lokinet/llarp/path/path.hpp

680 lines
18 KiB
C++

#ifndef LLARP_PATH_HPP
#define LLARP_PATH_HPP
#include <crypto/encrypted_frame.hpp>
#include <crypto/types.hpp>
#include <messages/relay.hpp>
#include <path/path_types.hpp>
#include <path/pathbuilder.hpp>
#include <path/pathset.hpp>
#include <router_id.hpp>
#include <routing/handler.hpp>
#include <routing/message.hpp>
#include <service/Intro.hpp>
#include <util/aligned.hpp>
#include <util/threading.hpp>
#include <util/time.hpp>
#include <functional>
#include <list>
#include <map>
#include <unordered_map>
#include <vector>
#define MAXHOPS (8)
#ifndef DEFAULT_HOP_LENGTH
#define DEFAULT_HOP_LENGTH (4)
#endif
#define DEFAULT_PATH_LIFETIME (10 * 60 * 1000)
#define PATH_BUILD_TIMEOUT (30 * 1000)
#define MESSAGE_PAD_SIZE (128)
#define PATH_ALIVE_TIMEOUT (10 * 1000)
namespace llarp
{
struct Crypto;
struct LR_CommitMessage;
struct LR_CommitRecord;
namespace path
{
struct TransitHopInfo
{
TransitHopInfo() = default;
TransitHopInfo(const TransitHopInfo& other);
TransitHopInfo(const RouterID& down, const LR_CommitRecord& record);
PathID_t txID, rxID;
RouterID upstream;
RouterID downstream;
friend std::ostream&
operator<<(std::ostream& out, const TransitHopInfo& info)
{
out << "<tx=" << info.txID << " rx=" << info.rxID;
out << " upstream=" << info.upstream
<< " downstream=" << info.downstream;
return out << ">";
}
bool
operator==(const TransitHopInfo& other) const
{
return txID == other.txID && rxID == other.rxID
&& upstream == other.upstream && downstream == other.downstream;
}
bool
operator!=(const TransitHopInfo& other) const
{
return !(*this == other);
}
bool
operator<(const TransitHopInfo& other) const
{
return txID < other.txID || rxID < other.rxID
|| upstream < other.upstream || downstream < other.downstream;
}
struct PathIDHash
{
std::size_t
operator()(const PathID_t& a) const
{
return AlignedBuffer< PathID_t::SIZE >::Hash()(a);
}
};
struct Hash
{
std::size_t
operator()(TransitHopInfo const& a) const
{
std::size_t idx0 = RouterID::Hash()(a.upstream);
std::size_t idx1 = RouterID::Hash()(a.downstream);
std::size_t idx2 = PathIDHash()(a.txID);
std::size_t idx3 = PathIDHash()(a.rxID);
return idx0 ^ idx1 ^ idx2 ^ idx3;
}
};
};
struct IHopHandler
{
virtual ~IHopHandler(){};
virtual bool
Expired(llarp_time_t now) const = 0;
virtual bool
ExpiresSoon(llarp_time_t now, llarp_time_t dlt) const = 0;
/// send routing message and increment sequence number
virtual bool
SendRoutingMessage(const llarp::routing::IMessage* msg,
llarp::Router* r) = 0;
// handle data in upstream direction
virtual bool
HandleUpstream(llarp_buffer_t X, const TunnelNonce& Y,
llarp::Router* r) = 0;
// handle data in downstream direction
virtual bool
HandleDownstream(llarp_buffer_t X, const TunnelNonce& Y,
llarp::Router* r) = 0;
/// return timestamp last remote activity happened at
virtual llarp_time_t
LastRemoteActivityAt() const = 0;
uint64_t
NextSeqNo()
{
return m_SequenceNum++;
}
protected:
uint64_t m_SequenceNum = 0;
};
struct TransitHop : public IHopHandler,
public llarp::routing::IMessageHandler
{
TransitHop();
TransitHop(const TransitHop& other);
TransitHopInfo info;
SharedSecret pathKey;
ShortHash nonceXOR;
llarp_time_t started = 0;
// 10 minutes default
llarp_time_t lifetime = DEFAULT_PATH_LIFETIME;
llarp_proto_version_t version;
llarp_time_t m_LastActivity = 0;
bool
IsEndpoint(const RouterID& us) const
{
return info.upstream == us;
}
llarp_time_t
ExpireTime() const;
llarp_time_t
LastRemoteActivityAt() const override
{
return m_LastActivity;
}
