/* * synergy -- mouse and keyboard sharing utility * Copyright (C) 2002 Chris Schoeneman * * This package is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * found in the file COPYING that should have accompanied this file. * * This package 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. */ #include "CNetwork.h" #include "XNetwork.h" #include "CLog.h" #include // // CNetwork // CNetwork::Socket (PASCAL FAR *CNetwork::accept)(CNetwork::Socket s, CNetwork::Address FAR *addr, CNetwork::AddressLength FAR *addrlen); int (PASCAL FAR *CNetwork::bind)(CNetwork::Socket s, const CNetwork::Address FAR *addr, CNetwork::AddressLength namelen); int (PASCAL FAR *CNetwork::close)(CNetwork::Socket s); int (PASCAL FAR *CNetwork::connect)(CNetwork::Socket s, const CNetwork::Address FAR *name, CNetwork::AddressLength namelen); int (PASCAL FAR *CNetwork::ioctl)(CNetwork::Socket s, int cmd, void FAR *); int (PASCAL FAR *CNetwork::getpeername)(CNetwork::Socket s, CNetwork::Address FAR *name, CNetwork::AddressLength FAR * namelen); int (PASCAL FAR *CNetwork::getsockname)(CNetwork::Socket s, CNetwork::Address FAR *name, CNetwork::AddressLength FAR * namelen); int (PASCAL FAR *CNetwork::getsockopt)(CNetwork::Socket s, int level, int optname, void FAR * optval, CNetwork::AddressLength FAR *optlen); int (PASCAL FAR *CNetwork::listen)(CNetwork::Socket s, int backlog); ssize_t (PASCAL FAR *CNetwork::read)(CNetwork::Socket s, void FAR * buf, size_t len); ssize_t (PASCAL FAR *CNetwork::recv)(CNetwork::Socket s, void FAR * buf, size_t len, int flags); ssize_t (PASCAL FAR *CNetwork::recvfrom)(CNetwork::Socket s, void FAR * buf, size_t len, int flags, CNetwork::Address FAR *from, CNetwork::AddressLength FAR * fromlen); int (PASCAL FAR *CNetwork::poll)(CNetwork::PollEntry fds[], int nfds, int timeout); ssize_t (PASCAL FAR *CNetwork::send)(CNetwork::Socket s, const void FAR * buf, size_t len, int flags); ssize_t (PASCAL FAR *CNetwork::sendto)(CNetwork::Socket s, const void FAR * buf, size_t len, int flags, const CNetwork::Address FAR *to, CNetwork::AddressLength tolen); int (PASCAL FAR *CNetwork::setsockopt)(CNetwork::Socket s, int level, int optname, const void FAR * optval, CNetwork::AddressLength optlen); int (PASCAL FAR *CNetwork::shutdown)(CNetwork::Socket s, int how); CNetwork::Socket (PASCAL FAR *CNetwork::socket)(int af, int type, int protocol); ssize_t (PASCAL FAR *CNetwork::write)(CNetwork::Socket s, const void FAR * buf, size_t len); int (PASCAL FAR *CNetwork::gethostname)(char FAR * name, int namelen); int (PASCAL FAR *CNetwork::getsockerror)(void); #if WINDOWS_LIKE int (PASCAL FAR *CNetwork::select)(int nfds, fd_set FAR *readfds, fd_set FAR *writefds, fd_set FAR *exceptfds, const struct timeval FAR *timeout); int (PASCAL FAR *CNetwork::WSACleanup)(void); int (PASCAL FAR *CNetwork::__WSAFDIsSet)(CNetwork::Socket, fd_set FAR *); struct hostent FAR * (PASCAL FAR *CNetwork::gethostbyaddr_n)(const char FAR * addr, int len, int type); struct hostent FAR * (PASCAL FAR *CNetwork::gethostbyname_n)(const char FAR * name); struct servent FAR * (PASCAL FAR *CNetwork::getservbyport_n)(int port, const char FAR * proto); struct servent FAR * (PASCAL FAR *CNetwork::getservbyname_n)(const char FAR * name, const char FAR * proto); struct protoent FAR * (PASCAL FAR *CNetwork::getprotobynumber_n)(int proto); struct protoent FAR * (PASCAL FAR *CNetwork::getprotobyname_n)(const char FAR * name); const int CNetwork::Error = SOCKET_ERROR; const CNetwork::Socket CNetwork::Null = INVALID_SOCKET; #undef FD_ISSET #define