/* IBM_PROLOG_BEGIN_TAG */ /* This is an automatically generated prolog. */ /* */ /* $Source: src/usr/diag/prdf/common/framework/register/prdfHomRegisterAccess.C $ */ /* */ /* IBM CONFIDENTIAL */ /* */ /* COPYRIGHT International Business Machines Corp. 2002,2013 */ /* */ /* 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 */ /** @file prdfHomRegisterAccess.C @brief definition of HomRegisterAccess */ //---------------------------------------------------------------------- // Includes //---------------------------------------------------------------------- #define prdfHomRegisterAccess_C #ifdef __HOSTBOOT_MODULE #include #else #include #include #endif #include #include #include #include #include #include #include #include #undef prdfHomRegisterAccess_C namespace PRDF { //---------------------------------------------------------------------- // User Types //---------------------------------------------------------------------- //---------------------------------------------------------------------- // Constants //---------------------------------------------------------------------- //---------------------------------------------------------------------- // Macros //---------------------------------------------------------------------- //---------------------------------------------------------------------- // Internal Function Prototypes //---------------------------------------------------------------------- //---------------------------------------------------------------------- // Global Variables //---------------------------------------------------------------------- //------------------------------------------------------------------------------ // Member Function Specifications //------------------------------------------------------------------------------ ScomService& getScomService() { return PRDF_GET_SINGLETON(theScomService); } ScomService::ScomService() : iv_ScomAccessor(NULL) { PRDF_DTRAC("ScomService() initializing default iv_ScomAccessor"); iv_ScomAccessor = new ScomAccessor(); } ScomService::~ScomService() { if(NULL != iv_ScomAccessor) { PRDF_DTRAC("~ScomService() deleting iv_ScomAccessor"); delete iv_ScomAccessor; iv_ScomAccessor = NULL; } } void ScomService::setScomAccessor(ScomAccessor & i_ScomAccessor) { PRDF_DTRAC("ScomService::setScomAccessor() setting new scom accessor"); if(NULL != iv_ScomAccessor) { PRDF_TRAC("ScomService::setScomAccessor() deleting old iv_ScomAccessor"); delete iv_ScomAccessor; iv_ScomAccessor = NULL; } iv_ScomAccessor = &i_ScomAccessor; } uint32_t ScomService::Access(TARGETING::TargetHandle_t i_target, BIT_STRING_CLASS & bs, uint64_t registerId, MopRegisterAccess::Operation operation) const { PRDF_DENTER("ScomService::Access()"); uint32_t rc = iv_ScomAccessor->Access(i_target, bs, registerId, operation); PRDF_DEXIT("ScomService::Access(): rc=%d", rc); return rc; } uint32_t ScomAccessor::Access(TARGETING::TargetHandle_t i_target, BIT_STRING_CLASS & bs, uint64_t registerId, MopRegisterAccess::Operation operation) const { PRDF_DENTER("ScomAccessor::Access()"); uint32_t rc = SUCCESS; errlHndl_t errH = NULL; uint32_t bsize = bs.GetLength(); if(i_target != NULL) { #ifdef __HOSTBOOT_MODULE ecmdDataBufferBase buffer(bsize); #else ecmdDataBuffer buffer(bsize); #endif switch (operation) { case MopRegisterAccess::WRITE: for(unsigned int i = 0; i < bsize; ++i) { if(bs.IsSet(i)) buffer.setBit(i); } // FIXME: If register is in a EX chiplet, need to also update // PORE image ???? PRD_FAPI_TO_ERRL(errH, fapiPutScom, PlatServices::getFapiTarget(i_target), registerId, buffer); break; case MopRegisterAccess::READ: bs.Pattern(0x00000000); // clear all bits PRD_FAPI_TO_ERRL(errH, fapiGetScom, PlatServices::getFapiTarget(i_target), registerId, buffer); for(unsigned int i = 0; i < bsize; ++i) { if(buffer.isBitSet(i)) bs.Set(i); } break; default: PRDF_ERR("ScomAccessor::Access() unsuppported scom op: 0x%08X", operation); break; } // end switch operation } else // Invalid target { /*@ * @errortype * @subsys EPUB_FIRMWARE_SP * @reasoncode PRDF_CODE_FAIL * @moduleid PRDF_HOM_SCOM * @userdata1 PRD Return code = SCR_ACCESS_FAILED * @userdata2 The invalid ID causing the fail * @devdesc Access SCOM failed due to NULL target handle * @procedure EPUB_PRC_SP_CODE */ // create an error log