Downcast all qtsizetype to UINT32 manually, apply consistent identation

This commit is contained in:
Nikolaj Schlej 2022-08-28 12:47:01 +02:00
parent 10e2e60183
commit 4006954bc1
25 changed files with 3398 additions and 3398 deletions

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@ -1,15 +1,15 @@
/* fssfinder.cpp /* fssfinder.cpp
Copyright (c) 2015, Nikolaj Schlej. All rights reserved. Copyright (c) 2015, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "ffsfinder.h" #include "ffsfinder.h"
@ -22,22 +22,22 @@ WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
USTATUS FfsFinder::findHexPattern(const UModelIndex & index, const UByteArray & hexPattern, const UINT8 mode) USTATUS FfsFinder::findHexPattern(const UModelIndex & index, const UByteArray & hexPattern, const UINT8 mode)
{ {
//TODO: use FfsUtils. //TODO: use FfsUtils.
if (!index.isValid()) if (!index.isValid())
return U_SUCCESS; return U_SUCCESS;
if (hexPattern.isEmpty()) if (hexPattern.isEmpty())
return U_INVALID_PARAMETER; return U_INVALID_PARAMETER;
// Check for "all substrings" pattern // Check for "all substrings" pattern
if (hexPattern.count('.') == hexPattern.length()) if (hexPattern.count('.') == hexPattern.length())
return U_SUCCESS; return U_SUCCESS;
bool hasChildren = (model->rowCount(index) > 0); bool hasChildren = (model->rowCount(index) > 0);
for (int i = 0; i < model->rowCount(index); i++) { for (int i = 0; i < model->rowCount(index); i++) {
findHexPattern(index.model()->index(i, index.column(), index), hexPattern, mode); findHexPattern(index.model()->index(i, index.column(), index), hexPattern, mode);
} }
UByteArray data; UByteArray data;
if (hasChildren) { if (hasChildren) {
if (mode == SEARCH_MODE_HEADER) if (mode == SEARCH_MODE_HEADER)
@ -53,177 +53,177 @@ USTATUS FfsFinder::findHexPattern(const UModelIndex & index, const UByteArray &
else else
data = model->header(index) + model->body(index); data = model->header(index) + model->body(index);
} }
UString hexBody = UString(data.toHex()); UString hexBody = UString(data.toHex());
#if QT_VERSION_MAJOR >= 6 #if QT_VERSION_MAJOR >= 6
QRegularExpression regexp = QRegularExpression(UString(hexPattern)); QRegularExpression regexp = QRegularExpression(UString(hexPattern));
regexp.setPatternOptions((QRegularExpression::PatternOptions)0x1); regexp.setPatternOptions((QRegularExpression::PatternOptions)0x1);
QRegularExpressionMatch regexpmatch; QRegularExpressionMatch regexpmatch;
INT32 offset = 0; INT32 offset = 0;
while ((offset = (INT32)hexBody.indexOf(regexp, (qsizetype)offset, &regexpmatch)) != -1) while ((offset = (INT32)hexBody.indexOf(regexp, (qsizetype)offset, &regexpmatch)) != -1)
{ {
#else #else
QRegExp regexp = QRegExp(UString(hexPattern), Qt::CaseInsensitive); QRegExp regexp = QRegExp(UString(hexPattern), Qt::CaseInsensitive);
INT32 offset = regexp.indexIn(hexBody); INT32 offset = regexp.indexIn(hexBody);
while (offset >= 0) { while (offset >= 0) {
#endif #endif
if (offset % 2 == 0) { if (offset % 2 == 0) {
// For patterns that cross header|body boundary, skip patterns entirely located in body, since // For patterns that cross header|body boundary, skip patterns entirely located in body, since
// children search above has already found them. // children search above has already found them.
if (!(hasChildren && mode == SEARCH_MODE_ALL && offset/2 >= model->header(index).size())) { if (!(hasChildren && mode == SEARCH_MODE_ALL && offset/2 >= model->header(index).size())) {
msg(UString("Hex pattern \"") + UString(hexPattern) msg(UString("Hex pattern \"") + UString(hexPattern)
+ UString("\" found as \"") + hexBody.mid(offset, hexPattern.length()).toUpper()
+ UString("\" in ") + model->name(model->parent(index))
+ UString("/") + model->name(index)
+ usprintf(" at %s-offset %02Xh", mode == SEARCH_MODE_BODY ? "body" : "header", offset / 2),
index);
}
}
#if QT_VERSION_MAJOR >= 6
offset += 1;
#else
offset = regexp.indexIn(hexBody, offset + 1);
#endif
}
return U_SUCCESS;
}
USTATUS FfsFinder::findGuidPattern(const UModelIndex & index, const UByteArray & guidPattern, const UINT8 mode)
{
if (guidPattern.isEmpty())
return U_INVALID_PARAMETER;
if (!index.isValid())
return U_SUCCESS;
bool hasChildren = (model->rowCount(index) > 0);
for (int i = 0; i < model->rowCount(index); i++) {
findGuidPattern(index.model()->index(i, index.column(), index), guidPattern, mode);
}
UByteArray data;
if (hasChildren) {
if (mode != SEARCH_MODE_BODY)
data = model->header(index);
}
else {
if (mode == SEARCH_MODE_HEADER)
data.append(model->header(index));
else if (mode == SEARCH_MODE_BODY)
data.append(model->body(index));
else
data.append(model->header(index)).append(model->body(index));
}
UString hexBody = UString(data.toHex());
QList<UByteArray> list = guidPattern.split('-');
if (list.count() != 5)
return U_INVALID_PARAMETER;
UByteArray hexPattern;
// Reverse first GUID block
hexPattern.append(list.at(0).mid(6, 2));
hexPattern.append(list.at(0).mid(4, 2));
hexPattern.append(list.at(0).mid(2, 2));
hexPattern.append(list.at(0).mid(0, 2));
// Reverse second GUID block
hexPattern.append(list.at(1).mid(2, 2));
hexPattern.append(list.at(1).mid(0, 2));
// Reverse third GUID block
hexPattern.append(list.at(2).mid(2, 2));
hexPattern.append(list.at(2).mid(0, 2));
// Append fourth and fifth GUID blocks as is
hexPattern.append(list.at(3)).append(list.at(4));
// Check for "all substrings" pattern
if (hexPattern.count('.') == hexPattern.length())
return U_SUCCESS;
