/* * libretroshare/src/pqi: p3dhtmgr.cc * * 3P/PQI network interface 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 #include #include #include #include "pqi/p3dhtmgr.h" #include "pqi/p3connmgr.h" #include "util/rsprint.h" #include "util/rsdebug.h" const int p3dhtzone = 3892; /***** * #define DHT_DEBUG 1 * #define P3DHTMGR_USE_LOCAL_UDP_CONN 1 // For Testing only ****/ /**** DHT State Variables **** * TODO: * (1) notify call in. * (2) publish/search parameters. * (3) callback. * (4) example * */ /**** DHT State Variables ****/ #define DHT_STATE_OFF 0 #define DHT_STATE_INIT 1 #define DHT_STATE_CHECK_PEERS 2 #define DHT_STATE_FIND_STUN 3 #define DHT_STATE_ACTIVE 4 /* TIMEOUTS (Key ones in .h) */ #define DHT_RESTART_PERIOD 300 /* 5 min */ #define DHT_DEFAULT_PERIOD 300 /* Default period if no work to do */ #define DHT_MIN_PERIOD 1 /* to ensure we don't get too many requests */ #define DHT_SHORT_PERIOD 10 /* a short period */ #define DHT_DEFAULT_WAITTIME 1 /* Std sleep break period */ #define DHT_NUM_BOOTSTRAP_BINS 8 #define DHT_MIN_BOOTSTRAP_REQ_PERIOD 5 void printDhtPeerEntry(dhtPeerEntry *ent, std::ostream &out); /* Interface class for DHT data */ dhtPeerEntry::dhtPeerEntry() :state(DHT_PEER_INIT), lastTS(0), notifyPending(0), notifyTS(0), type(DHT_ADDR_INVALID) { laddr.sin_addr.s_addr = 0; laddr.sin_port = 0; laddr.sin_family = 0; raddr.sin_addr.s_addr = 0; raddr.sin_port = 0; raddr.sin_family = 0; return; } p3DhtMgr::p3DhtMgr(std::string id, pqiConnectCb *cb) :pqiNetAssistConnect(id, cb), mStunRequired(true) { /* setup own entry */ dhtMtx.lock(); /* LOCK MUTEX */ ownEntry.id = id; ownEntry.state = DHT_PEER_INIT; ownEntry.type = DHT_ADDR_INVALID; ownEntry.lastTS = 0; ownEntry.notifyPending = 0; ownEntry.notifyTS = 0; ownEntry.hash1 = RsUtil::HashId(id, false); ownEntry.hash2 = RsUtil::HashId(id, true); mDhtModifications = true; mDhtOn = false; mDhtState = DHT_STATE_OFF; mBootstrapAllowed = true; mLastBootstrapListTS = 0; dhtMtx.unlock(); /* UNLOCK MUTEX */ return; } /* OVERLOADED from pqiNetAssistConnect */ void p3DhtMgr::shutdown() { /* ??? */ } void p3DhtMgr::restart() { /* ??? */ } void p3DhtMgr::enable(bool on) { dhtMtx.lock(); /* LOCK MUTEX */ mDhtModifications = true; mDhtOn = on; dhtMtx.unlock(); /* UNLOCK MUTEX */ } bool p3DhtMgr::getEnabled() { dhtMtx.lock(); /* LOCK MUTEX */ bool on = mDhtOn; dhtMtx.unlock(); /* UNLOCK MUTEX */ return on; } bool p3DhtMgr::getActive() { dhtMtx.lock(); /* LOCK MUTEX */ bool act = dhtActive(); dhtMtx.unlock(); /* UNLOCK MUTEX */ return act; } void p3DhtMgr::setBootstrapAllowed(bool on) { dhtMtx.lock(); /* LOCK MUTEX */ mBootstrapAllowed = on; dhtMtx.unlock(); /* UNLOCK MUTEX */ } bool p3DhtMgr::getBootstrapAllowed() { dhtMtx.lock(); /* LOCK MUTEX */ bool on = mBootstrapAllowed; dhtMtx.unlock(); /* UNLOCK MUTEX */ return on; } /******************************** PEER MANAGEMENT ********************************** * */ /* set key data */ bool p3DhtMgr::setExternalInterface( struct sockaddr_in laddr, struct sockaddr_in raddr, uint32_t type) { dhtMtx.lock(); /* LOCK MUTEX */ mDhtModifications = true; ownEntry.laddr = laddr; ownEntry.raddr = raddr; ownEntry.type = type; ownEntry.state = DHT_PEER_ADDR_KNOWN; /* will force republish */ ownEntry.lastTS = 0; /* will force republish */ #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::setExternalInterface()"; std::cerr << " laddr: " << inet_ntoa(ownEntry.laddr.sin_addr); std::cerr << " lport: " << ntohs(ownEntry.laddr.sin_port); std::cerr << " raddr: " << inet_ntoa(ownEntry.raddr.sin_addr); std::cerr << " rport: " << ntohs(ownEntry.raddr.sin_port); std::cerr << " type: " << ownEntry.type; std::cerr << " state: " << ownEntry.state; std::cerr << std::endl; #endif /* Log External Interface too */ std::ostringstream out; out << "p3DhtMgr::setExternalInterface()"; out << " laddr: " << inet_ntoa(ownEntry.laddr.sin_addr); out << " lport: " << ntohs(ownEntry.laddr.sin_port); out << " raddr: " << inet_ntoa(ownEntry.raddr.sin_addr); out << " rport: " << ntohs(ownEntry.raddr.sin_port); out << " type: " << ownEntry.type; out << " state: " << ownEntry.state; rslog(RSL_WARNING, p3dhtzone, out.str()); dhtMtx.unlock(); /* UNLOCK MUTEX */ checkOwnDHTKeys(); return true; } /* add / remove peers */ bool p3DhtMgr::findPeer(std::string id) { RsStackMutex stack(dhtMtx); /***** LOCK MUTEX *****/ mDhtModifications = true; std::map::iterator it; it = peers.find(id); if (it != peers.end()) { /* reset some of it */ it->second.state = DHT_PEER_INIT; // No point destroying a valid address!. //it->second.type = DHT_ADDR_INVALID; // Reset notify it->second.notifyPending = 0; it->second.notifyTS = 0; return