/* IBM_PROLOG_BEGIN_TAG */ /* This is an automatically generated prolog. */ /* */ /* $Source: src/usr/fapi2/test/rcTest.C $ */ /* */ /* OpenPOWER HostBoot Project */ /* */ /* Contributors Listed Below - COPYRIGHT 2011,2017 */ /* [+] International Business Machines Corp. */ /* */ /* */ /* 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 */ // $Id: rcTest.C,v 1.16 2015/03/18 19:41:51 pragupta Exp $ /** * @file rcTest.C * * @brief Implements Target class unit test functions. */ #include #include #include #include #include #include fapi2::ReturnCode get_fapi2_error(void) { FAPI_INF("Enter get_fapi2_error..."); // You can assign directly to the buffer: const uint32_t buf[] = {0x01, 0x02, 0x03, 0xDEADBEEF}; fapi2::variable_buffer other_bits(buf, 4, 128); uint32_t val; FAPI_TRY( other_bits.extract(val, 0, 130) ); fapi_try_exit: FAPI_INF("Exiting get_fapi2_error..."); // should return FAPI2_RC_INVALID_PARAMETER return fapi2::current_err; } fapi2::ReturnCode get_plat_error(void) { FAPI_INF("Entering get_plat_error..."); fapi2::buffer l_scomdata = 0; // Create a vector of TARGETING::Target pointers TARGETING::TargetHandleList l_chipList; // Get a list of all of the proc chips TARGETING::getAllChips(l_chipList, TARGETING::TYPE_PROC, false); TARGETING::Target * l_Proc = NULL; if (l_chipList.size() > 0) { l_Proc = l_chipList[0]; } if (l_Proc != NULL) { fapi2::Target fapi2_procTarget(l_Proc); FAPI_INF("Do an invalid address getscom on proc target"); FAPI_TRY(fapi2::getScom(fapi2_procTarget, 0x11223344, l_scomdata)); } fapi_try_exit: FAPI_INF("Exiting get_plat_error..."); return fapi2::current_err; } namespace fapi2 { //****************************************************************************** // rcTestDefaultConstructor. Ensures that the ReturnCode default // constructor works //****************************************************************************** uint32_t rcTestDefaultConstructor() { uint32_t l_result = 0; // Create ReturnCode using default constructor ReturnCode l_rc; // Ensure that the embedded return code is success if (l_rc != FAPI2_RC_SUCCESS) { FAPI_ERR("rcTestDefaultConstructor. Code is 0x%x, expected success", static_cast(l_rc)); l_result = 1; } else { // Ensure that testing l_rc works if (l_rc) { FAPI_ERR("rcTestDefaultConstructor. testing rc returned true"); l_result = 2; } else { FAPI_INF("rcTestDefaultConstructor. Success!"); } } return l_result; } //****************************************************************************** // rcTestReturnCodeCreator. Ensures that the ReturnCode creator reflects // the return code //****************************************************************************** uint32_t rcTestReturnCodeCreator() { uint32_t l_result = 0; // Create ReturnCode using default constructor ReturnCode l_rc; // Set the return code to a FAPI code l_rc = get_fapi2_error(); // Ensure that the creator is FAPI ReturnCode::returnCodeCreator l_creator = l_rc.getCreator(); if (l_creator != ReturnCode::CREATOR_FAPI) { FAPI_ERR("rcTestReturnCodeCreator. Creator is 0x%x, expected FAPI", l_creator); l_result = 1; } else { // Set the return code to a PLAT code l_rc = get_plat_error(); //.setPlatError(NULL); // Ensure that the creator is PLAT l_creator = l_rc.getCreator(); if (l_creator != ReturnCode::CREATOR_PLAT) { FAPI_ERR("rcTestReturnCodeCreator. Creator is 0x%x, expected PLAT", l_creator); l_result = 2; } else { // Set the return code to a HWP code (intentionally use function // that does not add error information). l_rc._setHwpError(RC_TEST_ERROR_A); // Ensure that the creator is HWP l_creator = l_rc.getCreator(); if (l_creator != ReturnCode::CREATOR_HWP) { FAPI_ERR("rcTestReturnCodeCreator. Creator is 0x%x,expected HWP" , l_creator); l_result = 3; } else { FAPI_INF("rcTestReturnCodeCreator. Success!"); } } } return l_result; } //****************************************************************************** // rcTestReturnCodeConstructor. Ensures that the ReturnCode constructor works // when specifying a return code //****************************************************************************** uint32_t rcTestReturnCodeConstructor() { uint32_t l_result = 0; // Create ReturnCode specifying a return code ReturnCode l_rc(FAPI2_RC_INVALID_ATTR_GET); // Ensure that the embedded return code is as expected uint64_t l_codeCheck = l_rc; if (l_codeCheck != FAPI2_RC_INVALID_ATTR_GET) { FAPI_ERR("rcTestReturnCodeConstructor. Code is 0x%x," " expected FAPI2_RC_INVALID_ATTR_GET",l_codeCheck); l_result = 1; } else { // Ensure that testing l_rc works if (!l_rc) { FAPI_ERR("rcTestReturnCodeConstructor. testing rc returned false"); l_result = 2; } else { FAPI_INF("rcTestReturnCodeConstructor. Success!"); } } return l_result; } //****************************************************************************** // rcTestComparisonOperator . Ensures that the comparison operators work // (comparing with another ReturnCode) //****************************************************************************** uint32_t rcTestComparisonOperator() { uint32_t l_result = 0; // Create similar ReturnCodes ReturnCode l_rc(FAPI2_RC_INVALID_ATTR_GET); ReturnCode l_rc2(FAPI2_RC_INVALID_ATTR_GET); // Ensure that the equality comparison returns true if (!(l_rc == l_rc2)) { FAPI_ERR("rcTestComparisonOperator. 