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/* IBM_PROLOG_BEGIN_TAG                                                   */
/* This is an automatically generated prolog.                             */
/*                                                                        */
/* $Source: src/usr/targeting/common/test/testcommontargeting.H $         */
/*                                                                        */
/* OpenPOWER HostBoot Project                                             */
/*                                                                        */
/* COPYRIGHT International Business Machines Corp. 2011,2014              */
/*                                                                        */
/* Licensed under the Apache License, Version 2.0 (the "License");        */
/* you may not use this file except in compliance with the License.       */
/* You may obtain a copy of the License at                                */
/*                                                                        */
/*     http://www.apache.org/licenses/LICENSE-2.0                         */
/*                                                                        */
/* Unless required by applicable law or agreed to in writing, software    */
/* distributed under the License is distributed on an "AS IS" BASIS,      */
/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or        */
/* implied. See the License for the specific language governing           */
/* permissions and limitations under the License.                         */
/*                                                                        */
/* IBM_PROLOG_END_TAG                                                     */
#ifndef __TARGETING_COMMON_TESTCOMMONTARGETING_H
#define __TARGETING_COMMON_TESTCOMMONTARGETING_H

/**
 *  @file targeting/common/test/testtargeting.H
 *
 *  @brief All common unit tests for the targeting infrastructure
 */

//******************************************************************************
// Includes
//******************************************************************************

// STD
#include <stdio.h>
#include <sys/time.h>

// CXXTEST
#include <hwpf/plat/fapiPlatAttributeService.H>
#include <fapiReturnCode.H>
#include <fapiAttributeIds.H>
#include <fapiAttributeService.H>
#include <targeting/common/error.H>

// This component
#include <targeting/common/commontargeting.H>
#include <targeting/common/trace.H>
#include "unittest.H"

namespace TARGETING {
extern void dumpAllAttributes(TARG_TD_t,uint32_t);
extern TARG_TD_t g_trac_targeting;
};

class CommonTargetingTestSuite: public CxxTest::TestSuite
{
  public:
      /**
       *  @brief Test a portion of the debug code wich
       *  prints out the entity path types
       */
      void testEntityPathElementTypeAsString()
      {
#ifndef CONTEXT_x86_nfp
          // test_ep.H is generated by xmltohb.pl
          #include <test_ep.H>
#endif
      }
      /**
       *  @brief Test the TargetService class (except debug cases)
     */
    void testTargetServiceClass()
    {
        //@fixme - found a Data Storage Exception that needs to be fixed (Task
        // RTC 35625)
        return;

        TARG_TS_TRACE(ENTER_MRK "testTargetServiceClass" );

        using namespace TARGETING;

        TargetService& l_targetService = targetService();

        l_targetService.init();

        // Post init
        // Test: void masterProcChipTarget(
        //          TargetHandleList& o_masterProcChipTarget) const;

        Target* l_pMasterProcChipTargetHandle = NULL;
        (void) l_targetService.masterProcChipTargetHandle(
            l_pMasterProcChipTargetHandle);

        if (   l_pMasterProcChipTargetHandle
               == MASTER_PROCESSOR_CHIP_TARGET_SENTINEL)
        {
            TARG_TS_FAIL("Post init; master proc chip target handle should not "
                    "be the sentinel value");
        }

        if (l_pMasterProcChipTargetHandle == NULL)
        {
            TARG_TS_FAIL("Post init; master proc chip target handle should not "
                    "be the NULL value");
        }

        ScomSwitches l_switches = {0};
        l_switches =
          l_pMasterProcChipTargetHandle->getAttr<ATTR_SCOM_SWITCHES>();
        if(   l_switches.useFsiScom != 0
              || l_switches.useXscom != 1
              || l_switches.useInbandScom != 0
              || l_switches.reserved != 0)
        {
            TARG_TS_FAIL("SCOM Switches stuct was not correct (%d, %d, %d, %d)",
                    l_switches.useFsiScom, l_switches.useXscom,
                    l_switches.useInbandScom ,
                    l_switches.reserved);
        }

        if (   l_pMasterProcChipTargetHandle->getAttr<ATTR_CLASS> ()
               != CLASS_CHIP)
        {
            TARG_TS_FAIL("Post init; master proc chip target handle was not of "
                    "chip class");
        }

        if (   l_pMasterProcChipTargetHandle->getAttr<ATTR_TYPE> ()
               != TYPE_PROC)
        {
            TARG_TS_FAIL("Post init; master proc chip target handle was not of "
                    "proc type");
        }

        // Post init
        // Test: void getTopLevelTarget(Target*& o_targetHandle) const;

        Target* l_pTopLevel = NULL;
        (void) l_targetService.getTopLevelTarget(l_pTopLevel);
        if (l_pTopLevel == NULL)
        {
            TARG_TS_FAIL("Top level handle was NULL when initialization "
                    "complete");
        }

        if (l_pTopLevel->getAttr<ATTR_CLASS> () != CLASS_SYS)
        {
            TARG_TS_FAIL("Post init; top level target class != CLASS_SYS");
        }

        // Post init
        // Test: void exists(
        //           const EntityPath& i_entityPath,
        //               bool&       o_exists) const;
        bool l_exists = false;
        (void) l_targetService.exists(
                                      l_pTopLevel->getAttr<ATTR_PHYS_PATH> (), l_exists);

        if (l_exists != true)
        {
            TARG_TS_FAIL("Expected top level target to exist");
        }

        // Post init
        // Test: Target* toTarget(
        //     const EntityPath& i_entityPath) const;

        Target* l_pInverseTarget = NULL;
        l_pInverseTarget = l_targetService.toTarget(
                                                    l_pTopLevel->getAttr<ATTR_PHYS_PATH> ());

        if (l_pInverseTarget != l_pTopLevel)
        {
            TARG_TS_FAIL("Expected to get the original target");
        }

        // Post init
        // Tested API: Target* toTarget(
        //     const EntityPath& i_entityPath) const;
        // Behavior: Given an arbitrary target, I should be able to take its
        //     affinity path and convert it to the original target
        PredicateCTM mbaPredicate(CLASS_UNIT,TYPE_MBA);
        TargetRangeFilter mbaFilter(
            targetService().begin(),
            targetService().end(),
            &mbaPredicate);
        for(;mbaFilter;++mbaFilter)
        {
            Target* pCandidate = l_targetService.toTarget(
                mbaFilter->getAttr<ATTR_AFFINITY_PATH>());
            if (pCandidate != *mbaFilter)
            {
                TARG_TS_FAIL("Failed to convert MBA target's affinity path "
                             "back to original target");
            }
            break;
        }

        // Post init
        // Test: void getAssociated(
        // const Target*           i_pTarget,
        //      ASSOCIATION_TYPE  i_type,
        //      RECURSION_LEVEL   i_recursionLevel,
        //      TargetHandleList& o_list) const;

        TargetHandleList l_list;
        (void) l_targetService.getAssociated(
                                             l_list,
                                             l_pTopLevel,
                                             TARGETING::TargetService::CHILD,
                                             TARGETING::TargetService::IMMEDIATE);
        if (!l_list.size())
        {
            TARG_TS_FAIL("Should have found some child elements" );
        }

        // Verify child of given target has a parent that is the original
        // target

        TargetHandleList l_parentList;
        (void) l_targetService.getAssociated(
                                             l_parentList,
                                             l_list[0],
                                             TARGETING::TargetService::PARENT,
                                             TARGETING::TargetService::IMMEDIATE);

        if (l_parentList.size() != 1)
        {
            TARG_TS_FAIL("Should have found a parent element" );
        }

        if (l_parentList[0] != l_pTopLevel)
        {
            TARG_TS_FAIL("Parent handle should have matched original target "
                    "handle" );
        }

        (void) l_targetService.getAssociated(
                                             l_list,
                                             l_pTopLevel,
                                             TARGETING::TargetService::CHILD_BY_AFFINITY,
                                             TARGETING::TargetService::IMMEDIATE);

        if (!l_list.size())
        {
            TARG_TS_FAIL("Should have found some child elements" );
        }

        (void) l_targetService.getAssociated(
                                             l_list,
                                             l_pTopLevel,
                                             TARGETING::TargetService::CHILD_BY_AFFINITY,
                                             TARGETING::TargetService::ALL);

        if (!l_list.size())
        {
            TARG_TS_FAIL("Should have found more child elements" );
        }

        l_targetService.dump();

