/* IBM_PROLOG_BEGIN_TAG */ /* This is an automatically generated prolog. */ /* */ /* $Source: src/include/usr/hwas/common/hwasCommon.H $ */ /* */ /* OpenPOWER HostBoot Project */ /* */ /* COPYRIGHT International Business Machines Corp. 2012,2014 */ /* */ /* 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 */ /** * @file hwasCommon.H * * @brief Notes the HWAS common functions and the HWAS platform-specific * interfaces that need to be defined and implemented. */ #ifndef HWASCOMMON_H_ #define HWASCOMMON_H_ // 'system' headers #include #include #include #include #include // platform specific headers // following file needs to do // #define HWAS_DBG(_fmt_, _args_...) // #define HWAS_ERR(_fmt_, _args_...) #include // following file needs to do // #define HWAS_ASSERT(_expr_...) #include namespace HWAS { /** * @brief platform specific code to determine whether the System is at runtime. * * @return bool Return true if the System is at runtime; false if not. */ bool platSystemIsAtRuntime(); /** * @brief platform specific code to determine if minimum hardware * check is allowed. * * @param[out] o_minHwCheckingAllowed boolean: * TRUE if minimum hardware checking is allowed * FALSE if minimum hardware checking is not allowed * * @return errlHndl_t valid errlHndl_t handle if there was an error * NULL if no errors; */ errlHndl_t platIsMinHwCheckingAllowed(bool &o_minHwCheckingAllowed); /** * @brief platform specific code to determine if the targets in the * input list are present or not. If a target is NOT present, it is erased * from the list * * @param[in] io_targets TargetHandleList of targets to check for presence * * @return errlHndl_t valid errlHndl_t handle if there was an error * NULL if no errors; */ errlHndl_t platPresenceDetect(TARGETING::TargetHandleList &io_targets); /** * @brief platform specific code to determine the ID/EC of the input * target. The platform specific code is responsible for setting the * ATTR_EC and ATTR_CHIP_ID in each target. * * @param[in] i_target target to check for chip ID/EC * * @return errlHndl_t valid errlHndl_t handle if there was an error * NULL if no errors; */ errlHndl_t platReadIDEC(const TARGETING::TargetHandle_t &i_target); /** * @brief platform specific code to determine the PG vector of the input * target. The platform specific code is responsible for returning the * vector. The caller is reponsible for allocating and de-allocating the space. * * @param[in] i_target target to read the Partial Good keyword from * @param[out] o_pgData pointer to area that will hold the partialGood vector * read from VPD; must be malloc'ed by the caller, * and must be VPD_CP00_PG_DATA_LENGTH in size. * * @return errlHndl_t valid errlHndl_t handle if there was an error * NULL if no errors; */ errlHndl_t platReadPartialGood(const TARGETING::TargetHandle_t &i_target, void *o_pgData); // constants the platReadPartialGood will use for looking at the VPD data const uint32_t VPD_CP00_PG_DATA_LENGTH = 64; const uint32_t VPD_CP00_PG_HDR_LENGTH = 1; // components of the partial good vector const uint32_t VPD_CP00_PG_PIB_INDEX = 0; const uint32_t VPD_CP00_PG_PIB_GOOD = 0x0000; const uint32_t VPD_CP00_PG_PERVASIVE_INDEX = 1; // all good - 0:PRV, 1:NET, 2:PIB, 3:OCC, 7:PLL, 8:OSCSW - 0xF180 const uint32_t VPD_CP00_PG_PERVASIVE_GOOD = 0xF180; const uint32_t VPD_CP00_PG_POWERBUS_INDEX = 2; // all good - 0:PRV, 1:PB, 2:NX, 3:PCIS, 4:MCL, 5:MCR - 0xFC00 // base - 0:PRV, 1:PB, 2:NX, 3:PCIS - 0xF000 // MCL - mcs-[0..3] - 0x0800 // MCR - mcs-[4..7] - 0x0400 const uint32_t VPD_CP00_PG_POWERBUS_BASE = 0xF000; const uint32_t VPD_CP00_PG_POWERBUS_MCL = 0x0800; const uint32_t VPD_CP00_PG_POWERBUS_MCR = 0x0400; const uint32_t VPD_CP00_PG_XBUS_INDEX = 4; // all good - 0:PRV, 1:IOX, 2:IOPCI, 3:XH - 0xF000 const uint32_t VPD_CP00_PG_XBUS_GOOD = 0xF000; const uint32_t VPD_CP00_PG_ABUS_INDEX = 8; // all good - 0:PRV, 1:AB, 2:IOA, 7:PLL - 0xE100 const uint32_t VPD_CP00_PG_ABUS_GOOD = 0xE100; const uint32_t VPD_CP00_PG_PCIE_INDEX = 9; // all good - 0:PRV, 1:PCI0, 