1. Equality comparison false"); l_result = 1; } else { // Ensure that the inequality comparison returns false if (l_rc != l_rc2) { FAPI_ERR("rcTestComparisonOperator. 2. Inequality comparison true"); l_result = 2; } else { // Change the code of l_rc2 l_rc2 = get_fapi2_error(); // Ensure that the equality comparison returns false if (l_rc == l_rc2) { FAPI_ERR("rcTestComparisonOperator.3.Equality comparison true"); l_result = 3; } else { // Ensure that the inequality comparison returns true if (!(l_rc != l_rc2)) { FAPI_ERR("rcTestComparisonOperator. 4. Inequality " " comparison false"); l_result = 4; } else { FAPI_INF("rcTestComparisonOperator() Success!"); } } } } return l_result; } //****************************************************************************** // rcTestComparisonOperatorWithRCValue. Ensures that the comparison operators // work (comparing with a return code value) //****************************************************************************** uint32_t rcTestComparisonOperatorWithRCValue() { uint32_t l_result = 0; // Create a ReturnCode ReturnCode l_rc(FAPI2_RC_INVALID_ATTR_GET); // Ensure that the equality comparison returns true when comparing to the // same return code value if (!(l_rc == FAPI2_RC_INVALID_ATTR_GET)) { FAPI_ERR("rcTestComparisonOperatorWithRCValue. 1. Equality comparison" " false"); l_result = 1; } else { // Ensure that the inequality comparison returns false when comparing to // the same return code value if (l_rc != FAPI2_RC_INVALID_ATTR_GET) { FAPI_ERR("rcTestComparisonOperatorWithRCValue. 2. Inequality " "comparison true"); l_result = 2; } else { // Ensure that the equality comparison returns false when comparing // to a different return code value if (l_rc == FAPI2_RC_PLAT_ERR_SEE_DATA) { FAPI_ERR("rcTestComparisonOperatorWithRCValue. 3. Equality" " comparison true"); l_result = 3; } else { // Ensure that the inequality comparison returns true when // comparing to a different return code value if (!(l_rc != FAPI2_RC_PLAT_ERR_SEE_DATA)) { FAPI_ERR("rcTestComparisonOperatorWithRCValue. 4. " " Inequality comparison false"); l_result = 4; } else { FAPI_INF("rcTestComparisonOperatorWithRCValue. Success!"); } } } } return l_result; } //****************************************************************************** // rcTestCopyConstructor. Ensures that the copy constructor works when there is // attached PlatData and that the getPlatData function works //****************************************************************************** uint32_t rcTestCopyConstructor() { uint32_t l_result = 0; // Create a ReturnCode ReturnCode l_rc; // Assign PlatData. Note that this should really be an errlHndl_t, because // the FSP deleteData function will attempt to delete an error log, but this // is just for test, the data will be released before the ReturnCode is // destructed. uint32_t l_myData = 6; void * l_pMyData = reinterpret_cast (&l_myData); (void) l_rc.setPlatDataPtr(l_pMyData); // Create a ReturnCode using the copy constructor ReturnCode l_rc2(l_rc); // Ensure that the two ReturnCodes are the same if (l_rc != l_rc2) { FAPI_ERR("rcTestCopyConstructor. ReturnCodes differ"); l_result = 1; } else { // Ensure that getPlatData retrieves the PlatData from l_rc void * l_pMyDataCheck = l_rc.getPlatDataPtr(); if (l_pMyDataCheck != l_pMyData) { FAPI_ERR("rcTestCopyConstructor. 1. getPlatData returned " " unexpected data ptr"); l_result = 2; } else { // Ensure that getPlatData retrieves the PlatData from l_rc2 l_pMyDataCheck = NULL; l_pMyDataCheck = l_rc2.getPlatDataPtr(); if (l_pMyDataCheck != l_pMyData) { FAPI_ERR("rcTestCopyConstructor. 2. getPlatData returned " "unexpected data ptr"); l_result = 3; } else { FAPI_INF("rcTestCopyConstructor. Success!"); } } } return l_result; } //****************************************************************************** // rcTestAssignmentOperator. Ensures that the assignment operator works when // there is attached PlatData and that the releasePlatData function works //****************************************************************************** uint32_t rcTestAssignmentOperator() { uint32_t l_result = 0; // Create a ReturnCode ReturnCode l_rc; // Assign PlatData. Note that this should really be an errlHndl_t, because // the PLAT deleteData function will attempt to delete an error log, but // this is just for test, the data will be released before the ReturnCode is // destructed. uint32_t l_myData = 6; void * l_pMyData = reinterpret_cast (&l_myData); (void) l_rc.setPlatDataPtr(l_pMyData); // Create a ReturnCode using the assignment operator ReturnCode l_rc2; l_rc2 = l_rc; // Ensure that the two ReturnCodes are the same if (l_rc != l_rc2) { FAPI_ERR("rcTestAssignmentOperator. ReturnCodes differ"); l_result = 1; } else { // Ensure that releasePlatData retrieves the PlatData from l_rc void * l_pMyDataCheck = l_rc.getPlatDataPtr(); if (l_pMyDataCheck != l_pMyData) { FAPI_ERR("rcTestAssignmentOperator. getPlatDataPtr returned " "unexpected data ptr"); l_result = 2; } else { FAPI_INF("rcTestAssignmentOperator. Success!"); } } return l_result; } //****************************************************************************** // rcTestGetErrorInfo . Ensures that the getErrorInfo function works when there // is no