lokinet/llarp/path/path_context.cpp
2020-03-03 18:16:08 -05:00

371 lines
9.3 KiB
C++

#include <path/path_context.hpp>
#include <messages/relay_commit.hpp>
#include <path/path.hpp>
#include <router/abstractrouter.hpp>
#include <router/i_outbound_message_handler.hpp>
namespace llarp
{
namespace path
{
static constexpr auto DefaultPathBuildLimit = 500ms;
PathContext::PathContext(AbstractRouter* router)
: m_Router(router)
, m_AllowTransit(false)
, m_PathLimits(DefaultPathBuildLimit)
{
}
void
PathContext::AllowTransit()
{
m_AllowTransit = true;
}
bool
PathContext::AllowingTransit() const
{
return m_AllowTransit;
}
std::shared_ptr< thread::ThreadPool >
PathContext::Worker()
{
return m_Router->threadpool();
}
bool
PathContext::CheckPathLimitHitByIP(const llarp::Addr& ip)
{
#ifdef TESTNET
return false;
#else
llarp::Addr remote = ip;
// set port to zero
remote.port(0);
// try inserting remote address by ip into decaying hash set
// if it cannot insert it has hit a limit
return not m_PathLimits.Insert(remote);
#endif
}
std::shared_ptr< Logic >
PathContext::logic()
{
return m_Router->logic();
}
const SecretKey&
PathContext::EncryptionSecretKey()
{
return m_Router->encryption();
}
bool
PathContext::HopIsUs(const RouterID& k) const
{
return std::equal(m_Router->pubkey(), m_Router->pubkey() + PUBKEYSIZE,
k.begin());
}
PathContext::EndpointPathPtrSet
PathContext::FindOwnedPathsWithEndpoint(const RouterID& r)
{
EndpointPathPtrSet found;
m_OurPaths.ForEach([&](const Path_ptr& p) {
if(p->Endpoint() == r && p->IsReady())
found.insert(p);
});
return found;
}
bool
PathContext::ForwardLRCM(const RouterID& nextHop,
const std::array< EncryptedFrame, 8 >& frames,
SendStatusHandler handler)
{
if(handler == nullptr)
{
LogError("Calling ForwardLRCM without passing result handler");
return false;
}
auto msg = std::make_shared< const LR_CommitMessage >(frames);
LogDebug("forwarding LRCM to ", nextHop);
m_Router->SendToOrQueue(nextHop, msg.get(), handler);
return true;
}
template < typename Lock_t, typename Map_t, typename Key_t,
typename CheckValue_t, typename GetFunc_t >
HopHandler_ptr
MapGet(Map_t& map, const Key_t& k, CheckValue_t check, GetFunc_t get)
{
Lock_t lock(map.first);
auto range = map.second.equal_range(k);
for(auto i = range.first; i != range.second; ++i)
{
if(check(i->second))
return get(i->second);
}
return nullptr;
}
template < typename Lock_t, typename Map_t, typename Key_t,
typename CheckValue_t >
bool
MapHas(Map_t& map, const Key_t& k, CheckValue_t check)
{
Lock_t lock(map.first);
auto range = map.second.equal_range(k);
for(auto i = range.first; i != range.second; ++i)
{
if(check(i->second))
return true;
}
return false;
}
template < typename Lock_t, typename Map_t, typename Key_t,
typename Value_t >
void
MapPut(Map_t& map, const Key_t& k, const Value_t& v)
{
Lock_t lock(map.first);
map.second.emplace(k, v);
}
template < typename Lock_t, typename Map_t, typename Visit_t >
void
MapIter(Map_t& map, Visit_t v)
{
Lock_t lock(map.first);
for(const auto& item : map.second)
v(item);
}
template < typename Lock_t, typename Map_t, typename Key_t,
typename Check_t >
void
MapDel(Map_t& map, const Key_t& k, Check_t check)
{
Lock_t lock(map.first);
auto range = map.second.equal_range(k);
for(auto i = range.first; i != range.second;)
{
if(check(i->second))
i = map.second.erase(i);
else
++i;
}
}
void
PathContext::AddOwnPath(PathSet_ptr set, Path_ptr path)
{
set->AddPath(path);
MapPut< util::Lock >(m_OurPaths, path->TXID(), path);
MapPut< util::Lock >(m_OurPaths, path->RXID(), path);
}
bool
PathContext::HasTransitHop(const TransitHopInfo& info)
{
return MapHas< SyncTransitMap_t::Lock_t >(
m_TransitPaths, info.txID,
[info](const std::shared_ptr< TransitHop >& hop) -> bool {
return info == hop->info;
});
}
HopHandler_ptr
PathContext::GetByUpstream(const RouterID& remote, const PathID_t& id)
{
auto own = MapGet< util::Lock >(
m_OurPaths, id,
[](const Path_ptr) -> bool {
// TODO: is this right?
