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|
/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/usr/runtime/hdatservice.C $ */
/* */
/* 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 */
#include <trace/interface.H>
#include <errl/errlentry.H>
#include <runtime/runtime_reasoncodes.H>
#include <sys/mm.h>
#include <targeting/common/commontargeting.H>
#include <initservice/initserviceif.H>
#include <runtime/runtime.H>
#include <attributeenums.H>
#include <vmmconst.h>
#include <util/align.H>
#include "hdatstructs.H"
#include "fakepayload.H"
#include <dump/dumpif.H>
#include "hdatservice.H"
#include "errlud_hdat.H"
#include <errl/errlmanager.H>
//#define REAL_HDAT_TEST
extern trace_desc_t* g_trac_runtime;
#define TRACUCOMP TRACDCOMP
namespace RUNTIME
{
/********************
Local Constants used for sanity checks
********************/
const hdatHeaderExp_t HSVC_NODE_DATA_HEADER = {
0xD1F0, // id
"HS KID", // name
0x0020 //version
};
const hdatHeaderExp_t HSVC_DATA_HEADER = {
0xD1F0, //id
"HOSTSR", //name
0x0010 //version
};
const hdatHeaderExp_t IPLPARMS_SYSTEM_HEADER = {
0xD1F0, //id
"IPLPMS", //name
0x0058 //version
};
const hdatHeaderExp_t SPIRAH_HEADER = {
0xD1F0, //id
"SPIRAH", //name
0x0050 //version
};
const hdatHeaderExp_t SPIRAS_HEADER = {
0xD1F0, //id
"SPIRAS", //name
0x0040 //version
};
//big enough to hold all of PHYP
const uint64_t HDAT_MEM_SIZE = 128*MEGABYTE;
/********************
Utility Functions
********************/
/**
* @brief Verify that a block of memory falls inside a safe range
* @param i_addr Address to check
* @param i_size Number of bytes to check
* @return Error if address seems wrong
*/
errlHndl_t hdatService::verify_hdat_address( void* i_addr,
size_t i_size )
{
errlHndl_t errhdl = NULL;
bool found = false;
uint64_t l_end = reinterpret_cast<uint64_t>(i_addr)
+ i_size;
// Make sure that the entire range is within the memory
// space that we allocated
for(memRegionItr region = iv_mem_regions.begin();
(region != iv_mem_regions.end()) && !found; ++region)
{
hdatMemRegion_t memR = *region;
uint64_t l_range_end = reinterpret_cast<uint64_t>(memR.virt_addr)
+ memR.size;
if ((i_addr >= memR.virt_addr) &&
(l_end <= l_range_end))
{
found = true;
break;
}
}
if(!found)
{
TRACFCOMP( g_trac_runtime, "Invalid HDAT Address : i_addr=%p, i_size=0x%X", i_addr, i_size );
for(memRegionItr region = iv_mem_regions.begin();
(region != iv_mem_regions.end()) && !found; ++region)
{
hdatMemRegion_t memR = *region;
TRACFCOMP( g_trac_runtime, " Region : virt_addr=0x%X, size=0x%X",
memR.virt_addr, memR.size );
}
/*@
* @errortype
* @moduleid RUNTIME::MOD_HDATSERVICE_VERIFY_HDAT_ADDRESS
* @reasoncode RUNTIME::RC_INVALID_ADDRESS
* @userdata1 Start of address range under test
* @userdata2 Size of address range under test
* @devdesc HDAT data block falls outside valid range
*/
errhdl = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
RUNTIME::MOD_HDATSERVICE_VERIFY_HDAT_ADDRESS,
RUNTIME::RC_INVALID_ADDRESS,
reinterpret_cast<uint64_t>(i_addr),
reinterpret_cast<uint64_t>(i_size));
errhdl->collectTrace(RUNTIME_COMP_NAME,KILOBYTE);
// most likely this is a HB code bug
errhdl->addProcedureCallout(HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_HIGH);
// but it could also be a FSP bug in setting up the HDAT data
errhdl->addProcedureCallout(HWAS::EPUB_PRC_SP_CODE,
HWAS::SRCI_PRIORITY_MED);
}
return errhdl;
}
errlHndl_t hdatService::check_header( hdatHDIF_t* i_header,
const hdatHeaderExp_t& i_exp )
{
TRACUCOMP( g_trac_runtime, "check_header(%s)> %.4X : %.4X : %s", i_exp.name, i_header->hdatStructId, i_header->hdatVersion, i_header->hdatStructName );
errlHndl_t errhdl = NULL;
do
{
// Make sure the Tuple is pointing somewhere valid
errhdl = verify_hdat_address( i_header,
sizeof(hdatHDIF_t) );
if( errhdl ) { break; }
// Check version number but don't fail, this lets
// us handle minor changes more smoothly. A major
// change should probably see a fail later on.
