static bool checkBasicResult(const  XMLURL&         testURL
                            , const BasicTestEntry& testInfo)
{
    //
    //  Check each part to insure that its what its supposed to be. Since
    //  any of them can be a null pointer, we have a little helper function
    //  that spits out the actual testing code for each one.
    //
    if (!checkAField(testURL.getURLText(), testInfo.fullText, L"Full Text"))
        return false;

    if (!checkAField(testURL.getFragment(), testInfo.fragment, L"Fragment"))
        return false;

    if (!checkAField(testURL.getHost(), testInfo.host, L"Host"))
        return false;

    if (testURL.getPortNum() != testInfo.portNum)
    {
        XERCES_STD_QUALIFIER wcout << L"Expected port number: " << testInfo.portNum
                   << L" but got: " << testURL.getPortNum() << XERCES_STD_QUALIFIER endl;
        return false;
    }

    if (!checkAField(testURL.getPath(), testInfo.path, L"Path"))
        return false;

    if (!checkAField(testURL.getPassword(), testInfo.password, L"Password"))
        return false;

    if (!checkAField(testURL.getQuery(), testInfo.query, L"Query"))
        return false;

    if (!checkAField(testURL.getUser(), testInfo.user, L"User"))
        return false;

    return true;
}
Beispiel #2
0
BinHTTPURLInputStream::BinHTTPURLInputStream(const XMLURL& urlSource, const XMLNetHTTPInfo* httpInfo /*=0*/)
      : fSocketHandle(0)
      , fBytesProcessed(0)
{
    if(!fInitialized)
    {
        if (!fInitMutex)
        {
            XMLMutex* tmpMutex = new XMLMutex();
            if (XMLPlatformUtils::compareAndSwap((void**)&fInitMutex, tmpMutex, 0))
            {
                // Someone beat us to it, so let's clean up ours
                delete tmpMutex;
            }
         }
         XMLMutexLock lock(fInitMutex);
         if (!fInitialized)
         {
             Initialize(urlSource.getMemoryManager());
         }
    }

    fMemoryManager = urlSource.getMemoryManager();
    //
    // Pull all of the parts of the URL out of th urlSource object, and transcode them
    //   and transcode them back to ASCII.
    //
    const XMLCh*        hostName = urlSource.getHost();
    char*               hostNameAsCharStar = XMLString::transcode(hostName, urlSource.getMemoryManager());
    ArrayJanitor<char>  janBuf1(hostNameAsCharStar, urlSource.getMemoryManager());

    const XMLCh*        path = urlSource.getPath();
    char*               pathAsCharStar = XMLString::transcode(path, urlSource.getMemoryManager());
    ArrayJanitor<char>  janBuf2(pathAsCharStar, urlSource.getMemoryManager());

    const XMLCh*        fragment = urlSource.getFragment();
    char*               fragmentAsCharStar = 0;
    if (fragment)
        fragmentAsCharStar = XMLString::transcode(fragment, urlSource.getMemoryManager());
    ArrayJanitor<char>  janBuf3(fragmentAsCharStar, urlSource.getMemoryManager());

    const XMLCh*        query = urlSource.getQuery();
    char*               queryAsCharStar = 0;
    if (query)
        queryAsCharStar = XMLString::transcode(query, urlSource.getMemoryManager());
    ArrayJanitor<char>  janBuf4(queryAsCharStar, urlSource.getMemoryManager());		

    unsigned short      portNumber = (unsigned short) urlSource.getPortNum();

    //
    // Set up a socket.
    //
    struct hostent*     hostEntPtr = 0;
    struct sockaddr_in  sa;


    if ((hostEntPtr = gethostbyname(hostNameAsCharStar)) == NULL)
    {
        unsigned long  numAddress = inet_addr(hostNameAsCharStar);
        if (numAddress == INADDR_NONE)
        {
            // Call WSAGetLastError() to get the error number.
            ThrowXMLwithMemMgr1(NetAccessorException,
                     XMLExcepts::NetAcc_TargetResolution, hostName, fMemoryManager);
        }
        if ((hostEntPtr =
                gethostbyaddr((const char *) &numAddress,
                              sizeof(unsigned long), AF_INET)) == NULL)
        {
            // Call WSAGetLastError() to get the error number.
            ThrowXMLwithMemMgr1(NetAccessorException,
                     XMLExcepts::NetAcc_TargetResolution, hostName, fMemoryManager);
        }
    }

    memcpy((void *) &sa.sin_addr,
           (const void *) hostEntPtr->h_addr, hostEntPtr->h_length);
    sa.sin_family = hostEntPtr->h_addrtype;
    sa.sin_port = htons(portNumber);