#if QT_VERSION_MAJOR >= 6
QRegularExpression regexp((QString)UString(hexPattern));
regexp.setPatternOptions((QRegularExpression::PatternOptions)0x1);
QRegularExpressionMatch regexpmatch;
INT32 offset = 0;
offset = (INT32)hexBody.indexOf(regexp, (qsizetype)offset, &regexpmatch);
#else
QRegExp regexp(UString(hexPattern), Qt::CaseInsensitive);
INT32 offset = regexp.indexIn(hexBody);
#endif
while (offset >= 0) {
if (offset % 2 == 0) {
msg(UString("GUID pattern \"") + UString(guidPattern)
+ UString("\" found as \"") + hexBody.mid(offset, hexPattern.length()).toUpper() + UString("\" found as \"") + hexBody.mid(offset, hexPattern.length()).toUpper()
+ UString("\" in ") + model->name(model->parent(index)) + UString("\" in ") + model->name(model->parent(index))
+ UString("/") + model->name(index) + UString("/") + model->name(index)
+ usprintf(" at %s-offset %02Xh", mode == SEARCH_MODE_BODY ? "body" : "header", offset / 2), + usprintf(" at %s-offset %02Xh", mode == SEARCH_MODE_BODY ? "body" : "header", offset / 2),
index); index);
} }
#if QT_VERSION_MAJOR >= 6
offset = (INT32)hexBody.indexOf(regexp, (qsizetype)offset + 1, &regexpmatch);
#else
offset = regexp.indexIn(hexBody, offset + 1);
#endif
} }
#if QT_VERSION_MAJOR >= 6
offset += 1;
#else
offset = regexp.indexIn(hexBody, offset + 1);
#endif
}
return U_SUCCESS;
}
USTATUS FfsFinder::findGuidPattern(const UModelIndex & index, const UByteArray & guidPattern, const UINT8 mode)
{
if (guidPattern.isEmpty())
return U_INVALID_PARAMETER;
if (!index.isValid())
return U_SUCCESS; return U_SUCCESS;
bool hasChildren = (model->rowCount(index) > 0);
for (int i = 0; i < model->rowCount(index); i++) {
findGuidPattern(index.model()->index(i, index.column(), index), guidPattern, mode);
} }
UByteArray data; USTATUS FfsFinder::findTextPattern(const UModelIndex & index, const UString & pattern, const UINT8 mode, const bool unicode, const Qt::CaseSensitivity caseSensitive)
if (hasChildren) { {
if (mode != SEARCH_MODE_BODY) if (pattern.isEmpty())
data = model->header(index); return U_INVALID_PARAMETER;
}
else { if (!index.isValid())
if (mode == SEARCH_MODE_HEADER) return U_SUCCESS;
data.append(model->header(index));
else if (mode == SEARCH_MODE_BODY) bool hasChildren = (model->rowCount(index) > 0);
data.append(model->body(index)); for (int i = 0; i < model->rowCount(index); i++) {
else findTextPattern(index.model()->index(i, index.column(), index), pattern, mode, unicode, caseSensitive);
data.append(model->header(index)).append(model->body(index));
}
UString hexBody = UString(data.toHex());
QList<UByteArray> list = guidPattern.split('-');
if (list.count() != 5)
return U_INVALID_PARAMETER;
UByteArray hexPattern;
// Reverse first GUID block
hexPattern.append(list.at(0).mid(6, 2));
hexPattern.append(list.at(0).mid(4, 2));
hexPattern.append(list.at(0).mid(2, 2));
hexPattern.append(list.at(0).mid(0, 2));
// Reverse second GUID block
hexPattern.append(list.at(1).mid(2, 2));
hexPattern.append(list.at(1).mid(0, 2));
// Reverse third GUID block
hexPattern.append(list.at(2).mid(2, 2));
hexPattern.append(list.at(2).mid(0, 2));
// Append fourth and fifth GUID blocks as is
hexPattern.append(list.at(3)).append(list.at(4));
// Check for "all substrings" pattern
if (hexPattern.count('.') == hexPattern.length())
return U_SUCCESS;
#if QT_VERSION_MAJOR >= 6
QRegularExpression regexp((QString)UString(hexPattern));
regexp.setPatternOptions((QRegularExpression::PatternOptions)0x1);
QRegularExpressionMatch regexpmatch;
INT32 offset = 0;
offset = (INT32)hexBody.indexOf(regexp, (qsizetype)offset, &regexpmatch);
#else
QRegExp regexp(UString(hexPattern), Qt::CaseInsensitive);
INT32 offset = regexp.indexIn(hexBody);
#endif
while (offset >= 0) {
if (offset % 2 == 0) {
msg(UString("GUID pattern \"") + UString(guidPattern)
+ UString("\" found as \"") + hexBody.mid(offset, hexPattern.length()).toUpper()
+ UString("\" in ") + model->name(model->parent(index))
+ UString("/") + model->name(index)
+ usprintf(" at %s-offset %02Xh", mode == SEARCH_MODE_BODY ? "body" : "header", offset / 2),
index);
} }
UByteArray body;
if (hasChildren) {
if (mode != SEARCH_MODE_BODY)
body = model->header(index);
}
else {
if (mode == SEARCH_MODE_HEADER)
body.append(model->header(index));
else if (mode == SEARCH_MODE_BODY)
body.append(model->body(index));
else
body.append(model->header(index)).append(model->body(index));
}
UString data;
if (unicode)
#if QT_VERSION_MAJOR >= 6 #if QT_VERSION_MAJOR >= 6
offset = (INT32)hexBody.indexOf(regexp, (qsizetype)offset + 1, &regexpmatch); data = UString::fromUtf16((const char16_t*)body.constData(), (int)(body.length() / 2));
#else
offset = regexp.indexIn(hexBody, offset + 1);
#endif
}
return U_SUCCESS;
}
USTATUS FfsFinder::findTextPattern(const UModelIndex & index, const UString & pattern, const UINT8 mode, const bool unicode, const Qt::CaseSensitivity caseSensitive)
{
if (pattern.isEmpty())
return U_INVALID_PARAMETER;
if (!index.isValid())
return U_SUCCESS;
bool hasChildren = (model->rowCount(index) > 0);
for (int i = 0; i < model->rowCount(index); i++) {
findTextPattern(index.model()->index(i, index.column(), index), pattern, mode, unicode, caseSensitive);
}
UByteArray body;
if (hasChildren) {
if (mode != SEARCH_MODE_BODY)
body = model->header(index);
}
else {
if (mode == SEARCH_MODE_HEADER)
body.append(model->header(index));
else if (mode == SEARCH_MODE_BODY)
body.append(model->body(index));
else
body.append(model->header(index)).append(model->body(index));
}
UString data;
