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/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/usr/hdat/hdatspsubsys.C $ */
/* */
/* OpenPOWER HostBoot Project */
/* */
/* Contributors Listed Below - COPYRIGHT 2016,2017 */
/* [+] International Business Machines Corp. */
/* [+] Jim Yuan */
/* */
/* */
/* 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 hdatspsubsys.C
*
* @brief This file contains the implementation of the HdatSpSubsys class.
*
*/
/*---------------------------------------------------------------------------*/
/* Includes */
/*---------------------------------------------------------------------------*/
#include <stdlib.h>
#include <sys/mm.h>
#include <sys/mmio.h>
#include <pnor/pnorif.H>
#include <lpc/lpc_const.H>
#include <console/uartif.H>
#include <ipmi/ipmiif.H>
#include <util/align.H>
#include "hdatspsubsys.H"
#include "hdathdif.H"
#include "hdatutil.H"
#include "hdatvpd.H"
#include <targeting/common/util.H>
using namespace TARGETING;
namespace HDAT
{
/*----------------------------------------------------------------------------*/
/* Global variables */
/*----------------------------------------------------------------------------*/
uint32_t HdatSpSubsys::cv_actualCnt;
vpdData mvpdDataTable[] =
{
{ MVPD::VINI, MVPD::DR },
{ MVPD::VINI, MVPD::VZ },
{ MVPD::VINI, MVPD::CC },
{ MVPD::VINI, MVPD::CE },
{ MVPD::VINI, MVPD::FN },
{ MVPD::VINI, MVPD::PN },
{ MVPD::VINI, MVPD::SN },
{ MVPD::VINI, MVPD::PR },
{ MVPD::VINI, MVPD::HE },
{ MVPD::VINI, MVPD::CT },
{ MVPD::VINI, MVPD::HW },
};
const HdatKeywordInfo l_mvpdKeywords[] =
{
{ MVPD::DR, "DR" },
{ MVPD::VZ, "VZ" },
{ MVPD::CC, "CC" },
{ MVPD::CE, "CE" },
{ MVPD::FN, "FN" },
{ MVPD::PN, "PN" },
{ MVPD::SN, "SN" },
{ MVPD::PR, "PR" },
{ MVPD::HE, "HE" },
{ MVPD::CT, "CT" },
{ MVPD::HW, "HW" },
};
extern trace_desc_t *g_trac_hdat;
/**
* @brief This routine fill up the SP I/O path information.
*
* @pre The o_pathArray must be set to zero.
*
* @post None
*
* @param l_pSpTarget - input parameter - Target handle of the SP
* @param o_arrayHdr - output parameter - The I/O path array header structure
* @param o_pathArray - output parameter - The structure to update with the SP
* I/O path information
* @return A null error log handle if successful, else the return code pointed
* to by errlHndl_t contains one of:
*
* @retval
*/
static errlHndl_t hdatGetPathInfo(
uint32_t &io_numOfIoPaths,
hdatHDIFDataArray_t &o_arrayHdr,
hdatSpIoPath_t o_pathArray[])
{
HDAT_ENTER();
errlHndl_t l_errlHndl = NULL;
// Set the number of Io Paths.
// For now, we have only 1, may change in future
io_numOfIoPaths = HDAT_NUM_IO_PATHS_FOR_BMC;
// Set fields in the array header
o_arrayHdr.hdatOffset = sizeof(hdatHDIFDataArray_t);
o_arrayHdr.hdatAllocSize = sizeof(hdatSpIoPath_t);
o_arrayHdr.hdatActSize = sizeof(hdatSpIoPath_t);
o_arrayHdr.hdatArrayCnt = 0;
for( ; o_arrayHdr.hdatArrayCnt < io_numOfIoPaths ; )
{
o_pathArray[o_arrayHdr.hdatArrayCnt].
hdatPathType = HDAT_LPC_PATH_TYPE;
o_pathArray[o_arrayHdr.hdatArrayCnt].
hdatLinkStatus = HDAT_CURRENT_LINK;
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatML2ChipVer = 0x10;
// Get the master proc handle.