true; } /* if they are not in the list -> add */ dhtPeerEntry ent; ent.id = id; ent.state = DHT_PEER_INIT; ent.type = DHT_ADDR_INVALID; ent.lastTS = 0; ent.notifyPending = 0; ent.notifyTS = 0; /* fill in hashes */ ent.hash1 = RsUtil::HashId(id, false); ent.hash2 = RsUtil::HashId(id, true); /* other fields don't matter */ peers[id] = ent; return true; } bool p3DhtMgr::dropPeer(std::string id) { RsStackMutex stack(dhtMtx); /***** LOCK MUTEX *****/ mDhtModifications = true; /* once we are connected ... don't worry about them anymore */ std::map::iterator it; it = peers.find(id); if (it == peers.end()) { return false; } /* leave it in there - just switch to off */ it->second.state = DHT_PEER_OFF; return true; } /* post DHT key saying we should connect */ bool p3DhtMgr::notifyPeer(std::string id) { RsStackMutex stack(dhtMtx); /***** LOCK MUTEX *****/ #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::notifyPeer() " << id << std::endl; #endif std::map::iterator it; it = peers.find(id); if (it == peers.end()) { return false; } /* ignore OFF peers */ if (it->second.state == DHT_PEER_OFF) { return false; } time_t now = time(NULL); if (now - it->second.notifyTS < 2 * DHT_NOTIFY_PERIOD) { /* drop the notify (too soon) */ #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::notifyPeer() TO SOON - DROPPING" << std::endl; #endif { /* Log */ std::ostringstream out; out << "p3DhtMgr::notifyPeer() Id: " << id; out << " TO SOON - DROPPING"; rslog(RSL_WARNING, p3dhtzone, out.str()); } return false; } it->second.notifyPending = RS_CONNECT_ACTIVE; it->second.notifyTS = time(NULL); /* Trigger search if not found! */ if (it->second.state != DHT_PEER_FOUND) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::notifyPeer() PEER NOT FOUND - Trigger search" << std::endl; #endif { /* Log */ std::ostringstream out; out << "p3DhtMgr::notifyPeer() Id: " << id; out << " PEER NOT FOUND - Trigger Search"; rslog(RSL_WARNING, p3dhtzone, out.str()); } it->second.lastTS = 0; } mDhtModifications = true; /* no wait! */ return true; } /* extract current peer status */ bool p3DhtMgr::getPeerStatus(std::string id, struct sockaddr_in &laddr, struct sockaddr_in &raddr, uint32_t &type, uint32_t &state) { RsStackMutex stack(dhtMtx); /* LOCK MUTEX */ std::map::iterator it; it = peers.find(id); /* ignore OFF peers */ if ((it == peers.end()) || (it->second.state == DHT_PEER_OFF)) { return false; } laddr = it->second.laddr; raddr = it->second.raddr; type = it->second.type; state = it->second.type; return true; } /********************************* STUN HANDLING ********************************** * add / cleanup / stun. * */ /* stun */ bool p3DhtMgr::addStun(std::string id) { dhtMtx.lock(); /* LOCK MUTEX */ mDhtModifications = true; std::list::iterator it; it = std::find(stunIds.begin(), stunIds.end(), id); if (it != stunIds.end()) { dhtMtx.unlock(); /* UNLOCK MUTEX */ return false; } stunIds.push_back(id); dhtMtx.unlock(); /* UNLOCK MUTEX */ return true; } bool p3DhtMgr::enableStun(bool on) { dhtMtx.lock(); /* LOCK MUTEX */ mDhtModifications = true; if (!on) { /* clear up */ stunIds.clear(); } mStunRequired = on; dhtMtx.unlock(); /* UNLOCK MUTEX */ return true; } void p3DhtMgr::run() { /* * */ while(1) { checkDHTStatus(); #ifdef DHT_DEBUG status(std::cerr); #endif dhtMtx.lock(); /* LOCK MUTEX */ uint32_t dhtState = mDhtState; dhtMtx.unlock(); /* UNLOCK MUTEX */ int period = 60; /* default wait */ switch(dhtState) { case DHT_STATE_INIT: #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::run() state = INIT -> wait" << std::endl; #endif period = 10; break; case DHT_STATE_CHECK_PEERS: #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::run() state = CHECK_PEERS -> do stuff" << std::endl; #endif checkPeerDHTKeys(); checkStunState(); period = DHT_MIN_PERIOD; break; case DHT_STATE_FIND_STUN: #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::run() state = FIND_STUN -> do stuff" << std::endl; #endif doStun(); checkPeerDHTKeys(); /* keep on going - as we could be in this state for a while */ checkStunState(); period = DHT_MIN_PERIOD; break; case DHT_STATE_ACTIVE: { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::run() state = ACTIVE -> do stuff" << std::endl; #endif period = checkOwnDHTKeys(); #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::run() checkOwnDHTKeys() period: " << period << std::endl; #endif int tmpperiod = checkNotifyDHT(); #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::run() checkNotifyDHT() period: " << tmpperiod << std::endl; #endif int tmpperiod2 = checkPeerDHTKeys(); #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::run() checkPeerDHTKeys() period: " << tmpperiod2 << std::endl; #endif if (tmpperiod < period) period = tmpperiod; if (tmpperiod2 < period) period = tmpperiod2; /* finally we need to keep stun going */ if (checkStunState_Active()) { /* still more stun to do */ period = DHT_SHORT_PERIOD; doStun(); } } break; default: case DHT_STATE_OFF: #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::run() state = OFF -> wait" << std::endl; #endif period = 60; break; } #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::run() sleeping for: " << period << std::endl; #endif /* Breakable sleep loop */ bool toBreak = false; int waittime = 1; int i; for(i = 0; i < period; i += waittime) { if (period-i > DHT_DEFAULT_WAITTIME) { waittime = DHT_DEFAULT_WAITTIME; } else { waittime = period-i; } dhtMtx.lock(); /* LOCK MUTEX */ if (mDhtModifications) { mDhtModifications = false; toBreak = true; } dhtMtx.unlock(); /* UNLOCK MUTEX */ if (toBreak) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::run() breaking sleep" << std::endl; #endif break; /* speed up config modifications */ } /********************************** WINDOWS/UNIX SPECIFIC PART ******************/ #ifndef WINDOWS_SYS sleep(waittime); #else Sleep(1000 * waittime); #endif /********************************** WINDOWS/UNIX SPECIFIC PART ******************/ } } } int p3DhtMgr::checkOwnDHTKeys() { int repubPeriod = 10000; time_t now = time(NULL); /* in order of importance: * (1) Check for Own Key publish. * (2) Check for notification requests * (3) Check for Peers */ #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkOwnDHTKeys()" << std::endl; #endif dhtMtx.lock(); /* LOCK MUTEX */ dhtPeerEntry peer = ownEntry; dhtMtx.unlock(); /* UNLOCK MUTEX */ /* publish ourselves if necessary */ if (peer.state >= DHT_PEER_ADDR_KNOWN) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkOwnDHTKeys() OWN ADDR KNOWN" << std::endl; #endif if ((peer.state < DHT_PEER_PUBLISHED) || (now - peer.lastTS > DHT_PUBLISH_PERIOD)) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkOwnDHTKeys() OWN ADDR REPUB" << std::endl; #endif #ifdef DHT_DEBUG std::cerr << "PUBLISH: "; std::cerr << " hash1: " << RsUtil::BinToHex(peer.hash1); std::cerr << " laddr: " << inet_ntoa(peer.laddr.sin_addr); std::cerr << ":" << ntohs(peer.laddr.sin_port); std::cerr << " raddr: " << inet_ntoa(peer.raddr.sin_addr); std::cerr << ":" << ntohs(peer.raddr.sin_port); std::cerr << " type: " << peer.type; std::cerr << std::endl; #endif { /* Log */ std::ostringstream out; out << "p3DhtMgr::checkOwnDHTKeys() PUBLISH OWN ADDR:"; out << " hash1: " << RsUtil::BinToHex(peer.hash1); out << " laddr: " << inet_ntoa(peer.laddr.sin_addr); out << " :" << ntohs(peer.laddr.sin_port); out << " raddr: " << inet_ntoa(peer.raddr.sin_addr); out << ":" << ntohs(peer.raddr.sin_port); out << " type: " << peer.type; rslog(RSL_WARNING, p3dhtzone, out.str()); } /* publish own key */ if (dhtPublish(peer.hash1, peer.laddr, peer.raddr, peer.type, "")) { dhtMtx.lock(); /* LOCK MUTEX */ ownEntry.lastTS = now; ownEntry.state = DHT_PEER_PUBLISHED; dhtMtx.unlock(); /* UNLOCK MUTEX */ } /* dhtBootstrap -> if allowed and EXT port */ if (peer.type & RS_NET_CONN_TCP_EXTERNAL) { dhtMtx.lock(); /* LOCK MUTEX */ bool doBootstrapPub = mBootstrapAllowed; dhtMtx.unlock(); /* UNLOCK MUTEX */ if (doBootstrapPub) { dhtBootstrap(randomBootstrapId(), peer.hash1, ""); } } /* restart immediately */ repubPeriod = DHT_MIN_PERIOD; return repubPeriod; } else { if (now - peer.lastTS < DHT_PUBLISH_PERIOD) { repubPeriod = DHT_PUBLISH_PERIOD - (now - peer.lastTS); } else { repubPeriod = 10; } #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkOwnDHTKeys() repub in: "; std::cerr << repubPeriod << std::endl; #endif } /* check for connect requests */ //if ((peer.state == DHT_PEER_PUBLISHED) && // (!(peer.type & RS_NET_CONN_TCP_EXTERNAL))) if (peer.state == DHT_PEER_PUBLISHED) { if (now - peer.notifyTS >= DHT_NOTIFY_PERIOD) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkOwnDHTKeys() check for Notify (rep=0)"; std::cerr << std::endl; #endif { /* Log */ std::ostringstream out; out << "p3DhtMgr::checkOwnDHTKeys() Checking for NOTIFY"; rslog(RSL_WARNING, p3dhtzone, out.str()); } if (dhtSearch(peer.hash1, DHT_MODE_NOTIFY)) { dhtMtx.lock(); /* LOCK MUTEX */ ownEntry.notifyTS = now; dhtMtx.unlock(); /* UNLOCK MUTEX */ } /* restart immediately */ repubPeriod = DHT_MIN_PERIOD; return repubPeriod; } else { repubPeriod = DHT_NOTIFY_PERIOD - (now - peer.notifyTS); if (repubPeriod < DHT_MIN_PERIOD) { repubPeriod = DHT_MIN_PERIOD; } #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkOwnDHTKeys() check Notify in: "; std::cerr << repubPeriod << std::endl; #endif } } else { if (peer.state != DHT_PEER_PUBLISHED) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkOwnDHTKeys() No Notify until Published"; std::cerr << std::endl; #endif } else if (peer.type & RS_NET_CONN_TCP_EXTERNAL) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkOwnDHTKeys() No Notify because have Ext Addr"; std::cerr << std::endl; #endif } else { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkOwnDHTKeys() No Notify: Unknown Reason"; std::cerr << std::endl; #endif } } } else { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkOwnDHTKeys() PEER ADDR UNKNOWN" << std::endl; #endif repubPeriod = 10; } return repubPeriod; } int p3DhtMgr::checkPeerDHTKeys() { /* now loop through the peers */ #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkPeerDHTKeys()" << std::endl; #endif dhtMtx.lock(); /* LOCK MUTEX */ /* iterate through and find min time and suitable candidate */ std::map::iterator it,pit; time_t now = time(NULL); uint32_t period = 0; uint32_t repeatPeriod = 6000; pit = peers.end(); time_t pTS = now; for(it = peers.begin(); it != peers.end(); it++) { /* ignore OFF peers */ if (it->second.state == DHT_PEER_OFF) { continue; } time_t delta = now - it->second.lastTS; if (it->second.state < DHT_PEER_FOUND) { period = DHT_SEARCH_PERIOD; } else /* (it->second.state == DHT_PEER_FOUND) */ { period = DHT_CHECK_PERIOD; } #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkPeerDHTKeys() Peer: " << it->second.id; std::cerr << " Period: " << period; std::cerr << " Delta: " << delta; std::cerr << std::endl; #endif if ((unsigned) delta >= period) { if (it->second.lastTS < pTS) { pit = it; pTS = it->second.lastTS; } repeatPeriod = DHT_MIN_PERIOD; } else if (period - delta < repeatPeriod) { repeatPeriod = period - delta; } } /* now have - peer to handle, and period to next call */ if (pit == peers.end()) { dhtMtx.unlock(); /* UNLOCK MUTEX */ return repeatPeriod; } /* update timestamp * clear FOUND or INIT state. * */ pit->second.lastTS = now; pit->second.state = DHT_PEER_SEARCH; dhtPeerEntry peer = (pit->second); dhtMtx.unlock(); /* UNLOCK MUTEX */ /* now search for the peer */ dhtSearch(peer.hash1, DHT_MODE_SEARCH); /* results come through callback */ return repeatPeriod; } int p3DhtMgr::checkNotifyDHT() { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkNotifyDHT()" << std::endl; #endif /* now loop through the peers */ uint32_t notifyType = 0; dhtPeerEntry peer; dhtPeerEntry own; { RsStackMutex stack(dhtMtx); /***** LOCK MUTEX *****/ /* iterate through and find min time and suitable candidate */ std::map::iterator it; time_t now = time(NULL); int repeatPeriod = DHT_DEFAULT_PERIOD; /* find the first with a notify flag */ for(it = peers.begin(); it != peers.end(); it++) { /* ignore OFF peers */ if (it->second.state == DHT_PEER_OFF) { continue; } if (it->second.notifyPending) { /* if very old drop it */ if (now - it->second.notifyTS > DHT_NOTIFY_PERIOD) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkNotifyDHT() Dropping OLD Notify: "; std::cerr << it->first << std::endl; #endif it->second.notifyPending = 0; } if (it->second.state == DHT_PEER_FOUND) { notifyType = it->second.notifyPending; break; } } } /* now have - peer to handle */ if (it == peers.end()) { return repeatPeriod; } #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkNotifyDHT() Notify From: "; std::cerr << it->first << std::endl; #endif { /* Log */ std::ostringstream out; out << "p3DhtMgr::checkNotifyDHT() Notify Request for Known Peer: " << it->first; rslog(RSL_WARNING, p3dhtzone, out.str()); } /* update timestamp */ it->second.notifyTS = now; it->second.notifyPending = 0; peer = (it->second); own = ownEntry; } /******* UNLOCK ******/ if (notifyType == RS_CONNECT_ACTIVE) { /* publish notification (publish Our Id) * We publish the connection attempt on peers hash, * using our alternative hash.. * */ #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkNotifyDHT() Posting Active Notify"; std::cerr << std::endl; #endif { /* Log */ std::ostringstream out; out << "p3DhtMgr::checkNotifyDHT() POST DHT (Active Notify) for Peer: " << peer.id; rslog(RSL_WARNING, p3dhtzone, out.str()); } dhtNotify(peer.hash1, own.hash2, ""); } /* feedback to say we started it! */ #ifdef P3DHTMGR_USE_LOCAL_UDP_CONN mConnCb->peerConnectRequest(peer.id, peer.laddr, RS_CB_DHT); #else mConnCb->peerConnectRequest(peer.id, peer.raddr, RS_CB_DHT); #endif return DHT_MIN_PERIOD; } int p3DhtMgr::doStun() { if (stunIds.size() < 1) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::doStun() Failed -> no Ids left" << std::endl; #endif return 0; } dhtMtx.lock(); /* LOCK MUTEX */ bool stunRequired = mStunRequired; dhtMtx.unlock(); /* UNLOCK