/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /************************************************************************* * * 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_tools.hxx" #include #include #include "rtl/tencinfo.h" #include #include namespace unnamed_tools_inetmime {} using namespace unnamed_tools_inetmime; // unnamed namespaces don't work well yet //============================================================================ namespace unnamed_tools_inetmime { class Charset { rtl_TextEncoding m_eEncoding; const sal_uInt32 * m_pRanges; public: inline Charset(rtl_TextEncoding eTheEncoding, const sal_uInt32 * pTheRanges); rtl_TextEncoding getEncoding() const { return m_eEncoding; } bool contains(sal_uInt32 nChar) const; }; inline Charset::Charset(rtl_TextEncoding eTheEncoding, const sal_uInt32 * pTheRanges): m_eEncoding(eTheEncoding), m_pRanges(pTheRanges) { DBG_ASSERT(m_pRanges, "Charset::Charset(): Bad ranges"); } //============================================================================ void appendISO88591(UniString & rText, sal_Char const * pBegin, sal_Char const * pEnd); } //============================================================================ class INetMIMECharsetList_Impl { struct Node { Charset m_aCharset; bool m_bDisabled; Node * m_pNext; inline Node(const Charset & rTheCharset, bool bTheDisabled, Node * pTheNext); }; Node * m_pFirst; public: INetMIMECharsetList_Impl(): m_pFirst(0) {} ~INetMIMECharsetList_Impl(); void prepend(const Charset & rCharset) { m_pFirst = new Node(rCharset, false, m_pFirst); } void includes(sal_uInt32 nChar); rtl_TextEncoding getPreferredEncoding(rtl_TextEncoding eDefault = RTL_TEXTENCODING_DONTKNOW) const; void reset(); }; inline INetMIMECharsetList_Impl::Node::Node(const Charset & rTheCharset, bool bTheDisabled, Node * pTheNext): m_aCharset(rTheCharset), m_bDisabled(bTheDisabled), m_pNext(pTheNext) {} //============================================================================ namespace unnamed_tools_inetmime { struct Parameter { Parameter * m_pNext; ByteString m_aAttribute; ByteString m_aCharset; ByteString m_aLanguage; ByteString m_aValue; sal_uInt32 m_nSection; bool m_bExtended; inline Parameter(Parameter * pTheNext, ByteString const & rTheAttribute, ByteString const & rTheCharset, ByteString const & rTheLanguage, ByteString const & rTheValue, sal_uInt32 nTheSection, bool bTheExtended); }; inline Parameter::Parameter(Parameter * pTheNext, ByteString const & rTheAttribute, ByteString const & rTheCharset, ByteString const & rTheLanguage, ByteString const & rTheValue, sal_uInt32 nTheSection, bool bTheExtended): m_pNext(pTheNext), m_aAttribute(rTheAttribute), m_aCharset(rTheCharset), m_aLanguage(rTheLanguage), m_aValue(rTheValue), m_nSection(nTheSection), m_bExtended(bTheExtended) {} //============================================================================ struct ParameterList { Parameter * m_pList; ParameterList(): m_pList(0) {} inline ~ParameterList(); Parameter ** find(ByteString const & rAttribute, sal_uInt32 nSection, bool & rPresent); }; inline ParameterList::~ParameterList() { while (m_pList) { Parameter * pNext = m_pList->m_pNext; delete m_pList; m_pList = pNext; } } //============================================================================ bool parseParameters(ParameterList const & rInput, INetContentTypeParameterList * pOutput); } //============================================================================ // // Charset // //============================================================================ bool Charset::contains(sal_uInt32 nChar) const { for (const sal_uInt32 * p = m_pRanges;;) { if (nChar < *p++) return false; if (nChar <= *p++) return true; } } //============================================================================ // // appendISO88591 // //============================================================================ namespace unnamed_tools_inetmime { void appendISO88591(UniString & rText, sal_Char const * pBegin, sal_Char const * pEnd) { xub_StrLen nLength = static_cast< xub_StrLen >(pEnd - pBegin); sal_Unicode * pBuffer = new sal_Unicode[nLength]; for (sal_Unicode * p = pBuffer; pBegin != pEnd;) *p++ = sal_uChar(*pBegin++); rText.Append(pBuffer, nLength); delete[] pBuffer; } } //============================================================================ // // INetMIMECharsetList_Impl // //============================================================================ INetMIMECharsetList_Impl::~INetMIMECharsetList_Impl() { while (m_pFirst) { Node * pRemove = m_pFirst; m_pFirst = m_pFirst->m_pNext; delete pRemove; } } //============================================================================ void INetMIMECharsetList_Impl::includes(sal_uInt32 nChar) { for (Node * p = m_pFirst; p; p = p->m_pNext) if (!(p->m_bDisabled || p->m_aCharset.contains(nChar))) p->m_bDisabled = true; } //============================================================================ rtl_TextEncoding INetMIMECharsetList_Impl::getPreferredEncoding(rtl_TextEncoding eDefault) const { for (Node * p = m_pFirst; p; p = p->m_pNext) if (!p->m_bDisabled) return p->m_aCharset.getEncoding(); return eDefault; } //============================================================================ void INetMIMECharsetList_Impl::reset() { for (Node * p = m_pFirst; p; p = p->m_pNext) p->m_bDisabled = false; } //============================================================================ // // ParameterList // //============================================================================ Parameter ** ParameterList::find(ByteString const & rAttribute, sal_uInt32 nSection, bool & rPresent) { Parameter ** p = &m_pList; for (; *p; p = &(*p)->m_pNext) { StringCompare eCompare = rAttribute.CompareTo((*p)->m_aAttribute); if (eCompare == COMPARE_GREATER) break; else if (eCompare == COMPARE_EQUAL) { if (nSection > (*p)->m_nSection) break; else if (nSection == (*p)->m_nSection) { rPresent = true; return p; } } } rPresent = false; return p; } //============================================================================ // // parseParameters // //============================================================================ namespace unnamed_tools_inetmime { bool parseParameters(ParameterList const & rInput, INetContentTypeParameterList * pOutput) { if (pOutput) pOutput->Clear(); Parameter * pPrev = 0; for (Parameter * p = rInput.m_pList; p; p = p->m_pNext) { if (p->m_nSection > 0 && (!pPrev || pPrev->m_nSection != p->m_nSection - 1 || pPrev->m_aAttribute != p->m_aAttribute)) return false; pPrev = p; } if (pOutput) for (Parameter * p = rInput.m_pList; p;) { bool bCharset = p->m_aCharset.Len() != 0; rtl_TextEncoding eEncoding = RTL_TEXTENCODING_DONTKNOW; if (bCharset) eEncoding = INetMIME::getCharsetEncoding(p->m_aCharset.GetBuffer(), p->m_aCharset.GetBuffer() + rInput.m_pList-> m_aCharset. Len()); UniString aValue; bool bBadEncoding = false; Parameter * pNext = p; do { sal_Size nSize; sal_Unicode * pUnicode = INetMIME::convertToUnicode(pNext->m_aValue.GetBuffer(), pNext->m_aValue.GetBuffer() + pNext->m_aValue.Len(), bCharset && p->m_bExtended ? eEncoding : RTL_TEXTENCODING_UTF8, nSize); if (!pUnicode && !(bCharset && p->m_bExtended)) pUnicode = INetMIME::convertToUnicode( pNext->m_aValue.GetBuffer(), pNext->m_aValue.GetBuffer() + pNext->m_aValue.Len(), RTL_TEXTENCODING_ISO_8859_1, nSize); if (!pUnicode) { bBadEncoding = true; break; } aValue += UniString(pUnicode, static_cast< xub_StrLen >(nSize)); delete[] pUnicode; pNext = pNext->m_pNext; } while (pNext && pNext->m_nSection > 0); if (bBadEncoding) { aValue.Erase(); for (pNext = p;;) { if (pNext->m_bExtended) for (xub_StrLen i = 0; i < pNext->m_aValue.Len(); ++i) aValue += sal_Unicode( sal_Unicode( sal_uChar(pNext->m_aValue.GetChar(i))) | 0xF800); else for (xub_StrLen i = 0; i < pNext->m_aValue.Len(); ++i) aValue += sal_Unicode(sal_uChar (pNext-> m_aValue.GetChar(i))); pNext = pNext->m_pNext; if (!pNext || pNext->m_nSection == 0) break; }; } pOutput->Append(new INetContentTypeParameter(p->m_aAttribute, p->m_aCharset, p->m_aLanguage, aValue, !bBadEncoding)); p = pNext; } return true; } } //============================================================================ // // INetMIME // //============================================================================ // static bool INetMIME::isAtomChar(sal_uInt32 nChar) { static const bool aMap[128] = { false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, true, false, true, true, true, true, true, // !"#$%&' false, false, true, true, false, true, false, true, //()*+,-./ true, true, true, true, true, true, true, true, //01234567 true, true, false, false, false, true, false, true, //89:;<=>? false, true, true, true, true, true, true, true, //@ABCDEFG true, true, true, true, true, true, true, true, //HIJKLMNO true, true, true, true, true, true, true, true, //PQRSTUVW true, true, true, false, false, false, true, true, //XYZ[\]^_ true, true, true, true, true, true, true, true, //`abcdefg true, true, true, true, true, true, true, true, //hijklmno true, true, true, true, true, true, true, true, //pqrstuvw true, true, true, true, true, true, true, false //xyz{|}~ }; return isUSASCII(nChar) && aMap[nChar]; } //============================================================================ // static bool INetMIME::isTokenChar(sal_uInt32 nChar) { static const sal_Char aMap[128] = { false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, true, false, true, true, true, true, true, // !"#$%&' false, false, true, true, false, true, true, false, //()*+,-./ true, true, true, true, true, true, true, true, //01234567 true, true, false, false, false, false, false, false, //89:;<=>? false, true, true, true, true, true, true, true, //@ABCDEFG true, true, true, true, true, true, true, true, //HIJKLMNO true, true, true, true, true, true, true, true, //PQRSTUVW true, true, true, false, false, false, true, true, //XYZ[\]^_ true, true, true, true, true, true, true, true, //`abcdefg true, true, true, true, true, true, true, true, //hijklmno true, true, true, true, true, true, true, true, //pqrstuvw true, true, true, true, true, true, true, false //xyz{|}~ }; return isUSASCII(nChar) && aMap[nChar]; } //============================================================================ // static bool INetMIME::isEncodedWordTokenChar(sal_uInt32 nChar) { static const sal_Char aMap[128] = { false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, true, false, true, true, true, true, true, // !"#$%&' false, false, true, true, false, true, false, false, //()*+,-./ true, true, true, true, true, true, true, true, //01234567 true, true, false, false, false, false, false, false, //89:;<=>? false, true, true, true, true, true, true, true, //@ABCDEFG true, true, true, true, true, true, true, true, //HIJKLMNO true, true, true, true, true, true, true, true, //PQRSTUVW true, true, true, false, false, false, true, true, //XYZ[\]^_ true, true, true, true, true, true, true, true, //`abcdefg true, true, true, true, true, true, true, true, //hijklmno true, true, true, true, true, true, true, true, //pqrstuvw true, true, true, true, true, true, true, false //xyz{|}~ }; return isUSASCII(nChar) && aMap[nChar]; } //============================================================================ // static bool INetMIME::isIMAPAtomChar(sal_uInt32 nChar) { static const sal_Char aMap[128] = { false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, true, false, true, true, false, true, true, // !"