if( i_header->hdatVersion != i_exp.version )
{
TRACFCOMP( g_trac_runtime, ERR_MRK "RUNTIME::check_header> Version not as expected for %s, continuing anyway. Act=%.4X, Exp=%.4X", i_exp.name, i_header->hdatVersion, i_exp.version );
}
// Check the ID, Version and Name
if( (i_header->hdatStructId != i_exp.id)
|| memcmp(i_header->hdatStructName,i_exp.name,6) )
{
TRACFCOMP( g_trac_runtime, ERR_MRK "RUNTIME::check_header> HDAT Header data not as expected (id:version:name). Act=%.4X:%.4X:%s, Exp=%.4X:%.4X:%s", i_header->hdatStructId, i_header->hdatVersion, i_header->hdatStructName, i_exp.id, i_exp.version, i_exp.name );
hdatHeaderExp_t actual;
actual.id = i_header->hdatStructId;
actual.version = i_header->hdatVersion;
actual.name = i_header->hdatStructName;
/*@
* @errortype
* @moduleid RUNTIME::MOD_HDATSERVICE_CHECK_HEADER
* @reasoncode RUNTIME::RC_BAD_HDAT_HEADER
* @userdata1[0:15] Actual Header: id
* @userdata1[16:31] Actual Header: version
* @userdata1[32:63] Actual Header: name
* @userdata2[0:15] Expected Header: id
* @userdata2[16:31] Expected Header: version
* @userdata2[32:63] Expected Header: name
* @devdesc HDAT Header data not as expected
*/
errhdl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_UNRECOVERABLE,
RUNTIME::MOD_HDATSERVICE_CHECK_HEADER,
RUNTIME::RC_BAD_HDAT_HEADER,
actual.flatten(),
i_exp.flatten());
errhdl->addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_MED );
errhdl->addProcedureCallout( HWAS::EPUB_PRC_SP_CODE,
HWAS::SRCI_PRIORITY_MED );
errhdl->collectTrace(RUNTIME_COMP_NAME,KILOBYTE);
break;
}
} while(0);
return errhdl;
}
errlHndl_t hdatService::check_tuple( const RUNTIME::SectionId i_section,
hdat5Tuple_t* i_tuple )
{
errlHndl_t errhdl = NULL;
do
{
// Make sure the Tuple is in valid memory
errhdl = verify_hdat_address( i_tuple,
sizeof(hdat5Tuple_t) );
if( errhdl ) { break; }
// Look for unallocated data
if( (i_tuple->hdatAbsAddr == 0)
|| (i_tuple->hdatAllocCnt == 0)
|| (i_tuple->hdatAllocSize == 0) )
{
TRACFCOMP( g_trac_runtime, "check_tuple> Tuple for section %d is unallocated", i_section );
/*@
* @errortype
* @moduleid RUNTIME::MOD_HDATSERVICE_CHECK_TUPLE
* @reasoncode RUNTIME::RC_BAD_HDAT_TUPLE
* @userdata1 Absolute address
* @userdata2[0:31] Allocated Count
* @userdata2[32:63] Allocated Size
* @devdesc Tuple is unallocated
*/
errhdl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_UNRECOVERABLE,
RUNTIME::MOD_HDATSERVICE_CHECK_TUPLE,
RUNTIME::RC_BAD_HDAT_TUPLE,
i_tuple->hdatAbsAddr,
TWO_UINT32_TO_UINT64(
i_tuple->hdatAllocCnt,
i_tuple->hdatAllocSize));
errhdl->addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_MED );
errhdl->addProcedureCallout( HWAS::EPUB_PRC_SP_CODE,
HWAS::SRCI_PRIORITY_MED );
errhdl->collectTrace(RUNTIME_COMP_NAME,KILOBYTE);
RUNTIME::UdTuple(i_tuple).addToLog(errhdl);
break;
}
} while(0);
return errhdl;
}
errlHndl_t hdatService::get_standalone_section(
RUNTIME::SectionId i_section,
uint64_t i_instance,
uint64_t& o_dataAddr,
size_t& o_dataSize )
{
errlHndl_t errhdl = NULL;
if( RUNTIME::HSVC_SYSTEM_DATA == i_section )
{
o_dataAddr = reinterpret_cast<uint64_t>(iv_mem_regions[0].virt_addr);
o_dataSize = HSVC_TEST_SYSDATA_SIZE;
}
else if( RUNTIME::HSVC_NODE_DATA == i_section )
{
o_dataAddr = reinterpret_cast<uint64_t>(iv_mem_regions[0].virt_addr)
+ HSVC_TEST_SYSDATA_SIZE;
o_dataSize = HSVC_TEST_NODEDATA_SIZE;
}
else if( RUNTIME::MS_DUMP_SRC_TBL == i_section )
{
o_dataAddr = reinterpret_cast<uint64_t>(iv_mem_regions[1].virt_addr);
o_dataSize = DUMP_TEST_SRC_MEM_SIZE;
}
else if( RUNTIME::MS_DUMP_DST_TBL == i_section )
{
o_dataAddr = reinterpret_cast<uint64_t>(iv_mem_regions[1].virt_addr)
+ DUMP_TEST_SRC_MEM_SIZE;
o_dataSize = DUMP_TEST_DST_MEM_SIZE;
}
else if( RUNTIME::MS_DUMP_RESULTS_TBL == i_section )
{
o_dataAddr = reinterpret_cast<uint64_t>(iv_mem_regions[1].virt_addr)
+ DUMP_TEST_SRC_MEM_SIZE + DUMP_TEST_DST_MEM_SIZE;
o_dataSize = DUMP_TEST_RESULTS_MEM_SIZE;
}
else
{
TRACFCOMP( g_trac_runtime, "get_standalone_section> Section %d not valid in standalone mode", i_section );
/*@
* @errortype
* @moduleid RUNTIME::MOD_HDATSERVICE_GET_STANDALONE_SECTION
* @reasoncode RUNTIME::RC_INVALID_STANDALONE
* @userdata1 Section ID
* @userdata2 Section Instance Number
* @devdesc Section is not valid in standalone mode
*/
errhdl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_UNRECOVERABLE,
RUNTIME::MOD_HDATSERVICE_GET_STANDALONE_SECTION,
RUNTIME::RC_INVALID_STANDALONE,
i_section,
i_instance,
true /*Add HB Software Callout*/);
errhdl->collectTrace(RUNTIME_COMP_NAME,KILOBYTE);
}
return errhdl;
}
hdatService::hdatService(void)
:iv_spiraL(NULL)
,iv_spiraH(NULL)
,iv_spiraS(NULL)
{
for( uint8_t id = static_cast<uint8_t>(RUNTIME::FIRST_SECTION);
id <= static_cast<uint8_t>(RUNTIME::LAST_SECTION);
id++ )
{
iv_actuals[id] = ACTUAL_NOT_SET;
}
}
hdatService::~hdatService(void)
{
for(memRegionItr region = iv_mem_regions.begin();
(region != iv_mem_regions.end()); ++region)
{
mm_block_unmap((*region).virt_addr);
}
iv_mem_regions.clear();
}
errlHndl_t hdatService::mapRegion(uint64_t i_addr, size_t i_bytes,
uint64_t &o_vaddr)
{
errlHndl_t errhdl = NULL;
do
{
hdatMemRegion_t l_mem;
l_mem.phys_addr = i_addr;
l_mem.size = i_bytes;
// make sure that our numbers are page-aligned, required by mm call
l_mem.phys_addr = ALIGN_PAGE_DOWN(l_mem.phys_addr); //round down
l_mem.size = ALIGN_PAGE(l_mem.size) + (4*KILOBYTE); //round up
l_mem.virt_addr = mm_block_map(reinterpret_cast<void*>(l_mem.phys_addr),
l_mem.size );
TRACFCOMP( g_trac_runtime, "mapRegion> Mapped in 0x%X-0x%X (%X ) @ %p", l_mem.phys_addr,
l_mem.phys_addr+l_mem.size, l_mem.size, l_mem.virt_addr);
if (NULL == l_mem.virt_addr)
{
TRACFCOMP( g_trac_runtime, "Failure calling mm_block_map : virt_addr=%p",
l_mem.virt_addr );
/*@
* @errortype
* @moduleid RUNTIME::MOD_HDATSERVICE_MAPREGION
* @reasoncode RUNTIME::RC_CANNOT_MAP_MEMORY
* @userdata1 Starting Address
* @userdata2 Size
* @devdesc Error mapping in memory
*/
errhdl = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
RUNTIME::MOD_HDATSERVICE_MAPREGION,
RUNTIME::RC_CANNOT_MAP_MEMORY,
l_mem.phys_addr,
l_mem.size,
true /*Add HB Software Callout*/);
errhdl->collectTrace(RUNTIME_COMP_NAME,KILOBYTE);
break;
}
iv_mem_regions.push_back(l_mem);
o_vaddr = reinterpret_cast<uint64_t>(l_mem.virt_addr);
o_vaddr = o_vaddr + (i_addr-l_mem.phys_addr);
}while(0);
return errhdl;
}
errlHndl_t hdatService::getSpiraTupleVA(hdat5Tuple_t* i_tuple,
uint64_t & o_vaddr)
{
errlHndl_t errhdl = NULL;
bool found = false;
o_vaddr = 0x0;
uint64_t l_phys_addr, l_size;
//PHYP and Sapphire have different philsophies about how they
//lay the HDAT memory out. PHYP puts it all within a 128MB
//area. Sapphire puts the NACA in one area and then all of the
//SPIRA data sections in another (way up in memory). This
//function checks to see if the requested region is already
//mapped, and if not it will map it.
