version 1.60, 2002/07/19 18:47:11
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version 1.81.4.1, 2003/03/11 19:56:55
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#include "CIMInstance.h" | #include "CIMInstance.h" |
#include "CIMObject.h" | #include "CIMObject.h" |
#include "CIMParamValue.h" | #include "CIMParamValue.h" |
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#include "System.h" |
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#define PEGASUS_SINT64_MIN (PEGASUS_SINT64_LITERAL(0x8000000000000000)) |
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#define PEGASUS_UINT64_MAX PEGASUS_UINT64_LITERAL(0xFFFFFFFFFFFFFFFF) |
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PEGASUS_USING_STD; | PEGASUS_USING_STD; |
PEGASUS_NAMESPACE_BEGIN | PEGASUS_NAMESPACE_BEGIN |
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// | // |
//------------------------------------------------------------------------------ | //------------------------------------------------------------------------------ |
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String XmlReader::getCimNameAttribute( |
CIMName XmlReader::getCimNameAttribute( |
Uint32 lineNumber, | Uint32 lineNumber, |
const XmlEntry& entry, | const XmlEntry& entry, |
const char* elementName, | const char* elementName, |
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} | } |
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if (acceptNull && name.size() == 0) | if (acceptNull && name.size() == 0) |
return name; |
return CIMName (); |
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if (!CIMName::legal(name)) | if (!CIMName::legal(name)) |
{ | { |
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#ifdef PEGASUS_SNIA_INTEROP_TEST |
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// This is not a Pegasus BUG. It is a hack to protect against an error |
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// from some servers. In particular, the SNIA IBM server seems to be |
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// sending a namespace component with "" as the string. We cannot handle |
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// this. This is probably because they are using the form /root/... |
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// In testing, replace illegal CIMName with this value to avoid the |
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// exception and let xml parsing continue. THIS IS TEMP. |
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name = "BADNAMESUBSTITUTEDBYPEGASUSCLIENT"; |
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#else |
char buffer[MESSAGE_SIZE]; | char buffer[MESSAGE_SIZE]; |
sprintf(buffer, "Illegal value for %s.NAME attribute", elementName); | sprintf(buffer, "Illegal value for %s.NAME attribute", elementName); |
throw XmlSemanticError(lineNumber, buffer); | throw XmlSemanticError(lineNumber, buffer); |
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#endif |
} | } |
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return CIMName (name); |
return name; |
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} | } |
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//------------------------------------------------------------------------------ | //------------------------------------------------------------------------------ |
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// | // |
//------------------------------------------------------------------------------ | //------------------------------------------------------------------------------ |
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String XmlReader::getClassOriginAttribute( |
CIMName XmlReader::getClassOriginAttribute( |
Uint32 lineNumber, | Uint32 lineNumber, |
const XmlEntry& entry, | const XmlEntry& entry, |
const char* tagName) | const char* tagName) |
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String name; | String name; |
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if (!entry.getAttributeValue("CLASSORIGIN", name)) | if (!entry.getAttributeValue("CLASSORIGIN", name)) |
return String(); |
return CIMName(); |
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// KS 200209 This may be temp but we are adding test for form |
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// CLASSNAME = "" for Wbemservices interoperability. Returns same |
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// as if attribute did not exist. |
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if (name.size() == 0) |
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return CIMName(); |
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if (!CIMName::legal(name)) | if (!CIMName::legal(name)) |
{ | { |
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// | // |
//------------------------------------------------------------------------------ | //------------------------------------------------------------------------------ |
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String XmlReader::getReferenceClassAttribute( |
CIMName XmlReader::getReferenceClassAttribute( |
Uint32 lineNumber, | Uint32 lineNumber, |
const XmlEntry& entry, | const XmlEntry& entry, |
const char* elementName) | const char* elementName) |
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String name; | String name; |
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if (!entry.getAttributeValue("REFERENCECLASS", name)) | if (!entry.getAttributeValue("REFERENCECLASS", name)) |
return String(); |
return CIMName(); |
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if (!CIMName::legal(name)) | if (!CIMName::legal(name)) |
{ | { |
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#ifdef PEGASUS_SNIA_INTEROP_TEST |
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name = "PEGASUS_SUBSTITUED_THIS_FOR_BAD_NAME"; |
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return name; |
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#endif |
char buffer[MESSAGE_SIZE]; | char buffer[MESSAGE_SIZE]; |
sprintf(buffer, | sprintf(buffer, |
"Illegal value for %s.REFERENCECLASS attribute", elementName); | "Illegal value for %s.REFERENCECLASS attribute", elementName); |
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// | // |
//------------------------------------------------------------------------------ | //------------------------------------------------------------------------------ |
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String XmlReader::getSuperClassAttribute( |
CIMName XmlReader::getSuperClassAttribute( |
Uint32 lineNumber, | Uint32 lineNumber, |
const XmlEntry& entry, | const XmlEntry& entry, |
const char* tagName) | const char* tagName) |
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String superClass; | String superClass; |
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if (!entry.getAttributeValue("SUPERCLASS", superClass)) | if (!entry.getAttributeValue("SUPERCLASS", superClass)) |
return String(); |
return CIMName(); |
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if (!CIMName::legal(superClass)) | if (!CIMName::legal(superClass)) |
{ | { |
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// | // |
//------------------------------------------------------------------------------ | //------------------------------------------------------------------------------ |
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CIMType XmlReader::getCimTypeAttribute( |
Boolean XmlReader::getCimTypeAttribute( |
Uint32 lineNumber, | Uint32 lineNumber, |
const XmlEntry& entry, | const XmlEntry& entry, |
