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|
/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/usr/util/utiltcemgr.C $ */
/* */
/* OpenPOWER HostBoot Project */
/* */
/* Contributors Listed Below - COPYRIGHT 2013,2017 */
/* [+] 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 */
#ifndef __UTILTCEMGR_C
#define __UTILTCEMGR_C
#include <trace/interface.H>
#include <errl/errlentry.H>
#include <errl/errlmanager.H>
#include <util/utiltce.H>
#include <util/align.H>
#include <sys/mmio.h>
#include <sys/mm.h>
#include <errno.h>
#include <targeting/common/commontargeting.H>
#include <targeting/common/utilFilter.H>
#include <kernel/console.H>
#include "utiltcemgr.H"
#include <util/util_reasoncodes.H>
#include <assert.h>
#include <intr/interrupt.H>
#include <limits.h>
#include <hwas/common/hwasCallout.H>
#include <attributetraits.H>
#include <pnor/pnorif.H>
#include <targeting/common/targetservice.H>
#include <devicefw/userif.H>
trace_desc_t* g_trac_tce = nullptr;
TRAC_INIT(&g_trac_tce, UTILTCE_TRACE_NAME, 4*KILOBYTE);
// ------------------------
// Macros for unit testing - leave extra trace enabled for now
#define TRACUCOMP(args...) TRACFCOMP(args)
//#define TRACUCOMP(args...)
namespace TCE
{
/************************************************************************/
// Defines
/************************************************************************/
// @TODO RTC 168745 Currently hardcoded to 128MB when the original plan was
// to use PNOR payloadInfo.size, but that only was 19MB
#define TCE_PAYLOAD_SIZE (128*MEGABYTE)
// TCE Table Address must be 4MB Aligned
#define TCE_TABLE_ADDRESS_ALIGNMENT (4*MEGABYTE)
/************************************************************************/
// External Interface:
// NAME: utilAllocateTces
// Responsible for allocating TCEs
//
/************************************************************************/
errlHndl_t utilAllocateTces(const uint64_t i_startingAddress,
const size_t i_size)
{
return Singleton<UtilTceMgr>::instance().allocateTces(i_startingAddress,
i_size);
};
/************************************************************************/
// External Interface:
// NAME: utilDeallocateTces
// Responsible for deallocating TCEs
//
/************************************************************************/
errlHndl_t utilDeallocateTces(const uint64_t i_startingAddress,
const size_t i_size)
{
return Singleton<UtilTceMgr>::instance().deallocateTces(i_startingAddress,
i_size);
};
/************************************************************************/
// External Interface:
// NAME: utilDisableTces
// Responsible for disabling TCE on the system, including
// deallocating TCE Entries and disabling the Processor settings
//
/************************************************************************/
errlHndl_t utilDisableTces(void)
{
return Singleton<UtilTceMgr>::instance().disableTces();
};
/************************************************************************/
// External Interface:
// NAME: getTceManager
// Returns a copy of Singleton<UtilTceMgr>::instance()
//
/************************************************************************/
UtilTceMgr& getTceManager(void)
{
return Singleton<UtilTceMgr>::instance();
};
/***********************************************************************************/
/* Local function to get PAYLOAD base address and size */
/***********************************************************************************/
errlHndl_t getPayloadAddrAndSize(uint64_t& o_addr, size_t& o_size)
{
errlHndl_t errl = nullptr;
o_addr=0x0;
o_size=0x0;
do{
// Get Target Service and the system target to get ATTR_PAYLOAD_BASE
TARGETING::TargetService& tS = TARGETING::targetService();
TARGETING::Target* sys = nullptr;
(void) tS.getTopLevelTarget( sys );
assert(sys, "getPayloadAddrAndSize() system target is NULL");
o_addr = sys->getAttr<TARGETING::ATTR_PAYLOAD_BASE>()
* MEGABYTE; // Attribute value in MB
assert((o_addr % PAGESIZE) == 0, "getPayloadAddrAndSize(): o_addr=0x%.16llX not on page boundary", o_addr);
// Get PAYLOAD PNOR section info from PNOR RP
PNOR::SectionInfo_t payloadInfo;
errl = getSectionInfo( PNOR::PAYLOAD, //pnorSectionId,
payloadInfo );
if(errl)
{
TRACFCOMP( g_trac_tce, ERR_MRK"getPayloadAddrAndSize() Error calling getSectionInfo() rc=0x%.4X", errl->reasonCode() );
break;
}
o_size = TCE_PAYLOAD_SIZE;
} while(0);
TRACFCOMP( g_trac_tce,EXIT_MRK"getPayloadAddrAndSize(): o_addr=0x%.16llX, o_size=0x%.16llX", o_addr, o_size);
return errl;
}
errlHndl_t utilSetupPayloadTces(void)
{
errlHndl_t errl = nullptr;
uint64_t addr=0x0;
size_t size=0x0;
do{
TRACFCOMP(g_trac_tce,ENTER_MRK"utilSetupPayloadTces(): get Address and Size");
errl = getPayloadAddrAndSize(addr, size);
if (errl)
{
TRACFCOMP(g_trac_tce,"utilSetupPayloadTces(): ERROR back from getPayloadAddrAndSize()");
break;
}
errl = utilAllocateTces(addr, size);
if (errl)
{
TRACFCOMP(g_trac_tce,"utilSetupPayloadTces(): ERROR back from utilAllocateTces() using addr=0x%.16llX, size=0x%llX", addr, size);
break;
}
} while(0);
TRACFCOMP(g_trac_tce,EXIT_MRK"utilSetupPayloadTces(): Address=0x%.16llX, size=0x%X, errl_rc=0x%X", addr, size, ERRL_GETRC_SAFE(errl));
return errl;
}
errlHndl_t utilClosePayloadTces(void)
