mirror of
https://github.com/oxen-io/lokinet.git
synced 2024-11-17 15:25:35 +00:00
497 lines
12 KiB
C++
497 lines
12 KiB
C++
#include <deque>
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#include <llarp/encrypted_frame.hpp>
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#include <llarp/path.hpp>
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#include <llarp/pathbuilder.hpp>
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#include "buffer.hpp"
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#include "router.hpp"
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namespace llarp
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{
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namespace path
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{
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PathContext::PathContext(llarp_router* router)
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: m_Router(router), m_AllowTransit(false)
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{
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}
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PathContext::~PathContext()
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{
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}
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void
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PathContext::AllowTransit()
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{
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m_AllowTransit = true;
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}
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bool
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PathContext::AllowingTransit() const
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{
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return m_AllowTransit;
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}
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llarp_threadpool*
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PathContext::Worker()
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{
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return m_Router->tp;
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}
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llarp_crypto*
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PathContext::Crypto()
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{
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return &m_Router->crypto;
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}
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llarp_logic*
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PathContext::Logic()
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{
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return m_Router->logic;
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}
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byte_t*
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PathContext::EncryptionSecretKey()
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{
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return m_Router->encryption;
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}
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bool
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PathContext::HopIsUs(const PubKey& k) const
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{
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return memcmp(k, m_Router->pubkey(), PUBKEYSIZE) == 0;
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}
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bool
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PathContext::ForwardLRCM(const RouterID& nextHop,
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std::deque< EncryptedFrame >& frames)
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{
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llarp::LogDebug("fowarding LRCM to ", nextHop);
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LR_CommitMessage* msg = new LR_CommitMessage;
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while(frames.size())
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{
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msg->frames.push_back(frames.front());
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frames.pop_front();
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}
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return m_Router->SendToOrQueue(nextHop, msg);
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}
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template < typename Map_t, typename Key_t, typename CheckValue_t,
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typename GetFunc_t >
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IHopHandler*
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MapGet(Map_t& map, const Key_t& k, CheckValue_t check, GetFunc_t get)
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{
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std::unique_lock< std::mutex > lock(map.first);
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auto range = map.second.equal_range(k);
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for(auto i = range.first; i != range.second; ++i)
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{
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if(check(i->second))
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return get(i->second);
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}
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return nullptr;
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}
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template < typename Map_t, typename Key_t, typename CheckValue_t >
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bool
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MapHas(Map_t& map, const Key_t& k, CheckValue_t check)
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{
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std::unique_lock< std::mutex > lock(map.first);
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auto range = map.second.equal_range(k);
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for(auto i = range.first; i != range.second; ++i)
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{
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if(check(i->second))
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return true;
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}
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return false;
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}
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template < typename Map_t, typename Key_t, typename Value_t >
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void
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MapPut(Map_t& map, const Key_t& k, const Value_t& v)
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{
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std::unique_lock< std::mutex > lock(map.first);
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map.second.insert(std::make_pair(k, v));
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}
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template < typename Map_t, typename Visit_t >
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void
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MapIter(Map_t& map, Visit_t v)
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{
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std::unique_lock< std::mutex > lock(map.first);
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for(const auto& item : map.second)
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v(item);
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}
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template < typename Map_t, typename Key_t, typename Check_t >
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void
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MapDel(Map_t& map, const Key_t& k, Check_t check)
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{
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std::unique_lock< std::mutex > lock(map.first);
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auto range = map.second.equal_range(k);
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for(auto i = range.first; i != range.second;)
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{
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if(check(i->second))
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i = map.second.erase(i);
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else
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++i;
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}
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}
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void
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PathContext::AddOwnPath(PathSet* set, Path* path)
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{
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set->AddPath(path);
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MapPut(m_OurPaths, path->TXID(), set);
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MapPut(m_OurPaths, path->RXID(), set);
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}
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bool
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PathContext::HasTransitHop(const TransitHopInfo& info)
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{
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return MapHas(m_TransitPaths, info.txID, [info](TransitHop* hop) -> bool {
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return info == hop->info;
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});
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}
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IHopHandler*
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PathContext::GetByUpstream(const RouterID& remote, const PathID_t& id)
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{
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auto own = MapGet(m_OurPaths, id,
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[](const PathSet* s) -> bool {
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// TODO: is this right?