ErrorInfo //****************************************************************************** uint32_t rcTestGetErrorInfo() { uint32_t l_result = 0; // Create a ReturnCode ReturnCode l_rc; // Ensure that the getErrorInfo function returns NULL const ErrorInfo * l_pErrInfo = reinterpret_cast (0x12345678); l_pErrInfo = l_rc.getErrorInfo(); if (l_pErrInfo != NULL) { FAPI_ERR("rcTestGetErrorInfo. getErrorInfo did not return NULL"); l_result = 1; } else { FAPI_INF("rcTestGetErrorInfo. Success!"); } return l_result; } //****************************************************************************** // rcTestErrorInfo. Ensures that the getErrorInfo function works when there is // ErrorInfo //****************************************************************************** uint32_t rcTestErrorInfo() { uint32_t l_result = 0; // Create a ReturnCode ReturnCode l_rc; //TODO RTC 143127:fapi2 ReturnCode support in hostboot //l_rc.setPlatError(NULL, FAPI2_RC_PLAT_ERR_SEE_DATA); l_rc._setHwpError(RC_FAPI2_SAMPLE); TARGETING::Target * l_pTarget = NULL; TARGETING::targetService().getTopLevelTarget(l_pTarget); fapi2::Target l_target(l_pTarget); TARGETING::Target* l_masterProc = NULL; TARGETING::targetService().masterProcChipTargetHandle( l_masterProc ); fapi2::Target l_target2(l_masterProc); // Create some FFDC uint8_t l_ffdc = 0x12; // Add error information to the ReturnCode, the data is the same as that // produced by the fapiParseErrorInfo.pl script in fapiHwpErrorInfo.H const void * l_objects[] = {&l_ffdc, &l_target, &l_target2}; fapi2::ErrorInfoEntry l_entries[7]; l_entries[0].iv_type = fapi2::EI_TYPE_FFDC; l_entries[0].ffdc.iv_ffdcObjIndex = 0; l_entries[0].ffdc.iv_ffdcId = 0x22334455; l_entries[0].ffdc.iv_ffdcSize = fapi2::getErrorInfoFfdcSize(l_ffdc); l_entries[1].iv_type = fapi2::EI_TYPE_PROCEDURE_CALLOUT; l_entries[1].proc_callout.iv_procedure = fapi2::ProcedureCallouts::CODE; l_entries[1].proc_callout.iv_calloutPriority = fapi2::CalloutPriorities::MEDIUM; l_entries[2].iv_type = fapi2::EI_TYPE_BUS_CALLOUT; l_entries[2].bus_callout.iv_endpoint1ObjIndex = 1; l_entries[2].bus_callout.iv_endpoint2ObjIndex = 2; l_entries[2].bus_callout.iv_calloutPriority = fapi2::CalloutPriorities::MEDIUM; l_entries[3].iv_type = fapi2::EI_TYPE_CDG; l_entries[3].target_cdg.iv_targetObjIndex = 1; l_entries[3].target_cdg.iv_callout = 1; l_entries[3].target_cdg.iv_deconfigure = 1; l_entries[3].target_cdg.iv_gard = 0; l_entries[3].target_cdg.iv_calloutPriority = fapi2::CalloutPriorities::HIGH; l_entries[4].iv_type = fapi2::EI_TYPE_CHILDREN_CDG; l_entries[4].children_cdg.iv_parentObjIndex = 1; l_entries[4].children_cdg.iv_callout = 0; l_entries[4].children_cdg.iv_deconfigure = 1; l_entries[4].children_cdg.iv_childType = fapi2::TARGET_TYPE_ABUS_ENDPOINT; l_entries[4].children_cdg.iv_gard = 0; l_entries[4].children_cdg.iv_calloutPriority = fapi2::CalloutPriorities::HIGH; l_entries[5].iv_type = fapi2::EI_TYPE_HW_CALLOUT; l_entries[5].hw_callout.iv_hw = fapi2::HwCallouts::MEM_REF_CLOCK; l_entries[5].hw_callout.iv_calloutPriority = fapi2::CalloutPriorities::LOW; l_entries[5].hw_callout.iv_refObjIndex = 0xff; l_entries[6].iv_type = fapi2::EI_TYPE_HW_CALLOUT; l_entries[6].hw_callout.iv_hw = fapi2::HwCallouts::FLASH_CONTROLLER_PART; l_entries[6].hw_callout.iv_calloutPriority = fapi2::CalloutPriorities::LOW; l_entries[6].hw_callout.iv_refObjIndex = 0xff; l_rc.addErrorInfo(l_objects, l_entries, 7); do { // Check that the Error Info can be retrieved const ErrorInfo * l_pErrInfo = NULL; l_pErrInfo = l_rc.getErrorInfo(); if (l_pErrInfo == NULL) { FAPI_ERR("rcTestErrorInfo. getErrorInfo returned NULL"); l_result = 1; break; } // Check the FFDC error information if (l_pErrInfo->iv_ffdcs.size() != 1) { FAPI_ERR("rcTestErrorInfo. %d FFDCs", l_pErrInfo->iv_ffdcs.size()); l_result = 2; break; } uint32_t l_size = 0; const void * l_pFfdc = NULL; l_pFfdc = l_pErrInfo->iv_ffdcs[0]->getData(l_size); if (l_size != sizeof(l_ffdc)) { FAPI_ERR("rcTestErrorInfo. FFDC size is %d", l_size); l_result = 3; break; } const uint8_t * l_pFfdcCheck = static_cast(l_pFfdc); if (*l_pFfdcCheck != 0x12) { FAPI_ERR("rcTestErrorInfo. FFDC is 0x%x", *l_pFfdcCheck); l_result = 4; break; } // Check the callout/deconfigure/gard error information if (l_pErrInfo->iv_CDGs.size() != 1) { FAPI_ERR("rcTestErrorInfo. %d CDGs", l_pErrInfo->iv_CDGs.size()); l_result = 5; break; } if (l_pErrInfo->iv_CDGs[0]->iv_target.get() != l_target) { FAPI_ERR("rcTestErrorInfo. CDG target mismatch"); l_result = 6; break; } if (l_pErrInfo->iv_CDGs[0]->iv_callout != true) { FAPI_ERR("rcTestErrorInfo. callout not set"); l_result = 7; break; } if (l_pErrInfo->iv_CDGs[0]->iv_calloutPriority != CalloutPriorities::HIGH) { FAPI_ERR("rcTestErrorInfo. CDG callout priority mismatch (%d)", l_pErrInfo->iv_CDGs[0]->iv_calloutPriority); l_result = 8; break; } if (l_pErrInfo->iv_CDGs[0]->iv_deconfigure != true) { FAPI_ERR("rcTestErrorInfo. deconfigure not set"); l_result = 9; break; } if (l_pErrInfo->iv_CDGs[0]->iv_gard != false) { FAPI_ERR("rcTestErrorInfo. GARD set"); l_result = 10; break; } // Additional procedure called out due to Bus Callout if (l_pErrInfo->iv_procedureCallouts.size() != 2) { FAPI_ERR("rcTestErrorInfo. %d proc-callouts", l_pErrInfo->iv_procedureCallouts.size()); l_result = 11; break; } if (l_pErrInfo->iv_procedureCallouts[0]->iv_procedure != ProcedureCallouts::CODE) { FAPI_ERR("rcTestErrorInfo. procedure callout[0] mismatch (%d)", l_pErrInfo->iv_procedureCallouts[0]->iv_procedure); l_result = 12; break; } if (l_pErrInfo->iv_procedureCallouts[0]->iv_calloutPriority != CalloutPriorities::MEDIUM) { FAPI_ERR("rcTestErrorInfo. procedure callout[0] priority " " mismatch (%d)", l_pErrInfo->iv_procedureCallouts[0]->iv_calloutPriority); l_result = 13; break; } if (l_pErrInfo->iv_procedureCallouts[1]->iv_procedure != ProcedureCallouts::BUS_CALLOUT) { FAPI_ERR("rcTestErrorInfo. procedure callout[1] mismatch (%d)", l_pErrInfo->iv_procedureCallouts[1]->iv_procedure); l_result = 14; break; } if (l_pErrInfo->iv_procedureCallouts[1]->iv_calloutPriority != CalloutPriorities::MEDIUM) { FAPI_ERR("rcTestErrorInfo. procedure callout[1] priority " "mismatch (%d)", l_pErrInfo->iv_procedureCallouts[1]->iv_calloutPriority); l_result = 15; break; } if (l_pErrInfo->iv_busCallouts.size() != 1) { FAPI_ERR("rcTestErrorInfo. %d bus-callouts", l_pErrInfo->iv_busCallouts.size()); l_result = 16; break; } if (l_pErrInfo->iv_busCallouts[0]->iv_target1.get() != l_target) { FAPI_ERR("rcTestErrorInfo. bus target mismatch 1"); l_result = 17; break; } if (l_pErrInfo->iv_busCallouts[0]->iv_target2.get() != l_target2) { FAPI_ERR("rcTestErrorInfo. bus target mismatch 2"); l_result = 18; break; } if (l_pErrInfo->iv_busCallouts[0]->iv_calloutPriority != CalloutPriorities::LOW) { FAPI_ERR("rcTestErrorInfo. bus callout priority mismatch (%d)", l_pErrInfo->iv_busCallouts[0]->iv_calloutPriority); l_result = 19; break; } if (l_pErrInfo->iv_childrenCDGs.size() != 1) { FAPI_ERR("rcTestErrorInfo. %d children-cdgs", l_pErrInfo->iv_childrenCDGs.size()); l_result = 20; break; } if (l_pErrInfo->iv_childrenCDGs[0]->iv_parent.get() != l_target) { FAPI_ERR("rcTestErrorInfo. parent chip mismatch"); l_result = 21; break; } if (l_pErrInfo->iv_childrenCDGs[0]->iv_childType != fapi2::TARGET_TYPE_ABUS_ENDPOINT) { FAPI_ERR("rcTestErrorInfo. child type mismatch (0x%08x)", l_pErrInfo->iv_childrenCDGs[0]->iv_childType); l_result = 22; break; } if (l_pErrInfo->iv_childrenCDGs[0]->iv_calloutPriority != CalloutPriorities::HIGH) { FAPI_ERR("rcTestErrorInfo. child cdg priority mismatch (%d)", l_pErrInfo->iv_childrenCDGs[0]->iv_calloutPriority); l_result = 23; break; } if (l_pErrInfo->iv_childrenCDGs[0]->iv_callout != false) { FAPI_ERR("rcTestErrorInfo. child cdg callout set"); l_result = 24; break; } if (l_pErrInfo->iv_childrenCDGs[0]->iv_deconfigure != true) { FAPI_ERR("rcTestErrorInfo. child cdg deconfigure not set"); l_result = 25; break; } if (l_pErrInfo->iv_childrenCDGs[0]->iv_gard != false) { FAPI_ERR("rcTestErrorInfo. child cdg GARD set"); l_result = 26; break; } if (l_pErrInfo->iv_hwCallouts.size() != 2) { FAPI_ERR("rcTestErrorInfo. %d hw-callouts", l_pErrInfo->iv_hwCallouts.size()); l_result = 27; break; } if (l_pErrInfo->iv_hwCallouts[0]->iv_hw != HwCallouts::MEM_REF_CLOCK) { FAPI_ERR("rcTestErrorInfo. hw callout mismatch (%d)", l_pErrInfo->iv_hwCallouts[0]->iv_hw); l_result = 28; break; } if (l_pErrInfo->iv_hwCallouts[0]->iv_calloutPriority != CalloutPriorities::LOW) { FAPI_ERR("rcTestErrorInfo. hw callout priority mismatch (%d)", l_pErrInfo->iv_hwCallouts[0]->iv_calloutPriority); l_result = 29; break; } FAPI_INF("rcTestErrorInfo. Success!"); } while(0); return l_result; } //****************************************************************************** // rcTestCopyConstructorwithErrorInfo. Ensures that the copy constructor works // when there is ErrorInfo //****************************************************************************** uint32_t rcTestCopyConstructorwithErrorInfo() { uint32_t l_result = 0; // Create a ReturnCode ReturnCode l_rc; //TODO RTC 143127:fapi2 ReturnCode support in hostboot //l_rc.setPlatError(NULL, FAPI2_RC_PLAT_ERR_SEE_DATA); l_rc._setHwpError(RC_FAPI2_SAMPLE); TARGETING::Target * l_pTarget = NULL; TARGETING::targetService().getTopLevelTarget(l_pTarget); fapi2::Target l_target(l_pTarget); // Add error information to the ReturnCode const void * l_objects[] = {&l_target}; fapi2::ErrorInfoEntry l_entries[1]; l_entries[0].iv_type = fapi2::EI_TYPE_CDG; l_entries[0].target_cdg.iv_targetObjIndex = 0; l_entries[0].target_cdg.iv_callout = 0; l_entries[0].target_cdg.iv_deconfigure = 0; l_entries[0].target_cdg.iv_gard = 1; l_entries[0].target_cdg.iv_calloutPriority = fapi2::CalloutPriorities::LOW; l_rc.addErrorInfo(l_objects, l_entries, 1); // Create a ReturnCode using the copy constructor ReturnCode l_rc2(l_rc); do { // Ensure that the two ReturnCodes are the same if (l_rc != l_rc2) { FAPI_ERR("rcTestCopyConstructorwithErrorInfo. ReturnCodes differ"); l_result = 1; break; } // Ensure that getErrorInfo returns correct information from l_rc const ErrorInfo * l_pErrInfo = NULL; l_pErrInfo = l_rc.getErrorInfo(); if (l_pErrInfo == NULL) { FAPI_ERR("rcTestCopyConstructorwithErrorInfo. getErrorInfo " "returned NULL"); l_result = 2; break; } if (l_pErrInfo->iv_CDGs.size() != 1) { FAPI_ERR("rcTestCopyConstructorwithErrorInfo. %d CDGs", l_pErrInfo->iv_CDGs.size()); l_result = 3; break; } if (l_pErrInfo->iv_CDGs[0]->iv_target.get() != l_target) { FAPI_ERR("rcTestCopyConstructorwithErrorInfo. CDG target