{
errlHndl_t errl = nullptr;
uint64_t addr=0x0;
size_t size=0x0;
do{
TRACFCOMP(g_trac_tce,ENTER_MRK"utilClosePayloadTces(): get Address and Size");
errl = getPayloadAddrAndSize(addr, size);
if (errl)
{
TRACFCOMP(g_trac_tce,"utilClosePayloadTces(): ERROR back from getPayloadAddrAndSize()");
break;
}
errl = utilDeallocateTces(addr, size);
if (errl)
{
TRACFCOMP(g_trac_tce,"utilClosePayloadTces(): ERROR back from utilDeallocateTces() using addr=0x%.16llX, size=0x%llX", addr, size);
break;
}
} while(0);
TRACFCOMP(g_trac_tce,EXIT_MRK"utilClosePayloadTces(): Address=0x%.16llX, size=0x%X, errl_rc=0x%X", addr, size, ERRL_GETRC_SAFE(errl));
return errl;
}
/************************************************************************/
//
// NAME: UtilTceMgr
// Constructor - set up Tce Table pointers
//
/************************************************************************/
UtilTceMgr::UtilTceMgr(const uint64_t i_tableAddr, const size_t i_tableSize)
:iv_isTceHwInitDone(false)
,iv_isTceTableInitDone(false)
,iv_tceTableVaAddr(0)
,iv_tceTablePhysAddr(i_tableAddr)
,iv_tceEntryCount(0)
,iv_tceTableSize(i_tableSize)
{
// Table Address must be 4MB Aligned and default input is TCE_TABLE_ADDR
static_assert( TCE_TABLE_ADDR % TCE_TABLE_ADDRESS_ALIGNMENT == 0,"TCE Table must align on 4 MB boundary");
assert( i_tableAddr % TCE_TABLE_ADDRESS_ALIGNMENT == 0,"TCE Table must align on 4 MB boundary: 0x%.16llX", i_tableAddr);
// TCE Entry counts are based on the following assumption
static_assert((sizeof(uint64_t) == sizeof(TceEntry_t)), "TceEntry_t struct must be size of uint64_t)");
// i_tableSize must be a multiple of TCE Entries
assert( i_tableSize % sizeof(TceEntry_t) == 0,"TCE Table Size (0x%llX) must be multiple of TceEntry_t size (0x%X))", i_tableSize, sizeof(TceEntry_t));
iv_tceEntryCount = iv_tceTableSize/(sizeof (uint64_t));
TRACUCOMP(g_trac_tce,"UtilTceMgr::UtilTceMgr: iv_tceTableVaAddr=0x%.16llX, iv_tceTablePhysAddr=0x%.16llX, iv_tceTableSize=0x%llX, iv_tceEntryCount=0x%X, iv_allocatedAddrs,size=%d", iv_tceTableVaAddr, iv_tceTablePhysAddr, iv_tceTableSize, iv_tceEntryCount, iv_allocatedAddrs.size());
};
/**************************************************************************/
//
// NAME: createTceTable
// Utilty to map the Tce Table
//
/**************************************************************************/
errlHndl_t UtilTceMgr::createTceTable()
{
errlHndl_t errl = nullptr;
TRACFCOMP(g_trac_tce,ENTER_MRK"UtilTceMgr::createTceTable: iv_tceTableVaAddr=0x%.16llX, iv_tceTablePhysAddr = 0x%.16llX,iv_tceTableSize = 0x%llX, iv_tceEntryCount=0x%X, iv_isTceTableInitDone=%d", iv_tceTableVaAddr, iv_tceTablePhysAddr, iv_tceTableSize, iv_tceEntryCount, iv_isTceTableInitDone);
do
{
// If init was already run, then skip here
if (iv_isTceTableInitDone)
{
TRACFCOMP(g_trac_tce,"UtilTceMgr::createTceTable: iv_isTceTableInitDone (%d) already true, so skipping init", iv_isTceTableInitDone);
break;
}
// check to make sure the TCE table is not larger than Max Table Size
if (iv_tceTableSize > MAX_TCE_TABLE_SIZE)
{
// TCE table size larger than 32M.. code bug likely as the real
// TCE table is a fixed address and size.
TRACFCOMP(g_trac_tce,"UtilTceMgr::createTceTable: Table size 0x%X too large (>0x%llX) - cannot map.", iv_tceTableSize, MAX_TCE_TABLE_SIZE);
/*@
* @errortype
* @moduleid Util::UTIL_TCE_CREATE_TABLE
* @reasoncode Util::UTIL_TCE_INVALID_SIZE
* @userdata1 Size of of the table that is too large
* @userdata2 Max TCE Table Size
* @devdesc TCE Table size requested too large.
* @custdesc A problem occurred during the IPL of the system
*/
errl = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
Util::UTIL_TCE_CREATE_TABLE,
Util::UTIL_TCE_INVALID_SIZE,
iv_tceTableSize,
MAX_TCE_TABLE_SIZE,
true /*Add HB SW Callout*/);
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
break;
}
// Check that iv_tceEntryCount isn't larger than MAX_NUM_TCE_TABLE_ENTRIES
if (iv_tceEntryCount > MAX_NUM_TCE_TABLE_ENTRIES )
{
// TCE Count is larger than TCE Table Can Support
TRACFCOMP(g_trac_tce,"UtilTceMgr::createTceTable: iv_tceEntryCount 0x%X too large (>0x%llX) - cannot map.", iv_tceEntryCount, MAX_NUM_TCE_TABLE_ENTRIES);
/*@
* @errortype
* @moduleid Util::UTIL_TCE_CREATE_TABLE
* @reasoncode Util::UTIL_TCE_INVALID_COUNT
* @userdata1 Number of TCEs Requested
* @userdata2 Max Number of TCEs that TCE Table can hold
* @devdesc TCE Table size requested too large.
* @custdesc A problem occurred during the IPL of the system
*/
errl = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
Util::UTIL_TCE_CREATE_TABLE,
Util::UTIL_TCE_INVALID_COUNT,
iv_tceEntryCount,
MAX_NUM_TCE_TABLE_ENTRIES,
true /*Add HB SW Callout*/);
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
break;
}
// Check that the TCE TABLE Address is aligned on 4MB
if (iv_tceTablePhysAddr % (4*MEGABYTE))
{
// Address not page aligned
TRACFCOMP(g_trac_tce,ERR_MRK"UtilTceMgr::createTceTable: Table Addr 0x%.16llX not aligned on 4MB Boundary", iv_tceTablePhysAddr);
/*@
* @errortype
* @moduleid Util::UTIL_TCE_CREATE_TABLE
* @reasoncode Util::UTIL_TCE_ADDR_NOT_ALIGNED
* @userdata1 Phyiscal Address of the TCE Table
* @userdata2 <unused>
* @devdesc TCE Table not page aligned.