        TARG_TS_TRACE(EXIT_MRK "testTargetServiceClass" );
    }

    /**
     *  @test Tests the EntityPath class (except debug cases)
     */
    void testEntityPathClass(void)
    {
        TARG_TS_TRACE(ENTER_MRK "testEntityPathClass" );

        using namespace TARGETING;

        EntityPath l_defaultPath;
        if(l_defaultPath.size() != 0)
        {
            TARG_TS_FAIL("Default entity path's size was not 0");
        }

        if(l_defaultPath.type() != EntityPath::PATH_NA)
        {
            TARG_TS_FAIL("Default entity path's type was not PATH_NA");
        }

        EntityPath l_nonDefaultPath(EntityPath::PATH_PHYSICAL);
        if(l_nonDefaultPath.size() != 0)
        {
            TARG_TS_FAIL("Non-default entity path's size was not 0");
        }

        if(l_nonDefaultPath.type() != EntityPath::PATH_PHYSICAL)
        {
            TARG_TS_FAIL("Non-default entity path's type was not "
                    "EntityPath::PATH_PHYSICAL");
        }

        l_defaultPath.setType(EntityPath::PATH_AFFINITY);
        if(l_defaultPath.type() != EntityPath::PATH_AFFINITY)
        {
            TARG_TS_FAIL("Default entity path's type was not "
                    "EntityPath::PATH_AFFINITY after setting");
        }

        l_defaultPath.setType(EntityPath::PATH_PHYSICAL);
        if(!(l_defaultPath == l_nonDefaultPath))
        {
            TARG_TS_FAIL("Default entity path should have been equal to "
                    "the non-default entity path");
        }

        if(!l_defaultPath.equals(l_nonDefaultPath,0))
        {
            TARG_TS_FAIL("Default entity path should have been equal to "
                    "the non-default entity path (equals API)");
        }

        l_defaultPath.addLast(TYPE_PROC,0);
        if(l_defaultPath == l_nonDefaultPath)
        {
            TARG_TS_FAIL("Default entity path should NOT have been equal to "
                    "the non-default entity path");
        }

        if(l_defaultPath.equals(l_nonDefaultPath,1))
        {
            TARG_TS_FAIL("Default entity path should NOT have been equal to "
                    "the non-default entity path (equals API, comparing 1 "
                    "element)");
        }

        if(l_defaultPath.size() != 1)
        {
            TARG_TS_FAIL("Default entity path should have had one path element"
                    "after adding PROC0");
        }

        l_nonDefaultPath.addLast(TYPE_PROC,0);
        if(! (l_defaultPath == l_nonDefaultPath) )
        {
            TARG_TS_FAIL("Default entity path should have been equal to "
                    "the non-default entity path since they now"
                    "both have the same 1 path element");
        }

        l_defaultPath.addLast(TYPE_MBA,1).addLast(TYPE_L4,2);
        if(l_defaultPath.size() != 3)
        {
            TARG_TS_FAIL("Default entity path should have had two path elements"
                    "after adding MBA1 and L4");
        }

        if( (l_defaultPath[0].type != TYPE_PROC)
            || (l_defaultPath[0].instance != 0)
            || (l_defaultPath[1].type != TYPE_MBA)
            || (l_defaultPath[1].instance != 1)
            || (l_defaultPath[2].type != TYPE_L4)
            || (l_defaultPath[2].instance != 2))
        {
            TARG_TS_FAIL("Default entity path should have had correct 3 path "
                    "elements");
        }

        l_defaultPath.removeLast();
        if(l_defaultPath.size() != 2)
        {
            TARG_TS_FAIL("Default entity path should have had two path elements"
                    "after removing L4");
        }

        if( (l_defaultPath[0].type != TYPE_PROC)
            || (l_defaultPath[0].instance != 0)
            || (l_defaultPath[1].type != TYPE_MBA)
            || (l_defaultPath[1].instance != 1))
        {
            TARG_TS_FAIL("Default entity path should have had correct 2 path "
                    "elements");
        }


        l_nonDefaultPath.addLast(TYPE_MBA,1).addLast(TYPE_L4,2);

        // Default now has proc/mba/
        // Non-default now has proc/mba/l4
        if(l_defaultPath == l_nonDefaultPath)
        {
            TARG_TS_FAIL("Default entity path should NOT have been equal to "
                    "the non-default entity path since they now"
                    "have different number of path elements");
        }

        if( !l_defaultPath.equals(l_nonDefaultPath,2) )
        {
            TARG_TS_FAIL("Default entity path should have been equal to "
                    "the non-default entity path since they have the same"
                    "first two path elements");
        }

        l_defaultPath.removeLast().removeLast();
        if(l_defaultPath.size() != 0)
        {
            TARG_TS_FAIL("Default entity path should have had no path element"
                    "after removing MBA1 and PROC0");
        }

        TargetService& l_targetService = targetService();
        l_targetService.init();

        EntityPath l_realPath(EntityPath::PATH_PHYSICAL);
        l_realPath.addLast(TYPE_SYS,0).addLast(TYPE_NODE,0)
          .addLast(TYPE_PROC,0);

        Target* l_pTarget = l_realPath.operator->();
        if(l_pTarget == NULL)
        {
            TARG_TS_FAIL("Real entity path should have mapped to an existing "
                    "target");
        }

        EntityPath l_path(EntityPath::PATH_PHYSICAL);
        l_path.addLast(TYPE_SYS,0);
        EntityPath l_changedPath = l_path.copyRemoveLast();
        if(   (l_changedPath.size() != 0)
              || (l_path.size() != 1))
        {
            TARG_TS_FAIL("Const entity path should not have been altered in "
                    "const add test");
        }

        l_changedPath = l_path.copyAddLast(TYPE_NODE,0);
        if(   (l_changedPath.size() != 2)
              || (l_path.size() != 1))
        {
            TARG_TS_FAIL("Const entity path should not have been altered "
                    "in const add test");
        }

        TARG_TS_TRACE(EXIT_MRK "testEntityPathClass" );
    }

    /**
     *  @test Tests the EntityPath class (except debug cases)
     */
    void testTargetClass(void)
    {


        TARG_TS_TRACE(ENTER_MRK "testTargetClass" );

        using namespace TARGETING;
        TargetService& l_targetService = targetService();
        l_targetService.init();

        EntityPath l_realPath(EntityPath::PATH_PHYSICAL);
        l_realPath.addLast(TYPE_SYS,0).addLast(TYPE_NODE,0)
          .addLast(TYPE_PROC,0);
        l_realPath.dump();

        Target* l_pTarget = l_realPath.operator->();
        if(l_pTarget == NULL)
        {
            TARG_TS_FAIL("Failed to convert entity path to initial target");
        }

        CLASS l_class = l_pTarget->getAttr<ATTR_CLASS>();
        if(l_class != CLASS_CHIP)
        {
            TARG_TS_FAIL("Failed to get the class attribute");
        }

        l_class = CLASS_NA;
        if( !l_pTarget->tryGetAttr<ATTR_CLASS>(l_class) )
        {
            TARG_TS_FAIL("Failed to get the class attribute");
        }

        if(l_class != CLASS_CHIP)
        {
            TARG_TS_FAIL("Failed to try/get the class attribute");
        }

        attrToString<ATTR_CLASS>(l_class);

        uint8_t l_scom = 0;
        if( l_pTarget->tryGetAttr<ATTR_DUMMY_RO>(l_scom) )
        {
            TARG_TS_FAIL("ATTR_DUMMY_RO attribute should not have been available "
                    "to read");
        }

        if(l_scom != 0)
        {
            TARG_TS_FAIL("Failed ! try/get should not have set the SCOM attribute");
        }

        l_scom = 5;
        if( l_pTarget->trySetAttr<ATTR_DUMMY_WO>(l_scom) )
        {
            TARG_TS_FAIL("ATTR_DUMMY_WO attribute should not have been available "
                    "to write");
        }

        if(l_scom != 5)
        {
            TARG_TS_FAIL("SCOM attribute should not have been altered in the "
                    "failed write");
        }

