pegasus/src/Pegasus/Repository/Attic/MetaRepository.cpp - diff

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Diff for /pegasus/src/Pegasus/Repository/Attic/MetaRepository.cpp between version 1.1 and 1.1.2.4

version 1.1, 2007/10/02 14:17:23

version 1.1.2.4, 2007/10/02 17:15:30

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//%2006////////////////////////////////////////////////////////////////////////

// Company, L.P.; IBM Corp.; The Open Group; Tivoli Systems.

// IBM Corp.; EMC Corporation, The Open Group.

// IBM Corp.; EMC Corporation; VERITAS Software Corporation; The Open Group.

// EMC Corporation; VERITAS Software Corporation; The Open Group.

// EMC Corporation; Symantec Corporation; The Open Group.

// Permission is hereby granted, free of charge, to any person obtaining a copy

// of this software and associated documentation files (the "Software"), to

// deal in the Software without restriction, including without limitation the

// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or

// sell copies of the Software, and to permit persons to whom the Software is

// furnished to do so, subject to the following conditions:

// THE ABOVE COPYRIGHT NOTICE AND THIS PERMISSION NOTICE SHALL BE INCLUDED IN

// ALL COPIES OR SUBSTANTIAL PORTIONS OF THE SOFTWARE. THE SOFTWARE IS PROVIDED

// "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT

// LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR

// PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT

// HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN

// ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION

// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

//==============================================================================

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

#include <cstdarg>

#include <cassert>

#include "MetaRepository.h"

#include <Pegasus/Common/System.h>

#define TEST_META_REPOSITORY

#if defined(TEST_META_REPOSITORY)

# include "root_cimv2_namespace.h"

# include "root_PG_Internal_namespace.h"

# include "root_PG_InterOp_namespace.h"

#endif

PEGASUS_NAMESPACE_BEGIN

static const size_t _MAX_NAMESPACES = 32;

static const MetaNameSpace* _nameSpaces[_MAX_NAMESPACES];

static size_t _nameSpacesSize = 0;

static const size_t _MAX_FEATURES = 1024;

static const size_t _MAX_QUALIFIERS = 1024;

static inline void _init()

{

#if defined(TEST_META_REPOSITORY)

if (_nameSpacesSize == 0)

{

MetaRepository::addNameSpace(&root_PG_InterOp_namespace);

MetaRepository::addNameSpace(&root_cimv2_namespace);

MetaRepository::addNameSpace(&root_PG_Internal_namespace);

}

#endif

}

static bool _eqi(const char* s1, const char* s2)

{

return System::strcasecmp(s1, s2) == 0;

}

//==============================================================================

// Local definitions:

//==============================================================================

class Str

{

public:

Str(const String& s) : _cstr(s.getCString()) { }

Str(const CIMName& n) : _cstr(n.getString().getCString()) { }

Str(const CIMNamespaceName& n) : _cstr(n.getString().getCString()) { }

Str(const Exception& e) : _cstr(e.getMessage().getCString()) { }

Str(const CIMDateTime& x) : _cstr(x.toString().getCString()) { }

Str(const CIMObjectPath& x) : _cstr(x.toString().getCString()) { }

const char* operator*() const { return (const char*)_cstr; }

operator const char*() const { return (const char*)_cstr; }

private:

CString _cstr;

};

PEGASUS_FORMAT(2, 3)

static void _throw(CIMStatusCode code, const char* format, ...)

{

char buffer[4096];

va_list ap;

va_start(ap, format);

vsprintf(buffer, format, ap);

va_end(ap);

throw CIMException(code, buffer);

}

static const MetaNameSpace* _findNameSpace(const char* name)

{

for (size_t i = 0; i < _nameSpacesSize; i++)

{

if (_eqi(_nameSpaces[i]->name, name))

return _nameSpaces[i];

}

// Not found!

return 0;

}

static bool _isSubClass(const MetaClass* super, const MetaClass* sub)

{

if (!super)

return true;

for (MetaClass* p = sub->super; p; p = p->super)

{

if (p == super)

return true;

}

return false;

}

static inline bool _isDirectSubClass(

const MetaClass* super,

const MetaClass* sub)

{

return sub->super == super;

}

static const MetaClass* _findClass(

const MetaNameSpace* ns,

const char* name)

{

for (size_t i = 0; ns->classes[i]; i++)

{

const MetaClass* mc = ns->classes[i];

if (_eqi(mc->name, name))

return mc;

}

// Not found!

return 0;

}

static const MetaQualifierDecl* _findQualifierDecl(

const MetaNameSpace* ns,

const char* name)

{

for (size_t i = 0; ns->classes[i]; i++)

{

const MetaQualifierDecl* mqd = ns->qualifiers[i];

if (_eqi(mqd->name, name))

return mqd;

}

// Not found!

return 0;

}

static inline void _readBoolean(const char*& value, Boolean& x)

{

unsigned const char* p = (unsigned const char*)value;

x = Boolean(p[0]);

value++;

}

static inline void _readUint8(const char*& value, Uint8& x)

