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path: root/sal/rtl/uri.cxx
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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
 * This file is part of the LibreOffice project.
 *
 * This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/.
 *
 * This file incorporates work covered by the following license notice:
 *
 *   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 .
 */

#include <rtl/character.hxx>
#include <rtl/strbuf.hxx>
#include <rtl/textenc.h>
#include <rtl/textcvt.h>
#include <rtl/uri.h>
#include <rtl/uri.hxx>
#include <rtl/ustrbuf.h>
#include <rtl/ustrbuf.hxx>
#include <rtl/ustring.h>
#include <rtl/ustring.hxx>
#include <sal/types.h>
#include <sal/macros.h>

#include <uri_internal.hxx>

#include <algorithm>
#include <cstddef>

namespace {

sal_Unicode const cEscapePrefix = 0x25; // '%'

int getHexWeight(sal_uInt32 nUtf32)
{
    return nUtf32 >= 0x30 && nUtf32 <= 0x39 ? // '0'--'9'
               static_cast< int >(nUtf32 - 0x30) :
           nUtf32 >= 0x41 && nUtf32 <= 0x46 ? // 'A'--'F'
               static_cast< int >(nUtf32 - 0x41 + 10) :
           nUtf32 >= 0x61 && nUtf32 <= 0x66 ? // 'a'--'f'
               static_cast< int >(nUtf32 - 0x61 + 10) :
               -1; // not a hex digit
}

bool isValid(sal_Bool const * pCharClass, sal_uInt32 nUtf32)
{
    return nUtf32 < rtl::UriCharClassSize && pCharClass[nUtf32];
}

void writeUnicode(rtl_uString ** pBuffer, sal_Int32 * pCapacity,
                         sal_Unicode cChar)
{
    rtl_uStringbuffer_insert(pBuffer, pCapacity, (*pBuffer)->length, &cChar, 1);
}

}

namespace rtl::uri::detail {

/** Read any of the following:

   @li sequence of escape sequences representing character from eCharset,
       translated to single UCS4 character; or
   @li pair of UTF-16 surrogates, translated to single UCS4 character; or
   @li  single UTF-16 character, extended to UCS4 character.
 */
sal_uInt32 readUcs4(sal_Unicode const ** pBegin, sal_Unicode const * pEnd,
                    bool bEncoded, rtl_TextEncoding eCharset,
                    EscapeType * pType)
{
    sal_uInt32 nChar = *(*pBegin)++;
    int nWeight1;
    int nWeight2;
    if (nChar == cEscapePrefix && bEncoded && pEnd - *pBegin >= 2
        && (nWeight1 = getHexWeight((*pBegin)[0])) >= 0
        && (nWeight2 = getHexWeight((*pBegin)[1])) >= 0)
    {
        *pBegin += 2;
        nChar = static_cast< sal_uInt32 >(nWeight1 << 4 | nWeight2);
        if (nChar <= 0x7F)
        {
            *pType = EscapeChar;
        }
        else if (eCharset == RTL_TEXTENCODING_UTF8)
        {
            if (nChar >= 0xC0 && nChar <= 0xF4)
            {
                sal_uInt32 nEncoded;
                int nShift;
                sal_uInt32 nMin;
                if (nChar <= 0xDF)
                {
                    nEncoded = (nChar & 0x1F) << 6;
                    nShift = 0;
                    nMin = 0x80;
                }
                else if (nChar <= 0xEF)
                {
                    nEncoded = (nChar & 0x0F) << 12;
                    nShift = 6;
                    nMin = 0x800;
                }
                else
                {
                    nEncoded = (nChar & 0x07) << 18;
                    nShift = 12;
                    nMin = 0x10000;
                }

                sal_Unicode const * p = *pBegin;
                bool bUTF8 = true;

                for (; nShift >= 0; nShift -= 6)
                {
                    if (pEnd - p < 3 || p[0] != cEscapePrefix
                        || (nWeight1 = getHexWeight(p[1])) < 8
                        || nWeight1 > 11
                        || (nWeight2 = getHexWeight(p[2])) < 0)
                    {
                        bUTF8 = false;
                        break;
                    }
                    p += 3;
                    nEncoded |= ((nWeight1 & 3) << 4 | nWeight2) << nShift;
                }
                if (bUTF8 && rtl::isUnicodeScalarValue(nEncoded)
                    && nEncoded >= nMin)
                {
                    *pBegin = p;
                    *pType = EscapeChar;
                    return nEncoded;
                }
            }
            *pType = EscapeOctet;
        }
        else
        {
            OStringBuffer aBuf;
            aBuf.append(static_cast< char >(nChar));
            rtl_TextToUnicodeConverter aConverter
                = rtl_createTextToUnicodeConverter(eCharset);
            sal_Unicode const * p = *pBegin;