* @custdesc A problem occurred during the IPL of the system
*/
errl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_UNRECOVERABLE,
Util::UTIL_TCE_CREATE_TABLE,
Util::UTIL_TCE_ADDR_NOT_ALIGNED,
iv_tceTablePhysAddr,
0,
true /*Add HB SW Callout*/);
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
break;
}
// Allocate Memory for TCE Table
// - Reserve a block of physical memory and get a pointer to
// virtual memory to manipulate it
iv_tceTableVaAddr = reinterpret_cast<uint64_t>(mm_block_map(
reinterpret_cast<void*>(iv_tceTablePhysAddr),
iv_tceTableSize));
// Check that a valid Virtual Memory Address was returned
if (reinterpret_cast<void*>(iv_tceTableVaAddr) == nullptr)
{
// Invalid Virtual Address was returned
TRACFCOMP(g_trac_tce,ERR_MRK"UtilTceMgr::createTceTable: mm_block_map for Table Addr 0x%.16llX and size=0x%X returned NULL", iv_tceTablePhysAddr, iv_tceTableSize);
/*@
* @errortype
* @moduleid Util::UTIL_TCE_CREATE_TABLE
* @reasoncode Util::UTIL_ERC_BAD_PTR
* @userdata1 Physical Address of the TCE Table
* @userdata2 Requested Size of the TCE Table
* @devdesc TCE Table Could Not Be Block-Mapped
* @custdesc A problem occurred during the IPL of the system
*/
errl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_UNRECOVERABLE,
Util::UTIL_TCE_CREATE_TABLE,
Util::UTIL_ERC_BAD_PTR,
iv_tceTablePhysAddr,
iv_tceTableSize,
true /*Add HB SW Callout*/);
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
break;
}
// Zero out the TCE Table space
memset(reinterpret_cast<void*>(iv_tceTableVaAddr), 0, iv_tceTableSize);
// make sure that the memset completes.
sync();
}while(0);
// If succsesfull set init to true
if ((errl == nullptr) &&
(iv_isTceTableInitDone == false))
{
iv_isTceTableInitDone = true;
// Successfully initialized the TCE table and hardware.
TRACUCOMP(g_trac_tce, "UtilTceMgr::createTceTable: TCE Table initialized and setup: iv_isTceTableInitDone=%d", iv_isTceTableInitDone);
}
TRACFCOMP(g_trac_tce, EXIT_MRK"UtilTceMgr::createTceTable: iv_tceTableVaAddr=0x%.16llX, iv_tceTablePhysAddr = 0x%.16llX,iv_tceTableSize = 0x%llX, iv_tceEntryCount=0x%X, iv_isTceTableInitDone=%d", iv_tceTableVaAddr, iv_tceTablePhysAddr, iv_tceTableSize, iv_tceEntryCount, iv_isTceTableInitDone);
return errl;
}
/**************************************************************************/
//
// NAME: initTceInHdw
// Responsible for setting up the Processors to point to the TCE table
//
/**************************************************************************/
errlHndl_t UtilTceMgr::initTceInHdw()
{
errlHndl_t errl = nullptr;
TRACFCOMP(g_trac_tce, ENTER_MRK"UtilTceMgr::initTceInHdw: iv_tceTablePhysAddr = 0x%.16llX, iv_isTceHwInitDone=%d", iv_tceTablePhysAddr, iv_isTceHwInitDone);
do
{
// If init was already run, then skip here
if (iv_isTceHwInitDone)
{
TRACFCOMP(g_trac_tce,"UtilTceMgr::initTceInHdw: iv_isTceHwInitDone (%d) already true, so skipping init", iv_isTceHwInitDone);
break;
}
// Loop through the processors and setup PSI Host Bridge for TCE
TARGETING::TargetHandleList l_cpuTargetList;
getAllChips(l_cpuTargetList, TARGETING::TYPE_PROC);
for ( auto l_pTarget : l_cpuTargetList )
{
void * PsiBridgeAddr = nullptr;
INTR::PSIHB_SW_INTERFACES_t * l_psihb_ptr = nullptr;
TarTceAddrRegister_t l_tar;
// MMIO Map the PSI Host Bridge
errl = mapPsiHostBridge(l_pTarget, PsiBridgeAddr);
if (errl)
{
TRACFCOMP(g_trac_tce,"UtilTceMgr::initTceInHdw: call to mapPsiHostBridge failed with rc=0x%X, plid=0x%X. Committing Log, but continuing the loop", ERRL_GETRC_SAFE(errl), ERRL_GETPLID_SAFE(errl));
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
errlCommit( errl, UTIL_COMP_ID );
continue;
}
TRACUCOMP(g_trac_tce,"UtilTceMgr::initTceInHdw: Psi Bridge Addr = 0x%.16llX huid = 0x%.8X", PsiBridgeAddr, TARGETING::get_huid(l_pTarget));
l_psihb_ptr = reinterpret_cast<INTR::PSIHB_SW_INTERFACES_t*>
(PsiBridgeAddr);
// Read back PSIHBBAR
TRACUCOMP(g_trac_tce,"UtilTceMgr::initTceInHdw: Read Back psihbbar = 0x%.16llX", l_psihb_ptr->psihbbar);
// Set TAR - TCE Address Register
// Put the TCE Table Starting Physical Address and set up the
// system for max of 512K entries
l_tar.WholeTAR=0;
// Since iv_tceTablePhysAddr already checked for 4MB alignment in
// createTceTable() we can copy it directly in here
l_tar.WholeTAR = iv_tceTablePhysAddr;
l_tar.tceEntries = TAR_TCE_ENTRIES_512K;
TRACFCOMP(g_trac_tce,"UtilTceMgr::initTceInHdw: iv_tceTablePhysAddr = 0x%.16llX, l_psihb_ptr=0x%.16llX, TAR=0x%.16llX",iv_tceTablePhysAddr, l_psihb_ptr, l_tar.WholeTAR);
l_psihb_ptr->tceaddr = l_tar.WholeTAR;
eieio();
TRACUCOMP(g_trac_tce,"UtilTceMgr::initTceInHdw: Read Back tceaddr = 0x%.16llX", l_psihb_ptr->tceaddr);
// Turn on TCE enable PSI Host Bridge Secure Register
l_psihb_ptr->phbsecure = PHBSECURE_TCE_ENABLE;
eieio();
TRACUCOMP(g_trac_tce,"UtilTceMgr::initTceInHdw: Read Back phbsecure = 0x%.16llX", l_psihb_ptr->phbsecure);
// Unmap the PSI Host Bridge
errl = unmapPsiHostBridge(PsiBridgeAddr);
if (errl)
{
TRACFCOMP(g_trac_tce,"UtilTceMgr::initTceInHdw: call to unmapPsiHostBridge failed with rc=0x%X, plid=0x%X. Committing Log, but continuing the loop", ERRL_GETRC_SAFE(errl), ERRL_GETPLID_SAFE(errl));
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
errlCommit( errl, UTIL_COMP_ID );
continue;
}
TRACUCOMP(g_trac_tce,"UtilTceMgr::initTceInHdw: After unmap: Psi Bridge Addr = 0x%.16llX huid = 0x%.8X", PsiBridgeAddr, TARGETING::get_huid(l_pTarget));
}
}while(0);
// If succsesfull set init to true
if ((errl == nullptr) &&
(iv_isTceHwInitDone == false))
{
iv_isTceHwInitDone = true;
// Successfully initialized the TCE table and hardware.