    SOCKET s = socket(hostEntPtr->h_addrtype, SOCK_STREAM, 0);
    if (s == INVALID_SOCKET)
    {
        // Call WSAGetLastError() to get the error number.
        ThrowXMLwithMemMgr1(NetAccessorException,
                 XMLExcepts::NetAcc_CreateSocket, urlSource.getURLText(), fMemoryManager);
    }

    if (connect(s, (struct sockaddr *) &sa, sizeof(sa)) == SOCKET_ERROR)
    {
        // Call WSAGetLastError() to get the error number.
        ThrowXMLwithMemMgr1(NetAccessorException,
                 XMLExcepts::NetAcc_ConnSocket, urlSource.getURLText(), fMemoryManager);
    }


    // Set a flag so we know that the headers have not been read yet.
    bool fHeaderRead = false;

    // The port is open and ready to go.
    // Build up the http GET command to send to the server.
    // To do:  We should really support http 1.1.  This implementation
    //         is weak.

    memset(fBuffer, 0, sizeof(fBuffer));

    if(httpInfo==0)
        strcpy(fBuffer, "GET ");
    else {
        switch(httpInfo->fHTTPMethod) {
        case XMLNetHTTPInfo::GET:   strcpy(fBuffer, "GET "); break;
        case XMLNetHTTPInfo::PUT:   strcpy(fBuffer, "PUT "); break;
        case XMLNetHTTPInfo::POST:  strcpy(fBuffer, "POST "); break;
        }
    }
    strcat(fBuffer, pathAsCharStar);

    if (queryAsCharStar != 0)
    {
        // Tack on a ? before the fragment
        strcat(fBuffer,"?");
        strcat(fBuffer, queryAsCharStar);
    }

    if (fragmentAsCharStar != 0)
    {
        strcat(fBuffer, fragmentAsCharStar);
    }
    strcat(fBuffer, " HTTP/1.0\r\n");


    strcat(fBuffer, "Host: ");
    strcat(fBuffer, hostNameAsCharStar);
    if (portNumber != 80)
    {
        strcat(fBuffer, ":");
        int i = strlen(fBuffer);
        _itoa(portNumber, fBuffer+i, 10);
    }
    strcat(fBuffer, "\r\n");

    if(httpInfo!=0 && httpInfo->fHeaders!=0)
        strncat(fBuffer,httpInfo->fHeaders,httpInfo->fHeadersLen);

    strcat(fBuffer, "\r\n");

    // Send the http request
    int lent = strlen(fBuffer);
    int  aLent = 0;
    if ((aLent = send(s, fBuffer, lent, 0)) != lent)
    {
        // Call WSAGetLastError() to get the error number.
        ThrowXMLwithMemMgr1(NetAccessorException,
                 XMLExcepts::NetAcc_WriteSocket, urlSource.getURLText(), fMemoryManager);
    }

    if(httpInfo!=0 && httpInfo->fPayload!=0) {
        int  aLent = 0;
        if ((aLent = send(s, httpInfo->fPayload, httpInfo->fPayloadLen, 0)) != httpInfo->fPayloadLen)
        {
            // Call WSAGetLastError() to get the error number.
            ThrowXMLwithMemMgr1(NetAccessorException,
                     XMLExcepts::NetAcc_WriteSocket, urlSource.getURLText(), fMemoryManager);
        }
    }

    //
    // get the response, check the http header for errors from the server.
    //
    memset(fBuffer, 0, sizeof(fBuffer));
    aLent = recv(s, fBuffer, sizeof(fBuffer)-1, 0);
    if (aLent == SOCKET_ERROR || aLent == 0)
    {
        // Call WSAGetLastError() to get the error number.
        ThrowXMLwithMemMgr1(NetAccessorException, XMLExcepts::NetAcc_ReadSocket, urlSource.getURLText(), fMemoryManager);
    }

    fBufferEnd = fBuffer+aLent;
    *fBufferEnd = 0;

