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|
//
// XMLStreamParser.cpp
//
// Library: XML
// Package: XML
// Module: XMLStreamParser
//
// Copyright (c) 2015, Applied Informatics Software Engineering GmbH.
// and Contributors.
//
// Based on libstudxml (http://www.codesynthesis.com/projects/libstudxml/).
// Copyright (c) 2009-2013 Code Synthesis Tools CC.
//
// SPDX-License-Identifier: BSL-1.0
//
#include "Poco/XML/XMLStreamParser.h"
#include <new>
#include <cstring>
#include <istream>
#include <ostream>
#include <sstream>
namespace Poco {
namespace XML {
struct StreamExceptionController
{
StreamExceptionController(std::istream& is):
_istr(is),
_oldState(_istr.exceptions())
{
_istr.exceptions(_oldState & ~std::istream::failbit);
}
~StreamExceptionController()
{
std::istream::iostate s = _istr.rdstate();
s &= ~std::istream::failbit;
// If our error state (sans failbit) intersects with the
// exception state then that means we have an active
// exception and changing error/exception state will
// cause another to be thrown.
if (!(_oldState & s))
{
// Clear failbit if it was caused by eof.
//
if (_istr.fail() && _istr.eof())
_istr.clear(s);
_istr.exceptions(_oldState);
}
}
private:
StreamExceptionController(const StreamExceptionController&);
StreamExceptionController& operator = (const StreamExceptionController&);
private:
std::istream& _istr;
std::istream::iostate _oldState;
};
static const char* parserEventStrings[] =
{
"start element",
"end element",
"start attribute",
"end attribute",
"characters",
"start namespace declaration",
"end namespace declaration",
"end of file"
};
std::ostream& operator << (std::ostream& os, XMLStreamParser::EventType e)
{
return os << parserEventStrings[e];
}
XMLStreamParser::XMLStreamParser(std::istream& is, const std::string& iname, FeatureType f):
_size(0),
_inputName(iname),
_feature(f)
{
_data.is = &is;
init();
}
XMLStreamParser::XMLStreamParser(const void* data, std::size_t size, const std::string& iname, FeatureType f):
_size(size),
_inputName(iname),
_feature(f)
{
poco_assert(data != 0 && size != 0);
_data.buf = data;
init();
}
XMLStreamParser::~XMLStreamParser()
{
if (_parser) XML_ParserFree(_parser);
}
void XMLStreamParser::init()
{
_depth = 0;
_parserState = state_next;
_currentEvent = EV_EOF;
_queue = EV_EOF;
_qualifiedName = &_qname;
_pvalue = &_value;
_line = 0;
_column = 0;
_currentAttributeIndex = 0;
_startNamespaceIndex = 0;
_endNamespaceIndex = 0;
if ((_feature & RECEIVE_ATTRIBUTE_MAP) != 0 && (_feature & RECEIVE_ATTRIBUTES_EVENT) != 0)
_feature &= ~RECEIVE_ATTRIBUTE_MAP;
// Allocate the XMLStreamParser. Make sure nothing else can throw after
// this call since otherwise we will leak it.
//
_parser = XML_ParserCreateNS(0, XML_Char(' '));
if (_parser == 0)
throw std::bad_alloc();
// Get prefixes in addition to namespaces and local names.
//
XML_SetReturnNSTriplet(_parser, true);
// Set handlers.
//
XML_SetUserData(_parser, this);
if ((_feature & RECEIVE_ELEMENTS) != 0)
{
XML_SetStartElementHandler(_parser, &handleStartElement);
XML_SetEndElementHandler(_parser, &handleEndElement);
}
if ((_feature & RECEIVE_CHARACTERS) != 0)
XML_SetCharacterDataHandler(_parser, &handleCharacters);
if ((_feature & RECEIVE_NAMESPACE_DECLS) != 0)
XML_SetNamespaceDeclHandler(_parser, &handleStartNamespaceDecl, &handleEndNamespaceDecl);
}
void XMLStreamParser::handleError()
{
XML_Error e(XML_GetErrorCode(_parser));
if (e == XML_ERROR_ABORTED)
{
// For now we only abort the XMLStreamParser in the handleCharacters() and
// handleStartElement() handlers.
