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542 lines
15 KiB
542 lines
15 KiB
/*
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This file is part of cpp-ethereum.
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cpp-ethereum is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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cpp-ethereum is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with cpp-ethereum. If not, see <http://www.gnu.org/licenses/>.
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*/
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/** @file PeerNetwork.cpp
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* @authors:
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* Gav Wood <i@gavwood.com>
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* Eric Lombrozo <elombrozo@gmail.com>
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* @date 2014
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*/
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#include "PeerServer.h"
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#include <sys/types.h>
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#ifdef _WIN32
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// winsock is already included
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// #include <winsock.h>
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#else
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#include <ifaddrs.h>
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#endif
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#include <set>
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#include <chrono>
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#include <thread>
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#include "Exceptions.h"
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#include "Common.h"
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#include "BlockChain.h"
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#include "BlockInfo.h"
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#include "TransactionQueue.h"
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#include "UPnP.h"
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#include "PeerSession.h"
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using namespace std;
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using namespace eth;
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// Addresses we will skip during network interface discovery
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// Use a vector as the list is small
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// Why this and not names?
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// Under MacOSX loopback (127.0.0.1) can be named lo0 and br0 are bridges (0.0.0.0)
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static const set<bi::address> c_rejectAddresses = {
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{bi::address_v4::from_string("127.0.0.1")},
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{bi::address_v6::from_string("::1")},
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{bi::address_v4::from_string("0.0.0.0")},
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{bi::address_v6::from_string("::")}
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};
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PeerServer::PeerServer(std::string const& _clientVersion, BlockChain const& _ch, unsigned int _networkId, unsigned short _port, NodeMode _m, string const& _publicAddress, bool _upnp):
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m_clientVersion(_clientVersion),
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m_mode(_m),
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m_listenPort(_port),
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m_chain(&_ch),
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m_acceptor(m_ioService, bi::tcp::endpoint(bi::tcp::v4(), _port)),
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m_socket(m_ioService),
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m_key(KeyPair::create()),
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m_networkId(_networkId)
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{
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populateAddresses();
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determinePublic(_publicAddress, _upnp);
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ensureAccepting();
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clog(NetNote) << "Id:" << toHex(m_key.address().ref().cropped(0, 4)) << "Mode: " << (_m == NodeMode::PeerServer ? "PeerServer" : "Full");
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}
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PeerServer::PeerServer(std::string const& _clientVersion, unsigned int _networkId, NodeMode _m):
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m_clientVersion(_clientVersion),
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m_mode(_m),
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m_listenPort(0),
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m_acceptor(m_ioService, bi::tcp::endpoint(bi::tcp::v4(), 0)),
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m_socket(m_ioService),
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m_key(KeyPair::create()),
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m_networkId(_networkId)
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{
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// populate addresses.
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populateAddresses();
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clog(NetNote) << "Id:" << toHex(m_key.address().ref().cropped(0, 4)) << "Mode: " << (m_mode == NodeMode::PeerServer ? "PeerServer" : "Full");
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}
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PeerServer::~PeerServer()
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{
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for (auto const& i: m_peers)
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if (auto p = i.second.lock())
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p->disconnect(ClientQuit);
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delete m_upnp;
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}
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unsigned PeerServer::protocolVersion()
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{
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return 8;
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}
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void PeerServer::determinePublic(string const& _publicAddress, bool _upnp)
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{
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if (_upnp)
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try
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{
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m_upnp = new UPnP;
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}
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catch (NoUPnPDevice) {} // let m_upnp continue as null - we handle it properly.
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bi::tcp::resolver r(m_ioService);
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if (m_upnp && m_upnp->isValid() && m_peerAddresses.size())
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{
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clog(NetNote) << "External addr: " << m_upnp->externalIP();
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int p = m_upnp->addRedirect(m_peerAddresses[0].to_string().c_str(), m_listenPort);
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if (p)
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clog(NetNote) << "Punched through NAT and mapped local port" << m_listenPort << "onto external port" << p << ".";
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else
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{
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// couldn't map
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clog(NetWarn) << "Couldn't punch through NAT (or no NAT in place). Assuming " << m_listenPort << " is local & external port.";
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p = m_listenPort;
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}
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auto eip = m_upnp->externalIP();
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if (eip == string("0.0.0.0") && _publicAddress.empty())
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m_public = bi::tcp::endpoint(bi::address(), (unsigned short)p);
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else
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{
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m_public = bi::tcp::endpoint(bi::address::from_string(_publicAddress.empty() ? eip : _publicAddress), (unsigned short)p);
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m_addresses.push_back(m_public.address().to_v4());
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}
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}
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else
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{
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// No UPnP - fallback on given public address or, if empty, the assumed peer address.