    do {
        // Find the break between the returned http header and any data.
        //  (Delimited by a blank line)
        // Hang on to any data for use by the first read from this BinHTTPURLInputStream.
        //
        fBufferPos = strstr(fBuffer, "\r\n\r\n");
        if (fBufferPos != 0)
        {
            fBufferPos += 4;
            *(fBufferPos-2) = 0;
            fHeaderRead = true;
        }
        else
        {
            fBufferPos = strstr(fBuffer, "\n\n");
            if (fBufferPos != 0)
            {
                fBufferPos += 2;
                *(fBufferPos-1) = 0;
                fHeaderRead = true;
            }
            else
            {
                //
                // Header is not yet read, do another recv() to get more data...
                aLent = recv(s, fBufferEnd, (sizeof(fBuffer) - 1) - (fBufferEnd - fBuffer), 0);
                if (aLent == SOCKET_ERROR || aLent == 0)
                {
                    // Call WSAGetLastError() to get the error number.
                    ThrowXMLwithMemMgr1(NetAccessorException, XMLExcepts::NetAcc_ReadSocket, urlSource.getURLText(), fMemoryManager);
                }
                fBufferEnd = fBufferEnd + aLent;
                *fBufferEnd = 0;
            }
        }
    } while(fHeaderRead == false);

    // Make sure the header includes an HTTP 200 OK response.
    //
    char *p = strstr(fBuffer, "HTTP");
    if (p == 0)
    {
        ThrowXMLwithMemMgr1(NetAccessorException, XMLExcepts::NetAcc_ReadSocket, urlSource.getURLText(), fMemoryManager);
    }

    p = strchr(p, ' ');
    if (p == 0)
    {
        ThrowXMLwithMemMgr1(NetAccessorException, XMLExcepts::NetAcc_ReadSocket, urlSource.getURLText(), fMemoryManager);
    }

    int httpResponse = atoi(p);
    if (httpResponse != 200)
    {
        // Most likely a 404 Not Found error.
        //   Should recognize and handle the forwarding responses.
        //
        ThrowXMLwithMemMgr1(NetAccessorException, XMLExcepts::File_CouldNotOpenFile, urlSource.getURLText(), fMemoryManager);
    }

    fSocketHandle = (unsigned int) s;
}
void BinHTTPInputStreamCommon::createHTTPRequest(const XMLURL &urlSource, const XMLNetHTTPInfo *httpInfo, CharBuffer &buffer)
{
    static const char *GET = "GET ";
    static const char *PUT = "PUT ";
    static const char *POST = "POST ";
    static const char *HTTP10 = " HTTP/1.0\r\n";
    static const char *HOST = "Host: ";
    static const char *AUTHORIZATION = "Authorization: Basic ";
    static const char *COLON = ":";

    XMLTransService::Codes failReason;
    const XMLSize_t blockSize = 2048;

    XMLTranscoder* trans = XMLPlatformUtils::fgTransService->makeNewTranscoderFor("ISO8859-1", failReason, blockSize, fMemoryManager);
    Janitor<XMLTranscoder> janTrans(trans);

    TranscodeToStr hostName(urlSource.getHost(), trans, fMemoryManager);
    TranscodeToStr path(urlSource.getPath(), trans, fMemoryManager);
    TranscodeToStr fragment(urlSource.getFragment(), trans, fMemoryManager);
    TranscodeToStr query(urlSource.getQuery(), trans, fMemoryManager);

    // Build up the http GET command to send to the server.
    // To do:  We should really support http 1.1.  This implementation
    //         is weak.
    if(httpInfo) {
        switch(httpInfo->fHTTPMethod) {
        case XMLNetHTTPInfo::GET:   buffer.append(GET); break;
        case XMLNetHTTPInfo::PUT:   buffer.append(PUT); break;
        case XMLNetHTTPInfo::POST:  buffer.append(POST); break;
        }
    }
    else {
        buffer.append(GET);
    }

    if(path.str() != 0) {
        buffer.append((char*)path.str());
    }
    else {
        buffer.append("/");
    }

    if(query.str() != 0) {
        buffer.append("?");
        buffer.append((char*)query.str());
    }

    if(fragment.str() != 0) {
        buffer.append((char*)fragment.str());
    }
    buffer.append(HTTP10);

    buffer.append(HOST);
    buffer.append((char*)hostName.str());
    if(urlSource.getPortNum() != 80)
    {
        buffer.append(COLON);
        buffer.appendDecimalNumber(urlSource.getPortNum());
    }
    buffer.append(CRLF);

    const XMLCh *username = urlSource.getUser();
    const XMLCh *password = urlSource.getPassword();
    if(username && password) {
        XMLBuffer userPassBuf(256, fMemoryManager);
        userPassBuf.append(username);
        userPassBuf.append(chColon);
        userPassBuf.append(password);

