#include #include #include #include namespace llarp { namespace path { PathSet::PathSet(size_t num) : m_NumPaths(num) { } bool PathSet::ShouldBuildMore(llarp_time_t now) const { (void)now; return m_Paths.size() < m_NumPaths; } void PathSet::Tick(llarp_time_t now, llarp_router* r) { for(auto& item : m_Paths) { item.second->Tick(now, r); } } void PathSet::ExpirePaths(llarp_time_t now) { if(m_Paths.size() == 0) return; auto itr = m_Paths.begin(); while(itr != m_Paths.end()) { if(itr->second->Expired(now)) { delete itr->second; itr = m_Paths.erase(itr); } else ++itr; } } Path* PathSet::GetEstablishedPathClosestTo(const AlignedBuffer< 32 >& id) const { Path* path = nullptr; AlignedBuffer< 32 > dist; dist.Fill(0xff); for(const auto& item : m_Paths) { if(!item.second->IsReady()) continue; AlignedBuffer< 32 > localDist = item.second->Endpoint() ^ id; if(localDist < dist) { dist = localDist; path = item.second; } } return path; } Path* PathSet::GetNewestPathByRouter(const RouterID& id) const { Path* chosen = nullptr; auto itr = m_Paths.begin(); while(itr != m_Paths.end()) { if(itr->second->IsReady()) { if(itr->second->Endpoint() == id) { if(chosen == nullptr) chosen = itr->second; else if(chosen->intro.expiresAt < itr->second->intro.expiresAt) chosen = itr->second; } } ++itr; } return chosen; } Path* PathSet::GetPathByRouter(const RouterID& id) const { Path* chosen = nullptr; auto itr = m_Paths.begin(); while(itr != m_Paths.end()) { if(itr->second->IsReady()) { if(itr->second->Endpoint() == id) { if(chosen == nullptr) chosen = itr->second; else if(chosen->intro.latency > itr->second->intro.latency) chosen = itr->second; } } ++itr; } return chosen; } Path* PathSet::GetPathByID(const PathID_t& id) const { auto itr = m_Paths.begin(); while(itr != m_Paths.end()) { if(itr->second->RXID() == id) return itr->second; ++itr; } return nullptr; } size_t PathSet::NumInStatus(PathStatus st) const { size_t count = 0; auto itr = m_Paths.begin(); while(itr != m_Paths.end()) { if(itr->second->_status == st) ++count; ++itr; } return count; } void PathSet::AddPath(Path* path) { m_Paths.insert( std::make_pair(std::make_pair(path->Upstream(), path->RXID()), path)); } void PathSet::RemovePath(Path* path) { m_Paths.erase({path->Upstream(), path->RXID()}); } Path* PathSet::GetByUpstream(const RouterID& remote, const PathID_t& rxid) const { auto itr = m_Paths.find({remote, rxid}); if(itr == m_Paths.end()) return nullptr; return itr->second; } void PathSet::HandlePathBuilt(Path* path) { auto dlt = Now() - path->buildStarted; llarp::LogInfo("Path build took ", dlt, "ms for tx=", path->TXID(), " rx=", path->RXID()); } bool PathSet::GetCurrentIntroductionsWithFilter( std::set< llarp::service::Introduction >& intros, std::function< bool(const llarp::service::Introduction&) > filter) const { intros.clear(); size_t count = 0; auto itr = m_Paths.begin(); while(itr != m_Paths.end()) { if(itr->second->IsReady() && filter(itr->second->intro)) { intros.insert(itr->second->intro); ++count; } ++itr; } return count > 0; } bool PathSet::GetCurrentIntroductions( std::set< llarp::service::Introduction >& intros) const { intros.clear(); size_t count = 0; auto itr = m_Paths.begin(); while(itr != m_Paths.end()) { if(itr->second->IsReady()) { intros.insert(itr->second->intro); ++count; } ++itr; } return count > 0; } void PathSet::HandlePathBuildTimeout(Path* p) { llarp::LogInfo("path ", p->Name(), " has timed out"); } bool PathSet::GetNewestIntro(service::Introduction& intro) const { intro.Clear(); bool found = false; auto itr = m_Paths.begin(); while(itr != m_Paths.end()) { if(itr->second->IsReady() && itr->second->intro.expiresAt > intro.expiresAt) { intro = itr->second->intro; found = true; } ++itr; } return found; } Path* PathSet::PickRandomEstablishedPath() const { std::vector< Path* > established; auto itr = m_Paths.begin(); while(itr != m_Paths.end()) { if(itr->second->IsReady()) established.push_back(itr->second); ++itr; } auto sz = established.size(); if(sz) { return established[llarp_randint() % sz]; } else return nullptr; } } // namespace path } // namespace llarp