{

unsigned const char* p = (unsigned const char*)value;

x = Uint8(p[0]);

value += sizeof(x);

}

static inline void _readSint8(const char*& value, Sint8& x)

{

_readUint8(value, *((Uint8*)&x));

}

static inline void _readUint16(const char*& value, Uint16& x)

{

unsigned const char* p = (unsigned const char*)value;

Uint16 x0 = Uint16(p[0]) << 8;

Uint16 x1 = Uint16(p[1]) << 0;

x = Uint16(x0 | x1);

value += sizeof(x);

}

static inline void _readSint16(const char*& value, Sint16& x)

{

_readUint16(value, *((Uint16*)&x));

value += sizeof(x);

}

static inline void _readUint32(const char*& value, Uint32& x)

{

unsigned const char* p = (unsigned const char*)value;

Uint32 x0 = Uint32(p[0]) << 24;

Uint32 x1 = Uint32(p[1]) << 16;

Uint32 x2 = Uint32(p[0]) << 8;

Uint32 x3 = Uint32(p[1]) << 0;

x = Uint32(x0 | x1 | x2 | x3);

value += sizeof(x);

}

static inline void _readSint32(const char*& value, Sint32& x)

{

_readUint32(value, *((Uint32*)&x));

value += sizeof(x);

}

static inline void _readUint64(const char*& value, Uint64& x)

{

unsigned const char* p = (unsigned const char*)value;

Uint64 x0 = Uint64(p[0]) << 56;

Uint64 x1 = Uint64(p[1]) << 48;

Uint64 x2 = Uint64(p[2]) << 40;

Uint64 x3 = Uint64(p[3]) << 32;

Uint64 x4 = Uint64(p[4]) << 24;

Uint64 x5 = Uint64(p[5]) << 16;

Uint64 x6 = Uint64(p[6]) << 8;

Uint64 x7 = Uint64(p[7]) << 0;

x = Uint64(x0 | x1 | x2 | x3 | x4 | x5 | x6 | x7);

value += sizeof(x);

}

static inline void _readSint64(const char*& value, Sint64& x)

{

_readUint64(value, *((Uint64*)&x));

value += sizeof(x);

}

static inline void _readReal32(const char*& value, Real32& x)

{

_readUint32(value, *((Uint32*)&x));

value += sizeof(x);

}

static inline void _readReal64(const char*& value, Real64& x)

{

_readUint64(value, *((Uint64*)&x));

value += sizeof(x);

}

static inline void _readChar16(const char*& value, Char16& x)

{

_readUint16(value, *((Uint16*)&x));

value += sizeof(x);

}

static inline void _readString(const char*& value, String& x)

{

size_t n = strlen(value);

x.assign(value, n);

value += n + 1;

}

static inline void _readDateTime(const char*& value, CIMDateTime& x)

{

size_t n = strlen(value);

x.set(value);

value += n + 1;

}

static int _makeValue(

CIMValue& cv,

Uint16 type,

Sint16 subscript,

const char* value)

{

// If null value:

if (value == 0)

{

if (subscript == -1)

cv.setNullValue(CIMType(type), false);

else

cv.setNullValue(CIMType(type), true, subscript);

return 0;

}

// If scalar, else array:

if (subscript == -1)

{

switch (CIMType(type))

{

case CIMTYPE_BOOLEAN:

{

Boolean x;

_readBoolean(value, x);

cv.set(x);

return 0;

}

case CIMTYPE_UINT8:

{

Uint8 x;

_readUint8(value, x);

cv.set(x);

return 0;

}

case CIMTYPE_SINT8:

{

Sint8 x;

_readSint8(value, x);

cv.set(x);

return 0;

}

case CIMTYPE_UINT16:

{

Uint16 x;

_readUint16(value, x);

cv.set(x);

return 0;

}

case CIMTYPE_SINT16:

{

Sint16 x;

_readSint16(value, x);

cv.set(x);

return 0;

}

case CIMTYPE_UINT32:

{

Uint32 x;

_readUint32(value, x);

cv.set(x);

return 0;

}

case CIMTYPE_SINT32:

{

Sint32 x;

_readSint32(value, x);

cv.set(x);

return 0;

}

case CIMTYPE_UINT64:

{

Uint64 x;

_readUint64(value, x);

cv.set(x);

return 0;

}

case CIMTYPE_SINT64:

{

Sint64 x;

_readSint64(value, x);

cv.set(x);

return 0;

}

case CIMTYPE_REAL32:

{

Real32 x;

_readReal32(value, x);

cv.set(x);

return 0;

}

case CIMTYPE_REAL64:

{

Real64 x;

_readReal64(value, x);

cv.set(x);

return 0;

}

case CIMTYPE_CHAR16:

{

Char16 x;

_readChar16(value, x);

cv.set(x);

return 0;

}

case CIMTYPE_STRING:

{

String x;

_readString(value, x);

cv.set(x);

return 0;

}

case CIMTYPE_DATETIME:

{

CIMDateTime x;

