pegasus/src/Pegasus/Common/XmlParser.cpp - diff

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Diff for /pegasus/src/Pegasus/Common/XmlParser.cpp between version 1.43.2.4 and 1.46.4.3

version 1.43.2.4, 2008/03/12 23:40:26

version 1.46.4.3, 2009/02/09 11:36:51

Line 172

"Unterminated comment",

"Unterminated CDATA block",

"Unterminated DOCTYPE",

"Too many attributes: parser only handles 10",

"Malformed reference",

"Expected a comment or CDATA following \"<!\" sequence",

"Closing element does not match opening element",

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"More than one root element was encountered",

"Validation error",

"Semantic error",

"Malformed namespace declaration",

"Namespace not supported",

"Namespace not declared"

};

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"Common.XmlParser.UNTERMINATED_COMMENT",

"Common.XmlParser.UNTERMINATED_CDATA",

"Common.XmlParser.UNTERMINATED_DOCTYPE",

"Common.XmlParser.TOO_MANY_ATTRIBUTES",

"Common.XmlParser.MALFORMED_REFERENCE",

"Common.XmlParser.EXPECTED_COMMENT_OR_CDATA",

"Common.XmlParser.START_END_MISMATCH",

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"Common.XmlParser.MULTIPLE_ROOTS",

"Common.XmlParser.VALIDATION_ERROR",

"Common.XmlParser.SEMANTIC_ERROR",

"Common.XmlParser.MALFORMED_NAMESPACE_DECL",

"Common.XmlParser.UNSUPPORTED_NAMESPACE",

"Common.XmlParser.UNDECLARED_NAMESPACE"

};

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_current(text),

_restoreChar('\0'),

_foundRoot(false),

_scopeLevel(0),

_supportedNamespaces(ns),

_supportedNamespaces(ns)

// Start valid indexes with -2. -1 is reserved for not found.

_currentUnsupportedNSType(-2)

{

}

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#pragma optimize( "", on )

#endif

static inline int _getCharRef(char*& p, bool hex)

static inline int _getCharRef(char*& p)

{

char* end;

unsigned long ch;

Boolean hex = false;

if (hex)

if (*p == 'x')

{

ch = strtoul(p, &end, 16);

hex = true;

ch = strtoul(++p, &end, 16);

}

else

{

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Line 406

return ch;

}

static void _normalize(Uint32& line, char*& p, char end_char, char*& start)

// Parse an entity reference or a character reference

static inline int _getRef(Uint32 line, char*& p)

{

// Skip over leading whitespace:

int ch;

_skipWhitespace(line, p);

if (*p == '#')

start = p;

{

ch = _getCharRef(++p);

}

else

{

ch = _getEntityRef(p);

}

if (ch == -1)

{

throw XmlException(XmlException::MALFORMED_REFERENCE, line);

}

return ch;

}

static inline void _normalizeElementValue(

Uint32& line,

char*& p,

Uint32 &textLen)

{

// Process one character at a time:

char* q = p;

char *start = p;

while (*p && (*p != end_char))

while (*p && (*p != '<'))

{

if (_isspace(*p))

{

// Compress sequences of whitespace characters to a single space

// Trim whitespace from the end of the value, but do not compress

// character. Update line number when newlines encountered.

// whitespace within the value.

const char* start = p;

if (*p++ == '\n')

{

line++;

}

*q++ = ' ';

_skipWhitespace(line, p);

}

else if (*p == '&')

{

// Process entity characters and entity references:

p++;

if (*p && (*p != '<'))

int ch;

if (*p == '#')

{

*p++;

// Transfer internal whitespace to q without compressing it.

const char* i = start;

if (*p == 'x')

while (i < p)

{

p++;

*q++ = *i++;

ch = _getCharRef(p, true);

}

else

{

ch = _getCharRef(p, false);

// Do not transfer trailing whitespace to q.

break;

}

else if (*p == '&')

{

// Process an entity reference or a character reference.

