mirror of
https://github.com/LongSoft/UEFITool.git
synced 2024-11-29 03:18:23 +08:00
c0a5cd0c0f
- added support for all Phoenix SCT stuff from NVRAM volume: Intel microcodes, CMDB block, SLIC pubkey/marker. - added support for EVSA extended variables (bigger than 0xFFFF) - better EVSA parsing (invalid data vars are shown now) - FlashMap entries now have human-readable types - various small fixes and refactorings
163 lines
6.3 KiB
C++
163 lines
6.3 KiB
C++
/* fitparser.cpp
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Copyright (c) 2015, Nikolaj Schlej. All rights reserved.
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This program and the accompanying materials
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are licensed and made available under the terms and conditions of the BSD License
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which accompanies this distribution. The full text of the license may be found at
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http://opensource.org/licenses/bsd-license.php
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THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
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WITHWARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
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*/
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#include "fitparser.h"
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STATUS FitParser::parse(const QModelIndex & index, const QModelIndex & lastVtfIndex)
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{
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// Check sanity
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if (!index.isValid() || !lastVtfIndex.isValid())
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return EFI_INVALID_PARAMETER;
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// Store lastVtfIndex
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lastVtf = lastVtfIndex;
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// Search for FIT
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QModelIndex fitIndex;
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UINT32 fitOffset;
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STATUS result = findFitRecursive(index, fitIndex, fitOffset);
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if (result)
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return result;
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// FIT not found
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if (!fitIndex.isValid())
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return ERR_SUCCESS;
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// Explicitly set the item as fixed
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model->setFixed(index, true);
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// Special case of FIT header
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const FIT_ENTRY* fitHeader = (const FIT_ENTRY*)(model->body(fitIndex).constData() + fitOffset);
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// Check FIT checksum, if present
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UINT32 fitSize = (fitHeader->Size & 0xFFFFFF) << 4;
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if (fitHeader->Type & 0x80) {
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// Calculate FIT entry checksum
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QByteArray tempFIT = model->body(fitIndex).mid(fitOffset, fitSize);
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FIT_ENTRY* tempFitHeader = (FIT_ENTRY*)tempFIT.data();
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tempFitHeader->Checksum = 0;
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UINT8 calculated = calculateChecksum8((const UINT8*)tempFitHeader, fitSize);
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if (calculated != fitHeader->Checksum) {
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msg(QObject::tr("Invalid FIT table checksum %1h, should be %2h").hexarg2(fitHeader->Checksum, 2).hexarg2(calculated, 2), fitIndex);
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}
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}
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// Check fit header type
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if ((fitHeader->Type & 0x7F) != FIT_TYPE_HEADER) {
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msg(QObject::tr("Invalid FIT header type"), fitIndex);
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}
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// Add FIT header to fitTable
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std::vector<QString> currentStrings;
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currentStrings.push_back(QObject::tr("_FIT_ "));
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currentStrings.push_back(QObject::tr("%1").hexarg2(fitSize, 8));
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currentStrings.push_back(QObject::tr("%1").hexarg2(fitHeader->Version, 4));
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currentStrings.push_back(fitEntryTypeToQString(fitHeader->Type));
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currentStrings.push_back(QObject::tr("%1").hexarg2(fitHeader->Checksum, 2));
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fitTable.push_back(currentStrings);
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// Process all other entries
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bool msgModifiedImageMayNotWork = false;
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for (UINT32 i = 1; i < fitHeader->Size; i++) {
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currentStrings.clear();
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const FIT_ENTRY* currentEntry = fitHeader + i;
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// Check entry type
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switch (currentEntry->Type & 0x7F) {
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case FIT_TYPE_HEADER:
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msg(QObject::tr("Second FIT header found, the table is damaged"), fitIndex);
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break;
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case FIT_TYPE_EMPTY:
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case FIT_TYPE_MICROCODE:
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break;