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CIMType& cimType, // Output parameter |
const char* tagName, | const char* tagName, |
const char* attributeName, | const char* attributeName, |
Boolean required) | Boolean required) |
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} | } |
else | else |
{ | { |
return CIMType::NONE; |
return false; |
} | } |
} | } |
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CIMType type = CIMType::NONE; |
CIMType type = CIMTYPE_BOOLEAN; |
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Boolean unrecognizedType = false; |
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if (strcmp(typeName, "boolean") == 0) | if (strcmp(typeName, "boolean") == 0) |
type = CIMType::BOOLEAN; |
type = CIMTYPE_BOOLEAN; |
else if (strcmp(typeName, "string") == 0) | else if (strcmp(typeName, "string") == 0) |
type = CIMType::STRING; |
type = CIMTYPE_STRING; |
else if (strcmp(typeName, "char16") == 0) | else if (strcmp(typeName, "char16") == 0) |
type = CIMType::CHAR16; |
type = CIMTYPE_CHAR16; |
else if (strcmp(typeName, "uint8") == 0) | else if (strcmp(typeName, "uint8") == 0) |
type = CIMType::UINT8; |
type = CIMTYPE_UINT8; |
else if (strcmp(typeName, "sint8") == 0) | else if (strcmp(typeName, "sint8") == 0) |
type = CIMType::SINT8; |
type = CIMTYPE_SINT8; |
else if (strcmp(typeName, "uint16") == 0) | else if (strcmp(typeName, "uint16") == 0) |
type = CIMType::UINT16; |
type = CIMTYPE_UINT16; |
else if (strcmp(typeName, "sint16") == 0) | else if (strcmp(typeName, "sint16") == 0) |
type = CIMType::SINT16; |
type = CIMTYPE_SINT16; |
else if (strcmp(typeName, "uint32") == 0) | else if (strcmp(typeName, "uint32") == 0) |
type = CIMType::UINT32; |
type = CIMTYPE_UINT32; |
else if (strcmp(typeName, "sint32") == 0) | else if (strcmp(typeName, "sint32") == 0) |
type = CIMType::SINT32; |
type = CIMTYPE_SINT32; |
else if (strcmp(typeName, "uint64") == 0) | else if (strcmp(typeName, "uint64") == 0) |
type = CIMType::UINT64; |
type = CIMTYPE_UINT64; |
else if (strcmp(typeName, "sint64") == 0) | else if (strcmp(typeName, "sint64") == 0) |
type = CIMType::SINT64; |
type = CIMTYPE_SINT64; |
else if (strcmp(typeName, "datetime") == 0) | else if (strcmp(typeName, "datetime") == 0) |
type = CIMType::DATETIME; |
type = CIMTYPE_DATETIME; |
else if (strcmp(typeName, "real32") == 0) | else if (strcmp(typeName, "real32") == 0) |
type = CIMType::REAL32; |
type = CIMTYPE_REAL32; |
else if (strcmp(typeName, "real64") == 0) | else if (strcmp(typeName, "real64") == 0) |
type = CIMType::REAL64; |
type = CIMTYPE_REAL64; |
else if (strcmp(typeName, "reference") == 0) | else if (strcmp(typeName, "reference") == 0) |
type = CIMType::REFERENCE; |
type = CIMTYPE_REFERENCE; |
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else unrecognizedType = true; |
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if ((type == CIMType::NONE) || |
if (unrecognizedType || |
((type == CIMType::REFERENCE) && |
((type == CIMTYPE_REFERENCE) && |
(strcmp(attributeName, "PARAMTYPE") != 0))) | (strcmp(attributeName, "PARAMTYPE") != 0))) |
{ | { |
char message[MESSAGE_SIZE]; | char message[MESSAGE_SIZE]; |
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throw XmlSemanticError(lineNumber, message); | throw XmlSemanticError(lineNumber, message); |
} | } |
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return type; |
cimType = type; |
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return true; |
} | } |
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//------------------------------------------------------------------------------ | //------------------------------------------------------------------------------ |
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return false; | return false; |
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char buffer[62]; | char buffer[62]; |
sprintf(buffer, "Bad %s.%s attribute value", attributeName, tagName); |
sprintf(buffer, "Invalid %s.%s attribute value", attributeName, tagName); |
throw XmlSemanticError(lineNumber, buffer); | throw XmlSemanticError(lineNumber, buffer); |
return false; | return false; |
} | } |
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return n; | return n; |
} | } |
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// See http://www.ietf.org/rfc/rfc2396.txt section 2 |
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String XmlReader::decodeURICharacters(String uriString) |
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{ |
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String decodedString; |
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Uint32 i; |
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for (i=0; i<uriString.size(); i++) |
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{ |
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if (uriString[i] == '%') |
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{ |
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if (i+2 >= uriString.size()) |
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{ |
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throw ParseError("Invalid URI encoding"); |
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} |
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Uint8 digit1 = _hexCharToNumeric(char(uriString[++i])); |
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Uint8 digit2 = _hexCharToNumeric(char(uriString[++i])); |
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if ( (digit1 > 15) || (digit2 > 15) ) |
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{ |
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throw ParseError("Invalid URI encoding"); |
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} |
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// ATTN: Handle non-UTF-8 character sets |
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Uint16 decodedChar = Uint16(digit1<<4) + Uint16(digit2); |
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decodedString.append(Char16(decodedChar)); |
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} |
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else |
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{ |
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decodedString.append(uriString[i]); |
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} |
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} |
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return decodedString; |
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} |
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//------------------------------------------------------------------------------ | //------------------------------------------------------------------------------ |
// | // |
// stringToSignedInteger | // stringToSignedInteger |
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while (isxdigit(*p)) | while (isxdigit(*p)) |
{ | { |
// Make sure we won't overflow when we multiply by 16 | // Make sure we won't overflow when we multiply by 16 |
if (x < PEGASUS_LLONG_MIN/16) |
if (x < PEGASUS_SINT64_MIN/16) |
{ | { |
return false; | return false; |
} | } |
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// Make sure we don't overflow when we add the next digit | // Make sure we don't overflow when we add the next digit |
Sint64 newDigit = Sint64(_hexCharToNumeric(*p++)); | Sint64 newDigit = Sint64(_hexCharToNumeric(*p++)); |
if (PEGASUS_LLONG_MIN - x > -newDigit) |
if (PEGASUS_SINT64_MIN - x > -newDigit) |
{ | { |
return false; | return false; |
} | } |