#$%&' false, false, false, true, true, true, true, true, //()*+,-./ true, true, true, true, true, true, true, true, //01234567 true, true, true, true, true, true, true, true, //89:;<=>? true, true, true, true, true, true, true, true, //@ABCDEFG true, true, true, true, true, true, true, true, //HIJKLMNO true, true, true, true, true, true, true, true, //PQRSTUVW true, true, true, true, false, true, true, true, //XYZ[\]^_ true, true, true, true, true, true, true, true, //`abcdefg true, true, true, true, true, true, true, true, //hijklmno true, true, true, true, true, true, true, true, //pqrstuvw true, true, true, false, true, true, true, false //xyz{|}~ }; return isUSASCII(nChar) && aMap[nChar]; } //============================================================================ // static sal_uInt32 INetMIME::getHexDigit(int nWeight) { DBG_ASSERT(nWeight >= 0 && nWeight < 16, "INetMIME::getHexDigit(): Bad weight"); static const sal_Char aDigits[16] = { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F' }; return aDigits[nWeight]; } //============================================================================ // static bool INetMIME::equalIgnoreCase(const sal_Char * pBegin1, const sal_Char * pEnd1, const sal_Char * pString2) { DBG_ASSERT(pBegin1 && pBegin1 <= pEnd1 && pString2, "INetMIME::equalIgnoreCase(): Bad sequences"); while (*pString2 != 0) if (pBegin1 == pEnd1 || toUpperCase(*pBegin1++) != toUpperCase(*pString2++)) return false; return pBegin1 == pEnd1; } //============================================================================ // static bool INetMIME::equalIgnoreCase(const sal_Unicode * pBegin1, const sal_Unicode * pEnd1, const sal_Char * pString2) { DBG_ASSERT(pBegin1 && pBegin1 <= pEnd1 && pString2, "INetMIME::equalIgnoreCase(): Bad sequences"); while (*pString2 != 0) if (pBegin1 == pEnd1 || toUpperCase(*pBegin1++) != toUpperCase(*pString2++)) return false; return pBegin1 == pEnd1; } //============================================================================ // static const sal_Unicode * INetMIME::skipLinearWhiteSpace(const sal_Unicode * pBegin, const sal_Unicode * pEnd) { DBG_ASSERT(pBegin && pBegin <= pEnd, "INetMIME::skipLinearWhiteSpace(): Bad sequence"); while (pBegin != pEnd) switch (*pBegin) { case '\t': case ' ': ++pBegin; break; case 0x0D: // CR if (startsWithLineFolding(pBegin, pEnd)) pBegin += 3; else return pBegin; break; default: return pBegin; } return pBegin; } //============================================================================ // static const sal_Char * INetMIME::skipComment(const sal_Char * pBegin, const sal_Char * pEnd) { DBG_ASSERT(pBegin && pBegin <= pEnd, "INetMIME::skipComment(): Bad sequence"); if (pBegin != pEnd && *pBegin == '(') { sal_uInt32 nLevel = 0; for (const sal_Char * p = pBegin; p != pEnd;) switch (*p++) { case '(': ++nLevel; break; case ')': if (--nLevel == 0) return p; break; case '\\': if (p != pEnd) ++p; break; } } return pBegin; } //============================================================================ // static const sal_Unicode * INetMIME::skipComment(const sal_Unicode * pBegin, const sal_Unicode * pEnd) { DBG_ASSERT(pBegin && pBegin <= pEnd, "INetMIME::skipComment(): Bad sequence"); if (pBegin != pEnd && *pBegin == '(') { sal_uInt32 nLevel = 0; for (const sal_Unicode * p = pBegin; p != pEnd;) switch (*p++) { case '(': ++nLevel; break; case ')': if (--nLevel == 0) return p; break; case '\\': if (p != pEnd) ++p; break; } } return pBegin; } //============================================================================ // static const sal_Char * INetMIME::skipLinearWhiteSpaceComment(const sal_Char * pBegin, const sal_Char * pEnd) { DBG_ASSERT(pBegin && pBegin <= pEnd, "INetMIME::skipLinearWhiteSpaceComment(): Bad sequence"); while (pBegin != pEnd) switch (*pBegin) { case '\t': case ' ': ++pBegin; break; case 0x0D: // CR if (startsWithLineFolding(pBegin, pEnd)) pBegin += 3; else return pBegin; break; case '(': { const sal_Char * p = skipComment(pBegin, pEnd); if (p == pBegin) return pBegin; pBegin = p; break; } default: return pBegin; } return pBegin; } //============================================================================ // static const sal_Unicode * INetMIME::skipLinearWhiteSpaceComment(const sal_Unicode * pBegin, const sal_Unicode * pEnd) { DBG_ASSERT(pBegin && pBegin <= pEnd, "INetMIME::skipLinearWhiteSpaceComment(): Bad sequence"); while (pBegin != pEnd) switch (*pBegin) { case '\t': case ' ': ++pBegin; break; case 0x0D: // CR if (startsWithLineFolding(pBegin, pEnd)) pBegin += 3; else return pBegin; break; case '(': { const sal_Unicode * p = skipComment(pBegin, pEnd); if (p == pBegin) return pBegin; pBegin = p; break; } default: return pBegin; } return pBegin; } //============================================================================ // static const sal_Char * INetMIME::skipQuotedString(const sal_Char * pBegin, const sal_Char * pEnd) { DBG_ASSERT(pBegin && pBegin <= pEnd, "INetMIME::skipQuotedString(): Bad sequence"); if (pBegin != pEnd && *pBegin == '"') for (const sal_Char * p = pBegin + 1; p != pEnd;) switch (*p++) { case 0x0D: // CR if (pEnd - p < 2 || *p++ != 0x0A // LF || !isWhiteSpace(*p++)) return pBegin; break; case '"': return p; case '\\': if (p != pEnd) ++p; break; } return pBegin; } //============================================================================ // static const sal_Unicode * INetMIME::skipQuotedString(const sal_Unicode * pBegin, const sal_Unicode * pEnd) { DBG_ASSERT(pBegin && pBegin <= pEnd, "INetMIME::skipQuotedString(): Bad sequence"); if (pBegin != pEnd && *pBegin == '"') for (const sal_Unicode * p = pBegin + 1; p != pEnd;) switch (*p++) { case 0x0D: // CR if (pEnd - p < 2 || *p++ != 0x0A // LF || !isWhiteSpace(*p++)) return pBegin; break; case '"': return p; case '\\': if (p != pEnd) ++p; break; } return pBegin; } //============================================================================ // static bool INetMIME::scanUnsigned(const sal_Char *& rBegin, const sal_Char * pEnd, bool bLeadingZeroes, sal_uInt32 & rValue) { sal_uInt64 nTheValue = 0; const sal_Char * p = rBegin; for ( ; p != pEnd; ++p) { int nWeight = getWeight(*p); if (nWeight < 0) break; nTheValue = 10 * nTheValue + nWeight; if (nTheValue > std::numeric_limits< sal_uInt32 >::max()) return false; } if (nTheValue == 0 && (p == rBegin || (!bLeadingZeroes && p - rBegin != 1))) return false; rBegin = p; rValue = sal_uInt32(nTheValue); return true; } //============================================================================ // static bool INetMIME::scanUnsigned(const sal_Unicode *& rBegin, const sal_Unicode * pEnd, bool bLeadingZeroes, sal_uInt32 & rValue) { sal_uInt64 nTheValue = 0; const sal_Unicode * p = rBegin; for ( ; p != pEnd; ++p) { int nWeight = getWeight(*p); if (nWeight < 0) break; nTheValue = 10 * nTheValue + nWeight; if (nTheValue > std::numeric_limits< sal_uInt32 >::max()) return false; } if (nTheValue == 0 && (p == rBegin || (!bLeadingZeroes && p - rBegin != 1))) return false; rBegin = p; rValue = sal_uInt32(nTheValue); return true; } //============================================================================ // static const sal_Unicode * INetMIME::scanQuotedBlock(const sal_Unicode * pBegin, const sal_Unicode * pEnd, sal_uInt32 nOpening, sal_uInt32 nClosing, sal_Size & rLength, bool & rModify) { DBG_ASSERT(pBegin && pBegin <= pEnd, "INetMIME::scanQuotedBlock(): Bad sequence"); if (pBegin != pEnd && *pBegin == nOpening) { ++rLength; ++pBegin; while (pBegin != pEnd) if (*pBegin == nClosing) { ++rLength; return ++pBegin; } else { sal_uInt32 c = *pBegin++; switch (c) { case 0x0D: // CR if (pBegin != pEnd && *pBegin == 0x0A) // LF if (pEnd - pBegin >= 2 && isWhiteSpace(pBegin[1])) { ++rLength; rModify = true; pBegin += 2; } else { rLength += 3; rModify = true; ++pBegin; } else ++rLength; break; case '\\': ++rLength; if (pBegin != pEnd) { if (startsWithLineBreak(pBegin, pEnd) && (pEnd - pBegin < 3 || !isWhiteSpace(pBegin[2]))) { rLength += 3; rModify = true; pBegin += 2; } else ++pBegin; } break; default: ++rLength; if (!isUSASCII(c)) rModify = true; break; } } } return pBegin; } //============================================================================ // static sal_Char const * INetMIME::scanParameters(sal_Char const * pBegin, sal_Char const * pEnd, INetContentTypeParameterList * pParameters) { ParameterList aList; sal_Char const * pParameterBegin = pBegin; for (sal_Char const * p = pParameterBegin;; pParameterBegin = p) { pParameterBegin = skipLinearWhiteSpaceComment(p, pEnd); if (pParameterBegin == pEnd || *pParameterBegin != ';') break; p = pParameterBegin + 1; sal_Char const * pAttributeBegin = skipLinearWhiteSpaceComment(p, pEnd); p = pAttributeBegin; bool bDowncaseAttribute = false; while (p != pEnd && isTokenChar(*p) && *p != '*') { bDowncaseAttribute = bDowncaseAttribute || isUpperCase(*p); ++p; } if (p == pAttributeBegin) break; ByteString aAttribute( pAttributeBegin, static_cast< xub_StrLen >(p - pAttributeBegin)); if (bDowncaseAttribute) aAttribute.ToLowerAscii(); sal_uInt32 nSection = 0; if (p != pEnd && *p == '*') { ++p; if (p != pEnd && isDigit(*p) && !scanUnsigned(p, pEnd, false, nSection)) break; } bool bPresent; Parameter ** pPos = aList.find(aAttribute, nSection, bPresent); bool bExtended = false; if (p != pEnd && *p == '*') { ++p; bExtended = true; } p = skipLinearWhiteSpaceComment(p, pEnd); if (p == pEnd || *p != '=') break; p = skipLinearWhiteSpaceComment(p + 1, pEnd); ByteString aCharset; ByteString aLanguage; ByteString aValue; if (bExtended) { if (nSection == 0) { sal_Char const * pCharsetBegin = p; bool bDowncaseCharset = false; while (p != pEnd && isTokenChar(*p) && *p != '\'') { bDowncaseCharset = bDowncaseCharset || isUpperCase(*p); ++p; } if (p == pCharsetBegin) break; if (pParameters) { aCharset = ByteString( pCharsetBegin, static_cast< xub_StrLen >(p - pCharsetBegin)); if (bDowncaseCharset) aCharset.ToLowerAscii(); } if (p == pEnd || *p != '\'') break; ++p; sal_Char const * pLanguageBegin = p; bool bDowncaseLanguage = false; int nLetters = 0; for (; p != pEnd; ++p) if (isAlpha(*p)) { if (++nLetters > 8) break; bDowncaseLanguage = bDowncaseLanguage || isUpperCase(*p); } else if (*p == '-') { if (nLetters == 0) break; nLetters = 0; } else break; if (nLetters == 0 || nLetters > 8) break; if (pParameters) { aLanguage = ByteString( pLanguageBegin, static_cast< xub_StrLen >(p - pLanguageBegin)); if (bDowncaseLanguage) aLanguage.ToLowerAscii(); } if (p == pEnd || *p != '\'') break; ++p; } if (pParameters) while (p != pEnd && (isTokenChar(*p) || !isUSASCII(*p))) { if (*p == '%') { if (p + 2 < pEnd) { int nWeight1 = getHexWeight(p[1]); int nWeight2 = getHexWeight(p[2]); if (nWeight1 >= 0 && nWeight2 >= 0) { aValue += sal_Char(nWeight1 << 4 | nWeight2); p += 3; continue; } } } aValue += *p++; } else while (p != pEnd && (isTokenChar(*p) || !isUSASCII(*p))) ++p; } else if (p != pEnd && *p == '"') if (pParameters) { bool bInvalid = false; for (++p;;) { if (p == pEnd) { bInvalid = true; break; } else if (*p == '"') { ++p; break; } else if (*p == 0x0D) // CR { if (pEnd - p < 3 || p[1] != 0x0A // LF || !isWhiteSpace(p[2])) { bInvalid = true; break; } p += 2; } else if (*p == '\\' && ++p == pEnd) { bInvalid = true; break; } aValue += *p++; } if (bInvalid) break; } else { sal_Char const * pStringEnd = skipQuotedString(p, pEnd); if (p == pStringEnd) break; p = pStringEnd; } else { sal_Char const * pTokenBegin = p; while (p != pEnd && (isTokenChar(*p) || !isUSASCII(*p))) ++p; if (p == pTokenBegin) break; if (pParameters) aValue = ByteString( pTokenBegin, static_cast< xub_StrLen >(p - pTokenBegin)); } if (!bPresent) *pPos = new Parameter(*pPos, aAttribute, aCharset, aLanguage, aValue, nSection, bExtended); } return parseParameters(aList, pParameters) ? pParameterBegin : pBegin; } //============================================================================ // static sal_Unicode const * INetMIME::scanParameters(sal_Unicode const * pBegin, sal_Unicode const * pEnd, INetContentTypeParameterList * pParameters) { ParameterList aList; sal_Unicode const * pParameterBegin = pBegin; for (sal_Unicode const * p = pParameterBegin;; pParameterBegin = p) { pParameterBegin = skipLinearWhiteSpaceComment(p, pEnd); if (pParameterBegin == pEnd || *pParameterBegin != ';') break; p = pParameterBegin + 1; sal_Unicode const * pAttributeBegin = skipLinearWhiteSpaceComment(p, pEnd); p = pAttributeBegin; bool bDowncaseAttribute = false; while (p != pEnd && isTokenChar(*p) && *p != '*') { bDowncaseAttribute = bDowncaseAttribute || isUpperCase(*p); ++p; } if (p == pAttributeBegin) break; ByteString aAttribute = ByteString( pAttributeBegin, static_cast< xub_StrLen >(p - pAttributeBegin), RTL_TEXTENCODING_ASCII_US); if (bDowncaseAttribute) aAttribute.ToLowerAscii(); sal_uInt32 nSection = 0; if (p != pEnd && *p == '*') { ++p; if (p != pEnd && isDigit(*p) && !scanUnsigned(p, pEnd, false, nSection)) break; } bool bPresent; Parameter ** pPos = aList.find(aAttribute, nSection, bPresent); if (bPresent) break; bool bExtended = false; if (p != pEnd && *p == '*') { ++p; bExtended = true; } p = skipLinearWhiteSpaceComment(p, pEnd); if (p == pEnd || *p != '=') break; p = skipLinearWhiteSpaceComment(p + 1, pEnd); ByteString aCharset; ByteString aLanguage; ByteString aValue; if (bExtended) { if (nSection == 0) { sal_Unicode const * pCharsetBegin = p; bool bDowncaseCharset = false; while (p != pEnd && isTokenChar(*p) && *p != '\'') { bDowncaseCharset = bDowncaseCharset || isUpperCase(*p); ++p; } if (p == pCharsetBegin) break; if (pParameters) { aCharset = ByteString( pCharsetBegin, static_cast< xub_StrLen >(p - pCharsetBegin), RTL_TEXTENCODING_ASCII_US); if (bDowncaseCharset) aCharset.ToLowerAscii(); } if (p == pEnd || *p != '\'') break; ++p; sal_Unicode const * pLanguageBegin = p; bool bDowncaseLanguage = false; int nLetters = 0; for (; p != pEnd; ++p) if (isAlpha(*p)) { if (++nLetters > 8) break; bDowncaseLanguage = bDowncaseLanguage || isUpperCase(*p); } else if (*p == '-') { if (nLetters == 0) break; nLetters = 0; } else break; if (nLetters == 0 || nLetters > 8) break; if (pParameters) { aLanguage = ByteString( pLanguageBegin, static_cast< xub_StrLen >(p - pLanguageBegin), RTL_TEXTENCODING_ASCII_US); if (bDowncaseLanguage) aLanguage.ToLowerAscii(); } if (p == pEnd || *p != '\'') break; ++p; } if (pParameters) { INetMIMEStringOutputSink aSink(0, INetMIMEOutputSink::NO_LINE_LENGTH_LIMIT); while (p != pEnd) { sal_uInt32 nChar = INetMIME::getUTF32Character(p, pEnd); if (isUSASCII(nChar) && !isTokenChar(nChar)) break; if (nChar == '%' && p + 1 < pEnd) { int nWeight1 = getHexWeight(p[0]); int nWeight2 = getHexWeight(p[1]); if (nWeight1 >= 0 && nWeight2 >= 0) { aSink << sal_Char(nWeight1 << 4 | nWeight2); p += 2; continue; } } INetMIME::writeUTF8(aSink, nChar); } aValue = aSink.takeBuffer(); } else while (p != pEnd && (isTokenChar(*p) || !isUSASCII(*p))) ++p; } else if (p != pEnd && *p == '"') if (pParameters) { INetMIMEStringOutputSink aSink(0, INetMIMEOutputSink::NO_LINE_LENGTH_LIMIT); bool bInvalid = false; for (++p;;) { if (p == pEnd) { bInvalid = true; break; } sal_uInt32 nChar = INetMIME::getUTF32Character(p, pEnd); if (nChar == '"') break; else if (nChar == 0x0D) // CR { if (pEnd - p < 2 || *p++ != 0x0A // LF || !isWhiteSpace(*p)) { bInvalid = true; break; } nChar = sal_uChar(*p++); } else if (nChar == '\\') { if (p == pEnd) { bInvalid = true; break; } nChar = INetMIME::getUTF32Character(p, pEnd); } INetMIME::writeUTF8(aSink, nChar); } if (bInvalid) break; aValue = aSink.takeBuffer(); } else { sal_Unicode const * pStringEnd = skipQuotedString(p, pEnd); if (p == pStringEnd) break; p = pStringEnd; } else { sal_Unicode const * pTokenBegin = p; while (p != pEnd && (isTokenChar(*p) || !isUSASCII(*p))) ++p; if (p == pTokenBegin) break; if (pParameters) aValue = ByteString( pTokenBegin, static_cast< xub_StrLen >(p - pTokenBegin), RTL_TEXTENCODING_UTF8); } *pPos = new Parameter(*pPos, aAttribute, aCharset, aLanguage, aValue, nSection, bExtended); } return parseParameters(aList, pParameters) ? pParameterBegin : pBegin; } //============================================================================ // static const sal_Char * INetMIME::getCharsetName(rtl_TextEncoding eEncoding) { if (rtl_isOctetTextEncoding(eEncoding)) { char const * p = rtl_getMimeCharsetFromTextEncoding(eEncoding); DBG_ASSERT(p, "INetMIME::getCharsetName(): Unsupported encoding"); return p; } else switch (eEncoding) { case RTL_TEXTENCODING_UCS4: return "ISO-10646-UCS-4"; case RTL_TEXTENCODING_UCS2: return "ISO-10646-UCS-2"; default: OSL_FAIL("INetMIME::getCharsetName(): Unsupported encoding"); return 0; } } //============================================================================ namespace unnamed_tools_inetmime { struct EncodingEntry { sal_Char const * m_aName; rtl_TextEncoding m_eEncoding; }; //============================================================================ // The source for the following table is as of Jan, 21 2000 12:46:00, unless otherwise // noted: EncodingEntry const aEncodingMap[] = { { "US-ASCII", RTL_TEXTENCODING_ASCII_US }, { "ANSI_X3.4-1968", RTL_TEXTENCODING_ASCII_US }, { "ISO-IR-6", RTL_TEXTENCODING_ASCII_US }, { "ANSI_X3.4-1986", RTL_TEXTENCODING_ASCII_US }, { "ISO_646.IRV:1991", RTL_TEXTENCODING_ASCII_US }, { "ASCII", RTL_TEXTENCODING_ASCII_US }, { "ISO646-US", RTL_TEXTENCODING_ASCII_US }, { "US", RTL_TEXTENCODING_ASCII_US }, { "IBM367", RTL_TEXTENCODING_ASCII_US }, { "CP367", RTL_TEXTENCODING_ASCII_US }, { "CSASCII", RTL_TEXTENCODING_ASCII_US }, { "ISO-8859-1", RTL_TEXTENCODING_ISO_8859_1 }, { "ISO_8859-1:1987", RTL_TEXTENCODING_ISO_8859_1 }, { "ISO-IR-100", RTL_TEXTENCODING_ISO_8859_1 }, { "ISO_8859-1", RTL_TEXTENCODING_ISO_8859_1 }, { "LATIN1", RTL_TEXTENCODING_ISO_8859_1 }, { "L1", RTL_TEXTENCODING_ISO_8859_1 }, { "IBM819", RTL_TEXTENCODING_ISO_8859_1 }, { "CP819", RTL_TEXTENCODING_ISO_8859_1 }, { "CSISOLATIN1", RTL_TEXTENCODING_ISO_8859_1 }, { "ISO-8859-2", RTL_TEXTENCODING_ISO_8859_2 }, { "ISO_8859-2:1987", RTL_TEXTENCODING_ISO_8859_2 }, { "ISO-IR-101", RTL_TEXTENCODING_ISO_8859_2 }, { "ISO_8859-2", RTL_TEXTENCODING_ISO_8859_2 }, { "LATIN2", RTL_TEXTENCODING_ISO_8859_2 }, { "L2", RTL_TEXTENCODING_ISO_8859_2 }, { "CSISOLATIN2", RTL_TEXTENCODING_ISO_8859_2 }, { "ISO-8859-3", RTL_TEXTENCODING_ISO_8859_3 }, { "ISO_8859-3:1988", RTL_TEXTENCODING_ISO_8859_3 }, { "ISO-IR-109", RTL_TEXTENCODING_ISO_8859_3 }, { "ISO_8859-3", RTL_TEXTENCODING_ISO_8859_3 }, { "LATIN3", RTL_TEXTENCODING_ISO_8859_3 }, { "L3", RTL_TEXTENCODING_ISO_8859_3 }, { "CSISOLATIN3", RTL_TEXTENCODING_ISO_8859_3 }, { "ISO-8859-4", RTL_TEXTENCODING_ISO_8859_4 }, { "ISO_8859-4:1988", RTL_TEXTENCODING_ISO_8859_4 }, { "ISO-IR-110", RTL_TEXTENCODING_ISO_8859_4 }, { "ISO_8859-4", RTL_TEXTENCODING_ISO_8859_4 }, { "LATIN4", RTL_TEXTENCODING_ISO_8859_4 }, { "L4", RTL_TEXTENCODING_ISO_8859_4 }, { "CSISOLATIN4", RTL_TEXTENCODING_ISO_8859_4 }, { "ISO-8859-5", RTL_TEXTENCODING_ISO_8859_5 }, { "ISO_8859-5:1988", RTL_TEXTENCODING_ISO_8859_5 }, { "ISO-IR-144", RTL_TEXTENCODING_ISO_8859_5 }, { "ISO_8859-5", RTL_TEXTENCODING_ISO_8859_5 }, { "CYRILLIC", RTL_TEXTENCODING_ISO_8859_5 }, { "CSISOLATINCYRILLIC", RTL_TEXTENCODING_ISO_8859_5 }, { "ISO-8859-6", RTL_TEXTENCODING_ISO_8859_6 }, { "ISO_8859-6:1987", RTL_TEXTENCODING_ISO_8859_6 }, { "ISO-IR-127", RTL_TEXTENCODING_ISO_8859_6 }, { "ISO_8859-6", RTL_TEXTENCODING_ISO_8859_6 }, { "ECMA-114", RTL_TEXTENCODING_ISO_8859_6 }, { "ASMO-708", RTL_TEXTENCODING_ISO_8859_6 }, { "ARABIC", RTL_TEXTENCODING_ISO_8859_6 }, { "CSISOLATINARABIC", RTL_TEXTENCODING_ISO_8859_6 }, { "ISO-8859-7", RTL_TEXTENCODING_ISO_8859_7 }, { "ISO_8859-7:1987", RTL_TEXTENCODING_ISO_8859_7 }, { "ISO-IR-126", RTL_TEXTENCODING_ISO_8859_7 }, { "ISO_8859-7", RTL_TEXTENCODING_ISO_8859_7 }, { "ELOT_928", RTL_TEXTENCODING_ISO_8859_7 }, { "ECMA-118", RTL_TEXTENCODING_ISO_8859_7 }, { "GREEK", RTL_TEXTENCODING_ISO_8859_7 }, { "GREEK8", RTL_TEXTENCODING_ISO_8859_7 }, { "CSISOLATINGREEK", RTL_TEXTENCODING_ISO_8859_7 }, { "ISO-8859-8", RTL_TEXTENCODING_ISO_8859_8 }, { "ISO_8859-8:1988", RTL_TEXTENCODING_ISO_8859_8 }, { "ISO-IR-138", RTL_TEXTENCODING_ISO_8859_8 }, { "ISO_8859-8", RTL_TEXTENCODING_ISO_8859_8 }, { "HEBREW", RTL_TEXTENCODING_ISO_8859_8 }, { "CSISOLATINHEBREW", RTL_TEXTENCODING_ISO_8859_8 }, { "ISO-8859-9", RTL_TEXTENCODING_ISO_8859_9 }, { "ISO_8859-9:1989", RTL_TEXTENCODING_ISO_8859_9 }, { "ISO-IR-148", RTL_TEXTENCODING_ISO_8859_9 }, { "ISO_8859-9", RTL_TEXTENCODING_ISO_8859_9 }, { "LATIN5", RTL_TEXTENCODING_ISO_8859_9 }, { "L5", RTL_TEXTENCODING_ISO_8859_9 }, { "CSISOLATIN5", RTL_TEXTENCODING_ISO_8859_9 }, { "ISO-8859-14", RTL_TEXTENCODING_ISO_8859_14 }, // RFC 2047 { "ISO_8859-15", RTL_TEXTENCODING_ISO_8859_15 }, { "ISO-8859-15", RTL_TEXTENCODING_ISO_8859_15 }, // RFC 2047 { "MACINTOSH", RTL_TEXTENCODING_APPLE_ROMAN }, { "MAC", RTL_TEXTENCODING_APPLE_ROMAN }, { "CSMACINTOSH", RTL_TEXTENCODING_APPLE_ROMAN }, { "IBM437", RTL_TEXTENCODING_IBM_437 }, { "CP437", RTL_TEXTENCODING_IBM_437 }, { "437", RTL_TEXTENCODING_IBM_437 }, { "CSPC8CODEPAGE437", RTL_TEXTENCODING_IBM_437 }, { "IBM850", RTL_TEXTENCODING_IBM_850 }, { "CP850", RTL_TEXTENCODING_IBM_850 }, { "850", RTL_TEXTENCODING_IBM_850 }, { "CSPC850MULTILINGUAL", RTL_TEXTENCODING_IBM_850 }, { "IBM860", RTL_TEXTENCODING_IBM_860 }, { "CP860", RTL_TEXTENCODING_IBM_860 }, { "860", RTL_TEXTENCODING_IBM_860 }, { "CSIBM860", RTL_TEXTENCODING_IBM_860 }, { "IBM861", RTL_TEXTENCODING_IBM_861 }, { "CP861", RTL_TEXTENCODING_IBM_861 }, { "861", RTL_TEXTENCODING_IBM_861 }, { "CP-IS", RTL_TEXTENCODING_IBM_861 }, { "CSIBM861", RTL_TEXTENCODING_IBM_861 }, { "IBM863", RTL_TEXTENCODING_IBM_863 }, { "CP863", RTL_TEXTENCODING_IBM_863 }, { "863", RTL_TEXTENCODING_IBM_863 }, { "CSIBM863", RTL_TEXTENCODING_IBM_863 }, { "IBM865", RTL_TEXTENCODING_IBM_865 }, { "CP865", RTL_TEXTENCODING_IBM_865 }, { "865", RTL_TEXTENCODING_IBM_865 }, { "CSIBM865", RTL_TEXTENCODING_IBM_865 }, { "IBM775", RTL_TEXTENCODING_IBM_775 }, { "CP775", RTL_TEXTENCODING_IBM_775 }, { "CSPC775BALTIC", RTL_TEXTENCODING_IBM_775 }, { "IBM852", RTL_TEXTENCODING_IBM_852 }, { "CP852", RTL_TEXTENCODING_IBM_852 }, { "852", RTL_TEXTENCODING_IBM_852 }, { "CSPCP852", RTL_TEXTENCODING_IBM_852 }, { "IBM855", RTL_TEXTENCODING_IBM_855 }, { "CP855", RTL_TEXTENCODING_IBM_855 }, { "855", RTL_TEXTENCODING_IBM_855 }, { "CSIBM855", RTL_TEXTENCODING_IBM_855 }, { "IBM857", RTL_TEXTENCODING_IBM_857 }, { "CP857", RTL_TEXTENCODING_IBM_857 }, { "857", RTL_TEXTENCODING_IBM_857 }, { "CSIBM857", RTL_TEXTENCODING_IBM_857 }, { "IBM862", RTL_TEXTENCODING_IBM_862 }, { "CP862", RTL_TEXTENCODING_IBM_862 }, { "862", RTL_TEXTENCODING_IBM_862 }, { "CSPC862LATINHEBREW", RTL_TEXTENCODING_IBM_862 }, { "IBM864", RTL_TEXTENCODING_IBM_864 }, { "CP864", RTL_TEXTENCODING_IBM_864 }, { "CSIBM864", RTL_TEXTENCODING_IBM_864 }, { "IBM866", RTL_TEXTENCODING_IBM_866 }, { "CP866", RTL_TEXTENCODING_IBM_866 }, { "866", RTL_TEXTENCODING_IBM_866 }, { "CSIBM866", RTL_TEXTENCODING_IBM_866 }, { "IBM869", RTL_TEXTENCODING_IBM_869 }, { "CP869", RTL_TEXTENCODING_IBM_869 }, { "869", RTL_TEXTENCODING_IBM_869 }, { "CP-GR", RTL_TEXTENCODING_IBM_869 }, { "CSIBM869", RTL_TEXTENCODING_IBM_869 }, { "WINDOWS-1250", RTL_TEXTENCODING_MS_1250 }, { "WINDOWS-1251", RTL_TEXTENCODING_MS_1251 }, { "WINDOWS-1253", RTL_TEXTENCODING_MS_1253 }, { "WINDOWS-1254", RTL_TEXTENCODING_MS_1254 }, { "WINDOWS-1255", RTL_TEXTENCODING_MS_1255 }, { "WINDOWS-1256", RTL_TEXTENCODING_MS_1256 }, { "WINDOWS-1257", RTL_TEXTENCODING_MS_1257 }, { "WINDOWS-1258", RTL_TEXTENCODING_MS_1258 }, { "SHIFT_JIS", RTL_TEXTENCODING_SHIFT_JIS }, { "MS_KANJI", RTL_TEXTENCODING_SHIFT_JIS }, { "CSSHIFTJIS", RTL_TEXTENCODING_SHIFT_JIS }, { "GB2312", RTL_TEXTENCODING_GB_2312 }, { "CSGB2312", RTL_TEXTENCODING_GB_2312 }, { "BIG5", RTL_TEXTENCODING_BIG5 }, { "CSBIG5", RTL_TEXTENCODING_BIG5 }, { "EUC-JP", RTL_TEXTENCODING_EUC_JP }, { "EXTENDED_UNIX_CODE_PACKED_FORMAT_FOR_JAPANESE", RTL_TEXTENCODING_EUC_JP }, { "CSEUCPKDFMTJAPANESE", RTL_TEXTENCODING_EUC_JP }, { "ISO-2022-JP", RTL_TEXTENCODING_ISO_2022_JP }, { "CSISO2022JP", RTL_TEXTENCODING_ISO_2022_JP }, { "ISO-2022-CN", RTL_TEXTENCODING_ISO_2022_CN }, { "KOI8-R", RTL_TEXTENCODING_KOI8_R }, { "CSKOI8R", RTL_TEXTENCODING_KOI8_R }, { "UTF-7", RTL_TEXTENCODING_UTF7 }, { "UTF-8", RTL_TEXTENCODING_UTF8 }, { "ISO-8859-10", RTL_TEXTENCODING_ISO_8859_10 }, // RFC 2047 { "ISO-8859-13", RTL_TEXTENCODING_ISO_8859_13 }, // RFC 2047 { "EUC-KR", RTL_TEXTENCODING_EUC_KR }, { "CSEUCKR", RTL_TEXTENCODING_EUC_KR }, { "ISO-2022-KR", RTL_TEXTENCODING_ISO_2022_KR }, { "CSISO2022KR", RTL_TEXTENCODING_ISO_2022_KR }, { "ISO-10646-UCS-4", RTL_TEXTENCODING_UCS4 }, { "CSUCS4", RTL_TEXTENCODING_UCS4 }, { "ISO-10646-UCS-2", RTL_TEXTENCODING_UCS2 }, { "CSUNICODE", RTL_TEXTENCODING_UCS2 } }; //============================================================================ template< typename T > inline rtl_TextEncoding getCharsetEncoding_Impl(T const * pBegin, T const * pEnd) { for (sal_Size i = 0; i < sizeof aEncodingMap / sizeof (EncodingEntry); ++i) if (INetMIME::equalIgnoreCase(pBegin, pEnd, aEncodingMap[i].m_aName)) return aEncodingMap[i].m_eEncoding; return RTL_TEXTENCODING_DONTKNOW; } } //============================================================================ // static rtl_TextEncoding INetMIME::getCharsetEncoding(sal_Char const * pBegin, sal_Char const * pEnd) { return getCharsetEncoding_Impl(pBegin, pEnd); } //============================================================================ // static INetMIMECharsetList_Impl * INetMIME::createPreferredCharsetList(rtl_TextEncoding eEncoding) { static const sal_uInt32 aUSASCIIRanges[] = { 0, 0x7F, sal_uInt32(-1) }; static const sal_uInt32 aISO88591Ranges[] = { 0, 0xFF, sal_uInt32(-1) }; // version // 1.0 of 1999 July 27 static const sal_uInt32 aISO88592Ranges[] = { 0, 0xA0, 0xA4, 0xA4, 0xA7, 0xA8, 0xAD, 0xAD, 0xB0, 0xB0, 0xB4, 0xB4, 0xB8, 0xB8, 0xC1, 0xC2, 0xC4, 0xC4, 0xC7, 0xC7, 0xC9, 0xC9, 0xCB, 0xCB, 0xCD, 0xCE, 0xD3, 0xD4, 0xD6, 0xD7, 0xDA, 0xDA, 0xDC, 0xDD, 0xDF, 0xDF, 0xE1, 0xE2, 0xE4, 0xE4, 0xE7, 0xE7, 0xE9, 0xE9, 0xEB, 0xEB, 0xED, 0xEE, 0xF3, 0xF4, 0xF6, 0xF7, 0xFA, 0xFA, 0xFC, 0xFD, 0x102, 0x107, 0x10C, 0x111, 0x118, 0x11B, 0x139, 0x13A, 0x13D, 0x13E, 0x141, 0x144, 0x147, 0x148, 0x150, 0x151, 0x154, 0x155, 0x158, 0x15B, 0x15E, 0x165, 0x16E, 0x171, 0x179, 0x17E, 0x2C7, 0x2C7, 0x2D8, 0x2D9, 0x2DB, 0x2DB, 0x2DD, 0x2DD, sal_uInt32(-1) }; // version // 1.0 of 1999 July 27 static const sal_uInt32 aISO88593Ranges[] = { 0, 0xA0, 0xA3, 0xA4, 0xA7, 0xA8, 0xAD, 0xAD, 0xB0, 0xB0, 0xB2, 0xB5, 0xB7, 0xB8, 0xBD, 0xBD, 0xC0, 0xC2, 0xC4, 0xC4, 0xC7, 0xCF, 0xD1, 0xD4, 0xD6, 0xD7, 0xD9, 0xDC, 0xDF, 0xE2, 0xE4, 0xE4, 0xE7, 0xEF, 0xF1, 0xF4, 0xF6, 0xF7, 0xF9, 0xFC, 0x108, 0x10B, 0x11C, 0x121, 0x124, 0x127, 0x130, 0x131, 0x134, 0x135, 0x15C, 0x15F, 0x16C, 0x16D, 0x17B, 0x17C, 0x2D8, 0x2D9, sal_uInt32(-1) }; // version // 1.0 of 1999 July 27 static const sal_uInt32 aISO88594Ranges[] = { 0, 0xA0, 0xA4, 0xA4, 0xA7, 0xA8, 0xAD, 0xAD, 0xAF, 0xB0, 0xB4, 0xB4, 0xB8, 0xB8, 0xC1, 0xC6, 0xC9, 0xC9, 0xCB, 0xCB, 0xCD, 0xCE, 0xD4, 0xD8, 0xDA, 0xDC, 0xDF, 0xDF, 0xE1, 0xE6, 0xE9, 0xE9, 0xEB, 0xEB, 0xED, 0xEE, 0xF4, 0xF8, 0xFA, 0xFC, 0x100, 0x101, 0x104, 0x105, 0x10C, 0x10D, 0x110, 0x113, 0x116, 0x119, 0x122, 0x123, 0x128, 0x12B, 0x12E, 0x12F, 0x136, 0x138, 0x13B, 0x13C, 0x145, 0x146, 0x14A, 0x14D, 0x156, 0x157, 0x160, 0x161, 0x166, 0x16B, 0x172, 0x173, 0x17D, 0x17E, 0x2C7, 0x2C7, 0x2D9, 0x2D9, 0x2DB, 0x2DB, sal_uInt32(-1) }; // version // 1.0 of 1999 July 27 static const sal_uInt32 aISO88595Ranges[] = { 0, 0xA0, 0xA7, 0xA7, 0xAD, 0xAD, 0x401, 0x40C, 0x40E, 0x44F, 0x451, 0x45C, 0x45E, 0x45F, 0x2116, 0x2116, sal_uInt32(-1) }; // version // 1.0 of 1999 July 27 static const sal_uInt32 aISO88596Ranges[] = { 0, 0xA0, 0xA4, 0xA4, 0xAD, 0xAD, 0x60C, 0x60C, 0x61B, 0x61B, 0x61F, 0x61F, 0x621, 0x63A, 0x640, 0x652, sal_uInt32(-1) }; // version // 1.0 of 1999 July 27 static const sal_uInt32 aISO88597Ranges[] = { 0, 0xA0, 0xA3, 0xA3, 0xA6, 0xA9, 0xAB, 0xAD, 0xB0, 0xB3, 0xB7, 0xB7, 0xBB, 0xBB, 0xBD, 0xBD, 0x384, 0x386, 0x388, 0x38A, 0x38C, 0x38C, 0x38E, 0x3A1, 0x3A3, 0x3CE, 0x2015, 0x2015, 0x2018, 0x2019, sal_uInt32(-1) }; // version // 1.0 of 1999 July 27 static const sal_uInt32 aISO88598Ranges[] = { 0, 0xA0, 0xA2, 0xA9, 0xAB, 0xB9, 0xBB, 0xBE, 0xD7, 0xD7, 0xF7, 0xF7, 0x5D0, 0x5EA, 0x200E, 0x200F, 0x2017, 0x2017, sal_uInt32(-1) }; // version // 1.1 of 2000-Jan-03 static const sal_uInt32 aISO88599Ranges[] = { 0, 0xCF, 0xD1, 0xDC, 0xDF, 0xEF, 0xF1, 0xFC, 0xFF, 0xFF, 0x11E, 0x11F, 0x130, 0x131, 0x15E, 0x15F, sal_uInt32(-1) }; // version // 1.0 of 1999 July 27 static const sal_uInt32 aISO885910Ranges[] = { 0, 0xA0, 0xA7, 0xA7, 0xAD, 0xAD, 0xB0, 0xB0, 0xB7, 0xB7, 0xC1, 0xC6, 0xC9, 0xC9, 0xCB, 0xCB, 0xCD, 0xD0, 0xD3, 0xD6, 0xD8, 0xD8, 0xDA, 0xDF, 0xE1, 0xE6, 0xE9, 0xE9, 0xEB, 0xEB, 0xED, 0xF0, 0xF3, 0xF6, 0xF8, 0xF8, 0xFA, 0xFE, 0x100, 0x101, 0x104, 0x105, 0x10C, 0x10D, 0x110, 0x113, 0x116, 0x119, 0x122, 0x123, 0x128, 0x12B, 0x12E, 0x12F, 0x136, 0x138, 0x13B, 0x13C, 0x145, 0x146, 0x14A, 0x14D, 0x160, 0x161, 0x166, 0x16B, 0x172, 0x173, 0x17D, 0x17E, 0x2015, 0x2015, sal_uInt32(-1) }; // version // 1.1 of 1999 October 11 static const sal_uInt32 aISO885913Ranges[] = { 0, 0xA0, 0xA2, 0xA4, 0xA6, 0xA7, 0xA9, 0xA9, 0xAB, 0xAE, 0xB0, 0xB3, 0xB5, 0xB7, 0xB9, 0xB9, 0xBB, 0xBE, 0xC4, 0xC6, 0xC9, 0xC9, 0xD3, 0xD3, 0xD5, 0xD8, 0xDC, 0xDC, 0xDF, 0xDF, 0xE4, 0xE6, 0xE9, 0xE9, 0xF3, 0xF3, 0xF5, 0xF8, 0xFC, 0xFC, 0x100, 0x101, 0x104, 0x107, 0x10C, 0x10D, 0x112, 0x113, 0x116, 0x119, 0x122, 0x123, 0x12A, 0x12B, 0x12E, 0x12F, 0x136, 0x137, 0x13B, 0x13C, 0x141, 0x146, 0x14C, 0x14D, 0x156, 0x157, 0x15A, 0x15B, 0x160, 0x161, 0x16A, 0x16B, 0x172, 0x173, 0x179, 0x17E, 0x2019, 0x2019, 0x201C, 0x201E, sal_uInt32(-1) }; // version // 1.0 of 1999 July 27 static const sal_uInt32 aISO885914Ranges[] = { 0, 0xA0, 0xA3, 0xA3, 0xA7, 0xA7, 0xA9, 0xA9, 0xAD, 0xAE, 0xB6, 0xB6, 0xC0, 0xCF, 0xD1, 0xD6, 0xD8, 0xDD, 0xDF, 0xEF, 0xF1, 0xF6, 0xF8, 0xFD, 0xFF, 0xFF, 0x10A, 0x10B, 0x120, 0x121, 0x174, 0x178, 0x1E02, 0x1E03, 0x1E0A, 0x1E0B, 0x1E1E, 0x1E1F, 0x1E40, 0x1E41, 0x1E56, 0x1E57, 0x1E60, 0x1E61, 0x1E6A, 0x1E6B, 0x1E80, 0x1E85, 0x1EF2, 0x1EF3, sal_uInt32(-1) }; // version // 1.0 of 1999 July 27 static const sal_uInt32 aISO885915Ranges[] = { 0, 0xA3, 0xA5, 0xA5, 0xA7, 0xA7, 0xA9, 0xB3, 0xB5, 0xB7, 0xB9, 0xBB, 0xBF, 0xFF, 0x152, 0x153, 0x160, 0x161, 0x178, 0x178, 0x17D, 0x17E, 0x20AC, 0x20AC, sal_uInt32(-1) }; // version // 1.0 of 1999 July 27 static const sal_uInt32 aKOI8RRanges[] = { 0, 0x7F, 0xA0, 0xA0, 0xA9, 0xA9, 0xB0, 0xB0, 0xB2, 0xB2, 0xB7, 0xB7, 0xF7, 0xF7, 0x401, 0x401, 0x410, 0x44F, 0x451, 0x451, 0x2219, 0x221A, 0x2248, 0x2248, 0x2264, 0x2265, 0x2320, 0x2321, 0x2500, 0x2500, 0x2502, 0x2502, 0x250C, 0x250C, 0x2510, 0x2510, 0x2514, 0x2514, 0x2518, 0x2518, 0x251C, 0x251C, 0x2524, 0x2524, 0x252C, 0x252C, 0x2534, 0x2534, 0x253C, 0x253C, 0x2550, 0x256C, 0x2580, 0x2580, 0x2584, 0x2584, 0x2588, 0x2588, 0x258C, 0x258C, 0x2590, 0x2593, 0x25A0, 0x25A0, sal_uInt32(-1) }; // // version 1.0 of 18 August 1999 #if defined WNT static const sal_uInt32 aWindows1252Ranges[] = { 0, 0x7F, 0xA0, 0xFF, 0x152, 0x153, 0x160, 0x161, 0x178, 0x178, 0x17D, 0x17E, 0x192, 0x192, 0x2C6, 0x2C6, 0x2DC, 0x2DC, 0x2013, 0x2014, 0x2018, 0x201A, 0x201C, 0x201E, 0x2020, 0x2022, 0x2026, 0x2026, 0x2030, 0x2030, 0x2039, 0x203A, 0x20AC, 0x20AC, 0x2122, 0x2122, sal_uInt32(-1) }; // version 2.01 of 04/15/98 #endif // WNT INetMIMECharsetList_Impl * pList = new INetMIMECharsetList_Impl; switch (eEncoding) { case RTL_TEXTENCODING_MS_1252: #if defined WNT pList->prepend(Charset(RTL_TEXTENCODING_MS_1252, aWindows1252Ranges)); #endif // WNT case RTL_TEXTENCODING_ISO_8859_1: case RTL_TEXTENCODING_UTF7: case RTL_TEXTENCODING_UTF8: break; case RTL_TEXTENCODING_ISO_8859_2: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_2, aISO88592Ranges)); break; case RTL_TEXTENCODING_ISO_8859_3: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_3, aISO88593Ranges)); break; case RTL_TEXTENCODING_ISO_8859_4: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_4, aISO88594Ranges)); break; case RTL_TEXTENCODING_ISO_8859_5: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_5, aISO88595Ranges)); break; case RTL_TEXTENCODING_ISO_8859_6: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_6, aISO88596Ranges)); break; case RTL_TEXTENCODING_ISO_8859_7: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_7, aISO88597Ranges)); break; case RTL_TEXTENCODING_ISO_8859_8: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_8, aISO88598Ranges)); break; case RTL_TEXTENCODING_ISO_8859_9: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_9, aISO88599Ranges)); break; case RTL_TEXTENCODING_ISO_8859_10: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_10, aISO885910Ranges)); break; case RTL_TEXTENCODING_ISO_8859_13: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_13, aISO885913Ranges)); break; case RTL_TEXTENCODING_ISO_8859_14: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_14, aISO885914Ranges)); break; case RTL_TEXTENCODING_ISO_8859_15: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_15, aISO885915Ranges)); break; case RTL_TEXTENCODING_MS_1250: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_2, aISO88592Ranges)); break; case RTL_TEXTENCODING_MS_1251: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_5, aISO88595Ranges)); break; case RTL_TEXTENCODING_MS_1253: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_7, aISO88597Ranges)); break; case RTL_TEXTENCODING_MS_1254: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_9, aISO88599Ranges)); break; case RTL_TEXTENCODING_MS_1255: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_8, aISO88598Ranges)); break; case RTL_TEXTENCODING_MS_1256: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_6, aISO88596Ranges)); break; case RTL_TEXTENCODING_MS_1257: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_4, aISO88594Ranges)); break; case RTL_TEXTENCODING_KOI8_R: pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_5, aISO88595Ranges)); pList->prepend(Charset(RTL_TEXTENCODING_KOI8_R, aKOI8RRanges)); break; default: //@@@ more cases are missing! OSL_FAIL("INetMIME::createPreferredCharsetList():" " Unsupported encoding"); break; } pList->prepend(Charset(RTL_TEXTENCODING_ISO_8859_1, aISO88591Ranges)); pList->prepend(Charset(RTL_TEXTENCODING_ASCII_US, aUSASCIIRanges)); return pList; } //============================================================================ // static sal_Unicode * INetMIME::convertToUnicode(const sal_Char * pBegin, const sal_Char * pEnd, rtl_TextEncoding eEncoding, sal_Size & rSize) { if (eEncoding == RTL_TEXTENCODING_DONTKNOW) return 0; rtl_TextToUnicodeConverter hConverter = rtl_createTextToUnicodeConverter(eEncoding); rtl_TextToUnicodeContext hContext = rtl_createTextToUnicodeContext(hConverter); sal_Unicode * pBuffer; sal_uInt32 nInfo; for (sal_Size nBufferSize = pEnd - pBegin;; nBufferSize += nBufferSize / 3 + 1) { pBuffer = new sal_Unicode[nBufferSize]; sal_Size nSrcCvtBytes; rSize = rtl_convertTextToUnicode( hConverter, hContext, pBegin, pEnd - pBegin, pBuffer, nBufferSize, RTL_TEXTTOUNICODE_FLAGS_UNDEFINED_ERROR | RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_ERROR | RTL_TEXTTOUNICODE_FLAGS_INVALID_ERROR, &nInfo, &nSrcCvtBytes); if (nInfo != RTL_TEXTTOUNICODE_INFO_DESTBUFFERTOSMALL) break; delete[] pBuffer; rtl_resetTextToUnicodeContext(hConverter, hContext); } rtl_destroyTextToUnicodeContext(hConverter, hContext); rtl_destroyTextToUnicodeConverter(hConverter); if (nInfo != 0) { delete[] pBuffer; pBuffer = 0; } return pBuffer; } //============================================================================ // static sal_Char * INetMIME::convertFromUnicode(const sal_Unicode * pBegin, const sal_Unicode * pEnd, rtl_TextEncoding eEncoding, sal_Size & rSize) { if (eEncoding == RTL_TEXTENCODING_DONTKNOW) return 0; rtl_UnicodeToTextConverter hConverter = rtl_createUnicodeToTextConverter(eEncoding); rtl_UnicodeToTextContext hContext = rtl_createUnicodeToTextContext(hConverter); sal_Char * pBuffer; sal_uInt32 nInfo; for (sal_Size nBufferSize = pEnd - pBegin;; nBufferSize += nBufferSize / 3 + 1) { pBuffer = new sal_Char[nBufferSize]; sal_Size nSrcCvtBytes; rSize = rtl_convertUnicodeToText( hConverter, hContext, pBegin, pEnd - pBegin, pBuffer, nBufferSize, RTL_UNICODETOTEXT_FLAGS_UNDEFINED_ERROR | RTL_UNICODETOTEXT_FLAGS_INVALID_ERROR | RTL_UNICODETOTEXT_FLAGS_UNDEFINED_REPLACE | RTL_UNICODETOTEXT_FLAGS_UNDEFINED_REPLACESTR, &nInfo, &nSrcCvtBytes); if (nInfo != RTL_UNICODETOTEXT_INFO_DESTBUFFERTOSMALL) break; delete[] pBuffer; rtl_resetUnicodeToTextContext(hConverter, hContext); } rtl_destroyUnicodeToTextContext(hConverter, hContext); rtl_destroyUnicodeToTextConverter(hConverter); if (nInfo != 0) { delete[] pBuffer; pBuffer = 0; } return pBuffer; } //============================================================================ // static void INetMIME::writeUTF8(INetMIMEOutputSink & rSink, sal_uInt32 nChar) { // See RFC 2279 for a discussion of UTF-8. DBG_ASSERT(nChar < 0x80000000, "INetMIME::writeUTF8(): Bad char"); if (nChar < 0x80) rSink << sal_Char(nChar); else if (nChar < 0x800) rSink << sal_Char(nChar >> 6 | 0xC0) << sal_Char((nChar & 0x3F) | 0x80); else if (nChar < 0x10000) rSink << sal_Char(nChar >> 12 | 0xE0) << sal_Char((nChar >> 6 & 0x3F) | 0x80) << sal_Char((nChar & 0x3F) | 0x80); else if (nChar < 0x200000) rSink << sal_Char(nChar >> 18 | 0xF0) << sal_Char((nChar >> 12 & 0x3F) | 0x80) << sal_Char((nChar >> 6 & 0x3F) | 0x80) << sal_Char((nChar & 0x3F) | 0x80); else if (nChar < 0x4000000) rSink << sal_Char(nChar >> 24 | 0xF8) << sal_Char((nChar >> 18 & 0x3F) | 0x80) << sal_Char((nChar >> 12 & 0x3F) | 0x80) << sal_Char((nChar >> 6 & 0x3F) | 0x80) << sal_Char((nChar & 0x3F) | 0x80); else rSink << sal_Char(nChar >> 30 | 0xFC) << sal_Char((nChar >> 24 & 0x3F) | 0x80) << sal_Char((nChar >> 18 & 0x3F) | 0x80) << sal_Char((nChar >> 12 & 0x3F) | 0x80) << sal_Char((nChar >> 6 & 0x3F) | 0x80) << sal_Char((nChar & 0x3F) | 0x80); } //============================================================================ // static void INetMIME::writeHeaderFieldBody(INetMIMEOutputSink & rSink, HeaderFieldType eType, const UniString & rBody, rtl_TextEncoding ePreferredEncoding, bool bInitialSpace) { if (eType == HEADER_FIELD_TEXT) { INetMIMEEncodedWordOutputSink aOutput(rSink, INetMIMEEncodedWordOutputSink::CONTEXT_TEXT, bInitialSpace ? INetMIMEEncodedWordOutputSink::SPACE_ALWAYS : INetMIMEEncodedWordOutputSink::SPACE_NO, ePreferredEncoding); aOutput.write(rBody.GetBuffer(), rBody.GetBuffer() + rBody.Len()); aOutput.flush(); } else { enum Brackets { BRACKETS_OUTSIDE, BRACKETS_OPENING, BRACKETS_INSIDE }; Brackets eBrackets = BRACKETS_OUTSIDE; const sal_Unicode * pBodyPtr = rBody.GetBuffer(); const sal_Unicode * pBodyEnd = pBodyPtr + rBody.Len(); while (pBodyPtr != pBodyEnd) switch (*pBodyPtr) { case '\t': case ' ': // A WSP adds to accumulated space: bInitialSpace = true; ++pBodyPtr; break; case '(': { // Write a pending '<' if necessary: if (eBrackets == BRACKETS_OPENING) { if (rSink.getColumn() + (bInitialSpace ? 1 : 0) >= rSink.getLineLengthLimit()) rSink << INetMIMEOutputSink::endl << ' '; else if (bInitialSpace) rSink << ' '; rSink << '<'; bInitialSpace = false; eBrackets = BRACKETS_INSIDE; } // Write the comment, introducing encoded-words where // necessary: int nLevel = 0; INetMIMEEncodedWordOutputSink aOutput( rSink, INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT, INetMIMEEncodedWordOutputSink::SPACE_NO, ePreferredEncoding); while (pBodyPtr != pBodyEnd) switch (*pBodyPtr) { case '(': aOutput.flush(); if (rSink.getColumn() + (bInitialSpace ? 1 : 0) >= rSink.getLineLengthLimit()) rSink << INetMIMEOutputSink::endl << ' '; else if (bInitialSpace) rSink << ' '; rSink << '('; bInitialSpace = false; ++nLevel; ++pBodyPtr; break; case ')': aOutput.flush(); if (rSink.getColumn() >= rSink.getLineLengthLimit()) rSink << INetMIMEOutputSink::endl << ' '; rSink << ')'; ++pBodyPtr; if (--nLevel == 0) goto comment_done; break; case '\\': if (++pBodyPtr == pBodyEnd) break; default: aOutput << *pBodyPtr++; break; } comment_done: break; } case '<': // Write an already pending '<' if necessary: if (eBrackets == BRACKETS_OPENING) { if (rSink.getColumn() + (bInitialSpace ? 1 : 0) >= rSink.getLineLengthLimit()) rSink << INetMIMEOutputSink::endl << ' '; else if (bInitialSpace) rSink << ' '; rSink << '<'; bInitialSpace = false; } // Remember this '<' as pending, and open a bracketed // block: eBrackets = BRACKETS_OPENING; ++pBodyPtr; break; case '>': // Write a pending '<' if necessary: if (eBrackets == BRACKETS_OPENING) { if (rSink.getColumn() + (bInitialSpace ? 1 : 0) >= rSink.getLineLengthLimit()) rSink << INetMIMEOutputSink::endl << ' '; else if (bInitialSpace) rSink << ' '; rSink << '<'; bInitialSpace = false; } // Write this '>', and close any bracketed block: if (rSink.getColumn() + (bInitialSpace ? 1 : 0) >= rSink.getLineLengthLimit()) rSink << INetMIMEOutputSink::endl << ' '; else if (bInitialSpace) rSink << ' '; rSink << '>'; bInitialSpace = false; eBrackets = BRACKETS_OUTSIDE; ++pBodyPtr; break; case ',': case ':': case ';': case '\\': case ']': // Write a pending '<' if necessary: if (eBrackets == BRACKETS_OPENING) { if (rSink.getColumn() + (bInitialSpace ? 1 : 0) >= rSink.getLineLengthLimit()) rSink << INetMIMEOutputSink::endl << ' '; else if (bInitialSpace) rSink << ' '; rSink << '<'; bInitialSpace = false; eBrackets = BRACKETS_INSIDE; } // Write this specials: if (rSink.getColumn() + (bInitialSpace ? 1 : 0) >= rSink.getLineLengthLimit()) rSink << INetMIMEOutputSink::endl << ' '; else if (bInitialSpace) rSink << ' '; rSink << sal_Char(*pBodyPtr++); bInitialSpace = false; break; case '\x0D': // CR // A adds to accumulated space, a not // followed by starts 'junk': if (startsWithLineFolding(pBodyPtr, pBodyEnd)) { bInitialSpace = true; pBodyPtr += 3; break; } default: { // The next token is either one of <"." / "@" / atom / // quoted-string / domain-literal>, or it's 'junk'; if it // is not 'junk', it is either a 'phrase' (i.e., it may // contain encoded-words) or a 'non-phrase' (i.e., it may // not contain encoded-words): enum Entity { ENTITY_JUNK, ENTITY_NON_PHRASE, ENTITY_PHRASE }; Entity eEntity = ENTITY_JUNK; switch (*pBodyPtr) { case '.': case '@': case '[': // A token of <"." / "@" / domain-literal> always // starts a 'non-phrase': eEntity = ENTITY_NON_PHRASE; break; default: if (isUSASCII(*pBodyPtr) && !isAtomChar(*pBodyPtr)) { eEntity = ENTITY_JUNK; break; } case '"': // A token of can either be // a 'phrase' or a 'non-phrase': switch (eType) { case HEADER_FIELD_STRUCTURED: eEntity = ENTITY_NON_PHRASE; break; case HEADER_FIELD_PHRASE: eEntity = ENTITY_PHRASE; break; case HEADER_FIELD_MESSAGE_ID: // A 'phrase' if and only if outside any // bracketed block: eEntity = eBrackets == BRACKETS_OUTSIDE ? ENTITY_PHRASE : ENTITY_NON_PHRASE; break; case HEADER_FIELD_ADDRESS: { // A 'non-phrase' if and only if, after // skipping this token and any following // and s, // there is no token left, or the next // token is any of <"." / "@" / ">" / "," // / ";">, or the next token is <":"> and // is within a bracketed block: const sal_Unicode * pLookAhead = pBodyPtr; if (*pLookAhead == '"') { pLookAhead = skipQuotedString(pLookAhead, pBodyEnd); if (pLookAhead == pBodyPtr) pLookAhead = pBodyEnd; } else while (pLookAhead != pBodyEnd && (isAtomChar(*pLookAhead) || !isUSASCII( *pLookAhead))) ++pLookAhead; while (pLookAhead != pBodyEnd) switch (*pLookAhead) { case '\t': case ' ': ++pLookAhead; break; case '(': { const sal_Unicode * pPast = skipComment(pLookAhead, pBodyEnd); pLookAhead = pPast == pLookAhead ? pBodyEnd : pPast; break; } case ',': case '.': case ';': case '>': case '@': eEntity = ENTITY_NON_PHRASE; goto entity_determined; case ':': eEntity = eBrackets == BRACKETS_OUTSIDE ? ENTITY_PHRASE : ENTITY_NON_PHRASE; goto entity_determined; case '\x0D': // CR if (startsWithLineFolding( pLookAhead, pBodyEnd)) { pLookAhead += 3; break; } default: eEntity = ENTITY_PHRASE; goto entity_determined; } eEntity = ENTITY_NON_PHRASE; entity_determined: break; } case HEADER_FIELD_TEXT: OSL_ASSERT(false); break; } // In a 'non-phrase', a non-US-ASCII character // cannot be part of an , but instead the // whole entity is 'junk' rather than 'non- // phrase': if (eEntity == ENTITY_NON_PHRASE && !isUSASCII(*pBodyPtr)) eEntity = ENTITY_JUNK; break; } switch (eEntity) { case ENTITY_JUNK: { // Write a pending '<' if necessary: if (eBrackets == BRACKETS_OPENING) { if (rSink.getColumn() + (bInitialSpace ? 1 : 0) >= rSink.getLineLengthLimit()) rSink << INetMIMEOutputSink::endl << ' '; else if (bInitialSpace) rSink << ' '; rSink << '<'; bInitialSpace = false; eBrackets = BRACKETS_INSIDE; } // Calculate the length of in- and output: const sal_Unicode * pStart = pBodyPtr; sal_Size nLength = 0; bool bModify = false; bool bEnd = false; while (pBodyPtr != pBodyEnd && !bEnd) switch (*pBodyPtr) { case '\x0D': // CR if (startsWithLineFolding(pBodyPtr, pBodyEnd)) bEnd = true; else if (startsWithLineBreak( pBodyPtr, pBodyEnd)) { nLength += 3; bModify = true; pBodyPtr += 2; } else { ++nLength; ++pBodyPtr; } break; case '\t': case ' ': bEnd = true; break; default: if (isVisible(*pBodyPtr)) bEnd = true; else if (isUSASCII(*pBodyPtr)) { ++nLength; ++pBodyPtr; } else { nLength += getUTF8OctetCount( *pBodyPtr++); bModify = true; } break; } // Write the output: if (rSink.getColumn() + (bInitialSpace ? 1 : 0) + nLength > rSink.getLineLengthLimit()) rSink << INetMIMEOutputSink::endl << ' '; else if (bInitialSpace) rSink << ' '; bInitialSpace = false; if (bModify) while (pStart != pBodyPtr) if (startsWithLineBreak(pStart, pBodyPtr)) { rSink << "\x0D\\\x0A"; // CR, '\', LF pStart += 2; } else writeUTF8(rSink, *pStart++); else rSink.write(pStart, pBodyPtr); break; } case ENTITY_NON_PHRASE: { // Calculate the length of in- and output: const sal_Unicode * pStart = pBodyPtr; sal_Size nLength = 0; bool bBracketedBlock = false; bool bSymbol = *pStart != '.' && *pStart != '@'; bool bModify = false; bool bEnd = false; while (pBodyPtr != pBodyEnd && !bEnd) switch (*pBodyPtr) { case '\t': case ' ': case '\x0D': // CR { const sal_Unicode * pLookAhead = skipLinearWhiteSpace(pBodyPtr, pBodyEnd); if (pLookAhead < pBodyEnd && (bSymbol ? isAtomChar(*pLookAhead) || *pLookAhead == '"' || *pLookAhead == '[' : *pLookAhead == '.' || *pLookAhead == '@' || (*pLookAhead == '>' && eType >= HEADER_FIELD_MESSAGE_ID && eBrackets == BRACKETS_OPENING))) { bModify = true; pBodyPtr = pLookAhead; } else bEnd = true; break; } case '"': if (bSymbol) { pBodyPtr = scanQuotedBlock(pBodyPtr, pBodyEnd, '"', '"', nLength, bModify); bSymbol = false; } else bEnd = true; break; case '[': if (bSymbol) { pBodyPtr = scanQuotedBlock(pBodyPtr, pBodyEnd, '[', ']', nLength, bModify); bSymbol = false; } else bEnd = true; break; case '.': case '@': if (bSymbol) bEnd = true; else { ++nLength; bSymbol = true; ++pBodyPtr; } break; case '>': if (eBrackets == BRACKETS_OPENING && eType >= HEADER_FIELD_MESSAGE_ID) { ++nLength; bBracketedBlock = true; ++pBodyPtr; } bEnd = true; break; default: if (isAtomChar(*pBodyPtr) && bSymbol) { while (pBodyPtr != pBodyEnd && isAtomChar(*pBodyPtr)) { ++nLength; ++pBodyPtr; } bSymbol = false; } else { if (!isUSASCII(*pBodyPtr)) bModify = true; bEnd = true; } break; } // Write a pending '<' if necessary: if (eBrackets == BRACKETS_OPENING && !bBracketedBlock) { if (rSink.getColumn() + (bInitialSpace ? 