TARGETING::Target* l_pMasterProcChipTargetHandle = NULL;
(void)TARGETING::targetService().masterProcChipTargetHandle(
l_pMasterProcChipTargetHandle);
if (l_pMasterProcChipTargetHandle == NULL)
{
/*@
* @errortype
* @moduleid HDAT::MOD_GET_PATH_INFO
* @reasoncode HDAT::RC_MASTER_PROC_TARGET_NULL
* @devdesc Master proc target returned is Null
* @custdesc Firmware encountered an internal
* error while retrieving target handle
*/
hdatBldErrLog(l_errlHndl,
MOD_GET_PATH_INFO,
RC_MASTER_PROC_TARGET_NULL,
0,0,0,0);
HDAT_ERR("Master proc target handle is Null");
}
else
{
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatProcChipId =
l_pMasterProcChipTargetHandle->getAttr<ATTR_ORDINAL_ID>();
}
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatLPCHCBarIOAdrSpc =
LPC::LPCHC_IO_SPACE;
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatLPCHCBarMemAdrSpc =
LPC::LPCHC_MEM_SPACE;
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatLPCHCBarFwAdrSpc =
LPC::LPCHC_FW_SPACE;
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatLPCHCBarIntRegSpc =
LPC::LPCHC_REG_SPACE;
#ifdef CONFIG_CONSOLE
CONSOLE::UartInfo_t l_uartInfo = CONSOLE::getUartInfo();
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatBarOfUARTDev =
l_uartInfo.lpcBaseAddr;
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatSizeofUARTAdrSpc =
l_uartInfo.lpcSize;
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatUARTFreqHz =
l_uartInfo.clockFreqHz;
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatCurUARTDevBaudRate =
l_uartInfo.freqHz;
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatUARTInterruptDetails.
hdatUARTIntrNum = l_uartInfo.interruptNum;
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatUARTInterruptDetails.
hdatTriggerType = l_uartInfo.interruptTrigger;
#endif
#if 0 //Temp remove until ready CONFIG_BMC_IPMI
IPMI::BmcInfo_t l_bmcInfo = IPMI::getBmcInfo();
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatBARofBTDevAdrSpc =
l_bmcInfo.bulkTransferLpcBaseAddr;
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatSizeofBTDevAdrSpc =
l_bmcInfo.bulkTransferSize;
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatBTInterruptDetails.
hdatSMSAttnIntrNum = l_bmcInfo.smsAttnInterrupt;
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatBTInterruptDetails.
hdatBMCtoHostRespIntrNum = l_bmcInfo.bmcToHostInterrupt;
#endif
// LPC link doesn't have any FRU's in the path
// except the end points Service Processor and master proc
// The Fru's slca index should be populated for this entry by
// starting from SP
/* TARGETING::Target* l_lpcPathTargetsArray[] =
{ i_pSpTarget , l_pMasterProcChipTargetHandle };
uint32_t l_fruIdx = 0;
for ( ; l_fruIdx < LPC_PATH_FRU_CNT_FOR_BMC ; l_fruIdx++)
{
o_pathArray[o_arrayHdr.hdatArrayCnt].hdatSlcaIdx[l_fruIdx] =
l_lpcPathTargetsArray[l_fruIdx]->getAttr<ATTR_SLCA_INDEX>();
}*/
o_arrayHdr.hdatArrayCnt++;
}
HDAT_EXIT();
return l_errlHndl;
}
/**
* @brief This routine Loads SP Sub sys information.
*
* @param io_msAddr- input parameter - Mainstore address for SP subsys to write
* @param o_spSubSysTotalSize - output parameter Total size of sp sub sys
* @param o_spSubsysCnt - output parameter - Count of SP Sub sys structures
*
* @return A null error log handle if successful, else the return code pointed
* to by errlHndl_t contains one of:
*
* @retval
*/
errlHndl_t HdatLoadSpSubSys(hdatMsAddr_t &io_msAddr,
uint32_t &o_spSubSysTotalSize,
uint32_t &o_spSubsysCnt)
{
errlHndl_t l_errlHndl = NULL;
hdatMsAddr_t l_msAddr = io_msAddr;
HDAT_ENTER();
HdatSpSubsys l_hdatSpSubsys(l_errlHndl, l_msAddr);
// Iterate through the SP targets and fill the SP sub sys
// structure for each SP
/* do{
TARGETING::PredicateCTM l_spFilter(CLASS_CHIP, TYPE_SP, MODEL_BMC);
TARGETING::PredicateHwas l_pred;
l_pred.present(true);
TARGETING::PredicatePostfixExpr l_presentSp;
l_presentSp.push(&l_spFilter).push(&l_pred).And();
TARGETING::TargetRangeFilter l_filter(
TARGETING::targetService().begin(),
TARGETING::targetService().end(),
&l_presentSp);
for( ; l_filter ; ++l_filter )
{
TARGETING::Target* l_pSpTarget = *l_filter;
HdatSpSubsys l_hdatSpSubsys(l_errlHndl, l_msAddr); */
if( l_errlHndl )
{
// Break the loop and return the error
HDAT_ERR("Got an error while filling sp sub sys"
" for sp: 0x%x", o_spSubsysCnt);
// break;
}
else
{
// Update the count and msaddr before continuing
// the loop for next SP.