if (unicode)
#if QT_VERSION_MAJOR >= 6
data = UString::fromUtf16((const char16_t*)body.constData(), (int)(body.length() / 2));
#else #else
data = UString::fromUtf16((const ushort*)body.constData(), (int)(body.length() / 2)); data = UString::fromUtf16((const ushort*)body.constData(), (int)(body.length() / 2));
#endif #endif
else else
data = UString::fromLatin1((const char*)body.constData(), body.length()); data = UString::fromLatin1((const char*)body.constData(), body.length());
int offset = -1; int offset = -1;
while ((offset = (int)data.indexOf(pattern, (int)(offset + 1), caseSensitive)) >= 0) { while ((offset = (int)data.indexOf(pattern, (int)(offset + 1), caseSensitive)) >= 0) {
msg((unicode ? UString("Unicode") : UString("ASCII")) + UString(" text \"") + UString(pattern) msg((unicode ? UString("Unicode") : UString("ASCII")) + UString(" text \"") + UString(pattern)
+ UString("\" in ") + model->name(model->parent(index)) + UString("\" in ") + model->name(model->parent(index))
+ UString("/") + model->name(index) + UString("/") + model->name(index)
+ usprintf(" at %s-offset %02Xh", mode == SEARCH_MODE_BODY ? "body" : "header", (unicode ? offset * 2 : offset)), + usprintf(" at %s-offset %02Xh", mode == SEARCH_MODE_BODY ? "body" : "header", (unicode ? offset * 2 : offset)),
index); index);
}
return U_SUCCESS;
} }
return U_SUCCESS;
}

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@ -1,25 +1,25 @@
/* guidlineedit.cpp /* guidlineedit.cpp
Copyright (c) 2014, Nikolaj Schlej. All rights reserved. Copyright (c) 2014, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "guidlineedit.h" #include "guidlineedit.h"
GuidLineEdit::GuidLineEdit(QWidget * parent) GuidLineEdit::GuidLineEdit(QWidget * parent)
:QLineEdit(parent) :QLineEdit(parent)
{ {
} }
GuidLineEdit::GuidLineEdit(const QString & contents, QWidget * parent) GuidLineEdit::GuidLineEdit(const QString & contents, QWidget * parent)
:QLineEdit(contents, parent) :QLineEdit(contents, parent)
{ {
} }
@ -39,23 +39,24 @@ void GuidLineEdit::keyPressEvent(QKeyEvent * event)
QString txt = text(); QString txt = text();
QString selected = selectedText(); QString selected = selectedText();
if (!selected.isEmpty()) { if (!selected.isEmpty()) {
pos = QLineEdit::selectionStart(); pos = QLineEdit::selectionStart();
for (int i = pos; i < pos + selected.count(); i++) for (int i = pos; i < pos + selected.length(); i++)
if (txt[i] != QChar('-')) if (txt[i] != QChar('-'))
txt[i] = QChar('.'); txt[i] = QChar('.');
} }
else else {
txt[pos] = QChar('.'); txt[pos] = QChar('.');
}
setCursorPosition(0); setCursorPosition(0);
insert(txt); insert(txt);
setCursorPosition(pos); setCursorPosition(pos);
return; return;
} }
// Call original event handler // Call original event handler
QLineEdit::keyPressEvent(event); QLineEdit::keyPressEvent(event);
} }

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@ -1,15 +1,15 @@
/* hexspinbox.cpp /* hexspinbox.cpp
Copyright (c) 2016, Nikolaj Schlej. All rights reserved. Copyright (c) 2016, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "hexspinbox.h" #include "hexspinbox.h"
#include <QDebug> #include <QDebug>

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@ -1,15 +1,15 @@
/* hexviewdialog.cpp /* hexviewdialog.cpp
Copyright (c) 2016, Nikolaj Schlej. All rights reserved. Copyright (c) 2016, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "hexviewdialog.h" #include "hexviewdialog.h"

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@ -1,15 +1,15 @@
/* searchdialog.cpp /* searchdialog.cpp
Copyright (c) 2014, Nikolaj Schlej. All rights reserved. Copyright (c) 2014, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "searchdialog.h" #include "searchdialog.h"
@ -28,10 +28,10 @@ guidValidator(QRegExp("[0-9a-fA-F\\.]{8}-[0-9a-fA-F\\.]{4}-[0-9a-fA-F\\.]{4}-[0-
ui->setupUi(this); ui->setupUi(this);
ui->hexEdit->setValidator(&hexValidator); ui->hexEdit->setValidator(&hexValidator);
ui->guidEdit->setValidator(&guidValidator); ui->guidEdit->setValidator(&guidValidator);
// Connect // Connect
connect(ui->tabWidget, SIGNAL(currentChanged(int)), this, SLOT(setEditFocus(int))); connect(ui->tabWidget, SIGNAL(currentChanged(int)), this, SLOT(setEditFocus(int)));
// Set initial focus // Set initial focus
setEditFocus(ui->tabWidget->currentIndex()); setEditFocus(ui->tabWidget->currentIndex());
} }

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@ -1,15 +1,15 @@
/* uefitool_main.cpp /* uefitool_main.cpp
Copyright (c) 2018, LongSoft. All rights reserved. Copyright (c) 2018, LongSoft. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include <QApplication> #include <QApplication>
#include <QString> #include <QString>
@ -18,10 +18,10 @@
class UEFIToolApplication : public QApplication class UEFIToolApplication : public QApplication
{ {
UEFITool* tool; UEFITool* tool;
public: public:
UEFIToolApplication(int &argc, char **argv) UEFIToolApplication(int &argc, char **argv)
: QApplication(argc, argv) : QApplication(argc, argv)
{ {
setOrganizationName("LongSoft"); setOrganizationName("LongSoft");
setOrganizationDomain("longsoft.org"); setOrganizationDomain("longsoft.org");
@ -40,7 +40,7 @@ public:
QFileOpenEvent *openEvent = static_cast<QFileOpenEvent *>(event); QFileOpenEvent *openEvent = static_cast<QFileOpenEvent *>(event);
tool->openImageFile(openEvent->file()); tool->openImageFile(openEvent->file());
} }
return QApplication::event(event); return QApplication::event(event);
} }