TRACUCOMP(g_trac_tce, "UtilTceMgr::initTceInHdw: TCE initialized and setup");
}
TRACFCOMP(g_trac_tce, EXIT_MRK"UtilTceMgr::initTceInHdw: iv_isTceHwInitDone=%d", iv_isTceHwInitDone);
return errl;
}
/************************************************************************/
//
// NAME: allocateTces
// Responsible for allocating TCE Entries
//
/************************************************************************/
errlHndl_t UtilTceMgr::allocateTces(const uint64_t i_startingAddress,
const size_t i_size)
{
errlHndl_t errl = nullptr;
uint32_t numTcesNeeded = 0;
TceEntry_t *tablePtr = nullptr;
TRACFCOMP(g_trac_tce,ENTER_MRK"UtilTceMgr::allocateTces: start for addr = 0x%.16llX and size = 0x%X", i_startingAddress, i_size);
do
{
// Assert if i_size is not greater than zero
assert(i_size > 0, "UtilTceMgr::allocateTces: i_size = %d, not greater than zero", i_size);
// Expecting a page-aligned starting address
if (i_startingAddress % PAGESIZE)
{
TRACFCOMP(g_trac_tce,ERR_MRK"UtilTceMgr::allocateTces: ERROR-Address 0x%.16llX not page aligned", i_startingAddress);
/*@
* @errortype
* @moduleid Util::UTIL_TCE_ALLOCATE
* @reasoncode Util::UTIL_TCE_ADDR_NOT_ALIGNED
* @userdata1 Address to start TCE
* @userdata2 Size of the address space trying to get TCEs
* for.
* @devdesc The Physical Address for the TCE entry is not
* page aligned.
* @custdesc A problem occurred during the IPL of the system
*/
errl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_UNRECOVERABLE,
Util::UTIL_TCE_ALLOCATE,
Util::UTIL_TCE_ADDR_NOT_ALIGNED,
i_startingAddress,
i_size,
true /*Add HB SW Callout*/);
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
break;
}
// Calculate the number of TCE entries needed - rounding up
numTcesNeeded = ALIGN_PAGE(i_size)/PAGESIZE;
// If more than the number of TCEs available error out
if (numTcesNeeded > iv_tceEntryCount)
{
TRACFCOMP(g_trac_tce,ERR_MRK"UtilTceMgr::allocateTces: ERROR - Too many entries (0x%X) requested (>0x%X) (i_size=0x%X)", numTcesNeeded, iv_tceEntryCount, i_size);
/*@
* @errortype
* @moduleid Util::UTIL_TCE_ALLOCATE
* @reasoncode Util::UTIL_TCE_INVALID_SIZE
* @userdata1[0:31] Number of TCEs Needed
* @userdate1[32:64] Maximum Number of Tce Entries
* @userdata2 Size of the address space trying to get TCEs
* @devdesc The size requested is too large for the table
* @custdesc A problem occurred during the IPL of the system
*/
errl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_UNRECOVERABLE,
Util::UTIL_TCE_ALLOCATE,
Util::UTIL_TCE_INVALID_SIZE,
TWO_UINT32_TO_UINT64(
numTcesNeeded,
iv_tceEntryCount),
i_size,
true /*Add HB SW Callout*/);
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
break;
}
// @TODO RTC 168745 additional error checking when iv_allocatedAddrs
// will be updated to keep track of size, too
// Check to see if we've already allocated TCEs associated with
// this starting address
std::map<uint64_t, uint32_t>::iterator map_itr
= iv_allocatedAddrs.find(i_startingAddress);
if(map_itr != iv_allocatedAddrs.end())
{
// This starting address has already had TCEs allocated for it
TRACFCOMP(g_trac_tce,"UtilTceMgr::allocateTces: ERROR - This starting address 0x%.16llX already has TCEs allocated (pos=0x%X)", i_startingAddress, map_itr->second);
/*@
* @errortype
* @moduleid Util::UTIL_TCE_ALLOCATE
* @reasoncode Util::UTIL_TCE_PREVIOUSLY_ALLOCATED
* @userdata1 Starting Address
* @userdata2 Starting TCE position in TCE Table
* @devdesc The starting address was previously allocated
* @custdesc A problem occurred during the IPL of the system
*/
errl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_UNRECOVERABLE,
Util::UTIL_TCE_ALLOCATE,
Util::UTIL_TCE_PREVIOUSLY_ALLOCATED,
i_startingAddress,
map_itr->second,
true /*Add HB SW Callout*/);
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
break;
}
// Will set map_itr->second with TCE table position later
// Check to see if createTceTable ran before allocate. If not we
// need to create the table and make sure it is mapped.