        TranscodeToStr userPass(userPassBuf.getRawBuffer(), trans, fMemoryManager);

        XMLSize_t len;
        XMLByte* encodedData = Base64::encode(userPass.str(), userPass.length(), &len, fMemoryManager);
        ArrayJanitor<XMLByte> janBuf2(encodedData, fMemoryManager);

        if(encodedData) {
            // HTTP doesn't want the 0x0A separating the data in chunks of 76 chars per line
            XMLByte* authData = (XMLByte*)fMemoryManager->allocate((len+1)*sizeof(XMLByte));
            ArrayJanitor<XMLByte> janBuf(authData, fMemoryManager);
            XMLByte *cursor = authData;
            for(XMLSize_t i = 0; i < len; ++i)
                if(encodedData[i] != chLF)
                    *cursor++ = encodedData[i];
            *cursor++ = 0;
            buffer.append(AUTHORIZATION);
            buffer.append((char*)authData);
            buffer.append(CRLF);
        }
    }

    if(httpInfo && httpInfo->fHeaders)
        buffer.append(httpInfo->fHeaders, httpInfo->fHeadersLen);

    buffer.append(CRLF);
}
XERCES_CPP_NAMESPACE_BEGIN

URLAccessCFBinInputStream::URLAccessCFBinInputStream(const XMLURL& urlSource)
      : mBytesProcessed(0),
        mDataRef(NULL)
{
    //	Figure out what we're dealing with
    const XMLCh* urlText = urlSource.getURLText();
    unsigned int urlLength = XMLString::stringLen(urlText);

    //	Create a CFString from the path
    CFStringRef stringRef = NULL;
    if (urlText)
    {
        stringRef = CFStringCreateWithCharacters(
            kCFAllocatorDefault,
            urlText,
            urlLength
            );
    }

    //	Create a URLRef from the CFString
    CFURLRef urlRef = NULL;
    if (stringRef)
    {
        urlRef = CFURLCreateWithString(
            kCFAllocatorDefault,
            stringRef,
            NULL				// CFURLRef baseURL
            );
    }

	//	Fetch the data
    mDataRef = NULL;
    SInt32 errorCode = 0;
    Boolean success = false;
    if (stringRef)
    {
        success = CFURLCreateDataAndPropertiesFromResource(
            kCFAllocatorDefault,
            urlRef,
            &mDataRef,
            NULL,				// CFDictionaryRef *properties,
            NULL,				// CFArrayRef desiredProperties,
            &errorCode
            );
    }

    //	Cleanup temporary stuff
    if (stringRef)
        CFRelease(stringRef);
    if (urlRef)
        CFRelease(urlRef);

    //	Check for an error in fetching the data
    if (!success || errorCode)
    {
        //	Dispose any potential dataRef
        if (mDataRef)
        {
            CFRelease(mDataRef);
            mDataRef = NULL;
        }

        //	Do a best attempt at mapping some errors
        switch (errorCode)
        {
            case kCFURLUnknownSchemeError:
                ThrowXML(MalformedURLException, XMLExcepts::URL_UnsupportedProto);
                break;

            case kCFURLRemoteHostUnavailableError:
                ThrowXML1(NetAccessorException,  XMLExcepts::NetAcc_TargetResolution, urlSource.getHost());
                break;

            case kCFURLUnknownError:
                ThrowXML1(NetAccessorException, XMLExcepts::NetAcc_ReadSocket, urlText);
                break;

            case kCFURLResourceNotFoundError:
            case kCFURLResourceAccessViolationError:
            case kCFURLTimeoutError:
                ThrowXML1(NetAccessorException, XMLExcepts::File_CouldNotOpenFile, urlText);
                break;

            case kCFURLImproperArgumentsError:
            case kCFURLUnknownPropertyKeyError:
            case kCFURLPropertyKeyUnavailableError:
            default:
                ThrowXML1(NetAccessorException, XMLExcepts::NetAcc_InternalError, urlText);
                break;
        }
    }
}
UnixHTTPURLInputStream::UnixHTTPURLInputStream(const XMLURL& urlSource, const XMLNetHTTPInfo* httpInfo/*=0*/)
    : BinHTTPInputStreamCommon(urlSource.getMemoryManager()),
      fSocket(0)
{
    //
    //  Convert the hostName to the platform's code page for gethostbyname and
    //  inet_addr functions.
    //