        DUMMY_RW_ATTR l_wo;
        memset(l_wo,0x00,sizeof(l_wo));
        l_wo[0][1][2] = 6;
        if( !l_pTarget->trySetAttr<ATTR_DUMMY_RW>(l_wo) )
        {
            TARG_TS_FAIL("ATTR_DUMMY_RW should have been available for write");
        }

        if(l_wo[0][1][2] != 6)
        {
            TARG_TS_FAIL("ATTR_DUMMY_RW local attribute should not have been "
                    "altered in the successful write");
        }

        DUMMY_RW_ATTR l_read;
        l_pTarget->tryGetAttr<ATTR_DUMMY_RW>(l_read);
        if(memcmp(l_read,l_wo,sizeof(l_read)))
        {
            TARG_TS_FAIL("Failed to read back the correct ATTR_DUMMY_RW");
        }

        DUMMY_RW_ATTR l_setWo;
        memset(l_setWo,0x00,sizeof(l_setWo));
        l_setWo[0][2][4] = 9;
        l_pTarget->setAttr<ATTR_DUMMY_RW>(l_setWo);
        if(l_setWo[0][2][4] != 9)
        {
            TARG_TS_FAIL("ATTR_DUMMY_RW local attribute should not have been "
                    "altered in the successful setAttr");
        }

        DUMMY_RW_ATTR l_setWoVerify;
        l_pTarget->tryGetAttr<ATTR_DUMMY_RW>(l_setWoVerify);
        if(memcmp(l_setWoVerify,l_setWo,sizeof(l_setWoVerify)))
        {
            TARG_TS_FAIL("ATTR_DUMMY_RW read should have matched prior write");
        }

        memset(l_setWo,0x05,sizeof(l_setWo));
        l_pTarget->setAttr<ATTR_DUMMY_RW>(l_setWo);

        TARG_TS_TRACE(EXIT_MRK "testTargetClass" );
    }

    void testPredicateHwas()
    {

        TARG_TS_TRACE(ENTER_MRK "testPredicateHwas" );

        do {

        using namespace TARGETING;
        TargetService& l_targetService = targetService();

        // Get top level (system) target
        Target* l_pTopLevel = NULL;
        (void) l_targetService.getTopLevelTarget(l_pTopLevel);
        if (l_pTopLevel == NULL)
        {
            TARG_TS_FAIL("Top level handle was NULL when initialization "
                    "complete");
            break;
        }

        PredicateHwas hwasPredicate;

        ATTR_HWAS_STATE_type savedHwasState
            = l_pTopLevel->getAttr<ATTR_HWAS_STATE>();

        // Test: Given a target with any HWAS state, default HWAS predicate
        //     should return a match
        for(size_t i=0; i<32; ++i)
        {
            ATTR_HWAS_STATE_type sweepHwasState
                = { static_cast<uint8_t>(i&8),
                    static_cast<uint8_t>(i&4),
                    static_cast<uint8_t>(i&2),
                    static_cast<uint8_t>(i&1) };
            l_pTopLevel->setAttr<ATTR_HWAS_STATE>(sweepHwasState);

            if(!hwasPredicate(l_pTopLevel))
            {
                TARG_TS_FAIL("Expected default HWAS predicate to match the "
                    "target's HWAS state, using i = %d",i);
            }
        }

        // Test: Given a target with cleared HWAS state of functional, predicate
        //    looking for functional should return false
        hwasPredicate.reset().functional(true);
        ATTR_HWAS_STATE_type nonFunctionalHwasState = {0};
        l_pTopLevel->setAttr<ATTR_HWAS_STATE>(nonFunctionalHwasState);
        if(hwasPredicate(l_pTopLevel))
        {
            TARG_TS_FAIL("Expected HWAS functional predicate not to match the "
                "target's cleared HWAS state");
        }

        // Test: Having previously not matched a target, resetting the HWAS
        //     predicate should match the target again
        hwasPredicate.reset();
        if(!hwasPredicate(l_pTopLevel))
        {
            TARG_TS_FAIL("Expected HWAS reset predicate to match the "
                "target's functional HWAS state");
        }

        // Test: Given a target with HWAS state of functional, predicate
        //    looking for functional should return true
        hwasPredicate.reset().functional(true);
        ATTR_HWAS_STATE_type functionalHwasState = {0};
        functionalHwasState.functional = true;
        l_pTopLevel->setAttr<ATTR_HWAS_STATE>(functionalHwasState);
        if(!hwasPredicate(l_pTopLevel))
        {
            TARG_TS_FAIL("Expected HWAS functional predicate to match the "
                "target's functional HWAS state");
        }

        // Test: Given a target with HWAS state of non-functional, predicate
        //    looking for non-functional should return true
        hwasPredicate.reset().functional(false);
        l_pTopLevel->setAttr<ATTR_HWAS_STATE>(nonFunctionalHwasState);
        if(!hwasPredicate(l_pTopLevel))
        {
            TARG_TS_FAIL("Expected HWAS non-functional predicate to match the "
                "target's non-functional HWAS state");
        }

        // Test: Given a predicate looking for target whose HWAS state
        //     exactly matches all configurable HWAS states, filter should
        //     return true
        hwasPredicate.reset().poweredOn(true).present(true).functional(false);
        hwasPredicate.dumpFunctional(false);

        ATTR_HWAS_STATE_type allHwasState = {0, true,true,false,false};
        l_pTopLevel->setAttr<ATTR_HWAS_STATE>(allHwasState);
        if(!hwasPredicate(l_pTopLevel))
        {
            TARG_TS_FAIL("Expected setting HWAS predicate to match the "
                "target's similarly configured HWAS state");
        }

        // Test: Given a predicate looking for target whose HWAS state
        //     exactly matches all but 1 configurable HWAS states, filter
        //     should return false
        allHwasState.dumpfunctional = true;
        l_pTopLevel->setAttr<ATTR_HWAS_STATE>(allHwasState);
        if(hwasPredicate(l_pTopLevel))
        {
            TARG_TS_FAIL("Expected HWAS predicate not to match the target's "
                "all-but-1 matching HWAS state configuration");
        }

        // Restore state.
        l_pTopLevel->setAttr<ATTR_HWAS_STATE>(savedHwasState);

        } while(0);

        TARG_TS_TRACE(EXIT_MRK "testPredicateHwas" );
    }

    void testPredicateHwasChanged()
    {
        TARG_TS_TRACE(ENTER_MRK "testPredicateHwasChanged" );

        do {

        using namespace TARGETING;
        TargetService& l_targetService = targetService();

        // Get master proc chip to work with
        Target* l_pTarget = NULL;
        (void) l_targetService.masterProcChipTargetHandle(l_pTarget);
        if (l_pTarget == NULL)
        {
            TARG_TS_FAIL("MasterProcChipTarget handle was NULL");
            break;
        }

        PredicateHwasChanged hwasChangedPredicate;

        ATTR_HWAS_STATE_CHANGED_FLAG_type savedHwasChangedState =
            l_pTarget->getAttr<ATTR_HWAS_STATE_CHANGED_FLAG>();

        // Test: Given a target with any HWAS state, default HWAS predicate
        //     should return a match
        for(size_t i=0; i<32; ++i)
        {
            ATTR_HWAS_STATE_CHANGED_FLAG_type sweepState
                = { static_cast<uint8_t>(i&1) };
            l_pTarget->setAttr<ATTR_HWAS_STATE_CHANGED_FLAG>(sweepState);

            if(!hwasChangedPredicate(l_pTarget))
            {
                TARG_TS_FAIL("Expected default HWAS predicate to match the "
                    "target's HWAS state, using i = %d",i);
            }
        }

        // Test: Given a target with cleared HWAS GARD bit, predicate
        //    looking for GARD bit should return false
        hwasChangedPredicate.reset().changedBit(HWAS_CHANGED_BIT_GARD, true);
        ATTR_HWAS_STATE_CHANGED_FLAG_type noGardHwasChangedBit = 0;
        l_pTarget->setAttr<ATTR_HWAS_STATE_CHANGED_FLAG>(noGardHwasChangedBit);
        if(hwasChangedPredicate(l_pTarget))
        {
            TARG_TS_FAIL("Expected HWAS predicate not to match the "
                "target's cleared HWAS GARD bit");
        }

        // Test: Having previously not matched a target, resetting the HWAS
        //     predicate should match the target again
        hwasChangedPredicate.reset();
        if(!hwasChangedPredicate(l_pTarget))
        {
            TARG_TS_FAIL("Expected HWAS reset predicate to match the "
                "target's HWAS state");
        }

