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/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/usr/pnor/pnor_common.C $ */
/* */
/* OpenPOWER HostBoot Project */
/* */
/* Contributors Listed Below - COPYRIGHT 2014,2017 */
/* [+] Google Inc. */
/* [+] 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 */
#include "pnor_common.H"
#include <pnor/pnor_reasoncodes.H>
#include "ffs.h" //Common header file with BuildingBlock.
#include "common/ffs_hb.H" //Hostboot def of user data in ffs_entry struct
#include <sys/mm.h>
#include <initservice/initserviceif.H>
#include <util/align.H>
#include <errl/errlmanager.H>
#include <config.h> // @FIXME RTC 132398
#include <secureboot/trustedbootif.H>
#include <devicefw/driverif.H>
// Trace definition
trace_desc_t* g_trac_pnor = NULL;
TRAC_INIT(&g_trac_pnor, PNOR_COMP_NAME, 4*KILOBYTE, TRACE::BUFFER_SLOW); //4K
// Easy macro replace for unit testing
//#define TRACUCOMP(args...) TRACFCOMP(args)
#define TRACUCOMP(args...)
/*
* @brief determine the physical offset of the ffs entry
* (to be used before readTOC is called)
*/
void PNOR::findPhysicalOffset(ffs_hdr* i_tocAddress,
const char* i_entryName,
uint64_t & o_offset)
{
for(uint32_t i = 0; i < i_tocAddress->entry_count; i++)
{
ffs_entry* l_curEntry = (&i_tocAddress->entries[i]);
if(strcmp(i_entryName,l_curEntry->name) == 0)
{
o_offset = ((uint64_t)l_curEntry->base)*PAGESIZE;
break;
}
}
}
/*
* @brief used to translate mmio offset stored in mbox scratch 3
* to physical offset of HBB Image
*/
errlHndl_t PNOR::mmioToPhysicalOffset(uint64_t& o_hbbAddress)
{
errlHndl_t l_err = NULL;
do
{
#if 0 // @FIXME RTC 132398
uint64_t l_hbbMMIO = 0;
size_t l_size = sizeof(uint64_t);
TARGETING::Target* l_masterProc =
TARGETING::MASTER_PROCESSOR_CHIP_TARGET_SENTINEL;
//MBOX_SCRATCH_REG3 = 0x5003A
l_err = DeviceFW::deviceRead(l_masterProc, &l_hbbMMIO,l_size,
DEVICE_SCOM_ADDRESS(INITSERVICE::SPLESS::MBOX_SCRATCH_REG3));
if (l_err)
{
TRACFCOMP(g_trac_pnor,"PNOR::mmioToPhysicalOffset: Failed to read"
" HB MMIO offset");
break;
}
//All SCOMS are 64-bit, HB MMIO is stored in higher 32-bits.
//ANDing with TOP_OF_FLASH to maskout anything in the higher bits
l_hbbMMIO = (l_hbbMMIO >> 32) & PNOR::LPC_TOP_OF_FLASH_OFFSET;
o_hbbAddress = ((9*l_hbbMMIO) - (9*PNOR::LPC_SFC_MMIO_OFFSET)
- PNOR::PNOR_SIZE) /8;
#ifdef CONFIG_PNOR_INIT_FOUR_BYTE_ADDR
// If the PNOR came up in 3-byte mode, then make sure to mask off
// the address appropriately.