// If we are in multi-node we would run create on only 1 node and
// other nodes could use that table
if (!iv_isTceTableInitDone)
{
// createTceTable has not run
TRACFCOMP(g_trac_tce,"UtilTceMgr::allocateTces: createTceTable has not run so call createTceTable() here.");
errl = createTceTable();
if (errl)
{
TRACFCOMP(g_trac_tce,"UtilTceMgr::allocateTces: createTceTable() failed with rc=0x%X",ERRL_GETRC_SAFE(errl));
break;
}
}
// Check to see if HW has been initialized to use the TCEs
if (!iv_isTceHwInitDone)
{
// TceInit did not run before allocate was called so call it here
TRACFCOMP(g_trac_tce,"UtilTceMgr::allocateTces: initTceInHdw has not run yet: call it now");
errl = initTceInHdw();
if (errl)
{
TRACFCOMP(g_trac_tce,"UtilTceMgr::allocateTces: initTceInHdw() failed with rc=0x%X",ERRL_GETRC_SAFE(errl));
break;
}
}
tablePtr = reinterpret_cast<TceEntry_t*>(iv_tceTableVaAddr);
// Find a first consecutive group of TCEs requested
uint32_t startingIndex = 0;
bool found = false;
// Start at the beginning and search for the first empty entry
for (uint32_t tceIndex = 0;
tceIndex < iv_tceEntryCount;
++tceIndex)
{
// Look for no-write AND no-read access for the entry to be empty
if (tablePtr[tceIndex].readAccess == 0 &&
tablePtr[tceIndex].writeAccess == 0)
{
uint32_t availIndex = 0;
// if not enough space avail.
if (numTcesNeeded+tceIndex > iv_tceEntryCount)
{
break;
}
for (uint32_t IndexInRow = tceIndex;
IndexInRow < numTcesNeeded + tceIndex;
IndexInRow++)
{
// If the entry has no read or write access then the
// entry is available
if (tablePtr[IndexInRow].readAccess == 0 &&
tablePtr[IndexInRow].writeAccess == 0)
{
// Increment availIndex
availIndex++;
}
// found a valid entry so need to start the count over.
else
{
// increment past the tce entries we already checked
tceIndex = IndexInRow+1;
// reset the avail index
availIndex = 0;
break;
}
// If we found enough consecutive TCE entries
if (availIndex >= numTcesNeeded)
{
// set the starting index
startingIndex = tceIndex;
// mark it found
found = true;
break;
}
}
// break out and update the table
if (found)
{
break;
}
// did not find consecutive TCE entries so continue.
}
}
TRACUCOMP(g_trac_tce,"UtilTceMgr::allocateTces: found=%d, startingIndex=0x%X, numTcesNeeded=0x%X", found, startingIndex, numTcesNeeded);
if (found)
{
// Do a for loop here to loop through the number of TCE entries
// and set the valid bits. The real page number gets incremented
// by 1 for each entry
for ( uint32_t i = 0, index=startingIndex;
i < numTcesNeeded;
++i, ++index )
{
tablePtr[index].realPageNumber = (i_startingAddress +
(i*PAGESIZE))/PAGESIZE;
tablePtr[index].writeAccess = 1;
tablePtr[index].readAccess = 1;
TRACDCOMP(g_trac_tce,INFO_MRK"UtilTceMgr::allocateTces: TCE Entry/Token[%d] (hex) = %llX", index, tablePtr[index]);
}
iv_allocatedAddrs[i_startingAddress] = startingIndex;
TRACFCOMP(g_trac_tce,"UtilTceMgr::allocateTces: SUCCESSFUL: addr = 0x%.16llX, size = 0x%llX, starting entry=0x%X",i_startingAddress, i_size, startingIndex);
}
else // not found means not enough space for request
{
TRACFCOMP(g_trac_tce,"UtilTceMgr::allocateTces: ERROR -Not enough free entries for this request: addr=0x%.16llX, size=0x%llX, startingIndex=0x%X, numTcesNeeded=0x%X", i_startingAddress, i_size, startingIndex, numTcesNeeded);
/*@
* @errortype
* @moduleid Util::UTIL_TCE_ALLOCATE
* @reasoncode Util::UTIL_TCE_NOT_ENOUGH_FREE_ENTRIES
* @userdata1[0:31] Number of TCEs Needed
* @userdate1[32:64] Starting Index in TCE Table
* @userdata2 Size of address space TCEs are tying to map to
* @devdesc Requested size is too large to fit into TCE Table
* @custdesc A problem occurred during the IPL of the system
*/
errl = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
Util::UTIL_TCE_ALLOCATE,
Util::UTIL_TCE_NOT_ENOUGH_FREE_ENTRIES,
TWO_UINT32_TO_UINT64(
numTcesNeeded,
startingIndex),
i_size,
true /*Add HB SW Callout*/);
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
break;
}
}while(0);
TRACFCOMP(g_trac_tce, EXIT_MRK"UtilTceMgr::allocateTces: END: addr = 0x%.16llX and size = 0x%X, numTcesNeeded=0x%X", i_startingAddress, i_size, numTcesNeeded);
printIvMap(); //Debug
return errl;
}
/*************************************************************************/
//
// NAME: deallocateTces
// Responsible for deallocating TCE Entries
//
/*************************************************************************/
errlHndl_t UtilTceMgr::deallocateTces(const uint64_t i_startingAddress,
const size_t i_size)
{
errlHndl_t errl = nullptr;
bool isContiguous = true;
uint32_t startingIndex = 0;
TceEntry_t *tablePtr = nullptr;
TRACFCOMP(g_trac_tce,ENTER_MRK"UtilTceMgr::deallocateTces: Address = 0x%.16llX for size = 0x%X",i_startingAddress, i_size);
do
{
// Assert if i_size is not greater than zero
assert(i_size > 0, "UtilTceMgr::deallocateTces: i_size = %d, not greater than zero", i_size);
// Expecting a page-aligned starting address
if (i_startingAddress % PAGESIZE)
{
TRACFCOMP(g_trac_tce,ERR_MRK"UtilTceMgr::deallocateTces: ERROR-Address 0x%.16llX not page aligned", i_startingAddress);
/*@
* @errortype
* @moduleid Util::UTIL_TCE_DEALLOCATE
* @reasoncode Util::UTIL_TCE_ADDR_NOT_ALIGNED
* @userdata1 Address to start TCE
* @userdata2 Size of the address space trying to get TCEs
* for.