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// overflow error | // overflow error |
if (!negative) | if (!negative) |
{ | { |
if (x == PEGASUS_LLONG_MIN) |
if (x == PEGASUS_SINT64_MIN) |
{ | { |
return false; | return false; |
} | } |
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while (isdigit(*p)) | while (isdigit(*p)) |
{ | { |
// Make sure we won't overflow when we multiply by 10 | // Make sure we won't overflow when we multiply by 10 |
if (x < PEGASUS_LLONG_MIN/10) |
if (x < PEGASUS_SINT64_MIN/10) |
{ | { |
return false; | return false; |
} | } |
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// Make sure we won't overflow when we add the next digit | // Make sure we won't overflow when we add the next digit |
Sint64 newDigit = (*p++ - '0'); | Sint64 newDigit = (*p++ - '0'); |
if (PEGASUS_LLONG_MIN - x > -newDigit) |
if (PEGASUS_SINT64_MIN - x > -newDigit) |
{ | { |
return false; | return false; |
} | } |
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// overflow error | // overflow error |
if (!negative) | if (!negative) |
{ | { |
if (x == PEGASUS_LLONG_MIN) |
if (x == PEGASUS_SINT64_MIN) |
{ | { |
return false; | return false; |
} | } |
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while (isxdigit(*p)) | while (isxdigit(*p)) |
{ | { |
// Make sure we won't overflow when we multiply by 16 | // Make sure we won't overflow when we multiply by 16 |
if (x > PEGASUS_ULLONG_MAX/16) |
if (x > PEGASUS_UINT64_MAX/16) |
{ | { |
return false; | return false; |
} | } |
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// We can't overflow when we add the next digit | // We can't overflow when we add the next digit |
Uint64 newDigit = Uint64(_hexCharToNumeric(*p++)); | Uint64 newDigit = Uint64(_hexCharToNumeric(*p++)); |
if (PEGASUS_ULLONG_MAX - x < newDigit) |
if (PEGASUS_UINT64_MAX - x < newDigit) |
{ | { |
return false; | return false; |
} | } |
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while (isdigit(*p)) | while (isdigit(*p)) |
{ | { |
// Make sure we won't overflow when we multiply by 10 | // Make sure we won't overflow when we multiply by 10 |
if (x > PEGASUS_ULLONG_MAX/10) |
if (x > PEGASUS_UINT64_MAX/10) |
{ | { |
return false; | return false; |
} | } |
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// Make sure we won't overflow when we add the next digit | // Make sure we won't overflow when we add the next digit |
Uint64 newDigit = (*p++ - '0'); | Uint64 newDigit = (*p++ - '0'); |
if (PEGASUS_ULLONG_MAX - x < newDigit) |
if (PEGASUS_UINT64_MAX - x < newDigit) |
{ | { |
return false; | return false; |
} | } |
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// Create value per type | // Create value per type |
switch (type) | switch (type) |
{ | { |
case CIMType::BOOLEAN: |
case CIMTYPE_BOOLEAN: |
{ | { |
if (CompareNoCase(valueString, "TRUE") == 0) |
if (System::strcasecmp(valueString, "TRUE") == 0) |
return CIMValue(true); | return CIMValue(true); |
else if (CompareNoCase(valueString, "FALSE") == 0) |
else if (System::strcasecmp(valueString, "FALSE") == 0) |
return CIMValue(false); | return CIMValue(false); |
else | else |
throw XmlSemanticError( | throw XmlSemanticError( |
lineNumber, "Bad boolean value"); |
lineNumber, "Invalid boolean value"); |
} | } |
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case CIMType::STRING: |
case CIMTYPE_STRING: |
{ | { |
return CIMValue(String(valueString)); | return CIMValue(String(valueString)); |
} | } |
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case CIMType::CHAR16: |
case CIMTYPE_CHAR16: |
{ | { |
if (strlen(valueString) != 1) | if (strlen(valueString) != 1) |
throw XmlSemanticError(lineNumber, "Bad char16 value"); |
throw XmlSemanticError(lineNumber, "Invalid char16 value"); |
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return CIMValue(Char16(valueString[0])); | return CIMValue(Char16(valueString[0])); |
} | } |
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case CIMType::UINT8: |
case CIMTYPE_UINT8: |
case CIMType::UINT16: |
case CIMTYPE_UINT16: |
case CIMType::UINT32: |
case CIMTYPE_UINT32: |
case CIMType::UINT64: |
case CIMTYPE_UINT64: |
{ | { |
Uint64 x; | Uint64 x; |
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if (!stringToUnsignedInteger(valueString, x)) | if (!stringToUnsignedInteger(valueString, x)) |
{ | { |
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char message[128]; |
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sprintf(message, "Illegal unsigned integer value - %s", valueString); |
throw XmlSemanticError( | throw XmlSemanticError( |
lineNumber, "Bad unsigned integer value"); |
lineNumber, message); |
} | } |
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switch (type) | switch (type) |
{ | { |
case CIMType::UINT8: |
case CIMTYPE_UINT8: |
{ | { |
if (x >= (Uint64(1)<<8)) | if (x >= (Uint64(1)<<8)) |
{ | { |
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} | } |
return CIMValue(Uint8(x)); | return CIMValue(Uint8(x)); |
} | } |
case CIMType::UINT16: |
case CIMTYPE_UINT16: |
{ | { |
if (x >= (Uint64(1)<<16)) | if (x >= (Uint64(1)<<16)) |
{ | { |
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} | } |
return CIMValue(Uint16(x)); | return CIMValue(Uint16(x)); |
} | } |
case CIMType::UINT32: |
case CIMTYPE_UINT32: |
{ | { |
if (x >= (Uint64(1)<<32)) | if (x >= (Uint64(1)<<32)) |
{ | { |
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} | } |
return CIMValue(Uint32(x)); | return CIMValue(Uint32(x)); |
} | } |
case CIMType::UINT64: return CIMValue(Uint64(x)); |
case CIMTYPE_UINT64: return CIMValue(Uint64(x)); |
default: break; | default: break; |
} | } |
} | } |
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case CIMType::SINT8: |
case CIMTYPE_SINT8: |
case CIMType::SINT16: |
case CIMTYPE_SINT16: |
case CIMType::SINT32: |
case CIMTYPE_SINT32: |
case CIMType::SINT64: |
case CIMTYPE_SINT64: |
{ | { |
Sint64 x; | Sint64 x; |
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if (!stringToSignedInteger(valueString, x)) | if (!stringToSignedInteger(valueString, x)) |
{ | { |
throw XmlSemanticError( | throw XmlSemanticError( |
lineNumber, "Bad signed integer value"); |
lineNumber, "Invalid signed integer value"); |
} | } |
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switch (type) | switch (type) |
{ | { |
case CIMType::SINT8: |
case CIMTYPE_SINT8: |
{ | { |
if( (x >= (Sint64(1)<<7)) || (x < (-(Sint64(1)<<7))) ) | if( (x >= (Sint64(1)<<7)) || (x < (-(Sint64(1)<<7))) ) |
{ | { |
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} | } |
return CIMValue(Sint8(x)); | return CIMValue(Sint8(x)); |
} | } |
case CIMType::SINT16: |
case CIMTYPE_SINT16: |
{ | { |
if( (x >= (Sint64(1)<<15)) || (x < (-(Sint64(1)<<15))) ) | if( (x >= (Sint64(1)<<15)) || (x < (-(Sint64(1)<<15))) ) |
{ | { |
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} | } |
return CIMValue(Sint16(x)); | return CIMValue(Sint16(x)); |
} | } |
case CIMType::SINT32: |
case CIMTYPE_SINT32: |
{ | { |
if( (x >= (Sint64(1)<<31)) || (x < (-(Sint64(1)<<31))) ) | if( (x >= (Sint64(1)<<31)) || (x < (-(Sint64(1)<<31))) ) |
{ | { |
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} | } |
return CIMValue(Sint32(x)); | return CIMValue(Sint32(x)); |
} | } |
case CIMType::SINT64: return CIMValue(Sint64(x)); |
case CIMTYPE_SINT64: return CIMValue(Sint64(x)); |
default: break; | default: break; |
} | } |
} | } |
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case CIMType::DATETIME: |
case CIMTYPE_DATETIME: |
{ | { |
CIMDateTime tmp; | CIMDateTime tmp; |
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try | try |
{ | { |
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// KS 20021002 - Exception if no datatime value. Test for |