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m_public = bi::tcp::endpoint(_publicAddress.size() ? bi::address::from_string(_publicAddress)
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: m_peerAddresses.size() ? m_peerAddresses[0]
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: bi::address(), m_listenPort);
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m_addresses.push_back(m_public.address().to_v4());
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}
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}
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void PeerServer::populateAddresses()
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{
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#ifdef _WIN32
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WSAData wsaData;
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if (WSAStartup(MAKEWORD(1, 1), &wsaData) != 0)
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throw NoNetworking();
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char ac[80];
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if (gethostname(ac, sizeof(ac)) == SOCKET_ERROR)
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{
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clog(NetWarn) << "Error " << WSAGetLastError() << " when getting local host name.";
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WSACleanup();
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throw NoNetworking();
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}
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struct hostent* phe = gethostbyname(ac);
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if (phe == 0)
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{
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clog(NetWarn) << "Bad host lookup.";
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WSACleanup();
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throw NoNetworking();
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}
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for (int i = 0; phe->h_addr_list[i] != 0; ++i)
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{
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struct in_addr addr;
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memcpy(&addr, phe->h_addr_list[i], sizeof(struct in_addr));
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char *addrStr = inet_ntoa(addr);
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bi::address ad(bi::address::from_string(addrStr));
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m_addresses.push_back(ad.to_v4());
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bool isLocal = std::find(c_rejectAddresses.begin(), c_rejectAddresses.end(), ad) != c_rejectAddresses.end();
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if (!isLocal)
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m_peerAddresses.push_back(ad.to_v4());
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clog(NetNote) << "Address: " << ac << " = " << m_addresses.back() << (isLocal ? " [LOCAL]" : " [PEER]");
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}
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WSACleanup();
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#else
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ifaddrs* ifaddr;
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if (getifaddrs(&ifaddr) == -1)
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throw NoNetworking();
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bi::tcp::resolver r(m_ioService);
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for (ifaddrs* ifa = ifaddr; ifa; ifa = ifa->ifa_next)
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{
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if (!ifa->ifa_addr)
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continue;
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if (ifa->ifa_addr->sa_family == AF_INET)
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{
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char host[NI_MAXHOST];
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if (getnameinfo(ifa->ifa_addr, sizeof(struct sockaddr_in), host, NI_MAXHOST, NULL, 0, NI_NUMERICHOST))
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continue;
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// TODO: Make exception safe when no internet.
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auto it = r.resolve({host, "30303"});
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bi::tcp::endpoint ep = it->endpoint();
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bi::address ad = ep.address();
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m_addresses.push_back(ad.to_v4());
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bool isLocal = std::find(c_rejectAddresses.begin(), c_rejectAddresses.end(), ad) != c_rejectAddresses.end();
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if (!isLocal)
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m_peerAddresses.push_back(ad.to_v4());
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clog(NetNote) << "Address: " << host << " = " << m_addresses.back() << (isLocal ? " [LOCAL]" : " [PEER]");
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}
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}
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freeifaddrs(ifaddr);
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#endif
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}
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std::map<Public, bi::tcp::endpoint> PeerServer::potentialPeers()
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{
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std::map<Public, bi::tcp::endpoint> ret;
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if (!m_public.address().is_unspecified())
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ret.insert(make_pair(m_key.pub(), m_public));
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for (auto i: m_peers)
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if (auto j = i.second.lock())
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{
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auto ep = j->endpoint();
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// Skip peers with a listen port of zero or are on a private network
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bool peerOnNet = (j->m_listenPort != 0 && !isPrivateAddress(ep.address()));
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if (peerOnNet && ep.port() && j->m_id)
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ret.insert(make_pair(i.first, ep));
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}
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return ret;
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}
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void PeerServer::ensureAccepting()
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{
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if (m_accepting == false)
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{
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clog(NetNote) << "Listening on local port " << m_listenPort << " (public: " << m_public << ")";
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m_accepting = true;
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m_acceptor.async_accept(m_socket, [=](boost::system::error_code ec)
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{
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if (!ec)
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try
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{
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try {
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clog(NetNote) << "Accepted connection from " << m_socket.remote_endpoint();
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} catch (...){}
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bi::address remoteAddress = m_socket.remote_endpoint().address();
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// Port defaults to 0 - we let the hello tell us which port the peer listens to
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auto p = std::make_shared<PeerSession>(this, std::move(m_socket), m_networkId, remoteAddress);
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p->start();
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}
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catch (std::exception const& _e)
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{
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clog(NetWarn) << "ERROR: " << _e.what();
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}
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m_accepting = false;
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if (ec.value() != 1 && (m_mode == NodeMode::PeerServer || m_peers.size() < m_idealPeerCount * 2))
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ensureAccepting();
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});
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}
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}
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void PeerServer::connect(std::string const& _addr, unsigned short _port) noexcept
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{
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try
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{
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connect(bi::tcp::endpoint(bi::address::from_string(_addr), _port));
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}
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catch (exception const& e)
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{
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// Couldn't connect
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clog(NetNote) << "Bad host " << _addr << " (" << e.what() << ")";
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}
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}
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void PeerServer::connect(bi::tcp::endpoint const& _ep)
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{
