/************************************************************************* * * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * Copyright 2000, 2010 Oracle and/or its affiliates. * * OpenOffice.org - a multi-platform office productivity suite * * This file is part of OpenOffice.org. * * OpenOffice.org is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License version 3 * only, as published by the Free Software Foundation. * * OpenOffice.org 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 Lesser General Public License version 3 for more details * (a copy is included in the LICENSE file that accompanied this code). * * You should have received a copy of the GNU Lesser General Public License * version 3 along with OpenOffice.org. If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_sal.hxx" #include "system.h" #include #include #include #include "sockimpl.h" extern "C" { /* defines for shutdown */ #ifdef GCC # define SD_RECEIVE 0 # define SD_SEND 1 # define SD_BOTH 2 #endif /* oslSocketAddr is a pointer to a Berkeley struct sockaddr. I refrained from using sockaddr_in because of possible further extensions of this socket-interface (IP-NG?). The intention was to hide all Berkeley data-structures from direct access past the osl-interface. The current implementation is internet (IP) centered. All the constructor-functions (osl_create...) take parameters that will probably make sense only in the IP-environment (e.g. because of using the dotted-Addr-format). If the interface will be extended to host other protocol- families, I expect no externally visible changes in the existing functions. You'll probably need only new constructor-functions who take the different Addr formats into consideration (maybe a long dotted Addr or whatever). */ /* _Note_ that I rely on the fact that oslSocketAddr and struct sockaddr are the same! I don't like it very much but see no other easy way to conceal the struct sockaddr from the eyes of the user. */ #define OSL_INVALID_SOCKET INVALID_SOCKET /* WIN32 */ #define OSL_SOCKET_ERROR SOCKET_ERROR /* WIN32 */ /*****************************************************************************/ /* enum oslAddrFamily */ /*****************************************************************************/ /* map */ static DWORD FamilyMap[]= { AF_INET, /* osl_Socket_FamilyInet */ AF_IPX, /* osl_Socket_FamilyIpx */ 0 /* osl_Socket_FamilyInvalid */ }; /* reverse map */ static oslAddrFamily osl_AddrFamilyFromNative(DWORD nativeType) { oslAddrFamily i= (oslAddrFamily) 0; while(i != osl_Socket_FamilyInvalid) { if(FamilyMap[i] == nativeType) return i; i = (oslAddrFamily) ( (int)i + 1); } return i; } /* macros */ #define FAMILY_FROM_NATIVE(y) osl_AddrFamilyFromNative(y) #define FAMILY_TO_NATIVE(x) (short)FamilyMap[x] /*****************************************************************************/ /* enum oslProtocol */ /*****************************************************************************/ /* map */ static DWORD ProtocolMap[]= { 0, /* osl_Socket_FamilyInet */ NSPROTO_IPX, /* osl_Socket_FamilyIpx */ NSPROTO_SPX, /* osl_Socket_ProtocolSpx */ NSPROTO_SPXII, /* osl_Socket_ProtocolSpx_ii */ 0 /* osl_Socket_ProtocolInvalid */ }; /* macros */ #define PROTOCOL_FROM_NATIVE(y) osl_ProtocolFromNative(y) #define PROTOCOL_TO_NATIVE(x) ProtocolMap[x] /*****************************************************************************/ /* enum oslSocketType */ /*****************************************************************************/ /* map */ static DWORD TypeMap[]= { SOCK_STREAM, /* osl_Socket_TypeStream */ SOCK_DGRAM, /* osl_Socket_TypeDgram */ SOCK_RAW, /* osl_Socket_TypeRaw */ SOCK_RDM, /* osl_Socket_TypeRdm */ SOCK_SEQPACKET, /* osl_Socket_TypeSeqPacket */ 0 /* osl_Socket_TypeInvalid */ }; /* reverse map */ static oslSocketType osl_SocketTypeFromNative(DWORD nativeType) { oslSocketType i= (oslSocketType)0; while(i != osl_Socket_TypeInvalid) { if(TypeMap[i] == nativeType) return i; i = (oslSocketType)((int)i+1); } return i; } /* macros */ #define TYPE_TO_NATIVE(x) TypeMap[x] #define TYPE_FROM_NATIVE(y) osl_SocketTypeFromNative(y) /*****************************************************************************/ /* enum oslSocketOption */ /*****************************************************************************/ /* map */ static DWORD OptionMap[]= { SO_DEBUG, /* osl_Socket_OptionDebug */ SO_ACCEPTCONN, /* osl_Socket_OptionAcceptConn */ SO_REUSEADDR, /* osl_Socket_OptionReuseAddr */ SO_KEEPALIVE, /* osl_Socket_OptionKeepAlive */ SO_DONTROUTE, /* osl_Socket_OptionDontRoute */ SO_BROADCAST, /* osl_Socket_OptionBroadcast */ SO_USELOOPBACK, /* osl_Socket_OptionUseLoopback */ SO_LINGER, /* osl_Socket_OptionLinger */ SO_OOBINLINE, /* osl_Socket_OptionOOBinLine */ SO_SNDBUF, /* osl_Socket_OptionSndBuf */ SO_RCVBUF, /* osl_Socket_OptionRcvBuf */ SO_SNDLOWAT, /* osl_Socket_OptionSndLowat */ SO_RCVLOWAT, /* osl_Socket_OptionRcvLowat */ SO_SNDTIMEO, /* osl_Socket_OptionSndTimeo */ SO_RCVTIMEO, /* osl_Socket_OptionRcvTimeo */ SO_ERROR, /* osl_Socket_OptionError */ SO_TYPE, /* osl_Socket_OptionType */ TCP_NODELAY, /* osl_Socket_OptionTcpNoDelay */ 0 /* osl_Socket_OptionInvalid */ }; /* macros */ #define OPTION_TO_NATIVE(x) OptionMap[x] #define OPTION_FROM_NATIVE(y) osl_SocketOptionFromNative(y) /*****************************************************************************/ /* enum oslSocketOptionLevel */ /*****************************************************************************/ static DWORD OptionLevelMap[]= { SOL_SOCKET, /* osl_Socket_LevelSocket */ IPPROTO_TCP, /* osl_Socket_LevelTcp */ 0 /* osl_invalid_SocketLevel */ }; /* macros */ #define OPTION_LEVEL_TO_NATIVE(x) OptionLevelMap[x] #define OPTION_LEVEL_FROM_NATIVE(y) osl_SocketOptionLevelFromNative(y) /*****************************************************************************/ /* enum oslSocketMsgFlag */ /*****************************************************************************/ static DWORD SocketMsgFlagMap[]= { 0, /* osl_Socket_MsgNormal */ MSG_OOB, /* osl_Socket_MsgOOB */ MSG_PEEK, /* osl_Socket_MsgPeek */ MSG_DONTROUTE, /* osl_Socket_MsgDontRoute */ MSG_MAXIOVLEN /* osl_Socket_MsgMaxIOVLen */ }; /* macros */ #define MSG_FLAG_TO_NATIVE(x) SocketMsgFlagMap[x] #define MSG_FLAG_FROM_NATIVE(y) osl_SocketMsgFlagFromNative(y) /*****************************************************************************/ /* enum oslSocketDirection */ /*****************************************************************************/ static DWORD SocketDirection[]= { SD_RECEIVE, /* osl_Socket_DirRead */ SD_SEND, /* osl_Socket_DirWrite */ SD_BOTH /* osl_Socket_DirReadwrite */ }; /* macros */ #define DIRECTION_TO_NATIVE(x) SocketDirection[x] #define DIRECTION_FROM_NATIVE(y) osl_SocketDirectionFromNative(y) /*****************************************************************************/ /* enum oslSocketError */ /*****************************************************************************/ static int SocketError[]= { 0, /* no error */ WSAENOTSOCK, /* Socket operation on non-socket */ WSAEDESTADDRREQ, /* Destination address required */ WSAEMSGSIZE, /* Message