MUTEX */ /* now loop through the peers */ if (!stunRequired) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::doStun() not Required" << std::endl; #endif return 0; } /* pop the front one */ std::string activeStunId = stunIds.front(); stunIds.pop_front(); #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::doStun() STUN: " << RsUtil::BinToHex(activeStunId); std::cerr << std::endl; #endif /* look it up! */ dhtSearch(activeStunId, DHT_MODE_SEARCH); return 1; } int p3DhtMgr::checkStunState() { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkStunState()" << std::endl; #endif dhtMtx.lock(); /* LOCK MUTEX */ /* now loop through the peers */ if (!mStunRequired) { mDhtState = DHT_STATE_ACTIVE; } if (mDhtState == DHT_STATE_CHECK_PEERS) { /* check that they have all be searched for */ std::map::iterator it; for(it = peers.begin(); it != peers.end(); it++) { if (it->second.state == DHT_PEER_INIT) { break; } } if (it == peers.end()) { /* we've checked all peers */ mDhtState = DHT_STATE_FIND_STUN; } } else if (mDhtState == DHT_STATE_FIND_STUN) { } /* if we run out of stun peers -> get some more */ if (stunIds.size() < 1) { #ifdef DHT_DEBUG std::cerr << "WARNING: out of Stun Peers - Fetching some more" << std::endl; #endif mDhtState = DHT_STATE_ACTIVE; dhtMtx.unlock(); /* UNLOCK MUTEX */ /* this is a locked function */ getDhtBootstrapList(); dhtMtx.lock(); /* LOCK MUTEX */ } dhtMtx.unlock(); /* UNLOCK MUTEX */ return 1; } int p3DhtMgr::checkStunState_Active() { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkStunState_Active()" << std::endl; #endif dhtMtx.lock(); /* LOCK MUTEX */ bool stunReq = mStunRequired; bool moreIds = ((mStunRequired) && (stunIds.size() < 1)); dhtMtx.unlock(); /* UNLOCK MUTEX */ if (moreIds) /* if we run out of stun peers -> get some more */ { #ifdef DHT_DEBUG std::cerr << "WARNING: out of Stun Peers - getting more" << std::endl; #endif getDhtBootstrapList(); } return stunReq; } bool p3DhtMgr::getDhtBootstrapList() { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::getDHTBootstrapList()" << std::endl; #endif dhtMtx.lock(); /* LOCK MUTEX */ time_t now = time(NULL); if (now - mLastBootstrapListTS < DHT_MIN_BOOTSTRAP_REQ_PERIOD) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::getDHTBootstrapList() Waiting: "; std::cerr << DHT_MIN_BOOTSTRAP_REQ_PERIOD-(now-mLastBootstrapListTS); std::cerr << " secs" << std::endl; #endif dhtMtx.unlock(); /* UNLOCK MUTEX */ return false; } mLastBootstrapListTS = now; std::string bootId = randomBootstrapId(); dhtMtx.unlock(); /* UNLOCK MUTEX */ #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::getDHTBootstrapList() bootId: 0x"; std::cerr << RsUtil::BinToHex(bootId) << std::endl; #endif dhtSearch(bootId, DHT_MODE_SEARCH); return true; } std::string p3DhtMgr::BootstrapId(uint32_t bin) { /* generate these from an equation! (makes it easy) * Make sure that NUM_BOOTSTRAP_BINS doesn't affect ids */ std::ostringstream genId; genId << "BootstrapId"; uint32_t id = (bin % DHT_NUM_BOOTSTRAP_BINS) * 1234; genId << id; #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::BootstrapId() generatedId: "; std::cerr << genId.str() << std::endl; #endif /* now hash this to create a bootstrap Bin Id */ std::string bootId = RsUtil::HashId(genId.str(), false); #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::BootstrapId() bootId: 0x"; std::cerr << RsUtil::BinToHex(bootId) << std::endl; #endif return bootId; } std::string p3DhtMgr::randomBootstrapId() { uint32_t rnd = DHT_NUM_BOOTSTRAP_BINS * (rand() / (RAND_MAX + 1.0)); return BootstrapId(rnd); } void p3DhtMgr::checkDHTStatus() { dhtMtx.lock(); /* LOCK MUTEX */ bool isActive = (mDhtState != DHT_STATE_OFF); bool toShutdown = false; bool toStartup = false; #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkDhtStatus() mDhtState: " << mDhtState << std::endl; std::cerr << "p3DhtMgr::checkDhtStatus() mDhtOn : " << mDhtOn << std::endl; #endif if ((isActive) && (!mDhtOn)) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkDhtStatus() Active & !mDhtOn -> toShutdown" << std::endl; #endif toShutdown = true; } if ((!isActive) && (mDhtOn)) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkDhtStatus() !Active & mDhtOn -> toStartup" << std::endl; #endif toStartup = true; } /* restart if it has shutdown */ if (isActive && mDhtOn) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkDhtStatus() Active & mDhtOn" << std::endl; #endif if (dhtActive()) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkDhtStatus() dhtActive() = true" << std::endl; #endif if (mDhtState == DHT_STATE_INIT) { mDhtState = DHT_STATE_CHECK_PEERS; #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkDhtStatus() Switching