    MemoryManager *memoryManager = urlSource.getMemoryManager();

    const XMLCh*        hostName = urlSource.getHost();

    if (hostName == 0)
      ThrowXMLwithMemMgr1(NetAccessorException,
                          XMLExcepts::File_CouldNotOpenFile,
                          urlSource.getURLText(),
                          memoryManager);

    char*               hostNameAsCharStar = XMLString::transcode(hostName, memoryManager);
    ArrayJanitor<char>  janHostNameAsCharStar(hostNameAsCharStar, memoryManager);

    XMLURL url(urlSource);
    int redirectCount = 0;
    SocketJanitor janSock(0);

    do {
        //
        // Set up a socket.
        //

#if HAVE_GETADDRINFO
        struct addrinfo hints, *res, *ai;

        CharBuffer portBuffer(10, memoryManager);
        portBuffer.appendDecimalNumber(url.getPortNum());

        memset(&hints, 0, sizeof(struct addrinfo));
        hints.ai_family = PF_UNSPEC;
        hints.ai_socktype = SOCK_STREAM;
        int n = getaddrinfo(hostNameAsCharStar,portBuffer.getRawBuffer(),&hints, &res);
        if(n != 0)
        {
            hints.ai_flags = AI_NUMERICHOST;
            n = getaddrinfo(hostNameAsCharStar,portBuffer.getRawBuffer(),&hints, &res);
            if(n != 0)
                ThrowXMLwithMemMgr1(NetAccessorException, XMLExcepts::NetAcc_TargetResolution, hostName, memoryManager);
        }
        janSock.reset();
        for (ai = res; ai != NULL; ai = ai->ai_next) {
            // Open a socket with the correct address family for this address.
            fSocket = socket(ai->ai_family, ai->ai_socktype, ai->ai_protocol);
            if (fSocket < 0)
                continue;
            janSock.reset(&fSocket);
            if (connect(fSocket, ai->ai_addr, ai->ai_addrlen) < 0)
            {
                freeaddrinfo(res);
                ThrowXMLwithMemMgr1(NetAccessorException,
                         XMLExcepts::NetAcc_ConnSocket, url.getURLText(), memoryManager);
            }
            break;
        }
        freeaddrinfo(res);
        if (fSocket < 0)
        {
            ThrowXMLwithMemMgr1(NetAccessorException,
                     XMLExcepts::NetAcc_CreateSocket, url.getURLText(), memoryManager);
        }
#else
        struct hostent *hostEntPtr = 0;
        struct sockaddr_in sa;

        // Use the hostName in the local code page ....
        if((hostEntPtr = gethostbyname(hostNameAsCharStar)) == NULL)
        {
            unsigned long  numAddress = inet_addr(hostNameAsCharStar);
            if ((hostEntPtr =
                    gethostbyaddr((char *) &numAddress,
                        sizeof(unsigned long), AF_INET)) == NULL)
            {
                ThrowXMLwithMemMgr1(NetAccessorException,
                    XMLExcepts::NetAcc_TargetResolution, hostName, memoryManager);
            }
        }

        memset(&sa, '\0', sizeof(sockaddr_in));  // iSeries fix ??
        memcpy((void *) &sa.sin_addr,
            (const void *) hostEntPtr->h_addr, hostEntPtr->h_length);
        sa.sin_family = hostEntPtr->h_addrtype;
        sa.sin_port = htons((unsigned short)url.getPortNum());

        janSock.reset();
        fSocket = socket(hostEntPtr->h_addrtype, SOCK_STREAM, 0);
        if(fSocket < 0)
        {
            ThrowXMLwithMemMgr1(NetAccessorException,
                XMLExcepts::NetAcc_CreateSocket, url.getURLText(), memoryManager);
        }
        janSock.reset(&fSocket);

        if(connect(fSocket, (struct sockaddr *) &sa, sizeof(sa)) < 0)
        {
            ThrowXMLwithMemMgr1(NetAccessorException,
                XMLExcepts::NetAcc_ConnSocket, url.getURLText(), memoryManager);
        }
#endif

        int status = sendRequest(url, httpInfo);

        if(status == 200) {
            // HTTP 200 OK response means we're done.
            break;
        }
        // a 3xx response means there was an HTTP redirect
        else if(status >= 300 && status <= 307) {
            redirectCount++;