*q++ = _getRef(line, ++p);

}

else

{

ch = _getEntityRef(p);

*q++ = *p++;

}

if (ch == -1)

// If q got behind p, it is safe and necessary to null-terminate q

if (q != p)

{

throw XmlException(XmlException::MALFORMED_REFERENCE, line);

*q = '\0';

}

textLen = (Uint32)(q - start);

}

*q++ = ch;

static inline void _normalizeAttributeValue(

Uint32& line,

char*& p,

char end_char,

char*& start)

{

// Skip over leading whitespace:

_skipWhitespace(line, p);

start = p;

// Process one character at a time:

char* q = p;

while (*p && (*p != end_char))

{

if (_isspace(*p))

{

// Compress sequences of whitespace characters to a single space

// character. Update line number when newlines encountered.

if (*p++ == '\n')

{

line++;

}

*q++ = ' ';

_skipWhitespace(line, p);

}

else if (*p == '&')

{

// Process an entity reference or a character reference.

*q++ = _getRef(line, ++p);

}

else

{

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}

// We encountered a the end_char or a zero-terminator.

*q = *p;

// Remove single trailing whitespace (consecutive whitespaces already

// compressed above). Since p >= q, we can tell if we need to strip a

// trailing space from q by looking at the end of p. We must not look at

// the last character of p, though, if p is an empty string.

Boolean adjust_q = (p != start) && _isspace(p[-1]);

// We encountered a the end_char or a zero-terminator.

*q = *p;

if ((p != start) && _isspace(p[-1]))

if (adjust_q)

{

q--;

}

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XmlEntry& entry,

Boolean includeComment)

{

entry.attributes.clear();

if (!_putBackStack.isEmpty())

{

entry = _putBackStack.top();

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_restoreChar = '\0';

}

entry.attributes.clear();

if (_supportedNamespaces)

{

// Remove namespaces of a deeper scope level from the stack.

while (!_nameSpaces.isEmpty() &&

_nameSpaces.top().scopeLevel > _stack.size())

{

_nameSpaces.pop();

}

// Loop until we are done with comments if includeComment is false.

{

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{

// Normalize the content:

char* start;

char* start = _current;

_normalize(_line, _current, '<', start);

Uint32 textLen;

_normalizeElementValue(_line, _current, textLen);

// Get the content:

entry.type = XmlEntry::CONTENT;

entry.text = start;

entry.textLen = textLen;

// Overwrite '<' with a null character (temporarily).

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entry.type == XmlEntry::EMPTY_TAG ||

entry.type == XmlEntry::END_TAG))

{

// Process attributes and enter namespaces into the table

// Determine the namespace type for this entry

if (entry.type == XmlEntry::START_TAG ||

entry.type == XmlEntry::EMPTY_TAG)

{

_scopeLevel++;

// Process namespace declarations and determine the namespace type

for (unsigned int i = 0; i < entry.attributes.size(); i++)

// for the attributes.

Uint32 scopeLevel = _stack.size();

if (entry.type == XmlEntry::EMPTY_TAG)

{

// Empty tags are deeper scope, but not pushed onto the stack

scopeLevel++;

}

for (Uint32 i = 0, n = entry.attributes.size(); i < n; i++)

{

XmlAttribute& attr = entry.attributes[i];

if (strncmp(attr.name, "xmlns", 5) == 0)

if ((strncmp(attr.name, "xmlns:", 6) == 0) ||

(strcmp(attr.name, "xmlns") == 0))

{

// Process a namespace declaration

XmlNamespace ns;

if (attr.name[5] == ':')

{

ns.localName = attr.name + 6;

ns.localName = attr.localName;

// Check if we have malformed XML of the form:

// "xmlns:=URI". In this case attr.name will be set

// to "xmlns:" and ns.localName will point to '\0'

if (ns.localName[0] == '\0')

{

throw XmlException(

XmlException::MALFORMED_NAMESPACE_DECL,

_line);

}

else

{

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ns.localName = 0;

}

ns.extendedName = attr.value;

ns.scopeLevel = _scopeLevel;

ns.scopeLevel = scopeLevel;

ns.type = getSupportedNamespaceType(ns.extendedName);

ns.type = _getSupportedNamespaceType(ns.extendedName);

// If the namespace is not supported, assign it a unique

// negative identifier.

if (ns.type == -1)

{

ns.type = _currentUnsupportedNSType--;

}

// Even unsupported namespaces get pushed onto the stack.

// We will throw an exception of there is an attempt to

// reference an unsupported namespace later.