memcpy(&io_msAddr , &l_msAddr , sizeof(hdatMsAddr_t));
o_spSubsysCnt++;
o_spSubSysTotalSize += l_hdatSpSubsys.getSpSubSysStructSize();;
}
//}
//}while(0);
HDAT_EXIT();
return l_errlHndl;
}
/** @brief See the prologue in hdatspsubsys.H
*/
HdatSpSubsys::HdatSpSubsys(errlHndl_t &o_errlHndl,
hdatMsAddr_t &io_msAddr
):
HdatHdif(o_errlHndl, HDAT_STRUCT_NAME,
HDAT_SPSUBSYS_LAST, cv_actualCnt++, HDAT_NO_CHILD,
HDAT_SP_SUBSYS_VERSION), iv_kwdSize(0),
iv_kwd(NULL),iv_ioPathArray(NULL),
iv_spSubsys(NULL),iv_size(0),
iv_numOfIoPaths(0)
{
HDAT_ENTER();
// Copy the input phy address to this object member variable
iv_msAddr = ((uint64_t) io_msAddr.hi << 32) | io_msAddr.lo;
do{
// Fill the internal data pointers
o_errlHndl = this->hdatFillDataPtrs();
if(o_errlHndl)
{
HDAT_ERR("Error while filling internal data ptrs for SP subsys");
break;
}
// Size of the SP sub sys structure
iv_size = sizeof(hdatHDIF_t) +
( sizeof(hdatHDIFDataHdr_t) *
HDAT_SPSUBSYS_NUM_DATA_PTRS)+
sizeof(hdatFruId_t) +
iv_kwdSize +
sizeof(hdatSpImpl_t) +
sizeof(hdatSpMem_t) +
sizeof(hdatHDIFDataArray_t) +
(sizeof(hdatSpIoPath_t) * iv_numOfIoPaths);
uint64_t l_base_addr_down = ALIGN_PAGE_DOWN(iv_msAddr);
uint8_t *l_virt_addr =
(uint8_t *) mm_block_map (
reinterpret_cast<void*>(l_base_addr_down),
(ALIGN_PAGE(iv_size) + PAGESIZE));
iv_spSubsys = l_virt_addr + (iv_msAddr - ALIGN_PAGE_DOWN(iv_msAddr));
// initializing the space to zero
memset(iv_spSubsys ,0x0, iv_size );
iv_spSubsys = this->setHdif(iv_spSubsys);
memcpy(iv_spSubsys, &iv_fru, sizeof(hdatFruId_t));
iv_spSubsys += sizeof(hdatFruId_t);
memcpy(iv_spSubsys, iv_kwd, iv_kwdSize);
iv_spSubsys += iv_kwdSize;
memcpy(iv_spSubsys, &iv_impl, sizeof(hdatSpImpl_t));
iv_spSubsys += sizeof(hdatSpImpl_t);
memcpy(iv_spSubsys, &iv_mem, sizeof(hdatSpMem_t));
iv_spSubsys += sizeof(hdatSpMem_t);
memcpy(iv_spSubsys , &iv_ioPathArrayHdr, sizeof(hdatHDIFDataArray_t));
iv_spSubsys += sizeof(hdatHDIFDataArray_t);
memcpy(iv_spSubsys, iv_ioPathArray,
sizeof(hdatSpIoPath_t) * iv_numOfIoPaths);
iv_spSubsys += sizeof(hdatSpIoPath_t) * iv_numOfIoPaths;
// update the base address for next SP sub sys
uint64_t l_msAddrEnd = iv_msAddr + iv_size;
memcpy(&io_msAddr, &l_msAddrEnd, sizeof(hdatMsAddr_t));
} while(0);
HDAT_EXIT();
return;
}
errlHndl_t HdatSpSubsys::hdatFillDataPtrs()
{
errlHndl_t l_errlHndl = NULL;
HDAT_ENTER();
do{
// Initialize all the values to zero
