/* * libretroshare/src/dht: p3bitdht.h * * BitDht interface for RetroShare. * * Copyright 2009-2010 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 "dht/p3bitdht.h" #include "bitdht/bdstddht.h" #include "tcponudp/udprelay.h" #include "tcponudp/udpstunner.h" #include /*** * * #define DEBUG_BITDHT 1 * #define DEBUG_BITDHT_TRANSLATE 1 * **/ /****************************************************************************************** ********************************* Existing Interface ************************************* ******************************************************************************************/ /* pqiNetAssistConnect - external interface functions */ /* add / remove peers */ /***** * At the moment, findPeer, dropPeer are the only way that peer info enters the dht. * This will obviously change, and we will have a list of Friends and FoF, * but for now we need to expect that this function will add unknown pids. * */ #define USE_OLD_DHT_INTERFACE 1 bool p3BitDht::findPeer(std::string pid) { #ifdef DEBUG_BITDHT std::cerr << "p3BitDht::findPeer(" << pid << ")"; std::cerr << std::endl; #endif bdNodeId nid; { RsStackMutex stack(dhtMtx); /********* LOCKED *********/ DhtPeerDetails *dpd = findInternalRsPeer_locked(pid); if (!dpd) { dpd = addInternalPeer_locked(pid, RSDHT_PEERTYPE_FRIEND); if (!dpd) { /* ERROR */ #ifdef DEBUG_BITDHT std::cerr << "p3BitDht::findPeer() ERROR installing InternalPeer"; std::cerr << std::endl; #endif return false; } /* new entry... what do we need to set? */ dpd->mDhtState = RSDHT_PEERDHT_SEARCHING; #ifdef DEBUG_BITDHT std::cerr << "p3BitDht::findPeer() Installed new DhtPeer with pid => NodeId: "; bdStdPrintNodeId(std::cerr, &(dpd->mDhtId.id)); std::cerr << std::endl; #endif } else { /* old entry */ #ifdef DEBUG_BITDHT std::cerr << "p3BitDht::findPeer() Reactivating DhtPeer with pid => NodeId: "; bdStdPrintNodeId(std::cerr, &(dpd->mDhtId.id)); std::cerr << std::endl; #endif if (dpd->mDhtState != RSDHT_PEERDHT_NOT_ACTIVE) { #ifdef DEBUG_BITDHT std::cerr << "p3BitDht::findPeer() WARNING DhtState is Already Active!"; bdStdPrintNodeId(std::cerr, &(dpd->mDhtId.id)); std::cerr << std::endl; #endif } else { /* flag as searching */ dpd->mDhtState = RSDHT_PEERDHT_SEARCHING; #ifdef DEBUG_BITDHT std::cerr << "p3BitDht::findPeer() Marking Old Peer as SEARCHING"; std::cerr << std::endl; #endif } } nid = dpd->mDhtId.id; #ifdef DEBUG_BITDHT std::cerr << "p3BitDht::findPeer() calling AddFindNode() with pid => NodeId: "; bdStdPrintNodeId(std::cerr, &nid); std::cerr << std::endl; #endif } /* add in peer */ mUdpBitDht->addFindNode(&nid, BITDHT_QFLAGS_DO_IDLE | BITDHT_QFLAGS_UPDATES); return true ; } bool p3BitDht::dropPeer(std::string pid) { #ifdef DEBUG_BITDHT std::cerr << "p3BitDht::dropPeer(" << pid << ")"; std::cerr << std::endl; #endif bdNodeId nid; { RsStackMutex stack(dhtMtx); /********* LOCKED *********/ DhtPeerDetails *dpd = findInternalRsPeer_locked(pid); if (!dpd) { /* ERROR */ std::cerr << "p3BitDht::dropPeer(" << pid << ") HACK TO INCLUDE FRIEND AS NON-ACTIVE PEER"; std::cerr << std::endl; //addFriend(pid); dpd = addInternalPeer_locked(pid, RSDHT_PEERTYPE_FOF); return false; } /* flag as searching */ dpd->mDhtState = RSDHT_PEERDHT_NOT_ACTIVE; nid = dpd->mDhtId.id; #ifdef DEBUG_BITDHT std::cerr << "p3BitDht::dropPeer() calling removeFindNode() with pid => NodeId: "; bdStdPrintNodeId(std::cerr, &nid); std::cerr << std::endl; #endif } /* remove in peer */ mUdpBitDht->removeFindNode(&nid); /* not removing from translation */ return true ; } /****************************************************************************************** ********************************* Basic Peer Details ************************************* ******************************************************************************************/ int p3BitDht::addBadPeer(const struct sockaddr_in &addr, uint32_t reason, uint32_t flags, uint32_t age) { //mUdpBitDht->updateKnownPeer(&id, 0, bdflags); if (mDhtStunner) { mDhtStunner->dropStunPeer(addr); } if (mProxyStunner) { mProxyStunner->dropStunPeer(addr); } return 1; } int p3BitDht::addKnownPeer(const std::string &pid, const struct sockaddr_in &addr, uint32_t flags) { int p3type = 0; int bdflags = 0; bdId id; bool isOwnId = false; switch(flags & NETASSIST_KNOWN_PEER_TYPE_MASK) { default: return 0; break; case NETASSIST_KNOWN_PEER_WHITELIST: p3type = RSDHT_PEERTYPE_OTHER; bdflags = BITDHT_PEER_STATUS_DHT_WHITELIST; break; case NETASSIST_KNOWN_PEER_FOF: p3type = RSDHT_PEERTYPE_FOF; bdflags = BITDHT_PEER_STATUS_DHT_FOF; break; case NETASSIST_KNOWN_PEER_FRIEND: p3type = RSDHT_PEERTYPE_FRIEND; bdflags = BITDHT_PEER_STATUS_DHT_FRIEND; break; case NETASSIST_KNOWN_PEER_RELAY: p3type = RSDHT_PEERTYPE_OTHER; bdflags = BITDHT_PEER_STATUS_DHT_RELAY_SERVER; break; case NETASSIST_KNOWN_PEER_SELF: p3type = RSDHT_PEERTYPE_OTHER; bdflags = BITDHT_PEER_STATUS_DHT_SELF; isOwnId = true; break; } if (flags & NETASSIST_KNOWN_PEER_ONLINE) { bdflags |= BD_FRIEND_ENTRY_ONLINE; } if (!isOwnId) { RsStackMutex stack(dhtMtx); /********* LOCKED *********/ DhtPeerDetails *dpd = addInternalPeer_locked(pid, p3type); if (bdflags & BD_FRIEND_ENTRY_ONLINE) { /* can we update the address? */ //dpd->mDhtId.addr = addr; } id.id = dpd->mDhtId.id; id.addr = addr; } else { // shouldn't use own id without mutex - but it is static! id.id = mOwnDhtId; id.addr = addr; } mUdpBitDht->updateKnownPeer(&id, 0, bdflags); return 1; } #if 0 int p3BitDht::addFriend(const std::string pid) { RsStackMutex stack(dhtMtx); /********* LOCKED *********/ return (NULL != addInternalPeer_locked(pid, RSDHT_PEERTYPE_FRIEND)); } int p3BitDht::addFriendOfFriend(const std::string pid) { RsStackMutex stack(dhtMtx); /********* LOCKED *********/ return (NULL != addInternalPeer_locked(pid, RSDHT_PEERTYPE_FOF)); } int p3BitDht::addOther(const std::string pid) { RsStackMutex stack(dhtMtx); /********* LOCKED *********/ return (NULL != addInternalPeer_locked(pid, RSDHT_PEERTYPE_OTHER)); } #endif int p3BitDht::removePeer(const std::string pid) { RsStackMutex stack(dhtMtx); /********* LOCKED *********/ return removeInternalPeer_locked(pid); } /****************************************************************************************** ********************************* Basic Peer Details ************************************* ******************************************************************************************/ DhtPeerDetails *p3BitDht::addInternalPeer_locked(const std::string pid, int type) { /* create the data structure */ if (!havePeerTranslation_locked(pid)) { storeTranslation_locked(pid); } bdNodeId id; if (!lookupNodeId_locked(pid, &id)) { return 0; } DhtPeerDetails *dpd = findInternalDhtPeer_locked(&id, RSDHT_PEERTYPE_ANY); if (!dpd) { DhtPeerDetails newdpd; mPeers[id] = newdpd; dpd = findInternalDhtPeer_locked(&id, RSDHT_PEERTYPE_ANY); dpd->mDhtId.id = id; dpd->mRsId = pid; dpd->mDhtState = RSDHT_PEERDHT_NOT_ACTIVE; } /* what do we need to reset? */ dpd->mPeerType = type; return dpd; } int p3BitDht::removeInternalPeer_locked(const std::string pid) { bdNodeId id; if (!lookupNodeId_locked(pid, &id)) { return 0; } std::map::iterator it = mPeers.find(id); if (it == mPeers.end()) { return 0; } mPeers.erase(it); // remove the translation? removeTranslation_locked(pid); return 1; } /* indexed by bdNodeId, as this is the more used call interface */ DhtPeerDetails *p3BitDht::findInternalDhtPeer_locked(const bdNodeId *id, int type) { std::map::iterator it = mPeers.find(*id); if (it == mPeers.end()) { return NULL; } if (type) { if (it->second.mPeerType != type) { return NULL; } } return &(it->second); } /* interface to get with alt id */ DhtPeerDetails *p3BitDht::findInternalRsPeer_locked(const std::string &pid) { /* create the data structure */ if (!havePeerTranslation_locked(pid)) { return NULL; } bdNodeId id; if (!lookupNodeId_locked(pid, &id)) { return NULL; } DhtPeerDetails *dpd = findInternalDhtPeer_locked(&id,RSDHT_PEERTYPE_ANY); return dpd; } /****************************************************************************************** *************************** Fundamental Node Translation ********************************* ******************************************************************************************/ bool p3BitDht::havePeerTranslation_locked(const std::string &pid) { #ifdef DEBUG_BITDHT_TRANSLATE std::cerr << "p3BitDht::havePeerTranslation_locked() for : " << pid; std::cerr << std::endl; #endif std::map::iterator it; it = mTransToNodeId.find(pid); if (it == mTransToNodeId.end()) { #ifdef DEBUG_BITDHT_TRANSLATE std::cerr << "p3BitDht::havePeerTranslation_locked() failed Missing translation"; std::cerr << std::endl; #endif return false; } #ifdef DEBUG_BITDHT_TRANSLATE std::cerr << "p3BitDht::havePeerTranslation_locked() Found NodeId: "; bdStdPrintNodeId(std::cerr, &(it->second)); std::cerr << std::endl; #endif return true; } int p3BitDht::lookupNodeId_locked(const std::string pid, bdNodeId *id) { #ifdef DEBUG_BITDHT_TRANSLATE std::cerr << "p3BitDht::lookupNodeId_locked() for : " << pid; std::cerr << std::endl; #endif std::map::iterator it; it = mTransToNodeId.find(pid); if (it == mTransToNodeId.end()) { #ifdef DEBUG_BITDHT_TRANSLATE std::cerr << "p3BitDht::lookupNodeId_locked() failed"; std::cerr << std::endl; #endif return 0; } *id = it->second; #ifdef DEBUG_BITDHT_TRANSLATE std::cerr << "p3BitDht::lookupNodeId_locked() Found NodeId: "; bdStdPrintNodeId(std::cerr, id); std::cerr << std::endl; #endif return 1; } int p3BitDht::lookupRsId_locked(const bdNodeId *id, std::string &pid) { #ifdef DEBUG_BITDHT_TRANSLATE std::cerr << "p3BitDht::lookupRsId_locked() for : "; bdStdPrintNodeId(std::cerr, id); std::cerr << std::endl; #endif std::map::iterator nit; nit = mTransToRsId.find(*id); if (nit == mTransToRsId.end()) { #ifdef DEBUG_BITDHT_TRANSLATE std::cerr << "p3BitDht::lookupRsId_locked() failed"; std::cerr << std::endl; #endif return 0; } pid = nit->second; #ifdef DEBUG_BITDHT_TRANSLATE std::cerr << "p3BitDht::lookupRsId_locked() Found Matching RsId: " << pid; std::cerr << std::endl; #endif return 1; } int p3BitDht::storeTranslation_locked(const std::string pid) { std::cerr << "p3BitDht::storeTranslation_locked(" << pid << ")"; std::cerr << std::endl; #ifdef DEBUG_BITDHT_TRANSLATE #endif bdNodeId nid; calculateNodeId(pid, &nid); std::cerr << "p3BitDht::storeTranslation_locked() Converts to NodeId: "; bdStdPrintNodeId(std::cerr, &(nid)); std::cerr << std::endl; #ifdef DEBUG_BITDHT_TRANSLATE #endif mTransToNodeId[pid] = nid; mTransToRsId[nid] = pid; std::cerr << "p3BitDht::storeTranslation_locked() Success"; std::cerr << std::endl; #ifdef DEBUG_BITDHT_TRANSLATE #endif return 1; } int p3BitDht::removeTranslation_locked(const std::string pid) { #ifdef DEBUG_BITDHT_TRANSLATE std::cerr << "p3BitDht::removeTranslation_locked(" << pid << ")"; std::cerr << std::endl; #endif std::map::iterator it = mTransToNodeId.find(pid); it = mTransToNodeId.find(pid); if (it == mTransToNodeId.end()) { std::cerr << "p3BitDht::removeTranslation_locked() ERROR MISSING TransToNodeId"; std::cerr << std::endl; /* missing */ return 0; } bdNodeId nid = it->second; #ifdef DEBUG_BITDHT_TRANSLATE std::cerr << "p3BitDht::removeTranslation_locked() Found Translation: NodeId: "; bdStdPrintNodeId(std::cerr, &(nid)); std::cerr << std::endl; #endif std::map::iterator nit; nit = mTransToRsId.find(nid); if (nit == mTransToRsId.end()) { std::cerr << "p3BitDht::removeTranslation_locked() ERROR MISSING TransToRsId"; std::cerr << std::endl; /* inconsistent!!! */ return 0; } mTransToNodeId.erase(it); mTransToRsId.erase(nit); #ifdef DEBUG_BITDHT_TRANSLATE std::cerr << "p3BitDht::removeTranslation_locked() SUCCESS"; std::cerr << std::endl; #endif return 1; } /* Adding a little bit of fixed text... * This allows us to ensure that only compatible peers will find each other */ const uint8_t RS_DHT_VERSION_LEN = 17; const uint8_t rs_dht_version_data[RS_DHT_VERSION_LEN] = "RS_VERSION_0.5.1"; /******************** Conversion Functions **************************/ int p3BitDht::calculateNodeId(const std::string pid, bdNodeId *id) { /* generate node id from pid */ #ifdef DEBUG_BITDHT_TRANSLATE std::cerr << "p3BitDht::calculateNodeId() " << pid; #endif /* use a hash to make it impossible to reverse */ uint8_t sha_hash[SHA_DIGEST_LENGTH]; memset(sha_hash,0,SHA_DIGEST_LENGTH*sizeof(uint8_t)) ; SHA_CTX *sha_ctx = new SHA_CTX; SHA1_Init(sha_ctx); SHA1_Update(sha_ctx, rs_dht_version_data, RS_DHT_VERSION_LEN); SHA1_Update(sha_ctx, pid.c_str(), pid.length()); SHA1_Final(sha_hash, sha_ctx); for(int i = 0; i < SHA_DIGEST_LENGTH && (i < BITDHT_KEY_LEN); i++) { id->data[i] = sha_hash[i]; } delete sha_ctx; #ifdef DEBUG_BITDHT_TRANSLATE std::cerr << " => "; bdStdPrintNodeId(std::cerr, id); std::cerr << std::endl; #endif return 1; } /******************** Conversion Functions **************************/ DhtPeerDetails::DhtPeerDetails() { mDhtState = RSDHT_PEERDHT_NOT_ACTIVE; mDhtState = RSDHT_PEERDHT_SEARCHING; mDhtUpdateTS = time(NULL); mPeerReqStatusMsg = "Just Added"; mPeerReqState = RSDHT_PEERREQ_STOPPED; mPeerReqMode = 0; //mPeerReqProxyId; mPeerReqTS = time(NULL); mExclusiveProxyLock = false; mPeerCbMsg = "No CB Yet"; mPeerCbMode = 0; mPeerCbPoint = 0; //mPeerCbProxyId = 0; //mPeerCbDestId = 0; mPeerCbTS = 0; mPeerConnectState = RSDHT_PEERCONN_DISCONNECTED; mPeerConnectMsg = "Disconnected"; mPeerConnectMode = 0; //dpd->mPeerConnectProxyId; mPeerConnectPoint = 0; mPeerConnectUdpTS = 0; mPeerConnectTS = 0; mPeerConnectClosedTS = 0; bdsockaddr_clear(&(mPeerConnectAddr)); }