lokinet/llarp/service/endpoint.hpp
2019-02-08 14:43:25 -05:00

629 lines
16 KiB
C++

#ifndef LLARP_SERVICE_ENDPOINT_HPP
#define LLARP_SERVICE_ENDPOINT_HPP
#include <ev/ev.h>
#include <exit/session.hpp>
#include <net/net.hpp>
#include <path/path.hpp>
#include <path/pathbuilder.hpp>
#include <service/address.hpp>
#include <service/Identity.hpp>
#include <service/handler.hpp>
#include <service/protocol.hpp>
// minimum time between interoset shifts
#ifndef MIN_SHIFT_INTERVAL
#define MIN_SHIFT_INTERVAL (5 * 1000)
#endif
namespace llarp
{
namespace service
{
// forward declare
struct Context;
// forward declare
struct AsyncKeyExchange;
struct Endpoint : public path::Builder,
public ILookupHolder,
public IDataHandler
{
/// minimum interval for publishing introsets
static const llarp_time_t INTROSET_PUBLISH_INTERVAL =
DEFAULT_PATH_LIFETIME / 4;
static const llarp_time_t INTROSET_PUBLISH_RETRY_INTERVAL = 5000;
static const size_t MAX_OUTBOUND_CONTEXT_COUNT = 4;
Endpoint(const std::string& nickname, llarp::Router* r, Context* parent);
~Endpoint();
virtual void
ExtractStatus(util::StatusObject& obj) const override;
void
SetHandler(IDataHandler* h);
virtual bool
SetOption(const std::string& k, const std::string& v);
virtual void
Tick(llarp_time_t now);
/// return true if we have a resolvable ip address
virtual bool
HasIfAddr() const
{
return false;
}
/// get our ifaddr if it is set
virtual huint32_t
GetIfAddr() const
{
return huint32_t{0};
}
/// router's logic
llarp::Logic*
RouterLogic();
/// endpoint's logic
llarp::Logic*
EndpointLogic();
/// endpoint's net loop for sending data to user
llarp_ev_loop*
EndpointNetLoop();
llarp::Crypto*
Crypto();
llarp_threadpool*
Worker();
llarp::Router*
Router()
{
return m_Router;
}
virtual bool
LoadKeyFile();
virtual bool
Start();
virtual std::string
Name() const;
bool
ShouldPublishDescriptors(llarp_time_t now) const override;
void
EnsureReplyPath(const ServiceInfo& addr);
bool
PublishIntroSet(llarp::Router* r) override;
bool
PublishIntroSetVia(llarp::Router* r, path::Path* p);
bool
HandleGotIntroMessage(const llarp::dht::GotIntroMessage* msg) override;
bool
HandleGotRouterMessage(const llarp::dht::GotRouterMessage* msg) override;
bool
HandleHiddenServiceFrame(path::Path* p,
const llarp::service::ProtocolFrame* msg);
/// return true if we have an established path to a hidden service
bool
HasPathToService(const Address& remote) const;
virtual huint32_t
ObtainIPForAddr(const AlignedBuffer< 32 >& addr, bool serviceNode) = 0;
virtual bool
HasAddress(const AlignedBuffer< 32 >& addr) const = 0;
/// return true if we have a pending job to build to a hidden service but
/// it's not done yet
bool
HasPendingPathToService(const Address& remote) const;
/// return false if we don't have a path to the service
/// return true if we did and we removed it
bool
ForgetPathToService(const Address& remote);
bool
HandleDataMessage(const PathID_t&, ProtocolMessage* msg) override;
virtual bool
HandleWriteIPPacket(const llarp_buffer_t& pkt,
std::function< huint32_t(void) > getFromIP) = 0;
bool
ProcessDataMessage(ProtocolMessage* msg);
/// ensure that we know a router, looks up if it doesn't
void
EnsureRouterIsKnown(const RouterID& router);
/// lookup a router via closest path
bool
LookupRouterAnon(RouterID router);
/// stop this endpoint
bool
Stop() override;
const Identity&
GetIdentity() const
{
return m_Identity;
}
void
PutLookup(IServiceLookup* lookup, uint64_t txid) override;
void
HandlePathBuilt(path::Path* path) override;
bool
SendToServiceOrQueue(const RouterID& addr, const llarp_buffer_t& payload,
ProtocolType t);
bool
SendToSNodeOrQueue(const RouterID& addr, const llarp_buffer_t& payload);
void
FlushSNodeTraffic();
struct PendingBuffer
{
std::vector< byte_t > payload;
ProtocolType protocol;
PendingBuffer(const llarp_buffer_t& buf, ProtocolType t)
: payload(buf.sz), protocol(t)
{
memcpy(payload.data(), buf.base, buf.sz);
}
ManagedBuffer
Buffer()
{
return ManagedBuffer{llarp_buffer_t(payload)};
}
};
bool
HandleDataDrop(path::Path* p, const PathID_t& dst, uint64_t s);
bool
CheckPathIsDead(path::Path* p, llarp_time_t latency);
using PendingBufferQueue = std::queue< PendingBuffer >;
struct SendContext
{
SendContext(const ServiceInfo& ident, const Introduction& intro,