2:PCI1, 3:PCI2, 5:IOPCI, 6:PBF, 7:PLL - 0xF700 const uint32_t VPD_CP00_PG_PCIE_GOOD = 0xF700; const uint32_t VPD_CP00_PG_EX0_INDEX = 16; // all good - 0:PRV, 1:rC, 2:L2, 3:L3NP, 6:REFR, 7:DPLL - 0xF300 const uint32_t VPD_CP00_PG_EX0_GOOD = 0xF300; /** * @brief platform specific code to determine the PR vector of the input * target. The platform specific code is responsible for returning the * vector. The caller is reponsible for allocating and de-allocating the space. * * @param[in] i_target target to read the PR keyword from * @param[out] o_prData pointer to area that will hold the PR keyword * read from VPD; must be malloc'ed by the caller, * and must be VPD_CP00_PR_DATA_LENGTH in size. * * @return errlHndl_t valid errlHndl_t handle if there was an error * NULL if no errors; */ errlHndl_t platReadPR(const TARGETING::TargetHandle_t &i_target, void *o_prData); // constants the platReadPR will use for looking at the VPD data const uint32_t VPD_VINI_PR_DATA_LENGTH = 8; // Byte 2 Number of processors per module chip const uint32_t VPD_VINI_PR_B2_MASK = 0xF0; // bits 0-3 const uint32_t VPD_VINI_PR_B2_SHIFT = 4; // Byte 7 Max VPD copies (aka replication factor) // Bits 2:7 // Number of chips using this VPD minus 1, i.e., Used to // calculate the maximum number of duplicate copies of the B9 // keyword allowed. Multiply PR byte 2 (number of processor // per module) times this value [(PR byte 7) + 1] to get the max // number of copies of any given B9 keyword data in the SPIRA // PACA structure. // If the number of functional processors is different on chips // within the same module. It will be firmwares responsibility // average them out as specified in byte 2 above. const uint32_t VPD_VINI_PR_B7_MASK = 0x3F; // bits 2-7 /** * @brief platform specific code to read the Field Core Override * * @param[in] i_node node target, where the FCO is stored * @param[out] o_fco field core override value * * @return errlHndl_t valid errlHndl_t handle if there was an error * NULL if no errors; */ errlHndl_t platGetFCO( const TARGETING::TargetHandle_t &i_node, uint32_t &o_fco); /** * @brief wrapper function to create new errlog in platform-specific manner. * * @param[in] i_sev Severity * @param[in] i_modId Module ID (from HwasModuleID enum) * @param[in] i_reasonCode Reason Code (from HwasReasonCode enum) * @param[in] i_user1 User Data 1 (defaults to zero) * @param[in] i_user2 User Data 2 (defaults to zero) * * @return errlHndl_t handle pointing to newly created error log */ errlHndl_t hwasError(const uint8_t i_sev, const uint8_t i_modId, const uint16_t i_reasonCode, const uint64_t i_user1 = 0, const uint64_t i_user2 = 0); /** * @brief wrapper function to add a procedure callout to an error log in a * platform-specific manner. * * @param[io] io_errl Reference to error log handle. Updated with callout * @param[in] i_procedure Procedure to callout * @param[in] i_priority Callout Priority */ void hwasErrorAddProcedureCallout(errlHndl_t & io_errl, const HWAS::epubProcedureID i_procedure, const HWAS::callOutPriority i_priority); /** * @brief wrapper function to update the plid in a platform-specific manner. * * If io_plid is non-zero then io_errl is updated with io_plid * Else io_plid is updated with the plid in io_errl * * @param[io] io_errl Reference to error log handle. * @param[io] io_plid Reference to plid. */ void hwasErrorUpdatePlid(errlHndl_t & io_errl, uint32_t & io_plid); /** * @brief Platform-specific checks for minimum hardware. * Verifies that the system has enough hardware to proceed through * the IPL. If it does not, error log(s) will be created and committed * for each problem. * * If io_plid is non-zero then any newly created Error Logs use io_plid * Else io_plid is updated with the plid used in the newly created Error Logs * * @param[io] io_plid Reference to plid. * @param[in] i_node node target to restrict hw check */ void platCheckMinimumHardware(uint32_t & io_plid, const TARGETING::ConstTargetHandle_t i_node = NULL); } // namespace HWAS #endif // HWASCOMMON_H_