_readDateTime(value, x);

cv.set(x);

return 0;

}

default:

printf("T[%u]\n", __LINE__);

return -1;

}

else

{

// Read array size:

Uint16 size;

_readUint16(value, size);

// Read array elements:

switch (CIMType(type))

{

case CIMTYPE_BOOLEAN:

{

Array<Boolean> a;

for (Uint16 i = 0; i < size; i++)

{

Boolean x;

_readBoolean(value, x);

a.append(x);

}

cv.set(a);

return 0;

}

case CIMTYPE_UINT8:

{

Array<Uint8> a;

for (Uint16 i = 0; i < size; i++)

{

Uint8 x;

_readUint8(value, x);

a.append(x);

}

cv.set(a);

return 0;

}

case CIMTYPE_SINT8:

{

Array<Sint8> a;

for (Uint16 i = 0; i < size; i++)

{

Sint8 x;

_readSint8(value, x);

a.append(x);

}

cv.set(a);

return 0;

}

case CIMTYPE_UINT16:

{

Array<Uint16> a;

for (Uint16 i = 0; i < size; i++)

{

Uint16 x;

_readUint16(value, x);

a.append(x);

}

cv.set(a);

return 0;

}

case CIMTYPE_SINT16:

{

Array<Sint16> a;

for (Uint16 i = 0; i < size; i++)

{

Sint16 x;

_readSint16(value, x);

a.append(x);

}

cv.set(a);

return 0;

}

case CIMTYPE_UINT32:

{

Array<Uint32> a;

for (Uint16 i = 0; i < size; i++)

{

Uint32 x;

_readUint32(value, x);

a.append(x);

}

cv.set(a);

return 0;

}

case CIMTYPE_SINT32:

{

Array<Sint32> a;

for (Uint16 i = 0; i < size; i++)

{

Sint32 x;

_readSint32(value, x);

a.append(x);

}

cv.set(a);

return 0;

}

case CIMTYPE_UINT64:

{

Array<Uint64> a;

for (Uint16 i = 0; i < size; i++)

{

Uint64 x;

_readUint64(value, x);

a.append(x);

}

cv.set(a);

return 0;

}

case CIMTYPE_SINT64:

{

Array<Sint64> a;

for (Uint16 i = 0; i < size; i++)

{

Sint64 x;

_readSint64(value, x);

a.append(x);

}

cv.set(a);

return 0;

}

case CIMTYPE_REAL32:

{

Array<Real32> a;

for (Uint16 i = 0; i < size; i++)

{

Real32 x;

_readReal32(value, x);

a.append(x);

}

cv.set(a);

return 0;

}

case CIMTYPE_REAL64:

{

Array<Real64> a;

for (Uint16 i = 0; i < size; i++)

{

Real64 x;

_readReal64(value, x);

a.append(x);

}

cv.set(a);

return 0;

}

case CIMTYPE_CHAR16:

{

Array<Char16> a;

for (Uint16 i = 0; i < size; i++)

{

Char16 x;

_readChar16(value, x);

a.append(x);

}

cv.set(a);

return 0;

}

case CIMTYPE_STRING:

{

Array<String> a;

for (Uint16 i = 0; i < size; i++)

{

String x;

_readString(value, x);

a.append(x);

}

cv.set(a);

return 0;

}

case CIMTYPE_DATETIME:

{

Array<CIMDateTime> a;

for (Uint16 i = 0; i < size; i++)

{

CIMDateTime x;

_readDateTime(value, x);

a.append(x);

}

cv.set(a);

return 0;

}

default:

printf("T[%u]\n", __LINE__);

return -1;

}

// Unreachable!

printf("T[%u]\n", __LINE__);

return -1;

}

struct FeatureInfo

{

const MetaFeature* mf;

const MetaClass* mc;

};

static int _mergeFeatures(

const MetaClass* mc,

bool localOnly,

FeatureInfo features[_MAX_FEATURES],

size_t& numFeatures)

{

if (!localOnly && mc->super)

{

if (_mergeFeatures(mc->super, localOnly, features, numFeatures) != 0)

{

printf("T[%u]\n", __LINE__);

return -1;

}

// Process all features of this class:

for (size_t i = 0; mc->features[i]; i++)

{

const MetaFeature* mf = mc->features[i];

// Override feature if defined by ancestor class:

bool found = false;

for (size_t j = 0; j < numFeatures; j++)

{

const MetaFeature* tmp = features[j].mf;

if (_eqi(mf->name, tmp->name))

{

features[j].mf = mf;

features[j].mc = mc;

found = true;

break;

}

// Add new feature if not not defined by ancestor class:

if (!found)

{

if (numFeatures == _MAX_FEATURES)

{

printf("T[%u]\n", __LINE__);

return -1;

}

features[numFeatures].mf = mf;

features[numFeatures].mc = mc;

numFeatures++;

}

return 0;

}

struct QualifierInfo

{

const char* qualifier;

const MetaClass* mc;

};

static const MetaFeature* _findFeature(

const MetaClass* mc,

const char* name)