        // Test: Given a target with set HWAS GARD bit, predicate
        //    looking for GARD bit should return true
        hwasChangedPredicate.reset().changedBit(HWAS_CHANGED_BIT_GARD, true);
        //ATTR_HWAS_STATE_CHANGED_FLAG_type functionalHwasChangedState =
        //HWAS_CHANGED_BIT_GARD;
        l_pTarget->setAttr<ATTR_HWAS_STATE_CHANGED_FLAG>(HWAS_CHANGED_BIT_GARD);
        if(!hwasChangedPredicate(l_pTarget))
        {
            TARG_TS_FAIL("Expected HWAS GARD bit predicate to match the "
                "target's GARD bit HWAS state");
        }

        // Test: Given a target with cleared HWAS GARD bit, predicate
        //    looking for cleared GARD bit should return true
        hwasChangedPredicate.reset().changedBit(HWAS_CHANGED_BIT_GARD, false);
        l_pTarget->setAttr<ATTR_HWAS_STATE_CHANGED_FLAG>(0);
        if(!hwasChangedPredicate(l_pTarget))
        {
            TARG_TS_FAIL("Expected HWAS cleared GARD bit predicate to match "
                "the target's cleared GARD bit HWAS state");
        }

        // Test: Given a target with all cleared HWAS bits, predicate
        //    looking for all false should return true
        hwasChangedPredicate.reset().allChangesApplied(false);
        l_pTarget->setAttr<ATTR_HWAS_STATE_CHANGED_FLAG>(0);
        if(!hwasChangedPredicate(l_pTarget))
        {
            TARG_TS_FAIL("Expected HWAS all cleared predicate to match the "
                "target's all cleared HWAS state");
        }

        // Test: Given a target with all set HWAS bits, predicate
        //    looking for all set should return true
        hwasChangedPredicate.reset().allChangesApplied(true);
        l_pTarget->setAttr<ATTR_HWAS_STATE_CHANGED_FLAG>
            (l_pTarget->getAttr<ATTR_HWAS_STATE_CHANGED_SUBSCRIPTION_MASK>());
        if(!hwasChangedPredicate(l_pTarget))
        {
            TARG_TS_FAIL("Expected HWAS all set predicate to match the "
                "target's all set HWAS state");
        }

        // Restore state.
        l_pTarget->setAttr<ATTR_HWAS_STATE_CHANGED_FLAG>
                (savedHwasChangedState);

        } while(0);

        TARG_TS_TRACE(EXIT_MRK "testPredicateHwasChanged" );
    }

    void testPredicateCtm()
    {

        TARG_TS_TRACE(ENTER_MRK "testPredicateCtm" );

        using namespace TARGETING;
        TargetService& l_targetService = targetService();

        // Get top level (system) target
        Target* l_pTopLevel = NULL;
        (void) l_targetService.getTopLevelTarget(l_pTopLevel);
        if (l_pTopLevel == NULL)
        {
            TARG_TS_FAIL("Top level handle was NULL when initialization "
                    "complete");
        }

        PredicateCTM l_allWild;
        if( ! l_allWild(l_pTopLevel) )
        {
            TARG_TS_FAIL("CTM all wildcards filter should have matched system "
                    "target");
        }

        PredicateCTM l_typeModelWild(CLASS_SYS);
        if( ! l_typeModelWild(l_pTopLevel) )
        {
            TARG_TS_FAIL("CTM class sys, remaining wildcards filter should have "
                    "matched system ");
        }

        PredicateCTM l_modelWild(CLASS_SYS,TYPE_SYS);
        if( ! l_modelWild(l_pTopLevel) )
        {
            TARG_TS_FAIL("CTM class sys, type sys, remaining wildcards filter "
                    "should have matched system ");
        }

        PredicateCTM l_noWild(CLASS_SYS,TYPE_SYS,MODEL_POWER8);
        if( ! l_noWild(l_pTopLevel) )
        {
            TARG_TS_FAIL("CTM class sys, type sys, model power8 should have "
                    "matched system ");
        }

        PredicateCTM l_classWild(CLASS_NA,TYPE_SYS,MODEL_POWER8);
        if( ! l_classWild(l_pTopLevel) )
        {
            TARG_TS_FAIL("CTM class wild, type sys, model power8 should have "
                    "matched system ");
        }

        PredicateCTM l_typeWild(CLASS_SYS,TYPE_NA,MODEL_POWER8);
        if( ! l_typeWild(l_pTopLevel) )
        {
            TARG_TS_FAIL("CTM class sys, wild, model power8 should have "
                    "matched system ");
        }

        PredicateCTM l_classModelWild(CLASS_NA,TYPE_SYS,MODEL_NA);
        if( ! l_classModelWild(l_pTopLevel) )
        {
            TARG_TS_FAIL("CTM wild, type sys, wild should have "
                    "matched system ");
        }

        PredicateCTM l_classTypeWild(CLASS_NA,TYPE_NA,MODEL_NA);
        if( ! l_classTypeWild(l_pTopLevel) )
        {
            TARG_TS_FAIL("CTM wild, wild, model should have "
                    "matched system ");
        }

        PredicateCTM l_chipClass(CLASS_CHIP,TYPE_NA,MODEL_NA);
        if(  l_chipClass(l_pTopLevel) )
        {
            TARG_TS_FAIL("CTM of class chip, wild, wild should not have matched "
                    "matched system ");
        }

#if 0 // Prove copy CTOR/assignment operator is disabled
        PredicateCTM l_ctmLhs;
        PredicateCTM l_ctmRhs;

        l_ctmLhs = l_ctmRhs;

        PredicateCTM l_ctmCtor(l_ctmRhs);
#endif

        PredicateBase* l_pBase = new PredicateCTM(CLASS_SYS);
        delete l_pBase;
        l_pBase = NULL;

        TARG_TS_TRACE(EXIT_MRK "testPredicateCtm" );
    }

    void testPredicatePostfixExpr()
    {

        TARG_TS_TRACE(ENTER_MRK "testPredicatePostfixExpr" );

        using namespace TARGETING;
        TargetService& l_targetService = targetService();

        // Get top level (system) target
        Target* l_pTopLevel = NULL;
        (void) l_targetService.getTopLevelTarget(l_pTopLevel);
        if (l_pTopLevel == NULL)
        {
            TARG_TS_FAIL("Top level handle was NULL when initialization "
                    "complete");
        }

        PredicatePostfixExpr l_alwaysTrueExpr;
        if(!l_alwaysTrueExpr(l_pTopLevel) )
        {
            TARG_TS_FAIL("Always true filter should have matched system");
        }

#if 0
        // Triggers NULL assertion check on push
        l_alwaysTrueExpr.push(NULL);
#endif

#if 0
        // Triggers not enough stack elements assertion when evaluating Not
        l_alwaysTrueExpr.Not();
        if(l_alwaysTrueExpr(l_pTopLevel) )
        {
            TARG_TS_FAIL("Negated always true filter should not have matched "
                    "system");
        }
#endif

#if 0
        // Triggers illegal target assertion
        l_alwaysTrueExpr(NULL);
#endif

#if 0
        // Triggers formatting assertion
        l_alwaysTrueExpr.And();
        l_alwaysTrueExpr(l_pTopLevel);
#endif

#if 0
        // Triggers formatting assertion
        l_alwaysTrueExpr.Or();
        l_alwaysTrueExpr(l_pTopLevel);
#endif

        PredicateCTM l_sysClass(CLASS_SYS);

#if 0
        // Triggers formatting assertion
        l_alwaysTrueExpr.push(&l_sysClass);
        l_alwaysTrueExpr.And();
        l_alwaysTrueExpr(l_pTopLevel);
#endif

#if 0
        // Triggers formatting assertion
        l_alwaysTrueExpr.push(&l_sysClass);
        l_alwaysTrueExpr.Or();
        l_alwaysTrueExpr(l_pTopLevel);
#endif

#if 0
        // Triggers illegal formatting exception
        // != 1 results on stack
        l_alwaysTrueExpr.push(&l_sysClass);
        l_alwaysTrueExpr.push(&l_sysClass);
        l_alwaysTrueExpr.Not();
        l_alwaysTrueExpr(l_pTopLevel);
#endif