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clog(NetNote) << "Attempting connection to " << _ep;
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bi::tcp::socket* s = new bi::tcp::socket(m_ioService);
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s->async_connect(_ep, [=](boost::system::error_code const& ec)
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{
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if (ec)
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{
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clog(NetNote) << "Connection refused to " << _ep << " (" << ec.message() << ")";
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for (auto i = m_incomingPeers.begin(); i != m_incomingPeers.end(); ++i)
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if (i->second.first == _ep && i->second.second < 3)
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{
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m_freePeers.push_back(i->first);
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goto OK;
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}
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// for-else
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clog(NetNote) << "Giving up.";
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OK:;
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}
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else
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{
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auto p = make_shared<PeerSession>(this, std::move(*s), m_networkId, _ep.address(), _ep.port());
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clog(NetNote) << "Connected to " << _ep;
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p->start();
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}
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delete s;
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});
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}
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bool PeerServer::sync()
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{
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bool ret = false;
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if (isInitialised())
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for (auto i = m_peers.begin(); i != m_peers.end();)
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{
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auto p = i->second.lock();
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if (p && p->m_socket.is_open() &&
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(p->m_disconnect == chrono::steady_clock::time_point::max() || chrono::steady_clock::now() - p->m_disconnect < chrono::seconds(1))) // kill old peers that should be disconnected.
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++i;
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else
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{
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i = m_peers.erase(i);
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ret = true;
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}
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}
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return ret;
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}
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bool PeerServer::ensureInitialised(BlockChain& _bc, TransactionQueue& _tq)
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{
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if (m_latestBlockSent == h256())
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{
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// First time - just initialise.
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m_latestBlockSent = _bc.currentHash();
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clog(NetNote) << "Initialising: latest=" << m_latestBlockSent;
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for (auto const& i: _tq.transactions())
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m_transactionsSent.insert(i.first);
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m_lastPeersRequest = chrono::steady_clock::time_point::min();
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return true;
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}
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return false;
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}
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bool PeerServer::sync(BlockChain& _bc, TransactionQueue& _tq, Overlay& _o)
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{
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bool ret = ensureInitialised(_bc, _tq);
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if (sync())
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ret = true;
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if (m_mode == NodeMode::Full)
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{
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for (auto it = m_incomingTransactions.begin(); it != m_incomingTransactions.end(); ++it)
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if (_tq.import(*it))
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{}//ret = true; // just putting a transaction in the queue isn't enough to change the state - it might have an invalid nonce...
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else
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m_transactionsSent.insert(sha3(*it)); // if we already had the transaction, then don't bother sending it on.
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m_incomingTransactions.clear();
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auto h = _bc.currentHash();
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bool resendAll = (h != m_latestBlockSent);
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// Send any new transactions.
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for (auto j: m_peers)
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if (auto p = j.second.lock())
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{
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bytes b;
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uint n = 0;
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for (auto const& i: _tq.transactions())
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if ((!m_transactionsSent.count(i.first) && !p->m_knownTransactions.count(i.first)) || p->m_requireTransactions || resendAll)
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{
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b += i.second;
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++n;
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m_transactionsSent.insert(i.first);
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}
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if (n)
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{
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RLPStream ts;
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PeerSession::prep(ts);
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ts.appendList(n + 1) << TransactionsPacket;
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ts.appendRaw(b, n).swapOut(b);
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seal(b);
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p->send(&b);
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}
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p->m_knownTransactions.clear();
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p->m_requireTransactions = false;
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}
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// Send any new blocks.
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if (h != m_latestBlockSent)
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{
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// TODO: find where they diverge and send complete new branch.
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RLPStream ts;
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PeerSession::prep(ts);
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ts.appendList(2) << BlocksPacket;
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bytes b;
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ts.appendRaw(_bc.block(_bc.currentHash())).swapOut(b);
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seal(b);
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for (auto j: m_peers)
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if (auto p = j.second.lock())
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{
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if (!p->m_knownBlocks.count(_bc.currentHash()))
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p->send(&b);
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p->m_knownBlocks.clear();
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}
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}
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m_latestBlockSent = h;
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for (int accepted = 1, n = 0; accepted; ++n)
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{
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accepted = 0;
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if (m_incomingBlocks.size())
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for (auto it = prev(m_incomingBlocks.end());; --it)
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{
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try
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{
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_bc.import(*it, _o);
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it = m_incomingBlocks.erase(it);
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++accepted;
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ret = true;
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}
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catch (UnknownParent)
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{
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// Don't (yet) know its parent. Leave it for later.