//
//It then returns the "base" virtual pointer for the requested
//tuple
//Note that if Sapphire/PHYP change how they do things this
//code will break (and the various address checking is expected
//to catch it)
do
{
// Get the absolute address = tuple addr + HRMOR (payload base)
l_phys_addr = i_tuple->hdatAbsAddr + iv_mem_regions[0].phys_addr;
l_size = i_tuple->hdatActualCnt * i_tuple->hdatActualSize;
TRACUCOMP( g_trac_runtime, "SPIRA Data ptr 0x%X, size 0x%X",
l_phys_addr, l_size);
//Check to see if the requested data fully falls within
//an existing mapping if so do nothing
for(memRegionItr region = iv_mem_regions.begin();
(region != iv_mem_regions.end()) && !found; ++region)
{
hdatMemRegion_t memR = *region;
if ((l_phys_addr >= memR.phys_addr) &&
((l_phys_addr + l_size) < (memR.phys_addr + memR.size)))
{
found = true;
o_vaddr = reinterpret_cast<uint64_t>(memR.virt_addr);
o_vaddr = o_vaddr + (l_phys_addr-memR.phys_addr);
break;
}
}
//if not found, then map it in
if(!found)
{
TRACFCOMP( g_trac_runtime, "SPIRA Data @ 0x%X not mapped, mapping",
l_phys_addr);
errhdl = mapRegion(l_phys_addr, l_size, o_vaddr);
if(errhdl)
{
break;
}
}
}while(0);
TRACUCOMP( g_trac_runtime, "SPIRA Data Base Data ptr 0x%X", o_vaddr);
return errhdl;
}
errlHndl_t hdatService::loadHostData(void)
{
errlHndl_t errhdl = NULL;
uint64_t l_dummy = 0x0;
do
{
//if already loaded (mapping present) just exit
if(0 != iv_mem_regions.size())
{
break;
}
// Call this routine to make sure we check the MNFG flags
TARGETING::ATTR_PAYLOAD_KIND_type payload_kind =
TARGETING::PAYLOAD_KIND_NONE;
bool is_phyp = TARGETING::is_phyp_load(&payload_kind);
TRACFCOMP( g_trac_runtime,
"PAYLOAD_KIND = %d (is_phyp=%d)",
payload_kind, is_phyp );
TARGETING::Target * sys = NULL;
TARGETING::targetService().getTopLevelTarget( sys );
assert(sys != NULL);
#ifdef REAL_HDAT_TEST
// Manually load HDAT memory now
TRACFCOMP( g_trac_runtime, "Forcing PHYP mode for testing" );
MAGIC_INSTRUCTION(MAGIC_BREAK);
payload_kind = TARGETING::PAYLOAD_KIND_PHYP;
#endif
//If PHYP or Sapphire w/SP Base Services
if( (TARGETING::PAYLOAD_KIND_PHYP == payload_kind ) ||
((TARGETING::PAYLOAD_KIND_SAPPHIRE == payload_kind ) &&
INITSERVICE::spBaseServicesEnabled()))
{
// PHYP
TARGETING::ATTR_PAYLOAD_BASE_type payload_base
= sys->getAttr<TARGETING::ATTR_PAYLOAD_BASE>();
uint64_t hdat_start = payload_base*MEGABYTE;
uint64_t hdat_size = HDAT_MEM_SIZE;
#ifdef REAL_HDAT_TEST
hdat_start = 256*MEGABYTE;
#endif
// make sure that our numbers are page-aligned, expected by
// rest of hdatservice code
assert(hdat_start == ALIGN_PAGE(hdat_start));
assert (hdat_size == ALIGN_PAGE(hdat_size));
errhdl = mapRegion(hdat_start, hdat_size, l_dummy);
}
else if( TARGETING::PAYLOAD_KIND_NONE == payload_kind )
{
// Standalone Test Image with no payload
FakePayload::load();
// Map in some arbitrary memory for the HostServices code to use
TRACFCOMP( g_trac_runtime, "load_host_data> STANDALONE: Mapping in 0x%X-0x%X (%d MB)", HSVC_TEST_MEMORY_ADDR,
HSVC_TEST_MEMORY_ADDR+HSVC_TEST_MEMORY_SIZE,
HSVC_TEST_MEMORY_SIZE);
errhdl = mapRegion(HSVC_TEST_MEMORY_ADDR,
HSVC_TEST_MEMORY_SIZE, l_dummy);
if(errhdl)
{
break;
}
// Map in some arbitrary memory for the DumpTest code to use
TRACFCOMP( g_trac_runtime, "load_host_data> STANDALONE: Mapping in 0x%X-0x%X (%d MB)", DUMP_TEST_MEMORY_ADDR,
DUMP_TEST_MEMORY_ADDR+DUMP_TEST_MEMORY_SIZE,
DUMP_TEST_MEMORY_SIZE);
errhdl = mapRegion(DUMP_TEST_MEMORY_ADDR,
DUMP_TEST_MEMORY_SIZE, l_dummy);
if(errhdl)
{
break;
}
}
else
{
TRACFCOMP( g_trac_runtime, "load_host_data> No host data to load for payload %d", payload_kind );
break;
}
} while(0);
return errhdl;
}
errlHndl_t hdatService::getHostDataSection( SectionId i_section,
uint64_t i_instance,
uint64_t& o_dataAddr,
size_t& o_dataSize )
{
errlHndl_t errhdl = NULL;
TRACFCOMP( g_trac_runtime, "RUNTIME::getHostDataSection( i_section=%d, i_instance=%d )", i_section, i_instance );
do
{
// Force the answer to zero in case of failure
o_dataAddr = 0;
//Always force a load (mapping)
errhdl = loadHostData();
if(errhdl)
{
break;
}
//Store record size for later
size_t record_size = 0;
TARGETING::Target * sys = NULL;
TARGETING::targetService().getTopLevelTarget( sys );
assert(sys != NULL);
// Figure out what kind of payload we have
TARGETING::PAYLOAD_KIND payload_kind
= sys->getAttr<TARGETING::ATTR_PAYLOAD_KIND>();
#ifdef REAL_HDAT_TEST
TRACFCOMP( g_trac_runtime, "Forcing PHYP mode for testing" );
payload_kind = TARGETING::PAYLOAD_KIND_PHYP;
#endif
if( TARGETING::PAYLOAD_KIND_NONE == payload_kind )
{
errhdl = get_standalone_section( i_section,
i_instance,
o_dataAddr,
o_dataSize );
// we're all done
break;
}
//If payload is not (PHYP or Sapphire w/SP Base Services )
