/* IBM_PROLOG_BEGIN_TAG */ /* This is an automatically generated prolog. */ /* */ /* $Source: src/usr/hwpf/hwp/occ/runtime/rt_occ.C $ */ /* */ /* OpenPOWER HostBoot Project */ /* */ /* Contributors Listed Below - COPYRIGHT 2014,2015 */ /* [+] 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 */ #include #include #include #include #include #include #include #include #include #include // targeting support #include #include #include #include #include #include // fapi support #include #include #include #include // Procedures #include #include #include #include using namespace TARGETING; // Trace extern trace_desc_t* g_fapiTd; // defined in rt_fapiPlatUtil.C namespace RT_OCC { typedef std::vector target_list_t; //------------------------------------------------------------------------ void process_occ_error (uint64_t i_chipId) { #ifdef CONFIG_HTMGT TARGETING::Target* l_reportingOccTarget = NULL; errlHndl_t err = RT_TARG::getHbTarget(i_chipId,l_reportingOccTarget); if (err) { TRACFCOMP (g_fapiTd, ERR_MRK"process_occ_error: getHbTarget" " failed at %d chipId", i_chipId); errlCommit (err, HWPF_COMP_ID); } else { HTMGT::processOccError(l_reportingOccTarget); } #else TRACFCOMP(g_fapiTd, ERR_MRK"Unexpected call to process_occ_error(%d)" " when HTMGT is not enabled", i_chipId); #endif } //------------------------------------------------------------------------ void process_occ_reset (uint64_t i_chipId) { #ifdef CONFIG_HTMGT TARGETING::Target* l_failedOccTarget = NULL; errlHndl_t err = RT_TARG::getHbTarget(i_chipId,l_failedOccTarget); if (err) { TRACFCOMP (g_fapiTd, ERR_MRK"process_occ_reset: getHbTarget" " failed at %d chipId", i_chipId); errlCommit (err, HWPF_COMP_ID); } else { HTMGT::processOccReset(l_failedOccTarget); } #else TRACFCOMP(g_fapiTd, ERR_MRK"Unexpected call to process_occ_reset(%d)" " when HTMGT is not enabled", i_chipId); #endif } //------------------------------------------------------------------------ int enable_occ_actuation (int i_occ_activation) { int rc = 0; #ifdef CONFIG_HTMGT errlHndl_t err = HTMGT::enableOccActuation(0 != i_occ_activation); if (err) { rc = err->reasonCode(); if (0 == rc) { // If there was a failure, be sure to return non-zero status rc = -1; } TRACFCOMP (g_fapiTd,ERR_MRK"enable_occ_actuation: OCC state change" " failed with rc=0x%04X (actuate=%d)", err->reasonCode(), i_occ_activation); errlCommit (err, HWPF_COMP_ID); } #else rc = -1; TRACFCOMP(g_fapiTd,ERR_MRK"Unexpected call to enable_occ_actuation(%d)" " when HTMGT is not enabled", i_occ_activation); #endif return rc; } //------------------------------------------------------------------------ int htmgt_pass_thru (uint16_t i_cmdLength, uint8_t * i_cmdData, uint16_t * o_rspLength, uint8_t * o_rspData) { int rc = 0; #ifdef CONFIG_HTMGT errlHndl_t err = HTMGT::passThruCommand(i_cmdLength, i_cmdData, *o_rspLength, o_rspData); if (err) { rc = err->reasonCode(); if (0 == rc) { // If there was a failure, be sure to return non-zero status rc = -1; } if ((i_cmdLength > 0) && (NULL != i_cmdData)) { TRACFCOMP (g_fapiTd,ERR_MRK"htmgt_pass_thru: command 0x%02X" " (%d bytes) failed with rc=0x%04X", i_cmdData[0], i_cmdLength, err->reasonCode()); } errlCommit (err, HWPF_COMP_ID); } #else o_rspLength = 0; #endif return rc; } //------------------------------------------------------------------------ int executeLoadOCC(uint64_t i_homer_addr_phys, uint64_t i_homer_addr_va, uint64_t i_common_addr_phys, uint64_t i_common_addr_va, uint64_t i_proc_chip) { errlHndl_t err = NULL; int rc = 0; TRACFCOMP( g_fapiTd, "LoadOCC: homer paddr=%016llx vaddr=%016llx. " " common paddr=%016lx vaddr=%016llx. RtProcChip=%llx", i_homer_addr_phys, i_homer_addr_va, i_common_addr_phys, i_common_addr_va, i_proc_chip); do { // Utility to convert i_proc_chip to Target TARGETING::Target* proc_target = NULL; err = RT_TARG::getHbTarget(i_proc_chip, proc_target); if(err) { rc = EINVAL; break; } err = HBOCC::loadOCC(proc_target, i_homer_addr_phys, i_homer_addr_va, i_common_addr_phys); if( err ) { break; } void* occHostVirt = reinterpret_cast (i_homer_addr_va + HOMER_OFFSET_TO_OCC_HOST_DATA); err = HBOCC::loadHostDataToHomer(proc_target,occHostVirt); if( err != NULL ) { TRACFCOMP( g_fapiImpTd, ERR_MRK"loading Host Data Area failed!" ); break; } } while(0); if ( err ) { uint64_t status = err->plid(); errlCommit( err, HWPF_COMP_ID ); if(g_hostInterfaces && g_hostInterfaces->report_failure) { g_hostInterfaces->report_failure(status, i_proc_chip); } if(rc == 0) { rc = -1; } } return rc; } //------------------------------------------------------------------------ int executeOnDcms(HBOCC::occAction_t i_action, uint64_t * i_proc_chip, size_t i_num_chips) { errlHndl_t err = NULL; int rc = 0; TARGETING::Target* l_failedTarget = NULL; TRACFCOMP( g_fapiTd, "Action=%d, number of procs = %d ", i_action, i_num_chips); for(size_t i = 0; i < i_num_chips; ++i) { TRACFCOMP( g_fapiTd, "\tRtProcChip %llx", i_proc_chip[i]); } do { if(i_num_chips < 1 || i_proc_chip == NULL) { rc = EINVAL; break; } // Convert chipIds to HB targets target_list_t targets; targets.reserve(i_num_chips); for(size_t i = 0; i < i_num_chips; ++i) { TARGETING::Target* proc_target = NULL; err = RT_TARG::getHbTarget(i_proc_chip[i], proc_target); if( err ) { rc = EINVAL; break; } targets.push_back(proc_target); } if (err) { break; } // If there are no DCMs INSTALLED the do on each proc target_list_t::iterator itarg = targets.begin(); if (0 == (*itarg)->getAttr()) { for(itarg = targets.begin(); itarg != targets.end(); ++itarg) { if(i_action == HBOCC::OCC_START) { err = HBOCC::startOCC(*itarg, NULL, l_failedTarget); } else if(i_action == HBOCC::OCC_STOP) { err = HBOCC::stopOCC(*itarg, NULL); } if( err ) { uint64_t status = err->plid(); errlCommit( err, HWPF_COMP_ID ); if(g_hostInterfaces && g_hostInterfaces->report_failure) { RT_TARG::rtChipId_t proc_chip = 0; errlHndl_t err2 = RT_TARG::getRtTarget(*itarg, proc_chip); if(err2) // should never happen { TRACFCOMP (g_fapiTd, ERR_MRK "Error converting target to RT chipID"); errlCommit( err2, HWPF_COMP_ID ); } g_hostInterfaces->report_failure(status, proc_chip); } err = NULL; rc = -1; // keep going } } break; // done } // continue here only if have DCMs // Sort the target list by node then pos std::sort(targets.begin(), targets.end(), orderByNodeAndPosition); for(itarg = targets.begin(); itarg != targets.end(); ++itarg) { TARGETING::Target* t0 = *itarg; TARGETING::Target* t1 = NULL; if((itarg+1) != targets.end()) { if((t0->getAttr()) == ((*(itarg+1))->getAttr())) { ++itarg; t1 = *itarg; } } if(i_action == HBOCC::OCC_START) { err = HBOCC::startOCC(t0,t1, l_failedTarget); } else if(i_action == HBOCC::OCC_STOP) { err = HBOCC::stopOCC(t0,t1); } if( err ) { uint64_t status = err->plid(); errlCommit( err, HWPF_COMP_ID ); if(g_hostInterfaces && g_hostInterfaces->report_failure) { RT_TARG::rtChipId_t proc_chip = 0; errlHndl_t err2 = RT_TARG::getRtTarget(t0, proc_chip); if(err2) // should never happen { TRACFCOMP (g_fapiTd, ERR_MRK "Error converting target to RT chipID"); errlCommit( err2, HWPF_COMP_ID ); } g_hostInterfaces->report_failure(status, proc_chip); if(t1) { err2 = RT_TARG::getRtTarget(t1, proc_chip); if(err2) // should never happen { TRACFCOMP (g_fapiTd, ERR_MRK "Error converting target to RT chipID"); errlCommit( err2, HWPF_COMP_ID ); } g_hostInterfaces->report_failure(status, proc_chip); } } err = NULL; rc = -1; // keep going } } if( err ) { break; } } while(0); if( err ) { errlCommit( err, HWPF_COMP_ID ); if(rc == 0) { rc = -1; } } return rc; } int executeStartOCCs(uint64_t* i_proc_chip, size_t i_num_chips) { return executeOnDcms(HBOCC::OCC_START, i_proc_chip, i_num_chips); } int executeStopOCCs(uint64_t* i_proc_chip, size_t i_num_chips) { return executeOnDcms(HBOCC::OCC_STOP, i_proc_chip, i_num_chips); } //------------------------------------------------------------------------ struct registerOcc { registerOcc() { runtimeInterfaces_t * rt_intf = getRuntimeInterfaces(); rt_intf->get_lid_list = &UtilLidMgr::getLidList; rt_intf->occ_load = &executeLoadOCC; rt_intf->occ_start = &executeStartOCCs; rt_intf->occ_stop = &executeStopOCCs; rt_intf->process_occ_error = &process_occ_error; rt_intf->process_occ_reset = &process_occ_reset; rt_intf->enable_occ_actuation = &enable_occ_actuation; rt_intf->mfg_htmgt_pass_thru = &htmgt_pass_thru; // If we already loaded OCC during the IPL we need to fix up // the virtual address because we're now not using virtual // memory TargetHandleList procChips; getAllChips(procChips, TYPE_PROC, true); for (TargetHandleList::iterator itr = procChips.begin(); itr != procChips.end(); ++itr) { uint64_t l_instance = (*itr)->getAttr(); uint64_t l_homerAddr = g_hostInterfaces->get_reserved_mem("ibm,homer-image", l_instance); (*itr)->setAttr(l_homerAddr); } } }; registerOcc g_registerOcc; }