            for (;;)
            {
                sal_Unicode aDst[2];
                sal_uInt32 nInfo;
                sal_Size nConverted;
                sal_Size nDstSize = rtl_convertTextToUnicode(
                    aConverter, nullptr, aBuf.getStr(), aBuf.getLength(), aDst,
                    SAL_N_ELEMENTS( aDst ),
                    (RTL_TEXTTOUNICODE_FLAGS_UNDEFINED_ERROR
                     | RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_ERROR
                     | RTL_TEXTTOUNICODE_FLAGS_INVALID_ERROR),
                    &nInfo, &nConverted);

                if (nInfo == 0)
                {
                    assert( nConverted
                        == sal::static_int_cast< sal_uInt32 >(
                            aBuf.getLength()));

                    rtl_destroyTextToUnicodeConverter(aConverter);
                    *pBegin = p;
                    *pType = EscapeChar;

                    assert( nDstSize == 1
                        || (nDstSize == 2 && rtl::isHighSurrogate(aDst[0])
                            && rtl::isLowSurrogate(aDst[1])));

                    return nDstSize == 1
                        ? aDst[0] : rtl::combineSurrogates(aDst[0], aDst[1]);
                }
                if (nInfo == RTL_TEXTTOUNICODE_INFO_SRCBUFFERTOOSMALL
                         && pEnd - p >= 3 && p[0] == cEscapePrefix
                         && (nWeight1 = getHexWeight(p[1])) >= 0
                         && (nWeight2 = getHexWeight(p[2])) >= 0)
                {
                    p += 3;
                    aBuf.append(static_cast< char >(nWeight1 << 4 | nWeight2));
                }
                else if (nInfo == RTL_TEXTTOUNICODE_INFO_SRCBUFFERTOOSMALL
                         && p != pEnd && *p <= 0x7F)
                {
                    aBuf.append(static_cast< char >(*p++));
                }
                else
                {
                    assert(
                        (nInfo & RTL_TEXTTOUNICODE_INFO_DESTBUFFERTOOSMALL)
                        == 0);
                    break;
                }
            }
            rtl_destroyTextToUnicodeConverter(aConverter);
            *pType = EscapeOctet;
        }
        return nChar;
    }

    *pType = EscapeNo;
    return rtl::isHighSurrogate(nChar) && *pBegin < pEnd
           && rtl::isLowSurrogate(**pBegin) ?
               rtl::combineSurrogates(nChar, *(*pBegin)++) : nChar;
}

}

namespace {

void writeUcs4(rtl_uString ** pBuffer, sal_Int32 * pCapacity, sal_uInt32 nUtf32)
{
    rtl_uStringbuffer_insertUtf32(pBuffer, pCapacity, (*pBuffer)->length, nUtf32);
}

void writeEscapeOctet(rtl_uString ** pBuffer, sal_Int32 * pCapacity,
                      sal_uInt32 nOctet)
{
    assert(nOctet <= 0xFF); // bad octet

    static sal_Unicode const aHex[16]
        = { 0x30, 0x31, 0x32, 0x33, 0x34, 0x35, 0x36, 0x37, 0x38, 0x39,
            0x41, 0x42, 0x43, 0x44, 0x45, 0x46 }; /* '0'--'9', 'A'--'F' */

    writeUnicode(pBuffer, pCapacity, cEscapePrefix);
    writeUnicode(pBuffer, pCapacity, aHex[nOctet >> 4]);
    writeUnicode(pBuffer, pCapacity, aHex[nOctet & 15]);
}