1 : 0) >= rSink.getLineLengthLimit()) rSink << INetMIMEOutputSink::endl << ' '; else if (bInitialSpace) rSink << ' '; rSink << '<'; bInitialSpace = false; eBrackets = BRACKETS_INSIDE; } // Write the output: if (rSink.getColumn() + (bInitialSpace ? 1 : 0) + nLength > rSink.getLineLengthLimit()) rSink << INetMIMEOutputSink::endl << ' '; else if (bInitialSpace) rSink << ' '; bInitialSpace = false; if (bBracketedBlock) { rSink << '<'; eBrackets = BRACKETS_OUTSIDE; } if (bModify) { enum Mode { MODE_PLAIN, MODE_QUOTED_STRING, MODE_DOMAIN_LITERAL }; Mode eMode = MODE_PLAIN; while (pStart != pBodyPtr) switch (*pStart) { case '\x0D': // CR if (startsWithLineFolding( pStart, pBodyPtr)) { if (eMode != MODE_PLAIN) rSink << sal_Char( pStart[2]); pStart += 3; } else if (startsWithLineBreak( pStart, pBodyPtr)) { rSink << "\x0D\\\x0A"; // CR, '\', LF pStart += 2; } else { rSink << '\x0D'; // CR ++pStart; } break; case '\t': case ' ': if (eMode != MODE_PLAIN) rSink << sal_Char(*pStart); ++pStart; break; case '"': if (eMode == MODE_PLAIN) eMode = MODE_QUOTED_STRING; else if (eMode == MODE_QUOTED_STRING) eMode = MODE_PLAIN; rSink << '"'; ++pStart; break; case '[': if (eMode == MODE_PLAIN) eMode = MODE_DOMAIN_LITERAL; rSink << '['; ++pStart; break; case ']': if (eMode == MODE_DOMAIN_LITERAL) eMode = MODE_PLAIN; rSink << ']'; ++pStart; break; case '\\': rSink << '\\'; if (++pStart < pBodyPtr) writeUTF8(rSink, *pStart++); break; default: writeUTF8(rSink, *pStart++); break; } } else rSink.write(pStart, pBodyPtr); break; } case ENTITY_PHRASE: { // Write a pending '<' if necessary: if (eBrackets == BRACKETS_OPENING) { if (rSink.getColumn() + (bInitialSpace ? 1 : 0) >= rSink.getLineLengthLimit()) rSink << INetMIMEOutputSink::endl << ' '; else if (bInitialSpace) rSink << ' '; rSink << '<'; bInitialSpace = false; eBrackets = BRACKETS_INSIDE; } // Calculate the length of in- and output: const sal_Unicode * pStart = pBodyPtr; bool bQuotedString = false; bool bEnd = false; while (pBodyPtr != pBodyEnd && !bEnd) switch (*pBodyPtr) { case '\t': case ' ': case '\x0D': // CR if (bQuotedString) ++pBodyPtr; else { const sal_Unicode * pLookAhead = skipLinearWhiteSpace( pBodyPtr, pBodyEnd); if (pLookAhead != pBodyEnd && (isAtomChar(*pLookAhead) || !isUSASCII(*pLookAhead) || *pLookAhead == '"')) pBodyPtr = pLookAhead; else bEnd = true; } break; case '"': bQuotedString = !bQuotedString; ++pBodyPtr; break; case '\\': if (bQuotedString) { if (++pBodyPtr != pBodyEnd) ++pBodyPtr; } else bEnd = true; break; default: if (bQuotedString || isAtomChar(*pBodyPtr) || !isUSASCII(*pBodyPtr)) ++pBodyPtr; else bEnd = true; break; } // Write the phrase, introducing encoded-words // where necessary: INetMIMEEncodedWordOutputSink aOutput( rSink, INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, bInitialSpace ? INetMIMEEncodedWordOutputSink::SPACE_ALWAYS : INetMIMEEncodedWordOutputSink::SPACE_ENCODED, ePreferredEncoding); while (pStart != pBodyPtr) switch (*pStart) { case '"': ++pStart; break; case '\\': if (++pStart != pBodyPtr) aOutput << *pStart++; break; case '\x0D': // CR pStart += 2; aOutput << *pStart++; break; default: aOutput << *pStart++; break; } bInitialSpace = aOutput.flush(); break; } } break; } } } } //============================================================================ // static bool INetMIME::translateUTF8Char(const sal_Char *& rBegin, const sal_Char * pEnd, rtl_TextEncoding eEncoding, sal_uInt32 & rCharacter) { if (rBegin == pEnd || static_cast< unsigned char >(*rBegin) < 0x80 || static_cast< unsigned char >(*rBegin) >= 0xFE) return false; int nCount; sal_uInt32 nMin; sal_uInt32 nUCS4; const sal_Char * p = rBegin; if (static_cast< unsigned char >(*p) < 0xE0) { nCount = 1; nMin = 0x80; nUCS4 = static_cast< unsigned char >(*p) & 0x1F; } else if (static_cast< unsigned char >(*p) < 0xF0) { nCount = 2; nMin = 0x800; nUCS4 = static_cast< unsigned char >(*p) & 0xF; } else if (static_cast< unsigned char >(*p) < 0xF8) { nCount = 3; nMin = 0x10000; nUCS4 = static_cast< unsigned char >(*p) & 7; } else if (static_cast< unsigned char >(*p) < 0xFC) { nCount = 4; nMin = 0x200000; nUCS4 = static_cast< unsigned char >(*p) & 3; } else { nCount = 5; nMin = 0x4000000; nUCS4 = static_cast< unsigned char >(*p) & 1; } ++p; for (; nCount-- > 0; ++p) if ((static_cast< unsigned char >(*p) & 0xC0) == 0x80) nUCS4 = (nUCS4 << 6) | (static_cast< unsigned char >(*p) & 0x3F); else return false; if (nUCS4 < nMin || nUCS4 > 0x10FFFF) return false; if (eEncoding >= RTL_TEXTENCODING_UCS4) rCharacter = nUCS4; else { sal_Unicode aUTF16[2]; const sal_Unicode * pUTF16End = putUTF32Character(aUTF16, nUCS4); sal_Size nSize; sal_Char * pBuffer = convertFromUnicode(aUTF16, pUTF16End, eEncoding, nSize); if (!pBuffer) return false; DBG_ASSERT(nSize == 1, "INetMIME::translateUTF8Char(): Bad conversion"); rCharacter = *pBuffer; delete[] pBuffer; } rBegin = p; return true; } //============================================================================ // static UniString INetMIME::decodeHeaderFieldBody(HeaderFieldType eType, const ByteString & rBody) { // Due to a bug in INetCoreRFC822MessageStream::ConvertTo7Bit(), old // versions of StarOffice send mails with header fields where encoded // words can be preceded by '=', ',', '.', '"', or '(', and followed by // '=', ',', '.', '"', ')', without any required white space in between. // And there appear to exist some broken mailers that only encode single // letters within words, like "Appel // =?iso-8859-1?Q?=E0?=t=?iso-8859-1?Q?=E9?=moin", so it seems best to // detect encoded words even when not propperly surrounded by white space. // // Non US-ASCII characters in rBody are treated as ISO-8859-1. // // encoded-word = "=?" // 1*(%x21 / %x23-27 / %x2A-2B / %x2D / %30-39 / %x41-5A / %x5E-7E) // ["*" 1*8ALPHA *("-" 1*8ALPHA)] "?" // ("B?" *(4base64) (4base64 / 3base64 "=" / 2base64 "==") // / "Q?" 1*(%x21-3C / %x3E / %x40-7E / "=" 2HEXDIG)) // "?=" // // base64 = ALPHA / DIGIT / "+" / "/" const sal_Char * pBegin = rBody.GetBuffer(); const sal_Char * pEnd = pBegin + rBody.Len(); UniString sDecoded; const sal_Char * pCopyBegin = pBegin; /* bool bStartEncodedWord = true; */ const sal_Char * pWSPBegin = pBegin; UniString sEncodedText; bool bQuotedEncodedText = false; sal_uInt32 nCommentLevel = 0; for (const sal_Char * p = pBegin; p != pEnd;) { if (p != pEnd && *p == '=' /* && bStartEncodedWord */) { const sal_Char * q = p + 1; bool bEncodedWord = q != pEnd && *q++ == '?'; rtl_TextEncoding eCharsetEncoding = RTL_TEXTENCODING_DONTKNOW; if (bEncodedWord) { const sal_Char * pCharsetBegin = q; const sal_Char * pLanguageBegin = 0; int nAlphaCount = 0; for (bool bDone = false; !bDone;) if (q == pEnd) { bEncodedWord = false; bDone = true; } else { sal_Char cChar = *q++; switch (cChar) { case '*': pLanguageBegin = q - 1; nAlphaCount = 0; break; case '-': if (pLanguageBegin != 0) { if (nAlphaCount == 0) pLanguageBegin = 0; else nAlphaCount = 0; } break; case '?': if (pCharsetBegin == q - 1) bEncodedWord = false; else { eCharsetEncoding = getCharsetEncoding( pCharsetBegin, pLanguageBegin == 0 || nAlphaCount == 0 ? q - 1 : pLanguageBegin); bEncodedWord = isMIMECharsetEncoding( eCharsetEncoding); eCharsetEncoding = translateFromMIME(eCharsetEncoding); } bDone = true; break; default: if (pLanguageBegin != 0 && (!isAlpha(cChar) || ++nAlphaCount > 8)) pLanguageBegin = 0; break; } } } bool bEncodingB = false; if (bEncodedWord) { if (q == pEnd) bEncodedWord = false; else { switch (*q++) { case 'B': case 'b': bEncodingB = true; break; case 'Q': case 'q': bEncodingB = false; break; default: bEncodedWord = false; break; } } } bEncodedWord = bEncodedWord && q != pEnd && *q++ == '?'; ByteString sText; if (bEncodedWord) { if (bEncodingB) { for (bool bDone = false; !bDone;) { if (pEnd - q < 4) { bEncodedWord = false; bDone = true; } else { bool bFinal = false; int nCount = 3; sal_uInt32 nValue = 0; for (int nShift = 18; nShift >= 0; nShift -= 6) { int nWeight = getBase64Weight(*q++); if (nWeight == -2) { bEncodedWord = false; bDone = true; break; } if (nWeight == -1) { if (!bFinal) { if (nShift >= 12) { bEncodedWord = false; bDone = true; break; } bFinal = true; nCount = nShift == 6 ? 1 : 2; } } else nValue |= nWeight << nShift; } if (bEncodedWord) { for (int nShift = 16; nCount-- > 0; nShift -= 8) sText += sal_Char(nValue >> nShift & 0xFF); if (*q == '?') { ++q; bDone = true; } if (bFinal && !bDone) { bEncodedWord = false; bDone = true; } } } } } else { const sal_Char * pEncodedTextBegin = q; const sal_Char * pEncodedTextCopyBegin = q; for (bool bDone = false; !bDone;) if (q == pEnd) { bEncodedWord = false; bDone = true; } else { sal_uInt32 nChar = *q++; switch (nChar) { case '=': { if (pEnd - q < 2) { bEncodedWord = false; bDone = true; break; } int nDigit1 = getHexWeight(q[0]); int nDigit2 = getHexWeight(q[1]); if (nDigit1 < 0 || nDigit2 < 0) { bEncodedWord = false; bDone = true; break; } sText += rBody.Copy( static_cast< xub_StrLen >( pEncodedTextCopyBegin - pBegin), static_cast< xub_StrLen >( q - 1 - pEncodedTextCopyBegin)); sText += sal_Char(nDigit1 << 4 | nDigit2); q += 2; pEncodedTextCopyBegin = q; break; } case '?': if (q - pEncodedTextBegin > 1) sText += rBody.Copy( static_cast< xub_StrLen >( pEncodedTextCopyBegin - pBegin), static_cast< xub_StrLen >( q - 1 - pEncodedTextCopyBegin)); else bEncodedWord = false; bDone = true; break; case '_': sText += rBody.Copy( static_cast< xub_StrLen >( pEncodedTextCopyBegin - pBegin), static_cast< xub_StrLen >( q - 1 - pEncodedTextCopyBegin)); sText += ' '; pEncodedTextCopyBegin = q; break; default: if (!isVisible(nChar)) { bEncodedWord = false; bDone = true; } break; } } } } bEncodedWord = bEncodedWord && q != pEnd && *q++ == '='; // if (bEncodedWord && q != pEnd) // switch (*q) // { // case '\t': // case ' ': // case '"': // case ')': // case ',': // case '.': // case '=': // break; // // default: // bEncodedWord = false; // break; // } sal_Unicode * pUnicodeBuffer = 0; sal_Size nUnicodeSize = 0; if (bEncodedWord) { pUnicodeBuffer = convertToUnicode(sText.GetBuffer(), sText.GetBuffer() + sText.Len(), eCharsetEncoding, nUnicodeSize); if (pUnicodeBuffer == 0) bEncodedWord = false; } if (bEncodedWord) { appendISO88591(sDecoded, pCopyBegin, pWSPBegin); if (eType == HEADER_FIELD_TEXT) sDecoded.Append( pUnicodeBuffer, static_cast< xub_StrLen >(nUnicodeSize)); else if (nCommentLevel == 0) { sEncodedText.Append( pUnicodeBuffer, static_cast< xub_StrLen >(nUnicodeSize)); if (!bQuotedEncodedText) { const sal_Unicode * pTextPtr = pUnicodeBuffer; const sal_Unicode * pTextEnd = pTextPtr + nUnicodeSize; for (; pTextPtr != pTextEnd; ++pTextPtr) if (!isEncodedWordTokenChar(*pTextPtr)) { bQuotedEncodedText = true; break; } } } else { const sal_Unicode * pTextPtr = pUnicodeBuffer; const sal_Unicode * pTextEnd = pTextPtr + nUnicodeSize; for (; pTextPtr != pTextEnd; ++pTextPtr) { switch (*pTextPtr) { case '(': case ')': case '\\': case '\x0D': case '=': sDecoded += '\\'; break; } sDecoded += *pTextPtr; } } delete[] pUnicodeBuffer; p = q; pCopyBegin = p; pWSPBegin = p; while (p != pEnd && isWhiteSpace(*p)) ++p; /* bStartEncodedWord = p != pWSPBegin; */ continue; } } if (sEncodedText.Len() != 0) { if (bQuotedEncodedText) { sDecoded += '"'; const sal_Unicode * pTextPtr = sEncodedText.GetBuffer(); const sal_Unicode * pTextEnd = pTextPtr + sEncodedText.Len(); for (;pTextPtr != pTextEnd; ++pTextPtr) { switch (*pTextPtr) { case '"': case '\\': case '\x0D': sDecoded += '\\'; break; } sDecoded += *pTextPtr; } sDecoded += '"'; } else sDecoded += sEncodedText; sEncodedText.Erase(); bQuotedEncodedText = false; } if (p == pEnd) break; switch (*p++) { // case '\t': // case ' ': // case ',': // case '.': // case '=': // bStartEncodedWord = true; // break; case '"': if (eType != HEADER_FIELD_TEXT && nCommentLevel == 0) { const sal_Char * pQuotedStringEnd = skipQuotedString(p - 1, pEnd); p = pQuotedStringEnd == p - 1 ? pEnd : pQuotedStringEnd; } /* bStartEncodedWord = true; */ break; case '(': if (eType != HEADER_FIELD_TEXT) ++nCommentLevel; /* bStartEncodedWord = true; */ break; case ')': if (nCommentLevel > 0) --nCommentLevel; /* bStartEncodedWord = false; */ break; default: { const sal_Char * pUTF8Begin = p - 1; const sal_Char * pUTF8End = pUTF8Begin; sal_uInt32 nCharacter = 0; if (translateUTF8Char(pUTF8End, pEnd, RTL_TEXTENCODING_UCS4, nCharacter)) { appendISO88591(sDecoded, pCopyBegin, p - 1); sal_Unicode aUTF16Buf[2]; xub_StrLen nUTF16Len = static_cast< xub_StrLen >( putUTF32Character(aUTF16Buf, nCharacter) - aUTF16Buf); sDecoded.Append(aUTF16Buf, nUTF16Len); p = pUTF8End; pCopyBegin = p; } /* bStartEncodedWord = false; */ break; } } pWSPBegin = p; } appendISO88591(sDecoded, pCopyBegin, pEnd); return sDecoded; } //============================================================================ // // INetMIMEOutputSink // //============================================================================ // virtual sal_Size INetMIMEOutputSink::writeSequence(const sal_Char * pSequence) { sal_Size nLength = rtl_str_getLength(pSequence); writeSequence(pSequence, pSequence + nLength); return nLength; } //============================================================================ // virtual void INetMIMEOutputSink::writeSequence(const sal_uInt32 * pBegin, const sal_uInt32 * pEnd) { DBG_ASSERT(pBegin && pBegin <= pEnd, "INetMIMEOutputSink::writeSequence(): Bad sequence"); sal_Char * pBufferBegin = new sal_Char[pEnd - pBegin]; sal_Char * pBufferEnd = pBufferBegin; while (pBegin != pEnd) { DBG_ASSERT(*pBegin < 256, "INetMIMEOutputSink::writeSequence(): Bad octet"); *pBufferEnd++ = sal_Char(*pBegin++); } writeSequence(pBufferBegin, pBufferEnd); delete[] pBufferBegin; } //============================================================================ // virtual void INetMIMEOutputSink::writeSequence(const sal_Unicode * pBegin, const sal_Unicode * pEnd) { DBG_ASSERT(pBegin && pBegin <= pEnd, "INetMIMEOutputSink::writeSequence(): Bad sequence"); sal_Char * pBufferBegin = new sal_Char[pEnd - pBegin]; sal_Char * pBufferEnd = pBufferBegin; while (pBegin != pEnd) { DBG_ASSERT(*pBegin < 256, "INetMIMEOutputSink::writeSequence(): Bad octet"); *pBufferEnd++ = sal_Char(*pBegin++); } writeSequence(pBufferBegin, pBufferEnd); delete[] pBufferBegin; } //============================================================================ // virtual ErrCode INetMIMEOutputSink::getError() const { return ERRCODE_NONE; } //============================================================================ void INetMIMEOutputSink::writeLineEnd() { static const sal_Char aCRLF[2] = { 0x0D, 0x0A }; writeSequence(aCRLF, aCRLF + 2); m_nColumn = 0; } //============================================================================ // // INetMIMEStringOutputSink // //============================================================================ // virtual void INetMIMEStringOutputSink::writeSequence(const sal_Char * pBegin, const sal_Char * pEnd) { DBG_ASSERT(pBegin && pBegin <= pEnd, "INetMIMEStringOutputSink::writeSequence(): Bad sequence"); m_bOverflow = m_bOverflow || pEnd - pBegin > STRING_MAXLEN - m_aBuffer.Len(); if (!m_bOverflow) m_aBuffer.Append(pBegin, static_cast< xub_StrLen >(pEnd - pBegin)); } //============================================================================ // virtual ErrCode INetMIMEStringOutputSink::getError() const { return m_bOverflow ? ERRCODE_IO_OUTOFMEMORY : ERRCODE_NONE; } //============================================================================ // // INetMIMEEncodedWordOutputSink // //============================================================================ static const sal_Char aEscape[128] = { INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x00 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x01 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x02 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x03 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x04 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x05 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x06 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x07 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x08 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x09 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x0A INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x0B INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x0C INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x0D INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x0E INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x0F INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x10 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x11 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x12 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x13 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x14 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x15 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x16 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x17 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x18 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x19 INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x1A INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x1B INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x1C INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x1D INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x1E INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // 0x1F 0, // ' ' 0, // '!' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '"' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '#' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '$' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '%' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '&' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // ''' INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '(' INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // ')' 0, // '*' 0, // '+' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // ',' 0, // '-' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '.' 0, // '/' 0, // '0' 0, // '1' 0, // '2' 0, // '3' 0, // '4' 0, // '5' 0, // '6' 0, // '7' 0, // '8' 0, // '9' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // ':' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // ';' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '<' INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '=' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '>' INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '?' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '@' 0, // 'A' 0, // 'B' 0, // 'C' 0, // 'D' 0, // 'E' 0, // 'F' 0, // 'G' 0, // 'H' 0, // 'I' 0, // 'J' 0, // 'K' 0, // 'L' 0, // 'M' 0, // 'N' 0, // 'O' 0, // 'P' 0, // 'Q' 0, // 'R' 0, // 'S' 0, // 'T' 0, // 'U' 0, // 'V' 0, // 'W' 0, // 'X' 0, // 'Y' 0, // 'Z' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '[' INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '\' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // ']' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '^' INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '_' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '`' 0, // 'a' 0, // 'b' 0, // 'c' 0, // 'd' 0, // 'e' 0, // 'f' 0, // 'g' 0, // 'h' 0, // 'i' 0, // 'j' 0, // 'k' 0, // 'l' 0, // 'm' 0, // 'n' 0, // 'o' 0, // 'p' 0, // 'q' 0, // 'r' 0, // 's' 0, // 't' 0, // 'u' 0, // 'v' 0, // 'w' 0, // 'x' 0, // 'y' 0, // 'z' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '{' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '|' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '}' INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE, // '~' INetMIMEEncodedWordOutputSink::CONTEXT_TEXT | INetMIMEEncodedWordOutputSink::CONTEXT_COMMENT | INetMIMEEncodedWordOutputSink::CONTEXT_PHRASE }; // DEL inline bool INetMIMEEncodedWordOutputSink::needsEncodedWordEscape(sal_uInt32 nChar) const { return !INetMIME::isUSASCII(nChar) || aEscape[nChar] & m_eContext; } //============================================================================ void INetMIMEEncodedWordOutputSink::finish(bool bWriteTrailer) { if (m_eInitialSpace == SPACE_ALWAYS && m_nExtraSpaces == 0) m_nExtraSpaces = 1; if (m_eEncodedWordState == STATE_SECOND_EQUALS) { // If the text is already an encoded word, copy it verbatim: sal_uInt32 nSize = m_pBufferEnd - m_pBuffer; switch (m_ePrevCoding) { case CODING_QUOTED: m_rSink << '"'; case CODING_NONE: if (m_eInitialSpace == SPACE_ENCODED && m_nExtraSpaces == 0) m_nExtraSpaces = 1; for (; m_nExtraSpaces > 1; --m_nExtraSpaces) { if (m_rSink.getColumn() >= m_rSink.getLineLengthLimit()) m_rSink << INetMIMEOutputSink::endl; m_rSink << ' '; } if (m_nExtraSpaces == 1) { if (m_rSink.getColumn() + nSize >= m_rSink.getLineLengthLimit()) m_rSink << INetMIMEOutputSink::endl; m_rSink << ' '; } break; case CODING_ENCODED: { const sal_Char * pCharsetName = INetMIME::getCharsetName(m_ePrevMIMEEncoding); while (m_nExtraSpaces-- > 0) { if (m_rSink.getColumn() > m_rSink.getLineLengthLimit() - 3) m_rSink << "?=" << INetMIMEOutputSink::endl << " =?" << pCharsetName << "?Q?"; m_rSink << '_'; } m_rSink << "?="; } case CODING_ENCODED_TERMINATED: if (m_rSink.getColumn() + nSize > m_rSink.getLineLengthLimit() - 1) m_rSink << INetMIMEOutputSink::endl; m_rSink << ' '; break; } m_rSink.write(m_pBuffer, m_pBufferEnd); m_eCoding = CODING_ENCODED_TERMINATED; } else { // If the text itself is too long to fit into a single line, make it // into multiple encoded words: switch (m_eCoding) { case CODING_NONE: if (m_nExtraSpaces == 0) { DBG_ASSERT(m_ePrevCoding == CODING_NONE || m_pBuffer == m_pBufferEnd, "INetMIMEEncodedWordOutputSink::finish():" " Bad state"); if (m_rSink.getColumn() + (m_pBufferEnd - m_pBuffer) > m_rSink.getLineLengthLimit()) m_eCoding = CODING_ENCODED; } else { OSL_ASSERT(m_pBufferEnd >= m_pBuffer); if (static_cast< std::size_t >(m_pBufferEnd - m_pBuffer) > m_rSink.getLineLengthLimit() - 1) { m_eCoding = CODING_ENCODED; } } break; case CODING_QUOTED: if (m_nExtraSpaces == 0) { DBG_ASSERT(m_ePrevCoding == CODING_NONE, "INetMIMEEncodedWordOutputSink::finish():" " Bad state"); if (m_rSink.getColumn() + (m_pBufferEnd - m_pBuffer) + m_nQuotedEscaped > m_rSink.getLineLengthLimit() - 2) m_eCoding = CODING_ENCODED; } else if ((m_pBufferEnd - m_pBuffer) + m_nQuotedEscaped > m_rSink.getLineLengthLimit() - 3) m_eCoding = CODING_ENCODED; break; default: break; } switch (m_eCoding) { case CODING_NONE: switch (m_ePrevCoding) { case CODING_QUOTED: if (m_rSink.getColumn() + m_nExtraSpaces + (m_pBufferEnd - m_pBuffer) < m_rSink.getLineLengthLimit()) m_eCoding = CODING_QUOTED; else m_rSink << '"'; break; case CODING_ENCODED: m_rSink << "?="; break; default: break; } for (; m_nExtraSpaces > 1; --m_nExtraSpaces) { if (m_rSink.getColumn() >= m_rSink.getLineLengthLimit()) m_rSink << INetMIMEOutputSink::endl; m_rSink << ' '; } if (m_nExtraSpaces == 1) { if (m_rSink.getColumn() + (m_pBufferEnd - m_pBuffer) >= m_rSink.getLineLengthLimit()) m_rSink << INetMIMEOutputSink::endl; m_rSink << ' '; } m_rSink.write(m_pBuffer, m_pBufferEnd); if (m_eCoding == CODING_QUOTED && bWriteTrailer) { m_rSink << '"'; m_eCoding = CODING_NONE; } break; case CODING_QUOTED: { bool bInsertLeadingQuote = true; sal_uInt32 nSize = (m_pBufferEnd - m_pBuffer) + m_nQuotedEscaped + 2; switch (m_ePrevCoding) { case CODING_QUOTED: if (m_rSink.getColumn() + m_nExtraSpaces + nSize - 1 < m_rSink.getLineLengthLimit()) { bInsertLeadingQuote = false; --nSize; } else m_rSink << '"'; break; case CODING_ENCODED: m_rSink << "?