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@ -1,14 +1,14 @@
/* descriptor.cpp /* descriptor.cpp
Copyright (c) 2015, Nikolaj Schlej. All rights reserved. Copyright (c) 2015, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHWARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHWARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "descriptor.h" #include "descriptor.h"
@ -44,207 +44,207 @@ UString jedecIdToUString(UINT8 vendorId, UINT8 deviceId0, UINT8 deviceId1)
{ {
UINT32 jedecId = (UINT32)deviceId1 + ((UINT32)deviceId0 << 8) + ((UINT32)vendorId << 16); UINT32 jedecId = (UINT32)deviceId1 + ((UINT32)deviceId0 << 8) + ((UINT32)vendorId << 16);
switch (jedecId) { switch (jedecId) {
// Winbond // Winbond
case 0xEF3010: return UString("Winbond W25X05"); case 0xEF3010: return UString("Winbond W25X05");
case 0xEF3011: return UString("Winbond W25X10"); case 0xEF3011: return UString("Winbond W25X10");
case 0xEF3012: return UString("Winbond W25X20"); case 0xEF3012: return UString("Winbond W25X20");
case 0xEF3013: return UString("Winbond W25X40"); case 0xEF3013: return UString("Winbond W25X40");
case 0xEF3014: return UString("Winbond W25X80"); case 0xEF3014: return UString("Winbond W25X80");
case 0xEF3015: return UString("Winbond W25X16"); case 0xEF3015: return UString("Winbond W25X16");
case 0xEF3016: return UString("Winbond W25X32"); case 0xEF3016: return UString("Winbond W25X32");
case 0xEF3017: return UString("Winbond W25X64"); case 0xEF3017: return UString("Winbond W25X64");
case 0xEF4012: return UString("Winbond W25Q20"); case 0xEF4012: return UString("Winbond W25Q20");
case 0xEF4013: return UString("Winbond W25Q40"); case 0xEF4013: return UString("Winbond W25Q40");
case 0xEF4014: return UString("Winbond W25Q80"); case 0xEF4014: return UString("Winbond W25Q80");
case 0xEF4015: return UString("Winbond W25Q16"); case 0xEF4015: return UString("Winbond W25Q16");
case 0xEF4016: return UString("Winbond W25Q32"); case 0xEF4016: return UString("Winbond W25Q32");
case 0xEF4017: return UString("Winbond W25Q64"); case 0xEF4017: return UString("Winbond W25Q64");
case 0xEF4018: return UString("Winbond W25Q128"); case 0xEF4018: return UString("Winbond W25Q128");
case 0xEF4019: return UString("Winbond W25Q256"); case 0xEF4019: return UString("Winbond W25Q256");
case 0xEF6011: return UString("Winbond W25Q10"); case 0xEF6011: return UString("Winbond W25Q10");
case 0xEF6012: return UString("Winbond W25Q20"); case 0xEF6012: return UString("Winbond W25Q20");
case 0xEF6013: return UString("Winbond W25Q40"); case 0xEF6013: return UString("Winbond W25Q40");
case 0xEF6014: return UString("Winbond W25Q80"); case 0xEF6014: return UString("Winbond W25Q80");
case 0xEF6015: return UString("Winbond W25Q16"); case 0xEF6015: return UString("Winbond W25Q16");
case 0xEF6016: return UString("Winbond W25Q32"); case 0xEF6016: return UString("Winbond W25Q32");
case 0xEF6017: return UString("Winbond W25Q64"); case 0xEF6017: return UString("Winbond W25Q64");
case 0xEF6018: return UString("Winbond W25Q128"); case 0xEF6018: return UString("Winbond W25Q128");
case 0xEF6019: return UString("Winbond W25Q256"); case 0xEF6019: return UString("Winbond W25Q256");
case 0xEF7118: return UString("Winbond W25M256"); case 0xEF7118: return UString("Winbond W25M256");
case 0xEF7119: return UString("Winbond W25M512"); case 0xEF7119: return UString("Winbond W25M512");
// Macronix // Macronix
case 0xC22013: return UString("Macronix MX25L40"); case 0xC22013: return UString("Macronix MX25L40");
case 0xC22014: return UString("Macronix MX25L80"); case 0xC22014: return UString("Macronix MX25L80");
case 0xC22015: return UString("Macronix MX25L16"); case 0xC22015: return UString("Macronix MX25L16");
case 0xC22016: return UString("Macronix MX25U16"); case 0xC22016: return UString("Macronix MX25U16");
case 0xC22017: return UString("Macronix MX25L64"); case 0xC22017: return UString("Macronix MX25L64");
case 0xC22018: return UString("Macronix MX25L128"); case 0xC22018: return UString("Macronix MX25L128");
case 0xC22019: return UString("Macronix MX25L256"); case 0xC22019: return UString("Macronix MX25L256");
case 0xC2201A: return UString("Macronix MX66L512"); case 0xC2201A: return UString("Macronix MX66L512");
case 0xC22415: return UString("Macronix MX25L16"); case 0xC22415: return UString("Macronix MX25L16");
case 0xC22515: return UString("Macronix MX25L16"); case 0xC22515: return UString("Macronix MX25L16");
case 0xC22534: return UString("Macronix MX25U80"); case 0xC22534: return UString("Macronix MX25U80");
case 0xC22535: return UString("Macronix MX25U16"); case 0xC22535: return UString("Macronix MX25U16");
case 0xC22536: return UString("Macronix MX25U32"); case 0xC22536: return UString("Macronix MX25U32");
case 0xC22537: return UString("Macronix MX25U64"); case 0xC22537: return UString("Macronix MX25U64");
case 0xC22538: return UString("Macronix MX25U128"); case 0xC22538: return UString("Macronix MX25U128");
case 0xC22539: return UString("Macronix MX25U256"); case 0xC22539: return UString("Macronix MX25U256");
case 0xC2253A: return UString("Macronix MX25U512"); case 0xC2253A: return UString("Macronix MX25U512");
case 0xC22617: return UString("Macronix MX25L64"); case 0xC22617: return UString("Macronix MX25L64");
case 0xC22618: return UString("Macronix MX25L128"); case 0xC22618: return UString("Macronix MX25L128");
case 0xC25E16: return UString("Macronix MX25L32"); case 0xC25E16: return UString("Macronix MX25L32");
