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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.apache.org/licenses/LICENSE-2.0 .
*/
#ifndef INCLUDED_TOOLS_INETMIME_HXX
#define INCLUDED_TOOLS_INETMIME_HXX
#include <tools/toolsdllapi.h>
#include <rtl/character.hxx>
#include <rtl/string.hxx>
#include <rtl/ustring.hxx>
#include <tools/debug.hxx>
#include <unordered_map>
struct INetContentTypeParameter
{
/** The optional character set specification (see RFC 2231), in US-ASCII
encoding and converted to lower case.
*/
OString m_sCharset;
/** The optional language specification (see RFC 2231), in US-ASCII
encoding and converted to lower case.
*/
OString m_sLanguage;
/** The attribute value. If the value is a quoted-string, it is
'unpacked.' If a character set is specified, and the value can be
converted to Unicode, this is done. Also, if no character set is
specified, it is first tried to convert the value from UTF-8 encoding
to Unicode, and if that doesn't work (because the value is not in
UTF-8 encoding), it is converted from ISO-8859-1 encoding to Unicode
(which will always work). But if a character set is specified and the
value cannot be converted from that character set to Unicode, special
action is taken to produce a value that can possibly be transformed
back into its original form: Any 8-bit character from a non-encoded
part of the original value is directly converted to Unicode
(effectively handling it as if it was ISO-8859-1 encoded), and any
8-bit character from an encoded part of the original value is mapped
to the range U+F800..U+F8FF at the top of the Corporate Use Subarea
within Unicode's Private Use Area (effectively adding 0xF800 to the
character's numeric value).
*/
OUString m_sValue;
/** This is true if the value is successfully converted to Unicode, and
false if the value is a special mixture of ISO-LATIN-1 characters and
characters from Unicode's Private Use Area.
*/
bool m_bConverted;
};
/** The key is the name of the attribute, in US-ASCII encoding and converted
to lower case. If a parameter value is split as described in RFC 2231,
there will only be one item for the complete parameter, with the attribute
name lacking any section suffix.
*/
typedef std::unordered_map<OString, INetContentTypeParameter>
INetContentTypeParameterList;
class SAL_WARN_UNUSED TOOLS_DLLPUBLIC INetMIME
{
public:
/** Check for US-ASCII visible character.
@param nChar Some UCS-4 character.
@return True if nChar is a US-ASCII visible character (US-ASCII
0x21--0x7E).
*/
static inline bool isVisible(sal_uInt32 nChar);
/** Check whether some character is valid within an RFC 822 <atom>.
@param nChar Some UCS-4 character.
@return True if nChar is valid within an RFC 822 <atom> (US-ASCII
'A'--'Z', 'a'--'z', '0'--'9', '!', '#', '$', '%', '&', ''', '*', '+',
'-', '/', '=', '?', '^', '_', '`', '{', '|', '}', or '~').
*/
static bool isAtomChar(sal_uInt32 nChar);
/** Check whether some character is valid within an RFC 2060 <atom>.
@param nChar Some UCS-4 character.
@return True if nChar is valid within an RFC 2060 <atom> (US-ASCII
'A'--'Z', 'a'--'z', '0'--'9', '!', '#', '$', '&', ''', '+', ',', '-',
'.', '/', ':', ';', '<', '=', '>', '?', '@', '[', ']', '^', '_', '`',
'|', '}', or '~').
*/
static bool isIMAPAtomChar(sal_uInt32 nChar);
/** Get the digit weight of a US-ASCII character.
@param nChar Some UCS-4 character.
@return If nChar is a US-ASCII (decimal) digit character (US-ASCII
'0'--'9'), return the corresponding weight (0--9); otherwise,
return -1.
*/
static inline int getWeight(sal_uInt32 nChar);
/** Get the hexadecimal digit weight of a US-ASCII character.
@param nChar Some UCS-4 character.
@return If nChar is a US-ASCII hexadecimal digit character (US-ASCII
'0'--'9', 'A'--'F', or 'a'--'f'), return the corresponding weight
(0--15); otherwise, return -1.
*/
static inline int getHexWeight(sal_uInt32 nChar);
/** Check two US-ASCII strings for equality, ignoring case.
