You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

606 lines
17 KiB

/*
This file is part of cpp-ethereum.
cpp-ethereum is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
cpp-ethereum is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with cpp-ethereum. If not, see <http://www.gnu.org/licenses/>.
*/
/** @file Session.cpp
* @author Gav Wood <i@gavwood.com>
* @date 2014
*/
#include "Session.h"
#include <chrono>
#include <libdevcore/Common.h>
#include <libdevcore/CommonIO.h>
#include <libethcore/Exceptions.h>
#include "Host.h"
#include "Capability.h"
using namespace std;
using namespace dev;
using namespace dev::p2p;
#if defined(clogS)
#undef clogS
#endif
#define clogS(X) dev::LogOutputStream<X, true>(false) << "| " << std::setw(2) << m_socket.native_handle() << "] "
Session::Session(Host* _s, bi::tcp::socket _socket, bi::tcp::endpoint const& _manual):
m_server(_s),
m_socket(std::move(_socket)),
m_node(nullptr),
m_manualEndpoint(_manual) // NOTE: the port on this shouldn't be used if it's zero.
{
m_lastReceived = m_connect = std::chrono::steady_clock::now();
m_info = PeerInfo({NodeId(), "?", m_manualEndpoint.address().to_string(), 0, std::chrono::steady_clock::duration(0), CapDescSet(), 0, map<string, string>()});
}
Session::Session(Host* _s, bi::tcp::socket _socket, std::shared_ptr<Node> const& _n, bool _force):
m_server(_s),
m_socket(std::move(_socket)),
m_node(_n),
m_manualEndpoint(_n->address),
m_force(_force)
{
m_lastReceived = m_connect = std::chrono::steady_clock::now();
m_info = PeerInfo({m_node->id, "?", _n->address.address().to_string(), _n->address.port(), std::chrono::steady_clock::duration(0), CapDescSet(), 0, map<string, string>()});
}
Session::~Session()
{
if (m_node)
{
if (id() && !isPermanentProblem(m_node->lastDisconnect) && !m_node->dead)
m_server->m_ready += m_node->index;
else
m_node->lastConnected = m_node->lastAttempted - chrono::seconds(1);
}
11 years ago
// Read-chain finished for one reason or another.
for (auto& i: m_capabilities)
i.second.reset();
try
{
if (m_socket.is_open())
m_socket.close();
}
catch (...){}
}
NodeId Session::id() const
{
return m_node ? m_node->id : NodeId();
}
void Session::addRating(unsigned _r)
{
if (m_node)
{
m_node->rating += _r;
m_node->score += _r;
}
}
int Session::rating() const
{
return m_node->rating;
}
bi::tcp::endpoint Session::endpoint() const
{
if (m_socket.is_open() && m_node)
try
{
return bi::tcp::endpoint(m_socket.remote_endpoint().address(), m_node->address.port());
}
catch (...) {}
if (m_node)
return m_node->address;
return m_manualEndpoint;
}
template <class T> vector<T> randomSelection(vector<T> const& _t, unsigned _n)
{
if (_t.size() <= _n)
return _t;
vector<T> ret = _t;
while (ret.size() > _n)
{
auto i = ret.begin();
advance(i, rand() % ret.size());
ret.erase(i);
}
return ret;
}
void Session::ensureNodesRequested()
{
if (isOpen() && !m_weRequestedNodes)
{
m_weRequestedNodes = true;
RLPStream s;
sealAndSend(prep(s, GetPeersPacket));
}
}
void Session::serviceNodesRequest()
{
if (!m_theyRequestedNodes)
return;
auto peers = m_server->potentialPeers(m_knownNodes);
if (peers.empty())
{
addNote("peers", "requested");
return;
}
// note this should cost them...
RLPStream s;
prep(s, PeersPacket, min<unsigned>(10, peers.size()));
auto rs = randomSelection(peers, 10);
for (auto const& i: rs)
{
clogS(NetTriviaDetail) << "Sending peer " << i.id.abridged() << i.address;
if (i.address.address().is_v4())
s.appendList(3) << bytesConstRef(i.address.address().to_v4().to_bytes().data(), 4) << i.address.port() << i.id;
else// if (i.second.address().is_v6()) - assumed
s.appendList(3) << bytesConstRef(i.address.address().to_v6().to_bytes().data(), 16) << i.address.port() << i.id;
m_knownNodes.extendAll(i.index);
m_knownNodes.unionWith(i.index);
}
sealAndSend(s);
m_theyRequestedNodes = false;
addNote("peers", "done");
}
bool Session::interpret(RLP const& _r)
{
m_lastReceived = chrono::steady_clock::now();
clogS(NetRight) << _r;
try // Generic try-catch block designed to capture RLP format errors - TODO: give decent diagnostics, make a bit more specific over what is caught.