{

for (size_t i = 0; mc->features[i]; i++)

{

const MetaFeature* mf = mc->features[i];

if (_eqi(mf->name, name))

return mf;

}

// Not found!

return 0;

}

static const MetaFeature* _findParameter(

const MetaMethod* mm,

const char* name)

{

for (size_t i = 0; mm->parameters[i]; i++)

{

const MetaFeature* mf = mm->parameters[i];

if (_eqi(mm->name, name))

return mf;

}

// Not found!

return 0;

}

static int _mergeQualifiers(

const MetaNameSpace* ns,

const MetaClass* mc,

const char* featureName,

const char* parameterName,

bool depth,

QualifierInfo qualifiers[_MAX_QUALIFIERS],

size_t& numQualifiers)

{

// Merge super-class qualifiers:

if (mc->super)

{

_mergeQualifiers(ns, mc->super, featureName, parameterName, depth + 1,

qualifiers, numQualifiers);

}

const char** quals = 0;

// Find qualifiers of the given object:

if (!featureName && !parameterName)

{

// Case 1: get class qualifiers:

quals = mc->qualifiers;

}

else if (featureName && !parameterName)

{

// Case 2: get feature qualifiers:

const MetaFeature* mf = _findFeature(mc, featureName);

if (mf)

quals = mf->qualifiers;

}

else if (featureName && parameterName)

{

// Case 3: get parameter qualifiers:

const MetaFeature* mf = _findFeature(mc, featureName);

if (mf && (mf->flags & META_FLAG_METHOD))

{

const MetaMethod* mm = (const MetaMethod*)mf;

const MetaFeature* p = _findParameter(mm, parameterName);

if (p)

quals = p->qualifiers;

}

// Merge quals into the qualifiers array:

if (!quals)

return 0;

for (size_t i = 0; quals[i]; i++)

{

const char* qi = quals[i];

// Override existing qualifier if any:

bool found = false;

for (size_t j = 0; j < numQualifiers; j++)

{

const char* qj = qualifiers[j].qualifier;

if (qi[0] == qj[0])

{

qualifiers[j].qualifier = qi;

qualifiers[j].mc = mc;

found = true;

break;

}

// Inject this qualifier not found:

if (!found)

{

MetaQualifierDecl* qd = ns->qualifiers[qi[0]];

if (depth == 0 || !(qd->flavor & META_FLAVOR_RESTRICTED))

{

if (numQualifiers == _MAX_QUALIFIERS)

{

printf("T[%u]\n", __LINE__);

return -1;

}

qualifiers[numQualifiers].qualifier = qi;

qualifiers[numQualifiers].mc = mc;

numQualifiers++;

}

return 0;

}

template<class C>

static int _addQualifiers(

const MetaNameSpace* ns,

const MetaClass* mc,

const char* featureName,

const char* parameterName,

C& c)

{

QualifierInfo qualifiers[_MAX_QUALIFIERS];

size_t numQualifiers = 0;

if (_mergeQualifiers(

ns, mc, featureName, parameterName, 0, qualifiers, numQualifiers) != 0)

{

printf("T[%u]\n", __LINE__);

return -1;

}

// Add qualifiers to container:

for (size_t i = 0; i < numQualifiers; i++)

{

const char* q = qualifiers[i].qualifier;

// Get qualifier id:

Uint8 qid = Uint8(q[0]);

// Get qualifier declaration:

MetaQualifierDecl* qd = ns->qualifiers[qid];

// Make CIMValue:

CIMValue cv;

if (_makeValue(cv, qd->type, qd->subscript, q + 1) != 0)

{

printf("T[%u]\n", __LINE__);

return -1;

}

// Add qualifier:

c.addQualifier(CIMQualifier(qd->name, cv));

}

return 0;

}

static int _addProperty(

const MetaNameSpace* ns,

const MetaClass* mc,

const MetaProperty* mp,

const char* classOrigin,

bool propagated,

bool includeQualifiers,

bool includeClassOrigin,

CIMClass& cc)

{

// Make CIMvalue:

CIMValue cv;

if (_makeValue(cv, mp->type, mp->subscript, mp->value) != 0)

{

printf("T[%u]\n", __LINE__);

return -1;

}

// Create property:

CIMProperty cp(mp->name, cv);

if (includeClassOrigin)

cp.setClassOrigin(classOrigin);

cp.setPropagated(propagated);

// Add qualifiers:

if (includeQualifiers)

{

if (_addQualifiers(ns, mc, mp->name, 0, cp) != 0)

{

printf("T[%u]\n", __LINE__);

return -1;

}

// Add to class:

cc.addProperty(cp);

return 0;

}

static int _addReference(

const MetaNameSpace* ns,

const MetaClass* mc,

const MetaReference* mr,

const char* classOrigin,

bool propagated,

bool includeQualifiers,

bool includeClassOrigin,

CIMClass& cc)

{

// Set isArray and arraySize:

Boolean isArray;

Uint32 arraySize;

if (mr->subscript == -1)

{

isArray = false;

arraySize = 0;