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// zero length and leave the NULL value in the variable |
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// Bugzilla 137 Adds the following if line. |
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// Expect this to become permanent but test only for now |
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#ifdef PEGASUS_SNIA_INTEROP_TEST |
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if (strlen(valueString) != 0) |
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#endif |
tmp.set(valueString); | tmp.set(valueString); |
} | } |
catch (BadDateTimeFormat&) |
catch (InvalidDateTimeFormatException&) |
{ | { |
throw XmlSemanticError(lineNumber, "Bad datetime value"); |
throw XmlSemanticError(lineNumber, "Invalid datetime value"); |
} | } |
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return CIMValue(tmp); | return CIMValue(tmp); |
} | } |
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case CIMType::REAL32: |
case CIMTYPE_REAL32: |
{ | { |
Real64 x; | Real64 x; |
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if (!stringToReal(valueString, x)) | if (!stringToReal(valueString, x)) |
throw XmlSemanticError(lineNumber, "Bad real number value"); |
throw XmlSemanticError(lineNumber, "Invalid real number value"); |
| |
return CIMValue(Real32(x)); | return CIMValue(Real32(x)); |
} | } |
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case CIMType::REAL64: |
case CIMTYPE_REAL64: |
{ | { |
Real64 x; | Real64 x; |
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if (!stringToReal(valueString, x)) | if (!stringToReal(valueString, x)) |
throw XmlSemanticError(lineNumber, "Bad real number value"); |
throw XmlSemanticError(lineNumber, "Invalid real number value"); |
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return CIMValue(x); | return CIMValue(x); |
} | } |
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expectEndTag(parser, "VALUE"); | expectEndTag(parser, "VALUE"); |
} | } |
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#ifdef PEGASUS_SNIA_INTEROP_TEST |
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// KS 20021004 - tries to put value in even if empty. |
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// Think this is general problem with empty value |
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// Need to check meaning of (#PCDATA) - Does it allow empty. |
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// Bugzilla tbd |
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if (!empty) |
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#endif |
value = stringToValue(parser.getLine(), valueString,type); | value = stringToValue(parser.getLine(), valueString,type); |
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return true; | return true; |
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CIMValue& cimValue) | CIMValue& cimValue) |
{ | { |
// Can not test for value type, so assume String | // Can not test for value type, so assume String |
const CIMType type = CIMType::STRING; |
const CIMType type = CIMTYPE_STRING; |
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// Test for VALUE element | // Test for VALUE element |
if (XmlReader::getValueElement(parser, type, cimValue)) | if (XmlReader::getValueElement(parser, type, cimValue)) |
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{ | { |
switch (type) | switch (type) |
{ | { |
case CIMType::BOOLEAN: |
case CIMTYPE_BOOLEAN: |
return StringArrayToValueAux(lineNumber, array, type, (Boolean*)0); | return StringArrayToValueAux(lineNumber, array, type, (Boolean*)0); |
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case CIMType::STRING: |
case CIMTYPE_STRING: |
return StringArrayToValueAux(lineNumber, array, type, (String*)0); | return StringArrayToValueAux(lineNumber, array, type, (String*)0); |
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case CIMType::CHAR16: |
case CIMTYPE_CHAR16: |
return StringArrayToValueAux(lineNumber, array, type, (Char16*)0); | return StringArrayToValueAux(lineNumber, array, type, (Char16*)0); |
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case CIMType::UINT8: |
case CIMTYPE_UINT8: |
return StringArrayToValueAux(lineNumber, array, type, (Uint8*)0); | return StringArrayToValueAux(lineNumber, array, type, (Uint8*)0); |
| |
case CIMType::UINT16: |
case CIMTYPE_UINT16: |
return StringArrayToValueAux(lineNumber, array, type, (Uint16*)0); | return StringArrayToValueAux(lineNumber, array, type, (Uint16*)0); |
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case CIMType::UINT32: |
case CIMTYPE_UINT32: |
return StringArrayToValueAux(lineNumber, array, type, (Uint32*)0); | return StringArrayToValueAux(lineNumber, array, type, (Uint32*)0); |
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case CIMType::UINT64: |
case CIMTYPE_UINT64: |
return StringArrayToValueAux(lineNumber, array, type, (Uint64*)0); | return StringArrayToValueAux(lineNumber, array, type, (Uint64*)0); |
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case CIMType::SINT8: |
case CIMTYPE_SINT8: |
return StringArrayToValueAux(lineNumber, array, type, (Sint8*)0); | return StringArrayToValueAux(lineNumber, array, type, (Sint8*)0); |
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case CIMType::SINT16: |
case CIMTYPE_SINT16: |
return StringArrayToValueAux(lineNumber, array, type, (Sint16*)0); | return StringArrayToValueAux(lineNumber, array, type, (Sint16*)0); |
| |
case CIMType::SINT32: |
case CIMTYPE_SINT32: |
return StringArrayToValueAux(lineNumber, array, type, (Sint32*)0); | return StringArrayToValueAux(lineNumber, array, type, (Sint32*)0); |
| |
case CIMType::SINT64: |
case CIMTYPE_SINT64: |
return StringArrayToValueAux(lineNumber, array, type, (Sint64*)0); | return StringArrayToValueAux(lineNumber, array, type, (Sint64*)0); |
| |
case CIMType::DATETIME: |
case CIMTYPE_DATETIME: |
return StringArrayToValueAux(lineNumber, array, type, (CIMDateTime*)0); | return StringArrayToValueAux(lineNumber, array, type, (CIMDateTime*)0); |
| |
case CIMType::REAL32: |
case CIMTYPE_REAL32: |
return StringArrayToValueAux(lineNumber, array, type, (Real32*)0); | return StringArrayToValueAux(lineNumber, array, type, (Real32*)0); |
| |
case CIMType::REAL64: |
case CIMTYPE_REAL64: |
return StringArrayToValueAux(lineNumber, array, type, (Real64*)0); | return StringArrayToValueAux(lineNumber, array, type, (Real64*)0); |
| |
default: | default: |
|
|
// | // |
//------------------------------------------------------------------------------ | //------------------------------------------------------------------------------ |
| |
Uint32 XmlReader::getFlavor( |
CIMFlavor XmlReader::getFlavor( |
XmlEntry& entry, | XmlEntry& entry, |
Uint32 lineNumber, | Uint32 lineNumber, |
const char* tagName) | const char* tagName) |
|
|
| |
// Start with CIMFlavor::NONE. Defaults are specified in the | // Start with CIMFlavor::NONE. Defaults are specified in the |
// getCimBooleanAttribute() calls above. | // getCimBooleanAttribute() calls above. |
Uint32 flavor = CIMFlavor::NONE; |
CIMFlavor flavor = CIMFlavor (CIMFlavor::NONE); |
| |
if (overridable) | if (overridable) |
flavor |= CIMFlavor::OVERRIDABLE; |
flavor.addFlavor (CIMFlavor::OVERRIDABLE); |
else | else |
flavor |= CIMFlavor::DISABLEOVERRIDE; |
flavor.addFlavor (CIMFlavor::DISABLEOVERRIDE); |
| |
if (toSubClass) | if (toSubClass) |
flavor |= CIMFlavor::TOSUBCLASS; |
flavor.addFlavor (CIMFlavor::TOSUBCLASS); |
else | else |
flavor |= CIMFlavor::RESTRICTED; |
flavor.addFlavor (CIMFlavor::RESTRICTED); |
| |