bool writeEscapeChar(rtl_uString ** pBuffer, sal_Int32 * pCapacity,
                     sal_uInt32 nUtf32, rtl_TextEncoding eCharset, bool bStrict)
{
    assert(rtl::isUnicodeCodePoint(nUtf32));
    if (eCharset == RTL_TEXTENCODING_UTF8)
    {
        if (nUtf32 < 0x80)
        {
            writeEscapeOctet(pBuffer, pCapacity, nUtf32);
        }
        else if (nUtf32 < 0x800)
        {
            writeEscapeOctet(pBuffer, pCapacity, nUtf32 >> 6 | 0xC0);
            writeEscapeOctet(pBuffer, pCapacity, (nUtf32 & 0x3F) | 0x80);
        }
        else if (nUtf32 < 0x10000)
        {
            writeEscapeOctet(pBuffer, pCapacity, nUtf32 >> 12 | 0xE0);
            writeEscapeOctet(pBuffer, pCapacity, (nUtf32 >> 6 & 0x3F) | 0x80);
            writeEscapeOctet(pBuffer, pCapacity, (nUtf32 & 0x3F) | 0x80);
        }
        else
        {
            writeEscapeOctet(pBuffer, pCapacity, nUtf32 >> 18 | 0xF0);
            writeEscapeOctet(pBuffer, pCapacity, (nUtf32 >> 12 & 0x3F) | 0x80);
            writeEscapeOctet(pBuffer, pCapacity, (nUtf32 >> 6 & 0x3F) | 0x80);
            writeEscapeOctet(pBuffer, pCapacity, (nUtf32 & 0x3F) | 0x80);
        }
    }
    else
    {
        rtl_UnicodeToTextConverter aConverter
            = rtl_createUnicodeToTextConverter(eCharset);
        sal_Unicode aSrc[2];
        sal_Size nSrcSize = rtl::splitSurrogates(nUtf32, aSrc);

        char aDst[32]; // FIXME  random value
        sal_uInt32 nInfo;
        sal_Size nConverted;
        sal_Size nDstSize = rtl_convertUnicodeToText(
            aConverter, nullptr, aSrc, nSrcSize, aDst, sizeof aDst,
            RTL_UNICODETOTEXT_FLAGS_UNDEFINED_ERROR
            | RTL_UNICODETOTEXT_FLAGS_INVALID_ERROR
            | RTL_UNICODETOTEXT_FLAGS_FLUSH,
            &nInfo, &nConverted);
        assert((nInfo & RTL_UNICODETOTEXT_INFO_DESTBUFFERTOSMALL) == 0);
        rtl_destroyUnicodeToTextConverter(aConverter);

        if (nInfo == 0)
        {
            assert(nConverted == nSrcSize); // bad rtl_convertUnicodeToText

            for (sal_Size i = 0; i < nDstSize; ++i)
            {
                writeEscapeOctet(pBuffer, pCapacity,
                                 static_cast< unsigned char >(aDst[i]));
                    // FIXME  all octets are escaped, even if there is no need
            }
        }
        else
        {
            if (bStrict)
                return false;

            writeUcs4(pBuffer, pCapacity, nUtf32);
        }
    }
    return true;
}

struct Component
{
    sal_Unicode const * pBegin;
    sal_Unicode const * pEnd;

    Component(): pBegin(nullptr), pEnd(nullptr) {}

    bool isPresent() const { return pBegin != nullptr; }

    sal_Int32 getLength() const;
};

sal_Int32 Component::getLength() const
{
    assert(isPresent()); // taking length of non-present component
    return static_cast< sal_Int32 >(pEnd - pBegin);
}

struct Components
{
    Component aScheme;
    Component aAuthority;
    Component aPath;
    Component aQuery;
    Component aFragment;
};

void parseUriRef(rtl_uString const * pUriRef, Components * pComponents)
{
    // This algorithm is liberal and accepts various forms of illegal input.

    sal_Unicode const * pBegin = pUriRef->buffer;
    sal_Unicode const * pEnd = pBegin + pUriRef->length;
    sal_Unicode const * pPos = pBegin;

    if (pPos != pEnd && rtl::isAsciiAlpha(*pPos))
    {
        for (sal_Unicode const * p = pPos + 1; p != pEnd; ++p)
        {
            if (*p == ':')
            {
                pComponents->aScheme.pBegin = pBegin;
                pComponents->aScheme.pEnd = ++p;
                pPos = p;
                break;
            }

            if (!rtl::isAsciiAlphanumeric(*p) && *p != '+' && *p != '-'
                     && *p != '.')
            {
                break;
            }
        }
    }

    if (pEnd - pPos >= 2 && pPos[0] == '/' && pPos[1] == '/')
    {
        pComponents->aAuthority.pBegin = pPos;
        pPos += 2;
        while (pPos != pEnd && *pPos != '/' && *pPos != '?' && *pPos != '#')
        {
            ++pPos;
        }

        pComponents->aAuthority.pEnd = pPos;
    }

    pComponents->aPath.pBegin = pPos;
    while (pPos != pEnd && *pPos != '?' && * pPos != '#')
    {
        ++pPos;
    }