PathSet* send, Endpoint* ep);
void
AsyncEncryptAndSendTo(const llarp_buffer_t& payload, ProtocolType t);
/// send a fully encrypted hidden service frame
/// via a path on our pathset with path id p
void
Send(ProtocolFrame& f);
llarp::SharedSecret sharedKey;
ServiceInfo remoteIdent;
Introduction remoteIntro;
ConvoTag currentConvoTag;
PathSet* m_PathSet;
IDataHandler* m_DataHandler;
Endpoint* m_Endpoint;
uint64_t sequenceNo = 0;
llarp_time_t lastGoodSend = 0;
llarp_time_t createdAt;
llarp_time_t sendTimeout = 40 * 1000;
llarp_time_t connectTimeout = 60 * 1000;
bool markedBad = false;
virtual bool
ShiftIntroduction()
{
return true;
};
virtual void
UpdateIntroSet(bool randomizePath = false) = 0;
virtual bool
MarkCurrentIntroBad(llarp_time_t now) = 0;
private:
void
EncryptAndSendTo(const llarp_buffer_t& payload, ProtocolType t);
virtual void
AsyncGenIntro(const llarp_buffer_t& payload, ProtocolType t) = 0;
};
static void
HandlePathDead(void*);
/// context needed to initiate an outbound hidden service session
struct OutboundContext : public path::Builder, public SendContext
{
OutboundContext(const IntroSet& introSet, Endpoint* parent);
~OutboundContext();
bool
Stop() override;
bool
HandleDataDrop(path::Path* p, const PathID_t& dst, uint64_t s);
/// set to true if we are updating the remote introset right now
bool updatingIntroSet;
/// update the current selected intro to be a new best introduction
/// return true if we have changed intros
bool
ShiftIntroduction() override;
/// mark the current remote intro as bad
bool
MarkCurrentIntroBad(llarp_time_t now) override;
/// return true if we are ready to send
bool
ReadyToSend() const;
bool
ShouldBuildMore(llarp_time_t now) const override;
/// tick internal state
/// return true to mark as dead
bool
Tick(llarp_time_t now);
/// return true if it's safe to remove ourselves
bool
IsDone(llarp_time_t now) const;
bool
CheckPathIsDead(path::Path* p, llarp_time_t dlt);
void
AsyncGenIntro(const llarp_buffer_t& payload, ProtocolType t) override;
/// issues a lookup to find the current intro set of the remote service
void
UpdateIntroSet(bool randomizePath) override;
bool
BuildOneAlignedTo(const RouterID& remote);
void
HandlePathBuilt(path::Path* path) override;
bool
SelectHop(llarp_nodedb* db, const RouterContact& prev,
RouterContact& cur, size_t hop,
llarp::path::PathRole roles) override;
bool
HandleHiddenServiceFrame(path::Path* p, const ProtocolFrame* frame);
std::string
Name() const;
private:
/// swap remoteIntro with next intro
void
SwapIntros();
void
OnGeneratedIntroFrame(AsyncKeyExchange* k, PathID_t p);
bool
OnIntroSetUpdate(const Address& addr, const IntroSet* i,
const RouterID& endpoint);
uint64_t m_UpdateIntrosetTX = 0;
IntroSet currentIntroSet;
Introduction m_NextIntro;
std::unordered_map< Introduction, llarp_time_t, Introduction::Hash >
m_BadIntros;
llarp_time_t lastShift = 0;
};
// passed a sendto context when we have a path established otherwise
// nullptr if the path was not made before the timeout
using PathEnsureHook = std::function< void(Address, OutboundContext*) >;
/// return false if we have already called this function before for this
/// address
bool
EnsurePathToService(const Address& remote, PathEnsureHook h,
uint64_t timeoutMS, bool lookupOnRandomPath = false);
using SNodeEnsureHook =
std::function< void(RouterID, llarp::exit::BaseSession*) >;
/// ensure a path to a service node by public key
void
EnsurePathToSNode(const RouterID& remote);
bool
HasPathToSNode(const RouterID& remote) const;
void
PutSenderFor(const ConvoTag& tag, const ServiceInfo& info) override;
bool
GetCachedSessionKeyFor(const ConvoTag& remote,
SharedSecret& secret) const override;
void
PutCachedSessionKeyFor(const ConvoTag& remote,
const SharedSecret& secret) override;
bool
GetSenderFor(const ConvoTag& remote, ServiceInfo& si) const override;
void
PutIntroFor(const ConvoTag& remote, const Introduction& intro) override;
bool
GetIntroFor(const ConvoTag& remote, Introduction& intro) const override;
bool
GetConvoTagsForService(const ServiceInfo& si,
std::set< ConvoTag >& tag) const override;
void
PutNewOutboundContext(const IntroSet& introset);
virtual void
IntroSetPublishFail();
virtual void
IntroSetPublished();
protected:
/// parent context that owns this endpoint