        PredicateCTM l_sysType(CLASS_NA,TYPE_SYS);
        PredicateCTM l_power8Model(CLASS_NA,TYPE_NA,MODEL_POWER8);
        PredicatePostfixExpr l_expr;
        l_expr.push(&l_sysClass).push(&l_sysType).And();
        l_expr.push(&l_power8Model).And();

        if(!l_expr(l_pTopLevel) )
        {
            TARG_TS_FAIL("CTM of class sys && type sys && model power8 should "
                    "have matched system");
        }

        l_expr.Not();

        if(l_expr(l_pTopLevel) )
        {
            TARG_TS_FAIL("CTM of class sys && type sys && model power8 should "
                    "npt have matched system after negation");
        }

        l_expr.push(&l_sysClass);
        l_expr.Or();

        if(!l_expr(l_pTopLevel) )
        {
            TARG_TS_FAIL("CTM of class sys && type sys && model power8 should "
                    "have matched system after negation then || sys class");
        }

        PredicatePostfixExpr* l_pExpr = new PredicatePostfixExpr;
        l_pExpr->push(&l_sysClass).push(&l_sysType).And();
        l_pExpr->push(&l_power8Model).And();
        delete (static_cast<PredicateBase*>(l_pExpr));

#if 0
        PredicatePostfixExpr l_lhs;
        PredicatePostfixExpr l_rhs;

        l_lhs = l_rhs;

        PredicatePostfixExpr l_cpCtor(l_rhs);
#endif

        TARG_TS_TRACE(EXIT_MRK "testPredicatePostfixExpr" );
    }

    void testTargetIterator()
    {
        TARG_TS_TRACE(ENTER_MRK "testTargetIterator");

        using namespace TARGETING;
        TargetService& l_targetService = targetService();


        TargetIterator l_pIt;
        if( l_pIt != l_targetService.end() )
        {
            TARG_TS_FAIL("Default TargetIterator should point to past the end "
                    "of container");
        }

        ++l_pIt;
        if( l_pIt != l_targetService.end() )
        {
            TARG_TS_FAIL("Default TargetIterator preincremented should point to "
                    "past the end of container");
        }

        TargetIterator* l_pItNew = new TargetIterator;
        delete l_pItNew;
        l_pItNew = NULL;

        if(*l_pIt != NULL)
        {
            TARG_TS_FAIL("Default TargetIterator dereference should return NULL");
        }

        // Get top level (system) target to verify at least 1 target
        Target* l_pTopLevel = NULL;
        (void) l_targetService.getTopLevelTarget(l_pTopLevel);
        if (l_pTopLevel == NULL)
        {
            TARG_TS_FAIL("Top level handle was NULL when initialization "
                    "complete");
        }

        l_pIt = l_targetService.begin();
        if((*l_pIt) == NULL)
        {
            TARG_TS_FAIL("TargetService begin() should return !NULL");
        }

        CLASS l_class = CLASS_NA;
        if( !l_pIt->tryGetAttr<ATTR_CLASS>(l_class) )
        {
            TARG_TS_FAIL("Failed to get expected class attribute");
        }

        TargetIterator l_rhs = l_targetService.begin();
        if( ! (l_pIt == l_rhs) )
        {
            TARG_TS_FAIL("Iterators should be equal, but aren't");
        }

        l_rhs = l_targetService.begin();
        if( l_pIt != l_rhs )
        {
            TARG_TS_FAIL("Iterators should be equal, but aren't");
        }

        TargetIterator l_rhs2 = l_targetService.begin();
        ++l_rhs2;
        ++l_pIt;
        if( l_pIt != l_rhs2 )
        {
            TARG_TS_FAIL("Iterators should be equal, but aren't");
        }

        l_rhs2++;
        l_pIt++;
        if( l_pIt != l_rhs2 )
        {
            TARG_TS_FAIL("Iterators should be equal, but aren't");
        }

        TargetIterator l_pItClone(l_rhs2);
        if( l_pIt != l_pItClone)
        {
            TARG_TS_FAIL("Iterators should be equal, but aren't");
        }

        if(l_pIt != l_pItClone++)
        {
            TARG_TS_FAIL("Iterators should be equal, but aren't");
        }

        if( (++l_pIt) != l_pItClone)
        {
            TARG_TS_FAIL("Iterators should be equal, but aren't");
        }

        const TargetService& l_constTargetService = targetService();

        ConstTargetIterator l_pConstIt;
        if( l_pConstIt != l_constTargetService.end() )
        {
            TARG_TS_FAIL("Default ConstTargetIterator should point to past the "
                    "end of container");
        }

        l_pConstIt = l_constTargetService.begin();
        if( (*l_pConstIt) == NULL)
        {
            TARG_TS_FAIL("Iterator does not point to valid Target as expected");
        }

        TARG_TS_TRACE(EXIT_MRK "testTargetIterator" );
    }

    void testRangeFilter(void)
    {

        TARG_TS_TRACE(ENTER_MRK "testRangeFilters" );

        using namespace TARGETING;

        TargetRangeFilter* l_pRangeFilter = new TargetRangeFilter(
                                                                  targetService().begin(),
                                                                  targetService().end(),
                                                                  NULL);
        delete l_pRangeFilter;
        l_pRangeFilter = NULL;


        TargetRangeFilter l_f1(
                               targetService().begin(),
                               targetService().end(),
                               NULL);

        Target* l_pBegin = (*l_f1);
        ++l_f1;
        Target* l_pNext = (*l_f1);
        if(   (l_pBegin == NULL)
              || (l_pNext == NULL)
              || (l_pBegin == l_pNext)
              )
        {
            TARG_TS_FAIL("Target* pointed to by Begin/next NULL -or- begin =="
                    "next");
        }

        l_f1.reset();
        if( *l_f1 != l_pBegin )
        {
            TARG_TS_FAIL("Target* after reset should be equal to original");
        }

        l_f1.reset();
        TargetRangeFilter l_f2 = l_f1;
        PredicateCTM l_ctm(CLASS_SYS,TYPE_CORE); // Nonsense CTM
        l_f1.setPredicate(&l_ctm);
        if( *l_f1 == l_pBegin )
        {
            TARG_TS_FAIL("Target* after reset and change of predicate should be"
                    "different than the original");
        }

        PredicateCTM l_ctm1(CLASS_CHIP,TYPE_PROC);

        TargetRangeFilter l_f3(
                               targetService().begin(),
                               targetService().end(),
                               &l_ctm1);
        for(;l_f3;++l_f3)
        {
            if(l_f3->getAttr<ATTR_TYPE>() != TYPE_PROC)
            {
                TARG_TS_FAIL("Should only have returned type proc");
                break;
            }
        }

        TargetIterator l_pIt = targetService().begin();
        ++l_pIt;
        ++l_pIt;

        if(l_pIt == targetService().end())
        {
            TARG_TS_FAIL("Not enough elements for test");
        }

        TargetRangeFilter l_partial(
                                    targetService().begin(),
                                    l_pIt,
                                    NULL);
        int i=0;

        for(; l_partial; ++l_partial)
        {
            i++;
        }

        if(i != 2)
        {
            TARG_TS_FAIL("Should have gotten 2 elements %d",i);
        }

        TARG_TS_TRACE(EXIT_MRK "testRangeFilter" );
    }

    void testComplexFilter(void)
    {

        TARG_TS_TRACE(ENTER_MRK "testComplexFilter" );

        using namespace TARGETING;

        TargetService& l_targetService = targetService();

        TargetRangeFilter f(l_targetService.begin(),
                            l_targetService.end(),
                            NULL);
        int l_count = 0;
        for(; f; ++f, l_count++)
        {
        }

        TARG_TS_TRACE(INF_MRK "Found %d total targets", l_count);

        PredicateCTM l_procs(CLASS_CHIP);
        PredicateCTM l_enclosures(CLASS_ENC);
        PredicatePostfixExpr l_query;
        l_query.push(&l_procs).push(&l_enclosures).Or();

        f.setPredicate(&l_query);
        f.reset();

        l_count = 0;
        for(; f; ++f, ++l_count)
        {
            EntityPath l_path = f->getAttr<ATTR_PHYS_PATH>();
            l_path.dump();
        }

        TARG_TS_TRACE(INF_MRK "Found %d targets that are chips or enclosures ",
                 l_count);

        l_query.Not();
        f.reset();

        l_count = 0;
        for(; f; ++f, ++l_count)
        {
        }

        TARG_TS_TRACE(INF_MRK "Found %d targets that are not chips or "
                 "enclosures",l_count);