            XMLCh *newURLString = findHeader("Location");
            ArrayJanitor<XMLCh> janNewURLString(newURLString, memoryManager);

            if(newURLString == 0 || *newURLString == 0) {
                ThrowXMLwithMemMgr1(NetAccessorException, XMLExcepts::File_CouldNotOpenFile, url.getURLText(), memoryManager);
            }

            XMLURL newURL(memoryManager);
            newURL.setURL(url, newURLString);
            if(newURL.getProtocol() != XMLURL::HTTP) {
                ThrowXMLwithMemMgr1(NetAccessorException, XMLExcepts::File_CouldNotOpenFile, newURL.getURLText(), memoryManager);
            }

            url = newURL;
            hostName = newURL.getHost();

            if (hostName == 0)
              ThrowXMLwithMemMgr1(NetAccessorException,
                                  XMLExcepts::File_CouldNotOpenFile,
                                  newURL.getURLText(),
                                  memoryManager);

            janHostNameAsCharStar.release();
            hostNameAsCharStar = XMLString::transcode(hostName, memoryManager);
            janHostNameAsCharStar.reset(hostNameAsCharStar, memoryManager);
        }
        else {
            // Most likely a 404 Not Found error.
            ThrowXMLwithMemMgr1(NetAccessorException, XMLExcepts::File_CouldNotOpenFile, url.getURLText(), memoryManager);
        }
    } while(redirectCount < 6);

    janSock.release();
}
Beispiel #6
0
XERCES_CPP_NAMESPACE_BEGIN


UnixHTTPURLInputStream::UnixHTTPURLInputStream(const XMLURL& urlSource, const XMLNetHTTPInfo* httpInfo/*=0*/)
      : fSocket(0)
      , fBytesProcessed(0)
      , fMemoryManager(urlSource.getMemoryManager())
{

    //
    //  Constants in ASCII to send/check in the HTTP request/response
    //

    const char GET[] =
    {
        chLatin_G, chLatin_E, chLatin_T, chSpace, chNull
    };

    const char PUT[] =
    {
        chLatin_P, chLatin_U, chLatin_T, chSpace, chNull
    };

    const char POST[] =
    {
        chLatin_P, chLatin_O, chLatin_S, chLatin_T, chSpace, chNull
    };

    const char HTTP[] =
    {
        chLatin_H, chLatin_T, chLatin_T, chLatin_P, chNull
    };

    const char HTTP10[] =
    {
        chSpace, chLatin_H, chLatin_T, chLatin_T, chLatin_P, chForwardSlash, chDigit_1, chPeriod, chDigit_0, chCR, chLF, chNull
    };

    const char CRLF[] =
    {
        chCR, chLF, chNull
    };

    const char CRLF2X[] =
    {
        chCR, chLF, chCR, chLF, chNull
    };

    const char LF2X[] =
    {
        chLF, chLF, chNull
    };

    const char HOST[] =
    {
        chLatin_H, chLatin_o, chLatin_s, chLatin_t, chColon, chSpace, chNull
    };

    const char COLON[] =
    {
        chColon, chNull
    };

    const char resp200 [] =
    {
        chSpace, chDigit_2, chDigit_0, chDigit_0, chSpace, chNull
    };

    unsigned int charsEaten;
    unsigned int transSize;
    XMLTransService::Codes failReason;
    const unsigned int blockSize = 2048;
    const unsigned int bufSize = 5;
    static XMLCh portBuffer[bufSize+1];

    //
    // Pull all of the parts of the URL out of the urlSource object
    //

    const XMLCh*        hostName = urlSource.getHost();
    const XMLCh*        path = urlSource.getPath();
    const XMLCh*        fragment = urlSource.getFragment();
    const XMLCh*        query = urlSource.getQuery();                        

    //
    //  Convert the hostName to the platform's code page for gethostbyname and
    //  inet_addr functions.
    //

    char*               hostNameAsCharStar = XMLString::transcode(hostName, fMemoryManager);
    ArrayJanitor<char>  janBuf1(hostNameAsCharStar, fMemoryManager);

    //
    //  Convert all the parts of the urlSource object to ASCII so they can be
    //  sent to the remote host in that format
    //

    transSize = XMLString::stringLen(hostName)+1;
    char*               hostNameAsASCII = (char*) fMemoryManager->allocate
    (
        (transSize+1) * sizeof(char)
    );//new char[transSize+1];
    ArrayJanitor<char>  janBuf2(hostNameAsASCII, fMemoryManager);