_nameSpaces.push(ns);

}

else

{

// Attribute names may also be namespace qualified.

// Get the namespace type for this attribute.

attr.nsType = _getNamespaceType(attr.name);

}

// Get the namespace type for this tag.

entry.nsType = _getNamespaceType(entry.text);

if (entry.type == XmlEntry::END_TAG ||

entry.type == XmlEntry::EMPTY_TAG)

{

// Remove any namespaces of the current scope level from

// the scope stack.

while (!_nameSpaces.isEmpty() &&

_scopeLevel <= _nameSpaces.top().scopeLevel)

{

_nameSpaces.pop();

}

PEGASUS_ASSERT(_scopeLevel > 0);

_scopeLevel--;

}

else

{

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Line 735

{

const char* pos = strchr(tag, ':');

// If ":" is not found, the tag is not namespace qualified and we

// If ':' is not found, the tag is not namespace qualified and we

// need to look for the default name space.

// Search the namespace stack from the top

for (int i = _nameSpaces.size() - 1; i >=0; i--)

for (Sint32 i = _nameSpaces.size() - 1; i >=0; i--)

{

// If ":" is found, look for the name space with the matching

// If ':' is found, look for the name space with the matching

// local name...

if ((pos && _nameSpaces[i].localName &&

!strncmp(_nameSpaces[i].localName, tag, pos - tag)) ||

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// one with localName set to NULL

(!pos && !_nameSpaces[i].localName))

{

// If it's a reference to an unsupported namespace,

// throw an exception

if (_nameSpaces[i].type == -1)

{

throw XmlException(XmlException::UNSUPPORTED_NAMESPACE, _line);

}

return _nameSpaces[i].type;

}

// If the tag is namespace qualified, but the name space has not been

// declared, it's malformed XML and we must throw an exception

// declared, it's malformed XML and we must throw an exception.

if (pos)

// Note: The "xml" namespace is specifically defined by the W3C as a

// reserved prefix ("http://www.w3.org/XML/1998/namespace").

if (pos && (strncmp(tag, "xml:", 4) != 0))

{

throw XmlException(XmlException::UNDECLARED_NAMESPACE, _line);

}

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return -1;

}

// Gived the extended namespace name, find it in the table of supported

// Given the extended namespace name, find it in the table of supported

// namespaces and return its type.

int XmlParser::getSupportedNamespaceType(const char* extendedName)

int XmlParser::_getSupportedNamespaceType(const char* extendedName)

{

for (int i = 0;

for (Sint32 i = 0;

_supportedNamespaces[i].localName != 0;

i++)

{

Line 728

Line 785

XmlNamespace* XmlParser::getNamespace(int nsType)

{

for (int i = _nameSpaces.size() - 1; i >=0; i--)

for (Sint32 i = _nameSpaces.size() - 1; i >=0; i--)

{

if (_nameSpaces[i].type == nsType)

{

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// Nothing to do!

}

// A-Za-z0-9_-:.

// A-Za-z0-9_-. (Note that ':' is not included and must be checked separately)

static unsigned char _isInnerElementChar[] =

{

0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,

0,0,0,0,0,0,0,0,1,1,0,1,1,1,1,1,1,1,1,1,1,1,0,0,0,0,0,0,1,1,1,1,1,1,1,1,1,

0,0,0,0,0,0,0,0,1,1,0,1,1,1,1,1,1,1,1,1,1,0,0,0,0,0,0,0,1,1,1,1,1,1,1,1,1,

1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,0,0,0,1,0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,

1,1,1,1,1,1,1,1,1,1,1,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,

0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,

0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,

0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,

};

Boolean XmlParser::_getElementName(char*& p)

inline Boolean _getQName(char*& p, const char*& localName)

{

localName = p;

if (!CharSet::isAlNumUnder(Uint8(*p)))

throw XmlException(XmlException::BAD_START_TAG, _line);

return false;

p++;

while (*p && _isInnerElementChar[Uint8(*p)])

// No explicit test for NULL termination is needed.

// On position 0 of the array false is returned.

while (_isInnerElementChar[Uint8(*p)])

p++;

// We've validated the prefix, now validate the local name

if (*p == ':')

{

localName = ++p;

if (!CharSet::isAlNumUnder(Uint8(*p)))

return false;

p++;

// No explicit test for NULL termination is needed.