to CHECK PEERS" << std::endl; #endif } } else { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkDhtStatus() dhtActive() = false" << std::endl; #endif if (mDhtActiveTS - time(NULL) > DHT_RESTART_PERIOD) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkDhtStatus() restart Period..." << std::endl; #endif toShutdown = true; toStartup = true; } } } dhtMtx.unlock(); /* UNLOCK MUTEX */ if (toShutdown) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkDhtStatus() toShutdown = true -> shutdown()" << std::endl; #endif if (dhtShutdown()) { clearDhtData(); dhtMtx.lock(); /* LOCK MUTEX */ mDhtState = DHT_STATE_OFF; #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkDhtStatus() mDhtState -> OFF" << std::endl; #endif dhtMtx.unlock(); /* UNLOCK MUTEX */ } } if (toStartup) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkDhtStatus() toStartup = true -> dhtInit()" << std::endl; #endif if (dhtInit()) { dhtMtx.lock(); /* LOCK MUTEX */ mDhtState = DHT_STATE_INIT; mDhtActiveTS = time(NULL); #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::checkDhtStatus() mDhtState -> INIT" << std::endl; #endif dhtMtx.unlock(); /* UNLOCK MUTEX */ } } } void p3DhtMgr::clearDhtData() { std::cerr << "p3DhtMgr::clearDhtData() DUMMY FN" << std::endl; } /****************************** REAL DHT INTERFACE ********************************* * publish/search/result. * * dummy implementation for testing. */ int p3DhtMgr::status(std::ostream &out) { dhtMtx.lock(); /* LOCK MUTEX */ out << "p3DhtMgr::status() ************************************" << std::endl; out << "mDhtState: " << mDhtState << std::endl; out << "mDhtOn : " << mDhtOn << std::endl; out << "dhtActive: " << dhtActive() << std::endl; /* now own state */ out << "OWN DETAILS -------------------------------------------" << std::endl; printDhtPeerEntry(&ownEntry, out); out << "OWN DETAILS END----------------------------------------" << std::endl; /* now peers states */ std::map::iterator it; out << "PEER DETAILS ------------------------------------------" << std::endl; for(it = peers.begin(); it != peers.end(); it++) { printDhtPeerEntry(&(it->second), out); } out << "PEER DETAILS END---------------------------------------" << std::endl; /* now stun states */ out << "STUN DETAILS ------------------------------------------" << std::endl; out << "Available Stun Ids: " << stunIds.size() << std::endl; out << "STUN DETAILS END---------------------------------------" << std::endl; out << "p3DhtMgr::status() END ********************************" << std::endl; dhtMtx.unlock(); /* UNLOCK MUTEX */ return 0; } bool p3DhtMgr::dhtInit() { std::cerr << "p3DhtMgr::dhtInit() DUMMY FN" << std::endl; return true; } bool p3DhtMgr::dhtShutdown() { std::cerr << "p3DhtMgr::dhtShutdown() DUMMY FN" << std::endl; return true; } bool p3DhtMgr::dhtActive() { std::cerr << "p3DhtMgr::dhtActive() DUMMY FN" << std::endl; return true; } bool p3DhtMgr::publishDHT(std::string key, std::string value, uint32_t ttl) { std::cerr << "p3DhtMgr::publishDHT() DUMMY FN" << std::endl; return false; } bool p3DhtMgr::searchDHT(std::string idhash) { std::cerr << "p3DhtMgr::searchDHT() DUMMY FN" << std::endl; return false; } /****************************** INTERMEDIATE DHT INTERFACE ********************************* * publish/search/result. * * Take the 'real' parameters and create the key/value parameters for the real dht. */ bool p3DhtMgr::dhtPublish(std::string idhash, struct sockaddr_in &laddr, struct sockaddr_in &raddr, uint32_t type, std::string sign) { /* ... goes and searches */ #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::dhtPublish()" << std::endl; std::cerr << "PUBLISHing: idhash: " << RsUtil::BinToHex(idhash); std::cerr << " laddr: " << inet_ntoa(laddr.sin_addr); std::cerr << ":" << ntohs(laddr.sin_port); std::cerr << " raddr: " << inet_ntoa(raddr.sin_addr); std::cerr << ":" << ntohs(raddr.sin_port); std::cerr << " type: " << type; std::cerr << " sign: " << sign; std::cerr << std::endl; #endif /* Create a Value from addresses and type */ /* to store the ip address and flags */ std::ostringstream out; out << "RSDHT:" << std::setw(2) << std::setfill('0') << DHT_MODE_SEARCH << ": "; out << "IPL=" << inet_ntoa(laddr.sin_addr) << ":" << ntohs(laddr.sin_port) << ", "; out << "IPE=" << inet_ntoa(raddr.sin_addr) << ":" << ntohs(raddr.sin_port) << ", "; out << "type=" << std::setw(4) << std::setfill('0') << std::hex << type << ", "; /******* char valuearray[1024]; snprintf(valuearray, 1024, "RSDHT:%02d: IPL=%s:%d, IPE=%s:%d, type=%04X,", DHT_MODE_SEARCH, inet_ntoa(laddr.sin_addr), ntohs(laddr.sin_port), inet_ntoa(raddr.sin_addr), ntohs(raddr.sin_port), type); std::string