else if( !((TARGETING::PAYLOAD_KIND_PHYP == payload_kind ) ||
((TARGETING::PAYLOAD_KIND_SAPPHIRE == payload_kind ) &&
INITSERVICE::spBaseServicesEnabled())))
{
TRACFCOMP( g_trac_runtime, "getHostDataSection> There is no host data for PAYLOAD_KIND=%d", payload_kind );
/*@
* @errortype
* @moduleid RUNTIME::MOD_HDATSERVICE_GETHOSTDATASECTION
* @reasoncode RUNTIME::RC_INVALID_PAYLOAD_KIND
* @userdata1 ATTR_PAYLOAD_KIND
* @userdata2 Requested Section
* @devdesc There is no host data for specified kind of payload
*/
errhdl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_UNRECOVERABLE,
RUNTIME::MOD_HDATSERVICE_GETHOSTDATASECTION,
RUNTIME::RC_INVALID_PAYLOAD_KIND,
payload_kind,
i_section,
true /*Add HB Software Callout*/);
errhdl->collectTrace(RUNTIME_COMP_NAME,KILOBYTE);
break;
}
// Go fetch the relative zero address that PHYP uses
// This is always the first entry in the vector
uint64_t payload_base =
reinterpret_cast<uint64_t>(iv_mem_regions[0].virt_addr);
// Setup the SPIRA pointers
errhdl = findSpira();
if( errhdl ) { break; }
// NACA
if( RUNTIME::NACA == i_section )
{
o_dataAddr = reinterpret_cast<uint64_t>(payload_base);
o_dataAddr += HDAT_NACA_OFFSET;
o_dataSize = sizeof(hdatNaca_t);
}
// SPIRA-H
else if( (RUNTIME::SPIRA_H == i_section) && iv_spiraH )
{
o_dataAddr = reinterpret_cast<uint64_t>(iv_spiraH);
if( iv_spiraH )
{
o_dataSize = iv_spiraH->hdatHDIF.hdatSize;
}
else
{
o_dataSize = 0;
}
}
// SPIRA-S
else if( (RUNTIME::SPIRA_S == i_section) && iv_spiraS )
{
o_dataAddr = reinterpret_cast<uint64_t>(iv_spiraS);
if( iv_spiraS )
{
o_dataSize = iv_spiraS->hdatHDIF.hdatSize;
}
else
{
o_dataSize = 0;
}
}
// Legacy SPIRA
else if( (RUNTIME::SPIRA_L == i_section) && iv_spiraL )
{
o_dataAddr = reinterpret_cast<uint64_t>(iv_spiraL);
if( iv_spiraL )
{
o_dataSize = iv_spiraL->hdatHDIF.hdatSize;
}
else
{
o_dataSize = 0;
}
}
// Host Services System Data
else if( RUNTIME::HSVC_SYSTEM_DATA == i_section )
{
// Find the right tuple and verify it makes sense
hdat5Tuple_t* tuple = NULL;
if( iv_spiraS )
{
tuple = &(iv_spiraS->hdatDataArea[SPIRAS_HSVC_DATA]);
}
else if( unlikely(iv_spiraL != NULL) )
{
tuple = &(iv_spiraL->hdatDataArea[SPIRAL_HSVC_DATA]);
}
TRACUCOMP( g_trac_runtime, "HSVC_SYSTEM_DATA tuple=%p", tuple );
errhdl = check_tuple( i_section,
tuple );
if( errhdl ) { break; }
uint64_t base_addr;
errhdl = getSpiraTupleVA(tuple, base_addr);
if( errhdl ) { break; }
hdatHDIF_t* hsvc_header =
reinterpret_cast<hdatHDIF_t*>(base_addr);
TRACUCOMP( g_trac_runtime, "hsvc_header=%p", hsvc_header );
// Check the headers and version info
errhdl = check_header( hsvc_header,
HSVC_DATA_HEADER );
if( errhdl ) { break; }
hdatHDIFDataHdr_t* sys_header =
reinterpret_cast<hdatHDIFDataHdr_t*>
(hsvc_header->hdatDataPtrOffset + base_addr);
TRACUCOMP( g_trac_runtime, "sys_header=%p", sys_header );
// Make sure the Data Header is pointing somewhere valid
errhdl = verify_hdat_address( sys_header,
sizeof(hdatHDIFDataHdr_t) );
if( errhdl ) { break; }
o_dataAddr = sys_header->hdatOffset + base_addr;
o_dataSize = sys_header->hdatSize;
}
// Host Services Node Data
else if( RUNTIME::HSVC_NODE_DATA == i_section )
{
// Find the right tuple and verify it makes sense
hdat5Tuple_t* tuple = NULL;
if( iv_spiraS )
{
tuple = &(iv_spiraS->hdatDataArea[SPIRAS_HSVC_DATA]);
}
else if( unlikely(iv_spiraL != NULL) )
{
tuple = &(iv_spiraL->hdatDataArea[SPIRAL_HSVC_DATA]);
}
TRACUCOMP( g_trac_runtime, "HSVC_NODE_DATA tuple=%p", tuple );
errhdl = check_tuple( i_section,
tuple );
if( errhdl ) { break; }
uint64_t base_addr;
errhdl = getSpiraTupleVA(tuple, base_addr);
if( errhdl ) { break; }
hdatHDIF_t* hsvc_header =
reinterpret_cast<hdatHDIF_t*>(base_addr);
TRACUCOMP( g_trac_runtime, "hsvc_header=%p", hsvc_header );
// Check the headers and version info
errhdl = check_header( hsvc_header,
HSVC_DATA_HEADER );
if( errhdl ) { break; }
hdatHDIFChildHdr_t* node_header =
reinterpret_cast<hdatHDIFChildHdr_t*>
(hsvc_header->hdatChildStrOffset + base_addr);
uint64_t first_node_header =
mm_virt_to_phys(reinterpret_cast<void*>(node_header));
TRACUCOMP( g_trac_runtime, "first node_header=%X->%p", first_node_header, node_header );
// Make sure the Child Header is pointing somewhere valid
errhdl = verify_hdat_address( node_header,
sizeof(hdatHDIFChildHdr_t) );
if( errhdl ) { break; }
hdatHDIF_t* node_data_header =
reinterpret_cast<hdatHDIF_t*>
(node_header->hdatOffset + base_addr);
// Loop around all instances because the data
// could be sparsely populated
TRACUCOMP( g_trac_runtime, "nodecount=%d", node_header->hdatCnt );
bool foundit = false;
uint32_t found_instances = 0;
for( uint8_t index = 0; index < node_header->hdatCnt; index++ )
{