if (toInstance) | if (toInstance) |
flavor |= CIMFlavor::TOINSTANCE; |
flavor.addFlavor (CIMFlavor::TOINSTANCE); |
| |
if (translatable) | if (translatable) |
flavor |= CIMFlavor::TRANSLATABLE; |
flavor.addFlavor (CIMFlavor::TRANSLATABLE); |
| |
return flavor; | return flavor; |
} | } |
|
|
// | // |
//------------------------------------------------------------------------------ | //------------------------------------------------------------------------------ |
| |
Uint32 XmlReader::getOptionalScope(XmlParser& parser) |
CIMScope XmlReader::getOptionalScope(XmlParser& parser) |
{ | { |
XmlEntry entry; | XmlEntry entry; |
|
CIMScope scope; |
| |
if (!parser.next(entry)) | if (!parser.next(entry)) |
return false; |
return scope; // No SCOPE element found; return the empty scope |
| |
Boolean isEmptyTag = entry.type == XmlEntry::EMPTY_TAG; | Boolean isEmptyTag = entry.type == XmlEntry::EMPTY_TAG; |
| |
|
|
entry.type != XmlEntry::START_TAG) || | entry.type != XmlEntry::START_TAG) || |
strcmp(entry.text, "SCOPE") != 0) | strcmp(entry.text, "SCOPE") != 0) |
{ | { |
|
// No SCOPE element found; return the empty scope |
parser.putBack(entry); | parser.putBack(entry); |
return 0; |
return scope; |
} | } |
| |
Uint32 line = parser.getLine(); | Uint32 line = parser.getLine(); |
Uint32 scope = 0; |
|
| |
if (getCimBooleanAttribute(line, entry, "SCOPE", "CLASS", false, false)) | if (getCimBooleanAttribute(line, entry, "SCOPE", "CLASS", false, false)) |
scope |= CIMScope::CLASS; |
scope.addScope (CIMScope::CLASS); |
| |
if (getCimBooleanAttribute( | if (getCimBooleanAttribute( |
line, entry, "SCOPE", "ASSOCIATION", false, false)) | line, entry, "SCOPE", "ASSOCIATION", false, false)) |
scope |= CIMScope::ASSOCIATION; |
scope.addScope (CIMScope::ASSOCIATION); |
| |
if (getCimBooleanAttribute( | if (getCimBooleanAttribute( |
line, entry, "SCOPE", "REFERENCE", false, false)) | line, entry, "SCOPE", "REFERENCE", false, false)) |
scope |= CIMScope::REFERENCE; |
scope.addScope (CIMScope::REFERENCE); |
| |
if (getCimBooleanAttribute(line, entry, "SCOPE", "PROPERTY", false, false)) | if (getCimBooleanAttribute(line, entry, "SCOPE", "PROPERTY", false, false)) |
scope |= CIMScope::PROPERTY; |
scope.addScope (CIMScope::PROPERTY); |
| |
if (getCimBooleanAttribute(line, entry, "SCOPE", "METHOD", false, false)) | if (getCimBooleanAttribute(line, entry, "SCOPE", "METHOD", false, false)) |
scope |= CIMScope::METHOD; |
scope.addScope (CIMScope::METHOD); |
| |
if (getCimBooleanAttribute(line, entry, "SCOPE", "PARAMETER", false, false)) | if (getCimBooleanAttribute(line, entry, "SCOPE", "PARAMETER", false, false)) |
scope |= CIMScope::PARAMETER; |
scope.addScope (CIMScope::PARAMETER); |
| |
if (getCimBooleanAttribute(line, entry, "SCOPE", "INDICATION",false, false)) | if (getCimBooleanAttribute(line, entry, "SCOPE", "INDICATION",false, false)) |
scope |= CIMScope::INDICATION; |
scope.addScope (CIMScope::INDICATION); |
| |
if (!isEmptyTag) | if (!isEmptyTag) |
expectEndTag(parser, "SCOPE"); | expectEndTag(parser, "SCOPE"); |
|
|
| |
// Get QUALIFIER.NAME attribute: | // Get QUALIFIER.NAME attribute: |
| |
String name = getCimNameAttribute(parser.getLine(), entry, "QUALIFIER"); |
CIMName name = getCimNameAttribute(parser.getLine(), entry, "QUALIFIER"); |
| |
// Get QUALIFIER.TYPE attribute: | // Get QUALIFIER.TYPE attribute: |
| |
CIMType type = getCimTypeAttribute(parser.getLine(), entry, "QUALIFIER"); |
CIMType type; |
|
getCimTypeAttribute(parser.getLine(), entry, type, "QUALIFIER"); |
| |
// Get QUALIFIER.PROPAGATED | // Get QUALIFIER.PROPAGATED |
| |
|
|
| |
// Get flavor oriented attributes: | // Get flavor oriented attributes: |
| |
Uint32 flavor = getFlavor(entry, parser.getLine(), "QUALIFIER"); |
CIMFlavor flavor = getFlavor(entry, parser.getLine(), "QUALIFIER"); |
| |
// Get VALUE or VALUE.ARRAY element: | // Get VALUE or VALUE.ARRAY element: |
| |
|
|
{ | { |
container.addQualifier(qualifier); | container.addQualifier(qualifier); |
} | } |
catch (AlreadyExists&) |
catch (AlreadyExistsException&) |
{ | { |
throw XmlSemanticError(parser.getLine(), "duplicate qualifier"); | throw XmlSemanticError(parser.getLine(), "duplicate qualifier"); |
} | } |
|
|
| |
// Get PROPERTY.NAME attribute: | // Get PROPERTY.NAME attribute: |
| |
String name = getCimNameAttribute(parser.getLine(), entry, "PROPERTY"); |
CIMName name = getCimNameAttribute(parser.getLine(), entry, "PROPERTY"); |
| |
// Get PROPERTY.CLASSORIGIN attribute: | // Get PROPERTY.CLASSORIGIN attribute: |
| |
String classOrigin = |
CIMName classOrigin = |
getClassOriginAttribute(parser.getLine(), entry, "PROPERTY"); | getClassOriginAttribute(parser.getLine(), entry, "PROPERTY"); |
| |
// Get PROPERTY.PROPAGATED | // Get PROPERTY.PROPAGATED |
|
|
| |
// Get PROPERTY.TYPE attribute: | // Get PROPERTY.TYPE attribute: |
| |
CIMType type = getCimTypeAttribute(parser.getLine(), entry, "PROPERTY"); |
CIMType type; |
|
getCimTypeAttribute(parser.getLine(), entry, type, "PROPERTY"); |
| |
// Create property: Sets type and !isarray | // Create property: Sets type and !isarray |
| |
CIMValue value(type, false); | CIMValue value(type, false); |
property = CIMProperty(name, value, 0, String(), classOrigin, propagated); |
property = CIMProperty(name, value, 0, CIMName(), classOrigin, propagated); |
| |
if (!empty) | if (!empty) |
{ | { |
|
|
| |
// Get PROPERTY.NAME attribute: | // Get PROPERTY.NAME attribute: |
| |
String name = |
CIMName name = |
getCimNameAttribute(parser.getLine(), entry, "PROPERTY.ARRAY"); | getCimNameAttribute(parser.getLine(), entry, "PROPERTY.ARRAY"); |
| |
// Get PROPERTY.TYPE attribute: | // Get PROPERTY.TYPE attribute: |
| |
CIMType type = getCimTypeAttribute(parser.getLine(), entry, "PROPERTY.ARRAY"); |
CIMType type; |
|
getCimTypeAttribute(parser.getLine(), entry, type, "PROPERTY.ARRAY"); |
| |
// Get PROPERTY.ARRAYSIZE attribute: | // Get PROPERTY.ARRAYSIZE attribute: |
| |
|
|
| |
// Get PROPERTY.CLASSORIGIN attribute: | // Get PROPERTY.CLASSORIGIN attribute: |
| |
String classOrigin |
CIMName classOrigin |
= getClassOriginAttribute(parser.getLine(), entry, "PROPERTY.ARRAY"); | = getClassOriginAttribute(parser.getLine(), entry, "PROPERTY.ARRAY"); |
| |
// Get PROPERTY.ARRAY.PROPAGATED | // Get PROPERTY.ARRAY.PROPAGATED |
|
|
| |
CIMValue value(type, true, arraySize); | CIMValue value(type, true, arraySize); |
property = CIMProperty( | property = CIMProperty( |
name, value, arraySize, String(), classOrigin, propagated); |
name, value, arraySize, CIMName(), classOrigin, propagated); |
| |
if (!empty) | if (!empty) |
{ | { |
|
|
| |
if (!testStartTag(parser, entry, "HOST")) | if (!testStartTag(parser, entry, "HOST")) |
return false; | return false; |
|
#ifdef PEGASUS_SNIA_INTEROP_TEST |
|
// Temp code to allow empty HOST field. |
|
// SNIA CIMOMs return empty field particularly on enumerateinstance. |
|
// Simply substitute a string for the empty. |
|
if (!parser.next(entry)) |
|
throw XmlException(XmlException::UNCLOSED_TAGS, parser.getLine()); |
|
|
|
if (entry.type == XmlEntry::CONTENT) |
|
host = entry.text; |
|
else |
|
{ |
|
parser.putBack(entry); |
|
host = "HOSTNAMEINSERTEDBYPEGASUSCLIENT"; |
|
} |
|
|
|
#else |
| |
if (!parser.next(entry) || entry.type != XmlEntry::CONTENT) | if (!parser.next(entry) || entry.type != XmlEntry::CONTENT) |
{ | { |
|
|
} | } |
| |
host = entry.text; | host = entry.text; |
|
#endif |
expectEndTag(parser, "HOST"); | expectEndTag(parser, "HOST"); |
return true; | return true; |
} | } |
|
|
| |
Boolean XmlReader::getNameSpaceElement( | Boolean XmlReader::getNameSpaceElement( |
XmlParser& parser, | XmlParser& parser, |