value = valuearray; ******/ std::string value = out.str(); #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::dhtPublish()" << std::endl; std::cerr << "PUBLISH: key: " << RsUtil::BinToHex(idhash); std::cerr << " value: " << value; std::cerr << std::endl; #endif /* call to the real DHT */ return publishDHT(idhash, value, DHT_TTL_PUBLISH); } bool p3DhtMgr::dhtNotify(std::string idhash, std::string ownIdHash, std::string sign) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::dhtNotify()" << std::endl; #endif std::ostringstream value; value << "RSDHT:" << std::setw(2) << std::setfill('0') << DHT_MODE_NOTIFY << ":"; value << ownIdHash; /* call to the real DHT */ return publishDHT(idhash, value.str(), DHT_TTL_NOTIFY); } bool p3DhtMgr::dhtSearch(std::string idhash, uint32_t mode) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::dhtSearch()" << std::endl; #endif /* call to the real DHT */ return searchDHT(idhash); } bool p3DhtMgr::dhtBootstrap(std::string storehash, std::string ownIdHash, std::string sign) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::dhtBootstrap()" << std::endl; #endif std::ostringstream value; value << "RSDHT:" << std::setw(2) << std::setfill('0') << DHT_MODE_BOOTSTRAP << ":"; value << ownIdHash; /* call to the real DHT */ return publishDHT(storehash, value.str(), DHT_TTL_BOOTSTRAP); } /****************************** DHT FEEDBACK INTERFACE ********************************* * Two functions... * (1) The interpretation function. * (2) callback handling. * */ bool p3DhtMgr::resultDHT(std::string key, std::string value) { /* so .... two possibilities. * * RSDHT:01: IPL ... IPE ... TYPE ... (advertising) * RSDHT:02: HASH (connect request) * */ #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::resultDHT() key: 0x" << RsUtil::BinToHex(key); std::cerr << " value: 0x" << RsUtil::BinToHex(value) << std::endl; #endif /* variables for dhtResult() call */ struct sockaddr_in laddr; struct sockaddr_in raddr; std::string sign; int32_t reqType; uint32_t loc; if (1 > sscanf(value.c_str(), "RSDHT:%d: %n", &reqType, &loc)) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::resultDHT() Not RSDHT msg -> discarding" << std::endl; #endif /* failed */ return false; } dhtMtx.lock(); /* LOCK MUTEX */ std::string ownhash = ownEntry.hash1; dhtMtx.unlock(); /* UNLOCK MUTEX */ switch(reqType) { case DHT_MODE_NOTIFY: { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::resultDHT() NOTIFY msg" << std::endl; #endif if (ownhash != key) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::resultDHT() NOTIFY msg not for us -> discarding" << std::endl; #endif return false; } /* get the hash */ std::string notifyHash = value.substr(loc); #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::resultDHT() NOTIFY msg HASH:-> 0x" << RsUtil::BinToHex(notifyHash) << "<-" << std::endl; #endif /* call out */ dhtResultNotify(notifyHash); break; } case DHT_MODE_SEARCH: { if (ownhash == key) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::resultDHT() SEARCH msg is OWN PUBLISH -> discarding" << std::endl; #endif return false; } uint32_t a1,b1,c1,d1,e1; uint32_t a2,b2,c2,d2,e2; uint32_t flags; if (sscanf(&((value.c_str())[loc]), " IPL=%d.%d.%d.%d:%d, IPE=%d.%d.%d.%d:%d, type=%x", &a1, &b1, &c1, &d1, &e1, &a2, &b2, &c2, &d2, &e2, &flags) != 11) { /* failed to scan */ #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::resultDHT() SEARCH parse failed of:" << (&((value.c_str())[loc])); std::cerr << std::endl; #endif return false; } std::ostringstream out1; out1 << a1 << "." << b1 << "." << c1 << "." << d1; inet_aton(out1.str().c_str(), &(laddr.sin_addr)); laddr.sin_port = htons(e1); laddr.sin_family = AF_INET; std::ostringstream out2; out2 << a2 << "." << b2 << "." << c2 << "." << d2; inet_aton(out2.str().c_str(), &(raddr.sin_addr)); raddr.sin_port = htons(e2); raddr.sin_family = AF_INET; #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::resultDHT() SEARCH laddr: " << out1.str() << ":" << e1; std::cerr << " raddr: " << out2.str() << ":" << e2; std::cerr << " flags: " << flags; std::cerr << std::endl; #endif return dhtResultSearch(key, laddr, raddr, flags, sign); break; } case DHT_MODE_BOOTSTRAP: { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::resultDHT() BOOTSTRAP msg" << std::endl; #endif /* get the hash */ std::string bootId = value.substr(loc); #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::resultDHT() BOOTSTRAP msg, IdHash:->" << RsUtil::BinToHex(bootId) << "<-" << std::endl; #endif /* call out */ dhtResultBootstrap(bootId); break; } default: return false; break; } return false; } bool p3DhtMgr::dhtResultBootstrap(std::string