//
switch (content())
{
case Content::Empty:
throw XMLStreamParserException(*this, "characters in empty content");
case Content::Simple:
throw XMLStreamParserException(*this, "element in simple content");
case Content::Complex:
throw XMLStreamParserException(*this, "characters in complex content");
default:
poco_assert(false);
}
}
else
throw XMLStreamParserException(_inputName, XML_GetCurrentLineNumber(_parser), XML_GetCurrentColumnNumber(_parser), XML_ErrorString(e));
}
XMLStreamParser::EventType XMLStreamParser::next()
{
if (_parserState == state_next)
return nextImpl(false);
else
{
// If we previously peeked at start/end_element, then adjust
// state accordingly.
//
switch (_currentEvent)
{
case EV_END_ELEMENT:
{
if (!_elementState.empty() && _elementState.back().depth == _depth)
popElement();
_depth--;
break;
}
case EV_START_ELEMENT:
{
_depth++;
break;
}
default:
break;
}
_parserState = state_next;
return _currentEvent;
}
}
const std::string& XMLStreamParser::attribute(const QName& qn) const
{
if (const ElementEntry* e = getElement())
{
AttributeMapType::const_iterator i(e->attributeMap.find(qn));
if (i != e->attributeMap.end())
{
if (!i->second.handled)
{
i->second.handled = true;
e->attributesUnhandled--;
}
return i->second.value;
}
}
throw XMLStreamParserException(*this, "attribute '" + qn.toString() + "' expected");
}
std::string XMLStreamParser::attribute(const QName& qn, const std::string& dv) const
{
if (const ElementEntry* e = getElement())
{
AttributeMapType::const_iterator i(e->attributeMap.find(qn));
if (i != e->attributeMap.end())
{
if (!i->second.handled)
{
i->second.handled = true;
e->attributesUnhandled--;
}
return i->second.value;
}
}
return dv;
}
bool XMLStreamParser::attributePresent(const QName& qn) const
{
if (const ElementEntry* e = getElement())
{
AttributeMapType::const_iterator i(e->attributeMap.find(qn));
if (i != e->attributeMap.end())
{
if (!i->second.handled)
{
i->second.handled = true;
e->attributesUnhandled--;
}
return true;
}
}
return false;
}
void XMLStreamParser::nextExpect(EventType e)
{
if (next() != e)
throw XMLStreamParserException(*this, std::string(parserEventStrings[e]) + " expected");
}
void XMLStreamParser::nextExpect(EventType e, const std::string& ns, const std::string& n)
{
if (next() != e || namespaceURI() != ns || localName() != n)
throw XMLStreamParserException(*this, std::string(parserEventStrings[e]) + " '" + QName(ns, n).toString() + "' expected");
}
std::string XMLStreamParser::element()
{
content(Content::Simple);
std::string r;
// The content of the element can be empty in which case there
// will be no characters event.
//
EventType e(next());
if (e == EV_CHARACTERS)
{
r.swap(value());
e = next();
}
// We cannot really get anything other than end_element since
// the simple content validation won't allow it.
//
poco_assert(e == EV_END_ELEMENT);
return r;
}
std::string XMLStreamParser::element(const QName& qn, const std::string& dv)
{
if (peek() == EV_START_ELEMENT && getQName() == qn)
{
next();
return element();
}
return dv;
}
const XMLStreamParser::ElementEntry* XMLStreamParser::getElementImpl() const
{
// The handleStartElement() Expat handler may have already provisioned
// an entry in the element stack. In this case, we need to get the
// one before it, if any.
//
const ElementEntry* r(0);
ElementState::size_type n(_elementState.size() - 1);
if (_elementState[n].depth == _depth)
r = &_elementState[n];
else if (n != 0 && _elementState[n].depth > _depth)
{
n--;
if (_elementState[n].depth == _depth)
r = &_elementState[n];
}
return r;
}
void XMLStreamParser::popElement()
{
// Make sure there are no unhandled attributes left.
//
const ElementEntry& e(_elementState.back());
if (e.attributesUnhandled != 0)
{
// Find the first unhandled attribute and report it.
//
for (AttributeMapType::const_iterator i(e.attributeMap.begin()); i != e.attributeMap.end(); ++i)
{
if (!i->second.handled)
throw XMLStreamParserException(*this, "unexpected attribute '" + i->first.toString() + "'");
}
poco_assert(false);
}
_elementState.pop_back();
}
XMLStreamParser::EventType XMLStreamParser::nextImpl(bool peek)
{
EventType e(nextBody());
// Content-specific processing. Note that we handle characters in the
// handleCharacters() Expat handler for two reasons. Firstly, it is faster
// to ignore the whitespaces at the source. Secondly, this allows us
// to distinguish between element and attribute characters. We can
// move this processing to the handler because the characters event
// is never queued.
//
switch (e)
{
case EV_END_ELEMENT:
{
// If this is a peek, then avoid popping the stack just yet.
// This way, the attribute map will still be valid until we
// call next().
//
if (!peek)
{
if (!_elementState.empty() && _elementState.back().depth == _depth)
popElement();
_depth--;
}
break;
}
case EV_START_ELEMENT:
{
if (const ElementEntry* pEntry = getElement())
{
switch (pEntry->content)
{
case Content::Empty:
throw XMLStreamParserException(*this, "element in empty content");
case Content::Simple:
throw XMLStreamParserException(*this, "element in simple content");
default:
break;
}
}
// If this is a peek, then delay adjusting the depth.
//
if (!peek)
_depth++;
break;
}
default:
break;
}
return e;
}
XMLStreamParser::EventType XMLStreamParser::nextBody()
{
// See if we have any start namespace declarations we need to return.
//
if (_startNamespaceIndex < _startNamespace.size())
{
// Based on the previous event determine what's the next one must be.
//
switch (_currentEvent)
{
case EV_START_NAMESPACE_DECL:
{
if (++_startNamespaceIndex == _startNamespace.size())
{
_startNamespaceIndex = 0;
_startNamespace.clear();
_qualifiedName = &_qname;
break; // No more declarations.
}
// Fall through.
}
case EV_START_ELEMENT:
{
_currentEvent = EV_START_NAMESPACE_DECL;
_qualifiedName = &_startNamespace[_startNamespaceIndex];
return _currentEvent;
}
default:
{
poco_assert(false);
return _currentEvent = EV_EOF;
}
}
}
// See if we have any attributes we need to return as events.
//
if (_currentAttributeIndex < _attributes.size())
{
// Based on the previous event determine what's the next one must be.
//
switch (_currentEvent)
{
case EV_START_ATTRIBUTE:
{
_currentEvent = EV_CHARACTERS;
_pvalue = &_attributes[_currentAttributeIndex].value;
return _currentEvent;
}
case EV_CHARACTERS:
{
_currentEvent = EV_END_ATTRIBUTE; // Name is already set.
return _currentEvent;
}
case EV_END_ATTRIBUTE:
{
if (++_currentAttributeIndex == _attributes.size())
{
_currentAttributeIndex = 0;
_attributes.clear();
_qualifiedName = &_qname;
_pvalue = &_value;
break; // No more attributes.
}
// Fall through.
}
case EV_START_ELEMENT:
case EV_START_NAMESPACE_DECL:
{
_currentEvent = EV_START_ATTRIBUTE;
_qualifiedName = &_attributes[_currentAttributeIndex].qname;
return _currentEvent;
}
default:
{
poco_assert(false);
return _currentEvent = EV_EOF;
}
}
}
// See if we have any end namespace declarations we need to return.
//
if (_endNamespaceIndex < _endNamespace.size())
{
// Based on the previous event determine what's the next one must be.
//
switch (_currentEvent)
{
case EV_END_NAMESPACE_DECL:
{
if (++_endNamespaceIndex == _endNamespace.size())
{
_endNamespaceIndex = 0;
_endNamespace.clear();
_qualifiedName = &_qname;
break; // No more declarations.
}
// Fall through.
}
// The end namespace declaration comes before the end element
// which means it can follow pretty much any other event.
//
default:
{
_currentEvent = EV_END_NAMESPACE_DECL;
_qualifiedName = &_endNamespace[_endNamespaceIndex];
return _currentEvent;
}
}
}
// Check the queue.
//
if (_queue != EV_EOF)
{
_currentEvent = _queue;
_queue = EV_EOF;
_line = XML_GetCurrentLineNumber(_parser);
_column = XML_GetCurrentColumnNumber(_parser);
return _currentEvent;
}
// Reset the character accumulation flag.
//
_accumulateContent = false;
XML_ParsingStatus ps;
XML_GetParsingStatus(_parser, &ps);
switch (ps.parsing)
{
case XML_INITIALIZED:
{
// As if we finished the previous chunk.
break;
}
case XML_PARSING:
{
poco_assert(false);
return _currentEvent = EV_EOF;
}
case XML_FINISHED:
{
return _currentEvent = EV_EOF;
}
case XML_SUSPENDED:
{
switch (XML_ResumeParser(_parser))
{
case XML_STATUS_SUSPENDED:
{
// If the XMLStreamParser is again in the suspended state, then
// that means we have the next event.
//
return _currentEvent;
}
case XML_STATUS_OK:
{
// Otherwise, we need to get and parse the next chunk of data
// unless this was the last chunk, in which case this is eof.
//
if (ps.finalBuffer)
return _currentEvent = EV_EOF;
break;
}
case XML_STATUS_ERROR:
handleError();
}
break;
}
}
// Get and parse the next chunk of data until we get the next event
// or reach eof.
//
if (!_accumulateContent)
_currentEvent = EV_EOF;
XML_Status s;
do
{
if (_size != 0)
{
s = XML_Parse(_parser, static_cast<const char*>(_data.buf), static_cast<int>(_size), true);
if (s == XML_STATUS_ERROR)
handleError();
break;
}
else
{
const size_t cap(4096);
char* b(static_cast<char*>(XML_GetBuffer(_parser, cap)));
if (b == 0)
throw std::bad_alloc();
// Temporarily unset the exception failbit. Also clear the fail bit
// when we reset the old state if it was caused by eof.
//
std::istream& is(*_data.is);
{
StreamExceptionController sec(is);
is.read(b, static_cast<std::streamsize>(cap));
}
// If the caller hasn't configured the stream to use exceptions,
// then use the parsing exception to report an error.
//
if (is.bad() || (is.fail() && !is.eof()))
throw XMLStreamParserException(*this, "io failure");
bool eof(is.eof());
s = XML_ParseBuffer(_parser, static_cast<int>(is.gcount()), eof);
if (s == XML_STATUS_ERROR)
handleError();
if (eof)
break;
}
} while (s != XML_STATUS_SUSPENDED);
return _currentEvent;
}
static void splitName(const XML_Char* s, QName& qn)
{
std::string& ns(qn.namespaceURI());
std::string& name(qn.localName());
std::string& prefix(qn.prefix());
const char* p(strchr(s, ' '));
if (p == 0)
{
ns.clear();
name = s;
prefix.clear();
}
else
{
ns.assign(s, 0, p - s);
s = p + 1;
p = strchr(s, ' ');
if (p == 0)
{
name = s;
prefix.clear();
}
else
{
name.assign(s, 0, p - s);
prefix = p + 1;
}
}
}
void XMLCALL XMLStreamParser::handleStartElement(void* v, const XML_Char* name, const XML_Char** atts)
{
XMLStreamParser& p(*static_cast<XMLStreamParser*>(v));
XML_ParsingStatus ps;
XML_GetParsingStatus(p._parser, &ps);
// Expat has a (mis)-feature of a possibily calling handlers even
// after the non-resumable XML_StopParser call.
//
if (ps.parsing == XML_FINISHED)
return;
// Cannot be a followup event.
//
poco_assert(ps.parsing == XML_PARSING);
// When accumulating characters in simple content, we expect to
// see more characters or end element. Seeing start element is
// possible but means violation of the content model.
//
if (p._accumulateContent)
{
// It would have been easier to throw the exception directly,
// however, the Expat code is most likely not exception safe.
//
p._line = XML_GetCurrentLineNumber(p._parser);
p._column = XML_GetCurrentColumnNumber(p._parser);
XML_StopParser(p._parser, false);
return;
}
p._currentEvent = EV_START_ELEMENT;
splitName(name, p._qname);
p._line = XML_GetCurrentLineNumber(p._parser);
p._column = XML_GetCurrentColumnNumber(p._parser);
// Handle attributes.
//
if (*atts != 0)
{
bool am((p._feature & RECEIVE_ATTRIBUTE_MAP) != 0);
bool ae((p._feature & RECEIVE_ATTRIBUTES_EVENT) != 0);
// Provision an entry for this element.