// Make sure the headers are all in a valid range
errhdl = verify_hdat_address( node_data_header,
sizeof(hdatHDIF_t) );
if( errhdl ) { break; }
uint64_t phys_addr =
mm_virt_to_phys(reinterpret_cast<void*>(node_data_header));
TRACFCOMP( g_trac_runtime, "index=%d, header=%p->%X", index, node_data_header, phys_addr );
// Check the headers and version info
errhdl = check_header( node_data_header,
HSVC_NODE_DATA_HEADER );
if( errhdl ) { break; }
TRACFCOMP( g_trac_runtime, "%d> hdatInstance=%d, hdatSize=%d", index, node_data_header->hdatInstance, node_data_header->hdatSize );
if( node_data_header->hdatInstance != i_instance )
{
found_instances |=
(0x80000000 >> node_data_header->hdatInstance);
//increment to the next child section
node_data_header =
reinterpret_cast<hdatHDIF_t*>
(reinterpret_cast<uint64_t>(node_data_header)
+ node_data_header->hdatSize);
continue;
}
foundit = true;
uint64_t node_base_addr =
reinterpret_cast<uint64_t>(node_data_header);
hdatHDIFDataHdr_t* local_node_header =
reinterpret_cast<hdatHDIFDataHdr_t*>
(node_data_header->hdatDataPtrOffset + node_base_addr);
TRACUCOMP( g_trac_runtime, "local_node_header=%p", local_node_header );
// Make sure the header is pointing somewhere valid
errhdl = verify_hdat_address( local_node_header,
sizeof(hdatHDIFDataHdr_t) );
if( errhdl ) { break; }
o_dataAddr = local_node_header->hdatOffset + node_base_addr;
o_dataSize = local_node_header->hdatSize;
break; // found it, stop the loop
}
if( errhdl ) { break; }
// Make sure we found something
if( !foundit )
{
TRACFCOMP( g_trac_runtime, "getHostDataSection> HSVC_NODE_DATA instance %d of section %d is unallocated", i_instance, i_section );
/*@
* @errortype
* @moduleid RUNTIME::MOD_HDATSERVICE_GETHOSTDATASECTION
* @reasoncode RUNTIME::RC_NO_HSVC_NODE_DATA_FOUND
* @userdata1 Mainstore address of first node_data_header
* @userdata2[0:31] Requested Instance
* @userdata2[32:63] Bitmask of discovered instances
* @devdesc Requested instance of HSVC_NODE_DATA is
* unallocated
*/
errhdl = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
RUNTIME::MOD_HDATSERVICE_GETHOSTDATASECTION,
RUNTIME::RC_NO_HSVC_NODE_DATA_FOUND,
first_node_header,
TWO_UINT32_TO_UINT64(i_instance,
found_instances));
errhdl->addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_MED );
errhdl->addProcedureCallout( HWAS::EPUB_PRC_SP_CODE,
HWAS::SRCI_PRIORITY_MED );
errhdl->collectTrace(RUNTIME_COMP_NAME,KILOBYTE);
break;
}
}
// IPL Parameters : System Parameters
else if( RUNTIME::IPLPARMS_SYSTEM == i_section )
{
// Find the right tuple and verify it makes sense
hdat5Tuple_t* tuple = NULL;
if( iv_spiraS )
{
tuple = &(iv_spiraS->hdatDataArea[SPIRAS_IPL_PARMS]);
}
else if( unlikely(iv_spiraL != NULL) )
{
tuple = &(iv_spiraL->hdatDataArea[SPIRAL_IPL_PARMS]);
}
TRACUCOMP( g_trac_runtime, "IPLPARMS_SYSTEM tuple=%p", tuple );
errhdl = check_tuple( i_section,
tuple );
if( errhdl ) { break; }
uint64_t base_addr;
errhdl = getSpiraTupleVA(tuple, base_addr);
if( errhdl ) { break; }
hdatHDIF_t* ipl_parms = reinterpret_cast<hdatHDIF_t*>
(base_addr);
TRACUCOMP( g_trac_runtime, "ipl_parms=%p", ipl_parms );
// Check the headers and version info
errhdl = check_header( ipl_parms,
IPLPARMS_SYSTEM_HEADER );
if( errhdl ) { break; }
hdatHDIFDataHdr_t* internal_data_ptrs =
reinterpret_cast<hdatHDIFDataHdr_t*>
(ipl_parms->hdatDataPtrOffset + base_addr);
TRACUCOMP( g_trac_runtime, "internal_data_ptrs=%p", internal_data_ptrs );
// Make sure the Header is pointing somewhere valid
errhdl = verify_hdat_address( internal_data_ptrs,
sizeof(hdatHDIFDataHdr_t) );
if( errhdl ) { break; }
//System Parms are index 0
o_dataAddr = internal_data_ptrs[0].hdatOffset + base_addr;
o_dataSize = internal_data_ptrs[0].hdatSize;
}
// MS DUMP Source Table - MDST
else if( RUNTIME::MS_DUMP_SRC_TBL == i_section )
{
//For security we can't trust the FSP's payload attribute
// on MPIPLs for the dump tables.
//@todo: RTC:59171
// Find the right tuple and verify it makes sense
hdat5Tuple_t* tuple = NULL;
if( iv_spiraS )
{
tuple = &(iv_spiraS->hdatDataArea[SPIRAH_MS_DUMP_SRC_TBL]);
}
else if( unlikely(iv_spiraL != NULL) )
{
tuple = &(iv_spiraL->hdatDataArea[SPIRAL_MS_DUMP_SRC_TBL]);
}
TRACUCOMP( g_trac_runtime, "MS_DUMP_SRC_TBL tuple=%p", tuple );
errhdl = check_tuple( i_section,
tuple );
if( errhdl ) { break; }
//Note - there is no header for the MDST
o_dataSize = tuple->hdatActualCnt * tuple->hdatActualSize;
record_size = tuple->hdatActualSize;
errhdl = getSpiraTupleVA(tuple, o_dataAddr);
if( errhdl ) { break; }
}
// MS DUMP Destination Table - MDDT
else if( RUNTIME::MS_DUMP_DST_TBL == i_section )
{
//For security we can't trust the FSP's payload attribute
// on MPIPLs for the dump tables.