="; break; default: break; } for (; m_nExtraSpaces > 1; --m_nExtraSpaces) { if (m_rSink.getColumn() >= m_rSink.getLineLengthLimit()) m_rSink << INetMIMEOutputSink::endl; m_rSink << ' '; } if (m_nExtraSpaces == 1) { if (m_rSink.getColumn() + nSize >= m_rSink.getLineLengthLimit()) m_rSink << INetMIMEOutputSink::endl; m_rSink << ' '; } if (bInsertLeadingQuote) m_rSink << '"'; for (const sal_Unicode * p = m_pBuffer; p != m_pBufferEnd; ++p) { if (INetMIME::needsQuotedStringEscape(*p)) m_rSink << '\\'; m_rSink << sal_Char(*p); } if (bWriteTrailer) { m_rSink << '"'; m_eCoding = CODING_NONE; } break; } case CODING_ENCODED: { rtl_TextEncoding eCharsetEncoding = m_pEncodingList-> getPreferredEncoding(RTL_TEXTENCODING_UTF8); rtl_TextEncoding eMIMEEncoding = INetMIME::translateToMIME(eCharsetEncoding); // The non UTF-8 code will only work for stateless single byte // character encodings (see also below): sal_Char * pTargetBuffer = NULL; sal_Size nTargetSize = 0; sal_uInt32 nSize; if (eMIMEEncoding == RTL_TEXTENCODING_UTF8) { nSize = 0; for (sal_Unicode const * p = m_pBuffer; p != m_pBufferEnd;) { sal_uInt32 nUTF32 = INetMIME::getUTF32Character(p, m_pBufferEnd); nSize += needsEncodedWordEscape(nUTF32) ? 3 * INetMIME::getUTF8OctetCount(nUTF32) : 1; // only US-ASCII characters (that are converted to // a single byte by UTF-8) need no encoded word // escapes... } } else { rtl_UnicodeToTextConverter hConverter = rtl_createUnicodeToTextConverter(eCharsetEncoding); rtl_UnicodeToTextContext hContext = rtl_createUnicodeToTextContext(hConverter); for (sal_Size nBufferSize = m_pBufferEnd - m_pBuffer;; nBufferSize += nBufferSize / 3 + 1) { pTargetBuffer = new sal_Char[nBufferSize]; sal_uInt32 nInfo; sal_Size nSrcCvtBytes; nTargetSize = rtl_convertUnicodeToText( hConverter, hContext, m_pBuffer, m_pBufferEnd - m_pBuffer, pTargetBuffer, nBufferSize, RTL_UNICODETOTEXT_FLAGS_UNDEFINED_IGNORE | RTL_UNICODETOTEXT_FLAGS_INVALID_IGNORE, &nInfo, &nSrcCvtBytes); if (!(nInfo & RTL_UNICODETOTEXT_INFO_DESTBUFFERTOSMALL)) break; delete[] pTargetBuffer; pTargetBuffer = NULL; rtl_resetUnicodeToTextContext(hConverter, hContext); } rtl_destroyUnicodeToTextContext(hConverter, hContext); rtl_destroyUnicodeToTextConverter(hConverter); nSize = nTargetSize; for (sal_Size k = 0; k < nTargetSize; ++k) if (needsEncodedWordEscape(sal_uChar( pTargetBuffer[k]))) nSize += 2; } const sal_Char * pCharsetName = INetMIME::getCharsetName(eMIMEEncoding); sal_uInt32 nWrapperSize = rtl_str_getLength(pCharsetName) + 7; // '=?', '?Q?', '?=' switch (m_ePrevCoding) { case CODING_QUOTED: m_rSink << '"'; case CODING_NONE: if (m_eInitialSpace == SPACE_ENCODED && m_nExtraSpaces == 0) m_nExtraSpaces = 1; nSize += nWrapperSize; for (; m_nExtraSpaces > 1; --m_nExtraSpaces) { if (m_rSink.getColumn() >= m_rSink.getLineLengthLimit()) m_rSink << INetMIMEOutputSink::endl; m_rSink << ' '; } if (m_nExtraSpaces == 1) { if (m_rSink.getColumn() + nSize >= m_rSink.getLineLengthLimit()) m_rSink << INetMIMEOutputSink::endl; m_rSink << ' '; } m_rSink << "=?" << pCharsetName << "?Q?"; break; case CODING_ENCODED: if (m_ePrevMIMEEncoding != eMIMEEncoding || m_rSink.getColumn() + m_nExtraSpaces + nSize > m_rSink.getLineLengthLimit() - 2) { m_rSink << "?="; if (m_rSink.getColumn() + nWrapperSize + m_nExtraSpaces + nSize > m_rSink.getLineLengthLimit() - 1) m_rSink << INetMIMEOutputSink::endl; m_rSink << " =?" << pCharsetName << "?Q?"; } while (m_nExtraSpaces-- > 0) { if (m_rSink.getColumn() > m_rSink.getLineLengthLimit() - 3) m_rSink << "?=" << INetMIMEOutputSink::endl << " =?" << pCharsetName << "?Q?"; m_rSink << '_'; } break; case CODING_ENCODED_TERMINATED: if (m_rSink.getColumn() + nWrapperSize + m_nExtraSpaces + nSize > m_rSink.getLineLengthLimit() - 1) m_rSink << INetMIMEOutputSink::endl; m_rSink << " =?" << pCharsetName << "?Q?"; while (m_nExtraSpaces-- > 0) { if (m_rSink.getColumn() > m_rSink.getLineLengthLimit() - 3) m_rSink << "?=" << INetMIMEOutputSink::endl << " =?" << pCharsetName << "?Q?"; m_rSink << '_'; } break; } // The non UTF-8 code will only work for stateless single byte // character encodings (see also above): if (eMIMEEncoding == RTL_TEXTENCODING_UTF8) { bool bInitial = true; for (sal_Unicode const * p = m_pBuffer; p != m_pBufferEnd;) { sal_uInt32 nUTF32 = INetMIME::getUTF32Character(p, m_pBufferEnd); bool bEscape = needsEncodedWordEscape(nUTF32); sal_uInt32 nWidth = bEscape ? 3 * INetMIME::getUTF8OctetCount(nUTF32) : 1; // only US-ASCII characters (that are converted to // a single byte by UTF-8) need no encoded word // escapes... if (!bInitial && m_rSink.getColumn() + nWidth + 2 > m_rSink.getLineLengthLimit()) m_rSink << "?=" << INetMIMEOutputSink::endl << " =?" << pCharsetName << "?Q?"; if (bEscape) { DBG_ASSERT( nUTF32 < 0x10FFFF, "INetMIMEEncodedWordOutputSink::finish():" " Bad char"); if (nUTF32 < 0x80) INetMIME::writeEscapeSequence(m_rSink, nUTF32); else if (nUTF32 < 0x800) { INetMIME::writeEscapeSequence(m_rSink, (nUTF32 >> 6) | 0xC0); INetMIME::writeEscapeSequence(m_rSink, (nUTF32 & 0x3F) | 0x80); } else if (nUTF32 < 0x10000) { INetMIME::writeEscapeSequence(m_rSink, (nUTF32 >> 12) | 0xE0); INetMIME::writeEscapeSequence(m_rSink, ((nUTF32 >> 6) & 0x3F) | 0x80); INetMIME::writeEscapeSequence(m_rSink, (nUTF32 & 0x3F) | 0x80); } else { INetMIME::writeEscapeSequence(m_rSink, (nUTF32 >> 18) | 0xF0); INetMIME::writeEscapeSequence(m_rSink, ((nUTF32 >> 12) & 0x3F) | 0x80); INetMIME::writeEscapeSequence(m_rSink, ((nUTF32 >> 6) & 0x3F) | 0x80); INetMIME::writeEscapeSequence(m_rSink, (nUTF32 & 0x3F) | 0x80); } } else m_rSink << sal_Char(nUTF32); bInitial = false; } } else { for (sal_Size k = 0; k < nTargetSize; ++k) { sal_uInt32 nUCS4 = sal_uChar(pTargetBuffer[k]); bool bEscape = needsEncodedWordEscape(nUCS4); if (k > 0 && m_rSink.getColumn() + (bEscape ? 5 : 3) > m_rSink.getLineLengthLimit()) m_rSink << "?=" << INetMIMEOutputSink::endl << " =?" << pCharsetName << "?Q?"; if (bEscape) INetMIME::writeEscapeSequence(m_rSink, nUCS4); else m_rSink << sal_Char(nUCS4); } delete[] pTargetBuffer; } if (bWriteTrailer) { m_rSink << "?="; m_eCoding = CODING_ENCODED_TERMINATED; } m_ePrevMIMEEncoding = eMIMEEncoding; break; } default: OSL_ASSERT(false); break; } } m_eInitialSpace = SPACE_NO; m_nExtraSpaces = 0; m_pEncodingList->reset(); m_pBufferEnd = m_pBuffer; m_ePrevCoding = m_eCoding; m_eCoding = CODING_NONE; m_nQuotedEscaped = 0; m_eEncodedWordState = STATE_INITIAL; } //============================================================================ INetMIMEEncodedWordOutputSink::~INetMIMEEncodedWordOutputSink() { rtl_freeMemory(m_pBuffer); delete m_pEncodingList; } //============================================================================ INetMIMEEncodedWordOutputSink & INetMIMEEncodedWordOutputSink::operator <<(sal_uInt32 nChar) { if (nChar == ' ') { if (m_pBufferEnd != m_pBuffer) finish(false); ++m_nExtraSpaces; } else { // Check for an already encoded word: switch (m_eEncodedWordState) { case STATE_INITIAL: if (nChar == '=') m_eEncodedWordState = STATE_FIRST_EQUALS; else m_eEncodedWordState = STATE_BAD; break; case STATE_FIRST_EQUALS: if (nChar == '?') m_eEncodedWordState = STATE_FIRST_EQUALS; else m_eEncodedWordState = STATE_BAD; break; case STATE_FIRST_QUESTION: if (INetMIME::isEncodedWordTokenChar(nChar)) m_eEncodedWordState = STATE_CHARSET; else m_eEncodedWordState = STATE_BAD; break; case STATE_CHARSET: if (nChar == '?') m_eEncodedWordState = STATE_SECOND_QUESTION; else if (!INetMIME::isEncodedWordTokenChar(nChar)) m_eEncodedWordState = STATE_BAD; break; case STATE_SECOND_QUESTION: if (nChar == 'B' || nChar == 'Q' || nChar == 'b' || nChar == 'q') m_eEncodedWordState = STATE_ENCODING; else m_eEncodedWordState = STATE_BAD; break; case STATE_ENCODING: if (nChar == '?') m_eEncodedWordState = STATE_THIRD_QUESTION; else m_eEncodedWordState = STATE_BAD; break; case STATE_THIRD_QUESTION: if (INetMIME::isVisible(nChar) && nChar != '?') m_eEncodedWordState = STATE_ENCODED_TEXT; else m_eEncodedWordState = STATE_BAD; break; case STATE_ENCODED_TEXT: if (nChar == '?') m_eEncodedWordState = STATE_FOURTH_QUESTION; else if (!INetMIME::isVisible(nChar)) m_eEncodedWordState = STATE_BAD; break; case STATE_FOURTH_QUESTION: if (nChar == '=') m_eEncodedWordState = STATE_SECOND_EQUALS; else m_eEncodedWordState = STATE_BAD; break; case STATE_SECOND_EQUALS: m_eEncodedWordState = STATE_BAD; break; case STATE_BAD: break; } // Update encoding: m_pEncodingList->includes(nChar); // Update coding: enum { TENQ = 1, // CONTEXT_TEXT, CODING_ENCODED CENQ = 2, // CONTEXT_COMMENT, CODING_ENCODED PQTD = 4, // CONTEXT_PHRASE, CODING_QUOTED PENQ = 8 }; // CONTEXT_PHRASE, CODING_ENCODED static const sal_Char aMinimal[128] = { TENQ | CENQ | PENQ, // 0x00 TENQ | CENQ | PENQ, // 0x01 TENQ | CENQ | PENQ, // 0x02 TENQ | CENQ | PENQ, // 0x03 TENQ | CENQ | PENQ, // 0x04 TENQ | CENQ | PENQ, // 0x05 TENQ | CENQ | PENQ, // 0x06 TENQ | CENQ | PENQ, // 0x07 TENQ | CENQ | PENQ, // 0x08 TENQ | CENQ | PENQ, // 0x09 TENQ | CENQ | PENQ, // 0x0A TENQ | CENQ | PENQ, // 0x0B TENQ | CENQ | PENQ, // 0x0C TENQ | CENQ | PENQ, // 0x0D TENQ | CENQ | PENQ, // 0x0E TENQ | CENQ | PENQ, // 0x0F TENQ | CENQ | PENQ, // 0x10 TENQ | CENQ | PENQ, // 0x11 TENQ | CENQ | PENQ, // 0x12 TENQ | CENQ | PENQ, // 0x13 TENQ | CENQ | PENQ, // 0x14 TENQ | CENQ | PENQ, // 0x15 TENQ | CENQ | PENQ, // 0x16 TENQ | CENQ | PENQ, // 0x17 TENQ | CENQ | PENQ, // 0x18 TENQ | CENQ | PENQ, // 0x19 TENQ | CENQ | PENQ, // 0x1A TENQ | CENQ | PENQ, // 0x1B TENQ | CENQ | PENQ, // 0x1C TENQ | CENQ | PENQ, // 0x1D TENQ | CENQ | PENQ, // 0x1E TENQ | CENQ | PENQ, // 0x1F 0, // ' ' 0, // '!' PQTD , // '"' 0, // '#' 0, // '$' 0, // '%' 0, // '&' 0, // ''' CENQ | PQTD , // '(' CENQ | PQTD , // ')' 0, // '*' 0, // '+' PQTD , // ',' 0, // '-' PQTD , // '.' 0, // '/' 0, // '0' 0, // '1' 0, // '2' 0, // '3' 0, // '4' 0, // '5' 0, // '6' 0, // '7' 0, // '8' 0, // '9' PQTD , // ':' PQTD , // ';' PQTD , // '<' 0, // '=' PQTD , // '>' 0, // '?' PQTD , // '@' 0, // 'A' 0, // 'B' 0, // 'C' 0, // 'D' 0, // 'E' 0, // 'F' 0, // 'G' 0, // 'H' 0, // 'I' 0, // 'J' 0, // 'K' 0, // 'L' 0, // 'M' 0, // 'N' 0, // 'O' 0, // 'P' 0, // 'Q' 0, // 'R' 0, // 'S' 0, // 'T' 0, // 'U' 0, // 'V' 0, // 'W' 0, // 'X' 0, // 'Y' 0, // 'Z' PQTD , // '[' CENQ | PQTD , // '\' PQTD , // ']' 0, // '^' 0, // '_' 0, // '`' 0, // 'a' 0, // 'b' 0, // 'c' 0, // 'd' 0, // 'e' 0, // 'f' 0, // 'g' 0, // 'h' 0, // 'i' 0, // 'j' 0, // 'k' 0, // 'l' 0, // 'm' 0, // 'n' 0, // 'o' 0, // 'p' 0, // 'q' 0, // 'r' 0, // 's' 0, // 't' 0, // 'u' 0, // 'v' 0, // 'w' 0, // 'x' 0, // 'y' 0, // 'z' 0, // '{' 0, // '|' 0, // '}' 0, // '~' TENQ | CENQ | PENQ }; // DEL Coding eNewCoding = !INetMIME::isUSASCII(nChar) ? CODING_ENCODED : m_eContext == CONTEXT_PHRASE ? Coding(aMinimal[nChar] >> 2) : aMinimal[nChar] & m_eContext ? CODING_ENCODED : CODING_NONE; if (eNewCoding > m_eCoding) m_eCoding = eNewCoding; if (m_eCoding == CODING_QUOTED && INetMIME::needsQuotedStringEscape(nChar)) ++m_nQuotedEscaped; // Append to buffer: if (sal_uInt32(m_pBufferEnd - m_pBuffer) == m_nBufferSize) { m_pBuffer = static_cast< sal_Unicode * >( rtl_reallocateMemory(m_pBuffer, (m_nBufferSize + BUFFER_SIZE) * sizeof (sal_Unicode))); m_pBufferEnd = m_pBuffer + m_nBufferSize; m_nBufferSize += BUFFER_SIZE; } *m_pBufferEnd++ = sal_Unicode(nChar); } return *this; } //============================================================================ // // INetContentTypeParameterList // //============================================================================ void INetContentTypeParameterList::Clear() { maEntries.clear(); } //============================================================================ const INetContentTypeParameter * INetContentTypeParameterList::find(const ByteString & rAttribute) const { boost::ptr_vector::const_iterator iter; for (iter = maEntries.begin(); iter != maEntries.end(); ++iter) { if (iter->m_sAttribute.EqualsIgnoreCaseAscii(rAttribute)) return &(*iter); } return NULL; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */