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

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Diff for /pegasus/src/Pegasus/Common/XmlReader.cpp between version 1.34 and 1.53

version 1.34, 2002/03/06 05:12:05

version 1.53, 2002/05/13 18:35:53

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// Roger Kumpf, Hewlett-Packard Company (roger_kumpf@hp.com)

//%/////////////////////////////////////////////////////////////////////////////

#include <Pegasus/Common/Config.h>

#include <cassert>

#include <cctype>

#include <cstdio>

#include <cstdlib>

#if defined(PEGASUS_OS_TYPE_UNIX)

#include <errno.h>

#endif

#include "CIMName.h"

#include "XmlReader.h"

#include "XmlWriter.h"

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//------------------------------------------------------------------------------

// expectXmlDeclaration()

// getXmlDeclaration()

// <?xml version="1.0" encoding="utf-8"?>

//------------------------------------------------------------------------------

void XmlReader::expectXmlDeclaration(

void XmlReader::getXmlDeclaration(

XmlParser& parser,

XmlEntry& entry)

const char*& xmlVersion,

const char*& xmlEncoding)

{

XmlEntry entry;

if (!parser.next(entry) ||

entry.type != XmlEntry::XML_DECLARATION ||

strcmp(entry.text, "xml") != 0)

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throw XmlValidationError(parser.getLine(),

"Expected <?xml ... ?> style declaration");

}

if (!entry.getAttributeValue("version", xmlVersion))

throw XmlValidationError(

parser.getLine(), "missing xml.version attribute");

if (!entry.getAttributeValue("encoding", xmlEncoding))

{

// ATTN-RK-P3-20020403: Is there a default encoding?

}

//------------------------------------------------------------------------------

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//------------------------------------------------------------------------------

// testEndTag>()

// testEndTag()

//------------------------------------------------------------------------------

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Boolean XmlReader::stringToReal(const char* stringValue, Real64& x)

{

// Check the string against the DMTF-defined grammar

const char* p = stringValue;

if (!*p)

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if (*p)

return false;

// Do the conversion

char* end;

errno = 0;

x = strtod(stringValue, &end);

if (*end || (errno == ERANGE))

{

return false;

}

return true;

}

inline Uint8 _hexCharToNumeric(const char c)

{

Uint8 n;

if (isdigit(c))

n = (c - '0');

else if (isupper(c))

n = (c - 'A' + 10);

else // if (islower(c))

n = (c - 'a' + 10);

return n;

}

//------------------------------------------------------------------------------

// stringToSignedInteger

// [ "+" | "-" ] ( positiveDecimalDigit *decimalDigit | "0" )

// or

// [ "+" | "-" ] ( "0x" | "0X" ) 1*hexDigit

// ATTN-B: handle conversion from hexadecimal.

//------------------------------------------------------------------------------

Boolean XmlReader::stringToSignedInteger(

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x = 0;

const char* p = stringValue;

if (!*p)

if (!p || !*p)

return false;

// Skip optional sign:

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if (negative || *p == '+')

p++;

// If the next thing is a zero, then it must be the last:

if (*p == '0')

return p[1] == '\0';

{

if ( (p[1] == 'x') || (p[1] == 'X') )

// Expect a positive decimal digit:

{

// Convert a hexadecimal string

const char* first = p;

// Skip over the "0x"

p+=2;

if (!isdigit(*p) || *p == '0')

// At least one hexadecimal digit is required

if (!isxdigit(*p))

return false;

p++;

// Build the Sint64 as a negative number, regardless of the

// eventual sign (negative numbers can be bigger than positive ones)

// Expect zero or more digits:

// Add on each digit, checking for overflow errors

while (isxdigit(*p))

{

// Make sure we won't overflow when we multiply by 16

if (x < PEGASUS_LLONG_MIN/16)

{

return false;

}

x = x << 4;

while (isdigit(*p))

// Make sure we don't overflow when we add the next digit

p++;

Sint64 newDigit = Sint64(_hexCharToNumeric(*p++));

if (PEGASUS_LLONG_MIN - x > -newDigit)

{

return false;

}

x = x - newDigit;

}

// If we found a non-hexadecimal digit, report an error

if (*p)

return false;

const char* last = p;

// Return the integer to positive, if necessary, checking for an

// overflow error

if (!negative)

{

if (x == PEGASUS_LLONG_MIN)

{

return false;

}

x = -x;

}

return true;

}

else

{

// A decimal string that starts with '0' must be exactly "0".

return p[1] == '\0';

}

// Expect a positive decimal digit:

// At least one decimal digit is required

if (!isdigit(*p))

return false;

// Build the Sint64 as a negative number, regardless of the

// eventual sign (negative numbers can be bigger than positive ones)

while (first != last)

// Add on each digit, checking for overflow errors

x = 10 * x + (*first++ - '0');

while (isdigit(*p))

{

// Make sure we won't overflow when we multiply by 10

if (x < PEGASUS_LLONG_MIN/10)

{

return false;

}

x = 10 * x;

if (negative)

// Make sure we won't overflow when we add the next digit

x = -x;

Sint64 newDigit = (*p++ - '0');

if (PEGASUS_LLONG_MIN - x > -newDigit)

{

return false;

}

x = x - newDigit;

}

// If we found a non-decimal digit, report an error

if (*p)

return false;

// Return the integer to positive, if necessary, checking for an

// overflow error

if (!negative)

{

if (x == PEGASUS_LLONG_MIN)

{

return false;

}

x = -x;

}

return true;

}

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// stringToUnsignedInteger

// [ "+" | "-" ] ( positiveDecimalDigit *decimalDigit | "0" )

// ( positiveDecimalDigit *decimalDigit | "0" )

// or

// ( "0x" | "0X" ) 1*hexDigit

// ATTN-B: handle conversion from hexadecimal.

//------------------------------------------------------------------------------

Boolean XmlReader::stringToUnsignedInteger(

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x = 0;

const char* p = stringValue;

if (!*p)

if (!p || !*p)

return false;

// Skip optional sign:

if (*p == '0')

{

if ( (p[1] == 'x') || (p[1] == 'X') )

{

// Convert a hexadecimal string

// Skip over the "0x"

p+=2;

if (*p == '-')

// At least one hexadecimal digit is required

if (!*p)

return false;

if (*p == '+')

// Add on each digit, checking for overflow errors

p++;

while (isxdigit(*p))

{

// Make sure we won't overflow when we multiply by 16

if (x > PEGASUS_ULLONG_MAX/16)

{

return false;

}

x = x << 4;

// If the next thing is a zero, then it must be the last:

// We can't overflow when we add the next digit

Uint64 newDigit = Uint64(_hexCharToNumeric(*p++));

if (PEGASUS_ULLONG_MAX - x < newDigit)

{

return false;

}

x = x + newDigit;

}

if (*p == '0')

// If we found a non-hexadecimal digit, report an error

if (*p)

return false;

return true;

}

else

{

// A decimal string that starts with '0' must be exactly "0".

return p[1] == '\0';

}

// Expect a positive decimal digit:

const char* first = p;

// Add on each digit, checking for overflow errors

while (isdigit(*p))

if (!isdigit(*p) || *p == '0')

{

// Make sure we won't overflow when we multiply by 10

if (x > PEGASUS_ULLONG_MAX/10)

{

return false;

}

x = 10 * x;

p++;

// Make sure we won't overflow when we add the next digit

Uint64 newDigit = (*p++ - '0');

// Expect zero or more digits:

if (PEGASUS_ULLONG_MAX - x < newDigit)

{

while (isdigit(*p))

return false;

p++;

}

x = x + newDigit;

}

// If we found a non-decimal digit, report an error

if (*p)

return false;

const char* last = p;

while (first != last)

x = 10 * x + (*first++ - '0');

return true;

}

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// stringToValue()

// ATTN-C: note that integers are truncated without warning. What should be

// Return: CIMValue. If the string input is zero length creates a CIMValue

// done in this case? In C they are truncated without warning by design.

// with value defined by the type. Else the value is inserted.

// Note that this does not set the CIMValue Null if the string is empty.

//------------------------------------------------------------------------------

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{

// ATTN-B: accepting only UTF-8 for now! (affects string and char16):

if (strlen(valueString)==0)

// Create value per type

{

// This needs to reflect the Null result. KSTESTNULL

// ATTN: review the other code for this characteristic

// In all cases, XML with an empty entry is NULL <VALUE></VALUE>

return CIMValue(type, false);

/* KS 27 Feb 2002 Droped this code in favor of inserting the Null version

switch (type)

{

case CIMType::BOOLEAN: return CIMValue(false);

case CIMType::STRING: return CIMValue(valueString);

case CIMType::CHAR16: return CIMValue(Char16('\0'));

case CIMType::UINT8: return CIMValue(Uint8(0));

case CIMType::UINT16: return CIMValue(Uint16(0));

case CIMType::UINT32: return CIMValue(Uint32(0));

case CIMType::UINT64: return CIMValue(Uint64(0));

case CIMType::SINT8: return CIMValue(Sint8(0));

case CIMType::SINT16: return CIMValue(Sint16(0));

case CIMType::SINT32: return CIMValue(Sint32(0));

case CIMType::SINT64: return CIMValue(Sint64(0));

case CIMType::REAL32: return CIMValue(Real32(0));

case CIMType::REAL64: return CIMValue(Real64(0));

}

switch (type)

{

case CIMType::BOOLEAN:

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switch (type)

{

case CIMType::UINT8: return CIMValue(Uint8(x));

case CIMType::UINT8:

case CIMType::UINT16: return CIMValue(Uint16(x));

{

case CIMType::UINT32: return CIMValue(Uint32(x));

if (x >= (Uint64(1)<<8))

{

throw XmlSemanticError(

lineNumber, "Uint8 value out of range");

}

return CIMValue(Uint8(x));

}

case CIMType::UINT16:

{

if (x >= (Uint64(1)<<16))

{

throw XmlSemanticError(

lineNumber, "Uint16 value out of range");

}

return CIMValue(Uint16(x));

}

case CIMType::UINT32:

{

if (x >= (Uint64(1)<<32))

{

throw XmlSemanticError(

lineNumber, "Uint32 value out of range");

}

return CIMValue(Uint32(x));

}

case CIMType::UINT64: return CIMValue(Uint64(x));

default: break;

}

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switch (type)

{

case CIMType::SINT8: return CIMValue(Sint8(x));

case CIMType::SINT8:

case CIMType::SINT16: return CIMValue(Sint16(x));

{

case CIMType::SINT32: return CIMValue(Sint32(x));

if( (x >= (Sint64(1)<<7)) || (x < (-(Sint64(1)<<7))) )

{

throw XmlSemanticError(

lineNumber, "Sint8 value out of range");

}

return CIMValue(Sint8(x));

}

case CIMType::SINT16:

{

if( (x >= (Sint64(1)<<15)) || (x < (-(Sint64(1)<<15))) )

{

throw XmlSemanticError(

lineNumber, "Sint16 value out of range");

}

return CIMValue(Sint16(x));

}

case CIMType::SINT32:

{

if( (x >= (Sint64(1)<<31)) || (x < (-(Sint64(1)<<31))) )

{

throw XmlSemanticError(

lineNumber, "Sint32 value out of range");

}

return CIMValue(Sint32(x));

}

case CIMType::SINT64: return CIMValue(Sint64(x));

default: break;

}

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Real64 x;

if (!stringToReal(valueString, x))

throw XmlSemanticError(lineNumber, "Bad real value");

throw XmlSemanticError(lineNumber, "Bad real number value");

return CIMValue(Real32(x));

}

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Real64 x;

if (!stringToReal(valueString, x))

throw XmlSemanticError(lineNumber, "Bad real value");

throw XmlSemanticError(lineNumber, "Bad real number value");

return CIMValue(x);

}

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// <!ELEMENT VALUE (#PCDATA)>

// Return: false if no value element.

//------------------------------------------------------------------------------

Boolean XmlReader::getValueElement(

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CIMType type,

CIMValue& value)

{

// Get VALUE start tag:

// Get VALUE start tag: Return false if no VALUE start Tag

XmlEntry entry;

if (!testStartTagOrEmptyTag(parser, entry, "VALUE"))

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// <!ELEMENT VALUE.ARRAY (VALUE*)>

// Return: Boolean. Returns false if there is no VALUE.ARRAY start element

//------------------------------------------------------------------------------

Boolean XmlReader::getValueArrayElement(

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CIMType type,

CIMValue& value)

{

// Clears any values from the Array. Assumes this is array CIMValue

value.clear();

// Get VALUE.ARRAY open tag:

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XmlEntry entry;

Array<const char*> stringArray;

// If no VALUE.ARRAY start tag, return false

if (!testStartTagOrEmptyTag(parser, entry, "VALUE.ARRAY"))

return false;

//ATTN: P1 KS KSTESTNULL - Need to relook at this one.

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

// return true;

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

{

// For each VALUE element:

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Boolean translatable = getCimBooleanAttribute(

lineNumber, entry, tagName, "TRANSLATABLE", false, false);

Uint32 flavor = 0;

// Start with CIMFlavor::NONE. Defaults are specified in the

// getCimBooleanAttribute() calls above.

Uint32 flavor = CIMFlavor::NONE;

if (overridable)

flavor |= CIMFlavor::OVERRIDABLE;

else

flavor |= CIMFlavor::DISABLEOVERRIDE;

if (toSubClass)

flavor |= CIMFlavor::TOSUBCLASS;

else

flavor |= CIMFlavor::RESTRICTED;

if (toInstance)

flavor |= CIMFlavor::TOINSTANCE;

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// getQualifierElement()

// <!ELEMENT QUALIFIER (VALUE|VALUE.ARRAY)>

// <!ELEMENT QUALIFIER (VALUE|VALUE.ARRAY)?>

// <!ATTLIST QUALIFIER

// %CIMName;

// %CIMType; #REQUIRED

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if (!getValueElement(parser, type, value) &&

!getValueArrayElement(parser, type, value))

{

throw XmlSemanticError(parser.getLine(),

value.setNullValue(type, false);

"Expected VALUE or VALUE.ARRAY element");

}

// Expect </QUALIFIER>:

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CIMType type = getCimTypeAttribute(parser.getLine(), entry, "PROPERTY");

// Create property:

// Create property: Sets type and !isarray

// ATTN: KS P1 change to use the correct constructor

CIMValue value;

value.setNullValue(type, false);

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getQualifierElements(parser, property);

// Get value:

// Get value: Insert value if getValueElement exists (returns True)

if (getValueElement(parser, type, value))

property.setValue(value);

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// Create property:

// ATTN: KS P1 4 March 2002 Change to use correct constructor.

// ATTN: KS P3 4 March 2002. Why create extra value. Use same one.

CIMValue nullValue;

nullValue.setNullValue(type, true, arraySize);

property = CIMProperty(

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// Get value:

// ATTN: KS P1 4 March 2002. Does not set array type into value.

// ATTN: Thus, if it returns false, the CIMValue is nothing.

CIMValue value;

if (getValueArrayElement(parser, type, value))

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// Create property:

CIMValue value;

CIMValue value = CIMValue(CIMType::REFERENCE, false, 0);

value.set(CIMReference());

// value.set(CIMReference());

property = CIMProperty(

name, value, 0, referenceClass, classOrigin, propagated);

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Boolean XmlReader::getErrorElement(

XmlParser& parser,

CIMStatusCode& code,

CIMException& cimException,

const char*& description,

Boolean required)

{

XmlEntry entry;

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throw XmlValidationError(

parser.getLine(), "missing ERROR.CODE attribute");

code = CIMStatusCode(tmpCode);

// Get ERROR.DESCRIPTION:

description = "";

String tmpDescription;

entry.getAttributeValue("DESCRIPTION", description);

entry.getAttributeValue("DESCRIPTION", tmpDescription);

if (!empty)

expectEndTag(parser, "ERROR");

cimException = PEGASUS_CIM_EXCEPTION(CIMStatusCode(tmpCode), tmpDescription);

return true;

}

//------------------------------------------------------------------------------

// getObjectWithPath()

// getValueObjectElement()

// <!ELEMENT VALUE.OBJECT (CLASS|INSTANCE)>

//------------------------------------------------------------------------------

Boolean XmlReader::getValueObjectElement(

XmlParser& parser,

CIMObject& object)

{

XmlEntry entry;

if (!testStartTag(parser, entry, "VALUE.OBJECT"))

return false;

CIMInstance cimInstance;

CIMClass cimClass;

if (XmlReader::getInstanceElement(parser, cimInstance))

{

object = CIMObject(cimInstance);

}

else if (!XmlReader::getClassElement(parser, cimClass))

{

object = CIMObject(cimClass);

}

else

{

throw XmlValidationError(parser.getLine(),

"Expected INSTANCE or CLASS element");

}

expectEndTag(parser, "VALUE.OBJECT");

return true;

}

//------------------------------------------------------------------------------

// getValueObjectWithPathElement()

// <!ELEMENT VALUE.OBJECTWITHPATH ((CLASSPATH,CLASS)|(INSTANCEPATH,INSTANCE))>

//------------------------------------------------------------------------------

Boolean XmlReader::getObjectWithPath(

Boolean XmlReader::getValueObjectWithPathElement(

XmlParser& parser,

CIMObjectWithPath& objectWithPath)

{

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else if (!XmlReader::getClassPathElement(parser, reference))

{

throw XmlValidationError(parser.getLine(),

"Expected INSTANCE element");

"Expected INSTANCEPATH or CLASSPATH element");

}

if (isInstance)

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if (!XmlReader::getInstanceElement(parser, cimInstance))

{

throw XmlValidationError(parser.getLine(),

"Expected INSTANCEPATH or CLASSPATH element");

"Expected INSTANCE element");

}

objectWithPath.set(reference, CIMObject(cimInstance));

}

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}

//------------------------------------------------------------------------------

// getValueObjectWithLocalPathElement()

// <!ELEMENT VALUE.OBJECTWITHLOCALPATH

// ((LOCALCLASSPATH,CLASS)|(LOCALINSTANCEPATH,INSTANCE))>

//------------------------------------------------------------------------------

Boolean XmlReader::getValueObjectWithLocalPathElement(

XmlParser& parser,

CIMObjectWithPath& objectWithPath)

{

XmlEntry entry;

if (!testStartTag(parser, entry, "VALUE.OBJECTWITHLOCALPATH"))

return false;

CIMReference reference;

Boolean isInstance = false;

if (XmlReader::getLocalInstancePathElement(parser, reference))

isInstance = true;

else if (!XmlReader::getLocalClassPathElement(parser, reference))

{

throw XmlValidationError(parser.getLine(),

"Expected LOCALINSTANCEPATH or LOCALCLASSPATH element");

}

if (isInstance)

{

CIMInstance cimInstance;

if (!XmlReader::getInstanceElement(parser, cimInstance))

{

throw XmlValidationError(parser.getLine(),

"Expected INSTANCE element");

}

objectWithPath.set(reference, CIMObject(cimInstance));

}

else

{

CIMClass cimClass;

if (!XmlReader::getClassElement(parser, cimClass))

{

throw XmlValidationError(parser.getLine(),

"Expected CLASS element");

}

objectWithPath.set(reference, CIMObject(cimClass));

}

expectEndTag(parser, "VALUE.OBJECTWITHLOCALPATH");

return true;

}

//------------------------------------------------------------------------------

// getObjectArray()

// <object>

// (VALUE.OBJECT|VALUE.OBJECTWITHLOCALPATH|VALUE.OBJECTWITHPATH)

//------------------------------------------------------------------------------

void XmlReader::getObjectArray(

XmlParser& parser,

Array<CIMObjectWithPath>& objectArray)

{

CIMObject object;

CIMObjectWithPath objectWithPath;

objectArray.clear();

if (getValueObjectElement(parser, object))

{

objectArray.append(CIMObjectWithPath(CIMReference(), object));

while (getValueObjectElement(parser, object))

objectArray.append(CIMObjectWithPath(CIMReference(), object));

}

else if (getValueObjectWithPathElement(parser, objectWithPath))

{

objectArray.append(objectWithPath);

while (getValueObjectWithPathElement(parser, objectWithPath))

objectArray.append(objectWithPath);

}

else if (getValueObjectWithLocalPathElement(parser, objectWithPath))

{

objectArray.append(objectWithPath);

while (getValueObjectWithLocalPathElement(parser, objectWithPath))

objectArray.append(objectWithPath);

}

//------------------------------------------------------------------------------

// <objectName>: (CLASSNAME|INSTANCENAME)

Legend:

Removed from v.1.34
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	Added in v.1.53

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