String& nameSpaceComponent) |
CIMName& nameSpaceComponent) |
{ | { |
XmlEntry entry; | XmlEntry entry; |
| |
|
|
if (!testStartTag(parser, entry, "LOCALNAMESPACEPATH")) | if (!testStartTag(parser, entry, "LOCALNAMESPACEPATH")) |
return false; | return false; |
| |
String nameSpaceComponent; |
CIMName nameSpaceComponent; |
| |
while (getNameSpaceElement(parser, nameSpaceComponent)) | while (getNameSpaceElement(parser, nameSpaceComponent)) |
{ | { |
if (nameSpace.size()) | if (nameSpace.size()) |
nameSpace += '/'; |
nameSpace.append('/'); |
| |
nameSpace += nameSpaceComponent; |
nameSpace.append(nameSpaceComponent.getString()); |
} | } |
| |
if (!nameSpace.size()) | if (!nameSpace.size()) |
|
|
| |
Boolean XmlReader::getClassNameElement( | Boolean XmlReader::getClassNameElement( |
XmlParser& parser, | XmlParser& parser, |
String& className, |
CIMName& className, |
Boolean required) | Boolean required) |
{ | { |
XmlEntry entry; | XmlEntry entry; |
|
|
else | else |
return false; | return false; |
} | } |
|
|
Boolean empty = entry.type == XmlEntry::EMPTY_TAG; | Boolean empty = entry.type == XmlEntry::EMPTY_TAG; |
| |
className = getCimNameAttribute( | className = getCimNameAttribute( |
parser.getLine(), entry, "CLASSNAME", true); |
parser.getLine(), entry, "CLASSNAME", false); |
| |
if (!empty) | if (!empty) |
expectEndTag(parser, "CLASSNAME"); | expectEndTag(parser, "CLASSNAME"); |
|
|
// | // |
//------------------------------------------------------------------------------ | //------------------------------------------------------------------------------ |
| |
KeyBinding::Type XmlReader::getValueTypeAttribute( |
CIMKeyBinding::Type XmlReader::getValueTypeAttribute( |
Uint32 lineNumber, | Uint32 lineNumber, |
const XmlEntry& entry, | const XmlEntry& entry, |
const char* elementName) | const char* elementName) |
|
|
String tmp; | String tmp; |
| |
if (!entry.getAttributeValue("VALUETYPE", tmp)) | if (!entry.getAttributeValue("VALUETYPE", tmp)) |
return KeyBinding::STRING; |
return CIMKeyBinding::STRING; |
| |
if (String::equal(tmp, "string")) | if (String::equal(tmp, "string")) |
return KeyBinding::STRING; |
return CIMKeyBinding::STRING; |
else if (String::equal(tmp, "boolean")) | else if (String::equal(tmp, "boolean")) |
return KeyBinding::BOOLEAN; |
return CIMKeyBinding::BOOLEAN; |
else if (String::equal(tmp, "numeric")) | else if (String::equal(tmp, "numeric")) |
return KeyBinding::NUMERIC; |
return CIMKeyBinding::NUMERIC; |
| |
char buffer[MESSAGE_SIZE]; | char buffer[MESSAGE_SIZE]; |
| |
|
|
elementName); | elementName); |
| |
throw XmlSemanticError(lineNumber, buffer); | throw XmlSemanticError(lineNumber, buffer); |
return KeyBinding::BOOLEAN; |
return CIMKeyBinding::BOOLEAN; |
} | } |
| |
//------------------------------------------------------------------------------ | //------------------------------------------------------------------------------ |
|
|
| |
Boolean XmlReader::getKeyValueElement( | Boolean XmlReader::getKeyValueElement( |
XmlParser& parser, | XmlParser& parser, |
KeyBinding::Type& type, |
CIMKeyBinding::Type& type, |
String& value) | String& value) |
{ | { |
XmlEntry entry; | XmlEntry entry; |
|
|
| |
Boolean XmlReader::getKeyBindingElement( | Boolean XmlReader::getKeyBindingElement( |
XmlParser& parser, | XmlParser& parser, |
String& name, |
CIMName& name, |
String& value, | String& value, |
KeyBinding::Type& type) |
CIMKeyBinding::Type& type) |
{ | { |
XmlEntry entry; | XmlEntry entry; |
| |
|
|
"Expected KEYVALUE or VALUE.REFERENCE element"); | "Expected KEYVALUE or VALUE.REFERENCE element"); |
} | } |
| |
type = KeyBinding::REFERENCE; |
type = CIMKeyBinding::REFERENCE; |
value = reference.toString(); | value = reference.toString(); |
} | } |
| |
|
|
Boolean XmlReader::getInstanceNameElement( | Boolean XmlReader::getInstanceNameElement( |
XmlParser& parser, | XmlParser& parser, |
String& className, | String& className, |
Array<KeyBinding>& keyBindings) |
Array<CIMKeyBinding>& keyBindings) |
{ | { |
className.clear(); | className.clear(); |
keyBindings.clear(); | keyBindings.clear(); |
|
|
return true; | return true; |
} | } |
| |
String name; |
CIMName name; |
KeyBinding::Type type; |
CIMKeyBinding::Type type; |
String value; | String value; |
CIMObjectPath reference; | CIMObjectPath reference; |
| |
if (getKeyValueElement(parser, type, value)) | if (getKeyValueElement(parser, type, value)) |
{ | { |
// Use empty key name because none was specified | // Use empty key name because none was specified |
keyBindings.append(KeyBinding(name, value, type)); |
keyBindings.append(CIMKeyBinding(name, value, type)); |
} | } |
else if (getValueReferenceElement(parser, reference)) | else if (getValueReferenceElement(parser, reference)) |
{ | { |
// Use empty key name because none was specified | // Use empty key name because none was specified |
type = KeyBinding::REFERENCE; |
type = CIMKeyBinding::REFERENCE; |
value = reference.toString(); | value = reference.toString(); |
keyBindings.append(KeyBinding(name, value, type)); |
keyBindings.append(CIMKeyBinding(name, value, type)); |
} | } |
else | else |
{ | { |
while (getKeyBindingElement(parser, name, value, type)) | while (getKeyBindingElement(parser, name, value, type)) |
keyBindings.append(KeyBinding(name, value, type)); |
keyBindings.append(CIMKeyBinding(name, value, type)); |
} | } |
| |
expectEndTag(parser, "INSTANCENAME"); | expectEndTag(parser, "INSTANCENAME"); |
|
|
CIMObjectPath& instanceName) | CIMObjectPath& instanceName) |
{ | { |
String className; | String className; |
Array<KeyBinding> keyBindings; |
Array<CIMKeyBinding> keyBindings; |
| |
if (!XmlReader::getInstanceNameElement(parser, className, keyBindings)) | if (!XmlReader::getInstanceNameElement(parser, className, keyBindings)) |
return false; | return false; |
| |
instanceName.set(String(), String(), className, keyBindings); |
instanceName.set(String(), CIMNamespaceName(), className, keyBindings); |
return true; | return true; |
} | } |
| |
|
|
} | } |
| |
String className; | String className; |
Array<KeyBinding> keyBindings; |
Array<CIMKeyBinding> keyBindings; |
| |
if (!getInstanceNameElement(parser, className, keyBindings)) | if (!getInstanceNameElement(parser, className, keyBindings)) |
{ | { |
|
|
} | } |
| |
String className; | String className; |
Array<KeyBinding> keyBindings; |
Array<CIMKeyBinding> keyBindings; |
| |
if (!getInstanceNameElement(parser, className, keyBindings)) | if (!getInstanceNameElement(parser, className, keyBindings)) |
{ | { |
|
|
"expected NAMESPACEPATH element"); | "expected NAMESPACEPATH element"); |
} | } |
| |
String className; |
CIMName className; |
| |
if (!getClassNameElement(parser, className)) | if (!getClassNameElement(parser, className)) |
{ | { |
|
|
"expected LOCALNAMESPACEPATH element"); | "expected LOCALNAMESPACEPATH element"); |
} | } |
| |
String className; |
CIMName className; |
| |
if (!getClassNameElement(parser, className)) | if (!getClassNameElement(parser, className)) |
{ | { |
|
|
else if (strcmp(entry.text, "CLASSNAME") == 0) | else if (strcmp(entry.text, "CLASSNAME") == 0) |
{ | { |
parser.putBack(entry); | parser.putBack(entry); |
String className; |
CIMName className; |
getClassNameElement(parser, className); | getClassNameElement(parser, className); |
reference.set(String(), String(), className); |
reference.set(String(), CIMNamespaceName(), className); |
} | } |
else if (strcmp(entry.text, "INSTANCEPATH") == 0) | else if (strcmp(entry.text, "INSTANCEPATH") == 0) |
{ | { |
|
|
{ | { |
parser.putBack(entry); | parser.putBack(entry); |
String className; | String className; |
Array<KeyBinding> keyBindings; |