too long */ WSAEPROTOTYPE, /* Protocol wrong type for socket */ WSAENOPROTOOPT, /* Protocol not available */ WSAEPROTONOSUPPORT, /* Protocol not supported */ WSAESOCKTNOSUPPORT, /* Socket type not supported */ WSAEOPNOTSUPP, /* Operation not supported on socket */ WSAEPFNOSUPPORT, /* Protocol family not supported */ WSAEAFNOSUPPORT, /* Address family not supported by */ /* protocol family */ WSAEADDRINUSE, /* Address already in use */ WSAEADDRNOTAVAIL, /* Can't assign requested address */ WSAENETDOWN, /* Network is down */ WSAENETUNREACH, /* Network is unreachable */ WSAENETRESET, /* Network dropped connection because */ /* of reset */ WSAECONNABORTED, /* Software caused connection abort */ WSAECONNRESET, /* Connection reset by peer */ WSAENOBUFS, /* No buffer space available */ WSAEISCONN, /* Socket is already connected */ WSAENOTCONN, /* Socket is not connected */ WSAESHUTDOWN, /* Can't send after socket shutdown */ WSAETOOMANYREFS, /* Too many references: can't splice */ WSAETIMEDOUT, /* Connection timed out */ WSAECONNREFUSED, /* Connection refused */ WSAEHOSTDOWN, /* Host is down */ WSAEHOSTUNREACH, /* No route to host */ WSAEWOULDBLOCK, /* call would block on non-blocking socket */ WSAEALREADY, /* operation already in progress */ WSAEINPROGRESS /* operation now in progress */ }; /* reverse map */ static oslSocketError osl_SocketErrorFromNative(int nativeType) { oslSocketError i= (oslSocketError)0; while(i != osl_Socket_E_InvalidError) { if(SocketError[i] == nativeType) return i; i = (oslSocketError)( (int) i + 1); } return i; } /* macros */ #define ERROR_TO_NATIVE(x) SocketError[x] #define ERROR_FROM_NATIVE(y) osl_SocketErrorFromNative(y) /*****************************************************************************/ /* oslSocketDialupImpl */ /*****************************************************************************/ static oslSocketDialupImpl *pDialupImpl = NULL; #if 0 /* INTERNAL DEBUG ONLY */ BOOL WINAPI __osl_autodial_Impl (DWORD dwFlags, DWORD dwReserved) { return 0; } BOOL WINAPI __osl_autodialHangup_Impl (DWORD dwReserved) { return 1; } BOOL WINAPI __osl_getConnectedState_Impl (LPDWORD lpdwFlags, DWORD dwReserved) { if (lpdwFlags) *lpdwFlags = 0; return 0; } #endif /* INTERNAL DEBUG ONLY */ /* * __osl_createSocketDialupImpl. */ static oslSocketDialupImpl* __osl_createSocketDialupImpl (void) { oslSocketDialupImpl *pImpl; pImpl = (oslSocketDialupImpl*)rtl_allocateZeroMemory( sizeof (oslSocketDialupImpl)); InitializeCriticalSection (&pImpl->m_hMutex); return (pImpl); } /* * __osl_initSocketDialupImpl. */ static void __osl_initSocketDialupImpl (oslSocketDialupImpl *pImpl) { #ifdef SOCKET_USE_AUTODIAL if (pImpl) { HINSTANCE hModule; EnterCriticalSection (&pImpl->m_hMutex); hModule = LoadLibrary (INTERNET_MODULE_NAME); if (!(hModule <= (HINSTANCE)HINSTANCE_ERROR)) { pImpl->m_pfnAttemptConnect = (INTERNETATTEMPTCONNECT) (GetProcAddress (hModule, "InternetAttemptConnect")); pImpl->m_pfnAutodial = (INTERNETAUTODIAL) (GetProcAddress (hModule, "InternetAutodial")); pImpl->m_pfnAutodialHangup = (INTERNETAUTODIALHANGUP) (GetProcAddress (hModule, "InternetAutodialHangup")); pImpl->m_pfnGetConnectedState = (INTERNETGETCONNECTEDSTATE) (GetProcAddress (hModule, "InternetGetConnectedState")); pImpl->m_hModule = hModule; } LeaveCriticalSection (&pImpl->m_hMutex); } #else pImpl = pImpl; /* avoid warnings */ #endif } /* * __osl_destroySocketDialupImpl. */ static void __osl_destroySocketDialupImpl (oslSocketDialupImpl *pImpl) { if (pImpl) { EnterCriticalSection (&pImpl->m_hMutex); if (pImpl->m_dwFlags & INTERNET_CONNECTION_HANGUP) { if (pImpl->m_pfnAutodialHangup) { (pImpl->m_pfnAutodialHangup)(0); pImpl->m_dwFlags &= ~INTERNET_CONNECTION_HANGUP; } } if (pImpl->m_hModule) FreeLibrary (pImpl->m_hModule); LeaveCriticalSection (&pImpl->m_hMutex); DeleteCriticalSection (&pImpl->m_hMutex); rtl_freeMemory (pImpl); } } /* * __osl_querySocketDialupImpl. */ static sal_Bool __osl_querySocketDialupImpl (void) { sal_Bool result; if (pDialupImpl == NULL) { pDialupImpl = __osl_createSocketDialupImpl(); __osl_initSocketDialupImpl (pDialupImpl); } EnterCriticalSection (&pDialupImpl->m_hMutex); result = sal_True; if (pDialupImpl->m_pfnGetConnectedState) { DWORD dwFlags = 0; result = (sal_Bool)(pDialupImpl->m_pfnGetConnectedState)(&dwFlags, 0); pDialupImpl->m_dwFlags |= dwFlags; } LeaveCriticalSection (&pDialupImpl->m_hMutex); return (result); } /* * __osl_attemptSocketDialupImpl. */ static sal_Bool __osl_attemptSocketDialupImpl (void) { sal_Bool result; if (pDialupImpl == NULL) { pDialupImpl = __osl_createSocketDialupImpl(); __osl_initSocketDialupImpl (pDialupImpl); } EnterCriticalSection (&pDialupImpl->m_hMutex); result = __osl_querySocketDialupImpl(); if (!result) { result = sal_True; if (pDialupImpl->m_pfnAutodial) { result = (sal_Bool)(pDialupImpl->m_pfnAutodial)(0, 0); if (result) pDialupImpl->m_dwFlags |= INTERNET_CONNECTION_HANGUP; else WSASetLastError (WSAENETDOWN); } } LeaveCriticalSection (&pDialupImpl->m_hMutex); return (result); } /*****************************************************************************/ /* oslSocketImpl */ /*****************************************************************************/ static sal_uInt32 g_nSocketImpl = 0; #if OSL_DEBUG_LEVEL > 1 static sal_uInt32 g_nSocketAddr = 0; struct LeakWarning { ~LeakWarning() { if( g_nSocketImpl ) OSL_TRACE( "sal_socket: %d socket instances leak\n" , g_nSocketImpl ); if( g_nSocketAddr ) OSL_TRACE( "sal_socket: %d socket address instances leak\n" , g_nSocketAddr ); } }; LeakWarning socketWarning; #endif /* * __osl_createSocketImpl. */ oslSocket __osl_createSocketImpl(SOCKET Socket) { oslSocket pSockImpl = (oslSocket) rtl_allocateZeroMemory( sizeof(struct oslSocketImpl)); pSockImpl->m_Socket = Socket; pSockImpl->m_nRefCount = 1; g_nSocketImpl++; return (pSockImpl); } /* * __osl_destroySocketImpl. */ void __osl_destroySocketImpl(oslSocketImpl *pImpl) { if (pImpl) { if (--g_nSocketImpl == 0) { __osl_destroySocketDialupImpl (pDialupImpl); pDialupImpl = NULL; } rtl_freeMemory (pImpl); } } /*****************************************************************************/ static oslSocketAddr __osl_createSocketAddr( ) { oslSocketAddr pAddr = (oslSocketAddr) rtl_allocateZeroMemory( sizeof( struct oslSocketAddrImpl )); pAddr->m_nRefCount = 1; #if OSL_DEBUG_LEVEL > 1 g_nSocketAddr ++; #endif return pAddr; } static oslSocketAddr __osl_createSocketAddrWithFamily( oslAddrFamily family, sal_Int32 port, sal_uInt32 nAddr ) { OSL_ASSERT( family == osl_Socket_FamilyInet ); oslSocketAddr pAddr = __osl_createSocketAddr(); switch( family ) { case osl_Socket_FamilyInet: { struct sockaddr_in* pInetAddr= (struct sockaddr_in*)&(pAddr->m_sockaddr); pInetAddr->sin_family = FAMILY_TO_NATIVE(osl_Socket_FamilyInet); pInetAddr->sin_addr.s_addr = nAddr; pInetAddr->sin_port = (sal_uInt16)(port&0xffff); break; } default: pAddr->m_sockaddr.sa_family = FAMILY_TO_NATIVE(family); } return pAddr; } static oslSocketAddr __osl_createSocketAddrFromSystem( struct sockaddr *pSystemSockAddr ) { oslSocketAddr pAddr = __osl_createSocketAddr(); memcpy( &(pAddr->m_sockaddr), pSystemSockAddr, sizeof( sockaddr ) ); return pAddr; } static void __osl_destroySocketAddr( oslSocketAddr addr ) { #if OSL_DEBUG_LEVEL > 1 g_nSocketAddr --; #endif rtl_freeMemory( addr ); } /*****************************************************************************/ /* osl_createEmptySocketAddr */ /*****************************************************************************/ oslSocketAddr SAL_CALL osl_createEmptySocketAddr(oslAddrFamily Family) { oslSocketAddr pAddr = 0; /* is it an internet-Addr? */ if (Family == osl_Socket_FamilyInet) { pAddr = __osl_createSocketAddrWithFamily(Family, 0 , htonl(INADDR_ANY) ); } else { pAddr = __osl_createSocketAddrWithFamily( Family , 0 , 0 ); } return pAddr; } /*****************************************************************************/ /* osl_copySocketAddr */ /*****************************************************************************/ // @deprecated, to be removed oslSocketAddr SAL_CALL osl_copySocketAddr(oslSocketAddr Addr) { oslSocketAddr pCopy = 0; if (Addr) { pCopy = __osl_createSocketAddr(); if (pCopy) memcpy(&(pCopy->m_sockaddr),&(Addr->m_sockaddr), sizeof(struct sockaddr)); } return pCopy; } /*****************************************************************************/ /* osl_isEqualSocketAddr */ /*****************************************************************************/ sal_Bool SAL_CALL osl_isEqualSocketAddr(oslSocketAddr Addr1, oslSocketAddr Addr2) { struct sockaddr* pAddr1= &(Addr1->m_sockaddr); struct sockaddr* pAddr2= &(Addr2->m_sockaddr); OSL_ASSERT(pAddr1); OSL_ASSERT(pAddr2); if (pAddr1->sa_family == pAddr2->sa_family) { switch (pAddr1->sa_family) { case AF_INET: { struct sockaddr_in* pInetAddr1= (struct sockaddr_in*)pAddr1; struct sockaddr_in* pInetAddr2= (struct sockaddr_in*)pAddr2; if ((pInetAddr1->sin_family == pInetAddr2->sin_family) && (pInetAddr1->sin_addr.s_addr == pInetAddr2->sin_addr.s_addr) && (pInetAddr1->sin_port == pInetAddr2->sin_port)) return (sal_True); } default: { return (memcmp(pAddr1, Addr2, sizeof(struct sockaddr)) == 0); } } } return (sal_False); } /*****************************************************************************/ /* osl_createInetBroadcastAddr */ /*****************************************************************************/ oslSocketAddr SAL_CALL osl_createInetBroadcastAddr ( rtl_uString *strDottedAddr, sal_Int32 Port) { sal_uInt32 nAddr = OSL_INADDR_NONE; if (strDottedAddr && strDottedAddr->length) { /* Dotted host address for limited broadcast */ rtl_String *pDottedAddr = NULL; rtl_uString2String ( &pDottedAddr, strDottedAddr->buffer, strDottedAddr->length, RTL_TEXTENCODING_UTF8, OUSTRING_TO_OSTRING_CVTFLAGS); nAddr = inet_addr (pDottedAddr->buffer); rtl_string_release (pDottedAddr); } if (nAddr != OSL_INADDR_NONE) { /* Limited broadcast */ nAddr = ntohl(nAddr); if (IN_CLASSA(nAddr)) { nAddr &= IN_CLASSA_NET; nAddr |= IN_CLASSA_HOST; } else if (IN_CLASSB(nAddr)) { nAddr &= IN_CLASSB_NET; nAddr |= IN_CLASSB_HOST; } else if (IN_CLASSC(nAddr)) { nAddr &= IN_CLASSC_NET; nAddr |= IN_CLASSC_HOST; } else { /* No broadcast in class D */ return ((oslSocketAddr)NULL); } nAddr = htonl(nAddr); } oslSocketAddr pAddr = __osl_createSocketAddrWithFamily( osl_Socket_FamilyInet, htons( (sal_uInt16) Port), nAddr ); return pAddr; } /*****************************************************************************/ /* osl_createInetSocketAddr */ /*****************************************************************************/ oslSocketAddr SAL_CALL osl_createInetSocketAddr ( rtl_uString *strDottedAddr, sal_Int32 Port) { DWORD Addr; rtl_String *pDottedAddr=NULL; rtl_uString2String( &pDottedAddr, strDottedAddr->buffer, strDottedAddr->length, RTL_TEXTENCODING_UTF8, OUSTRING_TO_OSTRING_CVTFLAGS); Addr= inet_addr (pDottedAddr->buffer); rtl_string_release (pDottedAddr); oslSocketAddr pAddr = 0; if(Addr != -1) { pAddr = __osl_createSocketAddrWithFamily( osl_Socket_FamilyInet, htons( (sal_uInt16)Port), Addr ); } return pAddr; } oslSocketResult SAL_CALL osl_setAddrOfSocketAddr( oslSocketAddr pAddr, sal_Sequence *pByteSeq ) { OSL_ASSERT( pAddr ); OSL_ASSERT( pByteSeq ); oslSocketResult res = osl_Socket_Error; if( pAddr && pByteSeq ) { OSL_ASSERT( pAddr->m_sockaddr.sa_family == FAMILY_TO_NATIVE( osl_Socket_FamilyInet ) ); OSL_ASSERT( pByteSeq->nElements == 4 ); struct sockaddr_in * pSystemInetAddr = (struct sockaddr_in * ) &(pAddr->m_sockaddr); memcpy( &(pSystemInetAddr->sin_addr) , pByteSeq->elements , 4 ); res = osl_Socket_Ok; } return res; } /** Returns the addr field in the struct sockaddr. ppByteSeq is in network byteorder. *ppByteSeq may either be 0 or contain a constructed sal_Sequence. */ oslSocketResult SAL_CALL osl_getAddrOfSocketAddr( oslSocketAddr pAddr, sal_Sequence **ppByteSeq ) { OSL_ASSERT( pAddr ); OSL_ASSERT( ppByteSeq ); oslSocketResult res = osl_Socket_Error; if( pAddr && ppByteSeq ) { struct sockaddr_in * pSystemInetAddr = (struct sockaddr_in * ) &(pAddr->m_sockaddr); rtl_byte_sequence_constructFromArray( ppByteSeq , (sal_Int8 *) &(pSystemInetAddr->sin_addr),4); res = osl_Socket_Ok; } return res; } /*****************************************************************************/ /* oslHostAddr */ /*****************************************************************************/ struct oslHostAddrImpl { rtl_uString *pHostName; oslSocketAddr pSockAddr; } ; static oslHostAddr __osl_hostentToHostAddr (const struct hostent *he) { oslHostAddr pAddr= NULL; oslSocketAddr pSocketAddr = 0; rtl_uString *cn= NULL; if ((he == NULL) || (he->h_name == NULL) || (he->h_addr_list[0] == NULL)) return ((oslHostAddr)NULL); rtl_string2UString( &cn, he->h_name, strlen(he->h_name), RTL_TEXTENCODING_UTF8, OUSTRING_TO_OSTRING_CVTFLAGS); OSL_ASSERT(cn != 0); pSocketAddr = __osl_createSocketAddr(); if (pSocketAddr == NULL) { rtl_uString_release(cn); return ((oslHostAddr)NULL); } pSocketAddr->m_sockaddr.sa_family = he->h_addrtype; if (pSocketAddr->m_sockaddr.sa_family == FAMILY_TO_NATIVE(osl_Socket_FamilyInet)) { struct sockaddr_in *sin= (struct sockaddr_in *)&(pSocketAddr->m_sockaddr); memcpy ( &(sin->sin_addr.s_addr), he->h_addr_list[0], he->h_length); } else { /* unknown address family */ /* future extensions for new families might be implemented here */ OSL_TRACE("_osl_hostentToHostAddr(): unknown address family.