/* */ #include "DHTMessageTracker.h" #include #include "DHTMessage.h" #include "DHTMessageCallback.h" #include "DHTMessageTrackerEntry.h" #include "DHTNode.h" #include "DHTRoutingTable.h" #include "DHTMessageFactory.h" #include "util.h" #include "LogFactory.h" #include "Logger.h" #include "DlAbortEx.h" #include "DHTConstants.h" #include "fmt.h" namespace aria2 { DHTMessageTracker::DHTMessageTracker() : routingTable_{nullptr}, factory_{nullptr} {} void DHTMessageTracker::addMessage (DHTMessage* message, time_t timeout, std::unique_ptr callback) { entries_.push_back(make_unique (message->getRemoteNode(), message->getTransactionID(), message->getMessageType(), timeout, std::move(callback))); } std::pair, std::unique_ptr> DHTMessageTracker::messageArrived (const Dict* dict, const std::string& ipaddr, uint16_t port) { const String* tid = downcast(dict->get(DHTMessage::T)); if(!tid) { throw DL_ABORT_EX(fmt("Malformed DHT message. From:%s:%u", ipaddr.c_str(), port)); } A2_LOG_DEBUG(fmt("Searching tracker entry for TransactionID=%s, Remote=%s:%u", util::toHex(tid->s()).c_str(), ipaddr.c_str(), port)); for(auto i = std::begin(entries_), eoi = std::end(entries_); i != eoi; ++i) { if((*i)->match(tid->s(), ipaddr, port)) { auto entry = std::move(*i); entries_.erase(i); A2_LOG_DEBUG("Tracker entry found."); auto& targetNode = entry->getTargetNode(); try { auto message = factory_->createResponseMessage(entry->getMessageType(), dict, targetNode->getIPAddress(), targetNode->getPort()); int64_t rtt = entry->getElapsedMillis(); A2_LOG_DEBUG(fmt("RTT is %" PRId64 "", rtt)); message->getRemoteNode()->updateRTT(rtt); if(*targetNode != *message->getRemoteNode()) { // Node ID has changed. Drop previous node ID from // DHTRoutingTable A2_LOG_DEBUG (fmt("Node ID has changed: old:%s, new:%s", util::toHex(targetNode->getID(), DHT_ID_LENGTH).c_str(), util::toHex(message->getRemoteNode()->getID(), DHT_ID_LENGTH).c_str())); routingTable_->dropNode(targetNode); } return std::make_pair(std::move(message), entry->popCallback()); } catch(RecoverableException& e) { handleTimeoutEntry(entry.get()); throw; } } } A2_LOG_DEBUG("Tracker entry not found."); return std::pair, std::unique_ptr>{}; } void DHTMessageTracker::handleTimeoutEntry(DHTMessageTrackerEntry* entry) { try { auto& node = entry->getTargetNode(); A2_LOG_DEBUG(fmt("Message timeout: To:%s:%u", node->getIPAddress().c_str(), node->getPort())); node->updateRTT(entry->getElapsedMillis()); node->timeout(); if(node->isBad()) { A2_LOG_DEBUG(fmt("Marked bad: %s:%u", node->getIPAddress().c_str(), node->getPort())); routingTable_->dropNode(node); } auto& callback = entry->getCallback(); if(callback) { callback->onTimeout(node); } } catch(RecoverableException& e) { A2_LOG_INFO_EX("Exception thrown while handling timeouts.", e); } } void DHTMessageTracker::handleTimeout() { entries_.erase (std::remove_if(std::begin(entries_), std::end(entries_), [&](const std::unique_ptr& ent) { if(ent->isTimeout()) { handleTimeoutEntry(ent.get()); return true; } else { return false; } }), std::end(entries_)); } const DHTMessageTrackerEntry* DHTMessageTracker::getEntryFor(const DHTMessage* message) const { for(auto& ent : entries_) { if(ent->match(message->getTransactionID(), message->getRemoteNode()->getIPAddress(), message->getRemoteNode()->getPort())) { return ent.get(); } } return nullptr; } size_t DHTMessageTracker::countEntry() const { return entries_.size(); } void DHTMessageTracker::setRoutingTable(DHTRoutingTable* routingTable) { routingTable_ = routingTable; } void DHTMessageTracker::setMessageFactory(DHTMessageFactory* factory) { factory_ = factory; } } // namespace aria2