FD_ISSET(fd, set) CNetwork::__WSAFDIsSet((SOCKET)(fd), (fd_set FAR *)(set)) static HMODULE s_networkModule = NULL; static FARPROC netGetProcAddress(HMODULE module, LPCSTR name) { FARPROC func = ::GetProcAddress(module, name); if (!func) { throw XNetworkFunctionUnavailable(name); } return func; } void CNetwork::init() { assert(WSACleanup == NULL); assert(s_networkModule == NULL); // try winsock 2 HMODULE module = (HMODULE)::LoadLibrary("ws2_32.dll"); if (module == NULL) { LOG((CLOG_NOTE "ws2_32.dll not found")); } else { try { init2(module); return; } catch (XNetwork& e) { LOG((CLOG_NOTE "ws2_32.dll error: %s", e.what())); } } // try winsock 1 module = (HMODULE)::LoadLibrary("wsock32.dll"); if (module == NULL) { LOG((CLOG_NOTE "wsock32.dll not found")); } else { try { init2(module); return; } catch (XNetwork& e) { LOG((CLOG_NOTE "wsock32.dll error: %s", e.what())); } } // no networking throw XNetworkUnavailable(); } void CNetwork::cleanup() { if (s_networkModule != NULL) { WSACleanup(); ::FreeLibrary(s_networkModule); WSACleanup = NULL; s_networkModule = NULL; } } UInt32 CNetwork::swaphtonl(UInt32 v) { static const union { UInt16 s; UInt8 b[2]; } s_endian = { 0x1234 }; if (s_endian.b[0] == 0x34) { return ((v & 0xff000000lu) >> 24) | ((v & 0x00ff0000lu) >> 8) | ((v & 0x0000ff00lu) << 8) | ((v & 0x000000fflu) << 24); } else { return v; } } UInt16 CNetwork::swaphtons(UInt16 v) { static const union { UInt16 s; UInt8 b[2]; } s_endian = { 0x1234 }; if (s_endian.b[0] == 0x34) { return static_cast( ((v & 0xff00u) >> 8) | ((v & 0x00ffu) << 8)); } else { return v; } } UInt32 CNetwork::swapntohl(UInt32 v) { return swaphtonl(v); } UInt16 CNetwork::swapntohs(UInt16 v) { return swaphtons(v); } #define setfunc(var, name, type) var = (type)netGetProcAddress(module, #name) void CNetwork::init2( HMODULE module) { assert(module != NULL); // get startup function address int (PASCAL FAR *startup)(WORD, LPWSADATA); setfunc(startup, WSAStartup, int(PASCAL FAR*)(WORD, LPWSADATA)); // startup network library WORD version = MAKEWORD(1 /*major*/, 1 /*minor*/); WSADATA data; int err = startup(version, &data); if (data.wVersion != version) { throw XNetworkVersion(LOBYTE(data.wVersion), HIBYTE(data.wVersion)); } if (err != 0) { throw XNetworkFailed(); } // get function addresses setfunc(accept, accept, Socket (PASCAL FAR *)(Socket s, Address FAR *addr, AddressLength FAR *addrlen)); setfunc(bind, bind, int (PASCAL FAR *)(Socket s, const Address FAR *addr, AddressLength namelen)); setfunc(close, closesocket, int (PASCAL FAR *)(Socket s)); setfunc(connect, connect, int (PASCAL FAR *)(Socket s, const Address FAR *name, AddressLength namelen)); setfunc(ioctl, ioctlsocket, int (PASCAL FAR *)(Socket s, int cmd, void FAR *)); setfunc(getpeername, getpeername, int (PASCAL FAR *)(Socket s, Address FAR *name, AddressLength FAR * namelen)); setfunc(getsockname, getsockname, int (PASCAL FAR *)(Socket s, Address FAR *name, AddressLength FAR * namelen)); setfunc(getsockopt, getsockopt, int (PASCAL FAR *)(Socket s, int level, int optname, void FAR * optval, AddressLength FAR *optlen)); setfunc(inet_addr_n, inet_addr, unsigned long (PASCAL FAR *)(const char FAR * cp)); setfunc(inet_ntoa_n, inet_ntoa, char FAR * (PASCAL FAR *)(struct in_addr in)); setfunc(listen, listen, int (PASCAL FAR *)(Socket s, int backlog)); setfunc(recv, recv, ssize_t (PASCAL FAR *)(Socket s, void FAR * buf, size_t len, int flags)); setfunc(recvfrom, recvfrom, ssize_t (PASCAL FAR *)(Socket s, void FAR * buf, size_t len, int flags, Address FAR *from, AddressLength FAR * fromlen)); setfunc(send, send, ssize_t (PASCAL FAR *)(Socket s, const void FAR * buf, size_t len, int flags)); setfunc(sendto, sendto, ssize_t (PASCAL FAR *)(Socket s, const void FAR * buf, size_t len, int flags, const Address FAR *to, AddressLength tolen)); setfunc(setsockopt, setsockopt, int (PASCAL FAR *)(Socket s, int level, int optname, const void FAR * optval, AddressLength optlen)); setfunc(shutdown, shutdown, int (PASCAL FAR *)(Socket s, int how)); setfunc(socket, socket, Socket (PASCAL FAR *)(int af, int type, int protocol)); setfunc(gethostname, gethostname, int (PASCAL FAR *)(char FAR * name, int namelen)); setfunc(gethostbyaddr_n, gethostbyaddr, struct hostent FAR * (PASCAL FAR *)(const char FAR * addr, int len, int type)); setfunc(gethostbyname_n, gethostbyname, struct hostent FAR * (PASCAL FAR *)(const char FAR * name)); setfunc(getservbyport_n, getservbyport, struct servent FAR * (PASCAL FAR *)(int port, const char FAR * proto)); setfunc(getservbyname_n, getservbyname, struct servent FAR * (PASCAL FAR *)(const char FAR * name, const char FAR * proto)); setfunc(getprotobynumber_n, getprotobynumber, struct protoent FAR * (PASCAL FAR *)(int proto)); setfunc(getprotobyname_n, getprotobyname, struct protoent FAR * (PASCAL FAR *)(const char FAR * name)); setfunc(getsockerror, WSAGetLastError, int (PASCAL FAR *)(void)); setfunc(WSACleanup, WSACleanup, int (PASCAL FAR *)(void)); setfunc(__WSAFDIsSet, __WSAFDIsSet, int (PASCAL FAR *)(CNetwork::Socket, fd_set FAR *)); setfunc(select, select, int (PASCAL FAR *)(int nfds, fd_set FAR *readfds, fd_set FAR *writefds, fd_set FAR *exceptfds, const struct timeval FAR *timeout)); poll = poll2; read = read2; write = write2; s_networkModule = module; } ssize_t PASCAL FAR CNetwork::read2(Socket s, void FAR* buf, size_t len) { return recv(s, buf, len, 0); } ssize_t PASCAL FAR CNetwork::write2(Socket s, const void FAR* buf, size_t len) { return send(s, buf, len, 0); } int PASCAL FAR CNetwork::inet_aton(const char FAR * cp, InternetAddress FAR * addr) { assert(addr != NULL); // fake it with inet_addr unsigned long inetAddr = inet_addr_n(cp); if (inetAddr == INADDR_NONE) { return 0; } else { *(addr->s_addr) = inetAddr; return 1; } } CString PASCAL FAR CNetwork::inet_ntoa(struct in_addr in) { // winsock returns strings per-thread return CString(inet_ntoa_n(in)); } int PASCAL FAR CNetwork::gethostbyaddr(CHostInfo* hostinfo, const char FAR * addr, int len, int type) { assert(hostinfo != NULL); // winsock returns structures per-thread struct hostent FAR* info = gethostbyaddr_n(addr, len, type); if (info == NULL) { return WSAGetLastError(); } else { CHostInfo tmp(info); hostinfo->swap(tmp); return 0; } } int PASCAL FAR CNetwork::gethostbyname(CHostInfo* hostinfo, const char FAR * name) { assert(hostinfo != NULL); // winsock returns structures per-thread struct hostent FAR* info = gethostbyname_n(name); if (info == NULL) { return WSAGetLastError(); } else { CHostInfo tmp(info); hostinfo->swap(tmp); return 0; } } int PASCAL FAR CNetwork::getservbyport(CServiceInfo* servinfo, int port, const char FAR * proto) { assert(servinfo != NULL); // winsock returns structures per-thread struct servent FAR* info = getservbyport_n(port, proto); if (info == NULL) { return WSAGetLastError(); } else { CServiceInfo tmp(info); servinfo->swap(tmp); return 0; } } int PASCAL FAR CNetwork::getservbyname(CServiceInfo* servinfo, const char FAR * name, const char FAR * proto) { assert(servinfo != NULL); // winsock returns structures per-thread struct servent FAR* info = getservbyname_n(name, proto); if (info == NULL) { return WSAGetLastError(); } else { CServiceInfo tmp(info); servinfo->swap(tmp); return 0; } } int PASCAL FAR CNetwork::getprotobynumber(CProtocolInfo* protoinfo, int proto) { assert(protoinfo != NULL); // winsock returns structures per-thread struct protoinfo FAR* info = getprotobynumber_n(proto); if (info == NULL) { return WSAGetLastError(); } else { CProtocolInfo tmp(info); protoinfo->swap(tmp); return 0; } } int PASCAL FAR CNetwork::getprotobyname(CProtocolInfo* protoinfo, const char FAR * name) { assert(protoinfo != NULL); // winsock returns structures per-thread struct protoinfo FAR* info = getprotobyname_n(name); if (info == NULL) { return WSAGetLastError(); } else { CProtocolInfo tmp(info); protoinfo->swap(tmp); return 0; } } int PASCAL FAR CNetwork::setblocking(CNetwork::Socket s, bool blocking) { int flag = blocking ? 0 : 1; return ioctl(s, FIONBIO, &flag); } int PASCAL FAR CNetwork::setnodelay(CNetwork::Socket s, bool nodelay) { BOOL flag = nodelay ? 1 : 0; setsockopt(s, IPPROTO_TCP, TCP_NODELAY, &flag, sizeof(flag)); } #endif #if UNIX_LIKE #include "CMutex.h" #include "CLock.h" #if HAVE_SYS_TYPES_H # include #endif #if HAVE_SYS_STAT_H # include #endif #if HAVE_UNISTD_H # include #endif #include #include #include #include #if !defined(TCP_NODELAY) # include #endif // FIXME -- use reentrant versions of non-reentrant functions const int CNetwork::Error = -1; const CNetwork::Socket CNetwork::Null = -1; static CMutex* s_networkMutex = NULL; #define setfunc(var, name, type) var = (type)::name UInt32 CNetwork::swaphtonl(UInt32 v) { return htonl(v); } UInt16 CNetwork::swaphtons(UInt16 v) { return htons(v); } UInt32 CNetwork::swapntohl(UInt32 v) { return ntohl(v); } UInt16 CNetwork::swapntohs(UInt16 v) { return ntohs(v); } void CNetwork::init() { assert(s_networkMutex == NULL); try { s_networkMutex = new CMutex; } catch (...) { throw XNetworkFailed(); } setfunc(accept, accept, Socket (PASCAL FAR *)(Socket s, Address FAR *addr, AddressLength FAR *addrlen)); setfunc(bind, bind, int (PASCAL FAR *)(Socket s, const Address FAR *addr, AddressLength namelen)); setfunc(close, close, int (PASCAL FAR *)(Socket s)); setfunc(connect, connect, int (PASCAL FAR *)(Socket s, const Address FAR *name, AddressLength namelen)); setfunc(ioctl, ioctl, int (PASCAL FAR *)(Socket s, int cmd, void FAR *)); setfunc(getpeername, getpeername, int (PASCAL FAR *)(Socket s, Address FAR *name, AddressLength FAR * namelen)); setfunc(getsockname, getsockname, int (PASCAL FAR *)(Socket s, Address FAR *name, AddressLength FAR * namelen)); setfunc(getsockopt, getsockopt, int (PASCAL FAR *)(Socket s, int level, int optname, void FAR * optval, AddressLength FAR *optlen)); setfunc(listen, listen, int (PASCAL FAR *)(Socket s, int backlog)); #if HAVE_POLL setfunc(poll, poll, int (PASCAL FAR *)(CNetwork::PollEntry fds[], int nfds, int timeout)); #else setfunc(poll, CNetwork::poll2, int (PASCAL FAR *)(CNetwork::PollEntry fds[], int nfds, int timeout)); #endif setfunc(read, read, ssize_t (PASCAL FAR *)(CNetwork::Socket s, void FAR * buf, size_t len)); setfunc(recv, recv, ssize_t (PASCAL FAR *)(Socket s, void FAR * buf, size_t len, int flags)); setfunc(recvfrom, recvfrom, ssize_t (PASCAL FAR *)(Socket s, void FAR * buf, size_t len, int flags, Address FAR *from, AddressLength FAR * fromlen)); setfunc(send, send, ssize_t (PASCAL FAR *)(Socket s, const void FAR * buf, size_t len, int flags)); setfunc(sendto, sendto, ssize_t (PASCAL FAR *)(Socket s, const void FAR * buf, size_t len, int flags, const Address FAR *to, AddressLength