* @devdesc The Physical Address for the TCE entry is not
* page aligned.
* @custdesc A problem occurred during the IPL of the system
*/
errl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_UNRECOVERABLE,
Util::UTIL_TCE_DEALLOCATE,
Util::UTIL_TCE_ADDR_NOT_ALIGNED,
i_startingAddress,
i_size,
true /*Add HB SW Callout*/);
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
break;
}
// Get number of TCEs needed - rounding up
uint32_t numTcesNeeded = ALIGN_PAGE(i_size)/PAGESIZE;
std::map<uint64_t, uint32_t>::iterator map_itr
= iv_allocatedAddrs.find(i_startingAddress);
if( map_itr == iv_allocatedAddrs.end() )
{
// Can't find this starting address. Trace that nothing happens,
// but do not create an error log
TRACFCOMP(g_trac_tce,INFO_MRK"UtilTceMgr::deallocateTces: Can't find match of Starting Address = 0x%.16llX (size = 0x%X)",i_startingAddress, i_size);
break;
}
else
{
startingIndex = map_itr->second;
}
TRACUCOMP(g_trac_tce,"UtilTceMgr::deallocateTces: numTcesNeeded=0x%X, startingAddress = 0x%X", numTcesNeeded, i_startingAddress);
// @TODO RTC 168745 additional error checking when iv_allocatedAddrs
// will be updated to keep track of size, too
// startingIndex is larger than the max number of indexes avail
// --OR-- startingIndex and the number of TCEs needed exceeds the
// number of TCEs in the Table
if (startingIndex > iv_tceEntryCount ||
startingIndex+numTcesNeeded > iv_tceEntryCount)
{
TRACFCOMP(g_trac_tce,ERR_MRK"UtilTceMgr::deallocateTces: Invalid startingAddress=0x%X and/or numTcesNeeded=0x%X for table with iv_tceEntryCount=0x%X, No deallocate.", i_startingAddress, numTcesNeeded, iv_tceEntryCount);
/*@
* @errortype
* @moduleid Util::UTIL_TCE_DEALLOCATE
* @reasoncode Util::UTIL_TCE_INVALID_SIZE
* @userdata1[0:31] starting index
* @userdata1[32:63] number of TCEs needed for this request
* @userdata2 Number of Entries Current TCE Table Supports
* @devdesc The size requested is too large based on the
* startingAddress the space avilable in the table
* @custdesc A problem occurred during the IPL of the system
*/
errl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_UNRECOVERABLE,
Util::UTIL_TCE_DEALLOCATE,
Util::UTIL_TCE_INVALID_SIZE,
TWO_UINT32_TO_UINT64(
startingIndex,
numTcesNeeded),
iv_tceEntryCount,
true /*Add HB SW Callout*/);
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
errlCommit(errl,UTIL_COMP_ID);
break;
}
// Currently do not check for valid entries.. Just clear as
// requested.
uint64_t previousAddress = 0;
tablePtr = reinterpret_cast<TceEntry_t*>(iv_tceTableVaAddr);
for (uint32_t tceIndex = startingIndex;
tceIndex < (startingIndex + numTcesNeeded);
tceIndex++)
{
// check that the address space is contiguous
if ((tceIndex != startingIndex) &&
((tablePtr[tceIndex].realPageNumber -
previousAddress) != 1))
{
isContiguous = false;
TRACUCOMP(g_trac_tce,INFO_MRK"UtilTceMgr::deallocateTces: isContiguous set to false (%d) for tablePtr[tceIndex=0x%X]=0x%.16llX, previousAddress_RPN=0x%X", isContiguous, tceIndex, tablePtr[tceIndex].WholeTceEntry, previousAddress);
}
// Save off real address of page pointed to be this TCE for
// isContiguous check on next interation
previousAddress = tablePtr[tceIndex].realPageNumber;
// Clear out the TCE entry to 0
tablePtr[tceIndex].WholeTceEntry = 0;
}
// Remove the entry from iv_allocatedAddrs even if 'isContiguous' issue
iv_allocatedAddrs.erase(i_startingAddress);
if (!isContiguous)
{
// We know the range to delete is not contingous. The address and
// size inputs crossesd other allocates.
// Error log created to indicate this but will clear number of
// entries requested by caller
TRACFCOMP(g_trac_tce,"UtilTceMgr::deallocateTces: ERROR - request was not contiguous TCE entries");
/*@
* @errortype
* @moduleid Util::UTIL_TCE_DEALLOCATE
* @reasoncode Util::UTIL_TCE_ENTRY_NOT_CONTIGUOUS
* @userdata1 Starting address of the TCEs to be deallocated
* @userdata2 Size of the address space to be deallocated
* @devdesc The deallocate went across TCE Allocate space.