}

else

{

isArray = true;

arraySize = mr->subscript;

}

// Set referenceClassName:

CIMName rcn = mr->ref->name;

// Create value:

CIMValue cv(CIMTYPE_REFERENCE, isArray, arraySize);

// Create property:

CIMProperty cp(mr->name, cv, arraySize, rcn);

if (includeClassOrigin)

cp.setClassOrigin(classOrigin);

cp.setPropagated(propagated);

// Add qualifiers:

if (includeQualifiers)

{

if (_addQualifiers(ns, mc, mr->name, 0, cp) != 0)

{

printf("T[%u]\n", __LINE__);

return -1;

}

// Add to class:

cc.addProperty(cp);

return 0;

}

static int _addPropertyParameter(

const MetaNameSpace* ns,

const MetaClass* mc,

const MetaMethod* mm,

const MetaProperty* mp,

bool includeQualifiers,

CIMMethod& cm)

{

// Create property:

bool isArray;

Uint32 arraySize;

if (mp->subscript == -1)

{

isArray = false;

arraySize = 0;

}

else

{

isArray = true;

arraySize = Uint32(mp->subscript);

}

CIMParameter cp(mp->name, CIMType(mp->type), isArray, arraySize);

// Add qualifiers:

if (includeQualifiers)

{

if (_addQualifiers(ns, mc, mm->name, mp->name, cm) != 0)

{

printf("T[%u]\n", __LINE__);

return -1;

}

// Add to method:

cm.addParameter(cp);

return 0;

}

static int _addReferenceParameter(

const MetaNameSpace* ns,

const MetaClass* mc,

const MetaMethod* mm,

const MetaReference* mr,

bool includeQualifiers,

CIMMethod& cm)

{

// Create property:

bool isArray;

Uint32 arraySize;

if (mr->subscript == -1)

{

isArray = false;

arraySize = 0;

}

else

{

isArray = true;

arraySize = Uint32(mr->subscript);

}

CIMName rcn = mr->ref->name;

CIMParameter cp(mr->name, CIMTYPE_REFERENCE, isArray, arraySize, rcn);

// Add qualifiers:

if (includeQualifiers)

{

if (_addQualifiers(ns, mc, mm->name, mr->name, cm) != 0)

{

printf("T[%u]\n", __LINE__);

return -1;

}

// Add to method:

cm.addParameter(cp);

return 0;

}

static int _addMethod(

const MetaNameSpace* ns,

const MetaClass* mc,

const MetaMethod* mm,

const char* classOrigin,

bool propagated,

bool includeQualifiers,

bool includeClassOrigin,

CIMClass& cc)

{

// Create method:

CIMMethod cm(mm->name, CIMType(mm->type));

if (includeClassOrigin)

cm.setClassOrigin(classOrigin);

cm.setPropagated(propagated);

// Add parameters:

for (size_t i = 0; mm->parameters[i]; i++)

{

MetaFeature* mf = mm->parameters[i];

if (mf->flags & META_FLAG_PROPERTY)

{

MetaProperty* mp = (MetaProperty*)mf;

_addPropertyParameter(ns, mc, mm, mp, includeQualifiers, cm);

}

else if (mf->flags & META_FLAG_REFERENCE)

{

MetaReference* mr = (MetaReference*)mf;

_addReferenceParameter(ns, mc, mm, mr, includeQualifiers, cm);

}

// Add qualifiers:

if (includeQualifiers)

{

if (_addQualifiers(ns, mc, mm->name, 0, cm) != 0)

{

printf("T[%u]\n", __LINE__);

return -1;

}

// Add to class:

cc.addMethod(cm);

return 0;

}

static bool _hasProperty(const char* const* propertyList, const char* name)

{

for (size_t i = 0; propertyList[i]; i++)

{

if (_eqi(propertyList[i], name))

return true;

}

return false;

}

static int _addFeatures(

const MetaNameSpace* ns,

const MetaClass* mc,

bool localOnly,

bool includeQualifiers,

bool includeClassOrigin,

const char* const* propertyList,

CIMClass& cc)

{

// Merge features from all inheritance levels into a single array:

FeatureInfo features[_MAX_FEATURES];

size_t numFeatures = 0;

if (_mergeFeatures(mc, localOnly, features, numFeatures) != 0)

{

printf("T[%u]\n", __LINE__);

return -1;

}

// For each feature:

for (size_t i = 0; i < numFeatures; i++)

{

const FeatureInfo& fi = features[i];

// Set propagated flag:

bool propagated = fi.mc != mc;

// Set classOrigin:

const char* classOrigin = fi.mc->name;

// Skip feature not in property list:

const MetaFeature* mf = fi.mf;

if (propertyList && !_hasProperty(propertyList, mf->name))

continue;

// Add the feature:

if (mf->flags & META_FLAG_PROPERTY)

{

MetaProperty* mp = (MetaProperty*)mf;

if (_addProperty(ns, mc, mp, classOrigin, propagated,

includeQualifiers, includeClassOrigin, cc) != 0)

