lokinet/llarp/router/router.hpp
2020-07-02 11:07:32 -04:00

521 lines
11 KiB
C++

#ifndef LLARP_ROUTER_HPP
#define LLARP_ROUTER_HPP
#include <router/abstractrouter.hpp>
#include <bootstrap.hpp>
#include <config/config.hpp>
#include <config/key_manager.hpp>
#include <constants/link_layer.hpp>
#include <crypto/types.hpp>
#include <ev/ev.h>
#include <exit/context.hpp>
#include <handlers/tun.hpp>
#include <link/link_manager.hpp>
#include <link/server.hpp>
#include <messages/link_message_parser.hpp>
#include <nodedb.hpp>
#include <path/path_context.hpp>
#include <profiling.hpp>
#include <router_contact.hpp>
#include <router/outbound_message_handler.hpp>
#include <router/outbound_session_maker.hpp>
#include <router/rc_gossiper.hpp>
#include <router/rc_lookup_handler.hpp>
#include <routing/handler.hpp>
#include <routing/message_parser.hpp>
#include <rpc/lokid_rpc_client.hpp>
#include <rpc/rpc_server.hpp>
#include <service/context.hpp>
#include <stdexcept>
#include <util/buffer.hpp>
#include <util/fs.hpp>
#include <util/mem.hpp>
#include <util/status.hpp>
#include <util/str.hpp>
#include <util/thread/logic.hpp>
#include <util/thread/threadpool.h>
#include <util/time.hpp>
#include <functional>
#include <list>
#include <map>
#include <memory>
#include <set>
#include <unordered_map>
#include <vector>
namespace llarp
{
struct Router final : public AbstractRouter
{
llarp_time_t _lastPump = 0s;
bool ready;
// transient iwp encryption key
fs::path transport_keyfile;
// long term identity key
fs::path ident_keyfile;
fs::path encryption_keyfile;
// path to write our self signed rc to
fs::path our_rc_file;
// use file based logging?
bool m_UseFileLogging = false;
// our router contact
RouterContact _rc;
/// are we using the lokid service node seed ?
bool usingSNSeed = false;
/// should we obey the service node whitelist?
bool whitelistRouters = false;
LMQ_ptr m_lmq;
LMQ_ptr
lmq() const override
{
return m_lmq;
}
std::shared_ptr<rpc::LokidRpcClient>
RpcClient() const override
{
return m_lokidRpcClient;
}
std::shared_ptr<Logic>
logic() const override
{
return _logic;
}
llarp_dht_context*
dht() const override
{
return _dht;
}
util::StatusObject
ExtractStatus() const override;
llarp_nodedb*
nodedb() const override
{
return _nodedb;
}
const path::PathContext&
pathContext() const override
{
return paths;
}
path::PathContext&
pathContext() override
{
return paths;
}
const RouterContact&
rc() const override
{
return _rc;
}
void
SetRouterWhitelist(const std::vector<RouterID> routers) override;
exit::Context&
exitContext() override
{
return _exitContext;
}
std::shared_ptr<KeyManager>
keyManager() const override
{
return m_keyManager;
}
const SecretKey&
identity() const override
{
return _identity;
}
const SecretKey&
encryption() const override
{
return _encryption;
}
Profiling&
routerProfiling() override
{
return _routerProfiling;
}
llarp_ev_loop_ptr
netloop() const override
{
return _netloop;
}
std::shared_ptr<llarp::thread::ThreadPool>
threadpool() override
{
return cryptoworker;
}
std::shared_ptr<llarp::thread::ThreadPool>
diskworker() override
{
return disk;
}
IpAddress _ourAddress;
llarp_ev_loop_ptr _netloop;
std::shared_ptr<llarp::thread::ThreadPool> cryptoworker;
std::shared_ptr<Logic> _logic;
path::PathContext paths;
exit::Context _exitContext;
SecretKey _identity;
SecretKey _encryption;
std::shared_ptr<thread::ThreadPool> disk;
llarp_dht_context* _dht = nullptr;
llarp_nodedb* _nodedb;
llarp_time_t _startedAt;
llarp_time_t
Uptime() const override;
bool
Sign(Signature& sig, const llarp_buffer_t& buf) const override;
uint16_t m_OutboundPort = 0;
/// how often do we resign our RC? milliseconds.
// TODO: make configurable
llarp_time_t rcRegenInterval = 1h;
// should we be sending padded messages every interval?
bool sendPadding = false;
uint32_t ticker_job_id = 0;
LinkMessageParser inbound_link_msg_parser;
routing::InboundMessageParser inbound_routing_msg_parser;
service::Context _hiddenServiceContext;
service::Context&
hiddenServiceContext() override
{
return _hiddenServiceContext;
}
const service::Context&
hiddenServiceContext() const override
{
return _hiddenServiceContext;
}
llarp_time_t _lastTick = 0s;
bool
LooksAlive() const override
{
const llarp_time_t now = Now();
return now <= _lastTick || (now - _lastTick) <= llarp_time_t{30000};
}
/// bootstrap RCs
BootstrapList bootstrapRCList;
bool
ExitEnabled() const
{
return false; // FIXME - have to fix the FIXME because FIXME
throw std::runtime_error("FIXME: this needs to be derived from config");
/*
// TODO: use equal_range ?