{
switch ((PacketType)_r[0].toInt<unsigned>())
{
case HelloPacket:
{
10 years ago
m_protocolVersion = _r[1].toInt<unsigned>();
auto clientVersion = _r[2].toString();
auto caps = _r[3].toVector<CapDesc>();
auto listenPort = _r[4].toInt<unsigned short>();
auto id = _r[5].toHash<NodeId>();
// clang error (previously: ... << hex << caps ...)
// "'operator<<' should be declared prior to the call site or in an associated namespace of one of its arguments"
stringstream capslog;
for (auto cap: caps)
capslog << "(" << hex << cap.first << "," << hex << cap.second << ")";
clogS(NetMessageSummary) << "Hello: " << clientVersion << "V[" << m_protocolVersion << "]" << id.abridged() << showbase << capslog.str() << dec << listenPort;
if (m_server->id() == id)
{
// Already connected.
clogS(NetWarn) << "Connected to ourself under a false pretext. We were told this peer was id" << m_info.id.abridged();
disconnect(LocalIdentity);
return true;
}
if (m_node && m_node->id != id)
{
if (m_force || m_node->idOrigin <= Origin::SelfThird)
// SECURITY: We're forcing through the new ID, despite having been told
clogS(NetWarn) << "Connected to node, but their ID has changed since last time. This could indicate a MitM attack. Allowing anyway...";
else
{
clogS(NetWarn) << "Connected to node, but their ID has changed since last time. This could indicate a MitM attack. Disconnecting.";
disconnect(UnexpectedIdentity);
return true;
}
if (m_server->havePeer(id))
{
m_node->dead = true;
disconnect(DuplicatePeer);
return true;
}
}
if (m_server->havePeer(id))
{
// Already connected.
clogS(NetWarn) << "Already connected to a peer with id" << id.abridged();
disconnect(DuplicatePeer);
return true;
}
if (!id)
{
disconnect(NullIdentity);
return true;
}
m_node = m_server->noteNode(id, bi::tcp::endpoint(m_socket.remote_endpoint().address(), listenPort), Origin::Self, false, !m_node || m_node->id == id ? NodeId() : m_node->id);
if (m_node->isOffline())
m_node->lastConnected = chrono::system_clock::now();
m_knownNodes.extendAll(m_node->index);
m_knownNodes.unionWith(m_node->index);
if (m_protocolVersion != m_server->protocolVersion())
{
disconnect(IncompatibleProtocol);
return true;
}
m_info = PeerInfo({id, clientVersion, m_socket.remote_endpoint().address().to_string(), listenPort, std::chrono::steady_clock::duration(), _r[3].toSet<CapDesc>(), (unsigned)m_socket.native_handle(), map<string, string>() });
m_server->registerPeer(shared_from_this(), caps);
break;
}
case DisconnectPacket:
{
string reason = "Unspecified";
auto r = (DisconnectReason)_r[1].toInt<int>();
if (!_r[1].isInt())
drop(BadProtocol);
else
{
reason = reasonOf(r);
clogS(NetMessageSummary) << "Disconnect (reason: " << reason << ")";
drop(DisconnectRequested);
}
break;
}
case PingPacket:
{
clogS(NetTriviaSummary) << "Ping";
RLPStream s;
sealAndSend(prep(s, PongPacket));
break;
}
case PongPacket:
m_info.lastPing = std::chrono::steady_clock::now() - m_ping;
clogS(NetTriviaSummary) << "Latency: " << chrono::duration_cast<chrono::milliseconds>(m_info.lastPing).count() << " ms";
break;
case GetPeersPacket:
{
clogS(NetTriviaSummary) << "GetPeers";
m_theyRequestedNodes = true;
serviceNodesRequest();
break;
}
case PeersPacket:
clogS(NetTriviaSummary) << "Peers (" << dec << (_r.itemCount() - 1) << " entries)";
m_weRequestedNodes = false;
for (unsigned i = 1; i < _r.itemCount(); ++i)
{
10 years ago
bi::address peerAddress;
if (_r[i][0].size() == 16)
peerAddress = bi::address_v6(_r[i][0].toHash<FixedHash<16>>().asArray());
else if (_r[i][0].size() == 4)
peerAddress = bi::address_v4(_r[i][0].toHash<FixedHash<4>>().asArray());
else
{
cwarn << "Received bad peer packet:" << _r;
10 years ago
disconnect(BadProtocol);
return true;
10 years ago
}
auto ep = bi::tcp::endpoint(peerAddress, _r[i][1].toInt<short>());
NodeId id = _r[i][2].toHash<NodeId>();
clogS(NetAllDetail) << "Checking: " << ep << "(" << id.abridged() << ")" << isPrivateAddress(peerAddress) << this->id().abridged() << isPrivateAddress(endpoint().address()) << m_server->m_nodes.count(id) << (m_server->m_nodes.count(id) ? isPrivateAddress(m_server->m_nodes.at(id)->address.address()) : -1);
if (isPrivateAddress(peerAddress) && !m_server->m_netPrefs.localNetworking)
goto CONTINUE; // Private address. Ignore.