{

printf("T[%u]\n", __LINE__);

return -1;

}

else if (mf->flags & META_FLAG_REFERENCE)

{

MetaReference* mr = (MetaReference*)mf;

if (_addReference(ns, mc, mr, classOrigin, propagated,

includeQualifiers, includeClassOrigin, cc) != 0)

{

printf("T[%u]\n", __LINE__);

return -1;

}

else if (mf->flags & META_FLAG_METHOD)

{

MetaMethod* mm = (MetaMethod*)mf;

if (_addMethod(ns, mc, mm, classOrigin, propagated,

includeQualifiers, includeClassOrigin, cc) != 0)

{

printf("T[%u]\n", __LINE__);

return -1;

}

return 0;

}

static int _makeClass(

const MetaNameSpace* ns,

const MetaClass* mc,

Boolean localOnly,

Boolean includeQualifiers,

Boolean includeClassOrigin,

const char* const* propertyList,

CIMClass& cc)

{

try

{

// Create class:

{

CIMName scn;

if (mc->super)

scn = mc->super->name;

cc = CIMClass(mc->name, scn);

}

// Add qualifiers:

if (includeQualifiers)

{

if (_addQualifiers(ns, mc, 0, 0, cc) != 0)

{

printf("T[%u]\n", __LINE__);

return -1;

}

// Features:

if (_addFeatures(ns, mc, localOnly, includeQualifiers,

includeClassOrigin, propertyList, cc) != 0)

{

printf("T[%u]\n", __LINE__);

return -1;

}

catch (Exception& e)

{

printf("EXCEPTION[%s]\n", *Str(e));

return -1;

}

catch (...)

{

printf("T[%u]\n", __LINE__);

return -1;

}

return 0;

}

static char** _makePropertyList(const CIMPropertyList& propertyList)

{

if (propertyList.isNull())

return 0;

size_t size = propertyList.size();

char** pl = (char**)malloc(sizeof(char*) * (size + 1));

for (size_t i = 0; i < size; i++)

pl[i] = strdup(*Str(propertyList[i]));

pl[size] = 0;

return pl;

}

static void _freePropertyList(char** pl)

{

if (!pl)

return;

for (size_t i = 0; pl[i]; i++)

{

free(pl[i]);

}

free(pl);

}

static void _printPropertyList(const char* const* pl)

{

if (!pl)

return;

for (size_t i = 0; pl[i]; i++)

printf("pl[%s]\n", pl[i]);

}

static int _makeQualifierDecl(

const MetaNameSpace* ns,

const MetaQualifierDecl* mqd,

CIMQualifierDecl& cqd)

{

// Value:

CIMValue cv;

if (_makeValue(cv, mqd->type, mqd->subscript, mqd->value) != 0)

{

printf("T[%u]\n", __LINE__);

return -1;

}

// Scope:

CIMScope scope;

if (mqd->scope & META_SCOPE_CLASS)

scope.addScope(CIMScope::CLASS);

if (mqd->scope & META_SCOPE_ASSOCIATION)

scope.addScope(CIMScope::ASSOCIATION);

if (mqd->scope & META_SCOPE_INDICATION)

scope.addScope(CIMScope::INDICATION);

if (mqd->scope & META_SCOPE_PROPERTY)

scope.addScope(CIMScope::PROPERTY);

if (mqd->scope & META_SCOPE_REFERENCE)

scope.addScope(CIMScope::REFERENCE);

if (mqd->scope & META_SCOPE_METHOD)

scope.addScope(CIMScope::METHOD);

if (mqd->scope & META_SCOPE_PARAMETER);

scope.addScope(CIMScope::PARAMETER);

// Flavor:

CIMFlavor flavor;

if (mqd->flavor & META_FLAVOR_OVERRIDABLE)

flavor.addFlavor(CIMFlavor::OVERRIDABLE);

if (mqd->flavor & META_FLAVOR_TOSUBCLASS)

flavor.addFlavor(CIMFlavor::TOSUBCLASS);

if (mqd->flavor & META_FLAVOR_TOINSTANCE)

flavor.addFlavor(CIMFlavor::TOINSTANCE);

if (mqd->flavor & META_FLAVOR_TRANSLATABLE)

flavor.addFlavor(CIMFlavor::TRANSLATABLE);

if (mqd->flavor & META_FLAVOR_DISABLEOVERRIDE)

flavor.addFlavor(CIMFlavor::DISABLEOVERRIDE);

if (mqd->flavor & META_FLAVOR_RESTRICTED)

flavor.addFlavor(CIMFlavor::RESTRICTED);

// Array size:

Uint32 arraySize;

if (mqd->subscript == -1)

arraySize = 0;

else

arraySize = mqd->subscript;

cqd = CIMQualifierDecl(mqd->name, cv, scope, flavor, arraySize);

return 0;

}

//==============================================================================

// class MetaRepository

//==============================================================================

MetaRepository::MetaRepository()

{

}

MetaRepository::~MetaRepository()

{

}

bool MetaRepository::addNameSpace(const MetaNameSpace* nameSpace)