//@todo: RTC:59171
// Find the right tuple and verify it makes sense
hdat5Tuple_t* tuple = NULL;
if( iv_spiraS )
{
tuple = &(iv_spiraS->hdatDataArea[SPIRAH_MS_DUMP_DST_TBL]);
}
else if( unlikely(iv_spiraL != NULL) )
{
tuple = &(iv_spiraL->hdatDataArea[SPIRAL_MS_DUMP_DST_TBL]);
}
TRACUCOMP( g_trac_runtime, "MS_DUMP_DST_TBL tuple=%p", tuple );
errhdl = check_tuple( i_section,
tuple );
if( errhdl ) { break; }
//Note - there is no header for the MDDT
o_dataSize = tuple->hdatActualCnt * tuple->hdatActualSize;
record_size = tuple->hdatActualSize;
errhdl = getSpiraTupleVA(tuple, o_dataAddr);
if( errhdl ) { break; }
}
// MS DUMP Results Table - MDRT
else if( RUNTIME::MS_DUMP_RESULTS_TBL == i_section )
{
//For security we can't trust the FSP's payload attribute
// on MPIPLs for the dump tables.
//@todo: RTC:59171
// Find the right tuple and verify it makes sense
hdat5Tuple_t* tuple = NULL;
if( iv_spiraS )
{
tuple = &(iv_spiraS->hdatDataArea[SPIRAH_MS_DUMP_RSLT_TBL]);
}
else if( unlikely(iv_spiraL != NULL) )
{
tuple = &(iv_spiraL->hdatDataArea[SPIRAL_MS_DUMP_RSLT_TBL]);
}
TRACUCOMP( g_trac_runtime, "MS_DUMP_RESULTS_TBL tuple=%p", tuple );
errhdl = check_tuple( i_section,
tuple );
if( errhdl ) { break; }
//Note - there is no header for the MDRT
//return the total allocated size since it is empty at first
o_dataSize = tuple->hdatAllocSize * tuple->hdatAllocCnt;
record_size = tuple->hdatAllocSize;
errhdl = getSpiraTupleVA(tuple, o_dataAddr);
if( errhdl ) { break; }
}
// Not sure how we could get here...
else
{
TRACFCOMP( g_trac_runtime, "getHostDataSection> Unknown section %d", i_section );
/*@
* @errortype
* @moduleid RUNTIME::MOD_HDATSERVICE_GETHOSTDATASECTION
* @reasoncode RUNTIME::RC_INVALID_SECTION
* @userdata1 Section Id
* @userdata2 <unused>
* @devdesc Unknown section requested
*/
errhdl = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
RUNTIME::MOD_HDATSERVICE_GETHOSTDATASECTION,
RUNTIME::RC_INVALID_SECTION,
i_section,
0,
true /*Add HB Software Callout*/);
errhdl->collectTrace(RUNTIME_COMP_NAME,KILOBYTE);
break;
}
// Make sure the range we return is pointing somewhere valid
errhdl = verify_hdat_address( reinterpret_cast<void*>(o_dataAddr),
o_dataSize );
if( errhdl ) { break; }
// Override the data size value if we've got a stored actual
if( iv_actuals[i_section] != ACTUAL_NOT_SET )
{
TRACFCOMP( g_trac_runtime, "getHostDataSection> Data size overridden from %d->%d", o_dataSize, iv_actuals[i_section] );
o_dataSize = iv_actuals[i_section] * record_size;
}
} while(0);
TRACFCOMP( g_trac_runtime, "getHostDataSection> o_dataAddr=0x%X, o_dataSize=%d", o_dataAddr, o_dataSize );
return errhdl;
}
/**
* @brief Locates the proper SPIRA structure and sets instance vars
*/
errlHndl_t hdatService::findSpira( void )
{
errlHndl_t errhdl = NULL;
errlHndl_t errhdl_s = NULL; //SPIRA-S error
errlHndl_t errhdl_l = NULL; //Legacy SPIRA error
do {
// Only do this once
if( iv_spiraL || iv_spiraH || iv_spiraS )
{
break;
}
// Go fetch the relative zero address that PHYP uses
// This is always the first entry in the vector
uint64_t payload_base =
reinterpret_cast<uint64_t>(iv_mem_regions[0].virt_addr);
// Everything starts at the NACA
// The NACA is part of the platform dependent LID which
// is loaded at relative memory address 0x0
hdatNaca_t* naca = reinterpret_cast<hdatNaca_t*>
(HDAT_NACA_OFFSET + payload_base);
TRACFCOMP( g_trac_runtime, "NACA=%.X->%p", HDAT_NACA_OFFSET, naca );
// Do some sanity checks on the NACA
if( naca->nacaPhypPciaSupport != 1 )
{
TRACFCOMP( g_trac_runtime, "findSpira> nacaPhypPciaSupport=%.8X", naca->nacaPhypPciaSupport );
// Figure out what kind of payload we have
TARGETING::Target * sys = NULL;
TARGETING::targetService().getTopLevelTarget( sys );
TARGETING::PAYLOAD_KIND payload_kind
= sys->getAttr<TARGETING::ATTR_PAYLOAD_KIND>();
// Go get the physical address we mapped in
uint64_t phys_addr =
mm_virt_to_phys(reinterpret_cast<void*>(naca));
/*@
* @errortype
* @moduleid RUNTIME::MOD_HDATSERVICE_FINDSPIRA
* @reasoncode RUNTIME::RC_BAD_NACA
* @userdata1 Mainstore address of NACA
* @userdata2[0:31] Payload Base Address
* @userdata2[32:63] Payload Kind
* @devdesc NACA data doesn't seem right
*/
errhdl = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
RUNTIME::MOD_HDATSERVICE_FINDSPIRA,
RUNTIME::RC_BAD_NACA,
reinterpret_cast<uint64_t>(phys_addr),
TWO_UINT32_TO_UINT64(payload_base,
payload_kind));
errhdl->addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_MED );
errhdl->addProcedureCallout( HWAS::EPUB_PRC_SP_CODE,
HWAS::SRCI_PRIORITY_MED );
errhdl->collectTrace(RUNTIME_COMP_NAME,KILOBYTE);
RUNTIME::UdNaca(naca).addToLog(errhdl);
break;
}
// Are we using the SPIRA-H/S or Legacy format
if( naca->spiraH != 0 )
{
// pointer is also relative to PHYP's zero
iv_spiraH = reinterpret_cast<hdatSpira_t*>
(naca->spiraH + payload_base);
TRACFCOMP( g_trac_runtime, "SPIRA-H=%X->%p", naca->spiraH, iv_spiraH );
// Check the headers and version info
errhdl = check_header( &(iv_spiraH->hdatHDIF),
SPIRAH_HEADER );
if( errhdl )
{
RUNTIME::UdNaca(naca).addToLog(errhdl);
break;
}
// SPIRA-S is at the beginning of the Host Data Area Tuple
uint64_t tuple_addr = reinterpret_cast<uint64_t>