idhash) { RsStackMutex stack(dhtMtx); /***** LOCK MUTEX *****/ #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::dhtResultBootstrap() from idhash: "; std::cerr << RsUtil::BinToHex(idhash) << std::endl; #endif /* Temp - to avoid duplication during testing */ if (stunIds.end() == std::find(stunIds.begin(), stunIds.end(), idhash)) { stunIds.push_back(idhash); #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::dhtResultBootstrap() adding to StunList"; std::cerr << std::endl; #endif } else { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::dhtResultBootstrap() DUPLICATE not adding to List"; std::cerr << std::endl; #endif } return true; } bool p3DhtMgr::dhtResultNotify(std::string idhash) { RsStackMutex stack(dhtMtx); /***** LOCK MUTEX *****/ #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::dhtResultNotify() from idhash: "; std::cerr << RsUtil::BinToHex(idhash) << std::endl; #endif std::map::iterator it; time_t now = time(NULL); /* if notify - we must match on the second hash */ for(it = peers.begin(); (it != peers.end()) && ((it->second).hash2 != idhash); it++); /* update data */ std::string peerid; /* ignore OFF peers */ if ((it != peers.end()) && (it->second.state != DHT_PEER_OFF)) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::dhtResult() NOTIFY for id: " << it->first << std::endl; #endif { /* Log */ std::ostringstream out; out << "p3DhtMgr::dhtResultNotify() NOTIFY from Id: " << it->first; rslog(RSL_WARNING, p3dhtzone, out.str()); } /* delay callback -> if they are not found */ it->second.notifyTS = now; it->second.notifyPending = RS_CONNECT_PASSIVE; mDhtModifications = true; /* no wait! */ if (it->second.state != DHT_PEER_FOUND) { /* flag for immediate search */ it->second.lastTS = 0; } } else { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::dhtResult() unknown NOTIFY "; std::cerr << RsUtil::BinToHex(idhash) << std::endl; #endif } return true; } bool p3DhtMgr::dhtResultSearch(std::string idhash, struct sockaddr_in &laddr, struct sockaddr_in &raddr, uint32_t type, std::string sign) { dhtMtx.lock(); /* LOCK MUTEX */ #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::dhtResultSearch() for idhash: "; std::cerr << RsUtil::BinToHex(idhash) << std::endl; #endif std::map::iterator it; bool doCb = false; bool doStun = false; uint32_t stunFlags = 0; time_t now = time(NULL); dhtPeerEntry ent; /* if search - we must match on the second hash */ for(it = peers.begin(); (it != peers.end()) && ((it->second).hash1 != idhash); it++); /* update data */ /* ignore OFF peers */ if ((it != peers.end()) && (it->second.state != DHT_PEER_OFF)) { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::dhtResult() SEARCH for id: " << it->first << std::endl; #endif it->second.lastTS = now; { /* Log */ std::ostringstream out; out << "p3DhtMgr::dhtSearchResult() for Id: " << it->first; out << " laddr: " << inet_ntoa(laddr.sin_addr); out << ":" << ntohs(laddr.sin_port); out << " raddr: " << inet_ntoa(raddr.sin_addr); out << ":" << ntohs(raddr.sin_port); out << " type: " << ownEntry.type; rslog(RSL_WARNING, p3dhtzone, out.str()); } /* update info .... always */ it->second.state = DHT_PEER_FOUND; it->second.laddr = laddr; it->second.raddr = raddr; it->second.type = type; /* Do callback all the time */ ent = it->second; doCb = true; if (it->second.notifyPending) { /* no wait if we have pendingNotification */ mDhtModifications = true; } /* do Stun always */ doStun = true; stunFlags = RS_STUN_FRIEND | RS_STUN_ONLINE; } else { #ifdef DHT_DEBUG std::cerr << "p3DhtMgr::dhtResult() SEARCH(stun) for idhash: "; std::cerr << RsUtil::BinToHex(idhash) << std::endl; #endif /* stun result? */ doStun = true; stunFlags = RS_STUN_ONLINE; } dhtMtx.unlock(); /* UNLOCK MUTEX */ if (doCb) { mConnCb->peerStatus(ent.id, ent.laddr, ent.raddr, ent.type, 0, RS_CB_DHT); } if (doStun) { mConnCb->stunStatus(idhash, raddr, type, stunFlags); } return true; } /******************************** AUX FUNCTIONS ********************************** * */ void printDhtPeerEntry(dhtPeerEntry *ent, std::ostream &out) { out << "DhtEntry: ID: " << ent->id; out << " State: " << ent->state; out << " lastTS: " << ent->lastTS; out << " notifyPending: " << ent->notifyPending; out << " notifyTS: " << ent->notifyTS; out << std::endl; out << " laddr: " << inet_ntoa(ent->laddr.sin_addr) << ":" << ntohs(ent->laddr.sin_port); out << " raddr: " << inet_ntoa(ent->raddr.sin_addr) << ":" << ntohs(ent->raddr.sin_port); out << " type: " << ent->type; out << std::endl; out << " hash1: " << RsUtil::BinToHex(ent->hash1); out << std::endl; out << " hash2: " << RsUtil::BinToHex(ent->hash2); out << std::endl; return; }