{

if (_nameSpacesSize == _MAX_NAMESPACES || !nameSpace)

return false;

for (size_t i = 0; i < _nameSpacesSize; i++)

{

if (_eqi(_nameSpaces[i]->name, nameSpace->name))

return false;

}

_nameSpaces[_nameSpacesSize++] = nameSpace;

return true;

}

CIMClass MetaRepository::getClass(

const CIMNamespaceName& nameSpace,

const CIMName& className,

Boolean localOnly,

Boolean includeQualifiers,

Boolean includeClassOrigin,

const CIMPropertyList& propertyList)

{

printf("===== MetaRepository::getClass()\n");

_init();

// Lookup namespace:

const MetaNameSpace* ns = _findNameSpace(*Str(nameSpace));

if (!ns)

_throw(CIM_ERR_INVALID_NAMESPACE, "%s", *Str(nameSpace));

// Lookup class:

const MetaClass* mc = _findClass(ns, *Str(className));

if (!mc)

_throw(CIM_ERR_NOT_FOUND, "unknown class: %s", *Str(className));

// Build property list:

char** pl = _makePropertyList(propertyList);

// Make class:

CIMClass cc;

if (_makeClass(ns, mc, localOnly, includeQualifiers,

includeQualifiers, pl, cc) != 0)

{

_freePropertyList(pl);

_throw(CIM_ERR_FAILED, "conversion failed: %s", mc->name);

}

_freePropertyList(pl);

return cc;

}

Array<CIMClass> MetaRepository::enumerateClasses(

const CIMNamespaceName& nameSpace,

const CIMName& className,

Boolean deepInheritance,

Boolean localOnly,

Boolean includeQualifiers,

Boolean includeClassOrigin)

{

printf("===== MetaRepository::enumerateClasses()\n");

_init();

// Lookup namespace:

const MetaNameSpace* ns = _findNameSpace(*Str(nameSpace));

if (!ns)

_throw(CIM_ERR_INVALID_NAMESPACE, "%s", *Str(nameSpace));

// Lookup class:

const MetaClass* super = 0;

if (!className.isNull())

{

super = _findClass(ns, *Str(className));

if (!super)

_throw(CIM_ERR_NOT_FOUND, "unknown class: %s", *Str(className));

}

// Iterate all classes looking for matches:

Array<CIMClass> result;

for (size_t i = 0; ns->classes[i]; i++)

{

MetaClass* mc = ns->classes[i];

bool flag = false;

if (deepInheritance)

{

if (_isSubClass(super, mc))

flag = true;

}

else

{

if (_isDirectSubClass(super, mc))

flag = true;

}

if (flag)

{

CIMClass cc;

if (_makeClass(ns, mc, localOnly, includeQualifiers,

includeQualifiers, 0, cc) != 0)

{

_throw(CIM_ERR_FAILED, "conversion failed: %s", mc->name);

}

else

result.append(cc);

}

return result;

}

Array<CIMName> MetaRepository::enumerateClassNames(

const CIMNamespaceName& nameSpace,

const CIMName& className,

Boolean deepInheritance)

{

printf("===== MetaRepository::enumerateClassNames()\n");

_init();

// Lookup namespace:

const MetaNameSpace* ns = _findNameSpace(*Str(nameSpace));

if (!ns)

_throw(CIM_ERR_INVALID_NAMESPACE, "%s", *Str(nameSpace));

// Lookup class:

const MetaClass* super = 0;

if (!className.isNull())

{

super = _findClass(ns, *Str(className));

if (!super)

_throw(CIM_ERR_NOT_FOUND, "unknown class: %s", *Str(className));

}

// Iterate all classes looking for matches:

Array<CIMName> result;

for (size_t i = 0; ns->classes[i]; i++)

{

MetaClass* mc = ns->classes[i];

if (deepInheritance)

{

if (_isSubClass(super, mc))

result.append(mc->name);

}

else

{

if (_isDirectSubClass(super, mc))

result.append(mc->name);

}

return result;

}

void MetaRepository::deleteClass(

const CIMNamespaceName& nameSpace,

const CIMName& className)

{

_throw(CIM_ERR_NOT_SUPPORTED, "deleteClass()");

}

void MetaRepository::createClass(

const CIMNamespaceName& nameSpace,

const CIMClass& newClass)

{

_throw(CIM_ERR_NOT_SUPPORTED, "createClass()");

}

void MetaRepository::modifyClass(

const CIMNamespaceName& nameSpace,

const CIMClass& newClass)

{

_throw(CIM_ERR_NOT_SUPPORTED, "modifyClass()");

}

void MetaRepository::getSubClassNames(

const CIMNamespaceName& nameSpace,

const CIMName& className,

Boolean deepInheritance,

Array<CIMName>& subClassNames)

{

printf("===== MetaRepository::getSubClassNames()\n");

_init();

subClassNames = MetaRepository::enumerateClassNames(

nameSpace, className, deepInheritance);

}

void MetaRepository::getSuperClassNames(

const CIMNamespaceName& nameSpace,

const CIMName& className,

Array<CIMName>& superClassNames)