// On position 0 of the array false is returned.

while (_isInnerElementChar[Uint8(*p)])

p++;

}

return true;

}

Boolean XmlParser::_getElementName(char*& p, const char*& localName)

{

if (!_getQName(p, localName))

throw XmlException(XmlException::BAD_START_TAG, _line);

// The next character must be a space:

if (_isspace(*p))

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return false;

}

Boolean XmlParser::_getOpenElementName(char*& p, Boolean& openCloseElement)

Boolean XmlParser::_getOpenElementName(

char*& p,

const char*& localName,

Boolean& openCloseElement)

{

openCloseElement = false;

if (!CharSet::isAlNumUnder(Uint8(*p)))

if (!_getQName(p, localName))

throw XmlException(XmlException::BAD_START_TAG, _line);

p++;

while (*p && _isInnerElementChar[Uint8(*p)])

p++;

// The next character must be a space:

if (_isspace(*p))

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return false;

}

void XmlParser::_getAttributeNameAndEqual(char*& p)

void XmlParser::_getAttributeNameAndEqual(char*& p, const char*& localName)

{

if (!CharSet::isAlNumUnder((Uint8)*p))

if (!_getQName(p, localName))

throw XmlException(XmlException::BAD_ATTRIBUTE_NAME, _line);

p++;

while (*p && _isInnerElementChar[Uint8(*p)])

p++;

char* term = p;

_skipWhitespace(_line, p);

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entry.type = XmlEntry::XML_DECLARATION;

entry.text = ++p;

Boolean openCloseElement = false;

if (_getElementName(p, entry.localName))

if (_getElementName(p))

return;

}

else if (*p == '!')

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entry.type = XmlEntry::CDATA;

entry.text = p;

_getCData(p);

entry.textLen = strlen(entry.text);

return;

}

else if (memcmp(p, "DOCTYPE", 7) == 0)

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entry.type = XmlEntry::END_TAG;

entry.text = ++p;

if (!_getElementName(p))

if (!_getElementName(p, entry.localName))

throw(XmlException(XmlException::BAD_END_TAG, _line));

return;

}

else if ((((*p >= 'A') && (*p <= 'Z')) ||

else if (CharSet::isAlphaUnder(Uint8(*p)))

((*p >= 'a') && (*p <= 'z')) ||

(*p == '_')))

{

entry.type = XmlEntry::START_TAG;

entry.text = p;

Boolean openCloseElement = false;

if (_getOpenElementName(p, openCloseElement))

if (_getOpenElementName(p, entry.localName, openCloseElement))

{

if (openCloseElement)

entry.type = XmlEntry::EMPTY_TAG;

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XmlAttribute attr;

attr.nsType = -1;

attr.name = p;

_getAttributeNameAndEqual(p);

_getAttributeNameAndEqual(p, attr.localName);

// Get the attribute value (e.g., "some value")

{

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char quote = *p++;

char* start;

_normalize(_line, p, quote, start);

_normalizeAttributeValue(_line, p, quote, start);

attr.value = start;

if (*p != quote)

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PEGASUS_STD(cout) << '\n';

for (Uint32 i = 0; i < attributes.size(); i++)

for (Uint32 i = 0, n = attributes.size(); i < n; i++)

{

PEGASUS_STD(cout) << " " << attributes[i].name << "=\"";

_printValue(attributes[i].value);

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const XmlAttribute* XmlEntry::findAttribute(

const char* name) const

{

for (Uint32 i = 0; i < attributes.size(); i++)

for (Uint32 i = 0, n = attributes.size(); i < n; i++)

{

if (strcmp(attributes[i].name, name) == 0)

return &attributes[i];

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return 0;

}

const XmlAttribute* XmlEntry::findAttribute(

int nsType,

const char* name) const

{

for (Uint32 i = 0, n = attributes.size(); i < n; i++)

{

if ((attributes[i].nsType == nsType) &&

(strcmp(attributes[i].localName, name) == 0))

{

return &attributes[i];

}

return 0;

}

// Find first non-whitespace character (set first) and last non-whitespace

// character (set last one past this). For example, consider this string:

Legend:

Removed from v.1.43.2.4
changed lines
	Added in v.1.46.4.3

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