case 0xC29517: return UString("Macronix MX25L64"); case 0xC29517: return UString("Macronix MX25L64");
// Micron // Micron
case 0x202014: return UString("Micron M25P80"); case 0x202014: return UString("Micron M25P80");
case 0x202015: return UString("Micron M25P16"); case 0x202015: return UString("Micron M25P16");
case 0x202016: return UString("Micron M25P32"); case 0x202016: return UString("Micron M25P32");
case 0x202017: return UString("Micron M25P64"); case 0x202017: return UString("Micron M25P64");
case 0x202018: return UString("Micron M25P128"); case 0x202018: return UString("Micron M25P128");
case 0x204011: return UString("Micron M45PE10"); case 0x204011: return UString("Micron M45PE10");
case 0x204012: return UString("Micron M45PE20"); case 0x204012: return UString("Micron M45PE20");
case 0x204013: return UString("Micron M45PE40"); case 0x204013: return UString("Micron M45PE40");
case 0x204014: return UString("Micron M45PE80"); case 0x204014: return UString("Micron M45PE80");
case 0x204015: return UString("Micron M45PE16"); case 0x204015: return UString("Micron M45PE16");
case 0x204017: return UString("Micron XM25QH64C"); case 0x204017: return UString("Micron XM25QH64C");
case 0x204018: return UString("Micron XM25QH128C"); case 0x204018: return UString("Micron XM25QH128C");
case 0x204019: return UString("Micron XM25QH256C"); case 0x204019: return UString("Micron XM25QH256C");
case 0x207114: return UString("Micron M25PX80"); case 0x207114: return UString("Micron M25PX80");
case 0x207115: return UString("Micron M25PX16"); case 0x207115: return UString("Micron M25PX16");
case 0x207116: return UString("Micron M25PX32"); case 0x207116: return UString("Micron M25PX32");
case 0x207117: return UString("Micron M25PX64"); case 0x207117: return UString("Micron M25PX64");
case 0x208011: return UString("Micron M25PE10"); case 0x208011: return UString("Micron M25PE10");
case 0x208012: return UString("Micron M25PE20"); case 0x208012: return UString("Micron M25PE20");
case 0x208013: return UString("Micron M25PE40"); case 0x208013: return UString("Micron M25PE40");
case 0x208014: return UString("Micron M25PE80"); case 0x208014: return UString("Micron M25PE80");
case 0x208015: return UString("Micron M25PE16"); case 0x208015: return UString("Micron M25PE16");
case 0x20BA15: return UString("Micron N25Q016"); case 0x20BA15: return UString("Micron N25Q016");
case 0x20BA16: return UString("Micron N25Q032"); case 0x20BA16: return UString("Micron N25Q032");
case 0x20BA17: return UString("Micron N25Q064"); case 0x20BA17: return UString("Micron N25Q064");
case 0x20BA18: return UString("Micron N25Q128"); case 0x20BA18: return UString("Micron N25Q128");
case 0x20BA19: return UString("Micron N25Q256"); case 0x20BA19: return UString("Micron N25Q256");
case 0x20BA20: return UString("Micron N25Q512"); case 0x20BA20: return UString("Micron N25Q512");
case 0x20BA21: return UString("Micron N25Q00A"); case 0x20BA21: return UString("Micron N25Q00A");
case 0x20BB15: return UString("Micron N25Q016"); case 0x20BB15: return UString("Micron N25Q016");
case 0x20BB16: return UString("Micron N25Q032"); case 0x20BB16: return UString("Micron N25Q032");
case 0x20BB17: return UString("Micron N25Q064"); case 0x20BB17: return UString("Micron N25Q064");
case 0x20BB18: return UString("Micron MT25Q128"); case 0x20BB18: return UString("Micron MT25Q128");
case 0x20BB19: return UString("Micron MT25Q256"); case 0x20BB19: return UString("Micron MT25Q256");
case 0x20BB20: return UString("Micron MT25Q512"); case 0x20BB20: return UString("Micron MT25Q512");
// Intel // Intel
case 0x898911: return UString("Intel 25F160S33B8"); case 0x898911: return UString("Intel 25F160S33B8");
case 0x898912: return UString("Intel 25F320S33B8"); case 0x898912: return UString("Intel 25F320S33B8");
case 0x898913: return UString("Intel 25F640S33B8"); case 0x898913: return UString("Intel 25F640S33B8");
case 0x898915: return UString("Intel 25F160S33T8"); case 0x898915: return UString("Intel 25F160S33T8");
case 0x898916: return UString("Intel 25F320S33T8"); case 0x898916: return UString("Intel 25F320S33T8");
case 0x898917: return UString("Intel 25F640S33T8"); case 0x898917: return UString("Intel 25F640S33T8");
// Atmel / Adesto // Atmel / Adesto
case 0x1F3217: return UString("Atmel AT25SF641"); case 0x1F3217: return UString("Atmel AT25SF641");
case 0x1F4216: return UString("Atmel AT25SL321"); case 0x1F4216: return UString("Atmel AT25SL321");
case 0x1F4218: return UString("Atmel AT25SL128A"); case 0x1F4218: return UString("Atmel AT25SL128A");
case 0x1F4317: return UString("Atmel AT25SL641"); case 0x1F4317: return UString("Atmel AT25SL641");
case 0x1F4500: return UString("Atmel AT26DF081"); case 0x1F4500: return UString("Atmel AT26DF081");
case 0x1F4501: return UString("Atmel AT26DF081A"); case 0x1F4501: return UString("Atmel AT26DF081A");
case 0x1F4502: return UString("Atmel AT25DF081"); case 0x1F4502: return UString("Atmel AT25DF081");
case 0x1F4600: return UString("Atmel AT26DF161"); case 0x1F4600: return UString("Atmel AT26DF161");
case 0x1F4601: return UString("Atmel AT26DF161A"); case 0x1F4601: return UString("Atmel AT26DF161A");
case 0x1F4602: return UString("Atmel AT25DF161"); case 0x1F4602: return UString("Atmel AT25DF161");
case 0x1F4700: return UString("Atmel AT25DF321"); case 0x1F4700: return UString("Atmel AT25DF321");
case 0x1F4701: return UString("Atmel AT25DF321A"); case 0x1F4701: return UString("Atmel AT25DF321A");