        Target* l_pMasterProcChipTargetHandle = NULL;
        (void) l_targetService.masterProcChipTargetHandle(
                                                          l_pMasterProcChipTargetHandle);
        if(l_pMasterProcChipTargetHandle == NULL)
        {
            TARG_TS_FAIL("Master processor chip target not found");
        }

        PredicateCTM l_ex(CLASS_UNIT,TYPE_EX);
        PredicateCTM l_mba(CLASS_UNIT,TYPE_MBA);
        PredicatePostfixExpr l_procquery;
        l_procquery.push(&l_ex).push(&l_mba).Or();

        TargetHandleList l_list;
        (void) targetService().getAssociated(
                                             l_list,
                                             l_pMasterProcChipTargetHandle,
                                             TARGETING::TargetService::CHILD,
                                             TARGETING::TargetService::ALL,
                                             &l_procquery);

        l_count = 0;
        for(uint32_t i=0; i<l_list.size(); ++i, ++l_count)
        {
            EntityPath l_path = l_list[i]->getAttr<ATTR_PHYS_PATH>();
            l_path.dump();
        }

        TARG_TS_TRACE(INF_MRK "Found %d targets that are ex/mba units off "
                 "master processor",l_count);

        TARG_TS_TRACE(EXIT_MRK "testComplexFilter" );
    }

    void testFapiToHbMacros ()
    {

        TARG_TS_TRACE(ENTER_MRK "testFapiToHbMacros" );

        TARG_TS_TRACE(INF_MRK "Now using direct access macros");

        using namespace TARGETING;
        using namespace fapi;

        TargetService& l_targetService = targetService();

        TARGETING::Target* l_pTarget = NULL;
        (void) l_targetService.getTopLevelTarget(l_pTarget);
        if (l_pTarget == NULL)
        {
            TARG_TS_FAIL("Top level handle was NULL when initialization "
                    "complete");
        }

        DUMMY_RW_ATTR l_dummyRw;
        memset(l_dummyRw,0x00,sizeof(l_dummyRw));
        l_pTarget->tryGetAttr<TARGETING::ATTR_DUMMY_RW>(l_dummyRw);
        if(l_dummyRw[0][1][2] != 5)
        {
            TARG_TS_FAIL("l_dummyRw value is %d, not 5 as expected in direct "
                    "attribute access",l_dummyRw[0][1][2]);
        }

        TARGETING::CLASS l_class =
          l_pTarget->getAttr<TARGETING::ATTR_CLASS>();
        if(l_class != TARGETING::CLASS_SYS)
        {
            TARG_TS_FAIL("l_class value is %d, not %d as expected in direct "
                    "attribute access",l_class,TARGETING::CLASS_SYS);
        }

        TARGETING::TYPE l_type = l_pTarget->getAttr<TARGETING::ATTR_TYPE>();
        if(l_type != TARGETING::TYPE_SYS)
        {
            TARG_TS_FAIL("l_type value is %d, not %d as expected in direct "
                    "attribute access",l_type,TARGETING::TYPE_SYS);
        }

        uint64_t l_xscom =
          l_pTarget->getAttr<TARGETING::ATTR_XSCOM_BASE_ADDRESS>();
        if(l_xscom != 0x0003FC0000000000ULL)
        {
            TARG_TS_FAIL("l_xscom value is 0x%016llX, not 0x%016llX as expected in direct "
                    "attribute access",l_xscom,0x0003FC00000000ULL);
        }

        TARG_TS_TRACE(INF_MRK "Now using FAPI get macros");

        memset(l_dummyRw,0x00,sizeof(l_dummyRw));
        fapi::ReturnCode l_rc = FAPI_ATTR_GET(
                                              ATTR_DUMMY_SCRATCH_PLAT_INIT_UINT8, NULL, l_dummyRw);
        if(l_rc != 0)
        {
            TARG_TS_FAIL("Failed to get dummy RW attribute on system target");
        }

        if(l_dummyRw[0][2][4] != 5)
        {
            TARG_TS_FAIL("l_dummyRw value is %d, not 5 as expected",
                    l_dummyRw[0][2][4]);
        }

        TARG_TS_TRACE(INF_MRK "Now using FAPI set macros");

        l_dummyRw[0][2][3] = 6;
        l_rc = FAPI_ATTR_SET(ATTR_DUMMY_SCRATCH_PLAT_INIT_UINT8, NULL,
                             l_dummyRw);
        if(l_rc != 0)
        {
            TARG_TS_FAIL("Failed to write dummy RW attribute on system target");
        }

        memset(l_dummyRw,0x00,sizeof(l_dummyRw));
        l_rc = FAPI_ATTR_GET(ATTR_DUMMY_SCRATCH_PLAT_INIT_UINT8, NULL,
                             l_dummyRw);
        if(l_rc != 0)
        {
            TARG_TS_FAIL("Failed to get dummy RW attribute on system target");
        }

        if(l_dummyRw[0][2][3] != 6)
        {
            TARG_TS_FAIL("l_dummyRw value is %d, not 6 as expected due to a "
                    "prior write",l_dummyRw[0][2][3]);
        }

        TARG_TS_TRACE(INF_MRK "Now using targets without the attribute");

        memset(l_dummyRw,0x00,sizeof(l_dummyRw));
        EntityPath l_realPath(EntityPath::PATH_PHYSICAL);
        l_realPath.addLast(TYPE_SYS,0).addLast(TYPE_NODE,0);
        l_pTarget = l_realPath.operator->();
        if (l_pTarget == NULL)
        {
            TARG_TS_FAIL("Node 0 target handle should not be NULL");
        }

        fapi::Target* l_pFapiTarget = new fapi::Target(
                                                       fapi::TARGET_TYPE_PROC_CHIP, l_pTarget);
        l_rc = FAPI_ATTR_GET(ATTR_DUMMY_SCRATCH_PLAT_INIT_UINT8,
                             l_pFapiTarget , l_dummyRw);
        if(l_rc == 0)
        {
            TARG_TS_FAIL("Should have failed getting the attribute on "
                    "non-supporting target");
        }
        else if(l_rc != FAPI_RC_PLAT_ERR_SEE_DATA)
        {
            TARG_TS_FAIL("Should have been a platform handled error");
        }

        // The error log will get deleted when the ReturnCode is destructed. The
        // error log is not committed here to avoid it getting interpreted as a
        // real problem

        delete l_pFapiTarget;
        l_pFapiTarget = NULL;

        TARG_TS_TRACE(EXIT_MRK "testFapiToHbMacros" );
    }

    void testPodNumericalTypes()
    {
        TARG_TS_TRACE(ENTER_MRK "testPodNumericalTypes" );

        using namespace TARGETING;
        using namespace fapi;

        TargetService& l_targetService = targetService();

        TARGETING::Target* l_pTarget = NULL;
        (void) l_targetService.getTopLevelTarget(l_pTarget);
        if (l_pTarget == NULL)
        {
            TARG_TS_FAIL("Top level handle was NULL when initialization "
                    "complete");
        }

        NUMERIC_POD_TYPE_TEST_ATTR l_pod;
        memset(&l_pod,0x00,sizeof(l_pod));
        if(!l_pTarget->tryGetAttr<TARGETING::ATTR_NUMERIC_POD_TYPE_TEST>(l_pod))
        {
            TARG_TS_FAIL("Numeric POD type not found");
        }
        if(   (l_pod.fsiPath.type() != EntityPath::PATH_PHYSICAL)
           || (l_pod.fsiPath[0].type != TYPE_SYS)
           || (l_pod.fsiPath[0].instance != 0)
           || (l_pod.fsiPath.size() != 1 ) )
        {
            TARG_TS_FAIL("Expected physical:sys-0, got a different result");

