/************************************************************** * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_sal.hxx" #include "sockethelper.hxx" //------------------------------------------------------------------------ // Ip version definition //------------------------------------------------------------------------ #define IP_VER 4 /// currently only IPv4 is considered. //------------------------------------------------------------------------ // helper functions //------------------------------------------------------------------------ /** compare two OUString. */ sal_Bool compareUString( const ::rtl::OUString & ustr1, const ::rtl::OUString & ustr2 ) { sal_Bool bOk = ustr1.equalsIgnoreAsciiCase( ustr2 ); return bOk; } /** compare a OUString and an ASCII string. */ sal_Bool compareUString( const ::rtl::OUString & ustr, const sal_Char *astr ) { ::rtl::OUString ustr2 = rtl::OUString::createFromAscii( astr ); sal_Bool bOk = ustr.equalsIgnoreAsciiCase( ustr2 ); return bOk; } /** compare two socket address. */ sal_Bool compareSocketAddr( const ::osl::SocketAddr & addr1 , const ::osl::SocketAddr & addr2 ) { return ( ( sal_True == compareUString( addr1.getHostname( 0 ), addr2.getHostname( 0 ) ) ) && ( addr2.getPort( ) == addr2.getPort( ) ) ); } /*char * oustring2char( const ::rtl::OUString & str ) { rtl::OString aString; aString = ::rtl::OUStringToOString( str, RTL_TEXTENCODING_ASCII_US ); printf("oustring2char %s\n", aString.getStr( ) ); sal_Char * sStr = aString.getStr( ); return (char *)sStr; }*/ /** print a UNI_CODE String. And also print some comments of the string. */ void printUString( const ::rtl::OUString & str, const char* msg) { printf("#%s #printUString_u# ", msg ); rtl::OString aString; aString = ::rtl::OUStringToOString( str, RTL_TEXTENCODING_ASCII_US ); //char * sStr = aString.getStr( ); printf("%s\n", aString.getStr( ) ); } /** get the local host name. mindy: gethostbyname( "localhost" ), on Linux, it returns the hostname in /etc/hosts + domain name, if no entry in /etc/hosts, it returns "localhost" + domain name */ ::rtl::OUString getHost( void ) { struct hostent *hptr; hptr = gethostbyname( "localhost" ); OSL_ENSURE( hptr != NULL, "#In getHostname function, error on gethostbyname()" ); ::rtl::OUString aUString = ::rtl::OUString::createFromAscii( (const sal_Char *) hptr->h_name ); return aUString; } /** get the full host name of the current processor, such as "aegean.prc.sun.com" --mindyliu */ ::rtl::OUString getThisHostname( void ) { ::rtl::OUString aUString; #ifdef WNT struct hostent *hptr; hptr = gethostbyname( "localhost" ); OSL_ENSURE( hptr != NULL, "#In getHostname function, error on gethostbyname()" ); rtl::OString sHostname(hptr->h_name); aUString = ::rtl::OStringToOUString(sHostname, RTL_TEXTENCODING_ASCII_US); #else char hostname[255]; if (gethostname(hostname, 255) != 0) { OSL_ENSURE( false, "#Error: gethostname failed." ); } struct hostent *hptr; //first search /ets/hosts, then search from dns hptr = gethostbyname( hostname); if ( hptr != NULL ) { strcpy( hostname, hptr->h_name ); } printf("hostname is %s \n", hostname ); rtl::OString sHostname( hostname ); aUString = ::rtl::OStringToOUString( sHostname, RTL_TEXTENCODING_ASCII_US ); aUString.getLength(); #endif return aUString; } /** get IP by name, search /etc/hosts first, then search from dns, fail return OUString("") */ ::rtl::OUString getIPbyName( rtl::OString const& str_name ) { ::rtl::OUString aUString; struct hostent *hptr; //first search /ets/hosts, then search from dns hptr = gethostbyname( str_name.getStr()); if ( hptr != NULL ) { struct in_addr ** addrptr; addrptr = (struct in_addr **) hptr->h_addr_list ; //if there are more than one IPs on the same machine, we select one for (; *addrptr; addrptr++) { printf("#Local IP Address: %s\n", inet_ntoa(**addrptr)); aUString = ::rtl::OUString::createFromAscii( (sal_Char *) (inet_ntoa(**addrptr)) ); } } return aUString; } /** get local ethernet IP */ ::rtl::OUString getLocalIP( ) { char hostname[255]; gethostname(hostname, 255); return getIPbyName( hostname ); } /** construct error message */ ::rtl::OUString outputError( const ::rtl::OUString & returnVal, const ::rtl::OUString & rightVal, const sal_Char * msg ) { ::rtl::OUString aUString; if ( returnVal.equals( rightVal ) ) return aUString; aUString += ::rtl::OUString::createFromAscii(msg); aUString += ::rtl::OUString::createFromAscii(": the returned value is '"); aUString += returnVal; aUString += ::rtl::OUString::createFromAscii("', but the value should be '"); aUString += rightVal; aUString += ::rtl::OUString::createFromAscii("'."); return aUString; } /** wait _nSec seconds. */ void thread_sleep( sal_Int32 _nSec ) { /// print statement in thread process must use fflush() to force display. // printf("wait %d seconds. ", _nSec ); // fflush(stdout); #ifdef WNT //Windows Sleep( _nSec * 100 ); #endif #if ( defined UNX ) || ( defined OS2 ) //Unix usleep(_nSec * 100000); #endif // printf("# done\n" ); } /** print Boolean value. */ void printBool( sal_Bool bOk ) { printf("printBool " ); ( sal_True == bOk ) ? printf("YES!" ): printf("NO!"); printf("\n"); } /** print content of a ByteSequence. */ void printByteSequence_IP( const ::rtl::ByteSequence & bsByteSeq, sal_Int32 nLen ) { printf("ByteSequence is: " ); for ( int i = 0; i < nLen; i++ ){ if ( bsByteSeq[i] < 0 ) printf("%d ", 256 + bsByteSeq[i] ); else printf("%d ", bsByteSeq[i] ); } printf(" .\n" ); } /** convert an IP which is stored as a UString format to a ByteSequence array for later use. */ ::rtl::ByteSequence UStringIPToByteSequence( ::rtl::OUString aUStr ) { rtl::OString aString = ::rtl::OUStringToOString( aUStr, RTL_TEXTENCODING_ASCII_US ); const sal_Char *pChar = aString.getStr( ) ; sal_Char tmpBuffer[4]; sal_Int32 nCharCounter = 0; ::rtl::ByteSequence bsByteSequence( IP_VER ); sal_Int32 nByteSeqCounter = 0; for ( int i = 0; i < aString.getLength( ) + 1 ; i++ ) { if ( ( *pChar != '.' ) && ( i !=aString.getLength( ) ) ) tmpBuffer[nCharCounter++] = *pChar; else { tmpBuffer[nCharCounter] = '\0'; nCharCounter = 0; bsByteSequence[nByteSeqCounter++] = static_cast(atoi( tmpBuffer )); } pChar++; } return bsByteSequence; } /** print a socket result name. */ void printSocketResult( oslSocketResult eResult ) { printf("printSocketResult: " ); if (!eResult) switch (eResult) { case osl_Socket_Ok: printf("client connected\n"); break; case osl_Socket_Error: printf("got an error ... exiting\r\n\r\n" ); break; case osl_Socket_TimedOut: printf("timeout\n"); break; case osl_Socket_Interrupted: printf("interrupted\n"); break; case osl_Socket_InProgress: printf("in progress\n"); break; default: printf("unknown result\n"); break; } } /** if 4 parts of an IP addr are equal to specified values */ sal_Bool ifIpv4is( const ::rtl::ByteSequence Ipaddr, sal_Int8 seq1, sal_Int8 seq2, sal_Int8 seq3, sal_Int8 seq4 ) { if ( ( Ipaddr[0] == seq1 ) && ( Ipaddr[1] == seq2 ) && ( Ipaddr[2] == seq3 ) && ( Ipaddr[3] == seq4 ) ) return sal_True; return sal_False; } /** if the IP or hostname is available( alive ) */ /*sal_Bool ifAvailable( const char * stringAddrOrHostName ) { sal_Bool result; int p[2]; sal_Char buffer[2000]; char stringhost[20]; strcpy(stringhost, stringAddrOrHostName ); result = sal_False; if (pipe (p) == 0) { pid_t pid; int nStatus; pid = fork(); if (pid == 0) { #if ( defined LINUX ) char *argv[] = { "/bin/ping", "-c", "3", "-W", "3", stringhost, NULL }; #endif #if ( defined SOLARIS ) char *argv[] = { "/usr/sbin/ping", stringhost, "3", NULL }; #endif close (p[0]); dup2 (p[1], 1); close (p[1]); #if ( defined LINUX ) execv ("/bin/ping", argv); #endif #if ( defined SOLARIS ) execv ("/usr/sbin/ping", argv); #endif // arriving here means exec failed _exit(-1); } else if (pid > 0) { sal_Int32 k = 0, n = 2000; close (p[1]); if ((k = read (p[0], buffer, n - 1)) > 0) { buffer[k] = 0; if (buffer[k - 1] == '\n') buffer[k - 1] = 0; #if ( defined LINUX ) char strOK[] = "bytes from"; #endif #if ( defined SOLARIS ) char strOK[] = "is alive"; #endif if (strstr( buffer, strOK ) != NULL ) result = sal_True; printf("buffer is %s\n", buffer ); } close (p[0]); waitpid (pid, &nStatus, 0); } else { close (p[0]); close (p[1]); } } return result; }*/ sal_Bool ifAvailable( rtl::OUString const& strAddrOrHostName ) { ::osl::ConnectorSocket aSocket( osl_Socket_FamilyInet, osl_Socket_ProtocolIp, osl_Socket_TypeStream ); ::osl::SocketAddr aSocketAddr( strAddrOrHostName, 7 ); if (! aSocketAddr.is()) { aSocket.close(); return sal_False; } aSocket.setOption( osl_Socket_OptionReuseAddr, 1 ); //sal_True; TimeValue *pTimeout; pTimeout = ( TimeValue* )malloc( sizeof( TimeValue ) ); pTimeout->Seconds = 3; pTimeout->Nanosec = 0; oslSocketResult aResult = aSocket.connect( aSocketAddr, pTimeout ); free( pTimeout ); aSocket.close(); if ( aResult != osl_Socket_Ok ) { printf("Error: "); printSocketResult(aResult); printf("\n"); return sal_False; } return sal_True; }