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case FIT_TYPE_BIOS_AC_MODULE:
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case FIT_TYPE_BIOS_INIT_MODULE:
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case FIT_TYPE_TPM_POLICY:
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case FIT_TYPE_BIOS_POLICY_DATA:
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case FIT_TYPE_TXT_CONF_POLICY:
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case FIT_TYPE_AC_KEY_MANIFEST:
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case FIT_TYPE_AC_BOOT_POLICY:
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default:
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msgModifiedImageMayNotWork = true;
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break;
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}
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// Add entry to fitTable
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currentStrings.push_back(QObject::tr("%1").hexarg2(currentEntry->Address, 16));
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currentStrings.push_back(QObject::tr("%1").hexarg2(currentEntry->Size, 8));
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currentStrings.push_back(QObject::tr("%1").hexarg2(currentEntry->Version, 4));
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currentStrings.push_back(fitEntryTypeToQString(currentEntry->Type));
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currentStrings.push_back(QObject::tr("%1").hexarg2(currentEntry->Checksum, 2));
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fitTable.push_back(currentStrings);
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}
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if (msgModifiedImageMayNotWork)
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msg(QObject::tr("Opened image may not work after any modification"));
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return ERR_SUCCESS;
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}
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QString FitParser::fitEntryTypeToQString(UINT8 type)
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{
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switch (type & 0x7F) {
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case FIT_TYPE_HEADER: return QObject::tr("Header");
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case FIT_TYPE_MICROCODE: return QObject::tr("Microcode");
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case FIT_TYPE_BIOS_AC_MODULE: return QObject::tr("BIOS ACM");
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case FIT_TYPE_BIOS_INIT_MODULE: return QObject::tr("BIOS Init");
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case FIT_TYPE_TPM_POLICY: return QObject::tr("TPM Policy");
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case FIT_TYPE_BIOS_POLICY_DATA: return QObject::tr("BIOS Policy Data");
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case FIT_TYPE_TXT_CONF_POLICY: return QObject::tr("TXT Configuration Policy");
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case FIT_TYPE_AC_KEY_MANIFEST: return QObject::tr("BootGuard Key Manifest");
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case FIT_TYPE_AC_BOOT_POLICY: return QObject::tr("BootGuard Boot Policy");
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case FIT_TYPE_EMPTY: return QObject::tr("Empty");
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default: return QObject::tr("Unknown");
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}
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}
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STATUS FitParser::findFitRecursive(const QModelIndex & index, QModelIndex & found, UINT32 & fitOffset)
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{
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// Sanity check
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if (!index.isValid())
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return ERR_SUCCESS;
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// Process child items
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for (int i = 0; i < model->rowCount(index); i++) {
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findFitRecursive(index.child(i, 0), found, fitOffset);
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if (found.isValid())
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return ERR_SUCCESS;
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}
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// Get parsing data for the current item
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PARSING_DATA pdata = parsingDataFromQModelIndex(index);
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// Check for all FIT signatures in item's body
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for (INT32 offset = model->body(index).indexOf(FIT_SIGNATURE);
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offset >= 0;
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offset = model->body(index).indexOf(FIT_SIGNATURE, offset + 1)) {
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// FIT candidate found, calculate it's physical address
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UINT32 fitAddress = pdata.address + model->header(index).size() + (UINT32)offset;
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// Check FIT address to be in the last VTF
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QByteArray lastVtfBody = model->body(lastVtf);
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if (*(const UINT32*)(lastVtfBody.constData() + lastVtfBody.size() - FIT_POINTER_OFFSET) == fitAddress) {
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found = index;
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fitOffset = offset;
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msg(QObject::tr("Real FIT table found at physical address %1h").hexarg(fitAddress), found);
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return ERR_SUCCESS;
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}
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else if (model->rowCount(index) == 0) // Show messages only to leaf items
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msg(QObject::tr("FIT table candidate found, but not referenced from the last VTF"), index);
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}
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return ERR_SUCCESS;
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} |