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return true;
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},
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[remote, id](PathSet* p) -> IHopHandler* {
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return p->GetByUpstream(remote, id);
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});
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if(own)
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return own;
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return MapGet(m_TransitPaths, id,
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[remote](const TransitHop* hop) -> bool {
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return hop->info.upstream == remote;
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},
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[](TransitHop* h) -> IHopHandler* { return h; });
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}
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IHopHandler*
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PathContext::GetByDownstream(const RouterID& remote, const PathID_t& id)
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{
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return MapGet(m_TransitPaths, id,
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[remote](const TransitHop* hop) -> bool {
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return hop->info.downstream == remote;
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},
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[](TransitHop* h) -> IHopHandler* { return h; });
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}
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PathSet*
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PathContext::GetLocalPathSet(const PathID_t& id)
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{
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auto& map = m_OurPaths;
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std::unique_lock< std::mutex > lock(map.first);
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auto itr = map.second.find(id);
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if(itr != map.second.end())
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{
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return itr->second;
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}
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return nullptr;
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}
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const byte_t*
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PathContext::OurRouterID() const
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{
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return m_Router->pubkey();
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}
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llarp_router*
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PathContext::Router()
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{
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return m_Router;
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}
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void
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PathContext::PutTransitHop(TransitHop* hop)
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{
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MapPut(m_TransitPaths, hop->info.txID, hop);
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MapPut(m_TransitPaths, hop->info.rxID, hop);
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}
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void
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PathContext::ExpirePaths()
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{
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std::unique_lock< std::mutex > lock(m_TransitPaths.first);
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auto now = llarp_time_now_ms();
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auto& map = m_TransitPaths.second;
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auto itr = map.begin();
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std::set< TransitHop* > removePaths;
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while(itr != map.end())
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{
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if(itr->second->Expired(now))
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{
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TransitHop* path = itr->second;
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llarp::LogDebug("transit path expired ", path->info);
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removePaths.insert(path);
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}
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++itr;
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}
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for(auto& p : removePaths)
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{
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map.erase(p->info.txID);
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map.erase(p->info.rxID);
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delete p;
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}
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for(auto& builder : m_PathBuilders)
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{
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builder->ExpirePaths(now);
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}
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}
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void
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PathContext::BuildPaths()
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{
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for(auto& builder : m_PathBuilders)
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{
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if(builder->ShouldBuildMore())
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{
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builder->BuildOne();
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}
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}
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}
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void
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PathContext::TickPaths()
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{
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auto now = llarp_time_now_ms();
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for(auto& builder : m_PathBuilders)
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builder->Tick(now, m_Router);
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}
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void
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PathContext::AddPathBuilder(llarp_pathbuilder_context* ctx)
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{
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m_PathBuilders.push_back(ctx);
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}
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PathHopConfig::PathHopConfig()
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{
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llarp_rc_clear(&router);
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}
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PathHopConfig::~PathHopConfig()
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{
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llarp_rc_free(&router);
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}
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Path::Path(llarp_path_hops* h) : hops(h->numHops)
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{
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for(size_t idx = 0; idx < h->numHops; ++idx)
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{
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llarp_rc_copy(&hops[idx].router, &h->hops[idx].router);
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hops[idx].txID.Randomize();
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hops[idx].rxID.Randomize();
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}
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for(size_t idx = 0; idx < h->numHops - 1; ++idx)
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{
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hops[idx].txID = hops[idx + 1].rxID;
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}
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// initialize parts of the introduction
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intro.router = hops[h->numHops - 1].router.pubkey;
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// TODO: or is it rxid ?