tolen)); setfunc(setsockopt, setsockopt, int (PASCAL FAR *)(Socket s, int level, int optname, const void FAR * optval, AddressLength optlen)); setfunc(shutdown, shutdown, int (PASCAL FAR *)(Socket s, int how)); setfunc(socket, socket, Socket (PASCAL FAR *)(int af, int type, int protocol)); setfunc(write, write, ssize_t (PASCAL FAR *)(CNetwork::Socket s, const void FAR * buf, size_t len)); gethostname = gethostname2; getsockerror = getsockerror2; } void CNetwork::cleanup() { delete s_networkMutex; s_networkMutex = NULL; } int PASCAL FAR CNetwork::gethostname2(char* name, int namelen) { return ::gethostname(name, namelen); } int PASCAL FAR CNetwork::getsockerror2(void) { return errno; } int PASCAL FAR CNetwork::inet_aton(const char FAR * cp, InternetAddress FAR * addr) { return ::inet_aton(cp, addr); } CString PASCAL FAR CNetwork::inet_ntoa(struct in_addr in) { // single threaded access to inet_ntoa functions CLock lock(s_networkMutex); return CString(::inet_ntoa(in)); } int PASCAL FAR CNetwork::gethostbyaddr(CHostInfo* hostinfo, const char FAR * addr, int len, int type) { assert(hostinfo != NULL); // single threaded access to netdb functions CLock lock(s_networkMutex); struct hostent FAR* info = ::gethostbyaddr(addr, len, type); if (info == NULL) { return h_errno; } else { CHostInfo tmp(info); hostinfo->swap(tmp); return 0; } } int PASCAL FAR CNetwork::gethostbyname(CHostInfo* hostinfo, const char FAR * name) { assert(hostinfo != NULL); // single threaded access to netdb functions CLock lock(s_networkMutex); struct hostent FAR* info = ::gethostbyname(name); if (info == NULL) { return h_errno; } else { CHostInfo tmp(info); hostinfo->swap(tmp); return 0; } } int PASCAL FAR CNetwork::getservbyport(CServiceInfo* servinfo, int port, const char FAR * proto) { assert(servinfo != NULL); // single threaded access to netdb functions CLock lock(s_networkMutex); struct servent FAR* info = ::getservbyport(port, proto); if (info == NULL) { return -1; } else { CServiceInfo tmp(info); servinfo->swap(tmp); return 0; } } int PASCAL FAR CNetwork::getservbyname(CServiceInfo* servinfo, const char FAR * name, const char FAR * proto) { assert(servinfo != NULL); // single threaded access to netdb functions CLock lock(s_networkMutex); struct servent FAR* info = ::getservbyname(name, proto); if (info == NULL) { return -1; } else { CServiceInfo tmp(info); servinfo->swap(tmp); return 0; } } int PASCAL FAR CNetwork::getprotobynumber(CProtocolInfo* protoinfo, int proto) { assert(protoinfo != NULL); // single threaded access to netdb functions CLock lock(s_networkMutex); struct protoent FAR* info = ::getprotobynumber(proto); if (info == NULL) { return -1; } else { CProtocolInfo tmp(info); protoinfo->swap(tmp); return 0; } } int PASCAL FAR CNetwork::getprotobyname(CProtocolInfo* protoinfo, const char FAR * name) { assert(protoinfo != NULL); // single threaded access to netdb functions CLock lock(s_networkMutex); struct protoent FAR* info = ::getprotobyname(name); if (info == NULL) { return -1; } else { CProtocolInfo tmp(info); protoinfo->swap(tmp); return 0; } } int PASCAL FAR CNetwork::setblocking(CNetwork::Socket s, bool blocking) { int mode = fcntl(s, F_GETFL, 0); if (mode == -1) { return -1; } if (blocking) { mode &= ~O_NDELAY; } else { mode |= O_NDELAY; } if (fcntl(s, F_SETFL, mode) < 0) { return -1; } return 0; } int PASCAL FAR CNetwork::setnodelay(CNetwork::Socket s, bool nodelay) { int flag = nodelay ? 