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m_unknownParentBlocks.push_back(*it);
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it = m_incomingBlocks.erase(it);
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}
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catch (...)
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{
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// Some other error - erase it.
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it = m_incomingBlocks.erase(it);
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}
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if (it == m_incomingBlocks.begin())
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break;
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}
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if (!n && accepted)
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{
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for (auto i: m_unknownParentBlocks)
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m_incomingBlocks.push_back(i);
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m_unknownParentBlocks.clear();
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}
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}
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// Connect to additional peers
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while (m_peers.size() < m_idealPeerCount)
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{
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if (m_freePeers.empty())
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{
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if (chrono::steady_clock::now() > m_lastPeersRequest + chrono::seconds(10))
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{
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RLPStream s;
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bytes b;
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(PeerSession::prep(s).appendList(1) << GetPeersPacket).swapOut(b);
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seal(b);
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for (auto const& i: m_peers)
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if (auto p = i.second.lock())
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if (p->isOpen())
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p->send(&b);
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m_lastPeersRequest = chrono::steady_clock::now();
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}
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if (!m_accepting)
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ensureAccepting();
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break;
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}
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auto x = time(0) % m_freePeers.size();
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m_incomingPeers[m_freePeers[x]].second++;
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connect(m_incomingPeers[m_freePeers[x]].first);
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m_freePeers.erase(m_freePeers.begin() + x);
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}
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}
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// platform for consensus of social contract.
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// restricts your freedom but does so fairly. and that's the value proposition.
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// guarantees that everyone else respect the rules of the system. (i.e. obeys laws).
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// We'll keep at most twice as many as is ideal, halfing what counts as "too young to kill" until we get there.
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for (uint old = 15000; m_peers.size() > m_idealPeerCount * 2 && old > 100; old /= 2)
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while (m_peers.size() > m_idealPeerCount)
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{
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// look for worst peer to kick off
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// first work out how many are old enough to kick off.
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shared_ptr<PeerSession> worst;
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unsigned agedPeers = 0;
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for (auto i: m_peers)
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if (auto p = i.second.lock())
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if ((m_mode != NodeMode::PeerServer || p->m_caps != 0x01) && chrono::steady_clock::now() > p->m_connect + chrono::milliseconds(old)) // don't throw off new peers; peer-servers should never kick off other peer-servers.
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{
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++agedPeers;
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if ((!worst || p->m_rating < worst->m_rating || (p->m_rating == worst->m_rating && p->m_connect > worst->m_connect))) // kill older ones
|
|
worst = p;
|
|
}
|
|
if (!worst || agedPeers <= m_idealPeerCount)
|
|
break;
|
|
worst->disconnect(TooManyPeers);
|
|
}
|
|
|
|
return ret;
|
|
}
|
|
|
|
std::vector<PeerInfo> PeerServer::peers() const
|
|
{
|
|
const_cast<PeerServer*>(this)->pingAll();
|
|
this_thread::sleep_for(chrono::milliseconds(200));
|
|
std::vector<PeerInfo> ret;
|
|
for (auto& i: m_peers)
|
|
if (auto j = i.second.lock())
|
|
if (j->m_socket.is_open())
|
|
ret.push_back(j->m_info);
|
|
return ret;
|
|
}
|
|
|
|
void PeerServer::pingAll()
|
|
{
|
|
for (auto& i: m_peers)
|
|
if (auto j = i.second.lock())
|
|
j->ping();
|
|
}
|
|
|
|
bytes PeerServer::savePeers() const
|
|
{
|
|
RLPStream ret;
|
|
int n = 0;
|
|
for (auto& i: m_peers)
|
|
if (auto p = i.second.lock())
|
|
if (p->m_socket.is_open() && p->endpoint().port())
|
|
{
|
|
ret.appendList(3) << p->endpoint().address().to_v4().to_bytes() << p->endpoint().port() << p->m_id;
|
|
n++;
|
|
}
|
|
return RLPStream(n).appendRaw(ret.out(), n).out();
|
|
}
|
|
|
|
void PeerServer::restorePeers(bytesConstRef _b)
|
|
{
|
|
for (auto i: RLP(_b))
|
|
{
|
|
auto k = (Public)i[2];
|
|
if (!m_incomingPeers.count(k))
|
|
{
|
|
m_incomingPeers.insert(make_pair(k, make_pair(bi::tcp::endpoint(bi::address_v4(i[0].toArray<byte, 4>()), i[1].toInt<short>()), 0)));
|
|
m_freePeers.push_back(k);
|
|
}
|
|
}
|
|
}
|
|
|