(&(iv_spiraH->hdatDataArea[SPIRAH_HOST_DATA_AREAS]));
TRACUCOMP( g_trac_runtime, "SPIRA-S tuple offset=%.8X", tuple_addr );
// need to offset from virtual zero
//tuple_addr += payload_base;
hdat5Tuple_t* tuple = reinterpret_cast<hdat5Tuple_t*>(tuple_addr);
TRACUCOMP( g_trac_runtime, "SPIRA-S tuple=%p", tuple );
errlHndl_t errhdl_s = check_tuple( SPIRA_S,
tuple );
if( errhdl_s )
{
TRACFCOMP( g_trac_runtime, "SPIRA-S is invalid, will try legacy SPIRA" );
RUNTIME::UdNaca(naca).addToLog(errhdl_s);
iv_spiraS = NULL;
}
else
{
uint64_t tmp_addr = 0;
errhdl_s = getSpiraTupleVA( tuple, tmp_addr );
if( errhdl_s )
{
TRACFCOMP( g_trac_runtime, "Couldn't map SPIRA-S, will try legacy SPIRA" );
iv_spiraS = NULL;
}
else
{
iv_spiraS = reinterpret_cast<hdatSpira_t*>(tmp_addr);
TRACFCOMP( g_trac_runtime, "SPIRA-S=%p", iv_spiraS );
// Check the headers and version info
errhdl_s = check_header( &(iv_spiraS->hdatHDIF),
SPIRAS_HEADER );
if( errhdl_s )
{
TRACFCOMP( g_trac_runtime, "SPIRA-S is invalid, will try legacy SPIRA" );
RUNTIME::UdNaca(naca).addToLog(errhdl_s);
RUNTIME::UdSpira(iv_spiraS).addToLog(errhdl_s);
iv_spiraS = NULL;
}
}
}
}
//Legacy SPIRA
// pointer is also relative to PHYP's zero
iv_spiraL = reinterpret_cast<hdatSpira_t*>
(naca->spiraOld + payload_base);
TRACFCOMP( g_trac_runtime, "Legacy SPIRA=%X->%p", naca->spiraOld, iv_spiraL );
// Make sure the SPIRA is valid
errhdl_l = verify_hdat_address( iv_spiraL,
sizeof(hdatSpira_t) );
if( errhdl_l )
{
TRACFCOMP( g_trac_runtime, "Legacy Spira is at a wacky offset!!! %.16X", naca->spiraOld );
iv_spiraL = NULL;
RUNTIME::UdNaca(naca).addToLog(errhdl_l);
}
else
{
// Look for a filled in HEAP section to see if FSP is using the
// new or old format
// (Note: this is the logic PHYP is using)
hdat5Tuple_t* heap_tuple = &(iv_spiraL->hdatDataArea[SPIRAL_HEAP]);
TRACUCOMP( g_trac_runtime, "HEAP tuple=%p", heap_tuple );
if( heap_tuple->hdatActualSize == 0 )
{
TRACFCOMP( g_trac_runtime, "Legacy SPIRA is not filled in, using SPIRA-H/S" );
iv_spiraL = NULL;
}
else
{
TRACFCOMP( g_trac_runtime, "Legacy SPIRA is filled in so we'll use it" );
iv_spiraS = NULL;
}
}
// Make sure we have a good SPIRA somewhere
if( (iv_spiraL == NULL) && (iv_spiraS == NULL) )
{
TRACFCOMP( g_trac_runtime, "Could not find a valid SPIRA of any type" );
/*@
* @errortype
* @moduleid RUNTIME::MOD_HDATSERVICE_FINDSPIRA
* @reasoncode RUNTIME::RC_NO_SPIRA
* @userdata1[0:31] RC for Legacy SPIRA fail
* @userdata1[32:64] EID for Legacy SPIRA fail
* @userdata2[0:31] RC for SPIRA-S fail
* @userdata2[32:64] EID for SPIRA-S fail
* @devdesc Could not find a valid SPIRA of any type
*/
errhdl = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
RUNTIME::MOD_HDATSERVICE_FINDSPIRA,
RUNTIME::RC_BAD_NACA,
TWO_UINT32_TO_UINT64(ERRL_GETRC_SAFE(errhdl_l),
ERRL_GETEID_SAFE(errhdl_l)),
TWO_UINT32_TO_UINT64(ERRL_GETRC_SAFE(errhdl_s),
ERRL_GETEID_SAFE(errhdl_s)));
errhdl->addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_MED );
errhdl->addProcedureCallout( HWAS::EPUB_PRC_SP_CODE,
HWAS::SRCI_PRIORITY_MED );
errhdl->collectTrace(RUNTIME_COMP_NAME,KILOBYTE);
// commit the errors related to each SPIRA
if( errhdl_s )
{
errhdl_s->plid(errhdl->plid());
errlCommit(errhdl_s,RUNTIME_COMP_ID);
}
if( errhdl_l )
{
errhdl_l->plid(errhdl->plid());
errlCommit(errhdl_l,RUNTIME_COMP_ID);
}
// return the summary log
break;
}
} while(0);
if( errhdl_s ) { delete errhdl_s; }
if( errhdl_l ) { delete errhdl_l; }
return errhdl;
}
errlHndl_t hdatService::updateHostDataSectionActual( SectionId i_section,
uint16_t i_count )
{
errlHndl_t errhdl = NULL;
TRACFCOMP( g_trac_runtime, "RUNTIME::updateHostDataSectionActual( i_section=%d )", i_section);
do
{
//Always force a load (mapping)
errhdl = loadHostData();
if(errhdl)
{
break;
}
TARGETING::Target * sys = NULL;
TARGETING::targetService().getTopLevelTarget( sys );
assert(sys != NULL);
// Figure out what kind of payload we have
TARGETING::PAYLOAD_KIND payload_kind
= sys->getAttr<TARGETING::ATTR_PAYLOAD_KIND>();
if( TARGETING::PAYLOAD_KIND_NONE == payload_kind )
{
// we're all done -- don't need to do anything
break;
}
//If payload is not (PHYP or Sapphire w/SP Base Services)
else if( !((TARGETING::PAYLOAD_KIND_PHYP == payload_kind ) ||
((TARGETING::PAYLOAD_KIND_SAPPHIRE == payload_kind ) &&
INITSERVICE::spBaseServicesEnabled())))
{
TRACFCOMP( g_trac_runtime, "get_host_data_section> There is no host data for PAYLOAD_KIND=%d", payload_kind );
/*@
* @errortype
* @moduleid RUNTIME::MOD_HDATSERVICE_UPDATE_SECTION_ACTUAL
* @reasoncode RUNTIME::RC_INVALID_PAYLOAD_KIND
* @userdata1 ATTR_PAYLOAD_KIND
* @userdata2 Requested Section
* @devdesc There is no host data for specified kind of payload
*/
errhdl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_UNRECOVERABLE,
RUNTIME::MOD_HDATSERVICE_UPDATE_SECTION_ACTUAL,
RUNTIME::RC_INVALID_PAYLOAD_KIND,
payload_kind,
i_section,
true /*Add HB Software Callout*/);
errhdl->collectTrace(RUNTIME_COMP_NAME,KILOBYTE);
break;
}
// Setup the SPIRA pointers
errhdl = findSpira();
if( errhdl ) { break; }
// MS DUMP Results Table - MDRT
if( RUNTIME::MS_DUMP_RESULTS_TBL == i_section )
{
//For security we can't trust the FSP's payload attribute
// on MPIPLs for the dump tables.
//@todo: RTC:59171
// Find the right tuple and verify it makes sense
hdat5Tuple_t* tuple = NULL;
if( iv_spiraS )
{
tuple = &(iv_spiraS->hdatDataArea[SPIRAH_MS_DUMP_RSLT_TBL]);
}
else if( unlikely(iv_spiraL != NULL) )
{
tuple = &(iv_spiraL->hdatDataArea[SPIRAL_MS_DUMP_RSLT_TBL]);
}
TRACFCOMP( g_trac_runtime, "MS_DUMP_RESULTS_TBL tuple=%p, count=%x", tuple, i_count);
errhdl = check_tuple( i_section,
tuple );
if( errhdl ) { break; }
tuple->hdatActualCnt = i_count;
}
// Not sure how we could get here...
else
{
TRACFCOMP( g_trac_runtime, "get_host_data_section> Unknown section %d", i_section );
/*@
* @errortype
* @moduleid RUNTIME::MOD_HDATSERVICE_UPDATE_SECTION_ACTUAL
* @reasoncode RUNTIME::RC_INVALID_SECTION
* @userdata1 Section Id
* @userdata2 <unused>
* @devdesc Unknown section requested
*/
errhdl = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
RUNTIME::MOD_HDATSERVICE_UPDATE_SECTION_ACTUAL,
RUNTIME::RC_INVALID_SECTION,
i_section,
0,
true /*Add HB Software Callout*/);
errhdl->collectTrace(RUNTIME_COMP_NAME,KILOBYTE);
break;
}
if( errhdl ) { break; }
} while(0);
return errhdl;
}
/**
* @brief Retrieve and log FFDC data relevant to a given section of
* host data memory
*/
void hdatService::addFFDC( SectionId i_section,
errlHndl_t& io_errlog )
{
uint64_t addr = 0;
uint64_t size = 0;
errlHndl_t errlog = NULL;
if( RUNTIME::NACA == i_section )
{
errlog = getHostDataSection( NACA, 0, addr, size );
if( errlog )
{
delete errlog;
}
else if( (addr != 0) && (size != 0) )
{
hdatNaca_t* naca = reinterpret_cast<hdatNaca_t*>(addr);
RUNTIME::UdNaca(naca).addToLog(io_errlog);
}
return;
}
else if( (RUNTIME::SPIRA_L == i_section)
|| (RUNTIME::SPIRA_S == i_section)
|| (RUNTIME::SPIRA_H == i_section) )
{
// grab the NACA first
addFFDC( NACA, io_errlog );
errlog = getHostDataSection( i_section, 0, addr, size );
if( errlog )
{
delete errlog;
}
else if( (addr != 0) && (size != 0) )
{
hdatSpira_t* spira = reinterpret_cast<hdatSpira_t*>(addr);
RUNTIME::UdSpira(spira).addToLog(io_errlog);
}
return;
}
else if( RUNTIME::HSVC_SYSTEM_DATA == i_section )
{
// grab the SPIRA data
if( iv_spiraL) { addFFDC( SPIRA_L, io_errlog ); }
if( iv_spiraH) { addFFDC( SPIRA_H, io_errlog ); }
if( iv_spiraS) { addFFDC( SPIRA_S, io_errlog ); }
// grab the Tuple it is part of
hdat5Tuple_t* tuple = NULL;
if( iv_spiraS )
{
tuple = &(iv_spiraS->hdatDataArea[SPIRAS_HSVC_DATA]);
}
else if( unlikely(iv_spiraL != NULL) )
{
tuple = &(iv_spiraL->hdatDataArea[SPIRAL_HSVC_DATA]);
}
if( tuple ) { RUNTIME::UdTuple(tuple).addToLog(io_errlog); }
}
else if( RUNTIME::HSVC_NODE_DATA == i_section )
{
// grab the SPIRA data
if( iv_spiraL) { addFFDC( SPIRA_L, io_errlog ); }
if( iv_spiraH) { addFFDC( SPIRA_H, io_errlog ); }
if( iv_spiraS) { addFFDC( SPIRA_S, io_errlog ); }
// grab the Tuple it is part of
hdat5Tuple_t* tuple = NULL;
if( iv_spiraS )
{
tuple = &(iv_spiraS->hdatDataArea[SPIRAS_HSVC_DATA]);
}
else if( unlikely(iv_spiraL != NULL) )
{
tuple = &(iv_spiraL->hdatDataArea[SPIRAL_HSVC_DATA]);
}
if( tuple ) { RUNTIME::UdTuple(tuple).addToLog(io_errlog); }
}
}
/********************
Public Methods
********************/
/**
* @brief Add the host data mainstore locations to VMM
*/
errlHndl_t load_host_data( void )
{
return Singleton<hdatService>::instance().loadHostData();
}
/**
* @brief Get a pointer to the beginning of a particular section of
* the host data memory.
*/
errlHndl_t get_host_data_section( SectionId i_section,
uint64_t i_instance,
uint64_t& o_dataAddr,
size_t& o_dataSize )
{
return Singleton<hdatService>::instance().
getHostDataSection(i_section,i_instance, o_dataAddr, o_dataSize);
}
void saveActualCount( RUNTIME::SectionId i_id,
uint16_t i_count )
{
Singleton<hdatService>::instance().saveActualCount(i_id,i_count);
}
errlHndl_t writeActualCount( RUNTIME::SectionId i_id )
{
return Singleton<hdatService>::instance().writeActualCount(i_id);
}
/**
* @brief Retrieve and log FFDC data relevant to a given section of
* host data memory
*/
void add_host_data_ffdc( SectionId i_section,
errlHndl_t& io_errlog )
{
return Singleton<hdatService>::instance().addFFDC(i_section,io_errlog);
}
};
/********************
Private/Protected Methods
********************/
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