{

printf("===== MetaRepository::getSuperClassNames()\n");

_init();

superClassNames.clear();

// Lookup namespace:

const MetaNameSpace* ns = _findNameSpace(*Str(nameSpace));

if (!ns)

_throw(CIM_ERR_INVALID_NAMESPACE, "%s", *Str(nameSpace));

// Lookup class:

const MetaClass* mc = _findClass(ns, *Str(className));

if (!mc)

_throw(CIM_ERR_NOT_FOUND, "unknown class: %s", *Str(className));

// Append superclass names:

for (const MetaClass* p = mc->super; p; p = p->super)

superClassNames.append(p->name);

}

void MetaRepository::createNameSpace(

const CIMNamespaceName& nameSpace,

const NameSpaceAttributes& attributes)

{

printf("===== MetaRepository::createNameSpace()\n");

_throw(CIM_ERR_NOT_SUPPORTED, "createNameSpace()");

}

void MetaRepository::modifyNameSpace(

const CIMNamespaceName& nameSpace,

const NameSpaceAttributes& attributes)

{

printf("===== MetaRepository::modifyNameSpace()\n");

_throw(CIM_ERR_NOT_SUPPORTED, "modifyNameSpace()");

}

Array<CIMNamespaceName> MetaRepository::enumerateNameSpaces()

{

printf("===== MetaRepository::enumerateNameSpaces()\n");

_init();

Array<CIMNamespaceName> nameSpaces;

for (size_t i = 0; i < _nameSpacesSize; i++)

nameSpaces.append(_nameSpaces[i]->name);

return Array<CIMNamespaceName>();

}

void MetaRepository::deleteNameSpace(

const CIMNamespaceName& nameSpace)

{

printf("===== MetaRepository::deleteNameSpace()\n");

_throw(CIM_ERR_NOT_SUPPORTED, "deleteNameSpace()");

}

Boolean MetaRepository::getNameSpaceAttributes(

const CIMNamespaceName& nameSpace,

NameSpaceAttributes& attributes)

{

printf("===== MetaRepository::getNameSpaceAttributes()\n");

_throw(CIM_ERR_NOT_SUPPORTED, "getNameSpaceAttributes()");

return false;

}

Boolean MetaRepository::isRemoteNameSpace(

const CIMNamespaceName& nameSpace,

String& remoteInfo)

{

printf("===== MetaRepository::isRemoteNameSpace()\n");

return false;

}

CIMQualifierDecl MetaRepository::getQualifier(

const CIMNamespaceName& nameSpace,

const CIMName& qualifierName)

{

printf("===== MetaRepository::getQualifier()\n");

_init();

// Lookup namespace:

const MetaNameSpace* ns = _findNameSpace(*Str(nameSpace));

if (!ns)

_throw(CIM_ERR_INVALID_NAMESPACE, "%s", *Str(nameSpace));

// Lookup qualifier:

const MetaQualifierDecl* mqd = _findQualifierDecl(ns, *Str(qualifierName));

if (!mqd)

_throw(CIM_ERR_NOT_FOUND, "unknown qualifier: %s", *Str(qualifierName));

// Make the qualifier declaration:

CIMQualifierDecl cqd;

if (_makeQualifierDecl(ns, mqd, cqd) != 0)

{

_throw(CIM_ERR_FAILED, "conversion failed: %s", mqd->name);

}

return cqd;

}

void MetaRepository::setQualifier(

const CIMNamespaceName& nameSpace,

const CIMQualifierDecl& qualifierDecl)

{

printf("===== MetaRepository::setQualifier()\n");

_throw(CIM_ERR_NOT_SUPPORTED, "setQualifier()");

}

void MetaRepository::deleteQualifier(

const CIMNamespaceName& nameSpace,

const CIMName& qualifierName)

{

printf("===== MetaRepository::deleteQualifier()\n");

_throw(CIM_ERR_NOT_SUPPORTED, "deleteQualifier()");

}

Array<CIMQualifierDecl> MetaRepository::enumerateQualifiers(

const CIMNamespaceName& nameSpace)

{

printf("===== MetaRepository::enumerateQualifiers()\n");

_init();

// Lookup namespace:

const MetaNameSpace* ns = _findNameSpace(*Str(nameSpace));

if (!ns)

_throw(CIM_ERR_INVALID_NAMESPACE, "%s", *Str(nameSpace));

// Build the array of qualifier declarations:

Array<CIMQualifierDecl> result;

for (size_t i = 0; ns->qualifiers[i]; i++)

{

const MetaQualifierDecl* mqd = ns->qualifiers[i];

CIMQualifierDecl cqd;

if (_makeQualifierDecl(ns, mqd, cqd) != 0)

{

_throw(CIM_ERR_FAILED, "conversion failed: %s", mqd->name);

}

result.append(cqd);

}

return result;

}

PEGASUS_NAMESPACE_END

Legend:

Removed from v.1.1
changed lines
	Added in v.1.1.2.4

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