case 0x1F4800: return UString("Atmel AT25DF641"); case 0x1F4800: return UString("Atmel AT25DF641");
case 0x1F7018: return UString("Atmel AT25QF128"); case 0x1F7018: return UString("Atmel AT25QF128");
case 0x1F8600: return UString("Atmel AT25DQ161"); case 0x1F8600: return UString("Atmel AT25DQ161");
case 0x1F8800: return UString("Atmel AT25DQ641"); case 0x1F8800: return UString("Atmel AT25DQ641");
// Microchip // Microchip
case 0xBF2541: return UString("Microchip SST25VF016B"); case 0xBF2541: return UString("Microchip SST25VF016B");
case 0xBF254A: return UString("Microchip SST25VF032B"); case 0xBF254A: return UString("Microchip SST25VF032B");
case 0xBF258D: return UString("Microchip SST25VF040B"); case 0xBF258D: return UString("Microchip SST25VF040B");
case 0xBF258E: return UString("Microchip SST25VF080B"); case 0xBF258E: return UString("Microchip SST25VF080B");
case 0xBF254B: return UString("Microchip SST25VF064C"); case 0xBF254B: return UString("Microchip SST25VF064C");
// EON / ESMT // EON / ESMT
case 0x1C3013: return UString("EON EN25Q40"); case 0x1C3013: return UString("EON EN25Q40");
case 0x1C3014: return UString("EON EN25Q80"); case 0x1C3014: return UString("EON EN25Q80");
case 0x1C3015: return UString("EON EN25Q16"); case 0x1C3015: return UString("EON EN25Q16");
case 0x1C3016: return UString("EON EN25Q32"); case 0x1C3016: return UString("EON EN25Q32");
case 0x1C3017: return UString("EON EN25Q64"); case 0x1C3017: return UString("EON EN25Q64");
case 0x1C3018: return UString("EON EN25Q128"); case 0x1C3018: return UString("EON EN25Q128");
case 0x1C3114: return UString("EON EN25F80"); case 0x1C3114: return UString("EON EN25F80");
case 0x1C3115: return UString("EON EN25F16"); case 0x1C3115: return UString("EON EN25F16");
case 0x1C3116: return UString("EON EN25F32"); case 0x1C3116: return UString("EON EN25F32");
case 0x1C3117: return UString("EON EN25F64"); case 0x1C3117: return UString("EON EN25F64");
case 0x1C3811: return UString("EON EN25S10"); case 0x1C3811: return UString("EON EN25S10");
case 0x1C3812: return UString("EON EN25S20"); case 0x1C3812: return UString("EON EN25S20");
case 0x1C3813: return UString("EON EN25S40"); case 0x1C3813: return UString("EON EN25S40");
case 0x1C3814: return UString("EON EN25S80"); case 0x1C3814: return UString("EON EN25S80");
case 0x1C3815: return UString("EON EN25S16"); case 0x1C3815: return UString("EON EN25S16");
case 0x1C3816: return UString("EON EN25S32"); case 0x1C3816: return UString("EON EN25S32");
case 0x1C3817: return UString("EON EN25S64"); case 0x1C3817: return UString("EON EN25S64");
case 0x1C7014: return UString("EON EN25QH80"); case 0x1C7014: return UString("EON EN25QH80");
case 0x1C7015: return UString("EON EN25QH16"); case 0x1C7015: return UString("EON EN25QH16");
case 0x1C7016: return UString("EON EN25QH32"); case 0x1C7016: return UString("EON EN25QH32");
case 0x1C7017: return UString("EON EN25QH64"); case 0x1C7017: return UString("EON EN25QH64");
case 0x1C7018: return UString("EON EN25QH128"); case 0x1C7018: return UString("EON EN25QH128");
case 0x1C7019: return UString("EON EN25QH256"); case 0x1C7019: return UString("EON EN25QH256");
// GigaDevice // GigaDevice
case 0xC84014: return UString("GigaDevice GD25x80"); case 0xC84014: return UString("GigaDevice GD25x80");
case 0xC84015: return UString("GigaDevice GD25x16"); case 0xC84015: return UString("GigaDevice GD25x16");
case 0xC84016: return UString("GigaDevice GD25x32"); case 0xC84016: return UString("GigaDevice GD25x32");
case 0xC84017: return UString("GigaDevice GD25x64"); case 0xC84017: return UString("GigaDevice GD25x64");
case 0xC84018: return UString("GigaDevice GD25x128"); case 0xC84018: return UString("GigaDevice GD25x128");
case 0xC84019: return UString("GigaDevice GD25x256C"); case 0xC84019: return UString("GigaDevice GD25x256C");
case 0xC86015: return UString("GigaDevice GD25LQ16V"); case 0xC86015: return UString("GigaDevice GD25LQ16V");
case 0xC86017: return UString("GigaDevice GD25Lx64"); case 0xC86017: return UString("GigaDevice GD25Lx64");
case 0xC86018: return UString("GigaDevice GD25Lx128"); case 0xC86018: return UString("GigaDevice GD25Lx128");
case 0xC86019: return UString("GigaDevice GD25LQ256C"); case 0xC86019: return UString("GigaDevice GD25LQ256C");
// Fidelix // Fidelix
case 0xF83215: return UString("Fidelix FM25Q16"); case 0xF83215: return UString("Fidelix FM25Q16");
case 0xF83216: return UString("Fidelix FM25Q32"); case 0xF83216: return UString("Fidelix FM25Q32");
case 0xF83217: return UString("Fidelix FM25Q64"); case 0xF83217: return UString("Fidelix FM25Q64");
case 0xF83218: return UString("Fidelix FM25Q128"); case 0xF83218: return UString("Fidelix FM25Q128");
// Spansion // Spansion
case 0x014015: return UString("Spansion S25FL116K"); case 0x014015: return UString("Spansion S25FL116K");
case 0x014016: return UString("Spansion S25FL132K"); case 0x014016: return UString("Spansion S25FL132K");
case 0x014017: return UString("Spansion S25FL164K"); case 0x014017: return UString("Spansion S25FL164K");
// AMIC Technology // AMIC Technology
case 0x373015: return UString("AMIC A25L016"); case 0x373015: return UString("AMIC A25L016");
case 0x373016: return UString("AMIC A25L032"); case 0x373016: return UString("AMIC A25L032");
case 0x374015: return UString("AMIC A25LQ16"); case 0x374015: return UString("AMIC A25LQ16");
case 0x374016: return UString("AMIC A25LQ32A"); case 0x374016: return UString("AMIC A25LQ32A");
// PMC // PMC