        }
        if(l_pod.className != CLASS_CHIP)
        {
            TARG_TS_FAIL("Expected CLASS value of 0x%08X, got 0x%08X",
                    CLASS_CHIP,l_pod.className);
        }
        if(l_pod.uint8 != 0xAB)
        {
             TARG_TS_FAIL("Expected uint8_t value of 0xAB, got 0x%02X",
                  l_pod.uint8);
        }
        if (l_pod.uint16 != 0xABCD)
        {
            TARG_TS_FAIL("Expected uint16_t value of 0xABCD, got 0x%04X",
                l_pod.uint16);
        }
        if (l_pod.uint32 != 0xABCDEF01)
        {
            TARG_TS_FAIL("Expected uint32_t value of 0xABCDEF01, got 0x%08X",
                l_pod.uint32);
        }
        if (l_pod.uint64 != 0xABCDEF0123456789ULL)
        {
            TARG_TS_FAIL("Expected uint64_t value of 0xABCDEF0123456789, got "
                "0x%016llX",
                l_pod.uint64);
        }
        if(l_pod.int8 != -124)
        {
             TARG_TS_FAIL("Expected int8_t value of -124, got %d",
                  l_pod.int8);
        }
        if (l_pod.int16 != -32764)
        {
            TARG_TS_FAIL("Expected int16_t value of -32764, got %d",
                l_pod.int16);
        }
        if (l_pod.int32 != -2147483644)
        {
            TARG_TS_FAIL("Expected int32_t value of -2147483644, got %d",
                l_pod.int32);
        }
        if (l_pod.int64 != -9223372036854775804LL)
        {
            TARG_TS_FAIL("Expected int64_t value of -9223372036854775804, got "
                "%lld",
                l_pod.int64);
        }

        TARG_TS_TRACE(EXIT_MRK "testPodNumericalTypes" );
    }

    void testCentaurs()
    {

        TARG_TS_TRACE(ENTER_MRK "testCentaurs" );

        using namespace TARGETING;

        PredicateCTM l_procChip(CLASS_CHIP,TYPE_PROC,MODEL_VENICE);
        TargetRangeFilter l_filter(
            targetService().begin(),
            targetService().end(),
            &l_procChip);

        PredicateCTM l_memBuf(CLASS_UNIT,TYPE_MEMBUF);
        uint32_t l_count = 0;
        uint32_t l_procs = 0;

        // For each processor
        for(;l_filter;++l_filter)
        {
            l_procs++;

            TargetHandleList l_list;
            (void) targetService().getAssociated(
                l_list,
                *l_filter,
                TARGETING::TargetService::CHILD_BY_AFFINITY,
                TARGETING::TargetService::ALL,
                &l_memBuf);
            l_count += l_list.size();
        }

        if(l_procs)
        {
            if(l_count <= 0)
            {
                TARG_TS_FAIL("Did not find any Centaur chips connected to processors");
            }
            else
            {
                TARG_TS_TRACE("Found %d Centaur chips connected to processors",l_count);
            }
        }

        TARG_TS_TRACE(EXIT_MRK "testCentaurs" );
    }
    /**
     *  @test Tests string attributes
     */
    void testStringAttributes(void)
    {

        TARG_TS_TRACE(ENTER_MRK "testStringAttributes" );

        using namespace TARGETING;

        do {

        TargetService& l_targetService = targetService();

        // Get the top level target for the string attribute tests
        Target* l_pTopLevel = NULL;
        (void) l_targetService.getTopLevelTarget(l_pTopLevel);
        if (l_pTopLevel == NULL)
        {
            TARG_TS_FAIL("ERROR: Can not find top level target; bypassing "
                    "remaining string attribute tests");
            break;
        }

        // TC1: Test NULL string attribute
        // TC1.1: String storage size must match the stated size
        ATTR_TEST_NULL_STRING_type l_nullStringReference = {0};
        ATTR_TEST_NULL_STRING_type l_nullString = {0};
        if(sizeof(l_nullString) != ATTR_TEST_NULL_STRING_max_chars+1)
        {
            TARG_TS_FAIL("ERROR: l_nullString size (%d) "
                    "does not match stated size (%d)",
                    sizeof(l_nullString),
                    ATTR_TEST_NULL_STRING_max_chars+1);
        }

        // TC1.2: String size must be non-zero
        if(sizeof(l_nullString) == 0)
        {
            TARG_TS_FAIL("ERROR: l_nullString size is zero");
        }

        // TC1.3: Must be able to read the string
        if(!l_pTopLevel->tryGetAttr<ATTR_TEST_NULL_STRING>(l_nullString))
        {
            TARG_TS_FAIL("ERROR: Can not read l_nullString attribute");
        }

        // TC1.4: All bytes of the string must match the reference version
        if(memcmp(l_nullStringReference,
                  l_nullString,
                  sizeof(l_nullStringReference)))
        {
            TARG_TS_FAIL("ERROR: l_nullString bytes do not match the reference"
                    "version");
            TARG_BIN("Expected (l_nullStringReference)",
                     l_nullStringReference,sizeof(l_nullStringReference));
            TARG_BIN("Actual (l_nullString)",
                     l_nullString,sizeof(l_nullString));
        }

        // TC1.5: String must equal the empty string by string comparison
        if(strcmp(l_nullString,"") != 0)
        {
            TARG_TS_FAIL("ERROR: l_nullString does not strcmp to the empty string");
            TARG_BIN("Actual (l_nullString)",
                     l_nullString,sizeof(l_nullString));
        }

        // TC2: Test string attribute with only 1 character
        // TC2.1: String storage size must match the stated size
        ATTR_TEST_MIN_STRING_type l_minStringReference = {0};
        l_minStringReference[0] = 'Z';
        ATTR_TEST_MIN_STRING_type l_minString = {0};
        if(sizeof(l_minString) != ATTR_TEST_MIN_STRING_max_chars+1)
        {
            TARG_TS_FAIL("ERROR: l_minString size (%d) "
                    "does not match stated size (%d)",
                    sizeof(l_minString),
                    ATTR_TEST_MIN_STRING_max_chars+1);
        }

        // TC2.2: String size must be non-zero
        if(sizeof(l_minString) == 0)
        {
            TARG_TS_FAIL("ERROR: l_minString size is zero");
        }

        // TC2.3: Must be able to read the string
        if(!l_pTopLevel->tryGetAttr<ATTR_TEST_MIN_STRING>(l_minString))
        {
            TARG_TS_FAIL("ERROR: Can not read l_minString attribute");
        }

        // TC2.4: All bytes in string must match the reference string
        if(memcmp(l_minStringReference,
                  l_minString,
                  sizeof(l_minStringReference)))
        {
            TARG_TS_FAIL("ERROR l_minString bytes do not match the reference "
                    "version");
            TARG_BIN("Expected (l_minStringReference)",
                     l_minStringReference,sizeof(l_minStringReference));
            TARG_BIN("Actual (l_minString)",
                     l_minString,sizeof(l_minString));
       }

        // TC2.5: String must equal "Z" by comparison
        if(strcmp(l_minString,l_minStringReference) != 0)
        {
            TARG_TS_FAIL("ERROR l_minString does not strcmp to the reference "
                    "string");
            TARG_BIN("Actual (l_minString)",
                     l_minString,sizeof(l_minString));
        }

        // TC3: Test string with maximum number of characters (including NULL)
        // TC3.1: String storage size must match the stated size
        ATTR_TEST_MAX_STRING_type l_maxStringReference = {0};
        l_maxStringReference[0] = 'a';
        l_maxStringReference[1] = 'b';
        l_maxStringReference[2] = 'c';
        ATTR_TEST_MAX_STRING_type l_maxString = {0};
        if(sizeof(l_maxString) != ATTR_TEST_MAX_STRING_max_chars+1)
        {
            TARG_TS_FAIL("ERROR: l_maxString size (%d) "
                    "does not match stated size (%d)",
                    sizeof(l_maxString),
                    ATTR_TEST_MAX_STRING_max_chars+1);
        }

        // TC3.2: String storage size must be non-zero
        if(sizeof(l_maxString) == 0)
        {
            TARG_TS_FAIL("ERROR: l_maxString storage size is zero");
        }

        // TC3.3: Must be able to read the string
        if(!l_pTopLevel->tryGetAttr<ATTR_TEST_MAX_STRING>(l_maxString))
        {
            TARG_TS_FAIL("ERROR: Could not read l_maxString");
        }

        // TC3.4: All bytes in string must match the reference
        if(memcmp(l_maxStringReference,
                  l_maxString,
                  sizeof(l_maxStringReference)))
        {
            TARG_TS_FAIL("ERROR: l_maxString bytes do not match the reference "
                    "version");
            TARG_BIN("Expected (l_maxStringReference)",
                     l_maxStringReference,sizeof(l_maxStringReference));
            TARG_BIN("Actual (l_maxString)",
                     l_maxString,sizeof(l_maxString));
       }