Context* const context;
void
RegenAndPublishIntroSet(llarp_time_t now, bool forceRebuild = false);
IServiceLookup*
GenerateLookupByTag(const Tag& tag);
void
PrefetchServicesByTag(const Tag& tag);
uint64_t
GetSeqNoForConvo(const ConvoTag& tag);
bool
IsolateNetwork();
bool
NetworkIsIsolated() const;
static void
RunIsolatedMainLoop(void*);
private:
bool
OnLookup(const service::Address& addr, const IntroSet* i,
const RouterID& endpoint); /* */
static bool
SetupIsolatedNetwork(void* user, bool success);
bool
DoNetworkIsolation(bool failed);
virtual bool
SetupNetworking()
{
// XXX: override me
return true;
}
virtual bool
IsolationFailed()
{
// XXX: override me
return false;
}
uint64_t
GenTXID();
protected:
IDataHandler* m_DataHandler = nullptr;
Identity m_Identity;
std::unique_ptr< llarp::exit::BaseSession > m_Exit;
private:
llarp::Router* m_Router;
llarp_threadpool* m_IsolatedWorker = nullptr;
llarp::Logic* m_IsolatedLogic = nullptr;
llarp_ev_loop* m_IsolatedNetLoop = nullptr;
std::string m_Keyfile;
std::string m_Name;
std::string m_NetNS;
using PendingTraffic =
std::unordered_map< Address, PendingBufferQueue, Address::Hash >;
PendingTraffic m_PendingTraffic;
using Sessions =
std::unordered_multimap< Address, std::unique_ptr< OutboundContext >,
Address::Hash >;
Sessions m_RemoteSessions;
Sessions m_DeadSessions;
using SNodeSessions =
std::unordered_multimap< RouterID,
std::unique_ptr< llarp::exit::BaseSession >,
RouterID::Hash >;
SNodeSessions m_SNodeSessions;
std::unordered_map< Address, ServiceInfo, Address::Hash >
m_AddressToService;
std::unordered_multimap< Address, PathEnsureHook, Address::Hash >
m_PendingServiceLookups;
std::unordered_map< RouterID, uint32_t, RouterID::Hash >
m_ServiceLookupFails;
struct RouterLookupJob
{
RouterLookupJob(Endpoint* p)
{
started = p->Now();
txid = p->GenTXID();
}
uint64_t txid;
llarp_time_t started;
bool
IsExpired(llarp_time_t now) const
{
if(now < started)
return false;
return now - started > 5000;
}
};
std::unordered_map< RouterID, RouterLookupJob, RouterID::Hash >
m_PendingRouters;
uint64_t m_CurrentPublishTX = 0;
llarp_time_t m_LastPublish = 0;
llarp_time_t m_LastPublishAttempt = 0;
llarp_time_t m_MinPathLatency = (5 * 1000);
/// our introset
service::IntroSet m_IntroSet;
/// pending remote service lookups by id
std::unordered_map< uint64_t, std::unique_ptr< service::IServiceLookup > >
m_PendingLookups;
/// prefetch remote address list
std::set< Address > m_PrefetchAddrs;
/// hidden service tag
Tag m_Tag;
/// prefetch descriptors for these hidden service tags
std::set< Tag > m_PrefetchTags;
/// on initialize functions
std::list< std::function< bool(void) > > m_OnInit;
struct Session : public util::IStateful
{
SharedSecret sharedKey;
ServiceInfo remote;
Introduction intro;
llarp_time_t lastUsed = 0;
uint64_t seqno = 0;
void
ExtractStatus(util::StatusObject& obj) const override
{
obj.PutInt("lastUsed", lastUsed);
obj.PutString("remote", remote.Addr().ToString());
obj.PutInt("seqno", seqno);
util::StatusObject introObj;
intro.ExtractStatus(introObj);
obj.PutObject("intro", introObj);
};
};
/// sessions
std::unordered_map< ConvoTag, Session, ConvoTag::Hash > m_Sessions;
struct CachedTagResult
{
const static llarp_time_t TTL = 10000;
llarp_time_t lastRequest = 0;
llarp_time_t lastModified = 0;
std::set< IntroSet > result;
Tag tag;
Endpoint* parent;
CachedTagResult(const Tag& t, Endpoint* p) : tag(t), parent(p)
{
}
~CachedTagResult()
{
}
void
Expire(llarp_time_t now);
bool
ShouldRefresh(llarp_time_t now) const
{
if(now <= lastRequest)
return false;
return (now - lastRequest) > TTL;
}
llarp::routing::IMessage*
BuildRequestMessage(uint64_t txid);
bool
HandleResponse(const std::set< IntroSet >& results);
};
struct TagLookupJob : public IServiceLookup
{
TagLookupJob(Endpoint* parent, CachedTagResult* result)
: IServiceLookup(parent, parent->GenTXID(), "taglookup")
, m_result(result)
{
}
~TagLookupJob()
{
}
llarp::routing::IMessage*
BuildRequestMessage()
{
return m_result->BuildRequestMessage(txid);
}
bool
HandleResponse(const std::set< IntroSet >& results)
{
return m_result->HandleResponse(results);
}
CachedTagResult* m_result;
};
std::unordered_map< Tag, CachedTagResult, Tag::Hash > m_PrefetchedTags;
};
} // namespace service
} // namespace llarp
#endif