case 0x9DF713: return UString("PMC Pm25LV080B"); case 0x9DF713: return UString("PMC Pm25LV080B");
case 0x9DF714: return UString("PMC Pm25LV016B"); case 0x9DF714: return UString("PMC Pm25LV016B");
case 0x9DF744: return UString("PMC Pm25LQ080C"); case 0x9DF744: return UString("PMC Pm25LQ080C");
case 0x9DF745: return UString("PMC Pm25LQ016C"); case 0x9DF745: return UString("PMC Pm25LQ016C");
case 0x9DF746: return UString("PMC Pm25LQ032C"); case 0x9DF746: return UString("PMC Pm25LQ032C");
case 0x9DF77B: return UString("PMC Pm25LV512A"); case 0x9DF77B: return UString("PMC Pm25LV512A");
case 0x9DF77C: return UString("PMC Pm25LV010A"); case 0x9DF77C: return UString("PMC Pm25LV010A");
case 0x9DF77D: return UString("PMC Pm25LV020"); case 0x9DF77D: return UString("PMC Pm25LV020");
case 0x9DF77E: return UString("PMC Pm25LV040"); case 0x9DF77E: return UString("PMC Pm25LV040");
// ISSI // ISSI
case 0x9D6014: return UString("ISSI Ix25LP080"); case 0x9D6014: return UString("ISSI Ix25LP080");
case 0x9D6015: return UString("ISSI Ix25LP016"); case 0x9D6015: return UString("ISSI Ix25LP016");
case 0x9D6016: return UString("ISSI Ix25LP032"); case 0x9D6016: return UString("ISSI Ix25LP032");
case 0x9D6017: return UString("ISSI Ix25LP064"); case 0x9D6017: return UString("ISSI Ix25LP064");
case 0x9D6018: return UString("ISSI Ix25LP128"); case 0x9D6018: return UString("ISSI Ix25LP128");
case 0x9D6019: return UString("ISSI Ix25LP256"); case 0x9D6019: return UString("ISSI Ix25LP256");
case 0x9D7014: return UString("ISSI Ix25WP080"); case 0x9D7014: return UString("ISSI Ix25WP080");
case 0x9D7015: return UString("ISSI Ix25WP016"); case 0x9D7015: return UString("ISSI Ix25WP016");
case 0x9D7016: return UString("ISSI Ix25WP032"); case 0x9D7016: return UString("ISSI Ix25WP032");
case 0x9D7017: return UString("ISSI Ix25WP064"); case 0x9D7017: return UString("ISSI Ix25WP064");
case 0x9D7018: return UString("ISSI Ix25WP128"); case 0x9D7018: return UString("ISSI Ix25WP128");
case 0x9D7019: return UString("ISSI Ix25WP256"); case 0x9D7019: return UString("ISSI Ix25WP256");
} }
return UString("Unknown"); return UString("Unknown");
} }

View File

@ -1,14 +1,14 @@
/* ffs.cpp /* ffs.cpp
Copyright (c) 2015, Nikolaj Schlej. All rights reserved. Copyright (c) 2015, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHWARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHWARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include <cstdio> #include <cstdio>
@ -58,19 +58,19 @@ UString guidToUString(const EFI_GUID & guid, bool convertToString)
if (!readableName.isEmpty()) if (!readableName.isEmpty())
return readableName; return readableName;
} }
return usprintf("%08X-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X", return usprintf("%08X-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X",
guid.Data1, guid.Data1,
guid.Data2, guid.Data2,
guid.Data3, guid.Data3,
guid.Data4[0], guid.Data4[0],
guid.Data4[1], guid.Data4[1],
guid.Data4[2], guid.Data4[2],
guid.Data4[3], guid.Data4[3],
guid.Data4[4], guid.Data4[4],
guid.Data4[5], guid.Data4[5],
guid.Data4[6], guid.Data4[6],
guid.Data4[7]); guid.Data4[7]);
} }
@ -78,12 +78,12 @@ bool ustringToGuid(const UString & str, EFI_GUID & guid)
{ {
unsigned long p0; unsigned long p0;
unsigned p1, p2, p3, p4, p5, p6, p7, p8, p9, p10; unsigned p1, p2, p3, p4, p5, p6, p7, p8, p9, p10;
int err = std::sscanf(str.toLocal8Bit(), "%08lX-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X", int err = std::sscanf(str.toLocal8Bit(), "%08lX-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X",
&p0, &p1, &p2, &p3, &p4, &p5, &p6, &p7, &p8, &p9, &p10); &p0, &p1, &p2, &p3, &p4, &p5, &p6, &p7, &p8, &p9, &p10);
if (err == 0) if (err == 0)
return false; return false;
guid.Data1 = (UINT32)p0; guid.Data1 = (UINT32)p0;
guid.Data2 = (UINT16)p1; guid.Data2 = (UINT16)p1;
guid.Data3 = (UINT16)p2; guid.Data3 = (UINT16)p2;
@ -95,7 +95,7 @@ bool ustringToGuid(const UString & str, EFI_GUID & guid)
guid.Data4[5] = (UINT8)p8; guid.Data4[5] = (UINT8)p8;
guid.Data4[6] = (UINT8)p9; guid.Data4[6] = (UINT8)p9;
guid.Data4[7] = (UINT8)p10; guid.Data4[7] = (UINT8)p10;
return true; return true;
} }

View File

@ -1,15 +1,15 @@
/* fssbuilder.cpp /* fssbuilder.cpp
Copyright (c) 2015, Nikolaj Schlej. All rights reserved. Copyright (c) 2015, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "ffsbuilder.h" #include "ffsbuilder.h"
#include "descriptor.h" #include "descriptor.h"
@ -25,7 +25,7 @@ USTATUS FfsBuilder::erase(const UModelIndex & index, UByteArray & erased)
// Sanity check // Sanity check
if (!index.isValid()) if (!index.isValid())
return U_INVALID_PARAMETER; return U_INVALID_PARAMETER;
// Try to get emptyByte value from item's parsing data // Try to get emptyByte value from item's parsing data
UINT8 emptyByte = 0xFF; UINT8 emptyByte = 0xFF;
if (!model->hasEmptyParsingData(index)) { if (!model->hasEmptyParsingData(index)) {
@ -38,9 +38,9 @@ USTATUS FfsBuilder::erase(const UModelIndex & index, UByteArray & erased)
emptyByte = pdata.emptyByte; emptyByte = pdata.emptyByte;
} }
} }
erased = UByteArray(model->header(index).size() + model->body(index).size() + model->tail(index).size(), emptyByte); erased = UByteArray(model->header(index).size() + model->body(index).size() + model->tail(index).size(), emptyByte);
return U_SUCCESS; return U_SUCCESS;
} }
@ -49,7 +49,7 @@ USTATUS FfsBuilder::build(const UModelIndex & root, UByteArray & image)
// Sanity check // Sanity check
if (!root.isValid()) if (!root.isValid())