memset(&iv_impl , 0x0 , sizeof(hdatSpImpl_t));
memset(&iv_fru, 0x0 , sizeof(hdatFruId_t));
memset(&iv_mem, 0x0 , sizeof(hdatSpMem_t));
// Fill the SP impl data
iv_impl.hdatHdwVer = 0x0003;
iv_impl.hdatSftVer = 0x0002;
iv_impl.hdatChipVer = 0x10;
iv_impl.hdatStatus = HDAT_SP_INSTALLED;
iv_impl.hdatStatus |= HDAT_SP_PRIMARY;
iv_impl.hdatStatus |= HDAT_SP_FUNCTIONAL;
TARGETING::PredicateCTM l_bmcFilter(CLASS_SP, TYPE_BMC, MODEL_AST2500);
TARGETING::PredicateHwas l_pred;
l_pred.present(true);
TARGETING::PredicatePostfixExpr l_presentSp;
l_presentSp.push(&l_bmcFilter).push(&l_pred).And();
TARGETING::TargetRangeFilter l_filter(
TARGETING::targetService().begin(),
TARGETING::targetService().end(),
&l_presentSp);
// As of now we are not supporting any other bmc stacks.
// But there is a scope for improvement here by using
// data driven approach. TODO : RTC@166476
if(l_filter)
{
TARGETING::ATTR_BMC_MANUFACTURER_type l_bmcManufacturer;
l_filter->
tryGetAttr<TARGETING::ATTR_BMC_MANUFACTURER>(l_bmcManufacturer);
TARGETING::ATTR_BMC_HW_CHIP_TYPE_type l_bmcHwChip;
l_filter->tryGetAttr<TARGETING::ATTR_BMC_HW_CHIP_TYPE>(l_bmcHwChip);
TARGETING::ATTR_BMC_SW_TYPE_type l_bmcSw;
l_filter->tryGetAttr<TARGETING::ATTR_BMC_SW_TYPE>(l_bmcSw);
strcpy( iv_impl.hdatBmcFamily , l_bmcManufacturer);
strcat( iv_impl.hdatBmcFamily , ",");
strcat( iv_impl.hdatBmcFamily , l_bmcHwChip);
strcat( iv_impl.hdatBmcFamily , ",");
strcat( iv_impl.hdatBmcFamily , l_bmcSw);
}
else
{
strcpy( iv_impl.hdatBmcFamily , "ibm,ast2500,openbmc");
}
// Fill the FRU data
iv_fru.hdatSlcaIdx = 0;
iv_fru.hdatResourceId = 0;
// Fill the SP memory info
PNOR::SectionInfo_t l_info;
l_errlHndl = PNOR::getSectionInfo(PNOR::NVRAM, l_info);
if(l_errlHndl)
{
HDAT_ERR("PNOR::getSectionInfo returns error. Fill the size as 0");
iv_mem.hdatHostRamSize = 0;
}
else
{
iv_mem.hdatHostRamSize = l_info.size;
}
// Fill the SP I/O path information
iv_ioPathArray = reinterpret_cast<hdatSpIoPath_t *>(calloc(
HDAT_MAX_NUM_IO_PATHS,sizeof(hdatSpIoPath_t)));
// No need to check iv_ioPathArray because calloc won't return if out of memory.
l_errlHndl = hdatGetPathInfo(
iv_numOfIoPaths,
iv_ioPathArrayHdr,
iv_ioPathArray);
HDAT_DBG(" Num of Io Paths returned : %d", iv_numOfIoPaths);
if(l_errlHndl)
{
HDAT_ERR("hdatGetPathInfo returns Error");
break;
}
// Fill the kwd
// As of now there is no VPD present on BMC.
// Hence we are filling PROC data to get things moving.