* @custdesc A problem occurred during the IPL of the system
*/
errl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_PREDICTIVE,
Util::UTIL_TCE_DEALLOCATE,
Util::UTIL_TCE_ENTRY_NOT_CONTIGUOUS,
i_startingAddress,
i_size,
true /*Add HB SW Callout*/);
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
TRACFCOMP(g_trac_tce,"UtilTceMgr::deallocateTces: not-contiuguos ERROR created (rc=0x%X) and committed", ERRL_GETRC_SAFE(errl));
errlCommit(errl,UTIL_COMP_ID);
break;
}
}while(0);
TRACFCOMP(g_trac_tce,"UtilTceMgr::deallocateTces: COMPLETE for Addr = 0x%.16llX for size = 0x%X, errl=0x%X",i_startingAddress, i_size, ERRL_GETRC_SAFE(errl));
printIvMap(); //Debug
return errl;
}
/**************************************************************************/
//
// NAME: disableTce
// Deallocate any TCE entries and disable HW settings
//
/**************************************************************************/
errlHndl_t UtilTceMgr::disableTces(void)
{
errlHndl_t errl = nullptr;
int64_t rc = 0;
TRACUCOMP(g_trac_tce,ENTER_MRK"UtilTceMgr::disableTces: iv_isTceHwInitDone=%d, iv_tceTableVaAddr=0x%.16llX iv_isTceTableInitDone=%d", iv_isTceHwInitDone, iv_tceTableVaAddr, iv_isTceTableInitDone );
do {
// If the HW was initialized to use TCEs then disable those settings
// it needs to be released here
if (iv_isTceHwInitDone)
{
// Loop through the processors and clear the TCE-related registers
// in the PSI Host Bridge
TARGETING::TargetHandleList l_cpuTargetList;
getAllChips(l_cpuTargetList, TARGETING::TYPE_PROC);
for ( auto l_pTarget : l_cpuTargetList )
{
void * PsiBridgeAddr = nullptr;
INTR::PSIHB_SW_INTERFACES_t * l_psihb_ptr = nullptr;
// MMIO Map the PSI Host Bridge
errl = mapPsiHostBridge(l_pTarget, PsiBridgeAddr);
if (errl)
{
TRACFCOMP(g_trac_tce,"UtilTceMgr::disableTces: call to mapPsiHostBridge failed with rc=0x%X, plid=0x%X. Committing Log, but continuing the loop", ERRL_GETRC_SAFE(errl), ERRL_GETPLID_SAFE(errl));
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
errlCommit( errl, UTIL_COMP_ID );
continue;
}
TRACUCOMP(g_trac_tce,"UtilTceMgr::disableTces: Psi Bridge Addr = 0x%.16llX huid = 0x%.8X", PsiBridgeAddr, TARGETING::get_huid(l_pTarget));
l_psihb_ptr = reinterpret_cast<INTR::PSIHB_SW_INTERFACES_t*>
(PsiBridgeAddr);
// Read back PSIHBBAR
TRACUCOMP(g_trac_tce,"UtilTceMgr::disableTces: Read Back psihbbar = 0x%.16llX", l_psihb_ptr->psihbbar);
// Turn off TCE enable PSI Host Bridge Secure Register
l_psihb_ptr->phbsecure = 0x0;
eieio();
TRACUCOMP(g_trac_tce,"UtilTceMgr::disableTces: Read Back phbsecure = 0x%.16llX", l_psihb_ptr->phbsecure);
// Clear TAR - TCE Address Register
l_psihb_ptr->tceaddr = 0x0;
eieio();
TRACUCOMP(g_trac_tce,"UtilTceMgr::disableTces: Read Back tceaddr = 0x%.16llX", l_psihb_ptr->tceaddr);
// Unmap the PSI Host Bridge
errl = unmapPsiHostBridge(PsiBridgeAddr);
if (errl)
{
TRACFCOMP(g_trac_tce,"UtilTceMgr::disableTces: call to unmapPsiHostBridge failed with rc=0x%X, plid=0x%X. Committing Log, but continuing the loop", ERRL_GETRC_SAFE(errl), ERRL_GETPLID_SAFE(errl));
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
errlCommit( errl, UTIL_COMP_ID );
continue;
}
TRACUCOMP(g_trac_tce,"UtilTceMgr::disableTces: After unmap: Psi Bridge Addr = 0x%.16llX huid = 0x%.8X", PsiBridgeAddr, TARGETING::get_huid(l_pTarget));
}
// Clear the class variable
iv_isTceHwInitDone=false;
}
else
{
TRACUCOMP(g_trac_tce,"UtilTceMgr::disableTces: No Need To Uninitialize HW: iv_isTceHwInitDone=%d", iv_isTceHwInitDone);
}
// Cleanup TCE Table In Memory
if ( (iv_tceTableVaAddr!= 0) && (iv_isTceTableInitDone==true))
{
// Clear TCE Table
memset(reinterpret_cast<void*>(iv_tceTableVaAddr), 0, iv_tceTableSize);
// Unmap TCE Table In Memory
rc = mm_block_unmap(reinterpret_cast<void*>(iv_tceTableVaAddr));
if ( rc )
{
// Got a bad rc from mm_block_unmap
TRACFCOMP(g_trac_tce, "UtilTceMgr::disableTces: mm_unmap_block failed: rc = 0x%.16llX, iv_tceTableVaAddr=0x%.16llX iv_tceTablePhysAddr=0x%X", rc, iv_tceTableVaAddr, iv_tceTablePhysAddr, rc);
/*@
* @errortype
* @moduleid Util::UTIL_TCE_DISABLE_TCES
* @reasoncode Util::UTIL_TCE_BLOCK_UNMAP_FAIL
* @userdata1 Starting virtual address of pages to be removed
* @userdata2 Return Code from mm_block_unmap
* @devdesc mm_block_unmap failed for TCE Table
* @custdesc A problem occurred during the IPL of the system
*/
errl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_UNRECOVERABLE,
Util::UTIL_TCE_DISABLE_TCES,
Util::UTIL_TCE_BLOCK_UNMAP_FAIL,
iv_tceTableVaAddr,
rc,
true /*Add HB SW Callout*/);
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
break;
}
// Clear the class variable
iv_isTceTableInitDone=false;
}
else
{
TRACFCOMP(g_trac_tce,"UtilTceMgr::disableTces: iv_tceTableVaAddr == NULL (0x%.16llX) - No Cleanup of TCE Table", iv_tceTableVaAddr);