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intro.pathID = hops[h->numHops - 1].txID;
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}
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void
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Path::SetBuildResultHook(BuildResultHookFunc func)
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{
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m_BuiltHook = func;
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}
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RouterID
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Path::Endpoint() const
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{
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return hops[hops.size() - 1].router.pubkey;
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}
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const PathID_t&
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Path::TXID() const
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{
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return hops[0].txID;
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}
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const PathID_t&
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Path::RXID() const
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{
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return hops[0].rxID;
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}
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bool
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Path::IsReady() const
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{
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return intro.latency > 0 && status == ePathEstablished;
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}
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RouterID
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Path::Upstream() const
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{
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return hops[0].router.pubkey;
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}
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void
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Path::Tick(llarp_time_t now, llarp_router* r)
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{
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if(Expired(now))
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return;
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if(now < m_LastLatencyTestTime)
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return;
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auto dlt = now - m_LastLatencyTestTime;
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if(dlt > 5000 && m_LastLatencyTestID == 0)
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{
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llarp::routing::PathLatencyMessage latency;
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latency.T = llarp_randint();
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m_LastLatencyTestID = latency.T;
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m_LastLatencyTestTime = now;
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SendRoutingMessage(&latency, r);
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}
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}
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bool
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Path::HandleUpstream(llarp_buffer_t buf, const TunnelNonce& Y,
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llarp_router* r)
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{
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TunnelNonce n = Y;
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for(const auto& hop : hops)
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{
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r->crypto.xchacha20(buf, hop.shared, n);
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n ^= hop.nonceXOR;
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}
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RelayUpstreamMessage* msg = new RelayUpstreamMessage;
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msg->X = buf;
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msg->Y = Y;
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msg->pathid = TXID();
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return r->SendToOrQueue(Upstream(), msg);
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}
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bool
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Path::Expired(llarp_time_t now) const
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{
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if(status == ePathEstablished)
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return now - buildStarted > hops[0].lifetime;
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else if(status == ePathBuilding)
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return now - buildStarted > PATH_BUILD_TIMEOUT;
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else
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return true;
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}
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bool
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Path::HandleDownstream(llarp_buffer_t buf, const TunnelNonce& Y,
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llarp_router* r)
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{
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TunnelNonce n = Y;
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for(const auto& hop : hops)
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{
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n ^= hop.nonceXOR;
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r->crypto.xchacha20(buf, hop.shared, n);
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}
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return HandleRoutingMessage(buf, r);
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}
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bool
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Path::HandleRoutingMessage(llarp_buffer_t buf, llarp_router* r)
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{
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if(!m_InboundMessageParser.ParseMessageBuffer(buf, this, RXID(), r))
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{
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llarp::LogWarn("Failed to parse inbound routing message");
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return false;
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}
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return true;
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}
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bool
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Path::SendRoutingMessage(llarp::routing::IMessage* msg, llarp_router* r)
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{
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msg->S = m_SequenceNum++;
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byte_t tmp[MAX_LINK_MSG_SIZE / 2];
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auto buf = llarp::StackBuffer< decltype(tmp) >(tmp);
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if(!msg->BEncode(&buf))
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return false;
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// make nonce
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TunnelNonce N;
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N.Randomize();
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buf.sz = buf.cur - buf.base;
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// pad smaller messages
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if(buf.sz < MESSAGE_PAD_SIZE)
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{
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// randomize padding
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r->crypto.randbytes(buf.cur, MESSAGE_PAD_SIZE - buf.sz);
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buf.sz = MESSAGE_PAD_SIZE;
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}
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buf.cur = buf.base;
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return HandleUpstream(buf, N, r);
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}
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bool
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Path::HandlePathTransferMessage(
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const llarp::routing::PathTransferMessage* msg, llarp_router* r)
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{
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llarp::LogWarn("unwarrented path transfer message on tx=", TXID(),
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" rx=", RXID());
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return false;
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}
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bool
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Path::HandlePathConfirmMessage(
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const llarp::routing::PathConfirmMessage* msg, llarp_router* r)
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{
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if(status == ePathBuilding)
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{
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// finish initializing introduction
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intro.expiresAt = buildStarted + hops[0].lifetime;
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// confirm that we build the path
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status = ePathEstablished;
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llarp::LogInfo("path is confirmed tx=", TXID(), " rx=", RXID());
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if(m_BuiltHook)
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m_BuiltHook(this);
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m_BuiltHook = nullptr;
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llarp::routing::PathLatencyMessage latency;
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latency.T = llarp_randint();
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m_LastLatencyTestID = latency.T;
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m_LastLatencyTestTime = llarp_time_now_ms();
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return SendRoutingMessage(&latency, r);
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}
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llarp::LogWarn("got unwarrented path confirm message on tx=", RXID(),
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" rx=", RXID());
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return false;
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}
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bool
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Path::HandlePathLatencyMessage(
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const llarp::routing::PathLatencyMessage* msg, llarp_router* r)
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{
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if(msg->L == m_LastLatencyTestID && status == ePathEstablished)
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{
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intro.latency = llarp_time_now_ms() - m_LastLatencyTestTime;
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llarp::LogInfo("path latency is ", intro.latency, " ms for tx=", TXID(),
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" rx=", RXID());
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m_LastLatencyTestID = 0;
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return true;
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}
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else
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{
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llarp::LogWarn("unwarrented path latency message via ", Upstream());
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return false;
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}
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}
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bool
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Path::HandleDHTMessage(const llarp::dht::IMessage* msg, llarp_router* r)
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{
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std::vector< llarp::dht::IMessage* > discard;
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auto result = msg->HandleMessage(r->dht, discard);
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for(auto& msg : discard)
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delete msg;
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return result;
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}
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} // namespace path
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} // namespace llarp
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