\n"); OSL_ASSERT(sal_False); __osl_destroySocketAddr( pSocketAddr ); rtl_uString_release(cn); return ((oslHostAddr)NULL); } pAddr= (oslHostAddr )rtl_allocateMemory (sizeof (struct oslHostAddrImpl)); if (pAddr == NULL) { __osl_destroySocketAddr( pSocketAddr ); rtl_uString_release(cn); return ((oslHostAddr)NULL); } pAddr->pHostName= cn; pAddr->pSockAddr= pSocketAddr; return pAddr; } /*****************************************************************************/ /* osl_createHostAddr */ /*****************************************************************************/ oslHostAddr SAL_CALL osl_createHostAddr ( rtl_uString *strHostname, const oslSocketAddr pSocketAddr) { oslHostAddr pAddr; rtl_uString *cn= NULL; if ((strHostname == NULL) || (strHostname->length == 0) || (pSocketAddr == NULL)) return ((oslHostAddr)NULL); rtl_uString_newFromString( &cn, strHostname); if ( ! pSocketAddr ) { rtl_uString_release(cn); return ((oslHostAddr)NULL); } pAddr= (oslHostAddr)rtl_allocateMemory (sizeof (struct oslHostAddrImpl)); if (pAddr == NULL) { rtl_uString_release(cn); return ((oslHostAddr)NULL); } pAddr->pHostName= cn; pAddr->pSockAddr= osl_copySocketAddr( pSocketAddr ); return ((oslHostAddr)pAddr); } /*****************************************************************************/ /* osl_createHostAddrByName */ /*****************************************************************************/ oslHostAddr SAL_CALL osl_createHostAddrByName(rtl_uString *strHostname) { if ((strHostname == NULL) || (strHostname->length == 0)) return ((oslHostAddr)NULL); if (__osl_attemptSocketDialupImpl()) { struct hostent *he; rtl_String *Hostname= NULL; rtl_uString2String( &Hostname, strHostname->buffer, strHostname->length, RTL_TEXTENCODING_UTF8, OUSTRING_TO_OSTRING_CVTFLAGS); he= gethostbyname (Hostname->buffer); rtl_string_release (Hostname); return __osl_hostentToHostAddr (he); } return ((oslHostAddr)NULL); } /*****************************************************************************/ /* osl_createHostAddrByAddr */ /*****************************************************************************/ oslHostAddr SAL_CALL osl_createHostAddrByAddr(const oslSocketAddr pAddr) { if (pAddr == NULL) return ((oslHostAddr)NULL); if (pAddr->m_sockaddr.sa_family == FAMILY_TO_NATIVE(osl_Socket_FamilyInet)) { const struct sockaddr_in *sin= (const struct sockaddr_in *)&(pAddr->m_sockaddr); if (sin->sin_addr.s_addr == htonl(INADDR_ANY)) return ((oslHostAddr)NULL); if (__osl_attemptSocketDialupImpl()) { struct hostent *he; he= gethostbyaddr ((const sal_Char *)&(sin->sin_addr), sizeof (sin->sin_addr), sin->sin_family); return __osl_hostentToHostAddr (he); } } return ((oslHostAddr)NULL); } /*****************************************************************************/ /* osl_copyHostAddr */ /*****************************************************************************/ oslHostAddr SAL_CALL osl_copyHostAddr(const oslHostAddr Addr) { oslHostAddr pAddr= (oslHostAddr)Addr; if (pAddr) return osl_createHostAddr (pAddr->pHostName, pAddr->pSockAddr); else return ((oslHostAddr)NULL); } /*****************************************************************************/ /* osl_getHostnameOfHostAddr */ /*****************************************************************************/ void SAL_CALL osl_getHostnameOfHostAddr( const oslHostAddr pAddr, rtl_uString **strHostname) { if (pAddr) rtl_uString_assign (strHostname, pAddr->pHostName); else rtl_uString_new (strHostname); } /*****************************************************************************/ /* osl_getSocketAddrOfHostAddr */ /*****************************************************************************/ oslSocketAddr SAL_CALL osl_getSocketAddrOfHostAddr(const oslHostAddr pAddr) { if (pAddr) return (const oslSocketAddr)(pAddr->pSockAddr); else return NULL; } /*****************************************************************************/ /* osl_destroyHostAddr */ /*****************************************************************************/ void SAL_CALL osl_destroyHostAddr(oslHostAddr pAddr) { if (pAddr) { if (pAddr->pHostName) rtl_uString_release (pAddr->pHostName); if (pAddr->pSockAddr) osl_destroySocketAddr( pAddr->pSockAddr ); rtl_freeMemory (pAddr); } } /*****************************************************************************/ /* osl_getLocalHostname */ /*****************************************************************************/ oslSocketResult SAL_CALL osl_getLocalHostname (rtl_uString **strLocalHostname) { static sal_Unicode LocalHostname[256] = {0}; if (rtl_ustr_getLength(LocalHostname) == 0) { sal_Char Host[256]= ""; if (gethostname(Host, sizeof(Host)) == 0) { /* check if we have an FQDN */ if (strchr(Host, '.') == NULL) { oslHostAddr pAddr; rtl_uString *hostName= NULL; rtl_string2UString( &hostName, Host, strlen(Host), RTL_TEXTENCODING_UTF8, OUSTRING_TO_OSTRING_CVTFLAGS); OSL_ASSERT(hostName != 0); /* no, determine it via dns */ pAddr = osl_createHostAddrByName(hostName); rtl_uString_release (hostName); if (pAddr && pAddr->pHostName) memcpy(LocalHostname, pAddr->pHostName->buffer, sizeof(sal_Unicode)*(rtl_ustr_getLength(pAddr->pHostName->buffer)+1)); else memset(LocalHostname, 0, sizeof(LocalHostname)); osl_destroyHostAddr ((oslHostAddr)pAddr); } } } if (rtl_ustr_getLength(LocalHostname) > 0) { rtl_uString_newFromStr (strLocalHostname, LocalHostname); return osl_Socket_Ok; } return osl_Socket_Error; } /*****************************************************************************/ /* osl_resolveHostname */ /*****************************************************************************/ oslSocketAddr SAL_CALL osl_resolveHostname(rtl_uString* strHostname) { oslHostAddr pAddr= (oslHostAddr )osl_createHostAddrByName (strHostname); if (pAddr) { oslSocketAddr SockAddr = osl_copySocketAddr( pAddr->pSockAddr ); osl_destroyHostAddr(pAddr); return (SockAddr); } return ((oslSocketAddr)NULL); } /*****************************************************************************/ /* osl_getServicePort */ /*****************************************************************************/ sal_Int32 SAL_CALL osl_getServicePort ( rtl_uString* strServicename, rtl_uString* strProtocol) { struct servent* ps; rtl_String *str_Servicename=NULL; rtl_String *str_Protocol=NULL; rtl_uString2String( &str_Servicename, rtl_uString_getStr(strServicename), rtl_uString_getLength(strServicename), RTL_TEXTENCODING_UTF8, OUSTRING_TO_OSTRING_CVTFLAGS); rtl_uString2String( &str_Protocol, rtl_uString_getStr(strProtocol), rtl_uString_getLength(strProtocol), RTL_TEXTENCODING_UTF8, OUSTRING_TO_OSTRING_CVTFLAGS); ps= getservbyname( rtl_string_getStr(str_Servicename), rtl_string_getStr(str_Protocol)); rtl_string_release( str_Servicename ); rtl_string_release( str_Protocol ); if (ps != 0) return ntohs(ps->s_port); return OSL_INVALID_PORT; } /*****************************************************************************/ /* osl_destroySocketAddr */ /*****************************************************************************/ void SAL_CALL osl_destroySocketAddr(oslSocketAddr pAddr) { __osl_destroySocketAddr( pAddr ); } /*****************************************************************************/ /* osl_getFamilyOfSocketAddr */ /*****************************************************************************/ oslAddrFamily SAL_CALL osl_getFamilyOfSocketAddr(oslSocketAddr pAddr) { if (pAddr) return FAMILY_FROM_NATIVE(pAddr->m_sockaddr.sa_family); else return osl_Socket_FamilyInvalid; } /*****************************************************************************/ /* osl_getInetPortOfSocketAddr */ /*****************************************************************************/ sal_Int32 SAL_CALL osl_getInetPortOfSocketAddr(oslSocketAddr pAddr) { if( pAddr ) { struct sockaddr_in* pSystemInetAddr= (struct sockaddr_in*)&(pAddr->m_sockaddr); if ( (pSystemInetAddr->sin_family == FAMILY_TO_NATIVE(osl_Socket_FamilyInet))) return ntohs(pSystemInetAddr->sin_port); } return