        // TC3.5: String must equal "abc" by comparison
        if(strcmp(l_maxString,l_maxStringReference) != 0)
        {
            TARG_TS_FAIL("ERROR: l_maxString does not strcmp to the reference "
                    "string");
            TARG_BIN("Actual (l_maxString)",
                     l_maxString,sizeof(l_maxString));
        }

        // TC4: Test string with no supplied default value
        // TC4.1: String storage size must match stated size
        ATTR_TEST_NO_DEFAULT_STRING_type l_noDefaultStringReference = {0};
        ATTR_TEST_NO_DEFAULT_STRING_type l_noDefaultString = {0};
        if(sizeof(l_noDefaultString) != ATTR_TEST_NO_DEFAULT_STRING_max_chars+1)
        {
            TARG_TS_FAIL("ERROR: l_noDefaultString size (%d) "
                    "does not match stated size (%d)",
                    sizeof(l_noDefaultString),
                    ATTR_TEST_NO_DEFAULT_STRING_max_chars+1);
        }

        // TC4.2: String storage size must be non-zero
        if(sizeof(l_noDefaultString) == 0)
        {
            TARG_TS_FAIL("ERROR: l_noDefaultString storage size is zero");
        }

        // TC4.3: Must be able to read the string
        if(!l_pTopLevel->tryGetAttr<ATTR_TEST_NO_DEFAULT_STRING>(
                l_noDefaultString))
        {
            TARG_TS_FAIL("ERROR: Could not read l_noDefaultString");
        }

        // TC4.4: All bytes in string must match the reference
        if(memcmp(l_noDefaultStringReference,
                  l_noDefaultString,
                  sizeof(l_noDefaultStringReference)))
        {
            TARG_TS_FAIL("ERROR: l_noDefaultString bytes do not match the "
                    "reference");
            TARG_BIN("Expected (l_noDefaultStringReference)",
                     l_noDefaultStringReference,
                     sizeof(l_noDefaultStringReference));
            TARG_BIN("Actual (l_noDefaultString)",
                     l_noDefaultString,sizeof(l_noDefaultString));
        }

        // TC4.5: String must equal empty string by comparison
        if(strcmp(l_noDefaultString,l_noDefaultStringReference) != 0)
        {
            TARG_TS_FAIL("ERROR: l_noDefaultString does not strcmp to the reference "
                    "string");
            TARG_BIN("Actual (l_noDefaultString)",
                     l_noDefaultString,sizeof(l_noDefaultString));
        }

        // TC5: Write string and read back
        // TC5.1: Must be able to write the string
        ATTR_TEST_NO_DEFAULT_STRING_type l_writeString = {0};
        strcpy(l_writeString,"aabbcc");
        if(!l_pTopLevel->trySetAttr<ATTR_TEST_NO_DEFAULT_STRING>(l_writeString))
        {
            TARG_TS_FAIL("ERROR: Could not write l_writeString");
        }

        ATTR_TEST_NO_DEFAULT_STRING_type l_readString = {0};
        if(!l_pTopLevel->tryGetAttr<ATTR_TEST_NO_DEFAULT_STRING>(l_readString))
        {
            TARG_TS_FAIL("ERROR: Could not read l_readString");
        }

        if(strcmp(l_writeString,l_readString) != 0)
        {
            TARG_TS_FAIL("ERROR: String does not match what was written");
            TARG_BIN("Expected (l_writeString)",
                     l_writeString,
                     sizeof(l_writeString));
            TARG_BIN("Actual (l_readString)",
                     l_readString,
                     sizeof(l_readString));
        }

        } while(0);

        TARG_TS_TRACE(EXIT_MRK "testStringAttributes" );
    }

    void testL4s()
    {
        TARG_TS_TRACE(ENTER_MRK "testL4s" );

        using namespace TARGETING;

        PredicateCTM l_procChip(CLASS_CHIP,TYPE_PROC,MODEL_MURANO);
        TargetRangeFilter l_filter(
            targetService().begin(),
            targetService().end(),
            &l_procChip);

        PredicateCTM l_L4s(CLASS_UNIT,TYPE_L4);
        uint32_t l_count = 0;
        uint32_t l_procs = 0;

        // There should be 16 L4s as children of the
        // 16 processors
        for(;l_filter;++l_filter)
        {
            l_procs++;

            TargetHandleList l_list;
            (void) targetService().getAssociated(
                l_list,
                *l_filter,
                TARGETING::TargetService::CHILD_BY_AFFINITY,
                TARGETING::TargetService::ALL,
                &l_L4s);
            l_count += l_list.size();
        }

        // 4 processors -- 4 L4 units per processor
        uint32_t  total = 4 * l_procs;

        if(l_procs)
        {
            if( l_count != total )
            {
                TARG_TS_FAIL("Did not find any L4 targets identified "
                              "with child affinity to the processors");
            }
            else
            {
                TARG_TS_TRACE("Found %d L4 targets with child affinity to "
                               "the processors", l_count);
            }
        }

        l_count = 0;

        PredicateCTM l_mcsChip(CLASS_UNIT,TYPE_MCS,MODEL_MURANO);
        TargetRangeFilter l_filter2(
            targetService().begin(),
            targetService().end(),
           &l_mcsChip);

        uint32_t l_MCS = 0;

        // L4 is also a child of the MCS
        for(;l_filter2;++l_filter2)
        {
            l_MCS++;

            TargetHandleList l_list;
            (void) targetService().getAssociated(
                l_list,
                *l_filter2,
                TARGETING::TargetService::CHILD_BY_AFFINITY,
                TARGETING::TargetService::ALL,
                &l_L4s);
            l_count += l_list.size();
        }

        // 1  L4 uint per MCS uint
        total = l_MCS;

        if(l_MCS)
        {
            if(l_count != total )
            {
                TARG_TS_FAIL("Did not find any L4 targets connected to MCS");
            }
            else
            {
                TARG_TS_TRACE("Found %d L4 targets connected to MCS",l_count);
            }
        }

        PredicateCTM l_nodes(CLASS_ENC,TYPE_NODE,MODEL_POWER8);
        TargetRangeFilter l_filter3(
            targetService().begin(),
            targetService().end(),
            &l_nodes);

        uint32_t l_node = 0;
        l_count = 0;
        // L4 is also a child of the NODE
        for(;l_filter3;++l_filter3)
        {
            l_node++;

            TargetHandleList l_list;
            (void) targetService().getAssociated(
                l_list,
                *l_filter3,
                TARGETING::TargetService::CHILD_BY_AFFINITY,
                TARGETING::TargetService::ALL,
                &l_L4s);
            l_count += l_list.size();
        }

        // 1 L4 per MCS * number of nodes
        total = l_node * l_MCS;

        if(l_node)
        {
            if(l_count != total )
            {
                TARG_TS_FAIL("Did not find any L4 targets "
                             "with child affinity to the node");
            }
            else
            {
                TARG_TS_TRACE("Found %d L4 targets with child "
                              "affinity to the node",l_count);
            }
        }

        PredicateCTM l_membufs(CLASS_CHIP,TYPE_MEMBUF,MODEL_CENTAUR);
        TargetRangeFilter l_filter4(
            targetService().begin(),
            targetService().end(),
            &l_membufs);

        int l_membuf = 0;
        l_count = 0;
        // L4 is also a child of the NODE
        for(;l_filter4;++l_filter4)
        {
            l_membuf++;

            TargetHandleList l_list;
            (void) targetService().getAssociated(
                l_list,
                *l_filter4,
                TARGETING::TargetService::CHILD_BY_AFFINITY,
                TARGETING::TargetService::ALL,
                &l_L4s);
            l_count += l_list.size();
        }

        // 1 L4 per membuf
        total = l_membuf;

        if(l_membuf)
        {
            if(l_count != total )
            {
                TARG_TS_TRACE("\n\nDid not find any L4 targets "
                             "with child affinity to the membuf target\n\n");
            }
            else
            {
                TARG_TS_TRACE("\n\nFound %d L4 targets with child "
                              "affinity to the membuf\n\n",l_count);
            }
        }

        TARG_TS_TRACE(EXIT_MRK "testL4s" );
    }


};

#endif // __TARGETING_COMMON_TESTCOMMONTARGETING_H
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