Array<CIMKeyBinding> keyBindings; |
getInstanceNameElement(parser, className, keyBindings); | getInstanceNameElement(parser, className, keyBindings); |
reference.set(String(), String(), className, keyBindings); |
reference.set(String(), CIMNamespaceName(), className, keyBindings); |
} | } |
| |
expectEndTag(parser, "VALUE.REFERENCE"); | expectEndTag(parser, "VALUE.REFERENCE"); |
|
|
| |
// Get PROPERTY.NAME attribute: | // Get PROPERTY.NAME attribute: |
| |
String name = getCimNameAttribute( |
CIMName name = getCimNameAttribute( |
parser.getLine(), entry, "PROPERTY.REFERENCE"); | parser.getLine(), entry, "PROPERTY.REFERENCE"); |
| |
// Get PROPERTY.REFERENCECLASS attribute: | // Get PROPERTY.REFERENCECLASS attribute: |
| |
String referenceClass = getReferenceClassAttribute( |
CIMName referenceClass = getReferenceClassAttribute( |
parser.getLine(), entry, "PROPERTY.REFERENCE"); | parser.getLine(), entry, "PROPERTY.REFERENCE"); |
| |
// Get PROPERTY.CLASSORIGIN attribute: | // Get PROPERTY.CLASSORIGIN attribute: |
| |
String classOrigin = |
CIMName classOrigin = |
getClassOriginAttribute(parser.getLine(), entry, "PROPERTY.REFERENCE"); | getClassOriginAttribute(parser.getLine(), entry, "PROPERTY.REFERENCE"); |
| |
// Get PROPERTY.PROPAGATED | // Get PROPERTY.PROPAGATED |
|
|
| |
// Create property: | // Create property: |
| |
CIMValue value = CIMValue(CIMType::REFERENCE, false, 0); |
CIMValue value = CIMValue(CIMTYPE_REFERENCE, false, 0); |
// value.set(CIMObjectPath()); | // value.set(CIMObjectPath()); |
property = CIMProperty( | property = CIMProperty( |
name, value, 0, referenceClass, classOrigin, propagated); | name, value, 0, referenceClass, classOrigin, propagated); |
|
|
{ | { |
container.addProperty(property); | container.addProperty(property); |
} | } |
catch (AlreadyExists&) |
catch (AlreadyExistsException&) |
{ | { |
throw XmlSemanticError(parser.getLine(), "duplicate property"); | throw XmlSemanticError(parser.getLine(), "duplicate property"); |
} | } |
|
|
| |
// Get PARAMETER.NAME attribute: | // Get PARAMETER.NAME attribute: |
| |
String name = getCimNameAttribute(parser.getLine(), entry, "PARAMETER"); |
CIMName name = getCimNameAttribute(parser.getLine(), entry, "PARAMETER"); |
| |
// Get PARAMETER.TYPE attribute: | // Get PARAMETER.TYPE attribute: |
| |
CIMType type = getCimTypeAttribute(parser.getLine(), entry, "PARAMETER"); |
CIMType type; |
|
getCimTypeAttribute(parser.getLine(), entry, type, "PARAMETER"); |
| |
// Create parameter: | // Create parameter: |
| |
|
|
| |
// Get PARAMETER.ARRAY.NAME attribute: | // Get PARAMETER.ARRAY.NAME attribute: |
| |
String name = getCimNameAttribute( |
CIMName name = getCimNameAttribute( |
parser.getLine(), entry, "PARAMETER.ARRAY"); | parser.getLine(), entry, "PARAMETER.ARRAY"); |
| |
// Get PARAMETER.ARRAY.TYPE attribute: | // Get PARAMETER.ARRAY.TYPE attribute: |
| |
CIMType type = getCimTypeAttribute(parser.getLine(), entry, "PARAMETER.ARRAY"); |
CIMType type; |
|
getCimTypeAttribute(parser.getLine(), entry, type, "PARAMETER.ARRAY"); |
| |
// Get PARAMETER.ARRAYSIZE attribute: | // Get PARAMETER.ARRAYSIZE attribute: |
| |
|
|
| |
// Get PARAMETER.NAME attribute: | // Get PARAMETER.NAME attribute: |
| |
String name = getCimNameAttribute( |
CIMName name = getCimNameAttribute( |
parser.getLine(), entry, "PARAMETER.REFERENCE"); | parser.getLine(), entry, "PARAMETER.REFERENCE"); |
| |
// Get PARAMETER.REFERENCECLASS attribute: | // Get PARAMETER.REFERENCECLASS attribute: |
| |
String referenceClass = getReferenceClassAttribute( |
CIMName referenceClass = getReferenceClassAttribute( |
parser.getLine(), entry, "PARAMETER.REFERENCE"); | parser.getLine(), entry, "PARAMETER.REFERENCE"); |
| |
// Create parameter: | // Create parameter: |
| |
parameter = CIMParameter(name, CIMType::REFERENCE, false, 0, referenceClass); |
parameter = CIMParameter(name, CIMTYPE_REFERENCE, false, 0, referenceClass); |
| |
if (!empty) | if (!empty) |
{ | { |
|
|
| |
// Get PARAMETER.NAME attribute: | // Get PARAMETER.NAME attribute: |
| |
String name = getCimNameAttribute( |
CIMName name = getCimNameAttribute( |
parser.getLine(), entry, "PARAMETER.REFARRAY"); | parser.getLine(), entry, "PARAMETER.REFARRAY"); |
| |
// Get PARAMETER.REFERENCECLASS attribute: | // Get PARAMETER.REFERENCECLASS attribute: |
| |
String referenceClass = getReferenceClassAttribute( |
CIMName referenceClass = getReferenceClassAttribute( |
parser.getLine(), entry, "PARAMETER.REFARRAY"); | parser.getLine(), entry, "PARAMETER.REFARRAY"); |
| |
// Get PARAMETER.ARRAYSIZE attribute: | // Get PARAMETER.ARRAYSIZE attribute: |
|
|
| |
// Create parameter: | // Create parameter: |
| |
parameter = CIMParameter(name, CIMType::REFERENCE, true, arraySize, |
parameter = CIMParameter(name, CIMTYPE_REFERENCE, true, arraySize, |
referenceClass); | referenceClass); |
| |
if (!empty) | if (!empty) |
|
|
{ | { |
container.addParameter(parameter); | container.addParameter(parameter); |
} | } |
catch (AlreadyExists&) |
catch (AlreadyExistsException&) |
{ | { |
throw XmlSemanticError(parser.getLine(), "duplicate parameter"); | throw XmlSemanticError(parser.getLine(), "duplicate parameter"); |
} | } |
|
|
| |
// Get NAME attribute: | // Get NAME attribute: |
| |
String name = getCimNameAttribute( |
CIMName name = getCimNameAttribute( |
parser.getLine(), entry, "QUALIFIER.DECLARATION"); | parser.getLine(), entry, "QUALIFIER.DECLARATION"); |
| |
// Get TYPE attribute: | // Get TYPE attribute: |
| |
CIMType type = getCimTypeAttribute( |
CIMType type; |
parser.getLine(), entry, "QUALIFIER.DECLARATION"); |
getCimTypeAttribute(parser.getLine(), entry, type, "QUALIFIER.DECLARATION"); |
| |
// Get ISARRAY attribute: | // Get ISARRAY attribute: |
| |
|
|
| |
// Get flavor oriented attributes: | // Get flavor oriented attributes: |
| |
Uint32 flavor = getFlavor(entry,parser.getLine(), "QUALIFIER.DECLARATION"); |
CIMFlavor flavor = getFlavor (entry, parser.getLine (), |
|
"QUALIFIER.DECLARATION"); |
| |
// No need to look for interior elements if empty tag: | // No need to look for interior elements if empty tag: |
| |
Uint32 scope = CIMScope::NONE; |
CIMScope scope = CIMScope (); |
CIMValue value; | CIMValue value; |
|
Boolean gotValue = false; |
| |
if (!empty) | if (!empty) |
{ | { |
|
|
"VALUE.ARRAY size is not the same as " | "VALUE.ARRAY size is not the same as " |
"ARRAYSIZE attribute"); | "ARRAYSIZE attribute"); |
} | } |
|
|
|
gotValue = true; |
} | } |
else if (getValueElement(parser, type, value)) | else if (getValueElement(parser, type, value)) |
{ | { |
|
|
throw XmlSemanticError(parser.getLine(), | throw XmlSemanticError(parser.getLine(), |
"ISARRAY attribute used but VALUE element encountered"); | "ISARRAY attribute used but VALUE element encountered"); |
} | } |
|
|
|
gotValue = true; |
} | } |
| |
// Now get the closing tag: | // Now get the closing tag: |
|
|
expectEndTag(parser, "QUALIFIER.DECLARATION"); | expectEndTag(parser, "QUALIFIER.DECLARATION"); |
} | } |
| |
if (value.getType() == CIMType::NONE) |
if (!gotValue) |
{ | { |
if (isArray) | if (isArray) |
value.setNullValue(type, true, arraySize); | value.setNullValue(type, true, arraySize); |
|
|
| |
Boolean empty = entry.type == XmlEntry::EMPTY_TAG; | Boolean empty = entry.type == XmlEntry::EMPTY_TAG; |
| |
String name = getCimNameAttribute(parser.getLine(), entry, "PROPERTY"); |
CIMName name = getCimNameAttribute(parser.getLine(), entry, "PROPERTY"); |
| |
CIMType type = getCimTypeAttribute(parser.getLine(), entry, "PROPERTY"); |
CIMType type; |
|
getCimTypeAttribute(parser.getLine(), entry, type, "PROPERTY"); |
| |
String classOrigin = |
CIMName classOrigin = |