OSL_INVALID_PORT; } /*****************************************************************************/ /* osl_setInetPortOfSocketAddr */ /*****************************************************************************/ sal_Bool SAL_CALL osl_setInetPortOfSocketAddr ( oslSocketAddr pAddr, sal_Int32 Port) { if (pAddr == NULL) return sal_False; struct sockaddr_in* pSystemInetAddr= (struct sockaddr_in*)&(pAddr->m_sockaddr); if (pSystemInetAddr->sin_family != FAMILY_TO_NATIVE(osl_Socket_FamilyInet)) return sal_False; pSystemInetAddr->sin_port= htons((short)Port); return sal_True; } /*****************************************************************************/ /* osl_getHostnameOfSocketAddr */ /*****************************************************************************/ oslSocketResult SAL_CALL osl_getHostnameOfSocketAddr ( oslSocketAddr Addr, rtl_uString **strHostName) { oslHostAddr pAddr= osl_createHostAddrByAddr (Addr); if (pAddr) { rtl_uString_newFromString(strHostName, pAddr->pHostName); osl_destroyHostAddr(pAddr); return osl_Socket_Ok; } return osl_Socket_Error; } /*****************************************************************************/ /* osl_getDottedInetAddrOfSocketAddr */ /*****************************************************************************/ oslSocketResult SAL_CALL osl_getDottedInetAddrOfSocketAddr ( oslSocketAddr pAddr, rtl_uString **strDottedInetAddr) { sal_Char *pDotted; if (pAddr == NULL) return osl_Socket_Error; struct sockaddr_in *pSystemInetAddr = (struct sockaddr_in*) &(pAddr->m_sockaddr); if (pSystemInetAddr->sin_family != FAMILY_TO_NATIVE(osl_Socket_FamilyInet)) return osl_Socket_Error; pDotted = inet_ntoa (pSystemInetAddr->sin_addr); rtl_string2UString( strDottedInetAddr, pDotted, strlen (pDotted), RTL_TEXTENCODING_UTF8, OUSTRING_TO_OSTRING_CVTFLAGS); OSL_ASSERT(*strDottedInetAddr != 0); return osl_Socket_Ok; } /*****************************************************************************/ /* osl_createSocket */ /*****************************************************************************/ oslSocket SAL_CALL osl_createSocket ( oslAddrFamily Family, oslSocketType Type, oslProtocol Protocol) { /* alloc memory */ oslSocket pSocket = __osl_createSocketImpl(0); if (pSocket == NULL) return 0; /* create socket */ pSocket->m_Socket= socket(FAMILY_TO_NATIVE(Family), TYPE_TO_NATIVE(Type), PROTOCOL_TO_NATIVE(Protocol)); /* creation failed => free memory */ if(pSocket->m_Socket == OSL_INVALID_SOCKET) { __osl_destroySocketImpl(pSocket); pSocket= 0; } else { pSocket->m_Flags = 0; pSocket->m_CloseCallback = NULL; pSocket->m_CallbackArg = NULL; } return pSocket; } void SAL_CALL osl_acquireSocket( oslSocket pSocket ) { osl_incrementInterlockedCount( &(pSocket->m_nRefCount) ); } void SAL_CALL osl_releaseSocket( oslSocket pSocket ) { if( pSocket && 0 == osl_decrementInterlockedCount( &(pSocket->m_nRefCount) ) ) { osl_closeSocket( pSocket ); __osl_destroySocketImpl( pSocket ); } } /*****************************************************************************/ /* osl_closeSocket */ /*****************************************************************************/ void SAL_CALL osl_closeSocket(oslSocket pSocket) { /* socket already invalid */ if(pSocket==0) return; /* close */ closesocket(pSocket->m_Socket); pSocket->m_Socket = OSL_INVALID_SOCKET; /* registrierten Callback ausfuehren */ if (pSocket->m_CloseCallback != NULL) { pSocket->m_CloseCallback(pSocket->m_CallbackArg); } } /*****************************************************************************/ /* osl_getLocalAddrOfSocket */ /* Note that I rely on the fact that oslSocketAddr and struct sockaddr */ /* are the same! I don't like it very much but see no other easy way */ /* to conceal the struct sockaddr from the eyes of the user. */ /*****************************************************************************/ oslSocketAddr SAL_CALL osl_getLocalAddrOfSocket(oslSocket pSocket) { struct sockaddr Addr; int AddrLen; if (pSocket == NULL) /* ENOTSOCK */ return ((oslSocketAddr)NULL); AddrLen= sizeof(struct sockaddr); if (getsockname(pSocket->m_Socket, &Addr, &AddrLen) == OSL_SOCKET_ERROR) return ((oslSocketAddr)NULL); oslSocketAddr pAddr = __osl_createSocketAddrFromSystem( &Addr ); return pAddr; } /*****************************************************************************/ /* osl_getPeerAddrOfSocket */ /*****************************************************************************/ oslSocketAddr SAL_CALL osl_getPeerAddrOfSocket(oslSocket pSocket) { struct sockaddr Addr; int AddrLen; if (pSocket == NULL) /* ENOTSOCK */ return ((oslSocketAddr)NULL); AddrLen= sizeof(struct sockaddr); if (getpeername(pSocket->m_Socket, &Addr, &AddrLen) == OSL_SOCKET_ERROR) return ((oslSocketAddr)NULL); oslSocketAddr pAddr = __osl_createSocketAddrFromSystem( &Addr ); return pAddr; } /*****************************************************************************/ /* osl_bindAddrToSocket */ /*****************************************************************************/ sal_Bool SAL_CALL osl_bindAddrToSocket ( oslSocket pSocket, oslSocketAddr pAddr) { OSL_ASSERT( pAddr ); if (pSocket == NULL) /* ENOTSOCK */ return sal_False; return (bind(pSocket->m_Socket, &(pAddr->m_sockaddr), sizeof(struct sockaddr)) != OSL_SOCKET_ERROR); } /*****************************************************************************/ /* osl_connectSocketTo */ /*****************************************************************************/ oslSocketResult SAL_CALL osl_connectSocketTo ( oslSocket pSocket, oslSocketAddr pAddr, const TimeValue* pTimeout) { if (pSocket == NULL) /* ENOTSOCK */ return osl_Socket_Error; if (pAddr == NULL) /* EDESTADDRREQ */ return osl_Socket_Error; if (!__osl_attemptSocketDialupImpl()) /* ENETDOWN */ return osl_Socket_Error; if (pTimeout == NULL) { if(connect(pSocket->m_Socket, &(pAddr->m_sockaddr), sizeof(struct sockaddr)) == OSL_SOCKET_ERROR) return osl_Socket_Error; else return osl_Socket_Ok; } else { fd_set fds; int error; struct timeval tv; unsigned long Param; oslSocketResult Result= osl_Socket_Ok; if (pSocket->m_Flags & OSL_SOCKET_FLAGS_NONBLOCKING) { if (connect(pSocket->m_Socket, &(pAddr->m_sockaddr), sizeof(struct sockaddr)) == OSL_SOCKET_ERROR) { switch (WSAGetLastError()) { case WSAEWOULDBLOCK: case WSAEINPROGRESS: return osl_Socket_InProgress; default: return osl_Socket_Error; } } else return osl_Socket_Ok; } /* set socket temporarily to non-blocking */ Param= 1; OSL_VERIFY(ioctlsocket( pSocket->m_Socket, FIONBIO, &Param) != OSL_SOCKET_ERROR); /* initiate connect */ if (connect(pSocket->m_Socket, &(pAddr->m_sockaddr), sizeof(struct sockaddr)) != OSL_SOCKET_ERROR) { /* immediate connection */ Param= 0; ioctlsocket(pSocket->m_Socket, FIONBIO, &Param); return osl_Socket_Ok; } else { error = WSAGetLastError(); /* really an error or just delayed? */ if (error != WSAEWOULDBLOCK && error != WSAEINPROGRESS) { Param= 0; ioctlsocket(pSocket->m_Socket, FIONBIO, &Param); return osl_Socket_Error; } } /* prepare select set for socket */ FD_ZERO(&fds); FD_SET(pSocket->m_Socket, &fds); /* divide milliseconds into seconds and microseconds */ tv.tv_sec= pTimeout->Seconds; tv.tv_usec= pTimeout->Nanosec / 1000L; /* select */ error= select(pSocket->m_Socket+1, 0, &fds, 0, &tv); if (error > 0) /* connected */ { OSL_POSTCOND( FD_ISSET(pSocket->m_Socket, &fds), "osl_connectSocketTo(): select returned but socket not set\n"); Result= osl_Socket_Ok; } else if(error < 0) /* error */ { /* errno == EBADF: most probably interrupted by close() */ if(WSAGetLastError() == WSAEBADF) { /* do not access pSockImpl because it is about to be or */ /* already destroyed */ return osl_Socket_Interrupted; } else Result= osl_Socket_Error; } else /* timeout */ Result= osl_Socket_TimedOut; /* clean up */ Param= 0; ioctlsocket(pSocket->m_Socket, FIONBIO, &Param); return Result; } } /*****************************************************************************/ /* osl_listenOnSocket */ /*****************************************************************************/ sal_Bool SAL_CALL osl_listenOnSocket ( oslSocket pSocket, sal_Int32 MaxPendingConnections) { if (pSocket == NULL) /* ENOTSOCK */ return sal_False; return (listen(pSocket->m_Socket, MaxPendingConnections == -1 ? SOMAXCONN : MaxPendingConnections) != OSL_SOCKET_ERROR); } /*****************************************************************************/ /* osl_acceptConnectionOnSocket */ /*****************************************************************************/ oslSocket SAL_CALL osl_acceptConnectionOnSocket ( oslSocket pSocket, oslSocketAddr* ppAddr) { if (pSocket == NULL) /* ENOTSOCK */ return ((oslSocket)NULL); SOCKET Connection; if(ppAddr) { if( *ppAddr ) { osl_destroySocketAddr( *ppAddr ); *ppAddr = 0; } int AddrLen= sizeof(struct sockaddr); /* user wants to know peer Addr */ struct sockaddr Addr; Connection= accept(pSocket->m_Socket, &Addr, &AddrLen); OSL_ASSERT(AddrLen == sizeof(struct sockaddr)); if(Connection != OSL_SOCKET_ERROR) *ppAddr= __osl_createSocketAddrFromSystem(&Addr); else *ppAddr = NULL; } else { /* user is not interested in peer-addr */ Connection= accept(pSocket->m_Socket, 0, 0); } /* accept failed? */ if(Connection == OSL_SOCKET_ERROR) return ((oslSocket)NULL); /* alloc memory */ oslSocket pConnectionSocket; pConnectionSocket= __osl_createSocketImpl(Connection); pConnectionSocket->m_Flags = 0; pConnectionSocket->m_CloseCallback = NULL; pConnectionSocket->m_CallbackArg = NULL; return pConnectionSocket; } /*****************************************************************************/ /* osl_receiveSocket */ /*****************************************************************************/ sal_Int32 SAL_CALL osl_receiveSocket ( oslSocket pSocket, void* pBuffer, sal_uInt32 BytesToRead, oslSocketMsgFlag Flag) { if (pSocket == NULL) /* ENOTSOCK */ return osl_Socket_Error; return recv(pSocket->m_Socket, (sal_Char*)pBuffer, BytesToRead, MSG_FLAG_TO_NATIVE(Flag)); } /*****************************************************************************/ /* osl_receiveFromSocket */ /*****************************************************************************/ sal_Int32 SAL_CALL osl_receiveFromSocket ( oslSocket pSocket, oslSocketAddr SenderAddr, void* pBuffer, sal_uInt32 BufferSize, oslSocketMsgFlag Flag) { struct sockaddr *pSystemSockAddr = 0; int AddrLen = 0; if( SenderAddr ) { AddrLen = sizeof( struct sockaddr ); pSystemSockAddr = &(SenderAddr->m_sockaddr); } if (pSocket == NULL) /* ENOTSOCK */ return osl_Socket_Error; return recvfrom(pSocket->m_Socket, (sal_Char*)pBuffer, BufferSize, MSG_FLAG_TO_NATIVE(Flag), pSystemSockAddr, &AddrLen); } /*****************************************************************************/ /* osl_sendSocket */ /*****************************************************************************/ sal_Int32 SAL_CALL osl_sendSocket ( oslSocket pSocket, const void* pBuffer, sal_uInt32 BytesToSend, oslSocketMsgFlag Flag) { if (pSocket == NULL) /* ENOTSOCK */ return osl_Socket_Error; return send(pSocket->m_Socket, (sal_Char*)pBuffer, BytesToSend, MSG_FLAG_TO_NATIVE(Flag)); } /*****************************************************************************/ /* osl_sendToSocket */ /*****************************************************************************/ sal_Int32 SAL_CALL osl_sendToSocket ( oslSocket pSocket, oslSocketAddr ReceiverAddr, const void* pBuffer, sal_uInt32 BytesToSend, oslSocketMsgFlag Flag) { if (pSocket == NULL) /* ENOTSOCK */ return osl_Socket_Error; /* ReceiverAddr might be 0 when used on a connected socket. */ /* Then sendto should behave like send. */ struct sockaddr *pSystemSockAddr = 0; if( ReceiverAddr ) pSystemSockAddr = &(ReceiverAddr->m_sockaddr); return sendto(pSocket->m_Socket, (sal_Char*)pBuffer, BytesToSend, MSG_FLAG_TO_NATIVE(Flag), pSystemSockAddr, pSystemSockAddr == 0 ? 0 : sizeof(struct sockaddr)); } /*****************************************************************************/ /* osl_readSocket */ /*****************************************************************************/ sal_Int32 SAL_CALL osl_readSocket( oslSocket pSocket, void *pBuffer, sal_Int32 n ) { sal_uInt8 * Ptr = (sal_uInt8 *)pBuffer; OSL_ASSERT( pSocket); /* loop until all desired bytes were read or an error occured */ sal_uInt32 BytesRead= 0; sal_uInt32 BytesToRead= n; while (BytesToRead > 0) { sal_Int32 RetVal; RetVal= osl_receiveSocket(pSocket, Ptr, BytesToRead, osl_Socket_MsgNormal); /* error occured? */ if(RetVal <= 0) { break; } BytesToRead -= RetVal; BytesRead += RetVal; Ptr += RetVal; } return BytesRead; } /*****************************************************************************/ /* osl_writeSocket */ /*****************************************************************************/ sal_Int32 SAL_CALL osl_writeSocket( oslSocket pSocket, const void *pBuffer, sal_Int32 n ) { OSL_ASSERT( pSocket ); /* loop until all desired bytes were send or an error occured */ sal_uInt32 BytesSend= 0; sal_uInt32 BytesToSend= n; sal_uInt8 *Ptr = ( sal_uInt8 * )pBuffer; while (BytesToSend > 0) { sal_Int32 RetVal; RetVal= osl_sendSocket( pSocket,Ptr,BytesToSend,osl_Socket_MsgNormal); /* error occured? */ if(RetVal <= 0) { break; } BytesToSend -= RetVal; BytesSend += RetVal; Ptr += RetVal; } return BytesSend; } /*****************************************************************************/ /* osl_isReceiveReady */ /*****************************************************************************/ sal_Bool SAL_CALL osl_isReceiveReady ( oslSocket pSocket, const TimeValue* pTimeout) { fd_set fds; struct timeval tv; if (pSocket == NULL) /* ENOTSOCK */ return sal_False; FD_ZERO(&fds); FD_SET(pSocket->m_Socket, &fds); if (pTimeout) { tv.tv_sec = pTimeout->Seconds; tv.tv_usec = pTimeout->Nanosec / 1000L; } return (select(pSocket->m_Socket + 1, /* no of sockets to monitor */ &fds, /* check read operations */ 0, /* check write ops */ 0, /* ckeck for OOB */ (pTimeout) ? &tv : 0)==1); /* use timeout? */ } /*****************************************************************************/ /* osl_isSendReady */ /*****************************************************************************/ sal_Bool SAL_CALL osl_isSendReady ( oslSocket pSocket, const TimeValue* pTimeout) { fd_set fds; struct timeval tv; if (pSocket == NULL) /* ENOTSOCK */ return sal_False; FD_ZERO(&fds); FD_SET(pSocket->m_Socket, &fds); if (pTimeout) { tv.tv_sec = pTimeout->Seconds; tv.tv_usec = pTimeout->Nanosec / 1000L; } return (select(pSocket->m_Socket + 1, /* no of sockets to monitor */ 0, /* check read operations */ &fds, /* check write ops */ 0, /* ckeck for OOB */ (pTimeout) ? &tv : 0)==1); /* use timeout? */ } /*****************************************************************************/ /* osl_isExceptionPending */ /*****************************************************************************/ sal_Bool SAL_CALL osl_isExceptionPending ( oslSocket pSocket, const TimeValue* pTimeout) { fd_set fds; struct timeval tv; if (pSocket == NULL) /* ENOTSOCK */ return sal_False; FD_ZERO(&fds); FD_SET(pSocket->m_Socket, &fds); if (pTimeout) { tv.tv_sec = pTimeout->Seconds; tv.tv_usec = pTimeout->Nanosec / 1000L; } return (select(pSocket->m_Socket + 1, /* no of sockets to monitor */ 0, /* check read operations */ 0, /* check write ops */ &fds, /* ckeck for OOB */ (pTimeout) ? &tv : 0)==1); /* use timeout? */ } /*****************************************************************************/ /* osl_shutdownSocket */ /*****************************************************************************/ sal_Bool SAL_CALL osl_shutdownSocket ( oslSocket pSocket, oslSocketDirection Direction) { if (pSocket == NULL) /* ENOTSOCK */ return sal_False; return (shutdown(pSocket->m_Socket, DIRECTION_TO_NATIVE(Direction))==0); } /*****************************************************************************/ /* osl_getSocketOption */ /*****************************************************************************/ sal_Int32 SAL_CALL osl_getSocketOption ( oslSocket pSocket, oslSocketOptionLevel Level, oslSocketOption Option, void* pBuffer, sal_uInt32 BufferLen) { if (pSocket == NULL) /* ENOTSOCK */ return osl_Socket_Error; if (getsockopt(pSocket->m_Socket, OPTION_LEVEL_TO_NATIVE(Level), OPTION_TO_NATIVE(Option), (sal_Char*)pBuffer, (int*)&BufferLen) == -1) { return -1; } return (sal_Int32)BufferLen; } /*****************************************************************************/ /* osl_setSocketOption */ /*****************************************************************************/ sal_Bool SAL_CALL osl_setSocketOption ( oslSocket pSocket, oslSocketOptionLevel Level, oslSocketOption Option, void* pBuffer, sal_uInt32 BufferLen) { if (pSocket == NULL) /* ENOTSOCK */ return sal_False; return(setsockopt(pSocket->m_Socket, OPTION_LEVEL_TO_NATIVE(Level), OPTION_TO_NATIVE(Option), (sal_Char*)pBuffer, BufferLen) == 0); } /*****************************************************************************/ /* osl_enableNonBlockingMode */ /*****************************************************************************/ sal_Bool SAL_CALL osl_enableNonBlockingMode ( oslSocket pSocket, sal_Bool On) { unsigned long Param= On ? 1 : 0; if (pSocket == NULL) /* ENOTSOCK */ return sal_False; pSocket->m_Flags = Param ? (pSocket->m_Flags | OSL_SOCKET_FLAGS_NONBLOCKING) : (pSocket->m_Flags & ~OSL_SOCKET_FLAGS_NONBLOCKING) ; return ( ioctlsocket(pSocket->m_Socket, FIONBIO, &Param) != OSL_SOCKET_ERROR); } /*****************************************************************************/ /* osl_isNonBlockingMode */ /*****************************************************************************/ sal_Bool SAL_CALL osl_isNonBlockingMode(oslSocket pSocket) { if (pSocket == NULL) /* ENOTSOCK */ return sal_False; return (sal_Bool)((pSocket->m_Flags & OSL_SOCKET_FLAGS_NONBLOCKING) != 0); } /*****************************************************************************/ /* osl_getSocketType */ /*****************************************************************************/ oslSocketType SAL_CALL osl_getSocketType(oslSocket pSocket) { int Type=0; int TypeSize= sizeof(Type); if (pSocket == NULL) /* ENOTSOCK */ return osl_Socket_TypeInvalid; if(getsockopt(pSocket->m_Socket, OPTION_LEVEL_TO_NATIVE(osl_Socket_LevelSocket), OPTION_TO_NATIVE(osl_Socket_OptionType), (sal_Char *)&Type, &TypeSize) == -1) { /* error */ return osl_Socket_TypeInvalid; } return TYPE_FROM_NATIVE(Type); } /*****************************************************************************/ /* osl_getLastSocketErrorDescription */ /*****************************************************************************/ void SAL_CALL osl_getLastSocketErrorDescription ( oslSocket /*Socket*/, rtl_uString **strError) { int error; switch(error = WSAGetLastError()) { case WSAENOTSOCK: rtl_uString_newFromAscii (strError, "WSAENOTSOCK, Socket operation on non-socket. A socket created in one process is used by another process."); break; case WSAEDESTADDRREQ: rtl_uString_newFromAscii (strError, "WSAEDESTADDRREQ, Destination Addr required"); break; case WSAEMSGSIZE: rtl_uString_newFromAscii (strError, "WSAEMSGSIZE, Message too long"); break; case WSAEPROTOTYPE: rtl_uString_newFromAscii (strError, "WSAEPROTOTYPE, Protocol wrong type for socket"); break; case WSAENOPROTOOPT: rtl_uString_newFromAscii (strError, "WSAENOPROTOOPT, Protocol not available"); break; case WSAEPROTONOSUPPORT: rtl_uString_newFromAscii (strError, "WSAEPROTONOSUPPORT, Protocol not supported"); break; case WSAESOCKTNOSUPPORT: rtl_uString_newFromAscii (strError, "WSAESOCKTNOSUPPORT, Socket type not supported"); break; case WSAEOPNOTSUPP: rtl_uString_newFromAscii (strError, "WSAEOPNOTSUPP, Operation not supported on socket"); break; case WSAEPFNOSUPPORT: rtl_uString_newFromAscii (strError, "WSAEPFNOSUPPORT, Protocol family not supported"); break; case WSAEAFNOSUPPORT: rtl_uString_newFromAscii (strError, "WSEAFNOSUPPORT, Addr family not supported by protocol family"); break; case WSAEADDRINUSE: rtl_uString_newFromAscii (strError, "WSAEADDRINUSE, Triggered by bind() because a process went down without closing a socket."); break; case WSAEADDRNOTAVAIL: rtl_uString_newFromAscii (strError, "WSAEADDRNOTAVAIL, Can't assign requested Addr"); break; case WSAENETDOWN: rtl_uString_newFromAscii (strError, "WSAENETDOWN, Network is down"); break; case WSAENETUNREACH: rtl_uString_newFromAscii (strError, "WSAENETUNREACH, Network is unreachable"); break; case WSAENETRESET: rtl_uString_newFromAscii (strError, "WSAENETRESET, Network dropped connection or reset"); break; case WSAECONNABORTED: rtl_uString_newFromAscii (strError, "WSAECONNABORTED, Software caused connection abort"); break; case WSAECONNRESET: rtl_uString_newFromAscii (strError, "WSAECONNRESET, Connection reset by peer"); break; case WSAENOBUFS: rtl_uString_newFromAscii (strError, "WSAENOBUFS, No buffer space available."); break; case WSAEISCONN: rtl_uString_newFromAscii (strError, "WSAEISCONN, Socket is already connected"); break; case WSAENOTCONN: rtl_uString_newFromAscii (strError, "WSAENOTCONN, Socket is not connected"); break; case WSAESHUTDOWN: rtl_uString_newFromAscii (strError, "WSAESHUTDOWN, Can't send after socket shutdown"); break; case WSAETIMEDOUT: rtl_uString_newFromAscii (strError, "WSAETIMEDOUT, Connection timed out"); break; case WSAECONNREFUSED: rtl_uString_newFromAscii (strError, "WSAECONNREFUSED, Connection refused"); break; case WSAEHOSTDOWN: rtl_uString_newFromAscii (strError, "WSAEHOSTDOWN, Networking subsystem not started"); break; case WSAEHOSTUNREACH: rtl_uString_newFromAscii (strError, "WSAEHOSTUNREACH, No route to host"); break; case WSAEWOULDBLOCK: rtl_uString_newFromAscii (strError, "WSAEWOULDBLOCK, Operation would block"); break; case WSAEINPROGRESS: rtl_uString_newFromAscii (strError, "WSAEINPROGRESS, Operation now in progress"); break; case WSAEALREADY: rtl_uString_newFromAscii (strError, "WSAEALREADY, Operation already in progress"); break; case WSAEINTR: rtl_uString_newFromAscii (strError, "WSAEALREADY, Operation was interrupted"); break; case WSAEBADF: rtl_uString_newFromAscii (strError, "WSAEBADF, Bad file number"); break; case WSAEACCES: rtl_uString_newFromAscii (strError, "WSAEACCES, Access is denied"); break; case WSAEFAULT: rtl_uString_newFromAscii (strError, "WSAEFAULT, Bad memory Addr"); break; case WSAEINVAL: rtl_uString_newFromAscii (strError, "WSAEINVAL, The socket has not been bound with bind() or is already connected"); break; case WSAEMFILE: rtl_uString_newFromAscii (strError, "WSAEMFILE, No more file descriptors are available"); break; case WSAETOOMANYREFS: rtl_uString_newFromAscii (strError, "WSAETOOMANYREFS, Undocumented WinSock error"); break; case WSAENAMETOOLONG: rtl_uString_newFromAscii (strError, "WSAENAMETOOLONG, Undocumented WinSock error"); break; case WSAENOTEMPTY: rtl_uString_newFromAscii (strError, "WSAENOTEMPTY, Undocumented WinSock error"); break; case WSAEPROCLIM: rtl_uString_newFromAscii (strError, "WSAEPROCLIM, Undocumented WinSock error"); break; case WSAEUSERS: rtl_uString_newFromAscii (strError, "WSAEUSERS, Undocumented WinSock error"); break; case WSAEDQUOT: rtl_uString_newFromAscii (strError, "WSAEDQUOT, Undocumented WinSock error"); break; case WSAESTALE: rtl_uString_newFromAscii (strError, "WSAESTALE, Undocumented WinSock error"); break; case WSAEREMOTE: rtl_uString_newFromAscii (strError, "WSAEREMOTE, Undocumented WinSock error"); break; case WSAEDISCON: rtl_uString_newFromAscii (strError, "WSAEDISCON, Circuit was gracefully terminated"); break; case WSASYSNOTREADY: rtl_uString_newFromAscii (strError, "WSASYSNOTREADY, The underlying network subsystem is not ready for network communication"); break; case WSAVERNOTSUPPORTED: rtl_uString_newFromAscii (strError, "WSAVERNOTSUPPORTED, The version of Windows Sockets API support requested is not provided by this particular Windows Sockets implementation"); break; case WSANOTINITIALISED: rtl_uString_newFromAscii (strError, "WSANOTINITIALISED, WSAStartup() has not been called"); break; case WSAHOST_NOT_FOUND: rtl_uString_newFromAscii (strError, "WSAHOST_NOT_FOUND, Authoritative answer host not found"); break; case WSATRY_AGAIN: rtl_uString_newFromAscii (strError, "WSATRY_AGAIN, Non-authoritative answer host not found or SERVERFAIL"); break; case WSANO_RECOVERY: rtl_uString_newFromAscii (strError, "WSANO_RECOVERY, Non recoverable errors, FORMERR, REFUSED, NOTIMP"); break; case WSANO_DATA: rtl_uString_newFromAscii (strError, "WSANO_DATA or WSANO_ADDRESS, Valid name, no data record of requested type"); break; default: { sal_Unicode message[128]; wsprintfW(reinterpret_cast(message), L"Unknown WinSock Error Number %d", error); rtl_uString_newFromStr (strError, message); } return; } } /*****************************************************************************/ /* osl_getLastSocketError */ /*****************************************************************************/ oslSocketError SAL_CALL osl_getLastSocketError(oslSocket /*Socket*/) { return ERROR_FROM_NATIVE(WSAGetLastError()); } /*****************************************************************************/ /* SocketSet */ /*****************************************************************************/ typedef struct _TSocketSetImpl { fd_set m_Set; /* the set of descriptors */ } TSocketSetImpl; /*****************************************************************************/ /* osl_createSocketSet */ /*****************************************************************************/ oslSocketSet SAL_CALL osl_createSocketSet() { TSocketSetImpl* pSet; pSet = (TSocketSetImpl*) rtl_allocateMemory(sizeof(TSocketSetImpl)); if(pSet) { FD_ZERO(&pSet->m_Set); } return (oslSocketSet)pSet; } /*****************************************************************************/ /* osl_destroySocketSet */ /*****************************************************************************/ void SAL_CALL osl_destroySocketSet (oslSocketSet Set) { if(Set) rtl_freeMemory(Set); } /*****************************************************************************/ /* osl_clearSocketSet */ /*****************************************************************************/ void SAL_CALL osl_clearSocketSet (oslSocketSet Set) { TSocketSetImpl* pSet; pSet= (TSocketSetImpl*)Set; if (pSet) FD_ZERO(&pSet->m_Set); } /*****************************************************************************/ /* osl_addToSocketSet */ /*****************************************************************************/ void SAL_CALL osl_addToSocketSet ( oslSocketSet Set, oslSocket Socket) { TSocketSetImpl* pSet; oslSocketImpl* pSockImpl; pSet= (TSocketSetImpl*)Set; pSockImpl= (oslSocketImpl*)Socket; if (pSet && pSockImpl) FD_SET(pSockImpl->m_Socket, &pSet->m_Set); } /*****************************************************************************/ /* osl_removeFromSocketSet */ /*****************************************************************************/ void SAL_CALL osl_removeFromSocketSet ( oslSocketSet Set, oslSocket Socket) { TSocketSetImpl* pSet; oslSocketImpl* pSockImpl; pSet= (TSocketSetImpl*)Set; pSockImpl= (oslSocketImpl*)Socket; if (pSet && pSockImpl) FD_CLR(pSockImpl->m_Socket, &pSet->m_Set); } /*****************************************************************************/ /* osl_isInSocketSet */ /*****************************************************************************/ sal_Bool SAL_CALL osl_isInSocketSet ( oslSocketSet Set, oslSocket Socket) { TSocketSetImpl* pSet; oslSocketImpl* pSockImpl; pSet= (TSocketSetImpl*)Set; pSockImpl= (oslSocketImpl*)Socket; if (pSet && pSockImpl) return (FD_ISSET(pSockImpl->m_Socket, &pSet->m_Set) != 0); else return sal_False; } /*****************************************************************************/ /* osl_demultiplexSocketEvents */ /*****************************************************************************/ sal_Int32 SAL_CALL osl_demultiplexSocketEvents ( oslSocketSet IncomingSet, oslSocketSet OutgoingSet, oslSocketSet OutOfBandSet, const TimeValue* pTimeout) { int MaxHandle= 0; struct timeval tv; TSocketSetImpl* pInSet; TSocketSetImpl* pOutSet; TSocketSetImpl* pOOBSet; if(pTimeout) { /* divide milliseconds into seconds and microseconds */ tv.tv_sec = pTimeout->Seconds; tv.tv_usec = pTimeout->Nanosec / 1000L; } /* map opaque data to impl-types */ pInSet= (TSocketSetImpl*)IncomingSet; pOutSet= (TSocketSetImpl*)OutgoingSet; pOOBSet= (TSocketSetImpl*)OutOfBandSet; return select(MaxHandle, /* redundant in WIN32 */ pInSet ? &pInSet->m_Set : 0, pOutSet ? &pOutSet->m_Set : 0, pOOBSet ? &pOOBSet->m_Set : 0, pTimeout ? &tv : 0); } }