o_hbbAddress &= 0x00ffffffu;
#endif
#else // @FIXME RTC 132398
o_hbbAddress = 1; // @FIXME RTC 132398
#endif
} while (0);
return l_err;
}
/*
* @brief used to translate HBB Address to MMIO offset
*/
void PNOR::physicalToMmioOffset(uint64_t i_hbbAddress,
uint64_t& o_mmioOffset)
{
//Left shifting 32-bits because SCOMS store a 64-bit value
//and HBB Offset is stored in the higher 32-bits
o_mmioOffset = ((PNOR::LPC_SFC_MMIO_OFFSET + i_hbbAddress +
((PNOR::PNOR_SIZE - i_hbbAddress)/9)) |
PNOR::LPC_FW_SPACE) << 32;
}
/*
* @brief: parse the TOCs read from memory and store section information
* from one of the verified TOCs
*/
errlHndl_t PNOR::parseTOC( uint8_t* i_tocBuffer,SectionData_t * o_TOC)
{
TRACUCOMP(g_trac_pnor,"PNOR::parseTOC>");
errlHndl_t l_errhdl = NULL;
do{
// Zero out my table
PNOR::initializeSections(o_TOC);
uint32_t l_errCode = 0;
ffs_hdr* l_ffs_hdr = NULL;
TRACFCOMP(g_trac_pnor, "PNOR::parseTOC verifying TOC");
PNOR::checkForNullBuffer(i_tocBuffer, l_errCode, l_ffs_hdr);
//Check if the buffer is null
if(l_errCode != NO_ERROR)
{
TRACFCOMP(g_trac_pnor, "Null TOC Buffer found while checking TOC" );
/*@
* @errortype
* @moduleid PNOR::MOD_PNORRP_READTOC
* @reasoncode PNOR::RC_NULL_TOC_BUFFER
* @userdata1 Address of toc buffer
* @userdata2 Error code
* @devdesc Expected buffer to have contents of TOC,
* instead was NULL
* @custdesc A problem occurred while reading PNOR
* partition table
*/
l_errhdl = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
PNOR::MOD_PNORRP_READTOC,
PNOR::RC_NULL_TOC_BUFFER,
reinterpret_cast<uint64_t>(&i_tocBuffer),
l_errCode,
true /*Add HB SW Callout*/);
l_errhdl->collectTrace(PNOR_COMP_NAME);
break;
}
if(PNOR::pnor_ffs_checksum(l_ffs_hdr, FFS_HDR_SIZE) != 0)
{
l_errCode |= CHECKSUM_ERR;
}
//Checksum on header
if (l_errCode != NO_ERROR)
{
TRACFCOMP(g_trac_pnor, "PNOR::parseTOC Checksum error in TOC's header");
/* @errortype
* @moduleid PNOR::MOD_PNORRP_READTOC
* @reasoncode PNOR::RC_TOC_HDR_CHECKSUM_ERR
* @userdata1 Address of toc buffer
* @userdata2 Error Code
* @devdesc Hdr of TOC of PNOR failed checksum
* @custdesc A problem occurred while reading PNOR
* partition table
*/
l_errhdl = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
PNOR::MOD_PNORRP_READTOC,
PNOR::RC_TOC_HDR_CHECKSUM_ERR,
reinterpret_cast<uint64_t>(&i_tocBuffer),
l_errCode,
false );
l_errhdl->addPartCallout(
TARGETING::MASTER_PROCESSOR_CHIP_TARGET_SENTINEL,
HWAS::PNOR_PART_TYPE,
HWAS::SRCI_PRIORITY_HIGH);
l_errhdl->collectTrace(PNOR_COMP_NAME);
break;
}
PNOR::checkHeader(l_ffs_hdr, l_errCode);
if(l_errCode != NO_ERROR)
{
TRACFCOMP(g_trac_pnor, "PNOR::parseTOC Error found parsing hdr of TOC " );
/* @errortype
* @moduleid PNOR::MOD_PNORRP_READTOC
* @reasoncode PNOR::RC_BAD_TOC_HEADER
* @userdata1 Address of toc buffer
* @userdata2 Error Code
* @devdesc Hdr of TOC of PNOR failed series of tests
* @custdesc A problem occurred while reading PNOR
* partition table
*/