friend std::ostream&
operator<<(std::ostream& out, const TransitHop& h)
{
return out << "[TransitHop " << h.info << " started=" << h.started
<< " lifetime=" << h.lifetime << "]";
}
bool
Expired(llarp_time_t now) const override;
bool
ExpiresSoon(llarp_time_t now, llarp_time_t dlt) const override
{
return now >= ExpireTime() - dlt;
}
// send routing message when end of path
bool
SendRoutingMessage(const llarp::routing::IMessage* msg,
llarp::Router* r) override;
// handle routing message when end of path
bool
HandleRoutingMessage(const llarp::routing::IMessage* msg,
llarp::Router* r);
bool
HandleDataDiscardMessage(const llarp::routing::DataDiscardMessage* msg,
llarp::Router* r) override;
bool
HandlePathConfirmMessage(const llarp::routing::PathConfirmMessage* msg,
llarp::Router* r) override;
bool
HandlePathTransferMessage(const llarp::routing::PathTransferMessage* msg,
llarp::Router* r) override;
bool
HandlePathLatencyMessage(const llarp::routing::PathLatencyMessage* msg,
llarp::Router* r) override;
bool
HandleObtainExitMessage(const llarp::routing::ObtainExitMessage* msg,
llarp::Router* r) override;
bool
HandleUpdateExitVerifyMessage(
const llarp::routing::UpdateExitVerifyMessage* msg,
llarp::Router* r) override;
bool
HandleTransferTrafficMessage(
const llarp::routing::TransferTrafficMessage* msg,
llarp::Router* r) override;
bool
HandleUpdateExitMessage(const llarp::routing::UpdateExitMessage* msg,
llarp::Router* r) override;
bool
HandleGrantExitMessage(const llarp::routing::GrantExitMessage* msg,
llarp::Router* r) override;
bool
HandleRejectExitMessage(const llarp::routing::RejectExitMessage* msg,
llarp::Router* r) override;
bool
HandleCloseExitMessage(const llarp::routing::CloseExitMessage* msg,
llarp::Router* r) override;
bool
HandleHiddenServiceFrame(__attribute__((
unused)) const llarp::service::ProtocolFrame* frame) override
{
/// TODO: implement me
llarp::LogWarn("Got hidden service data on transit hop");
return false;
}
bool
HandleGotIntroMessage(const llarp::dht::GotIntroMessage* msg);
bool
HandleDHTMessage(const llarp::dht::IMessage* msg,
llarp::Router* r) override;
// handle data in upstream direction
bool
HandleUpstream(llarp_buffer_t X, const TunnelNonce& Y,
llarp::Router* r) override;
// handle data in downstream direction
bool
HandleDownstream(llarp_buffer_t X, const TunnelNonce& Y,
llarp::Router* r) override;
};
/// configuration for a single hop when building a path
struct PathHopConfig
{
/// path id
PathID_t txID, rxID;
// router contact of router
RouterContact rc;
// temp public encryption key
SecretKey commkey;
/// shared secret at this hop
SharedSecret shared;
/// hash of shared secret used for nonce mutation
ShortHash nonceXOR;
/// next hop's router id
RouterID upstream;
/// nonce for key exchange
TunnelNonce nonce;
// lifetime
llarp_time_t lifetime = DEFAULT_PATH_LIFETIME;
~PathHopConfig();
PathHopConfig();
};
/// A path we made
struct Path : public IHopHandler, public llarp::routing::IMessageHandler
{
using BuildResultHookFunc = std::function< void(Path*) >;
using CheckForDeadFunc = std::function< bool(Path*, llarp_time_t) >;
using DropHandlerFunc =
std::function< bool(Path*, const PathID_t&, uint64_t) >;
using HopList = std::vector< PathHopConfig >;
using DataHandlerFunc =
std::function< bool(Path*, const service::ProtocolFrame*) >;
using ExitUpdatedFunc = std::function< bool(Path*) >;
using ExitClosedFunc = std::function< bool(Path*) >;
using ExitTrafficHandlerFunc =
std::function< bool(Path*, llarp_buffer_t, uint64_t) >;
/// (path, backoff) backoff is 0 on success
