/* */ #include "DHTConnectionImpl.h" #include #include #include "LogFactory.h" #include "Logger.h" #include "RecoverableException.h" #include "util.h" #include "Socket.h" #include "SimpleRandomizer.h" #include "fmt.h" namespace aria2 { DHTConnectionImpl::DHTConnectionImpl(int family) : socket_(new SocketCore(SOCK_DGRAM)), family_(family) {} DHTConnectionImpl::~DHTConnectionImpl() {} bool DHTConnectionImpl::bind (uint16_t& port, const std::string& addr, IntSequence& ports) { std::vector randPorts = ports.flush(); std::random_shuffle(randPorts.begin(), randPorts.end(), *SimpleRandomizer::getInstance().get()); for(std::vector::const_iterator portItr = randPorts.begin(), eoi = randPorts.end(); portItr != eoi; ++portItr) { if(!(0 < (*portItr) && (*portItr) <= 65535)) { continue; } port = (*portItr); if(bind(port, addr)) { return true; } } return false; } bool DHTConnectionImpl::bind(uint16_t& port, const std::string& addr) { int ipv = family_ == AF_INET?4:6; try { if(addr.empty()) { socket_->bind(A2STR::NIL, port, family_); } else { socket_->bind(addr, port, family_); } socket_->setNonBlockingMode(); std::pair svaddr; socket_->getAddrInfo(svaddr); port = svaddr.second; A2_LOG_NOTICE(fmt("IPv%d DHT: listening to port %d", ipv, port)); return true; } catch(RecoverableException& e) { A2_LOG_ERROR_EX(fmt("Failed to bind for IPv%d DHT. port=%u", ipv, port), e); } return false; } ssize_t DHTConnectionImpl::receiveMessage(unsigned char* data, size_t len, std::string& host, uint16_t& port) { std::pair remoteHost; ssize_t length = socket_->readDataFrom(data, len, remoteHost); if(length == 0) { return length; } else { host = remoteHost.first; port = remoteHost.second; return length; } } ssize_t DHTConnectionImpl::sendMessage(const unsigned char* data, size_t len, const std::string& host, uint16_t port) { return socket_->writeData(data, len, host, port); } } // namespace aria2