l_errhdl = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
PNOR::MOD_PNORRP_READTOC,
PNOR::RC_BAD_TOC_HEADER,
reinterpret_cast<uint64_t>(&i_tocBuffer),
l_errCode,
false );
l_errhdl->addPartCallout(
TARGETING::MASTER_PROCESSOR_CHIP_TARGET_SENTINEL,
HWAS::PNOR_PART_TYPE,
HWAS::SRCI_PRIORITY_HIGH);
l_errhdl->collectTrace(PNOR_COMP_NAME);
break;
}
TRACFCOMP(g_trac_pnor, "PNOR::parseTOC: FFS Block size=0x%.8X,"
" Partition Table Size = 0x%.8x, entry_count=%d",
l_ffs_hdr->block_size,l_ffs_hdr->size,l_ffs_hdr->entry_count);
ffs_entry* l_err_entry = NULL;
l_errhdl = PNOR::parseEntries(l_ffs_hdr, l_errCode, o_TOC, l_err_entry);
if (l_errhdl)
{
TRACFCOMP(g_trac_pnor, "PNOR::parseTOC parseEntries returned an error log");
break;
}
else if(l_errCode != NO_ERROR)
{
TRACFCOMP(g_trac_pnor, "PNOR::parseTOC parseEntries returned an error code");
o_TOC = NULL;
/* @errortype
* @moduleid PNOR::MOD_PNORRP_READTOC
* @reasoncode PNOR::RC_PNOR_PARSE_ENTRIES_ERR
* @userdata1 Address of toc buffer
* @userdata2 Error Code
* @devdesc Error while parsing pnor TOC entries
* @custdesc A problem occurred while reading PNOR
* partition table
*/
l_errhdl = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
PNOR::MOD_PNORRP_READTOC,
PNOR::RC_PNOR_PARSE_ENTRIES_ERR,
reinterpret_cast<uint64_t>(&i_tocBuffer),
l_errCode,
true /*Add HB SW Callout*/);
l_errhdl->addPartCallout(
TARGETING::MASTER_PROCESSOR_CHIP_TARGET_SENTINEL,
HWAS::PNOR_PART_TYPE,
HWAS::SRCI_PRIORITY_HIGH);
l_errhdl->collectTrace(PNOR_COMP_NAME);
TRACFBIN(g_trac_pnor, "Entry in TOC that caused error during parsing", l_err_entry, FFS_ENTRY_SIZE);
break;
}
//Walk through all the entries in the table and record some info
for(uint32_t i=0; i<l_ffs_hdr->entry_count; i++)
{
uint32_t l_secId = PNOR::INVALID_SECTION;
ffs_entry* cur_entry = &(l_ffs_hdr->entries[i]);
TRACUCOMP(g_trac_pnor, "PNOR::parseTOC: TOC %d, Entry %d, name=%s, pointer=0x%X",l_tocBeingChecked, i,cur_entry->name, (uint64_t)cur_entry);
//Figure out section enum
PNOR::getSectionEnum(cur_entry, &l_secId);
if(l_secId == PNOR::INVALID_SECTION)
{
TRACFCOMP(g_trac_pnor, "PNOR::parseTOC: Unrecognized Section name(%s), skipping",cur_entry->name);
continue;
}
TRACFCOMP(g_trac_pnor,"PNOR::parseTOC: User Data %s",
cur_entry->name);
if (o_TOC[l_secId].integrity == FFS_INTEG_ECC_PROTECT)
{
TRACFCOMP(g_trac_pnor, "PNOR::TOC: ECC enabled for %s",
cur_entry->name);
}
// @TODO RTC 168021 Remove legacy extensions when all
// secure sections are supported
if (PNOR::hasNonSecureHeader(o_TOC[l_secId]))
{
// Never extend the base image through this path, it will be
// handled elsewhere
if(l_secId != PNOR::HB_BASE_CODE)
{
// For non-secure sections with a SHA512 header, the
// flash address has incremented past the header, so
// back up by the header size (accounting for ECC) in order
// to extend the header
auto addr = o_TOC[l_secId].flashAddr;
size_t headerSize =
(o_TOC[l_secId].integrity == FFS_INTEG_ECC_PROTECT) ?