using ObtainedExitHandler = std::function< bool(Path*, llarp_time_t) >;
HopList hops;
PathSet* m_PathSet;
llarp::service::Introduction intro;
llarp_time_t buildStarted;
Path(const std::vector< RouterContact >& routers, PathSet* parent,
PathRole startingRoles);
PathRole
Role() const
{
return _role;
}
void
MarkActive(llarp_time_t now)
{
m_LastRecvMessage = std::max(now, m_LastRecvMessage);
}
/// return true if ALL of the specified roles are supported
bool
SupportsAllRoles(PathRole roles) const
{
return (_role & roles) == roles;
}
/// return true if ANY of the specified roles are supported
bool
SupportsAnyRoles(PathRole roles) const
{
return roles == ePathRoleAny || (_role & roles) != 0;
}
PathStatus
Status() const
{
return _status;
}
llarp_time_t
LastRemoteActivityAt() const override
{
return m_LastRecvMessage;
}
void
SetBuildResultHook(BuildResultHookFunc func);
void
SetExitTrafficHandler(ExitTrafficHandlerFunc handler)
{
m_ExitTrafficHandler = handler;
}
void
SetCloseExitFunc(ExitClosedFunc handler)
{
m_ExitClosed = handler;
}
void
SetUpdateExitFunc(ExitUpdatedFunc handler)
{
m_ExitUpdated = handler;
}
void
SetDataHandler(DataHandlerFunc func)
{
m_DataHandler = func;
}
void
SetDropHandler(DropHandlerFunc func)
{
m_DropHandler = func;
}
void
SetDeadChecker(CheckForDeadFunc func)
{
m_CheckForDead = func;
}
void
EnterState(PathStatus st, llarp_time_t now);
llarp_time_t
ExpireTime() const
{
return buildStarted + hops[0].lifetime;
}
bool
ExpiresSoon(llarp_time_t now, llarp_time_t dlt = 5000) const override
{
return now >= (ExpireTime() - dlt);
}
bool
Expired(llarp_time_t now) const override;
void
Tick(llarp_time_t now, llarp::Router* r);
bool
SendRoutingMessage(const llarp::routing::IMessage* msg,
llarp::Router* r) override;
bool
HandleObtainExitMessage(const llarp::routing::ObtainExitMessage* msg,
llarp::Router* r) override;
bool
HandleUpdateExitVerifyMessage(
const llarp::routing::UpdateExitVerifyMessage* msg,
llarp::Router* r) override;
bool
HandleTransferTrafficMessage(
const llarp::routing::TransferTrafficMessage* msg,
llarp::Router* r) override;
bool
HandleUpdateExitMessage(const llarp::routing::UpdateExitMessage* msg,
llarp::Router* r) override;
bool
HandleCloseExitMessage(const llarp::routing::CloseExitMessage* msg,
llarp::Router* r) override;
bool
HandleGrantExitMessage(const llarp::routing::GrantExitMessage* msg,
llarp::Router* r) override;
bool
HandleRejectExitMessage(const llarp::routing::RejectExitMessage* msg,
llarp::Router* r) override;
bool
HandleDataDiscardMessage(const llarp::routing::DataDiscardMessage* msg,
llarp::Router* r) override;
bool
HandlePathConfirmMessage(const llarp::routing::PathConfirmMessage* msg,
llarp::Router* r) override;
bool
HandlePathLatencyMessage(const llarp::routing::PathLatencyMessage* msg,
llarp::Router* r) override;
bool
HandlePathTransferMessage(const llarp::routing::PathTransferMessage* msg,
llarp::Router* r) override;
bool
HandleHiddenServiceFrame(
const llarp::service::ProtocolFrame* frame) override;
bool
HandleGotIntroMessage(const llarp::dht::GotIntroMessage* msg);
bool
HandleDHTMessage(const llarp::dht::IMessage* msg,
llarp::Router* r) override;
bool
HandleRoutingMessage(llarp_buffer_t buf, llarp::Router* r);
// handle data in upstream direction
bool
HandleUpstream(llarp_buffer_t X, const TunnelNonce& Y,
llarp::Router* r) override;
// handle data in downstream direction
bool
HandleDownstream(llarp_buffer_t X, const TunnelNonce& Y,
llarp::Router* r) override;
bool
IsReady() const;
// Is this deprecated?