    XMLTranscoder* trans = XMLPlatformUtils::fgTransService->makeNewTranscoderFor("ISO8859-1", failReason, blockSize, fMemoryManager);
    trans->transcodeTo(hostName, transSize, (unsigned char *) hostNameAsASCII, transSize, charsEaten, XMLTranscoder::UnRep_Throw);

    char*               pathAsASCII = 0;
    ArrayJanitor<char>  janBuf3(pathAsASCII, fMemoryManager);
    if (path)
    {
        transSize = XMLString::stringLen(path)+1;
        pathAsASCII = (char*) fMemoryManager->allocate
        (
            (transSize+1) * sizeof(char)
        );//new char[transSize+1];        
        trans->transcodeTo(path, transSize, (unsigned char *) pathAsASCII, transSize, charsEaten, XMLTranscoder::UnRep_Throw);
    }

    char*               fragmentAsASCII = 0;
    ArrayJanitor<char>  janBuf4(fragmentAsASCII, fMemoryManager);
    if (fragment)
    {
        transSize = XMLString::stringLen(fragment)+1;
        fragmentAsASCII = (char*) fMemoryManager->allocate
        (
            (transSize+1) * sizeof(char)
        );//new char[transSize+1];
        trans->transcodeTo(fragment, transSize, (unsigned char *) fragmentAsASCII, transSize, charsEaten, XMLTranscoder::UnRep_Throw);
    }

    char*               queryAsASCII = 0;
    ArrayJanitor<char>  janBuf5(queryAsASCII, fMemoryManager);
    if (query)
    {
        transSize = XMLString::stringLen(query)+1;
        queryAsASCII = (char*) fMemoryManager->allocate
        (
            (transSize+1) * sizeof(char)
        );//new char[transSize+1];
        trans->transcodeTo(query, transSize, (unsigned char *) queryAsASCII, transSize, charsEaten, XMLTranscoder::UnRep_Throw);
    }

    unsigned short      portNumber = (unsigned short) urlSource.getPortNum();

    //
    //  Convert port number integer to unicode so we can transcode it to ASCII
    //

    XMLString::binToText((unsigned int) portNumber, portBuffer, bufSize, 10, fMemoryManager);
    transSize = XMLString::stringLen(portBuffer)+1;
    char*               portAsASCII = (char*) fMemoryManager->allocate
    (
        (transSize+1) * sizeof(char)
    );//new char[transSize+1];
    trans->transcodeTo(portBuffer, transSize, (unsigned char *) portAsASCII, transSize, charsEaten, XMLTranscoder::UnRep_Throw);

    delete trans;

    //
    // Set up a socket.
    //
    struct hostent*     hostEntPtr = 0;
    struct sockaddr_in  sa;

    // Use the hostName in the local code page ....
    if ((hostEntPtr = gethostbyname(hostNameAsCharStar)) == NULL)
    {
        unsigned long  numAddress = inet_addr(hostNameAsCharStar);
        if (numAddress < 0)
        {
            ThrowXMLwithMemMgr1(NetAccessorException,
                     XMLExcepts::NetAcc_TargetResolution, hostName, fMemoryManager);
        }
        if ((hostEntPtr =
                gethostbyaddr((char *) &numAddress,
                              sizeof(unsigned long), AF_INET)) == NULL)
        {
            ThrowXMLwithMemMgr1(NetAccessorException,
                     XMLExcepts::NetAcc_TargetResolution, hostName, fMemoryManager);
        }
    }

    memset(&sa, '\0', sizeof(sockaddr_in));  // iSeries fix ??
    memcpy((void *) &sa.sin_addr,
           (const void *) hostEntPtr->h_addr, hostEntPtr->h_length);
    sa.sin_family = hostEntPtr->h_addrtype;
    sa.sin_port = htons(portNumber);

    int s = socket(hostEntPtr->h_addrtype, SOCK_STREAM, 0);
    if (s < 0)
    {
        ThrowXMLwithMemMgr1(NetAccessorException,
                 XMLExcepts::NetAcc_CreateSocket, urlSource.getURLText(), fMemoryManager);
    }

    if (connect(s, (struct sockaddr *) &sa, sizeof(sa)) < 0)
    {
        ThrowXMLwithMemMgr1(NetAccessorException,
                 XMLExcepts::NetAcc_ConnSocket, urlSource.getURLText(), fMemoryManager);
    }