PAGESIZE_PLUS_ECC : PAGESIZE;
addr -= headerSize;
l_errhdl = PNOR::extendHash(addr, headerSize,
PNOR::SectionIdToString(l_secId));
if (l_errhdl)
{
break;
}
}
}
}
for(int tmpId = 0;
tmpId < PNOR::NUM_SECTIONS;
tmpId ++ )
{
TRACFCOMP(g_trac_pnor, "%s: size=0x%.8X flash=0x%.8X ",
PNOR::SectionIdToString(tmpId), o_TOC[tmpId].size,
o_TOC[tmpId].flashAddr);
}
} while (0);
TRACUCOMP(g_trac_pnor, "< PNOR::parseTOC" );
return l_errhdl;
}
// @TODO RTC 168021 Remove legacy extensions when all secure sections are
// supported
errlHndl_t PNOR::extendHash(uint64_t i_addr, size_t i_size, const char* i_name)
{
errlHndl_t l_errhdl = NULL;
do {
#ifndef __HOSTBOOT_RUNTIME
// Read data from the PNOR DD
uint8_t* l_buf = new uint8_t[i_size]();
TARGETING::Target* l_target = TARGETING::MASTER_PROCESSOR_CHIP_TARGET_SENTINEL;
l_errhdl = DeviceFW::deviceRead(l_target, l_buf, i_size,
DEVICE_PNOR_ADDRESS(0,i_addr));
if (l_errhdl)
{
break;
}
SHA512_t l_hash = {0};
SECUREBOOT::hashBlob(l_buf, i_size, l_hash);
l_errhdl = TRUSTEDBOOT::pcrExtend(TRUSTEDBOOT::PCR_0, l_hash,
sizeof(SHA512_t), i_name);
delete[] l_buf;
if (l_errhdl)
{
break;
}
#endif
} while(0);
return l_errhdl;
}
bool PNOR::isInhibitedSection(const uint32_t i_section)
{
// TODO securebootp9 for now we won't be inhibiting overrides
#ifdef CONFIG_SECUREBOOT
// return (i_section == ATTR_PERM ||
// i_section == ATTR_TMP) &&
// SECUREBOOT::enabled();
return false;
#else
return false;
#endif
}
errlHndl_t PNOR::setSecure(const uint32_t i_secId,
PNOR::SectionData_t* io_TOC)
{
errlHndl_t l_errhdl = nullptr;
assert(io_TOC != nullptr, "PNOR::setSecure received a NULL toc to modify");
do {
// Set secure field based on enforced policy
io_TOC[i_secId].secure = PNOR::isEnforcedSecureSection(i_secId);
#ifndef __HOSTBOOT_RUNTIME
#ifdef CONFIG_SECUREBOOT_BEST_EFFORT
if (io_TOC[i_secId].secure)
{
// Apply best effort policy by checking if the section appears to have a
// secure header
size_t l_size = sizeof(ROM_MAGIC_NUMBER);
auto l_buf = new uint8_t[l_size]();
auto l_target = TARGETING::MASTER_PROCESSOR_CHIP_TARGET_SENTINEL;
// Read first 8 bytes of section data from the PNOR DD
// Note: Do not need to worry about ECC as the 9th byte is the first
// ECC byte.
l_errhdl = DeviceFW::deviceRead(l_target, l_buf, l_size,
DEVICE_PNOR_ADDRESS(0,io_TOC[i_secId].flashAddr));
if (l_errhdl)
{
break;
}
// Check if first 8 bytes match the Secureboot Magic Number
io_TOC[i_secId].secure &= PNOR::cmpSecurebootMagicNumber(l_buf);
}
#endif
#endif
} while (0);
return l_errhdl;
}
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