if (!id)
goto CONTINUE; // Null identity. Ignore.
if (m_server->id() == id)
goto CONTINUE; // Just our info - we already have that.
if (id == this->id())
goto CONTINUE; // Just their info - we already have that.
// check that it's not us or one we already know:
if (m_server->m_nodes.count(id))
{
/* MEH. Far from an ideal solution. Leave alone for now.
// Already got this node.
// See if it's any better that ours or not...
// This could be the public address of a known node.
// SECURITY: remove this in beta - it's only for lazy connections and presents an easy attack vector.
if (m_server->m_nodes.count(id) && isPrivateAddress(m_server->m_nodes.at(id)->address.address()) && ep.port() != 0)
// Update address if the node if we now have a public IP for it.
m_server->m_nodes[id]->address = ep;
*/
goto CONTINUE;
}
if (!ep.port())
goto CONTINUE; // Zero port? Don't think so.
if (ep.port() >= /*49152*/32768)
goto CONTINUE; // Private port according to IANA.
// TODO: PoC-7:
// Technically fine, but ignore for now to avoid peers passing on incoming ports until we can be sure that doesn't happen any more.
// if (ep.port() < 30300 || ep.port() > 30305)
// goto CONTINUE; // Wierd port.
// Avoid our random other addresses that they might end up giving us.
for (auto i: m_server->m_peerAddresses)
if (ep.address() == i && ep.port() == m_server->listenPort())
goto CONTINUE;
// Check that we don't already know about this addr:port combination. If we are, assume the original is best.
// SECURITY: Not a valid assumption in general. Should compare ID origins and pick the best or note uncertainty and weight each equally.
for (auto const& i: m_server->m_nodes)
if (i.second->address == ep)
goto CONTINUE; // Same address but a different node.
// OK passed all our checks. Assume it's good.
addRating(1000);
m_server->noteNode(id, ep, m_node->idOrigin == Origin::Perfect ? Origin::PerfectThird : Origin::SelfThird, true);
10 years ago
clogS(NetTriviaDetail) << "New peer: " << ep << "(" << id .abridged()<< ")";
CONTINUE:;
}
break;
default:
{
auto id = _r[0].toInt<unsigned>();
for (auto const& i: m_capabilities)
if (i.second->m_enabled && id >= i.second->m_idOffset && id - i.second->m_idOffset < i.second->hostCapability()->messageCount() && i.second->interpret(id - i.second->m_idOffset, _r))
return true;
return false;
}
}
}
catch (std::exception const& _e)
{
clogS(NetWarn) << "Peer causing an exception:" << _e.what() << _r;
disconnect(BadProtocol);
return true;
}
return true;
}
void Session::ping()
{
RLPStream s;
sealAndSend(prep(s, PingPacket));
m_ping = std::chrono::steady_clock::now();
}
RLPStream& Session::prep(RLPStream& _s, PacketType _id, unsigned _args)
{
return prep(_s).appendList(_args + 1).append((unsigned)_id);
11 years ago
}
RLPStream& Session::prep(RLPStream& _s)
{
return _s.appendRaw(bytes(8, 0));
}
void Session::sealAndSend(RLPStream& _s)
{
bytes b;
_s.swapOut(b);
m_server->seal(b);
send(move(b));
}
bool Session::checkPacket(bytesConstRef _msg)
{
if (_msg.size() < 8)
return false;
if (!(_msg[0] == 0x22 && _msg[1] == 0x40 && _msg[2] == 0x08 && _msg[3] == 0x91))
return false;
uint32_t len = ((_msg[4] * 256 + _msg[5]) * 256 + _msg[6]) * 256 + _msg[7];
if (_msg.size() != len + 8)
return false;
RLP r(_msg.cropped(8));
if (r.actualSize() != len)
return false;
return true;
}
void Session::send(bytesConstRef _msg)
{
send(_msg.toBytes());
}
void Session::send(bytes&& _msg)
{
clogS(NetLeft) << RLP(bytesConstRef(&_msg).cropped(8));
if (!checkPacket(bytesConstRef(&_msg)))
clogS(NetWarn) << "INVALID PACKET CONSTRUCTED!";
11 years ago
// cerr << (void*)this << " writeImpl" << endl;
if (!m_socket.is_open())
return;
bool doWrite = false;
{