    pComponents->aPath.pEnd = pPos;

    if (pPos != pEnd && *pPos == '?')
    {
        pComponents->aQuery.pBegin = pPos++;
        while (pPos != pEnd && * pPos != '#')
        {
            ++pPos;
        }

        pComponents->aQuery.pEnd = pPos;
    }

    if (pPos != pEnd)
    {
        assert(*pPos == '#');
        pComponents->aFragment.pBegin = pPos;
        pComponents->aFragment.pEnd = pEnd;
    }
}

void appendPath(
    OUStringBuffer & buffer, sal_Int32 bufferStart, bool precedingSlash,
    sal_Unicode const * pathBegin, sal_Unicode const * pathEnd)
{
    while (precedingSlash || pathBegin != pathEnd)
    {
        sal_Unicode const * p = pathBegin;
        while (p != pathEnd && *p != '/')
        {
            ++p;
        }

        std::size_t n = p - pathBegin;
        if (n == 1 && pathBegin[0] == '.')
        {
            // input begins with "." -> remove from input (and done):
            //  i.e., !precedingSlash -> !precedingSlash
            // input begins with "./" -> remove from input:
            //  i.e., !precedingSlash -> !precedingSlash
            // input begins with "/." -> replace with "/" in input (and not yet
            // done):
            //  i.e., precedingSlash -> precedingSlash
            // input begins with "/./" -> replace with "/" in input:
            //  i.e., precedingSlash -> precedingSlash
        }
        else if (n == 2 && pathBegin[0] == '.' && pathBegin[1] == '.')
        {
            // input begins with ".." -> remove from input (and done):
            //  i.e., !precedingSlash -> !precedingSlash
            // input begins with "../" -> remove from input
            //  i.e., !precedingSlash -> !precedingSlash
            // input begins with "/.." -> replace with "/" in input, and shrink
            // output (not yet done):
            //  i.e., precedingSlash -> precedingSlash
            // input begins with "/../" -> replace with "/" in input, and shrink
            // output:
            //  i.e., precedingSlash -> precedingSlash
            if (precedingSlash)
            {
                buffer.truncate(
                    bufferStart
                    + std::max<sal_Int32>(
                        rtl_ustr_lastIndexOfChar_WithLength(
                            buffer.getStr() + bufferStart,
                            buffer.getLength() - bufferStart, '/'),
                        0));
            }
        }
        else
        {
            if (precedingSlash)
                buffer.append('/');

            buffer.append(pathBegin, n);
            precedingSlash = p != pathEnd;
        }
        pathBegin = p + (p == pathEnd ? 0 : 1);
    }
}

}

sal_Bool const * SAL_CALL rtl_getUriCharClass(rtl_UriCharClass eCharClass)
    SAL_THROW_EXTERN_C()
{
    static constexpr std::array<sal_Bool, rtl::UriCharClassSize> aCharClass[] = {
        rtl::createUriCharClass(u8""), // None
        rtl::createUriCharClass(
            u8"!$&'()*+,-./:;=?@[]_~"
            "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"), // Uric
        rtl::createUriCharClass(
            u8"!$&'()*+,-.:;=?@_~"
            "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"), // UricNoSlash
        rtl::createUriCharClass(
            u8"!$&'()*+,-.;=@_~"
            "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"), // RelSegment
        rtl::createUriCharClass(
            u8"!$&'()*+,-.:;=@_~"
            "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"), // RegName
        rtl::createUriCharClass(
            u8"!$&'()*+,-.:;=_~"
            "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"), // Userinfo
        rtl::createUriCharClass(
            u8"!$&'()*+,-.:=@_~"
            "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"), // Pchar
        rtl::createUriCharClass(
            u8"!$&'()*+-./:?@_~"
            "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz")}; // UnoParamValue

    assert(
        (eCharClass >= 0
         && (sal::static_int_cast< std::size_t >(eCharClass)
             < SAL_N_ELEMENTS(aCharClass)))); // bad eCharClass
    return aCharClass[eCharClass].data();
}

void SAL_CALL rtl_uriEncode(rtl_uString * pText, sal_Bool const * pCharClass,
                            rtl_UriEncodeMechanism eMechanism,
                            rtl_TextEncoding eCharset, rtl_uString ** pResult)
    SAL_THROW_EXTERN_C()
{
    assert(!pCharClass[0x25]); // make sure the percent sign is encoded...