mismatch"); l_result = 4; break; } if (l_pErrInfo->iv_CDGs[0]->iv_gard != true) { FAPI_ERR("rcTestCopyConstructorwithErrorInfo. GARD not set"); l_result = 5; break; } // Ensure that getErrorInfo from l_rc2 returns the same pointer const ErrorInfo * l_pErrInfo2 = l_rc2.getErrorInfo(); if (l_pErrInfo != l_pErrInfo2) { FAPI_ERR("rcTestCopyConstructorwithErrorInfo. error info mismatch"); l_result = 5; break; } FAPI_INF("rcTestCopyConstructorwithErrorInfo. Success!"); } while(0); return l_result; } //****************************************************************************** // rcTestAssignmentOperatorwithErrorInfo. Ensures that the assignment operator // works when there ErrorInfo //****************************************************************************** uint32_t rcTestAssignmentOperatorwithErrorInfo() { uint32_t l_result = 0; // Create a ReturnCode ReturnCode l_rc; //TODO RTC 143127:fapi2 ReturnCode support in hostboot //l_rc.setPlatError(NULL, FAPI2_RC_PLAT_ERR_SEE_DATA); l_rc._setHwpError(RC_FAPI2_SAMPLE); TARGETING::Target * l_pTarget = NULL; TARGETING::targetService().getTopLevelTarget(l_pTarget); fapi2::Target l_target(l_pTarget); // Add error information to the ReturnCode const void * l_objects[] = {&l_target}; fapi2::ErrorInfoEntry l_entries[1]; l_entries[0].iv_type = fapi2::EI_TYPE_CDG; l_entries[0].target_cdg.iv_targetObjIndex = 0; l_entries[0].target_cdg.iv_callout = 0; l_entries[0].target_cdg.iv_deconfigure = 0; l_entries[0].target_cdg.iv_gard = 1; l_entries[0].target_cdg.iv_calloutPriority = fapi2::CalloutPriorities::LOW; l_rc.addErrorInfo(l_objects, l_entries, 1); // Create a ReturnCode using the assignment operator ReturnCode l_rc2; l_rc2 = l_rc; do { // Ensure that the two ReturnCodes are the same if (l_rc != l_rc2) { FAPI_ERR("rcTestAssignmentOperatorwithErrorInfo. ReturnCodes " "differ"); l_result = 1; break; } // Ensure that getErrorInfo returns correct information from l_rc const ErrorInfo * l_pErrInfo = NULL; l_pErrInfo = l_rc.getErrorInfo(); if (l_pErrInfo == NULL) { FAPI_ERR("rcTestAssignmentOperatorwithErrorInfo. getErrorInfo " "returned NULL"); l_result = 2; break; } if (l_pErrInfo->iv_CDGs.size() != 1) { FAPI_ERR("rcTestAssignmentOperatorwithErrorInfo. %d CDGs", l_pErrInfo->iv_CDGs.size()); l_result = 3; break; } if (l_pErrInfo->iv_CDGs[0]->iv_target.get() != l_target) { FAPI_ERR("rcTestAssignmentOperatorwithErrorInfo. CDG target " "mismatch"); l_result = 4; break; } if (l_pErrInfo->iv_CDGs[0]->iv_gard != true) { FAPI_ERR("rcTestAssignmentOperatorwithErrorInfo. GARD not set"); l_result = 5; break; } // Ensure that getErrorInfo from l_rc2 returns the same pointer const ErrorInfo * l_pErrInfo2 = l_rc2.getErrorInfo(); if (l_pErrInfo != l_pErrInfo2) { FAPI_ERR("rcTestAssignmentOperatorwithErrorInfo. error " "info mismatch"); l_result = 5; break; } FAPI_INF("rcTestAssignmentOperatorwithErrorInfo. Success!"); } while(0); return l_result; } //****************************************************************************** // rcTestClearErrorInfo. Ensures that setting the ReturnCode to success clears // ErrorInfo //****************************************************************************** uint32_t rcTestClearErrorInfo() { uint32_t l_result = 0; // Create a ReturnCode ReturnCode l_rc; //TODO RTC 143127:fapi2 ReturnCode support in hostboot //l_rc.setPlatError(NULL, FAPI2_RC_PLAT_ERR_SEE_DATA); l_rc._setHwpError(RC_FAPI2_SAMPLE); TARGETING::Target * l_pTarget = NULL; TARGETING::targetService().getTopLevelTarget(l_pTarget); fapi2::Target l_target(l_pTarget); // Add error information to the ReturnCode const void * l_objects[] = {&l_target}; fapi2::ErrorInfoEntry l_entries[1]; l_entries[0].iv_type = fapi2::EI_TYPE_CDG; l_entries[0].target_cdg.iv_targetObjIndex = 0; l_entries[0].target_cdg.iv_callout = 0; l_entries[0].target_cdg.iv_deconfigure = 0; l_entries[0].target_cdg.iv_gard = 1; l_entries[0].target_cdg.iv_calloutPriority = fapi2::CalloutPriorities::LOW; l_rc.addErrorInfo(l_objects, l_entries, 1); // Set the ReturnCode to success l_rc = FAPI2_RC_SUCCESS; // Check that there is no ErrorInfo const ErrorInfo * l_pErrInfo = NULL; l_pErrInfo = l_rc.getErrorInfo(); if (l_pErrInfo != NULL) { FAPI_ERR("rcTestClearErrorInfo. getErrorInfo returned NULL"); l_result = 1; } else { FAPI_INF("rcTestClearErrorInfo. Success!"); } return l_result; } //****************************************************************************** // rcTestAddErrorInfo.Ensures that multiple Error Info of each type can be added //****************************************************************************** uint32_t rcTestAddErrorInfo() { uint32_t l_result = 0; // Create a ReturnCode ReturnCode l_rc; l_rc._setHwpError(RC_FAPI2_SAMPLE); TARGETING::Target * l_pTarget = NULL; TARGETING::targetService().getTopLevelTarget(l_pTarget); fapi2::Target l_target(l_pTarget); TARGETING::Target* l_masterProc = NULL; TARGETING::targetService().masterProcChipTargetHandle( l_masterProc ); fapi2::Target l_target2(l_masterProc); // Create 2 FFDCs uint8_t l_ffdc = 0x12; uint32_t l_ffdc2 = 0x12345678; // Add error information to the ReturnCode const void * l_objects[] = {&l_ffdc, &l_ffdc2, &l_target, &l_target2}; fapi2::ErrorInfoEntry l_entries[10]; l_entries[0].iv_type = fapi2::EI_TYPE_FFDC; l_entries[0].ffdc.iv_ffdcObjIndex = 0; l_entries[0].ffdc.iv_ffdcId = 0x22334455; l_entries[0].ffdc.iv_ffdcSize = fapi2::getErrorInfoFfdcSize(l_ffdc); l_entries[1].iv_type = fapi2::EI_TYPE_FFDC; l_entries[1].ffdc.iv_ffdcObjIndex = 1; l_entries[1].ffdc.iv_ffdcId = 0x33445566; l_entries[1].ffdc.iv_ffdcSize = fapi2::getErrorInfoFfdcSize(l_ffdc2); l_entries[2].iv_type = fapi2::EI_TYPE_CDG; l_entries[2].target_cdg.iv_targetObjIndex = 2; l_entries[2].target_cdg.iv_callout = 0; l_entries[2].target_cdg.iv_deconfigure = 1; l_entries[2].target_cdg.iv_gard = 0; l_entries[2].target_cdg.iv_calloutPriority = fapi2::CalloutPriorities::HIGH; l_entries[3].iv_type = fapi2::EI_TYPE_CDG; l_entries[3].target_cdg.iv_targetObjIndex = 3; l_entries[3].target_cdg.iv_callout = 0; l_entries[3].target_cdg.iv_deconfigure = 0; l_entries[3].target_cdg.iv_gard = 1; l_entries[3].target_cdg.iv_calloutPriority = fapi2::CalloutPriorities::MEDIUM; l_entries[4].iv_type = fapi2::EI_TYPE_PROCEDURE_CALLOUT; l_entries[4].proc_callout.iv_procedure = fapi2::ProcedureCallouts::CODE; l_entries[4].proc_callout.iv_calloutPriority = fapi2::CalloutPriorities::MEDIUM; l_entries[5].iv_type = fapi2::EI_TYPE_PROCEDURE_CALLOUT; l_entries[5].proc_callout.iv_procedure = fapi2::ProcedureCallouts::LVL_SUPPORT; l_entries[5].proc_callout.iv_calloutPriority = fapi2::CalloutPriorities::LOW; l_entries[6].iv_type = fapi2::EI_TYPE_BUS_CALLOUT; l_entries[6].bus_callout.iv_endpoint1ObjIndex = 2; l_entries[6].bus_callout.iv_endpoint2ObjIndex = 3; l_entries[6].bus_callout.iv_calloutPriority = fapi2::CalloutPriorities::LOW; l_entries[7].iv_type = fapi2::EI_TYPE_BUS_CALLOUT; l_entries[7].bus_callout.iv_endpoint1ObjIndex = 2; l_entries[7].bus_callout.iv_endpoint2ObjIndex = 3; l_entries[7].bus_callout.iv_calloutPriority = fapi2::CalloutPriorities::HIGH; l_entries[8].iv_type = fapi2::EI_TYPE_CHILDREN_CDG; l_entries[8].children_cdg.iv_parentObjIndex = 2; l_entries[8].children_cdg.iv_callout = 1; l_entries[8].children_cdg.iv_deconfigure = 1; l_entries[8].children_cdg.iv_childType = fapi2::TARGET_TYPE_ABUS_ENDPOINT; l_entries[8].children_cdg.iv_gard = 0; l_entries[8].children_cdg.iv_calloutPriority = fapi2::CalloutPriorities::HIGH; l_entries[9].iv_type = fapi2::EI_TYPE_CHILDREN_CDG; l_entries[9].children_cdg.iv_parentObjIndex = 3; l_entries[9].children_cdg.iv_callout = 1; l_entries[9].children_cdg.iv_deconfigure = 0; l_entries[9].children_cdg.iv_childType = fapi2::TARGET_TYPE_MBA_CHIPLET; l_entries[9].children_cdg.iv_gard = 1; l_entries[9].children_cdg.iv_calloutPriority = fapi2::CalloutPriorities::MEDIUM; l_rc.addErrorInfo(l_objects, l_entries, 10); do { // Check that the Error Info can be retrieved const ErrorInfo * l_pErrInfo = NULL; l_pErrInfo = l_rc.getErrorInfo(); if (l_pErrInfo == NULL) { FAPI_ERR("rcTestAddErrorInfo. getErrorInfo returned NULL"); l_result = 1; break; } // Check the FFDC error information if (l_pErrInfo->iv_ffdcs.size() != 2) { FAPI_ERR("rcTestAddErrorInfo.%d FFDCs",l_pErrInfo->iv_ffdcs.size()); l_result = 2; break; } uint32_t l_size = 0; const void * l_pFfdc = NULL; l_pFfdc = l_pErrInfo->iv_ffdcs[0]->getData(l_size); if (l_size != sizeof(l_ffdc)) { FAPI_ERR("rcTestAddErrorInfo. FFDC[0] size is %d", l_size); l_result = 3; break; } const uint8_t * l_pFfdcCheck = static_cast(l_pFfdc); if (*l_pFfdcCheck != 0x12) { FAPI_ERR("rcTestAddErrorInfo. FFDC[0] is 0x%x", *l_pFfdcCheck); l_result = 4; break; } l_pFfdc = l_pErrInfo->iv_ffdcs[1]->getData(l_size); if (l_size != sizeof(l_ffdc2)) { FAPI_ERR("rcTestAddErrorInfo. FFDC[1] size is %d", l_size); l_result = 5; break; } const uint32_t * l_pFfdc2Check = static_cast(l_pFfdc); if (*l_pFfdc2Check != 0x12345678) { FAPI_ERR("rcTestAddErrorInfo. FFDC[1] is 0x%x", *l_pFfdc2Check); l_result = 6; break; } // Check the callout/deconfigure/GARD error information if (l_pErrInfo->iv_CDGs.size() != 2) { FAPI_ERR("rcTestAddErrorInfo. %d CDGs", l_pErrInfo->iv_CDGs.size()); l_result = 7; break; } if (l_pErrInfo->iv_CDGs[0]->iv_target.get() != l_target) { FAPI_ERR("rcTestAddErrorInfo. CDG[0] target mismatch"); l_result = 8; break; } if (l_pErrInfo->iv_CDGs[0]->iv_callout != false) { FAPI_ERR("rcTestAddErrorInfo. CDG[0] callout set"); l_result = 9; break; } if (l_pErrInfo->iv_CDGs[0]->iv_calloutPriority != CalloutPriorities::HIGH) { FAPI_ERR("rcTestAddErrorInfo. CDG[0] callout priority mismatch"); l_result = 10; break; } if (l_pErrInfo->iv_CDGs[0]->iv_deconfigure != true) { FAPI_ERR("rcTestAddErrorInfo. CDG[0] deconfigure not set"); l_result = 11; break; } if (l_pErrInfo->iv_CDGs[0]->iv_gard != false) { FAPI_ERR("rcTestAddErrorInfo. CDG[0] gard set"); l_result = 12; break; } if (l_pErrInfo->iv_CDGs[1]->iv_target.get() != l_target2) { FAPI_ERR("rcTestAddErrorInfo. CDG[1] target mismatch"); l_result = 13; break; } if (l_pErrInfo->iv_CDGs[1]->iv_callout != false) { FAPI_ERR("rcTestAddErrorInfo. CDG[0] callout set"); l_result = 14; break; } if (l_pErrInfo->iv_CDGs[1]->iv_calloutPriority != CalloutPriorities::MEDIUM) { FAPI_ERR("rcTestAddErrorInfo. CDG[1] callout priority mismatch"); l_result = 15; break; } if (l_pErrInfo->iv_CDGs[1]->iv_deconfigure != false) { FAPI_ERR("rcTestAddErrorInfo. CDG[1] deconfigure set"); l_result = 16; break; } if (l_pErrInfo->iv_CDGs[1]->iv_gard != true) { FAPI_ERR("rcTestAddErrorInfo. CDG[1] gard not