1 : 0; setsockopt(s, IPPROTO_TCP, TCP_NODELAY, &flag, sizeof(flag)); } #endif #if WINDOWS_LIKE || !HAVE_POLL #if HAVE_SYS_SELECT_H # include #endif #if HAVE_SYS_TIME_H # include #endif #if HAVE_SYS_TYPES_H # include #endif #if HAVE_UNISTD_H # include #endif int PASCAL FAR CNetwork::poll2(PollEntry fd[], int nfds, int timeout) { int i; // prepare sets for select int n = 0; fd_set readSet, writeSet, errSet; fd_set* readSetP = NULL; fd_set* writeSetP = NULL; fd_set* errSetP = NULL; FD_ZERO(&readSet); FD_ZERO(&writeSet); FD_ZERO(&errSet); for (i = 0; i < nfds; ++i) { if (fd[i].events & kPOLLIN) { FD_SET(fd[i].fd, &readSet); readSetP = &readSet; if (fd[i].fd > n) { n = fd[i].fd; } } if (fd[i].events & kPOLLOUT) { FD_SET(fd[i].fd, &writeSet); writeSetP = &writeSet; if (fd[i].fd > n) { n = fd[i].fd; } } if (true) { FD_SET(fd[i].fd, &errSet); errSetP = &errSet; if (fd[i].fd > n) { n = fd[i].fd; } } } // prepare timeout for select struct timeval timeout2; struct timeval* timeout2P; if (timeout < 0) { timeout2P = NULL; } else { timeout2P = &timeout2; timeout2.tv_sec = timeout / 1000; timeout2.tv_usec = 1000 * (timeout % 1000); } // do the select. note that winsock ignores the first argument. n = select((SELECT_TYPE_ARG1) n + 1, SELECT_TYPE_ARG234 readSetP, SELECT_TYPE_ARG234 writeSetP, SELECT_TYPE_ARG234 errSetP, SELECT_TYPE_ARG5 timeout2P); // handle results if (n == Error) { return Error; } if (n == 0) { return 0; } n = 0; for (i = 0; i < nfds; ++i) { fd[i].revents = 0; if (FD_ISSET(fd[i].fd, &readSet)) { fd[i].revents |= kPOLLIN; } if (FD_ISSET(fd[i].fd, &writeSet)) { fd[i].revents |= kPOLLOUT; } if (FD_ISSET(fd[i].fd, &errSet)) { fd[i].revents |= kPOLLERR; } if (fd[i].revents != 0) { ++n; } } return n; } #endif // // CNetwork::CHostInfo // CNetwork::CHostInfo::CHostInfo(const struct hostent* hent) { assert(hent != NULL); m_name = hent->h_name; m_addressType = hent->h_addrtype; m_addressLength = hent->h_length; for (char** scan = hent->h_aliases; *scan != NULL; ++scan) { m_aliases.push_back(*scan); } // concatenate addresses together UInt32 n = 0; for (char** scan = hent->h_addr_list; *scan != NULL; ++scan) { ++n; } m_addressData.reserve(n); for (char** scan = hent->h_addr_list; *scan != NULL; ++scan) { m_addressData.append(*scan, m_addressLength); } // set pointers into concatenated data const char* data = m_addressData.data(); for (char** scan = hent->h_addr_list; *scan != NULL; ++scan) { m_addresses.push_back(data); data += m_addressLength; } } void CNetwork::CHostInfo::swap(CHostInfo& v) { std::swap(m_name, v.m_name); std::swap(m_aliases, v.m_aliases); std::swap(m_addressType, v.m_addressType); std::swap(m_addressLength, v.m_addressLength); std::swap(m_addresses, v.m_addresses); std::swap(m_addressData, v.m_addressData); } // // CNetwork::CServiceInfo // CNetwork::CServiceInfo::CServiceInfo(const struct servent* sent) { assert(sent != NULL); m_name = sent->s_name; m_port = sent->s_port; m_protocol = sent->s_proto; for (char** scan = sent->s_aliases; *scan != NULL; ++scan) { m_aliases.push_back(*scan); } } void CNetwork::CServiceInfo::swap(CServiceInfo& v) { std::swap(m_name, v.m_name); std::swap(m_aliases, v.m_aliases); std::swap(m_port, v.m_port); std::swap(m_protocol, v.m_protocol); } // // CNetwork::CProtocolInfo // CNetwork::CProtocolInfo::CProtocolInfo(const struct protoent* pent) { assert(pent != NULL); m_name = pent->p_name; m_protocol = pent->p_proto; for (char** scan = pent->p_aliases; *scan != NULL; ++scan) { m_aliases.push_back(*scan); } } void CNetwork::CProtocolInfo::swap(CProtocolInfo& v) { std::swap(m_name, v.m_name); std::swap(m_aliases, v.m_aliases); std::swap(m_protocol, v.m_protocol); }