Guard l(x_writeQueue);
m_writeQueue.push_back(_msg);
doWrite = (m_writeQueue.size() == 1);
}
if (doWrite)
11 years ago
write();
}
void Session::write()
{
const bytes& bytes = m_writeQueue[0];
11 years ago
auto self(shared_from_this());
ba::async_write(m_socket, ba::buffer(bytes), [this, self](boost::system::error_code ec, std::size_t /*length*/)
{
// must check queue, as write callback can occur following dropped()
if (ec)
{
clogS(NetWarn) << "Error sending: " << ec.message();
drop(TCPError);
return;
11 years ago
}
else
{
Guard l(x_writeQueue);
11 years ago
m_writeQueue.pop_front();
if (m_writeQueue.empty())
return;
11 years ago
}
write();
11 years ago
});
}
void Session::drop(DisconnectReason _reason)
{
if (m_dropped)
return;
if (m_socket.is_open())
try
{
clogS(NetConnect) << "Closing " << m_socket.remote_endpoint() << "(" << reasonOf(_reason) << ")";
m_socket.close();
}
catch (...) {}
if (m_node)
{
if (_reason != m_node->lastDisconnect || _reason == NoDisconnect || _reason == ClientQuit || _reason == DisconnectRequested)
m_node->failedAttempts = 0;
m_node->lastDisconnect = _reason;
if (_reason == BadProtocol)
{
m_node->rating /= 2;
m_node->score /= 2;
}
}
m_dropped = true;
}
void Session::disconnect(DisconnectReason _reason)
{
clogS(NetConnect) << "Disconnecting (our reason:" << reasonOf(_reason) << ")";
if (m_socket.is_open())
{
RLPStream s;
prep(s, DisconnectPacket, 1) << (int)_reason;
sealAndSend(s);
}
drop(_reason);
}
void Session::start()
{
RLPStream s;
prep(s, HelloPacket, 5)
<< m_server->protocolVersion()
11 years ago
<< m_server->m_clientVersion
<< m_server->caps()
11 years ago
<< m_server->m_public.port()
<< m_server->id();
sealAndSend(s);
ping();
doRead();
}
void Session::doRead()
{
// ignore packets received while waiting to disconnect
if (m_dropped)
return;
auto self(shared_from_this());
m_socket.async_read_some(boost::asio::buffer(m_data), [this,self](boost::system::error_code ec, std::size_t length)
{
// If error is end of file, ignore
if (ec && ec.category() != boost::asio::error::get_misc_category() && ec.value() != boost::asio::error::eof)
{
// got here with length of 1241...
clogS(NetWarn) << "Error reading: " << ec.message();
drop(TCPError);
}
11 years ago
else if (ec && length == 0)
{
return;
}
else
{
try
{
m_incoming.resize(m_incoming.size() + length);
memcpy(m_incoming.data() + m_incoming.size() - length, m_data.data(), length);
while (m_incoming.size() > 8)
{
if (m_incoming[0] != 0x22 || m_incoming[1] != 0x40 || m_incoming[2] != 0x08 || m_incoming[3] != 0x91)
{
clogS(NetWarn) << "INVALID SYNCHRONISATION TOKEN; expected = 22400891; received = " << toHex(bytesConstRef(m_incoming.data(), 4));
disconnect(BadProtocol);
return;
}
else
{
uint32_t len = fromBigEndian<uint32_t>(bytesConstRef(m_incoming.data() + 4, 4));
uint32_t tlen = len + 8;
if (m_incoming.size() < tlen)
break;
// enough has come in.
auto data = bytesConstRef(m_incoming.data(), tlen);
if (!checkPacket(data))
{
cerr << "Received " << len << ": " << toHex(bytesConstRef(m_incoming.data() + 8, len)) << endl;
clogS(NetWarn) << "INVALID MESSAGE RECEIVED";
disconnect(BadProtocol);
return;
}
else
{
RLP r(data.cropped(8));
if (!interpret(r))
{
// error - bad protocol
clogS(NetWarn) << "Couldn't interpret packet." << RLP(r);
// Just wasting our bandwidth - perhaps reduce rating?
//return;
}
}
memmove(m_incoming.data(), m_incoming.data() + tlen, m_incoming.size() - tlen);
m_incoming.resize(m_incoming.size() - tlen);
}
}
doRead();
}
catch (Exception const& _e)
{
clogS(NetWarn) << "ERROR: " << diagnostic_information(_e);
drop(BadProtocol);
}
catch (std::exception const& _e)
{
clogS(NetWarn) << "ERROR: " << _e.what();
drop(BadProtocol);
}
}
});
}