getClassOriginAttribute(parser.getLine(), entry, "PROPERTY"); | getClassOriginAttribute(parser.getLine(), entry, "PROPERTY"); |
| |
Boolean propagated = getCimBooleanAttribute( | Boolean propagated = getCimBooleanAttribute( |
|
|
if (!testStartTag(parser, entry, "CLASS")) | if (!testStartTag(parser, entry, "CLASS")) |
return false; | return false; |
| |
String name = getCimNameAttribute(parser.getLine(), entry, "CLASS"); |
CIMName name = getCimNameAttribute(parser.getLine(), entry, "CLASS"); |
| |
String superClass = getSuperClassAttribute(parser.getLine(), entry,"CLASS"); |
CIMName superClass = getSuperClassAttribute(parser.getLine(), entry,"CLASS"); |
| |
cimClass = CIMClass(name, superClass); | cimClass = CIMClass(name, superClass); |
| |
|
|
| |
if (!entry.getAttributeValue("ID", id)) | if (!entry.getAttributeValue("ID", id)) |
throw XmlValidationError(parser.getLine(), | throw XmlValidationError(parser.getLine(), |
"Bad or missing MESSAGE.ID attribute"); |
"Invalid or missing MESSAGE.ID attribute"); |
| |
// Get MESSAGE.PROTOCOLVERSION: | // Get MESSAGE.PROTOCOLVERSION: |
| |
if (!entry.getAttributeValue("PROTOCOLVERSION", protocolVersion)) | if (!entry.getAttributeValue("PROTOCOLVERSION", protocolVersion)) |
throw XmlValidationError(parser.getLine(), | throw XmlValidationError(parser.getLine(), |
"Bad or missing MESSAGE.PROTOCOLVERSION attribute"); |
"Invalid or missing MESSAGE.PROTOCOLVERSION attribute"); |
| |
return true; | return true; |
} | } |
|
|
| |
expectContentOrCData(parser, entry); | expectContentOrCData(parser, entry); |
| |
if (CompareNoCase(entry.text, "TRUE") == 0) |
if (System::strcasecmp(entry.text, "TRUE") == 0) |
result = true; | result = true; |
else if (CompareNoCase(entry.text, "FALSE") == 0) |
else if (System::strcasecmp(entry.text, "FALSE") == 0) |
result = false; | result = false; |
else | else |
throw XmlSemanticError(parser.getLine(), | throw XmlSemanticError(parser.getLine(), |
"Bad value for VALUE element: must be \"TRUE\" or \"FALSE\""); |
"Invalid value for VALUE element: must be \"TRUE\" or \"FALSE\""); |
| |
expectEndTag(parser, "VALUE"); | expectEndTag(parser, "VALUE"); |
| |
|
|
XmlParser& parser, | XmlParser& parser, |
CIMObjectPath& objectName) | CIMObjectPath& objectName) |
{ | { |
String className; |
CIMName className; |
| |
if (getClassNameElement(parser, className, false)) | if (getClassNameElement(parser, className, false)) |
{ | { |
objectName.set(String(), String(), className); |
objectName.set(String(), CIMNamespaceName(), className); |
return true; | return true; |
} | } |
else if (getInstanceNameElement(parser, objectName)) | else if (getInstanceNameElement(parser, objectName)) |
|
|
| |
//------------------------------------------------------------------------------ | //------------------------------------------------------------------------------ |
// | // |
|
// getEParamValueTag() |
|
// |
|
//------------------------------------------------------------------------------ |
|
|
|
Boolean XmlReader::getEParamValueTag( |
|
XmlParser& parser, |
|
const char*& name) |
|
{ |
|
XmlEntry entry; |
|
|
|
if (!testStartTag(parser, entry, "EXPPARAMVALUE")) |
|
return false; |
|
|
|
// Get EXPPARAMVALUE.NAME attribute: |
|
|
|
if (!entry.getAttributeValue("NAME", name)) |
|
throw XmlValidationError(parser.getLine(), |
|
"Missing EXPPARAMVALUE.NAME attribute"); |
|
|
|
return true; |
|
} |
|
|
|
//------------------------------------------------------------------------------ |
|
// |
// getMethodCallStartTag() | // getMethodCallStartTag() |
// | // |
//------------------------------------------------------------------------------ | //------------------------------------------------------------------------------ |
|
|
| |
// Get PARAMVALUE.PARAMTYPE attribute: | // Get PARAMVALUE.PARAMTYPE attribute: |
| |
type = getCimTypeAttribute(parser.getLine(), entry, "PARAMVALUE", |
Boolean gotType = getCimTypeAttribute(parser.getLine(), entry, type, |
"PARAMTYPE", false); |
"PARAMVALUE", "PARAMTYPE", false); |
| |
if (!empty) | if (!empty) |
{ | { |
// Parse VALUE.REFERENCE and VALUE.REFARRAY type | // Parse VALUE.REFERENCE and VALUE.REFARRAY type |
if ( (type == CIMType::REFERENCE) || (type == CIMType::NONE) ) |
if ( (type == CIMTYPE_REFERENCE) || !gotType ) |
{ | { |
CIMObjectPath reference; | CIMObjectPath reference; |
if (XmlReader::getValueReferenceElement(parser, reference)) | if (XmlReader::getValueReferenceElement(parser, reference)) |
{ | { |
value.set(reference); | value.set(reference); |
type = CIMType::REFERENCE; |
type = CIMTYPE_REFERENCE; |
|
gotType = true; |
} | } |
else if (XmlReader::getValueReferenceArrayElement(parser, value)) | else if (XmlReader::getValueReferenceArrayElement(parser, value)) |
{ | { |
type = CIMType::REFERENCE; |
type = CIMTYPE_REFERENCE; |
|
gotType = true; |
} | } |
// If type==reference but no VALUE.REFERENCE found, use null value | // If type==reference but no VALUE.REFERENCE found, use null value |
} | } |
| |
// Parse non-reference value | // Parse non-reference value |
if ( type != CIMType::REFERENCE ) |
if ( type != CIMTYPE_REFERENCE ) |
|
{ |
|
CIMType effectiveType; |
|
if (!gotType) |
{ | { |
// If we don't know what type the value is, read it as a String | // If we don't know what type the value is, read it as a String |
CIMType effectiveType = type; |
effectiveType = CIMTYPE_STRING; |
if ( effectiveType == CIMType::NONE) |
} |
|
else |
{ | { |
effectiveType = CIMType::STRING; |
effectiveType = type; |
} | } |
| |
if ( !XmlReader::getValueArrayElement(parser, effectiveType, value) && | if ( !XmlReader::getValueArrayElement(parser, effectiveType, value) && |
|
|
expectEndTag(parser, "PARAMVALUE"); | expectEndTag(parser, "PARAMVALUE"); |
} | } |
| |
paramValue = CIMParamValue(name, value, Boolean(type!=CIMType::NONE)); |
paramValue = CIMParamValue(name, value, gotType); |
| |
return true; | return true; |
} | } |
|
|
// Get RETURNVALUE.PARAMTYPE attribute: | // Get RETURNVALUE.PARAMTYPE attribute: |
// NOTE: Array type return values are not allowed (2/20/02) | // NOTE: Array type return values are not allowed (2/20/02) |
| |
type = getCimTypeAttribute(parser.getLine(), entry, "RETURNVALUE", |
Boolean gotType = getCimTypeAttribute(parser.getLine(), entry, type, |
"PARAMTYPE", false); |
"RETURNVALUE", "PARAMTYPE", false); |
| |
// Parse VALUE.REFERENCE type | // Parse VALUE.REFERENCE type |
if ( (type == CIMType::REFERENCE) || (type == CIMType::NONE) ) |
if ( (type == CIMTYPE_REFERENCE) || !gotType ) |
{ | { |
CIMObjectPath reference; | CIMObjectPath reference; |
if (XmlReader::getValueReferenceElement(parser, reference)) | if (XmlReader::getValueReferenceElement(parser, reference)) |
{ | { |
returnValue.set(reference); | returnValue.set(reference); |
type = CIMType::REFERENCE; |
type = CIMTYPE_REFERENCE; |
|
gotType = true; |
} | } |
else if (type == CIMType::REFERENCE) |
else if (type == CIMTYPE_REFERENCE) |
{ | { |
throw XmlValidationError(parser.getLine(), | throw XmlValidationError(parser.getLine(), |
"expected VALUE.REFERENCE element"); | "expected VALUE.REFERENCE element"); |
|
|
} | } |
| |
// Parse non-reference return value | // Parse non-reference return value |
if ( type != CIMType::REFERENCE ) |
if ( type != CIMTYPE_REFERENCE ) |
{ | { |
// If we don't know what type the value is, read it as a String |
if (!gotType) |
if ( type == CIMType::NONE) |
|
{ | { |
type = CIMType::STRING; |
// If we don't know what type the value is, read it as a String |
|
type = CIMTYPE_STRING; |
} | } |
| |
if ( !XmlReader::getValueElement(parser, type, returnValue) ) | if ( !XmlReader::getValueElement(parser, type, returnValue) ) |