set"); l_result = 17; break; } // Additional procedures called out due to Bus Callout if (l_pErrInfo->iv_procedureCallouts.size() != 4) { FAPI_ERR("rcTestAddErrorInfo. %d proc-callouts", l_pErrInfo->iv_procedureCallouts.size()); l_result = 18; break; } if (l_pErrInfo->iv_procedureCallouts[0]->iv_procedure != ProcedureCallouts::CODE) { FAPI_ERR("rcTestAddErrorInfo. procedure[0] callout mismatch (%d)", l_pErrInfo->iv_procedureCallouts[0]->iv_procedure); l_result = 19; break; } if (l_pErrInfo->iv_procedureCallouts[0]->iv_calloutPriority != CalloutPriorities::MEDIUM) { FAPI_ERR("rcTestAddErrorInfo. procedure[0] callout priority " "mismatch (%d)", l_pErrInfo->iv_procedureCallouts[0]->iv_calloutPriority); l_result = 20; break; } if (l_pErrInfo->iv_procedureCallouts[1]->iv_procedure != ProcedureCallouts::LVL_SUPPORT) { FAPI_ERR("rcTestAddErrorInfo. procedure[1] callout mismatch (%d)", l_pErrInfo->iv_procedureCallouts[1]->iv_procedure); l_result = 21; break; } if (l_pErrInfo->iv_procedureCallouts[1]->iv_calloutPriority != CalloutPriorities::LOW) { FAPI_ERR("rcTestAddErrorInfo. procedure[1] callout priority " "mismatch (%d)", l_pErrInfo->iv_procedureCallouts[1]->iv_calloutPriority); l_result = 22; break; } if (l_pErrInfo->iv_procedureCallouts[2]->iv_procedure != ProcedureCallouts::BUS_CALLOUT) { FAPI_ERR("rcTestAddErrorInfo. procedure[2] callout mismatch (%d)", l_pErrInfo->iv_procedureCallouts[2]->iv_procedure); l_result = 23; break; } if (l_pErrInfo->iv_procedureCallouts[2]->iv_calloutPriority != CalloutPriorities::LOW) { FAPI_ERR("rcTestAddErrorInfo. procedure[2] callout priority " "mismatch (%d)", l_pErrInfo->iv_procedureCallouts[2]->iv_calloutPriority); l_result = 24; break; } if (l_pErrInfo->iv_procedureCallouts[3]->iv_procedure != ProcedureCallouts::BUS_CALLOUT) { FAPI_ERR("rcTestAddErrorInfo. procedure[3] callout mismatch (%d)", l_pErrInfo->iv_procedureCallouts[3]->iv_procedure); l_result = 25; break; } if (l_pErrInfo->iv_procedureCallouts[3]->iv_calloutPriority != CalloutPriorities::HIGH) { FAPI_ERR("rcTestAddErrorInfo. procedure[3] callout priority " "mismatch (%d)", l_pErrInfo->iv_procedureCallouts[3]->iv_calloutPriority); l_result = 26; break; } if (l_pErrInfo->iv_busCallouts.size() != 2) { FAPI_ERR("rcTestAddErrorInfo. %d bus-callouts", l_pErrInfo->iv_busCallouts.size()); l_result = 27; break; } if (l_pErrInfo->iv_busCallouts[0]->iv_target1.get() != l_target) { FAPI_ERR("rcTestAddErrorInfo. bus target mismatch 1"); l_result = 28; break; } if (l_pErrInfo->iv_busCallouts[0]->iv_target2.get() != l_target2) { FAPI_ERR("rcTestAddErrorInfo. bus target mismatch 2"); l_result = 29; break; } if (l_pErrInfo->iv_busCallouts[0]->iv_calloutPriority != CalloutPriorities::LOW) { FAPI_ERR("rcTestAddErrorInfo. bus callout priority mismatch 1 (%d)", l_pErrInfo->iv_busCallouts[0]->iv_calloutPriority); l_result = 30; break; } if (l_pErrInfo->iv_busCallouts[1]->iv_target1.get() != l_target) { FAPI_ERR("rcTestAddErrorInfo. bus target mismatch 3"); l_result = 31; break; } if (l_pErrInfo->iv_busCallouts[1]->iv_target2.get() != l_target2) { FAPI_ERR("rcTestAddErrorInfo. bus target mismatch 4"); l_result = 32; break; } if (l_pErrInfo->iv_busCallouts[1]->iv_calloutPriority != CalloutPriorities::MEDIUM) { FAPI_ERR("rcTestAddErrorInfo. bus callout priority mismatch 2 (%d)", l_pErrInfo->iv_busCallouts[1]->iv_calloutPriority); l_result = 33; break; } if (l_pErrInfo->iv_childrenCDGs.size() != 2) { FAPI_ERR("rcTestAddErrorInfo. %d children-cdgs", l_pErrInfo->iv_childrenCDGs.size()); l_result = 34; break; } if (l_pErrInfo->iv_childrenCDGs[0]->iv_parent.get() != l_target) { FAPI_ERR("rcTestAddErrorInfo. parent chip mismatch 1"); l_result = 35; break; } if (l_pErrInfo->iv_childrenCDGs[0]->iv_childType != fapi2::TARGET_TYPE_ABUS_ENDPOINT) { FAPI_ERR("rcTestAddErrorInfo. child type mismatch 1 (0x%08x)", l_pErrInfo->iv_childrenCDGs[0]->iv_childType); l_result = 36; break; } if (l_pErrInfo->iv_childrenCDGs[0]->iv_calloutPriority != CalloutPriorities::HIGH) { FAPI_ERR("rcTestAddErrorInfo. child cdg priority mismatch 1 (%d)", l_pErrInfo->iv_childrenCDGs[0]->iv_calloutPriority); l_result = 37; break; } if (l_pErrInfo->iv_childrenCDGs[0]->iv_callout != true) { FAPI_ERR("rcTestAddErrorInfo. child cdg callout not set 1"); l_result = 38; break; } if (l_pErrInfo->iv_childrenCDGs[0]->iv_deconfigure != true) { FAPI_ERR("rcTestAddErrorInfo. child cdg deconfigure not set 1"); l_result = 39; break; } if (l_pErrInfo->iv_childrenCDGs[0]->iv_gard != false) { FAPI_ERR("rcTestAddErrorInfo. child cdg GARD set 1"); l_result = 40; break; } if (l_pErrInfo->iv_childrenCDGs[1]->iv_childType != fapi2::TARGET_TYPE_MBA_CHIPLET) { FAPI_ERR("rcTestAddErrorInfo. child type mismatch 2 (0x%08x)", l_pErrInfo->iv_childrenCDGs[1]->iv_childType); l_result = 41; break; } if (l_pErrInfo->iv_childrenCDGs[1]->iv_calloutPriority != CalloutPriorities::MEDIUM) { FAPI_ERR("rcTestAddErrorInfo. child cdg priority mismatch 2 (%d)", l_pErrInfo->iv_childrenCDGs[1]->iv_calloutPriority); l_result = 42; break; } if (l_pErrInfo->iv_childrenCDGs[1]->iv_callout != true) { FAPI_ERR("rcTestAddErrorInfo. child cdg callout not set 2"); l_result = 43; break; } if (l_pErrInfo->iv_childrenCDGs[1]->iv_deconfigure != false) { FAPI_ERR("rcTestAddErrorInfo. child cdg deconfigure