return true;
},
[](Path_ptr p) -> HopHandler_ptr { return p; });
if(own)
return own;
return MapGet< SyncTransitMap_t::Lock_t >(
m_TransitPaths, id,
[remote](const std::shared_ptr< TransitHop >& hop) -> bool {
return hop->info.upstream == remote;
},
[](const std::shared_ptr< TransitHop >& h) -> HopHandler_ptr {
return h;
});
}
bool
PathContext::TransitHopPreviousIsRouter(const PathID_t& path,
const RouterID& otherRouter)
{
SyncTransitMap_t::Lock_t lock(m_TransitPaths.first);
auto itr = m_TransitPaths.second.find(path);
if(itr == m_TransitPaths.second.end())
return false;
return itr->second->info.downstream == otherRouter;
}
HopHandler_ptr
PathContext::GetByDownstream(const RouterID& remote, const PathID_t& id)
{
return MapGet< SyncTransitMap_t::Lock_t >(
m_TransitPaths, id,
[remote](const std::shared_ptr< TransitHop >& hop) -> bool {
return hop->info.downstream == remote;
},
[](const std::shared_ptr< TransitHop >& h) -> HopHandler_ptr {
return h;
});
}
PathSet_ptr
PathContext::GetLocalPathSet(const PathID_t& id)
{
auto& map = m_OurPaths;
util::Lock lock(map.first);
auto itr = map.second.find(id);
if(itr != map.second.end())
{
return itr->second->m_PathSet->GetSelf();
}
return nullptr;
}
const byte_t*
PathContext::OurRouterID() const
{
return m_Router->pubkey();
}
AbstractRouter*
PathContext::Router()
{
return m_Router;
}
TransitHop_ptr
PathContext::GetPathForTransfer(const PathID_t& id)
{
const RouterID us(OurRouterID());
auto& map = m_TransitPaths;
{
SyncTransitMap_t::Lock_t lock(map.first);
auto range = map.second.equal_range(id);
for(auto i = range.first; i != range.second; ++i)
{
if(i->second->info.upstream == us)
return i->second;
}
}
return nullptr;
}
void
PathContext::PumpUpstream()
{
m_TransitPaths.ForEach([&](auto& ptr) { ptr->FlushUpstream(m_Router); });
m_OurPaths.ForEach([&](auto& ptr) { ptr->FlushUpstream(m_Router); });
}
void
PathContext::PumpDownstream()
{
m_TransitPaths.ForEach(
[&](auto& ptr) { ptr->FlushDownstream(m_Router); });
m_OurPaths.ForEach([&](auto& ptr) { ptr->FlushDownstream(m_Router); });
}
uint64_t
PathContext::CurrentTransitPaths()
{
SyncTransitMap_t::Lock_t lock(m_TransitPaths.first);
auto& map = m_TransitPaths.second;
return map.size() / 2;
}
void
PathContext::PutTransitHop(std::shared_ptr< TransitHop > hop)
{
MapPut< SyncTransitMap_t::Lock_t >(m_TransitPaths, hop->info.txID, hop);
MapPut< SyncTransitMap_t::Lock_t >(m_TransitPaths, hop->info.rxID, hop);
}
void
PathContext::ExpirePaths(llarp_time_t now)
{
// decay limits
m_PathLimits.Decay(now);
{
SyncTransitMap_t::Lock_t lock(m_TransitPaths.first);
auto& map = m_TransitPaths.second;
auto itr = map.begin();
while(itr != map.end())
{
if(itr->second->Expired(now))
{
m_Router->outboundMessageHandler().QueueRemoveEmptyPath(itr->first);
itr = map.erase(itr);
}
else
++itr;
}
}
{
util::Lock lock(m_OurPaths.first);
auto& map = m_OurPaths.second;
auto itr = map.begin();
while(itr != map.end())
{
if(itr->second->Expired(now))
{
itr = map.erase(itr);
}
else
++itr;
}
}
}
routing::MessageHandler_ptr
PathContext::GetHandler(const PathID_t& id)
{
routing::MessageHandler_ptr h = nullptr;
auto pathset = GetLocalPathSet(id);
if(pathset)
{
h = pathset->GetPathByID(id);
}
if(h)
return h;
const RouterID us(OurRouterID());
auto& map = m_TransitPaths;
{
SyncTransitMap_t::Lock_t lock(map.first);
auto range = map.second.equal_range(id);
for(auto i = range.first; i != range.second; ++i)
{
if(i->second->info.upstream == us)
return i->second;
}
}
return nullptr;
}
void PathContext::RemovePathSet(PathSet_ptr)
{
}
} // namespace path
} // namespace llarp