/* IBM_PROLOG_BEGIN_TAG */ /* This is an automatically generated prolog. */ /* */ /* $Source: src/usr/runtime/test/runtimeattrstest.H $ */ /* */ /* IBM CONFIDENTIAL */ /* */ /* COPYRIGHT International Business Machines Corp. 2012,2013 */ /* */ /* p1 */ /* */ /* Object Code Only (OCO) source materials */ /* Licensed Internal Code Source Materials */ /* IBM HostBoot Licensed Internal Code */ /* */ /* The source code for this program is not published or otherwise */ /* divested of its trade secrets, irrespective of what has been */ /* deposited with the U.S. Copyright Office. */ /* */ /* Origin: 30 */ /* */ /* IBM_PROLOG_END_TAG */ #ifndef __TEST_RUNTIMEATTRSTEST_H #define __TEST_RUNTIMEATTRSTEST_H /** * @file runtimeattrstest.H * */ #include #include #include #include #include #include #include //for MAGIC #include #include #include #include "../common/hsvc_attribute_structs.H" extern trace_desc_t* g_trac_runtime; using namespace fapi; class RuntimeAttrsTest: public CxxTest::TestSuite { public: void testVerifySystemAttributes(void) { TRACFCOMP( g_trac_runtime, "testVerifySystemAttributes> start" ); hsvc_system_data_t* sysdata = getSysPtr(); //Look for a valid node number if( sysdata->nodePresent != 0x8000000000000000 ) { TRACFCOMP( g_trac_runtime, "nodePresent=%.16X", sysdata->nodePresent ); TS_FAIL("testVerifySystemAttributes> nodePresent is invalid"); } //Make sure we have some attributes out there if( sysdata->numAttr == 0 ) { TS_FAIL("testVerifySystemAttributes> numAttr is zero"); } //Make sure that the offset is what we expect if( sysdata->offset != 24 ) //3 words from the start { TRACFCOMP( g_trac_runtime, "offset=%.16X", sysdata->offset ); TS_FAIL("testVerifySystemAttributes> offset is invalid"); } char* beginning = reinterpret_cast(sysdata); hsvc_attr_header_t* headers = reinterpret_cast ((beginning+sysdata->offset)); //Grab a couple of arbitrary attributes ReturnCode l_rc; fapi::ATTR_FREQ_PB_Type freq = 0; l_rc = FAPI_ATTR_GET(ATTR_FREQ_PB,NULL,freq); if( l_rc ) { TS_FAIL("Error getting fapi::ATTR_FREQ_PB"); } bool freq_found = false; fapi::ATTR_PROC_R_LOADLINE_VDD_Type loadline = 0; l_rc = FAPI_ATTR_GET(ATTR_PROC_R_LOADLINE_VDD,NULL,loadline); if( l_rc ) { TS_FAIL("Error getting fapi::ATTR_PROC_R_LOADLINE_VDD"); } bool loadline_found = false; uint64_t attr = 0; while( headers[attr].id != hsvc_attr_header_t::NO_ATTRIBUTE ) { if( headers[attr].id == fapi::ATTR_FREQ_PB ) { freq_found = true; if( headers[attr].sizeBytes != sizeof(fapi::ATTR_FREQ_PB_Type) ) { TRACFCOMP( g_trac_runtime, "size=%.16X", headers[attr].sizeBytes ); TS_FAIL("Size of fapi::ATTR_FREQ_PB data is wrong"); } else { fapi::ATTR_FREQ_PB_Type* freq_act = reinterpret_cast (beginning+headers[attr].offset); if( *freq_act != freq ) { TRACFCOMP( g_trac_runtime, "Expected=%X, Actual=%X", freq, *freq_act ); TS_FAIL("fapi::ATTR_FREQ_PB data is wrong"); } } } else if( headers[attr].id == fapi::ATTR_PROC_R_LOADLINE_VDD ) { loadline_found = true; if( headers[attr].sizeBytes != sizeof(fapi::ATTR_PROC_R_LOADLINE_VDD_Type) ) { TRACFCOMP( g_trac_runtime, "size=%.16X", headers[attr].sizeBytes ); TS_FAIL("Size of fapi::ATTR_PROC_R_LOADLINE_VDD data is wrong"); } else { fapi::ATTR_PROC_R_LOADLINE_VDD_Type* loadline_act = reinterpret_cast (beginning+headers[attr].offset); if( *loadline_act != loadline ) { TRACFCOMP( g_trac_runtime, "Expected=%X, Actual=%X", loadline, *loadline_act ); TS_FAIL("fapi::ATTR_PROC_R_LOADLINE_VDD data is wrong"); } } } attr++; } if( attr != sysdata->numAttr ) { TRACFCOMP( g_trac_runtime, "numAttr=%d, found attr=%d", sysdata->numAttr, attr ); TS_FAIL("testVerifySystemAttributes> Number of attributes found doesn't match expected value"); } if( !freq_found ) { TS_FAIL("Never found FREQ_PB in system attributes"); } if( !loadline_found ) { TS_FAIL("Never found ATTR_PROC_R_LOADLINE_VDD in system attributes"); } TRACFCOMP( g_trac_runtime, "testVerifySystemAttributes> finish" ); } void testVerifyNodeAttributes(void) { TRACFCOMP( g_trac_runtime, "testVerifyNodeAttributes> start" ); hsvc_node_data_t* nodedata = getNodePtr(); //Make sure we have some targets out there (at least 1 proc and 1 ex) if( nodedata->numTargets < 2 ) { TS_FAIL("testVerifyNodeAttributes> numTargets is zero"); } //Make sure that the offsets are reasonable if( nodedata->procOffset == 0 ) { TS_FAIL("testVerifyNodeAttributes> procOffset is invalid"); } if( nodedata->exOffset == 0 ) { TS_FAIL("testVerifyNodeAttributes> exOffset is invalid"); } if( nodedata->procOffset == nodedata->exOffset ) { TS_FAIL("testVerifyNodeAttributes> offsets are equal - that is bad"); } char* beginning = reinterpret_cast(nodedata); //Look at the procs hsvc_proc_header_t* procs = reinterpret_cast ((beginning+nodedata->procOffset)); //Verify the header data is okay hsvc_proc_header_t* curproc = procs; TRACDCOMP( g_trac_runtime, "procs=%p", procs ); while( curproc->procid != hsvc_proc_header_t::NO_PROC ) { //Verify we have some attributes if( curproc->numAttr == 0 ) { TRACFCOMP(g_trac_runtime,"Proc %d has zero attributes",curproc->procid); TS_FAIL("testVerifyNodeAttributes> no attributes for proc"); } //Find a target to match this one fapi::Target* proc = getProcTarget( curproc->procid ); TRACDCOMP( g_trac_runtime, "procid = %d", curproc->procid ); //Grab a couple of arbitrary attributes hsvc_attr_header_t* headers = reinterpret_cast ((beginning+curproc->offset)); ReturnCode l_rc; fapi::ATTR_CHIP_ID_Type tmp1 = 0; l_rc = FAPI_ATTR_GET(ATTR_CHIP_ID,proc,tmp1); if( l_rc ) { TS_FAIL("Error getting fapi::ATTR_CHIP_ID"); } bool tmp1_found = false; fapi::ATTR_PM_PVSAFE_PSTATE_Type tmp2 = 0; l_rc = FAPI_ATTR_GET(ATTR_PM_PVSAFE_PSTATE,proc,tmp2); if( l_rc ) { TS_FAIL("Error getting fapi::ATTR_PM_PVSAFE_PSTATE"); } bool tmp2_found = false; uint64_t attr = 0; while( headers[attr].id != hsvc_attr_header_t::NO_ATTRIBUTE ) { if( headers[attr].id == fapi::ATTR_CHIP_ID ) { tmp1_found = true; if( headers[attr].sizeBytes != sizeof(fapi::ATTR_CHIP_ID_Type) ) { TRACFCOMP( g_trac_runtime, "procid=%d: size=%.16X", curproc->procid, headers[attr].sizeBytes ); TS_FAIL("Size of fapi::ATTR_CHIP_ID data is wrong"); } else { fapi::ATTR_CHIP_ID_Type* tmp1_act = reinterpret_cast (beginning+headers[attr].offset); if( *tmp1_act != tmp1 ) { TRACFCOMP( g_trac_runtime, "procid=%d: Expected=%X, Actual=%X", curproc->procid, tmp1, *tmp1_act ); TS_FAIL("fapi::ATTR_CHIP_ID data is wrong"); } } } else if( headers[attr].id == fapi::ATTR_PM_PVSAFE_PSTATE ) { tmp2_found = true; if( headers[attr].sizeBytes != sizeof(fapi::ATTR_PM_PVSAFE_PSTATE_Type) ) { TRACFCOMP( g_trac_runtime, "size=%.16X", headers[attr].sizeBytes ); TS_FAIL("Size of fapi::ATTR_PM_PVSAFE_PSTATE data is wrong"); } else { fapi::ATTR_PM_PVSAFE_PSTATE_Type* tmp2_act = reinterpret_cast (beginning+headers[attr].offset); if( *tmp2_act != tmp2 ) { TRACFCOMP( g_trac_runtime, "procid=%d: Expected=%X, Actual=%X", curproc->procid, tmp2, *tmp2_act ); TS_FAIL("fapi::ATTR_PM_PVSAFE_PSTATE data is wrong"); } } } attr++; } if( attr != curproc->numAttr ) { TRACFCOMP( g_trac_runtime, "procid=%d: numAttr=%d, found attr=%d", curproc->procid, curproc->numAttr, attr ); TS_FAIL("testVerifyNodeAttributes> Number of attributes found doesn't match expected value"); } if( !tmp1_found ) { TS_FAIL("Never found ATTR_PM_PVSAFE_PSTATE for procid=%d",curproc->procid); } if( !tmp2_found ) { TS_FAIL("Never found ATTR_PM_PVSAFE_PSTATE for procid=%d",curproc->procid); } delete proc; curproc++; } //Look at the EXs hsvc_ex_header_t* exs = reinterpret_cast ((beginning+nodedata->exOffset)); //Verify the header data is okay hsvc_ex_header_t* curex = exs; while( curex->parent_procid != hsvc_proc_header_t::NO_PROC ) { //Verify we have some attributes if( curex->numAttr == 0 ) { TRACFCOMP(g_trac_runtime,"Proc %d has zero attributes",curproc->procid); TS_FAIL("testVerifyNodeAttributes> no attributes for proc"); } //Find a target to match this one fapi::Target* ex = getExTarget( curex->parent_procid, curex->chiplet ); TRACDCOMP( g_trac_runtime, "procid = %d, chiplet = %d", curex->parent_procid, curex->chiplet ); //Grab a couple of arbitrary attributes hsvc_attr_header_t* headers = reinterpret_cast ((beginning+curex->offset)); ReturnCode l_rc; fapi::ATTR_CHIP_UNIT_POS_Type tmp1 = 0; l_rc = FAPI_ATTR_GET(ATTR_CHIP_UNIT_POS,ex,tmp1); if( l_rc ) { TS_FAIL("Error getting fapi::ATTR_CHIP_UNIT_POS"); errlHndl_t errhdl = fapiRcToErrl(l_rc); errlCommit(errhdl,RUNTIME_COMP_ID); } bool tmp1_found = false; fapi::ATTR_FUNCTIONAL_Type tmp2 = 0; l_rc = FAPI_ATTR_GET(ATTR_FUNCTIONAL,ex,tmp2); if( l_rc ) { TS_FAIL("Error getting fapi::ATTR_FUNCTIONAL"); errlHndl_t errhdl = fapiRcToErrl(l_rc); errlCommit(errhdl,RUNTIME_COMP_ID); } bool tmp2_found = false; uint64_t attr = 0; while( headers[attr].id != hsvc_attr_header_t::NO_ATTRIBUTE ) { if( headers[attr].id == fapi::ATTR_CHIP_UNIT_POS ) { tmp1_found = true; if( headers[attr].sizeBytes != sizeof(fapi::ATTR_CHIP_UNIT_POS_Type) ) { TRACFCOMP( g_trac_runtime, "size=%.16X", headers[attr].sizeBytes ); TS_FAIL("Size of fapi::ATTR_CHIP_UNIT_POS data is wrong"); } else { fapi::ATTR_CHIP_UNIT_POS_Type* tmp1_act = reinterpret_cast (beginning+headers[attr].offset); if( *tmp1_act != tmp1 ) { TRACFCOMP( g_trac_runtime, "procid=%d: Expected=%X, Actual=%X", curproc->procid, tmp1, *tmp1_act ); TS_FAIL("fapi::ATTR_CHIP_UNIT_POS data is wrong"); } } } else if( headers[attr].id == fapi::ATTR_FUNCTIONAL ) { tmp2_found = true; if( headers[attr].sizeBytes != sizeof(fapi::ATTR_FUNCTIONAL_Type) ) { TRACFCOMP( g_trac_runtime, "size=%.16X", headers[attr].sizeBytes ); TS_FAIL("Size of fapi::ATTR_FUNCTIONAL data is wrong"); } else { fapi::ATTR_FUNCTIONAL_Type* tmp2_act = reinterpret_cast (beginning+headers[attr].offset); if( *tmp2_act != tmp2 ) { TRACFCOMP( g_trac_runtime, "procid=%d: Expected=%X, Actual=%X", curproc->procid, tmp2, *tmp2_act ); TS_FAIL("fapi::ATTR_FUNCTIONAL data is wrong"); } } } attr++; } if( attr != curex->numAttr ) { TRACFCOMP( g_trac_runtime, "procid=%d: numAttr=%d, found attr=%d", curproc->procid, curex->numAttr, attr ); TS_FAIL("Number of attributes found doesn't match expected value"); } if( !tmp1_found ) { TS_FAIL("Never found ATTR_CHIP_UNIT_POS for procid=%d, ex=%d", curproc->procid,curex->chiplet); } if( !tmp2_found ) { TS_FAIL("Never found ATTR_FUNCTIONAL for procid=%d, ex=%d", curproc->procid,curex->chiplet); } delete ex; curex++; } TRACFCOMP( g_trac_runtime, "testVerifyNodeAttributes> finish" ); } private: hsvc_system_data_t* getSysPtr(void) { errlHndl_t errhdl = NULL; uint64_t sys_data_addr = 0; size_t sys_data_size = 0; errhdl = RUNTIME::get_host_data_section(RUNTIME::HSVC_SYSTEM_DATA, 0, sys_data_addr, sys_data_size ); if (errhdl) delete errhdl; return( (hsvc_system_data_t*)(sys_data_addr) ); }; hsvc_node_data_t* getNodePtr(void) { errlHndl_t errhdl = NULL; uint64_t node_data_addr = 0; size_t node_data_size = 0; errhdl = RUNTIME::get_host_data_section(RUNTIME::HSVC_NODE_DATA, 0, node_data_addr, node_data_size ); if (errhdl) delete errhdl; return( (hsvc_node_data_t*)(node_data_addr) ); }; //utility to fetch a proc target based on a procid TARGETING::Target* _getProcTarget( uint64_t i_procid ) { // Grab a system object to work with TARGETING::Target* sys = NULL; TARGETING::targetService().getTopLevelTarget(sys); // Loop through all of the procs TARGETING::TargetHandleList all_procs; TARGETING::getAllChips( all_procs, TARGETING::TYPE_PROC, false ); if( all_procs.empty() ) { TRACDCOMP( g_trac_runtime, "all_procs is empty!!, type=%d", TARGETING::TYPE_PROC ); TARGETING::PredicateCTM predProc(TARGETING::CLASS_CHIP, TARGETING::TYPE_PROC); TARGETING::PredicatePostfixExpr checkExpr; checkExpr.push(&predProc); TARGETING::targetService().getAssociated( all_procs, sys, TARGETING::TargetService::CHILD, TARGETING::TargetService::ALL, &checkExpr ); } TARGETING::Target* proc_target = NULL; for( size_t p = 0; p < all_procs.size(); p++ ) { uint64_t node_id = all_procs[p]->getAttr(); uint64_t CHIP_UNIT_POS = all_procs[p]->getAttr(); uint32_t procid = (node_id << 3) | (CHIP_UNIT_POS); //NNNCCC if( procid == i_procid ) { proc_target = all_procs[p]; break; } } return proc_target; } //utility to fetch a proc target based on a procid fapi::Target* getProcTarget( uint64_t i_procid ) { TARGETING::Target* proc = _getProcTarget(i_procid); if( proc != NULL ) { return( new fapi::Target( fapi::TARGET_TYPE_PROC_CHIP, reinterpret_cast (const_cast(proc)) ) ); } return NULL; }; //utility to fetch an ex target based on a procid and chiplet number fapi::Target* getExTarget( uint64_t i_procid, uint64_t i_chiplet ) { TARGETING::Target* proc = _getProcTarget(i_procid); TARGETING::TargetHandleList all_ex; TARGETING::getChildChiplets( all_ex, proc, TARGETING::TYPE_EX, false ); for( size_t e = 0; e < all_ex.size(); e++ ) { uint32_t chiplet = all_ex[e]->getAttr(); if( chiplet == i_chiplet ) { return( new fapi::Target( fapi::TARGET_TYPE_PROC_CHIP, reinterpret_cast (const_cast(all_ex[e])) ) ); } } return NULL; } }; #endif