    // The port is open and ready to go.
    // Build up the http GET command to send to the server.
    // To do:  We should really support http 1.1.  This implementation
    //         is weak.
    if(httpInfo==0)
      strcpy(fBuffer, GET);
    else
      switch(httpInfo->fHTTPMethod)
      {
        case XMLNetHTTPInfo::GET:   strcpy(fBuffer, GET); break;
        case XMLNetHTTPInfo::PUT:   strcpy(fBuffer, PUT); break;
        case XMLNetHTTPInfo::POST:  strcpy(fBuffer, POST); break;
      }
    if (pathAsASCII != 0)
    {
         strcat(fBuffer, pathAsASCII);
    }

    if (queryAsASCII != 0)
    {
        size_t n = strlen(fBuffer);
        fBuffer[n] = chQuestion;
        fBuffer[n+1] = chNull;
        strcat(fBuffer, queryAsASCII);
    }

    if (fragmentAsASCII != 0)
    {
        strcat(fBuffer, fragmentAsASCII);
    }
    strcat(fBuffer, HTTP10);

    strcat(fBuffer, HOST);
    strcat(fBuffer, hostNameAsASCII);
    if (portNumber != 80)
    {
        strcat(fBuffer,COLON);
        strcat(fBuffer,portAsASCII);
    }
    strcat(fBuffer, CRLF);

    if(httpInfo!=0 && httpInfo->fHeaders!=0)
        strncat(fBuffer,httpInfo->fHeaders,httpInfo->fHeadersLen);

    strcat(fBuffer, CRLF);

    // Send the http request
    int lent = strlen(fBuffer);
    int  aLent = 0;

    if ((aLent = write(s, (void *) fBuffer, lent)) != lent)
    {
        ThrowXMLwithMemMgr1(NetAccessorException,
                 XMLExcepts::NetAcc_WriteSocket, urlSource.getURLText(), fMemoryManager);
    }

    if(httpInfo!=0 && httpInfo->fPayload!=0) {
        int  aLent = 0;
        if ((aLent = write(s, (void *) httpInfo->fPayload, httpInfo->fPayloadLen)) != httpInfo->fPayloadLen)
        {
            ThrowXMLwithMemMgr1(NetAccessorException,
                     XMLExcepts::NetAcc_WriteSocket, urlSource.getURLText(), fMemoryManager);
        }
    }

    //
    // get the response, check the http header for errors from the server.
    //
    aLent = read(s, (void *)fBuffer, sizeof(fBuffer)-1);
    if (aLent <= 0)
    {
        ThrowXMLwithMemMgr1(NetAccessorException, XMLExcepts::NetAcc_ReadSocket, urlSource.getURLText(), fMemoryManager);
    }

    fBufferEnd = fBuffer+aLent;
    *fBufferEnd = 0;

    // Find the break between the returned http header and any data.
    //  (Delimited by a blank line)
    // Hang on to any data for use by the first read from this BinHTTPURLInputStream.
    //
    fBufferPos = strstr(fBuffer, CRLF2X);
    if (fBufferPos != 0)
    {
        fBufferPos += 4;
        *(fBufferPos-2) = 0;
    }
    else
    {
        fBufferPos = strstr(fBuffer, LF2X);
        if (fBufferPos != 0)
        {
            fBufferPos += 2;
            *(fBufferPos-1) = 0;
        }
        else
            fBufferPos = fBufferEnd;
    }

    // Make sure the header includes an HTTP 200 OK response.
    //
    char *p = strstr(fBuffer, HTTP);
    if (p == 0)
    {
        ThrowXMLwithMemMgr1(NetAccessorException, XMLExcepts::NetAcc_ReadSocket, urlSource.getURLText(), fMemoryManager);
    }

    p = strchr(p, chSpace);
    if (p == 0)
    {
        ThrowXMLwithMemMgr1(NetAccessorException, XMLExcepts::NetAcc_ReadSocket, urlSource.getURLText(), fMemoryManager);
    }
  
    if (memcmp(p, resp200, strlen(resp200)))
    {
        // Most likely a 404 Not Found error.
        //   Should recognize and handle the forwarding responses.
        //
        ThrowXMLwithMemMgr1(NetAccessorException, XMLExcepts::File_CouldNotOpenFile, urlSource.getURLText(), fMemoryManager);
    }

    fSocket = s;

}