// TODO : RTC : 151618 Will relook at this once we get mail from Tom.
TARGETING::Target* l_pMasterProcChipTargetHandle = NULL;
(void)TARGETING::targetService().masterProcChipTargetHandle(
l_pMasterProcChipTargetHandle);
if (l_pMasterProcChipTargetHandle == NULL)
{
/*@
* @errortype
* @moduleid HDAT::MOD_HDAT_SP_SUBSYS_CTOR
* @reasoncode HDAT::RC_MASTER_PROC_TARGET_NULL
* @devdesc Master proc target returned is Null
* @custdesc Firmware encountered an internal
* error while retrieving target data
*/
hdatBldErrLog(l_errlHndl,
MOD_GET_PATH_INFO,
RC_MASTER_PROC_TARGET_NULL,
0,0,0,0);
HDAT_ERR("Master proc target handle is Null");
break;
}
else
{
uint32_t l_num = sizeof(mvpdDataTable) / sizeof(vpdData);
size_t theSize[l_num];
HDAT_DBG(" spsubsys number of vpd : %X", l_num);
l_errlHndl = hdatGetAsciiKwd(l_pMasterProcChipTargetHandle,
iv_kwdSize,
iv_kwd,
HDAT::PROC,
mvpdDataTable,
l_num,theSize);
HDAT_DBG(" initial size vpd : %X", iv_kwdSize);
if(l_errlHndl)
{
HDAT_ERR("hdatGetAsciiKwd returns Error");
break;
}
char *o_fmtKwd;
uint32_t o_fmtkwdSize;
l_errlHndl = hdatformatAsciiKwd(mvpdDataTable, l_num, theSize,
iv_kwd, iv_kwdSize, o_fmtKwd,
o_fmtkwdSize, l_mvpdKeywords);
if( o_fmtKwd != NULL )
{
delete[] iv_kwd;
iv_kwd = new char [o_fmtkwdSize + 8];
memcpy(iv_kwd,o_fmtKwd,o_fmtkwdSize);
iv_kwdSize = o_fmtkwdSize + 8;
delete[] o_fmtKwd;
}
}
// Done with getting all the data. Now its time to Add.
if( l_errlHndl == NULL )
{
this->addData(HDAT_SPSUBSYS_FRU_ID, sizeof(hdatFruId_t));
this->addData(HDAT_SPSUBSYS_KWD, iv_kwdSize);
this->addData(HDAT_SPSUBSYS_IMPL, sizeof(hdatSpImpl_t));
this->addData(HDAT_SPSUBSYS_DEPRECATED, 0); // Still need to account for the deprecated pointer pair
this->addData(HDAT_SPSUBSYS_MEMORY, sizeof(hdatSpMem_t));
this->addData(HDAT_SPSUBSYS_IO_PATH, sizeof(hdatHDIFDataArray_t) +
sizeof(hdatSpIoPath_t) * iv_ioPathArrayHdr.hdatArrayCnt);
this->align();
}
}while(0);
HDAT_EXIT();
return l_errlHndl;
}
/** @brief get the sp sub sys structure total size
*/
uint32_t HdatSpSubsys::getSpSubSysStructSize()
{
return iv_size;
}
/** @brief See the prologue in hdathdatspsubsys.H
*/
HdatSpSubsys::~HdatSpSubsys()
{
errlHndl_t o_errlHndl=NULL;
HDAT_ENTER();
// Free the memory allocated for filling this entry.
int rc=0;
free(iv_ioPathArray);
delete[] iv_kwd;
rc = mm_block_unmap(reinterpret_cast<void*>(
ALIGN_PAGE_DOWN((uint64_t)iv_spSubsys)));
if( rc != 0)
{
/*@
* @errortype
* @moduleid HDAT::MOD_HDAT_SP_SUBSYS_DTOR
* @reasoncode HDAT::RC_DEV_MAP_FAIL
* @devdesc Unmap a mapped region failed
* @custdesc Firmware encountered an internal error.
*/
hdatBldErrLog(o_errlHndl,
HDAT::MOD_HDAT_SP_SUBSYS_DTOR,
RC_DEV_MAP_FAIL,
rc,0,0,0,
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
HDAT_VERSION1,
true);
}
HDAT_EXIT();
return;
}
} // end namespace
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