    sal_Unicode const * p = pText->buffer;
    sal_Unicode const * pEnd = p + pText->length;
    sal_Int32 nCapacity = 256;
    rtl_uString_new_WithLength(pResult, nCapacity);

    while (p < pEnd)
    {
        rtl::uri::detail::EscapeType eType;
        sal_uInt32 nUtf32 = rtl::uri::detail::readUcs4(
            &p, pEnd,
            (eMechanism == rtl_UriEncodeKeepEscapes
             || eMechanism == rtl_UriEncodeCheckEscapes
             || eMechanism == rtl_UriEncodeStrictKeepEscapes),
            eCharset, &eType);

        switch (eType)
        {
        case rtl::uri::detail::EscapeNo:
            if (isValid(pCharClass, nUtf32)) // implies nUtf32 <= 0x7F
            {
                writeUnicode(pResult, &nCapacity,
                             static_cast< sal_Unicode >(nUtf32));
            }
            else if (!writeEscapeChar(
                         pResult, &nCapacity, nUtf32, eCharset,
                         (eMechanism == rtl_UriEncodeStrict
                          || eMechanism == rtl_UriEncodeStrictKeepEscapes)))
            {
                rtl_uString_new(pResult);
                return;
            }
            break;

        case rtl::uri::detail::EscapeChar:
            if (eMechanism == rtl_UriEncodeCheckEscapes
                && isValid(pCharClass, nUtf32)) // implies nUtf32 <= 0x7F
            {
                writeUnicode(pResult, &nCapacity,
                             static_cast< sal_Unicode >(nUtf32));
            }
            else if (!writeEscapeChar(
                         pResult, &nCapacity, nUtf32, eCharset,
                         (eMechanism == rtl_UriEncodeStrict
                          || eMechanism == rtl_UriEncodeStrictKeepEscapes)))
            {
                rtl_uString_new(pResult);
                return;
            }
            break;

        case rtl::uri::detail::EscapeOctet:
            writeEscapeOctet(pResult, &nCapacity, nUtf32);
            break;
        }
    }
    *pResult = rtl_uStringBuffer_makeStringAndClear(pResult, &nCapacity);
}

void SAL_CALL rtl_uriDecode(rtl_uString * pText,
                            rtl_UriDecodeMechanism eMechanism,
                            rtl_TextEncoding eCharset, rtl_uString ** pResult)
    SAL_THROW_EXTERN_C()
{
    switch (eMechanism)
    {
    case rtl_UriDecodeNone:
        rtl_uString_assign(pResult, pText);
        break;

    case rtl_UriDecodeToIuri:
        eCharset = RTL_TEXTENCODING_UTF8;
        [[fallthrough]];
    default: // rtl_UriDecodeWithCharset, rtl_UriDecodeStrict
        {
            sal_Unicode const * p = pText->buffer;
            sal_Unicode const * pEnd = p + pText->length;
            sal_Int32 nCapacity = pText->length;
            rtl_uString_new_WithLength(pResult, nCapacity);

            while (p < pEnd)
            {
                rtl::uri::detail::EscapeType eType;
                sal_uInt32 nUtf32 = rtl::uri::detail::readUcs4(&p, pEnd, true, eCharset, &eType);
                switch (eType)
                {
                case rtl::uri::detail::EscapeChar:
                    if (nUtf32 <= 0x7F && eMechanism == rtl_UriDecodeToIuri)
                    {
                        writeEscapeOctet(pResult, &nCapacity, nUtf32);
                        break;
                    }
                    [[fallthrough]];

                case rtl::uri::detail::EscapeNo:
                    writeUcs4(pResult, &nCapacity, nUtf32);
                    break;

                case rtl::uri::detail::EscapeOctet:
                    if (eMechanism == rtl_UriDecodeStrict)
                    {
                        rtl_uString_new(pResult);
                        return;
                    }
                    writeEscapeOctet(pResult, &nCapacity, nUtf32);
                    break;
                }
            }