}
// Clear allocated addresses map
iv_allocatedAddrs.clear();
}while(0);
TRACUCOMP(g_trac_tce,EXIT_MRK"UtilTceMgr::disableTces");
printIvMap(); //Debug
return errl;
}
/**************************************************************************/
//
// NAME: ~UtilTceMgr
// Destructor
//
/**************************************************************************/
UtilTceMgr::~UtilTceMgr()
{
errlHndl_t errl = nullptr;
TRACUCOMP(g_trac_tce,"UtilTceMgr::~UtilTceMgr");
// Call disableTce in case it hasn't already been called
errl = disableTces();
if (errl)
{
TRACFCOMP(g_trac_tce,"UtilTceMgr::~UtilTceMgr: disableTces Failed rc=0x%X. Committing plid=0x%X", ERRL_GETRC_SAFE(errl), ERRL_GETPLID_SAFE(errl));
errlCommit( errl, UTIL_COMP_ID );
}
iv_allocatedAddrs.clear();
}
// Debug for printing out iv_allocatedAddrs map
void UtilTceMgr::printIvMap(void) const
{
TRACUCOMP(g_trac_tce,"UtilTceMgr::printIvMap: size=%d", iv_allocatedAddrs.size());
for ( auto map_itr : iv_allocatedAddrs )
{
TRACUCOMP(g_trac_tce,"UtilTceMgr: printIvMap: addr=0x%.16llX, pos=0x%X", map_itr.first, map_itr.second);
}
}
/**************************************************************************/
//
// NAME: mapPsiHostBridge:
// Helper function to Memory Map PSI Host Bridge
//
/**************************************************************************/
errlHndl_t UtilTceMgr::mapPsiHostBridge(const TARGETING::Target * i_tgt,
void *& o_psihb_ptr) const
{
errlHndl_t errl = nullptr;
void * l_ptr = nullptr;
o_psihb_ptr = nullptr;
// Assert if i_tgt is NULL or not a Processor
assert((i_tgt != nullptr) &&
(i_tgt->getAttr<TARGETING::ATTR_TYPE>() == TARGETING::TYPE_PROC ),
"UtilTceMgr::mapPsiHostBridge: i_tgt=0x%X either NULL or !TYPE_PROC",
TARGETING::get_huid(i_tgt));
uint64_t PsiBridgeAddr =
i_tgt->getAttr<TARGETING::ATTR_PSI_BRIDGE_BASE_ADDR>();
TRACUCOMP(g_trac_tce,ENTER_MRK"UtilTceMgr::mapPsiHostBridge:Psi Bridge Addr = 0x%.16llX huid = 0x%.8X", PsiBridgeAddr, TARGETING::get_huid(i_tgt));
// Assert if the PSI_BRIDEG_BASE_ADDR is zero or not page aligned
assert((PsiBridgeAddr != 0) &&
((PsiBridgeAddr - ALIGN_PAGE_DOWN(PsiBridgeAddr)) == 0),
"PsiBridgeAddr (0x%.16llX) is ZERO or not Page Aligned",
PsiBridgeAddr);
// Map the device for the PSI_BRIDGE_ADDR
l_ptr = mmio_dev_map(reinterpret_cast<void*>(PsiBridgeAddr), PAGESIZE);
if (l_ptr == nullptr)
{
// Got a bad rc from device Map
TRACFCOMP(g_trac_tce, "UtilTceMgr::mapPsiHostBtidge: Device map error.");
/*@
* @errortype
* @moduleid Util::UTIL_TCE_MAP_PSIHB
* @reasoncode Util::UTIL_TCE_DEV_MAP_FAIL
* @userdata1 Address to be mapped PsiBridgeAddr
* @userdata2 Target Unit Id
* @devdesc PSI Bridge device Map failed
* @custdesc A problem occurred during the IPL of the
* system
*/
errl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_UNRECOVERABLE,
Util::UTIL_TCE_MAP_PSIHB,
Util::UTIL_TCE_DEV_MAP_FAIL,
PsiBridgeAddr,
TARGETING::get_huid(i_tgt),
true /*Add HB SW Callout*/);
errl->addHwCallout( i_tgt,
HWAS::SRCI_PRIORITY_HIGH,
HWAS::DELAYED_DECONFIG,
HWAS::GARD_NULL );
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
}
o_psihb_ptr = l_ptr;
TRACUCOMP(g_trac_tce,EXIT_MRK"UtilTceMgr::mapPsiHostBridge: o_psihb_ptr=0x%.16llX, Psi Bridge Addr = 0x%.16llX, huid = 0x%.8X", o_psihb_ptr, PsiBridgeAddr, TARGETING::get_huid(i_tgt));
return errl;
}
/**************************************************************************/
//
// NAME: unmapPsiHostBridge:
// Helper function to Unmap PSI Host Bridge from Memory
//
/**************************************************************************/
errlHndl_t UtilTceMgr::unmapPsiHostBridge(void *& io_psihb_ptr) const
{
errlHndl_t errl = nullptr;
int64_t rc = 0;
TRACUCOMP(g_trac_tce,ENTER_MRK"UtilTceMgr::unmapPsiHostBridge: "
"io_psihb_ptr = %p", io_psihb_ptr);
// unmap the device..
rc = mmio_dev_unmap(io_psihb_ptr);
if (rc != 0)
{
// Got a bad rc from device unmap
TRACFCOMP(g_trac_tce, "UtilTceMgr::unmapPsiHostBridge: device unmap "
"error: rc=0x%X", rc);
/*@
* @errortype
* @moduleid Util::UTIL_TCE_UNMAP_PSIHB
* @reasoncode Util::UTIL_TCE_DEV_UNMAP_FAIL
* @userdata1 Address to be unmapped
* @userdata2 Return Code of mmio_dev_unmap
* @devdesc PSI Bridge device Map failed
* @custdesc A problem occurred during the IPL of the
* system
*/
errl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_UNRECOVERABLE,
Util::UTIL_TCE_UNMAP_PSIHB,
Util::UTIL_TCE_DEV_UNMAP_FAIL,
reinterpret_cast<uint64_t>(io_psihb_ptr),
rc,
true /*Add HB SW Callout*/);
errl->collectTrace(UTILTCE_TRACE_NAME,KILOBYTE);
}
else
{
io_psihb_ptr = nullptr;
TRACUCOMP(g_trac_tce,EXIT_MRK"UtilTceMgr::unmapPsiHostBridge Successful");
}
return errl;
}
}; // namespace TCE
#endif
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