set 2"); l_result = 44; break; } if (l_pErrInfo->iv_childrenCDGs[1]->iv_gard != true) { FAPI_ERR("rcTestAddErrorInfo. child cdg GARD not set 2"); l_result = 45; break; } FAPI_INF("rcTestAddErrorInfo. Success!"); } while(0); return l_result; } //****************************************************************************** // rcTestStaticCast. Ensures that static_cast can be applied to a ReturnCode //****************************************************************************** uint32_t rcTestStaticCast() { uint32_t l_result = 0; // Create a ReturnCode ReturnCode l_rc(FAPI2_RC_INVALID_ATTR_GET); uint64_t l_check = static_cast(l_rc); if (l_check != FAPI2_RC_INVALID_ATTR_GET) { FAPI_ERR("rcTestStaticCast. RC is not FAPI2_RC_INVALID_ATTR_GET, " " it is 0x%x", l_check); l_result = 1; } else { FAPI_INF("rcTestStaticCast. Success!"); } return l_result; } #ifdef fips uint32_t rcTestRcToErrl() { uint32_t l_result = 0; // Create a FAPI ReturnCode ReturnCode l_rc(FAPI2_RC_INVALID_ATTR_GET); // Create Target of functional processor chip TARGETING::Target *l_proc = NULL; // Use PredicateIsFunctional (formerly HwasPredicate) to filter // only functional chips TARGETING::PredicateIsFunctional l_isFunctional; do { // filter for functional Proc Chips TARGETING::PredicateCTM l_procChipFilter(TARGETING::CLASS_CHIP, TARGETING::TYPE_PROC ); // declare a postfix expression TARGETING::PredicatePostfixExpr l_functionalAndProcChipFilter; // is-a-proc-chip is-functional AND l_functionalAndProcChipFilter.push(&l_procChipFilter). push(&l_isFunctional).And(); // loop through all the targets, applying the filter, // and put the results in l_pFuncProc TARGETING::TargetRangeFilter l_pFuncProcFilter( TARGETING::targetService().begin(), TARGETING::targetService().end(), &l_functionalAndProcChipFilter); // Get a pointer to that first function proc if(!l_pFuncProcFilter) { l_result = 1; FAPI_ERR("rcTestRcToErrl:No functional processors found"); break; } l_proc = *l_pFuncProcFilter; TARGETING::Target* l_pConstTarget = const_cast(l_proc); fapi2::Target l_procTarget( reinterpret_cast(l_pConstTarget)); const void * l_objects[] = { &l_fapiTarget}; l_rc._setHwpError(RC_FAPI2_SAMPLE); fapi2::ErrorInfoEntry l_entries[1]; l_entries[0].iv_type = fapi2::EI_TYPE_CDG; l_entries[0].target_cdg.iv_targetObjIndex = 0; l_entries[0].target_cdg.iv_callout = 0; l_entries[0].target_cdg.iv_deconfigure = 0; l_entries[0].target_cdg.iv_gard = 1; l_entries[0].target_cdg.iv_calloutPriority = fapi2::CalloutPriorities::LOW; // Add the error info l_rc.addErrorInfo(l_objects, l_entries, 1); // Check that the Error Info can be retrieved const ErrorInfo * l_pErrInfo = NULL; l_pErrInfo = l_rc.getErrorInfo(); if (l_pErrInfo == NULL) { FAPI_ERR("rcTestRcToErrl:getErrorInfo returned NULL"); l_result = 2; break; } // Check the callout/deconfigure/GARD error information if (l_pErrInfo->iv_CDGs[0]->iv_target != l_fapiTarget) { FAPI_ERR("rcTestRcToErrl:CDG[0] target mismatch"); l_result = 3; break; } if (l_pErrInfo->iv_CDGs[0]->iv_gard == false) { FAPI_ERR("rcTestRcToErrl:CDG[0] gard not set"); l_result = 4; break; } // fapiRcToErrl is implicitly calling processEICDGs errlHndl_t pError = fapi2::rcToErrl(l_rc); if(pError == NULL) { FAPI_ERR("rcTestRcToErrl:fapiRcToErrl returnd No Errorlog handle"); l_result = 5; break; } srciIdx_t l_calloutCnt = 0; const SrciSrc* pSRC = pError->getSRC(); pSRC->Callouts(l_calloutCnt); if(l_calloutCnt < 1) { l_result = 6; FAPI_ERR("Error. No Callout from fapiRcToErrl"); break; } // TODO RTC 79353 // Garded Target must be UnGard here. FAPI_INF("rcTestRcToErrl:Deconfig/Gard HWP callout TC success"); if(pError != NULL) { delete pError; pError = NULL; } }while(0); return l_result; } #endif //fips uint32_t rcTestReturnCodeAttrErrls() { uint32_t numTests = 0; uint32_t numFails = 0; errlHndl_t l_errl = NULL; FAPI_INF("rcTestReturnCodeAttrErrls() running"); do { // Create a vector of TARGETING::Target pointers TARGETING::TargetHandleList l_chipList; // Get a list of all of the proc chips TARGETING::getAllChips(l_chipList, TARGETING::TYPE_PROC, false); TARGETING::Target * l_Proc = NULL; //Take the first proc and use it if (l_chipList.size() > 0) { l_Proc = l_chipList[0]; } numTests++; if(l_Proc == NULL) { // Send an errorlog because we cannot find any procs. TS_FAIL("getAllChips: could not find proc, skipping tests"); numFails++; break; } numTests++; FAPI_INVOKE_HWP(l_errl, p9_ffdc_fail); if(l_errl != NULL) { FAPI_INF("p9_ffdc_fail returned errl"); errlCommit(l_errl,CXXTEST_COMP_ID); l_errl = NULL; } else { TS_FAIL("No error from p9_ffdc_fail !!"); numFails++; } numTests++; FAPI_INVOKE_HWP(l_errl, p9_procedureFfdc_fail); if(l_errl != NULL) { FAPI_INF("p9_procedureFfdc_fail returned errl"); errlCommit(l_errl,CXXTEST_COMP_ID); l_errl = NULL; } else { TS_FAIL("No error from p9_procedureFfdc_fail !!"); numFails++; } Target fapi2_procTarget( l_Proc); numTests++; FAPI_INVOKE_HWP(l_errl, p9_registerFfdc_fail, fapi2_procTarget); if(l_errl != NULL) { FAPI_INF("p9_registerFfdc_fail returned errl"); errlCommit(l_errl,CXXTEST_COMP_ID); l_errl = NULL; } else { TS_FAIL("No error from p9_registerFfdc_fail !!"); numFails++; } } while (0); FAPI_INF("rcTestReturnCodeAttrErrls Test Complete. %d/%d fails", numFails , numTests); return numFails; } }