@param pBegin1 Points to the start of the first string, must not be
null.
@param pEnd1 Points past the end of the first string, must be >=
pBegin1.
@param pString2 Points to the start of the null terminated second
string, must not be null.
@return True if the two strings are equal, ignoring the case of US-
ASCII alphabetic characters (US-ASCII 'A'--'Z' and 'a'--'z').
*/
static bool equalIgnoreCase(const sal_Unicode * pBegin1,
const sal_Unicode * pEnd1,
const char * pString2);
static bool scanUnsigned(const sal_Unicode *& rBegin,
const sal_Unicode * pEnd, bool bLeadingZeroes,
sal_uInt32 & rValue);
/** Parse the body of an RFC 2045 Content-Type header field.
@param pBegin The range (that must be valid) from non-null pBegin,
inclusive. to non-null pEnd, exclusive, forms the body of the
Content-Type header field. It must be of the form
token "/" token *(";" token "=" (token / quoted-string))
with intervening linear white space and comments (cf. RFCs 822, 2045).
The RFC 2231 extensions are supported. The encoding of rMediaType
should be US-ASCII, but any Unicode values in the range U+0080..U+FFFF
are interpreted 'as appropriate.'
@param pType If not null, returns the type (the first of the above
tokens), in US-ASCII encoding and converted to lower case.
@param pSubType If not null, returns the sub-type (the second of the
above tokens), in US-ASCII encoding and converted to lower case.
@param pParameters If not null, returns the parameters as a list of
INetContentTypeParameters (the attributes are in US-ASCII encoding and
converted to lower case, the values are in Unicode encoding). If
null, only the syntax of the parameters is checked, but they are not
returned.
@return Null if the syntax of the field body is incorrect (i.e., does
not start with type and sub-type tokens). Otherwise, a pointer past the
longest valid input prefix. If null is returned, none of the output
parameters will be modified.
*/
static sal_Unicode const * scanContentType(
OUString const & rStr,
OUString * pType = nullptr, OUString * pSubType = nullptr,
INetContentTypeParameterList * pParameters = nullptr);
static OUString decodeHeaderFieldBody(const OString& rBody);
/** Get the UTF-32 character at the head of a UTF-16 encoded string.
@param rBegin Points to the start of the UTF-16 encoded string, must
not be null. On exit, it points past the first UTF-32 character's
encoding.
@param pEnd Points past the end of the UTF-16 encoded string, must be
strictly greater than rBegin.
@return The UCS-4 character at the head of the UTF-16 encoded string.
If the string does not start with the UTF-16 encoding of a UCS-32
character, the first UTF-16 value is returned.
*/
static inline sal_uInt32 getUTF32Character(const sal_Unicode *& rBegin,
const sal_Unicode * pEnd);
};
// static
inline bool INetMIME::isVisible(sal_uInt32 nChar)
{
return nChar >= '!' && nChar <= '~';
}
// static
inline int INetMIME::getWeight(sal_uInt32 nChar)
{
return rtl::isAsciiDigit(nChar) ? int(nChar - '0') : -1;
}
// static
inline int INetMIME::getHexWeight(sal_uInt32 nChar)
{
return rtl::isAsciiDigit(nChar) ? int(nChar - '0') :
nChar >= 'A' && nChar <= 'F' ? int(nChar - 'A' + 10) :
nChar >= 'a' && nChar <= 'f' ? int(nChar - 'a' + 10) : -1;
}
// static
inline sal_uInt32 INetMIME::getUTF32Character(const sal_Unicode *& rBegin,
const sal_Unicode * pEnd)
{
DBG_ASSERT(rBegin && rBegin < pEnd,
"INetMIME::getUTF32Character(): Bad sequence");
if (rBegin + 1 < pEnd && rBegin[0] >= 0xD800 && rBegin[0] <= 0xDBFF
&& rBegin[1] >= 0xDC00 && rBegin[1] <= 0xDFFF)
{
sal_uInt32 nUTF32 = sal_uInt32(*rBegin++ & 0x3FF) << 10;
return (nUTF32 | (*rBegin++ & 0x3FF)) + 0x10000;
}
else
return *rBegin++;
}
#endif
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