming) { /* from a peer */ mi->msgFlags &= (RS_MSG_FLAGS_ENCRYPTED | RS_MSG_FLAGS_SYSTEM); // remove flags except those mi->msgFlags |= RS_MSG_FLAGS_NEW; p3Notify *notify = RsServer::notify(); if (notify) { std::string title, message; librs::util::ConvertUtf16ToUtf8(mi->subject, title); librs::util::ConvertUtf16ToUtf8(mi->message, message); if(mi->msgFlags & RS_MSG_FLAGS_ENCRYPTED) notify->AddPopupMessage(RS_POPUP_ENCRYPTED_MSG, mi->PeerId(), title, message); else notify->AddPopupMessage(RS_POPUP_MSG, mi->PeerId(), title, message); std::string out; rs_sprintf(out, "%lu", mi->msgId); notify->AddFeedItem(RS_FEED_ITEM_MESSAGE, out, "", ""); } } else { mi->msgFlags |= RS_MSG_OUTGOING; } imsg[mi->msgId] = mi; RsMsgSrcId* msi = new RsMsgSrcId(); msi->msgId = mi->msgId; msi->srcId = mi->PeerId(); mSrcIds.insert(std::pair(msi->msgId, msi)); IndicateConfigChanged(); /**** INDICATE MSG CONFIG CHANGED! *****/ } RsServer::notify()->notifyListChange(NOTIFY_LIST_MESSAGELIST,NOTIFY_TYPE_ADD); /**** STACK UNLOCKED ***/ } bool p3MsgService::checkAndRebuildPartialMessage(RsMsgItem *ci) { // Check is the item is ending an incomplete item. // std::map::iterator it = _pendingPartialMessages.find(ci->PeerId()) ; bool ci_is_partial = ci->msgFlags & RS_MSG_FLAGS_PARTIAL ; if(it != _pendingPartialMessages.end()) { #ifdef MSG_DEBUG std::cerr << "Pending message found. Appending it." << std::endl; #endif // Yes, there is. Append the item to ci. ci->message = it->second->message + ci->message ; ci->msgFlags |= it->second->msgFlags ; delete it->second ; if(!ci_is_partial) _pendingPartialMessages.erase(it) ; } if(ci_is_partial) { #ifdef MSG_DEBUG std::cerr << "Message is partial, storing for later." << std::endl; #endif // The item is a partial message. Push it, and wait for the rest. // _pendingPartialMessages[ci->PeerId()] = ci ; return false ; } else { #ifdef MSG_DEBUG std::cerr << "Message is complete, using it now." << std::endl; #endif return true ; } } int p3MsgService::incomingMsgs() { RsMsgItem *mi; int i = 0; while((mi = (RsMsgItem *) recvItem()) != NULL) { handleIncomingItem(mi) ; ++i ; } return i; } void p3MsgService::handleIncomingItem(RsMsgItem *mi) { bool changed = false ; if(checkAndRebuildPartialMessage(mi)) // only returns true when a msg is complete. { processMsg(mi, true); changed = true ; } if(changed) RsServer::notify()->notifyListChange(NOTIFY_LIST_MESSAGELIST,NOTIFY_TYPE_MOD); } void p3MsgService::statusChange(const std::list &/*plist*/) { /* should do it properly! */ checkOutgoingMessages(); } void p3MsgService::checkSizeAndSendMessage(RsMsgItem *msg) { // We check the message item, and possibly split it into multiple messages, if the message is too big. static const uint32_t MAX_STRING_SIZE = 15000 ; std::cerr << "Msg is size " << msg->message.size() << std::endl; while(msg->message.size() > MAX_STRING_SIZE) { // chop off the first 15000 wchars RsMsgItem *item = new RsMsgItem(*msg) ; item->message = item->message.substr(0,MAX_STRING_SIZE) ; msg->message = msg->message.substr(MAX_STRING_SIZE,msg->message.size()-MAX_STRING_SIZE) ; #ifdef DEBUG_DISTANT_MSG std::cerr << " Chopped off msg of size " << item->message.size() << std::endl; #endif // Indicate that the message is to be continued. // item->msgFlags |= RS_MSG_FLAGS_PARTIAL ; if(msg->msgFlags & RS_MSG_FLAGS_DISTANT) sendPrivateMsgItem(item) ; else sendItem(item) ; } #ifdef DEBUG_DISTANT_MSG std::cerr << " Chopped off msg of size " << msg->message.size() << std::endl; #endif if(msg->msgFlags & RS_MSG_FLAGS_DISTANT) sendPrivateMsgItem(msg) ; else sendItem(msg) ; } int p3MsgService::checkOutgoingMessages() { /* iterate through the outgoing queue * * if online, send */ bool changed = false ; std::list output_queue ; { const std::string ownId = mLinkMgr->getOwnId(); std::list::iterator it; std::list toErase; RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ std::map::iterator mit; for(mit = msgOutgoing.begin(); mit != msgOutgoing.end(); mit++) { if (mit->second->msgFlags & RS_MSG_FLAGS_TRASH) { continue; } /* find the certificate */ std::string pid = mit->second->PeerId(); bool tunnel_is_ok = false ; if(mit->second->msgFlags & RS_MSG_FLAGS_DISTANT) { // Do we have a tunnel already? // #ifdef GROUTER tunnel_is_ok = true ; #else const std::string& hash = mit->second->PeerId() ; std::map::iterator it = _messenging_contacts.find(hash) ; if(it != _messenging_contacts.end()) { tunnel_is_ok = (it->second.status == RS_DISTANT_MSG_STATUS_TUNNEL_OK) ; #ifdef DEBUG_DISTANT_MSG std::cerr << "checkOutGoingMessages(): distant contact found. tunnel_is_ok = " << tunnel_is_ok << std::endl; #endif } else { #ifdef DEBUG_DISTANT_MSG std::cerr << "checkOutGoingMessages(): distant contact not found. Asking for tunnels for hash " << hash << std::endl; #endif // no. Ask for monitoring tunnels. rsTurtle->monitorTunnels(hash,this) ; tunnel_is_ok = false ; DistantMessengingContact& contact( _messenging_contacts[hash] ) ; contact.status = RS_DISTANT_MSG_STATUS_TUNNEL_DN ; contact.pending_messages = true ; } #endif } if(tunnel_is_ok || mLinkMgr->isOnline(pid) || pid == ownId) /* FEEDBACK Msg to Ourselves */ { /* send msg */ pqioutput(PQL_DEBUG_BASIC, msgservicezone, "p3MsgService::checkOutGoingMessages() Sending out message"); /* remove the pending flag */ (mit->second)->msgFlags &= ~RS_MSG_FLAGS_PENDING; output_queue.push_back(mit->second) ; toErase.push_back(mit->first); changed = true ; } else { pqioutput(PQL_DEBUG_BASIC, msgservicezone, "p3MsgService::checkOutGoingMessages() Delaying until available..."); } } /* clean up */ for(it = toErase.begin(); it != toErase.end(); it++) { mit = msgOutgoing.find(*it); if (mit != msgOutgoing.end()) { msgOutgoing.erase(mit); } std::map::iterator srcIt = mSrcIds.find(*it); if (srcIt != mSrcIds.end()) { delete (srcIt->second); mSrcIds.erase(srcIt); } } if (toErase.size() > 0) { IndicateConfigChanged(); /**** INDICATE MSG CONFIG CHANGED! *****/ } } for(std::list::const_iterator it(output_queue.begin());it!=output_queue.end();++it) { checkSizeAndSendMessage(*it) ; if( (*it)->msgFlags & RS_MSG_FLAGS_DISTANT ) { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ _messenging_contacts[(*it)->PeerId()].pending_messages = false ; #ifdef DEBUG_DISTANT_MSG std::cerr << "checkOutgoingMessages(): removing pending message flag for hash " << (*it)->PeerId() << "." << std::endl; #endif } } if(changed) RsServer::notify()->notifyListChange(NOTIFY_LIST_MESSAGELIST,NOTIFY_TYPE_MOD); return 0; } bool p3MsgService::saveList(bool& cleanup, std::list& itemList) { std::map::iterator mit; std::map::iterator mit2; std::map::iterator mit3; std::map::iterator lit; std::map::iterator mit4; MsgTagType stdTags; cleanup = false; mMsgMtx.lock(); for(mit = imsg.begin(); mit != imsg.end(); mit++) itemList.push_back(mit->second); for(lit = mSrcIds.begin(); lit != mSrcIds.end(); lit++) itemList.push_back(lit->second); for(mit = msgOutgoing.begin(); mit != msgOutgoing.end(); mit++) itemList.push_back(mit->second) ; for(mit2 = mTags.begin(); mit2 != mTags.end(); mit2++) itemList.push_back(mit2->second); for(mit3 = mMsgTags.begin(); mit3 != mMsgTags.end(); mit3++) itemList.push_back(mit3->second); for(mit4 = mParentId.begin(); mit4 != mParentId.end(); mit4++) itemList.push_back(mit4->second); for(std::map::const_iterator it(_messenging_invites.begin());it!=_messenging_invites.end();++it) { RsPublicMsgInviteConfigItem *item = new RsPublicMsgInviteConfigItem ; item->hash = it->first ; item->time_stamp = it->second.time_of_validity ; itemList.push_back(item) ; } RsConfigKeyValueSet *vitem = new RsConfigKeyValueSet ; RsTlvKeyValue kv; kv.key = "DISTANT_MESSAGES_ENABLED" ; kv.value = mDistantMessagingEnabled?"YES":"NO" ; vitem->tlvkvs.pairs.push_back(kv) ; itemList.push_back(vitem) ; return true; } void p3MsgService::saveDone() { // unlocks mutex which has been locked by savelist mMsgMtx.unlock(); } RsSerialiser* p3MsgService::setupSerialiser() { RsSerialiser *rss = new RsSerialiser ; rss->addSerialType(new RsMsgSerialiser(true)); rss->addSerialType(new RsGeneralConfigSerialiser()); return rss; } // build list of standard tag types static void getStandardTagTypes(MsgTagType &tags) { /* create standard tag types, the text must be translated in the GUI */ tags.types [RS_MSGTAGTYPE_IMPORTANT] = std::pair ("Important", 0xFF0000); tags.types [RS_MSGTAGTYPE_WORK] = std::pair ("Work", 0xFF9900); tags.types [RS_MSGTAGTYPE_PERSONAL] = std::pair ("Personal", 0x009900); tags.types [RS_MSGTAGTYPE_TODO] = std::pair ("Todo", 0x3333FF); tags.types [RS_MSGTAGTYPE_LATER] = std::pair ("Later", 0x993399); } // Initialize the standard tag types after load void p3MsgService::initStandardTagTypes() { bool bChanged = false; std::string ownId = mLinkMgr->getOwnId(); MsgTagType tags; getStandardTagTypes(tags); std::map >::iterator tit; for (tit = tags.types.begin(); tit != tags.types.end(); tit++) { std::map::iterator mit = mTags.find(tit->first); if (mit == mTags.end()) { RsMsgTagType* tagType = new RsMsgTagType(); tagType->PeerId (ownId); tagType->tagId = tit->first; tagType->text = tit->second.first; tagType->rgb_color = tit->second.second; mTags.insert(std::pair(tit->first, tagType)); bChanged = true; } } if (bChanged) { IndicateConfigChanged(); /**** INDICATE MSG CONFIG CHANGED! *****/ } } bool p3MsgService::loadList(std::list& load) { RsMsgItem *mitem; RsMsgTagType* mtt; RsMsgTags* mti; RsMsgSrcId* msi; RsMsgParentId* msp; RsPublicMsgInviteConfigItem* msv; std::list items; std::list::iterator it; std::map::iterator tagIt; std::map srcIdMsgMap; std::map::iterator srcIt; bool distant_messaging_set = false ; // load items and calculate next unique msgId for(it = load.begin(); it != load.end(); it++) { if (NULL != (mitem = dynamic_cast(*it))) { /* STORE MsgID */ if (mitem->msgId >= mMsgUniqueId) { mMsgUniqueId = mitem->msgId + 1; } items.push_back(mitem); } else if(NULL != (mtt = dynamic_cast(*it))) { // delete standard tags as they are now save in config if(mTags.end() == (tagIt = mTags.find(mtt->tagId))) { mTags.insert(std::pair(mtt->tagId, mtt)); } else { delete mTags[mtt->tagId]; mTags.erase(tagIt); mTags.insert(std::pair(mtt->tagId, mtt)); } } else if(NULL != (mti = dynamic_cast(*it))) { mMsgTags.insert(std::pair(mti->msgId, mti)); } else if(NULL != (msi = dynamic_cast(*it))) { srcIdMsgMap.insert(std::pair(msi->msgId, msi->srcId)); mSrcIds.insert(std::pair(msi->msgId, msi)); // does not need to be kept } else if(NULL != (msp = dynamic_cast(*it))) { mParentId.insert(std::pair(msp->msgId, msp)); } else if(NULL != (msv = dynamic_cast(*it))) { _messenging_invites[msv->hash].time_of_validity = msv->time_stamp ; } RsConfigKeyValueSet *vitem = NULL ; if(NULL != (vitem = dynamic_cast(*it))) for(std::list::const_iterator kit = vitem->tlvkvs.pairs.begin(); kit != vitem->tlvkvs.pairs.end(); ++kit) if(kit->key == "DISTANT_MESSAGES_ENABLED") { #ifdef MSG_DEBUG std::cerr << "Loaded config default nick name for distant chat: " << kit->value << std::endl ; #endif enableDistantMessaging(kit->value == "YES") ; distant_messaging_set = true ; } } if(!distant_messaging_set) { #ifdef DEBUG_DISTANT_MSG std::cerr << "No config value for distant messaging. Setting it to true." << std::endl; #endif enableDistantMessaging(true) ; } // sort items into lists std::list::iterator msgIt; for (msgIt = items.begin(); msgIt != items.end(); msgIt++) { mitem = *msgIt; /* STORE MsgID */ if (mitem->msgId == 0) { mitem->msgId = getNewUniqueMsgId(); } RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ srcIt = srcIdMsgMap.find(mitem->msgId); if(srcIt != srcIdMsgMap.end()) { mitem->PeerId(srcIt->second); srcIdMsgMap.erase(srcIt); } /* switch depending on the PENDING * flags */ if (mitem -> msgFlags & RS_MSG_FLAGS_PENDING) { //std::cerr << "MSG_PENDING"; //std::cerr << std::endl; //mitem->print(std::cerr); msgOutgoing[mitem->msgId] = mitem; } else { imsg[mitem->msgId] = mitem; } } RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ /* remove missing msgId in mSrcIds */ for (srcIt = srcIdMsgMap.begin(); srcIt != srcIdMsgMap.end(); srcIt++) { std::map::iterator it = mSrcIds.find(srcIt->first); if (it != mSrcIds.end()) { delete(it->second); mSrcIds.erase(it); } } /* remove missing msgId in mParentId */ std::map::iterator mit = mParentId.begin(); while (mit != mParentId.end()) { if (imsg.find(mit->first) == imsg.end()) { if (msgOutgoing.find(mit->first) == msgOutgoing.end()) { /* not found */ mParentId.erase(mit++); continue; } } mit++; } return true; } void p3MsgService::loadWelcomeMsg() { /* Load Welcome Message */ RsMsgItem *msg = new RsMsgItem(); //msg -> PeerId(mLinkMgr->getOwnId()); msg -> sendTime = time(NULL); msg -> recvTime = time(NULL); msg -> msgFlags = RS_MSG_FLAGS_NEW; msg -> subject = L"Welcome to Retroshare"; msg -> message = L"Send and receive messages with your friends...\n"; msg -> message += L"These can hold recommendations from your local shared files.\n\n"; msg -> message += L"Add recommendations through the Local Files Dialog.\n\n"; msg -> message += L"Enjoy."; msg -> msgId = getNewUniqueMsgId(); RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ imsg[msg->msgId] = msg; IndicateConfigChanged(); } /***********************************************************************/ /***********************************************************************/ /***********************************************************************/ /***********************************************************************/ /****************************************/ /****************************************/ bool p3MsgService::getMessageSummaries(std::list &msgList) { /* do stuff */ msgList.clear(); RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ std::map::iterator mit; for(mit = imsg.begin(); mit != imsg.end(); mit++) { MsgInfoSummary mis; initRsMIS(mit->second, mis); msgList.push_back(mis); } for(mit = msgOutgoing.begin(); mit != msgOutgoing.end(); mit++) { MsgInfoSummary mis; initRsMIS(mit->second, mis); msgList.push_back(mis); } return true; } bool p3MsgService::getMessage(const std::string &mId, MessageInfo &msg) { std::map::iterator mit; uint32_t msgId = atoi(mId.c_str()); RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ mit = imsg.find(msgId); if (mit == imsg.end()) { mit = msgOutgoing.find(msgId); if (mit == msgOutgoing.end()) { return false; } } /* mit valid */ initRsMI(mit->second, msg); return true; } void p3MsgService::getMessageCount(unsigned int *pnInbox, unsigned int *pnInboxNew, unsigned int *pnOutbox, unsigned int *pnDraftbox, unsigned int *pnSentbox, unsigned int *pnTrashbox) { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ if (pnInbox) *pnInbox = 0; if (pnInboxNew) *pnInboxNew = 0; if (pnOutbox) *pnOutbox = 0; if (pnDraftbox) *pnDraftbox = 0; if (pnSentbox) *pnSentbox = 0; if (pnTrashbox) *pnTrashbox = 0; std::map::iterator mit; std::map *apMsg [2] = { &imsg, &msgOutgoing }; for (int i = 0; i < 2; i++) { for (mit = apMsg [i]->begin(); mit != apMsg [i]->end(); mit++) { MsgInfoSummary mis; initRsMIS(mit->second, mis); if (mis.msgflags & RS_MSG_TRASH) { if (pnTrashbox) (*pnTrashbox)++; continue; } switch (mis.msgflags & RS_MSG_BOXMASK) { case RS_MSG_INBOX: if (pnInbox) (*pnInbox)++; if ((mis.msgflags & RS_MSG_NEW) == RS_MSG_NEW) { if (pnInboxNew) (*pnInboxNew)++; } break; case RS_MSG_OUTBOX: if (pnOutbox) (*pnOutbox)++; break; case RS_MSG_DRAFTBOX: if (pnDraftbox) (*pnDraftbox)++; break; case RS_MSG_SENTBOX: if (pnSentbox) (*pnSentbox)++; break; } } } } /* remove based on the unique mid (stored in sid) */ bool p3MsgService::removeMsgId(const std::string &mid) { std::map::iterator mit; uint32_t msgId = atoi(mid.c_str()); if (msgId == 0) { std::cerr << "p3MsgService::removeMsgId: Unknown msgId " << msgId << std::endl; return false; } bool changed = false; { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ mit = imsg.find(msgId); if (mit != imsg.end()) { changed = true; RsMsgItem *mi = mit->second; imsg.erase(mit); delete mi; } mit = msgOutgoing.find(msgId); if (mit != msgOutgoing.end()) { changed = true ; RsMsgItem *mi = mit->second; msgOutgoing.erase(mit); delete mi; } std::map::iterator srcIt = mSrcIds.find(msgId); if (srcIt != mSrcIds.end()) { changed = true; delete (srcIt->second); mSrcIds.erase(srcIt); } } if(changed) { IndicateConfigChanged(); /**** INDICATE MSG CONFIG CHANGED! *****/ setMessageTag(mid, 0, false); setMsgParentId(msgId, 0); RsServer::notify()->notifyListChange(NOTIFY_LIST_MESSAGELIST,NOTIFY_TYPE_MOD); } return changed; } bool p3MsgService::markMsgIdRead(const std::string &mid, bool unreadByUser) { std::map::iterator mit; uint32_t msgId = atoi(mid.c_str()); bool changed = false; { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ mit = imsg.find(msgId); if (mit != imsg.end()) { RsMsgItem *mi = mit->second; uint32_t msgFlags = mi->msgFlags; /* remove new state */ mi->msgFlags &= ~(RS_MSG_FLAGS_NEW); /* set state from user */ if (unreadByUser) { mi->msgFlags |= RS_MSG_FLAGS_UNREAD_BY_USER; } else { mi->msgFlags &= ~RS_MSG_FLAGS_UNREAD_BY_USER; } if (mi->msgFlags != msgFlags) { changed = true; IndicateConfigChanged(); /**** INDICATE MSG CONFIG CHANGED! *****/ } } else { return false; } } /* UNLOCKED */ if (changed) { RsServer::notify()->notifyListChange(NOTIFY_LIST_MESSAGELIST,NOTIFY_TYPE_MOD); } return true; } bool p3MsgService::setMsgFlag(const std::string &mid, uint32_t flag, uint32_t mask) { std::map::iterator mit; uint32_t msgId = atoi(mid.c_str()); bool changed = false; { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ mit = imsg.find(msgId); if (mit == imsg.end()) { mit = msgOutgoing.find(msgId); if (mit == msgOutgoing.end()) { return false; } } uint32_t oldFlag = mit->second->msgFlags; mit->second->msgFlags &= ~mask; mit->second->msgFlags |= flag; if (mit->second->msgFlags != oldFlag) { changed = true; IndicateConfigChanged(); /**** INDICATE MSG CONFIG CHANGED! *****/ } } /* UNLOCKED */ if (changed) { RsServer::notify()->notifyListChange(NOTIFY_LIST_MESSAGELIST,NOTIFY_TYPE_MOD); } return true; } bool p3MsgService::getMsgParentId(const std::string &msgId, std::string &msgParentId) { msgParentId.clear(); RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ std::map::iterator mit = mParentId.find(atoi(msgId.c_str())); if (mit == mParentId.end()) { return false; } rs_sprintf(msgParentId, "%lu", mit->second->msgParentId); return true; } bool p3MsgService::setMsgParentId(uint32_t msgId, uint32_t msgParentId) { std::map::iterator mit; bool changed = false; { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ mit = mParentId.find(msgId); if (mit == mParentId.end()) { if (msgParentId) { RsMsgParentId* msp = new RsMsgParentId(); msp->PeerId (mLinkMgr->getOwnId()); msp->msgId = msgId; msp->msgParentId = msgParentId; mParentId.insert(std::pair(msgId, msp)); changed = true; } } else { if (msgParentId) { if (mit->second->msgParentId != msgParentId) { mit->second->msgParentId = msgParentId; changed = true; } } else { delete mit->second; mParentId.erase(mit); changed = true; } } } /* UNLOCKED */ if (changed) { IndicateConfigChanged(); /**** INDICATE MSG CONFIG CHANGED! *****/ } return true; } /****************************************/ /****************************************/ /* Message Items */ int p3MsgService::sendMessage(RsMsgItem *item) { pqioutput(PQL_DEBUG_BASIC, msgservicezone, "p3MsgService::sendMessage()"); item -> msgId = getNewUniqueMsgId(); /* grabs Mtx as well */ { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ /* add pending flag */ item->msgFlags |= (RS_MSG_FLAGS_OUTGOING | RS_MSG_FLAGS_PENDING); /* STORE MsgID */ msgOutgoing[item->msgId] = item; if (item->PeerId() != mLinkMgr->getOwnId()) { /* not to the loopback device */ RsMsgSrcId* msi = new RsMsgSrcId(); msi->msgId = item->msgId; msi->srcId = item->PeerId(); mSrcIds.insert(std::pair(msi->msgId, msi)); } } IndicateConfigChanged(); /**** INDICATE MSG CONFIG CHANGED! *****/ RsServer::notify()->notifyListChange(NOTIFY_LIST_MESSAGELIST, NOTIFY_TYPE_ADD); checkOutgoingMessages(); return 1; } bool p3MsgService::MessageSend(MessageInfo &info) { std::list::const_iterator pit; for(pit = info.msgto.begin(); pit != info.msgto.end(); pit++) { RsMsgItem *msg = initMIRsMsg(info, *pit); if (msg) { sendMessage(msg); } } for(pit = info.msgcc.begin(); pit != info.msgcc.end(); pit++) { RsMsgItem *msg = initMIRsMsg(info, *pit); if (msg) { sendMessage(msg); } } for(pit = info.msgbcc.begin(); pit != info.msgbcc.end(); pit++) { RsMsgItem *msg = initMIRsMsg(info, *pit); if (msg) { sendMessage(msg); } } /* send to ourselves as well */ RsMsgItem *msg = initMIRsMsg(info, mLinkMgr->getOwnId()); if (msg) { std::list::iterator it ; // Update destination ids in place of distant message hash, since this Outgoing message is for display // for(it = msg->msgbcc.ids.begin(); it != msg->msgbcc.ids.end(); it++) if(info.encryption_keys.find(*it) != info.encryption_keys.end()) *it = info.encryption_keys[*it] ; for(it = msg->msgcc.ids.begin(); it != msg->msgcc.ids.end(); it++) if(info.encryption_keys.find(*it) != info.encryption_keys.end()) *it = info.encryption_keys[*it] ; for(it = msg->msgto.ids.begin(); it != msg->msgto.ids.end(); it++) if(info.encryption_keys.find(*it) != info.encryption_keys.end()) *it = info.encryption_keys[*it] ; if (msg->msgFlags & RS_MSG_FLAGS_SIGNED) msg->msgFlags |= RS_MSG_FLAGS_SIGNATURE_CHECKS; // this is always true, since we are sending the message /* use processMsg to get the new msgId */ processMsg(msg, false); // return new message id rs_sprintf(info.msgId, "%lu", msg->msgId); } return true; } bool p3MsgService::SystemMessage(const std::wstring &title, const std::wstring &message, uint32_t systemFlag) { if ((systemFlag & RS_MSG_SYSTEM) == 0) { /* no flag specified */ return false; } std::string ownId = mLinkMgr->getOwnId(); RsMsgItem *msg = new RsMsgItem(); msg->PeerId(ownId); msg->msgFlags = 0; if (systemFlag & RS_MSG_USER_REQUEST) { msg->msgFlags |= RS_MSG_FLAGS_USER_REQUEST; } if (systemFlag & RS_MSG_FRIEND_RECOMMENDATION) { msg->msgFlags |= RS_MSG_FLAGS_FRIEND_RECOMMENDATION; } msg->msgId = 0; msg->sendTime = time(NULL); msg->recvTime = 0; msg->subject = title; msg->message = message; msg->msgto.ids.push_back(ownId); processMsg(msg, true); return true; } bool p3MsgService::MessageToDraft(MessageInfo &info, const std::string &msgParentId) { RsMsgItem *msg = initMIRsMsg(info, mLinkMgr->getOwnId()); if (msg) { uint32_t msgId = 0; if (info.msgId.empty() == false) { msgId = atoi(info.msgId.c_str()); } if (msgId) { msg->msgId = msgId; } else { msg->msgId = getNewUniqueMsgId(); /* grabs Mtx as well */ } { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ /* add pending flag */ msg->msgFlags |= (RS_MSG_OUTGOING | RS_MSG_FLAGS_DRAFT); if (msgId) { // remove existing message std::map::iterator mit; mit = imsg.find(msgId); if (mit != imsg.end()) { RsMsgItem *mi = mit->second; imsg.erase(mit); delete mi; } } /* STORE MsgID */ imsg[msg->msgId] = msg; // return new message id rs_sprintf(info.msgId, "%lu", msg->msgId); } setMsgParentId(msg->msgId, atoi(msgParentId.c_str())); IndicateConfigChanged(); /**** INDICATE MSG CONFIG CHANGED! *****/ RsServer::notify()->notifyListChange(NOTIFY_LIST_MESSAGELIST,NOTIFY_TYPE_MOD); return true; } return false; } bool p3MsgService::getMessageTagTypes(MsgTagType& tags) { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ std::map::iterator mit; for(mit = mTags.begin(); mit != mTags.end(); mit++) { std::pair p(mit->second->text, mit->second->rgb_color); tags.types.insert(std::pair >(mit->first, p)); } return true; } bool p3MsgService::setMessageTagType(uint32_t tagId, std::string& text, uint32_t rgb_color) { int nNotifyType = 0; { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ std::map::iterator mit; mit = mTags.find(tagId); if (mit == mTags.end()) { if (tagId < RS_MSGTAGTYPE_USER) { std::cerr << "p3MsgService::MessageSetTagType: Standard tag type " << tagId << " cannot be inserted" << std::endl; return false; } /* new tag */ RsMsgTagType* tagType = new RsMsgTagType(); tagType->PeerId (mLinkMgr->getOwnId()); tagType->rgb_color = rgb_color; tagType->tagId = tagId; tagType->text = text; mTags.insert(std::pair(tagId, tagType)); nNotifyType = NOTIFY_TYPE_ADD; } else { if (mit->second->text != text || mit->second->rgb_color != rgb_color) { /* modify existing tag */ if (tagId >= RS_MSGTAGTYPE_USER) { mit->second->text = text; } else { /* don't change text for standard tag types */ if (mit->second->text != text) { std::cerr << "p3MsgService::MessageSetTagType: Text " << text << " for standard tag type " << tagId << " cannot be changed" << std::endl; } } mit->second->rgb_color = rgb_color; nNotifyType = NOTIFY_TYPE_MOD; } } } /* UNLOCKED */ if (nNotifyType) { IndicateConfigChanged(); /**** INDICATE MSG CONFIG CHANGED! *****/ RsServer::notify()->notifyListChange(NOTIFY_LIST_MESSAGE_TAGS, nNotifyType); return true; } return false; } bool p3MsgService::removeMessageTagType(uint32_t tagId) { if (tagId < RS_MSGTAGTYPE_USER) { std::cerr << "p3MsgService::MessageRemoveTagType: Can't delete standard tag type " << tagId << std::endl; return false; } { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ std::map::iterator mit; mit = mTags.find(tagId); if (mit == mTags.end()) { /* tag id not found */ std::cerr << "p3MsgService::MessageRemoveTagType: Tag Id not found " << tagId << std::endl; return false; } /* search for messages with this tag type */ std::map::iterator mit1; for (mit1 = mMsgTags.begin(); mit1 != mMsgTags.end(); ) { RsMsgTags* tag = mit1->second; std::list::iterator lit; lit = std::find(tag->tagIds.begin(), tag->tagIds.end(), tagId); if (lit != tag->tagIds.end()) { tag->tagIds.erase(lit); if (tag->tagIds.size() == 0) { /* remove empty tag */ delete(tag); mMsgTags.erase(mit1++); continue; } } mit1++; } /* remove tag type */ delete(mit->second); mTags.erase(mit); } /* UNLOCKED */ IndicateConfigChanged(); /**** INDICATE MSG CONFIG CHANGED! *****/ RsServer::notify()->notifyListChange(NOTIFY_LIST_MESSAGE_TAGS, NOTIFY_TYPE_DEL); return true; } bool p3MsgService::getMessageTag(const std::string &msgId, MsgTagInfo& info) { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ uint32_t mid = atoi(msgId.c_str()); if (mid == 0) { std::cerr << "p3MsgService::MessageGetMsgTag: Unknown msgId " << msgId << std::endl; return false; } std::map::iterator mit; if(mMsgTags.end() != (mit = mMsgTags.find(mid))) { rs_sprintf(info.msgId, "%lu", mit->second->msgId); info.tagIds = mit->second->tagIds; return true; } return false; } /* set == false && tagId == 0 --> remove all */ bool p3MsgService::setMessageTag(const std::string &msgId, uint32_t tagId, bool set) { uint32_t mid = atoi(msgId.c_str()); if (mid == 0) { std::cerr << "p3MsgService::MessageSetMsgTag: Unknown msgId " << msgId << std::endl; return false; } if (tagId == 0) { if (set == true) { std::cerr << "p3MsgService::MessageSetMsgTag: No valid tagId given " << tagId << std::endl; return false; } } int nNotifyType = 0; { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ std::map::iterator mit; mit = mMsgTags.find(mid); if (mit == mMsgTags.end()) { if (set) { /* new msg */ RsMsgTags* tag = new RsMsgTags(); tag->PeerId (mLinkMgr->getOwnId()); tag->msgId = mid; tag->tagIds.push_back(tagId); mMsgTags.insert(std::pair(tag->msgId, tag)); nNotifyType = NOTIFY_TYPE_ADD; } } else { RsMsgTags* tag = mit->second; /* search existing tagId */ std::list::iterator lit; if (tagId) { lit = std::find(tag->tagIds.begin(), tag->tagIds.end(), tagId); } else { lit = tag->tagIds.end(); } if (set) { if (lit == tag->tagIds.end()) { tag->tagIds.push_back(tagId); /* keep the list sorted */ tag->tagIds.sort(); nNotifyType = NOTIFY_TYPE_ADD; } } else { if (tagId == 0) { /* remove all */ delete(tag); mMsgTags.erase(mit); nNotifyType = NOTIFY_TYPE_DEL; } else { if (lit != tag->tagIds.end()) { tag->tagIds.erase(lit); nNotifyType = NOTIFY_TYPE_DEL; if (tag->tagIds.size() == 0) { /* remove empty tag */ delete(tag); mMsgTags.erase(mit); } } } } } } /* UNLOCKED */ if (nNotifyType) { IndicateConfigChanged(); /**** INDICATE MSG CONFIG CHANGED! *****/ RsServer::notify()->notifyListChange(NOTIFY_LIST_MESSAGE_TAGS, nNotifyType); return true; } return false; } bool p3MsgService::resetMessageStandardTagTypes(MsgTagType& tags) { MsgTagType standardTags; getStandardTagTypes(standardTags); std::map >::iterator mit; for (mit = standardTags.types.begin(); mit != standardTags.types.end(); mit++) { tags.types[mit->first] = mit->second; } return true; } /* move message to trash based on the unique mid */ bool p3MsgService::MessageToTrash(const std::string &mid, bool bTrash) { std::map::iterator mit; uint32_t msgId = atoi(mid.c_str()); bool bChanged = false; bool bFound = false; { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ RsMsgItem *mi = NULL; mit = imsg.find(msgId); if (mit != imsg.end()) { mi = mit->second; } else { mit = msgOutgoing.find(msgId); if (mit != msgOutgoing.end()) { mi = mit->second; } } if (mi) { bFound = true; if (bTrash) { if ((mi->msgFlags & RS_MSG_FLAGS_TRASH) == 0) { mi->msgFlags |= RS_MSG_FLAGS_TRASH; bChanged = true; } } else { if (mi->msgFlags & RS_MSG_FLAGS_TRASH) { mi->msgFlags &= ~RS_MSG_FLAGS_TRASH; bChanged = true; } } } } if (bChanged) { IndicateConfigChanged(); /**** INDICATE MSG CONFIG CHANGED! *****/ checkOutgoingMessages(); RsServer::notify()->notifyListChange(NOTIFY_LIST_MESSAGELIST,NOTIFY_TYPE_MOD); } return bFound; } /****************************************/ /****************************************/ /****************************************/ /**** HELPER FNS For Chat/Msg/Channel Lists ************ * These aren't required to be locked, unless * the data used is from internal stores -> then they should be. */ void p3MsgService::initRsMI(RsMsgItem *msg, MessageInfo &mi) { mi.msgflags = 0; /* translate flags, if we sent it... outgoing */ if ((msg->msgFlags & RS_MSG_FLAGS_OUTGOING) /*|| (msg->PeerId() == mLinkMgr->getOwnId())*/) { mi.msgflags |= RS_MSG_OUTGOING; } /* if it has a pending flag, then its in the outbox */ if (msg->msgFlags & RS_MSG_FLAGS_PENDING) { mi.msgflags |= RS_MSG_PENDING; } if (msg->msgFlags & RS_MSG_FLAGS_DRAFT) { mi.msgflags |= RS_MSG_DRAFT; } if (msg->msgFlags & RS_MSG_FLAGS_NEW) { mi.msgflags |= RS_MSG_NEW; } if (msg->msgFlags & RS_MSG_FLAGS_SIGNED) mi.msgflags |= RS_MSG_SIGNED ; if (msg->msgFlags & RS_MSG_FLAGS_SIGNATURE_CHECKS) mi.msgflags |= RS_MSG_SIGNATURE_CHECKS ; if (msg->msgFlags & RS_MSG_FLAGS_ENCRYPTED) mi.msgflags |= RS_MSG_ENCRYPTED ; if (msg->msgFlags & RS_MSG_FLAGS_DECRYPTED) mi.msgflags |= RS_MSG_DECRYPTED ; if (msg->msgFlags & RS_MSG_FLAGS_TRASH) { mi.msgflags |= RS_MSG_TRASH; } if (msg->msgFlags & RS_MSG_FLAGS_UNREAD_BY_USER) { mi.msgflags |= RS_MSG_UNREAD_BY_USER; } if (msg->msgFlags & RS_MSG_FLAGS_REPLIED) { mi.msgflags |= RS_MSG_REPLIED; } if (msg->msgFlags & RS_MSG_FLAGS_FORWARDED) { mi.msgflags |= RS_MSG_FORWARDED; } if (msg->msgFlags & RS_MSG_FLAGS_STAR) { mi.msgflags |= RS_MSG_STAR; } if (msg->msgFlags & RS_MSG_FLAGS_USER_REQUEST) { mi.msgflags |= RS_MSG_USER_REQUEST; } if (msg->msgFlags & RS_MSG_FLAGS_FRIEND_RECOMMENDATION) { mi.msgflags |= RS_MSG_FRIEND_RECOMMENDATION; } if (msg->msgFlags & RS_MSG_FLAGS_LOAD_EMBEDDED_IMAGES) { mi.msgflags |= RS_MSG_LOAD_EMBEDDED_IMAGES; } mi.ts = msg->sendTime; mi.srcId = msg->PeerId(); { //msg->msgId; rs_sprintf(mi.msgId, "%lu", msg->msgId); } std::list::iterator pit; for(pit = msg->msgto.ids.begin(); pit != msg->msgto.ids.end(); pit++) { mi.msgto.push_back(*pit); } for(pit = msg->msgcc.ids.begin(); pit != msg->msgcc.ids.end(); pit++) { mi.msgcc.push_back(*pit); } for(pit = msg->msgbcc.ids.begin(); pit != msg->msgbcc.ids.end(); pit++) { mi.msgbcc.push_back(*pit); } mi.title = msg->subject; mi.msg = msg->message; mi.attach_title = msg->attachment.title; mi.attach_comment = msg->attachment.comment; mi.count = 0; mi.size = 0; std::list::iterator it; for(it = msg->attachment.items.begin(); it != msg->attachment.items.end(); it++) { FileInfo fi; fi.fname = RsDirUtil::getTopDir(it->name); fi.size = it->filesize; fi.hash = it->hash; fi.path = it->path; mi.files.push_back(fi); mi.count++; mi.size += fi.size; } } void p3MsgService::initRsMIS(RsMsgItem *msg, MsgInfoSummary &mis) { mis.msgflags = 0; if (msg->msgFlags & RS_MSG_FLAGS_ENCRYPTED) mis.msgflags |= RS_MSG_ENCRYPTED ; if (msg->msgFlags & RS_MSG_FLAGS_DECRYPTED) mis.msgflags |= RS_MSG_DECRYPTED ; if (msg->msgFlags & RS_MSG_FLAGS_SIGNED) mis.msgflags |= RS_MSG_SIGNED ; if (msg->msgFlags & RS_MSG_FLAGS_SIGNATURE_CHECKS) mis.msgflags |= RS_MSG_SIGNATURE_CHECKS ; /* translate flags, if we sent it... outgoing */ if ((msg->msgFlags & RS_MSG_FLAGS_OUTGOING) /*|| (msg->PeerId() == mLinkMgr->getOwnId())*/) { mis.msgflags |= RS_MSG_OUTGOING; } /* if it has a pending flag, then its in the outbox */ if (msg->msgFlags & RS_MSG_FLAGS_PENDING) { mis.msgflags |= RS_MSG_PENDING; } if (msg->msgFlags & RS_MSG_FLAGS_DRAFT) { mis.msgflags |= RS_MSG_DRAFT; } if (msg->msgFlags & RS_MSG_FLAGS_NEW) { mis.msgflags |= RS_MSG_NEW; } if (msg->msgFlags & RS_MSG_FLAGS_TRASH) { mis.msgflags |= RS_MSG_TRASH; } if (msg->msgFlags & RS_MSG_FLAGS_UNREAD_BY_USER) { mis.msgflags |= RS_MSG_UNREAD_BY_USER; } if (msg->msgFlags & RS_MSG_FLAGS_REPLIED) { mis.msgflags |= RS_MSG_REPLIED; } if (msg->msgFlags & RS_MSG_FLAGS_FORWARDED) { mis.msgflags |= RS_MSG_FORWARDED; } if (msg->msgFlags & RS_MSG_FLAGS_STAR) { mis.msgflags |= RS_MSG_STAR; } if (msg->msgFlags & RS_MSG_FLAGS_USER_REQUEST) { mis.msgflags |= RS_MSG_USER_REQUEST; } if (msg->msgFlags & RS_MSG_FLAGS_FRIEND_RECOMMENDATION) { mis.msgflags |= RS_MSG_FRIEND_RECOMMENDATION; } if (msg->msgFlags & RS_MSG_FLAGS_LOAD_EMBEDDED_IMAGES) { mis.msgflags |= RS_MSG_LOAD_EMBEDDED_IMAGES; } mis.srcId = msg->PeerId(); { //msg->msgId; rs_sprintf(mis.msgId, "%lu", msg->msgId); } mis.title = msg->subject; mis.count = msg->attachment.items.size(); mis.ts = msg->sendTime; } RsMsgItem *p3MsgService::initMIRsMsg(MessageInfo &info, const std::string &to) { RsMsgItem *msg = new RsMsgItem(); msg -> PeerId(to); msg -> msgFlags = 0; msg -> msgId = 0; msg -> sendTime = time(NULL); msg -> recvTime = 0; msg -> subject = info.title; msg -> message = info.msg; std::list::iterator pit; for(pit = info.msgto.begin(); pit != info.msgto.end(); pit++) { msg -> msgto.ids.push_back(*pit); } for(pit = info.msgcc.begin(); pit != info.msgcc.end(); pit++) { msg -> msgcc.ids.push_back(*pit); } /* We don't fill in bcc (unless to ourselves) */ if (to == mLinkMgr->getOwnId()) { for(pit = info.msgbcc.begin(); pit != info.msgbcc.end(); pit++) { msg -> msgbcc.ids.push_back(*pit); } } msg -> attachment.title = info.attach_title; msg -> attachment.comment = info.attach_comment; RsPeerDetails details ; if(!rsPeers->getPeerDetails(to,details)) msg->msgFlags |= RS_MSG_FLAGS_DISTANT; std::list::iterator it; for(it = info.files.begin(); it != info.files.end(); it++) { RsTlvFileItem mfi; mfi.hash = it -> hash; mfi.name = it -> fname; mfi.filesize = it -> size; msg -> attachment.items.push_back(mfi); } /* translate flags from outside */ if (info.msgflags & RS_MSG_USER_REQUEST) msg->msgFlags |= RS_MSG_FLAGS_USER_REQUEST; if (info.msgflags & RS_MSG_FRIEND_RECOMMENDATION) msg->msgFlags |= RS_MSG_FLAGS_FRIEND_RECOMMENDATION; if (info.msgflags & RS_MSG_SIGNED) msg->msgFlags |= RS_MSG_FLAGS_SIGNED; /* load embedded images from own messages */ msg->msgFlags |= RS_MSG_FLAGS_LOAD_EMBEDDED_IMAGES; // See if we need to encrypt this message. If so, we replace the msg text // by the whole message serialized and binary encrypted, so as to obfuscate // all its content. // if(info.encryption_keys.find(to) != info.encryption_keys.end()) encryptMessage(info.encryption_keys[to],msg) ; //std::cerr << "p3MsgService::initMIRsMsg()" << std::endl; //msg->print(std::cerr); return msg; } bool p3MsgService::encryptMessage(const std::string& pgp_id,RsMsgItem *item) { #ifdef DEBUG_DISTANT_MSG std::cerr << "Encrypting message with public key " << pgp_id << " in place." << std::endl; #endif // 0 - append own id to the data. // uint32_t rssize = _serialiser->size(item) ; unsigned char *data = (unsigned char *)malloc(1+rssize+PGP_KEY_ID_SIZE) ; // -1 - setup protocol version // #ifdef DEBUG_DISTANT_MSG std::cerr << " adding protocol version TAG = " << std::hex << (int)ENCRYPTED_MSG_PROTOCOL_VERSION_01 << std::dec << std::endl; #endif data[0] = ENCRYPTED_MSG_PROTOCOL_VERSION_01 ; #ifdef DEBUG_DISTANT_MSG std::cerr << " adding own key ID " << AuthGPG::getAuthGPG()->getGPGOwnId() << std::endl; #endif memcpy(&data[1], PGPIdType(AuthGPG::getAuthGPG()->getGPGOwnId()).toByteArray(), PGP_KEY_ID_SIZE) ; // 1 - serialise the whole message item into a binary chunk. // #ifdef DEBUG_DISTANT_MSG std::cerr << " serialising item..." << std::endl; #endif if(!_serialiser->serialise(item,&data[1+PGP_KEY_ID_SIZE],&rssize)) { std::cerr << "(EE) p3MsgService::encryptMessage(): Serialization error." << std::endl; free(data) ; return false; } // 2 - now sign the data, if necessary, and put the signature up front uint32_t signature_length = 0 ; unsigned char *signature_data = NULL ; if(item->msgFlags & RS_MSG_FLAGS_SIGNED) { #ifdef DEBUG_DISTANT_MSG std::cerr << " Signing the message..." << std::endl; #endif signature_length = 2000 ; signature_data = new unsigned char[signature_length] ; if(!AuthGPG::getAuthGPG()->SignDataBin(data,1+rssize+PGP_KEY_ID_SIZE,signature_data,&signature_length)) { free(data) ; std::cerr << "Signature failed!" << std::endl; return false; } #ifdef DEBUG_DISTANT_MSG std::cerr << " After signature: signature size = " << signature_length << std::endl; #endif } #ifdef DEBUG_DISTANT_MSG std::cerr << " total decrypted size = " << PGP_KEY_ID_SIZE + 1 + rssize + signature_length << std::endl; #endif // 3 - append the signature to the serialized data. if(signature_length > 0) { #ifdef DEBUG_DISTANT_MSG std::cerr << " Appending signature." << std::endl; #endif data = (uint8_t*)realloc(data,1+rssize+signature_length+PGP_KEY_ID_SIZE) ; memcpy(&data[1+rssize+PGP_KEY_ID_SIZE],signature_data,signature_length) ; } // 2 - pgp-encrypt the whole chunk with the user-supplied public key. // uint32_t encrypted_size = 1+rssize + PGP_KEY_ID_SIZE + signature_length + 1000 ; unsigned char *encrypted_data = new unsigned char[encrypted_size] ; #ifdef DEBUG_DISTANT_MSG std::cerr << " Encrypting for Key ID " << pgp_id << std::endl; #endif if(!AuthGPG::getAuthGPG()->encryptDataBin(pgp_id,data,1+rssize+signature_length+PGP_KEY_ID_SIZE,encrypted_data,&encrypted_size)) { free(data) ; delete[] encrypted_data ; std::cerr << "Encryption failed!" << std::endl; return false; } free(data) ; #ifdef DEBUG_DISTANT_MSG std::cerr << " Decrypted size = " << 1+rssize+signature_length+PGP_KEY_ID_SIZE << std::endl; std::cerr << " Encrypted size = " << encrypted_size << std::endl; std::cerr << " First bytes of encrypted data: " << std::hex << (int)encrypted_data[0] << " " << (int)encrypted_data[1] << " " << (int)encrypted_data[2] << std::dec << std::endl; std::cerr << " Encrypted data hash = " << RsDirUtil::sha1sum(encrypted_data,encrypted_size).toStdString() << std::endl; #endif // Now turn the binary encrypted chunk into a readable radix string. // std::string armoured_data ; Radix64::encode((char *)encrypted_data,encrypted_size,armoured_data) ; delete[] encrypted_data ; std::wstring encrypted_msg ; #ifdef DEBUG_DISTANT_MSG std::cerr << " Converting to radix64" << std::endl; #endif if(!librs::util::ConvertUtf8ToUtf16(armoured_data,encrypted_msg)) return false; // wipe the item clean and replace the message by the encrypted data. item->message = encrypted_msg ; item->subject = L"" ; item->msgcc.ids.clear() ; item->msgbcc.ids.clear() ; item->msgto.ids.clear() ; item->msgFlags |= RS_MSG_FLAGS_ENCRYPTED ; item->attachment.TlvClear() ; #ifdef DEBUG_DISTANT_MSG std::cerr << " Done" << std::endl; #endif return true ; } bool p3MsgService::decryptMessage(const std::string& mId) { uint32_t msgId = atoi(mId.c_str()); std::string encrypted_string ; #ifdef DEBUG_DISTANT_MSG std::cerr << "Decrypting message with Id " << mId << std::endl; #endif { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ std::map::iterator mit = imsg.find(msgId); if(mit == imsg.end() || !librs::util::ConvertUtf16ToUtf8(mit->second->message,encrypted_string)) { std::cerr << "Can't find this message in msg list. Id=" << mId << std::endl; return false; } } char *encrypted_data ; size_t encrypted_size ; Radix64::decode(encrypted_string,encrypted_data,encrypted_size) ; #ifdef DEBUG_DISTANT_MSG std::cerr << " Message has been radix64 decoded." << std::endl; #endif uint32_t decrypted_size = encrypted_size + 500 ; unsigned char *decrypted_data = new unsigned char[decrypted_size] ; #ifdef DEBUG_DISTANT_MSG std::cerr << " Calling decryption. Encrypted data size = " << encrypted_size << ", Allocated size = " << decrypted_size << std::endl; std::cerr << " First bytes of encrypted data: " << std::hex << (int)((unsigned char*)encrypted_data)[0] << " " << (int)((unsigned char*)encrypted_data)[1] << " " << (int)((unsigned char*)encrypted_data)[2] << std::dec << std::endl; std::cerr << " Encrypted data hash = " << RsDirUtil::sha1sum((uint8_t*)encrypted_data,encrypted_size).toStdString() << std::endl; #endif if(!AuthGPG::getAuthGPG()->decryptDataBin(encrypted_data,encrypted_size,decrypted_data,&decrypted_size)) { delete[] encrypted_data ; delete[] decrypted_data ; std::cerr << "decryption failed!" << std::endl; return false; } #ifdef DEBUG_DISTANT_MSG std::cerr << " Message has succesfully decrypted. Decrypted size = " << decrypted_size << std::endl; #endif // 1 - get the sender's id unsigned char protocol_version = decrypted_data[0] ; #ifdef DEBUG_DISTANT_MSG std::cerr << " Read protocol version number " << std::hex << (int)protocol_version << std::dec << std::endl; #endif if(protocol_version != ENCRYPTED_MSG_PROTOCOL_VERSION_01) { std::cerr << "Bad version number " << std::hex << (int)protocol_version << std::dec << " => packet is dropped." << std::endl; delete[] encrypted_data ; delete[] decrypted_data ; return false; } PGPIdType senders_id(&decrypted_data[1]) ; #ifdef DEBUG_DISTANT_MSG std::cerr << " Sender's ID: " << senders_id.toStdString() << std::endl; #endif // 2 - deserialize the item #ifdef DEBUG_DISTANT_MSG std::cerr << " Deserializing..." << std::endl; #endif uint32_t item_size = decrypted_size ; // just needs to be larger than the actual size. RsMsgItem *item = dynamic_cast(_serialiser->deserialise(&decrypted_data[1+PGP_KEY_ID_SIZE],&item_size)) ; if(item == NULL) { std::cerr << "Decrypted message could not be deserialized." << std::endl; return false ; } // 3 - check signature bool signature_present = false ; bool signature_ok = false ; if(1+item_size + PGP_KEY_ID_SIZE < decrypted_size) { std::cerr << " Signature is present. Verifying it..." << std::endl; PGPFingerprintType fingerprint ; if(!AuthGPG::getAuthGPG()->getKeyFingerprint(senders_id,fingerprint)) { std::cerr << "Cannot get fingerprint" << std::endl; return false ; } std::cerr << " Fingerprint = " << fingerprint.toStdString() << std::endl; signature_present = true ; signature_ok = AuthGPG::getAuthGPG()->VerifySignBin(decrypted_data, 1+PGP_KEY_ID_SIZE+item_size, &decrypted_data[1+PGP_KEY_ID_SIZE+item_size], decrypted_size - PGP_KEY_ID_SIZE - item_size - 1, fingerprint.toStdString()) ; } else if(1 + item_size + PGP_KEY_ID_SIZE == decrypted_size) std::cerr << " No signature in this packet" << std::endl; else { std::cerr << "Structural error in packet: sizes do not match. Dropping the message." << std::endl; return false ; } delete[] decrypted_data ; // 4 - replace the item with the decrypted data, and update flags #ifdef DEBUG_DISTANT_MSG std::cerr << " Decrypted message was succesfully deserialized. New message:" << std::endl; item->print(std::cerr,0) ; #endif std::string own_hash ; std::string own_pgp_id = AuthGPG::getAuthGPG()->getGPGOwnId(); getDistantMessageHash(own_pgp_id,own_hash) ; { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ // Keer the id. RsMsgItem& msgi( *imsg[msgId] ) ; msgi = *item ; // copy everything msgi.msgId = msgId ; // restore the correct message id, to make it consistent msgi.msgFlags &= ~RS_MSG_FLAGS_ENCRYPTED ; // just in case. msgi.msgFlags |= RS_MSG_FLAGS_DECRYPTED ; // previousy encrypted msg is now decrypted msgi.PeerId(senders_id.toStdString()) ; for(std::list::iterator it(msgi.msgto.ids.begin());it!=msgi.msgto.ids.end();++it) if(*it == own_hash) *it = own_pgp_id ; for(std::list::iterator it(msgi.msgcc.ids.begin());it!=msgi.msgcc.ids.end();++it) if(*it == own_hash) *it = own_pgp_id ; for(std::list::iterator it(msgi.msgbcc.ids.begin());it!=msgi.msgbcc.ids.end();++it) if(*it == own_hash) *it = own_pgp_id ; if(signature_present) { msgi.msgFlags |= RS_MSG_FLAGS_SIGNED ; if(signature_ok) msgi.msgFlags |= RS_MSG_FLAGS_SIGNATURE_CHECKS ; // just in case. else msgi.msgFlags &= ~RS_MSG_FLAGS_SIGNATURE_CHECKS ; // just in case. } std::map::iterator it = mSrcIds.find(msgi.msgId) ; if(it == mSrcIds.end()) { std::cerr << "Warning: could not find message source for id " << msgi.msgId << ". Weird." << std::endl; RsMsgSrcId* msi = new RsMsgSrcId(); msi->msgId = msgi.msgId; msi->srcId = senders_id.toStdString() ; mSrcIds.insert(std::pair(msi->msgId, msi)); } else { std::cerr << "Substituting source name for message id " << msgi.msgId << ": " << it->second->srcId << " -> " << senders_id.toStdString() << std::endl; it->second->srcId = senders_id.toStdString() ; } } delete item ; IndicateConfigChanged() ; RsServer::notify()->notifyListChange(NOTIFY_LIST_MESSAGELIST,NOTIFY_TYPE_MOD); return true ; } #ifdef GROUTER void p3MsgService::connectToGlobalRouter(p3GRouter *gr) { mGRouter = gr ; gr->registerClientService(RS_SERVICE_TYPE_MSG,this) ; } #endif void p3MsgService::connectToTurtleRouter(p3turtle *pt) { mTurtle = pt ; pt->registerTunnelService(this) ; } bool p3MsgService::createDistantOfflineMessengingInvite(time_t time_of_validity,TurtleFileHash& hash) { unsigned char hash_bytes[DISTANT_MSG_HASH_SIZE] ; RSRandom::random_bytes( hash_bytes, DISTANT_MSG_HASH_SIZE) ; hash = t_RsGenericIdType(hash_bytes).toStdString(false) ; DistantMessengingInvite invite ; invite.time_of_validity = time_of_validity + time(NULL); { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ _messenging_invites[hash] = invite ; } IndicateConfigChanged() ; return true ; } void p3MsgService::enableDistantMessaging(bool b) { // compute the hash std::string hash ; if(!getDistantMessageHash(AuthGPG::getAuthGPG()->getGPGOwnId(),hash)) return ; bool cchanged = false ; #ifdef DEBUG_DISTANT_MSG std::cerr << (b?"Enabling":"Disabling") << " distant messaging, with hash = " << hash << std::endl; #endif { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ std::map::iterator it = _messenging_invites.find(hash) ; if(b && it == _messenging_invites.end()) { DistantMessengingInvite invite ; invite.time_of_validity = time(NULL) + 10*365*86400; // 10 years from now _messenging_invites[hash] = invite ; mDistantMessagingEnabled = true ; #ifdef GROUTER std::cerr << "Notifying the global router." << std::endl; std::string pname = rsPeers->getPeerName(mLinkMgr->getOwnId()) ; Sha1CheckSum grouter_hash = RsDirUtil::sha1sum((uint8_t*)mLinkMgr->getOwnId().c_str(),16); mGRouter->registerKey(grouter_hash, RS_SERVICE_TYPE_MSG, std::string("Contact address for ")+pname) ; #endif cchanged = true ; } if((!b) && it != _messenging_invites.end()) { _messenging_invites.erase(it) ; mDistantMessagingEnabled = false ; #ifdef GROUTER mGRouter->unregisterKey(GRouterKeyId(hash)) ; #endif cchanged = true ; } } if(cchanged) IndicateConfigChanged() ; #ifdef DEBUG_DISTANT_MSG std::cerr << "List of distant message invites: " << std::endl; for(std::map::const_iterator it(_messenging_invites.begin());it!=_messenging_invites.end();++it) std::cerr << " hash = " << it->first << std::endl; #endif } bool p3MsgService::distantMessagingEnabled() { // compute the hash std::string hash ; if(!getDistantMessageHash(AuthGPG::getAuthGPG()->getGPGOwnId(),hash)) return false; bool res ; { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ res = _messenging_invites.find(hash) != _messenging_invites.end() ; } return res ; } bool p3MsgService::getDistantMessageHash(const std::string& pgp_id,std::string& hash) { if(pgp_id.length() != 16) { std::cerr << "pgp id \"" << pgp_id << "\" is not valid! Something definitly wrong." << std::endl; return false; } hash = RsDirUtil::sha1sum((uint8_t*)pgp_id.c_str(),16).toStdString() ; // Also check that we have the public key. return AuthGPG::getAuthGPG()->isKeySupported(pgp_id) ; } bool p3MsgService::getDistantOfflineMessengingInvites(std::vector& invites) { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ for(std::map::const_iterator it(_messenging_invites.begin());it!=_messenging_invites.end();++it) { DistantOfflineMessengingInvite invite ; invite.hash = it->first ; invite.issuer_pgp_id = AuthGPG::getAuthGPG()->getGPGOwnId() ; invite.time_of_validity = it->second.time_of_validity ; invites.push_back(invite) ; #ifdef DEBUG_DISTANT_MSG std::cerr << " adding invite with hash " << invite.hash << std::endl; #endif } return true ; } bool p3MsgService::handleTunnelRequest(const std::string& hash,const std::string& /*peer_id*/) { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ std::map::const_iterator it = _messenging_invites.find(hash) ; #ifdef DEBUG_DISTANT_MSG if(it != _messenging_invites.end()) { std::cerr << "p3MsgService::handleTunnelRequest: received TR for hash " << hash << std::endl; std::cerr << "Responding OK!" << std::endl; } #endif return it != _messenging_invites.end() ; } void p3MsgService::manageDistantPeers() { // now possibly flush pending messages #ifdef DEBUG_DISTANT_MSG std::cerr << "p3MsgService::manageDistantPeers()" << std::endl; #endif time_t now = time(NULL) ; { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ // clean dead invites. // for(std::map::iterator it(_messenging_invites.begin());it!=_messenging_invites.end();) if(it->second.time_of_validity < now) { #ifdef DEBUG_DISTANT_MSG std::cerr << " Removing outdated invite " << it->second.time_of_validity << ", hash=" << it->first << std::endl; #endif std::map::iterator tmp(it) ; ++tmp ; _messenging_invites.erase(it) ; it = tmp ; } else ++it ; // clean dead contacts. // for(std::map::iterator it(_messenging_contacts.begin());it!=_messenging_contacts.end();) if((!it->second.pending_messages) && it->second.status == RS_DISTANT_MSG_STATUS_TUNNEL_DN) { #ifdef DEBUG_DISTANT_MSG std::cerr << " Removing dead contact with no pending msgs and dead tunnel. hash=" << it->first << std::endl; #endif std::map::iterator tmp(it) ; ++tmp ; _messenging_contacts.erase(it) ; it = tmp ; } else ++it ; } } void p3MsgService::addVirtualPeer(const TurtleFileHash& hash, const TurtleVirtualPeerId& vpid,RsTurtleGenericTunnelItem::Direction /*dir*/) { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ // A new tunnel has been created. We need to flush pending messages for the corresponding peer. //std::map::const_iterator it = _messenging_contacts.find(hash) ; DistantMessengingContact& contact(_messenging_contacts[hash]) ; // possibly creates it. contact.virtual_peer_id = vpid ; contact.last_hit_time = time(NULL) ; contact.status = RS_DISTANT_MSG_STATUS_TUNNEL_OK ; #ifdef DEBUG_DISTANT_MSG std::cerr << "p3MsgService::addVirtualPeer(): adding virtual peer " << vpid << " for hash " << hash << std::endl; #endif } void p3MsgService::removeVirtualPeer(const TurtleFileHash& hash, const TurtleVirtualPeerId& vpid) { #ifdef DEBUG_DISTANT_MSG std::cerr << "Removing virtual peer " << vpid << " for hash " << hash << std::endl; #endif bool remove_tunnel = false ; { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ DistantMessengingContact& contact(_messenging_contacts[hash]) ; // possibly creates it. contact.status = RS_DISTANT_MSG_STATUS_TUNNEL_DN ; contact.virtual_peer_id.clear() ; if(!contact.pending_messages) remove_tunnel = true ; } if(remove_tunnel) // We do that whenever we're client or server. But normally, we should only do it when we're client. { #ifdef DEBUG_DISTANT_MSG std::cerr << "Also removing tunnel, since pending messages have been sent." << std::endl; #endif mTurtle->stopMonitoringTunnels(hash) ; } } #ifdef DEBUG_DISTANT_MSG static void printBinaryData(void *data,uint32_t size) { static const char outl[16] = { '0','1','2','3','4','5','6','7','8','9','a','b','c','d','e','f' } ; for(uint32_t j = 0; j < size; j++) { std::cerr << outl[ ( ((uint8_t*)data)[j]>>4) ] ; std::cerr << outl[ ((uint8_t*)data)[j] & 0xf ] ; } } #endif void p3MsgService::sendTurtleData(const std::string& hash,RsMsgItem *msgitem) { // The item is serialized and turned into a generic turtle item. uint32_t msg_serialized_rssize = _serialiser->size(msgitem) ; unsigned char *msg_serialized_data = new unsigned char[msg_serialized_rssize] ; if(!_serialiser->serialise(msgitem,msg_serialized_data,&msg_serialized_rssize)) { std::cerr << "(EE) p3MsgService::sendTurtleData(): Serialization error." << std::endl; delete[] msg_serialized_data ; return ; } RsTurtleGenericDataItem *item = new RsTurtleGenericDataItem ; item->data_bytes = malloc(msg_serialized_rssize) ; item->data_size = msg_serialized_rssize ; memcpy(item->data_bytes,msg_serialized_data,msg_serialized_rssize) ; delete[] msg_serialized_data ; #ifdef DEBUG_DISTANT_MSG printBinaryData(item->data_bytes,item->data_size) ; std::cerr << std::endl; #endif // do we have a working tunnel for that hash ? // If not, put on the contact's waiting list. std::string virtual_peer_id ; { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ std::map::const_iterator it = _messenging_contacts.find(hash) ; if(it == _messenging_contacts.end()) { std::cerr << "(EE) p3MsgService::sendTurtleData(): Can't find hash " << hash << " in recorded contact list." << std::endl; delete[] msg_serialized_data ; return ; } if(!it->second.status == RS_DISTANT_MSG_STATUS_TUNNEL_OK) { std::cerr << "p3MsgService::sendTurtleData(): tunnel is not ok. Putting items on waiting list." << std::endl; return ; } virtual_peer_id = it->second.virtual_peer_id ; } #ifdef DEBUG_DISTANT_MSG std::cerr << "p3MsgService::sendTurtleData(): Sending through virtual peer: " << virtual_peer_id << std::endl; std::cerr << " item->data_size = " << item->data_size << std::endl; std::cerr << " data = " ; #endif mTurtle->sendTurtleData(virtual_peer_id,item) ; } void p3MsgService::receiveTurtleData(RsTurtleGenericTunnelItem *gitem,const std::string& hash, const std::string& virtual_peer_id,RsTurtleGenericTunnelItem::Direction /*direction*/) { RsTurtleGenericDataItem *item = dynamic_cast(gitem) ; if(item == NULL) { std::cerr << "(EE) p3MsgService::receiveTurtleData(): item is not a data item. That is an error." << std::endl; return ; } #ifdef DISABLE_DISTANT_MESSAGES std::cerr << "Received distant message item. Protocol is not yet finalized. Droping the item." << std::endl; delete item ; return ; #endif #ifdef DEBUG_DISTANT_MSG std::cerr << "p3MsgService::sendTurtleData(): Receiving through virtual peer: " << virtual_peer_id << std::endl; std::cerr << " gitem->data_size = " << item->data_size << std::endl; std::cerr << " data = " ; printBinaryData(item->data_bytes,item->data_size) ; std::cerr << std::endl; #else (void) virtual_peer_id; #endif { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ std::map::iterator it = _messenging_contacts.find(hash) ; if(it == _messenging_contacts.end()) { std::cerr << "(EE) p3MsgService::sendTurtleData(): Can't find hash " << hash << " in recorded contact list." << std::endl; return ; } it->second.status = RS_DISTANT_MSG_STATUS_TUNNEL_OK ; it->second.last_hit_time = time(NULL) ; } RsItem *itm = _serialiser->deserialise(item->data_bytes,&item->data_size) ; RsMsgItem *mitm = dynamic_cast(itm) ; if(mitm != NULL) { mitm->PeerId(hash) ; mitm->msgto.ids.push_back(rsPeers->getGPGOwnId()) ; handleIncomingItem(mitm) ; } else { std::cerr << "(EE) p3MsgService::receiveTurtleData(): received item is not a RsMsgItem!!" << std::endl; delete itm ; } } #ifdef GROUTER void p3MsgService::sendGRouterData(const std::string& hash,RsMsgItem *msgitem) { // The item is serialized and turned into a generic turtle item. uint32_t msg_serialized_rssize = _serialiser->size(msgitem) ; unsigned char *msg_serialized_data = new unsigned char[msg_serialized_rssize] ; if(!_serialiser->serialise(msgitem,msg_serialized_data,&msg_serialized_rssize)) { std::cerr << "(EE) p3MsgService::sendTurtleData(): Serialization error." << std::endl; delete[] msg_serialized_data ; return ; } RsGRouterGenericDataItem *item = new RsGRouterGenericDataItem ; item->data_bytes = (uint8_t*)malloc(msg_serialized_rssize) ; item->data_size = msg_serialized_rssize ; memcpy(item->data_bytes,msg_serialized_data,msg_serialized_rssize) ; delete[] msg_serialized_data ; mGRouter->sendData(GRouterKeyId(hash),item) ; } void p3MsgService::receiveGRouterData(RsGRouterGenericDataItem *gitem,const GRouterKeyId& key) { std::cerr << "(WW) p3msgservice::receiveGRouterData(): received message. Not handled yet. Needs implementing." << std::endl; } #endif void p3MsgService::sendPrivateMsgItem(RsMsgItem *msgitem) { #ifdef DEBUG_DISTANT_MSG std::cerr << "p3MsgService::sendDistanteMsgItem(): sending distant msg item to peer " << msgitem->PeerId() << std::endl; #endif { RsStackMutex stack(mMsgMtx); /********** STACK LOCKED MTX ******/ // allocate a new contact. If it does not exist, set its tunnel state to DN // std::map::iterator it = _messenging_contacts.find(msgitem->PeerId()) ; if(it == _messenging_contacts.end()) { std::cerr << "(EE) p3MsgService::sendPrivateMsgItem(): ERROR: no tunnel for message to send. This should not happen. " << std::endl; return ; } if(it->second.status != RS_DISTANT_MSG_STATUS_TUNNEL_OK) { std::cerr << "(WW) p3MsgService::sendPrivateMsgItem(): WARNING: no tunnel for message to send. This should not happen. " << std::endl; return ; } if(!it->second.pending_messages) std::cerr << "(WW) p3MsgService::sendPrivateMsgItem(): WARNING: no pending message flag. This should not happen. " << std::endl; } #ifdef DEBUG_DISTANT_MSG std::cerr << " Flushing msg " << msgitem->msgId << " for peer id " << msgitem->PeerId() << std::endl; #endif #ifdef GROUTER sendGRouterData(msgitem->PeerId(),msgitem) ; #else sendTurtleData(msgitem->PeerId(),msgitem) ; #endif }