auto itr = netConfig.find("exit");
if (itr == netConfig.end())
return false;
return IsTrueValue(itr->second.c_str());
*/
}
void
PumpLL() override;
NetworkConfig networkConfig;
DnsConfig dnsConfig;
const std::string DefaultRPCBindAddr = "tcp://127.0.0.1:1190";
bool enableRPCServer = false;
std::string rpcBindAddr = DefaultRPCBindAddr;
std::unique_ptr<rpc::RpcServer> m_RPCServer;
const llarp_time_t _randomStartDelay;
std::shared_ptr<rpc::LokidRpcClient> m_lokidRpcClient;
std::string lokidRPCAddr = "ipc://loki.sock";
std::string lokidRPCUser;
std::string lokidRPCPassword;
Profiling _routerProfiling;
std::string routerProfilesFile = "profiles.dat";
OutboundMessageHandler _outboundMessageHandler;
OutboundSessionMaker _outboundSessionMaker;
LinkManager _linkManager;
RCLookupHandler _rcLookupHandler;
RCGossiper _rcGossiper;
using Clock_t = std::chrono::steady_clock;
using TimePoint_t = Clock_t::time_point;
TimePoint_t m_NextExploreAt;
IOutboundMessageHandler&
outboundMessageHandler() override
{
return _outboundMessageHandler;
}
IOutboundSessionMaker&
outboundSessionMaker() override
{
return _outboundSessionMaker;
}
ILinkManager&
linkManager() override
{
return _linkManager;
}
I_RCLookupHandler&
rcLookupHandler() override
{
return _rcLookupHandler;
}
void
GossipRCIfNeeded(const RouterContact rc) override;
Router(
std::shared_ptr<llarp::thread::ThreadPool> worker,
llarp_ev_loop_ptr __netloop,
std::shared_ptr<Logic> logic);
~Router() override;
bool
HandleRecvLinkMessageBuffer(ILinkSession* from, const llarp_buffer_t& msg) override;
bool
InitOutboundLinks();
bool
GetRandomGoodRouter(RouterID& r) override;
/// initialize us as a service node
/// return true on success
bool
InitServiceNode();
bool
IsRunning() const override;
/// return true if we are running in service node mode
bool
IsServiceNode() const override;
void
Close();
bool
Configure(Config* conf, bool isRouter, llarp_nodedb* nodedb = nullptr) override;
bool
StartRpcServer() override;
bool
Run() override;
/// stop running the router logic gracefully
void
Stop() override;
/// close all sessions and shutdown all links
void
StopLinks();
void
PersistSessionUntil(const RouterID& remote, llarp_time_t until) override;
bool
EnsureIdentity();
bool
EnsureEncryptionKey();
bool
ConnectionToRouterAllowed(const RouterID& router) const override;
void
HandleSaveRC() const;
bool
SaveRC();
const byte_t*
pubkey() const override
{
return seckey_topublic(_identity);
}
void
try_connect(fs::path rcfile);
/// inject configuration and reconfigure router
bool
Reconfigure(Config* conf) override;
bool
TryConnectAsync(RouterContact rc, uint16_t tries) override;
/// validate new configuration against old one
/// return true on 100% valid
/// return false if not 100% valid
bool
ValidateConfig(Config* conf) const override;
/// send to remote router or queue for sending
/// returns false on overflow
/// returns true on successful queue
/// NOT threadsafe
/// MUST be called in the logic thread
bool
SendToOrQueue(
const RouterID& remote, const ILinkMessage* msg, SendStatusHandler handler) override;
void
ForEachPeer(std::function<void(const ILinkSession*, bool)> visit, bool randomize = false)
const override;
void
ForEachPeer(std::function<void(ILinkSession*)> visit);
bool IsBootstrapNode(RouterID) const override;
/// check if newRc matches oldRC and update local rc for this remote contact
/// if valid
/// returns true on valid and updated
/// returns false otherwise
bool
CheckRenegotiateValid(RouterContact newRc, RouterContact oldRC) override;
/// called by link when a remote session has no more sessions open
void
SessionClosed(RouterID remote) override;
/// call internal router ticker
void
Tick();
llarp_time_t
Now() const override
{
return llarp::time_now_ms();
}
/// schedule ticker to call i ms from now
void
ScheduleTicker(llarp_time_t i = 1s);
/// parse a routing message in a buffer and handle it with a handler if
/// successful parsing return true on parse and handle success otherwise
/// return false
bool
ParseRoutingMessageBuffer(
const llarp_buffer_t& buf, routing::IMessageHandler* h, const PathID_t& rxid) override;
void
ConnectToRandomRouters(int N) override;
/// count the number of unique service nodes connected via pubkey
size_t
NumberOfConnectedRouters() const override;
/// count the number of unique clients connected by pubkey
size_t
NumberOfConnectedClients() const override;
bool
GetRandomConnectedRouter(RouterContact& result) const override;
void
HandleDHTLookupForExplore(RouterID remote, const std::vector<RouterContact>& results) override;
void
LookupRouter(RouterID remote, RouterLookupHandler resultHandler) override;
bool
HasSessionTo(const RouterID& remote) const override;
std::string
ShortName() const override;
uint32_t
NextPathBuildNumber() override;
void
handle_router_ticker();
void
AfterStopLinks();
void
AfterStopIssued();
private:
std::atomic<bool> _stopping;
std::atomic<bool> _running;
bool m_isServiceNode = false;
llarp_time_t m_LastStatsReport = 0s;
std::shared_ptr<llarp::KeyManager> m_keyManager;
uint32_t path_build_count = 0;
bool
ShouldReportStats(llarp_time_t now) const;
void
ReportStats();
bool
UpdateOurRC(bool rotateKeys = false);
bool
FromConfig(Config* conf);
void
MessageSent(const RouterID& remote, SendStatus status);
};
} // namespace llarp
#endif