// nope not deprecated :^DDDD
PathID_t
TXID() const;
RouterID
Endpoint() const;
PubKey
EndpointPubKey() const;
bool
IsEndpoint(const RouterID& router, const PathID_t& path) const;
PathID_t
RXID() const;
RouterID
Upstream() const;
std::string
Name() const;
void
AddObtainExitHandler(ObtainedExitHandler handler)
{
m_ObtainedExitHooks.push_back(handler);
}
bool
SendExitRequest(const llarp::routing::ObtainExitMessage* msg,
llarp::Router* r);
bool
SendExitClose(const llarp::routing::CloseExitMessage* msg,
llarp::Router* r);
private:
/// call obtained exit hooks
bool
InformExitResult(llarp_time_t b);
BuildResultHookFunc m_BuiltHook;
DataHandlerFunc m_DataHandler;
DropHandlerFunc m_DropHandler;
CheckForDeadFunc m_CheckForDead;
ExitUpdatedFunc m_ExitUpdated;
ExitClosedFunc m_ExitClosed;
ExitTrafficHandlerFunc m_ExitTrafficHandler;
std::vector< ObtainedExitHandler > m_ObtainedExitHooks;
llarp_time_t m_LastRecvMessage = 0;
llarp_time_t m_LastLatencyTestTime = 0;
uint64_t m_LastLatencyTestID = 0;
uint64_t m_UpdateExitTX = 0;
uint64_t m_CloseExitTX = 0;
uint64_t m_ExitObtainTX = 0;
PathStatus _status;
PathRole _role;
};
enum PathBuildStatus
{
ePathBuildSuccess,
ePathBuildTimeout,
ePathBuildReject
};
struct PathContext
{
PathContext(llarp::Router* router);
~PathContext();
/// called from router tick function
void
ExpirePaths(llarp_time_t now);
/// called from router tick function
/// builds all paths we need to build at current tick
void
BuildPaths(llarp_time_t now);
/// called from router tick function
void
TickPaths(llarp_time_t now);
/// track a path builder with this context
void
AddPathBuilder(Builder* set);
void
AllowTransit();
void
RejectTransit();
bool
AllowingTransit() const;
bool
HasTransitHop(const TransitHopInfo& info);
bool
HandleRelayCommit(const LR_CommitMessage* msg);
void
PutTransitHop(std::shared_ptr< TransitHop > hop);
IHopHandler*
GetByUpstream(const RouterID& id, const PathID_t& path);
bool
TransitHopPreviousIsRouter(const PathID_t& path, const RouterID& r);
IHopHandler*
GetPathForTransfer(const PathID_t& topath);
IHopHandler*
GetByDownstream(const RouterID& id, const PathID_t& path);
PathSet*
GetLocalPathSet(const PathID_t& id);
routing::IMessageHandler*
GetHandler(const PathID_t& id);
bool
ForwardLRCM(const RouterID& nextHop,
const std::array< EncryptedFrame, 8 >& frames);
bool
HopIsUs(const RouterID& k) const;
bool
HandleLRUM(const RelayUpstreamMessage* msg);
bool
HandleLRDM(const RelayDownstreamMessage* msg);
void
AddOwnPath(PathSet* set, Path* p);
void
RemovePathBuilder(Builder* ctx);
void
RemovePathSet(PathSet* set);
using TransitHopsMap_t =
std::multimap< PathID_t, std::shared_ptr< TransitHop > >;
using SyncTransitMap_t = std::pair< util::Mutex, TransitHopsMap_t >;
// maps path id -> pathset owner of path
using OwnedPathsMap_t = std::map< PathID_t, PathSet* >;
using SyncOwnedPathsMap_t = std::pair< util::Mutex, OwnedPathsMap_t >;
llarp_threadpool*
Worker();
llarp::Crypto*
Crypto();
llarp::Logic*
Logic();
llarp::Router*
Router();
llarp::SecretKey&
EncryptionSecretKey();
const byte_t*
OurRouterID() const;
private:
llarp::Router* m_Router;
SyncTransitMap_t m_TransitPaths;
SyncTransitMap_t m_Paths;
SyncOwnedPathsMap_t m_OurPaths;
std::list< Builder* > m_PathBuilders;
bool m_AllowTransit;
};
} // namespace path
} // namespace llarp
#endif