PRDF_CREATE_ERRL(errH, ERRL_SEV_PREDICTIVE, // error on diagnostic ERRL_ETYPE_NOT_APPLICABLE, SRCI_MACH_CHECK, SRCI_NO_ATTR, PRDF_HOM_SCOM, // module id FSP_DEFAULT_REFCODE, // refcode What do we use??? PRDF_CODE_FAIL, // Reason code SCR_ACCESS_FAILED, // user data word 1 PlatServices::getHuid(i_target), // user data word 2 0x0000, // user data word 3 0x0000 // user data word 4 ); } if(errH) { rc = PRD_SCANCOM_FAILURE; PRDF_ADD_SW_ERR(errH, rc, PRDF_HOM_SCOM, __LINE__); PRDF_ADD_PROCEDURE_CALLOUT(errH, SRCI_PRIORITY_MED, EPUB_PRC_SP_CODE); bool l_isAbort = false; PRDF_ABORTING(l_isAbort); if (!l_isAbort) { PRDF_COMMIT_ERRL(errH, ERRL_ACTION_SA|ERRL_ACTION_REPORT); } else { delete errH; errH = NULL; } } PRDF_DEXIT("ScomAccessor::Access(): rc=%d", rc); return rc; } //------------------------------------------------------------------------------ uint32_t HomRegisterAccessScom::Access( BIT_STRING_CLASS & bs, uint64_t registerId, Operation operation) const { PRDF_DENTER("HomRegisterAccessScom::Access()"); uint32_t rc = getScomService().Access(iv_ptargetHandle, bs, registerId, operation); PRDF_DEXIT("HomRegisterAccessScom::Access() rc=%d", rc); return rc; } //------------------------------------------------------------------------------ HomRegisterAccessScan::HomRegisterAccessScan( TARGETING::TargetHandle_t i_ptargetHandle, ScanRingField * start, ScanRingField * end ) : MopRegisterAccess(), iv_punitHandle(i_ptargetHandle) { iv_aliasIds.reserve(end-start); while(start != end) { iv_aliasIds.push_back(*start); ++start; } } //------------------------------------------------------------------------------ uint32_t HomRegisterAccessScan::Access(BIT_STRING_CLASS & bs, uint64_t registerId, Operation operation) const { uint32_t rc = SUCCESS; errlHndl_t errH = NULL; HUID l_chipHUID = PlatServices::getHuid(iv_punitHandle); if(operation == MopRegisterAccess::READ) { if(iv_punitHandle != NULL) { #ifdef __HOSTBOOT_MODULE ecmdDataBufferBase buf(bs.GetLength()); #else ecmdDataBuffer buf(bs.GetLength()); #endif uint32_t curbit = 0; bs.Pattern(0x00000000); // clear desination bit string for(AliasIdList::const_iterator i = iv_aliasIds.begin(); i != iv_aliasIds.end(); ++i) { for(uint32_t j = 0; j != i->length; ++j) { if(buf.isBitSet(j)) bs.Set(j+curbit); } curbit += i->length; } } else { /*@ * @errortype * @subsys EPUB_FIRMWARE_SP * @reasoncode PRDF_CODE_FAIL * @moduleid PRDF_HOM_SCAN * @userdata1 PRD Return code = SCR_ACCESS_FAILED * @userdata2 The invalid ID causing the fail * @userdata3 Code location = 0x0001 * @devdesc Access Scan failed due to an invalid function unit * @procedure EPUB_PRC_SP_CODE */ // create an error log PRDF_CREATE_ERRL(errH, ERRL_SEV_PREDICTIVE, // error on diagnostic ERRL_ETYPE_NOT_APPLICABLE, SRCI_MACH_CHECK, SRCI_NO_ATTR, PRDF_HOM_SCAN, // module id FSP_DEFAULT_REFCODE, // refcode What do we use??? PRDF_CODE_FAIL, // Reason code SCR_ACCESS_FAILED, // user data word 1 l_chipHUID, // user data word 2 0x0001, // user data word 3 0x0000 // user data word 4 ); } } // PRD does not ever expect to write scan rings - create an error log else { PRDF_ERR( "HomRegisterAccessScan::Access " "only scan read is supported. Invalid Scan Op: 0x%.8X", operation ); /*@ * @errortype * @subsys EPUB_FIRMWARE_SP * @reasoncode PRDF_UNSUPPORTED_SCAN_WRITE * @moduleid PRDF_HOM_SCAN * @userdata1 PRD Return code = SCR_ACCESS_FAILED * @userdata2 The ID for the scan * @userdata3 Code location = 0x0002 * @devdesc Access Scan failed. PRD does not ever expect to write scan rings. * @procedure EPUB_PRC_SP_CODE */ // create an error log PRDF_CREATE_ERRL(errH, ERRL_SEV_PREDICTIVE, // error on diagnostic ERRL_ETYPE_NOT_APPLICABLE, SRCI_MACH_CHECK, SRCI_NO_ATTR, PRDF_HOM_SCAN, // module id FSP_DEFAULT_REFCODE, // refcode What do we use??? PRDF_UNSUPPORTED_SCAN_WRITE, // Reason code SCR_ACCESS_FAILED, // user data word 1 l_chipHUID, // user data word 2 0x0002, // user data word 3 0x0000 // user data word 4 ); } if(errH) { rc = PRD_SCANCOM_FAILURE; PRDF_ADD_SW_ERR(errH, rc, PRDF_HOM_SCAN, __LINE__); PRDF_ADD_PROCEDURE_CALLOUT(errH, SRCI_PRIORITY_MED, EPUB_PRC_SP_CODE); bool l_isAbort = false; PRDF_ABORTING(l_isAbort); if (!l_isAbort) { PRDF_COMMIT_ERRL(errH, ERRL_ACTION_SA|ERRL_ACTION_REPORT); } else { delete errH; errH = NULL; } } return rc; } } // End namespace PRDF