            *pResult = rtl_uStringBuffer_makeStringAndClear( pResult, &nCapacity );
        }
        break;
    }
}

sal_Bool SAL_CALL rtl_uriConvertRelToAbs(rtl_uString * pBaseUriRef,
                                         rtl_uString * pRelUriRef,
                                         rtl_uString ** pResult,
                                         rtl_uString ** pException)
    SAL_THROW_EXTERN_C()
{
    // Use the strict parser algorithm from RFC 3986, section 5.2, to turn the
    // relative URI into an absolute one:
    Components aRelComponents;
    parseUriRef(pRelUriRef, &aRelComponents);
    OUStringBuffer aBuffer(256);

    if (aRelComponents.aScheme.isPresent())
    {
        aBuffer.append(aRelComponents.aScheme.pBegin,
                       aRelComponents.aScheme.getLength());

        if (aRelComponents.aAuthority.isPresent())
        {
            aBuffer.append(aRelComponents.aAuthority.pBegin,
                           aRelComponents.aAuthority.getLength());
        }

        appendPath(
            aBuffer, aBuffer.getLength(), false, aRelComponents.aPath.pBegin,
            aRelComponents.aPath.pEnd);

        if (aRelComponents.aQuery.isPresent())
        {
            aBuffer.append(aRelComponents.aQuery.pBegin,
                           aRelComponents.aQuery.getLength());
        }
    }
    else
    {
        Components aBaseComponents;
        parseUriRef(pBaseUriRef, &aBaseComponents);
        if (!aBaseComponents.aScheme.isPresent())
        {
            rtl_uString_assign(
                pException,
                (OUString(
                    "<" + OUString::unacquired(&pBaseUriRef)
                    + "> does not start with a scheme component")
                 .pData));
            return false;
        }

        aBuffer.append(aBaseComponents.aScheme.pBegin,
                       aBaseComponents.aScheme.getLength());
        if (aRelComponents.aAuthority.isPresent())
        {
            aBuffer.append(aRelComponents.aAuthority.pBegin,
                           aRelComponents.aAuthority.getLength());
            appendPath(
                aBuffer, aBuffer.getLength(), false,
                aRelComponents.aPath.pBegin, aRelComponents.aPath.pEnd);

            if (aRelComponents.aQuery.isPresent())
            {
                aBuffer.append(aRelComponents.aQuery.pBegin,
                               aRelComponents.aQuery.getLength());
            }
        }
        else
        {
            if (aBaseComponents.aAuthority.isPresent())
            {
                aBuffer.append(aBaseComponents.aAuthority.pBegin,
                               aBaseComponents.aAuthority.getLength());
            }

            if (aRelComponents.aPath.pBegin == aRelComponents.aPath.pEnd)
            {
                aBuffer.append(aBaseComponents.aPath.pBegin,
                               aBaseComponents.aPath.getLength());
                if (aRelComponents.aQuery.isPresent())
                {
                    aBuffer.append(aRelComponents.aQuery.pBegin,
                                   aRelComponents.aQuery.getLength());
                }
                else if (aBaseComponents.aQuery.isPresent())
                {
                    aBuffer.append(aBaseComponents.aQuery.pBegin,
                                   aBaseComponents.aQuery.getLength());
                }
            }
            else
            {
                if (*aRelComponents.aPath.pBegin == '/')
                {
                    appendPath(
                        aBuffer, aBuffer.getLength(), false,
                        aRelComponents.aPath.pBegin, aRelComponents.aPath.pEnd);
                }
                else if (aBaseComponents.aAuthority.isPresent()
                         && aBaseComponents.aPath.pBegin
                            == aBaseComponents.aPath.pEnd)
                {
                    appendPath(
                        aBuffer, aBuffer.getLength(), true,
                        aRelComponents.aPath.pBegin, aRelComponents.aPath.pEnd);
                }
                else
                {
                    sal_Int32 n = aBuffer.getLength();
                    sal_Int32 i = rtl_ustr_lastIndexOfChar_WithLength(
                        aBaseComponents.aPath.pBegin,
                        aBaseComponents.aPath.getLength(), '/');

                    if (i >= 0)
                    {
                        appendPath(
                            aBuffer, n, false, aBaseComponents.aPath.pBegin,
                            aBaseComponents.aPath.pBegin + i);
                    }

                    appendPath(
                        aBuffer, n, i >= 0, aRelComponents.aPath.pBegin,
                        aRelComponents.aPath.pEnd);
                }

                if (aRelComponents.aQuery.isPresent())
                {
                    aBuffer.append(aRelComponents.aQuery.pBegin,
                                   aRelComponents.aQuery.getLength());
                }
            }
        }
    }
    if (aRelComponents.aFragment.isPresent())
    {
        aBuffer.append(aRelComponents.aFragment.pBegin,
                       aRelComponents.aFragment.getLength());
    }

    rtl_uString_assign(pResult, aBuffer.makeStringAndClear().pData);
    return true;
}

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