//
ElementEntry* pe(0);
if (am)
{
p._elementState.push_back(ElementEntry(p._depth + 1));
pe = &p._elementState.back();
}
if (am || ae)
{
for (; *atts != 0; atts += 2)
{
if (am)
{
QName qn;
splitName(*atts, qn);
AttributeMapType::value_type value(qn, AttributeValueType());
value.second.value = *(atts + 1);
value.second.handled = false;
pe->attributeMap.insert(value);
}
else
{
p._attributes.push_back(AttributeType());
splitName(*atts, p._attributes.back().qname);
p._attributes.back().value = *(atts + 1);
}
}
if (am)
pe->attributesUnhandled = pe->attributeMap.size();
}
}
XML_StopParser(p._parser, true);
}
void XMLCALL XMLStreamParser::handleEndElement(void* v, const XML_Char* name)
{
XMLStreamParser& p(*static_cast<XMLStreamParser*>(v));
XML_ParsingStatus ps;
XML_GetParsingStatus(p._parser, &ps);
// Expat has a (mis)-feature of a possibily calling handlers even
// after the non-resumable XML_StopParser call.
//
if (ps.parsing == XML_FINISHED)
return;
// This can be a followup event for empty elements (<foo/>). In this
// case the element name is already set.
//
if (ps.parsing != XML_PARSING)
p._queue = EV_END_ELEMENT;
else
{
splitName(name, p._qname);
// If we are accumulating characters, then queue this event.
//
if (p._accumulateContent)
p._queue = EV_END_ELEMENT;
else
{
p._currentEvent = EV_END_ELEMENT;
p._line = XML_GetCurrentLineNumber(p._parser);
p._column = XML_GetCurrentColumnNumber(p._parser);
}
XML_StopParser(p._parser, true);
}
}
void XMLCALL XMLStreamParser::handleCharacters(void* v, const XML_Char* s, int n)
{
XMLStreamParser& p(*static_cast<XMLStreamParser*>(v));
XML_ParsingStatus ps;
XML_GetParsingStatus(p._parser, &ps);
// Expat has a (mis)-feature of a possibily calling handlers even
// after the non-resumable XML_StopParser call.
//
if (ps.parsing == XML_FINISHED)
return;
Content cont(p.content());
// If this is empty or complex content, see if these are whitespaces.
//
switch (cont)
{
case Content::Empty:
case Content::Complex:
{
for (int i(0); i != n; ++i)
{
char c(s[i]);
if (c == 0x20 || c == 0x0A || c == 0x0D || c == 0x09)
continue;
// It would have been easier to throw the exception directly,
// however, the Expat code is most likely not exception safe.
//
p._line = XML_GetCurrentLineNumber(p._parser);
p._column = XML_GetCurrentColumnNumber(p._parser);
XML_StopParser(p._parser, false);
break;
}
return;
}
default:
break;
}
// Append the characters if we are accumulating. This can also be a
// followup event for another character event. In this case also
// append the data.
//
if (p._accumulateContent || ps.parsing != XML_PARSING)
{
poco_assert(p._currentEvent == EV_CHARACTERS);
p._value.append(s, n);
}
else
{
p._currentEvent = EV_CHARACTERS;
p._value.assign(s, n);
p._line = XML_GetCurrentLineNumber(p._parser);
p._column = XML_GetCurrentColumnNumber(p._parser);
// In simple content we need to accumulate all the characters
// into a single event. To do this we will let the XMLStreamParser run
// until we reach the end of the element.
//
if (cont == Content::Simple)
p._accumulateContent = true;
else
XML_StopParser(p._parser, true);
}
}
void XMLCALL XMLStreamParser::handleStartNamespaceDecl(void* v, const XML_Char* prefix, const XML_Char* ns)
{
XMLStreamParser& p(*static_cast<XMLStreamParser*>(v));
XML_ParsingStatus ps;
XML_GetParsingStatus(p._parser, &ps);
// Expat has a (mis)-feature of a possibily calling handlers even
// after the non-resumable XML_StopParser call.
//
if (ps.parsing == XML_FINISHED)
return;
p._startNamespace.push_back(QName());
p._startNamespace.back().prefix() = (prefix != 0 ? prefix : "");
p._startNamespace.back().namespaceURI() = (ns != 0 ? ns : "");
}
void XMLCALL XMLStreamParser::handleEndNamespaceDecl(void* v, const XML_Char* prefix)
{
XMLStreamParser& p(*static_cast<XMLStreamParser*>(v));
XML_ParsingStatus ps;
XML_GetParsingStatus(p._parser, &ps);
// Expat has a (mis)-feature of a possibily calling handlers even
// after the non-resumable XML_StopParser call.
//
if (ps.parsing == XML_FINISHED)
return;
p._endNamespace.push_back(QName());
p._endNamespace.back().prefix() = (prefix != 0 ? prefix : "");
}
} } // namespace Poco::XML
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