return U_INVALID_PARAMETER; return U_INVALID_PARAMETER;
if (model->type(root) == Types::Capsule) { if (model->type(root) == Types::Capsule) {
return buildCapsule(root, image); return buildCapsule(root, image);
} }
@ -61,7 +61,7 @@ USTATUS FfsBuilder::build(const UModelIndex & root, UByteArray & image)
return buildRawArea(root, image); return buildRawArea(root, image);
} }
} }
return U_NOT_IMPLEMENTED; return U_NOT_IMPLEMENTED;
} }
@ -70,27 +70,27 @@ USTATUS FfsBuilder::buildCapsule(const UModelIndex & index, UByteArray & capsule
// Sanity check // Sanity check
if (!index.isValid()) if (!index.isValid())
return U_INVALID_PARAMETER; return U_INVALID_PARAMETER;
// No action // No action
if (model->action(index) == Actions::NoAction) { if (model->action(index) == Actions::NoAction) {
// Use original item data // Use original item data
capsule = model->header(index) + model->body(index) + model->tail(index); capsule = model->header(index) + model->body(index) + model->tail(index);
return U_SUCCESS; return U_SUCCESS;
} }
// Rebuild or Replace // Rebuild or Replace
else if (model->action(index) == Actions::Rebuild else if (model->action(index) == Actions::Rebuild
|| model->action(index) == Actions::Replace) { || model->action(index) == Actions::Replace) {
if (model->rowCount(index)) { if (model->rowCount(index)) {
// Clear the supplied UByteArray // Clear the supplied UByteArray
capsule.clear(); capsule.clear();
// Right now there is only one capsule image element supported // Right now there is only one capsule image element supported
if (model->rowCount(index) != 1) { if (model->rowCount(index) != 1) {
msg(usprintf("buildCapsule: building of capsules with %d items is not yet supported", model->rowCount(index)), index); msg(usprintf("buildCapsule: building of capsules with %d items is not yet supported", model->rowCount(index)), index);
return U_NOT_IMPLEMENTED; return U_NOT_IMPLEMENTED;
} }
// Build image // Build image
UModelIndex imageIndex = index.model()->index(0, 0, index); UModelIndex imageIndex = index.model()->index(0, 0, index);
UByteArray imageData; UByteArray imageData;
@ -136,12 +136,12 @@ USTATUS FfsBuilder::buildCapsule(const UModelIndex & index, UByteArray & capsule
} }
else else
capsule = model->body(index); capsule = model->body(index);
// Build successful, append header and tail // Build successful, append header and tail
capsule = model->header(index) + capsule + model->tail(index); capsule = model->header(index) + capsule + model->tail(index);
return U_SUCCESS; return U_SUCCESS;
} }
msg(UString("buildCapsule: unexpected action " + actionTypeToUString(model->action(index))), index); msg(UString("buildCapsule: unexpected action " + actionTypeToUString(model->action(index))), index);
return U_NOT_IMPLEMENTED; return U_NOT_IMPLEMENTED;
} }
@ -166,15 +166,15 @@ USTATUS FfsBuilder::buildIntelImage(const UModelIndex & index, UByteArray & inte
else if (model->action(index) == Actions::Rebuild) { else if (model->action(index) == Actions::Rebuild) {
// First child will always be descriptor for this type of image, and it's read only for now // First child will always be descriptor for this type of image, and it's read only for now
intelImage = model->header(index.model()->index(0, 0, index)) + model->body(index.model()->index(0, 0, index)) + model->tail(index.model()->index(0, 0, index)); intelImage = model->header(index.model()->index(0, 0, index)) + model->body(index.model()->index(0, 0, index)) + model->tail(index.model()->index(0, 0, index));
// Process other regions // Process other regions
for (int i = 1; i < model->rowCount(index); i++) { for (int i = 1; i < model->rowCount(index); i++) {
UModelIndex currentRegion = index.model()->index(i, 0, index); UModelIndex currentRegion = index.model()->index(i, 0, index);
// Skip regions with Remove action // Skip regions with Remove action
if (model->action(currentRegion) == Actions::Remove) if (model->action(currentRegion) == Actions::Remove)
continue; continue;
// Check item type to be either region or padding // Check item type to be either region or padding
UINT8 type = model->type(currentRegion); UINT8 type = model->type(currentRegion);
if (type == Types::Padding) { if (type == Types::Padding) {
@ -182,41 +182,41 @@ USTATUS FfsBuilder::buildIntelImage(const UModelIndex & index, UByteArray & inte
intelImage += model->header(currentRegion) + model->body(currentRegion) + model->tail(currentRegion); intelImage += model->header(currentRegion) + model->body(currentRegion) + model->tail(currentRegion);
continue; continue;
} }
// Check region subtype // Check region subtype
USTATUS result; USTATUS result;
UByteArray region; UByteArray region;
UINT8 regionType = model->subtype(currentRegion); UINT8 regionType = model->subtype(currentRegion);
switch (regionType) { switch (regionType) {
case Subtypes::BiosRegion: case Subtypes::BiosRegion:
case Subtypes::PdrRegion: case Subtypes::PdrRegion:
result = buildRawArea(currentRegion, region); result = buildRawArea(currentRegion, region);
if (result) { if (result) {
msg(UString("buildIntelImage: building of region ") + regionTypeToUString(regionType) + UString(" failed with error ") + errorCodeToUString(result), currentRegion); msg(UString("buildIntelImage: building of region ") + regionTypeToUString(regionType) + UString(" failed with error ") + errorCodeToUString(result), currentRegion);
return result; return result;
} }
break; break;
case Subtypes::MeRegion: case Subtypes::MeRegion:
case Subtypes::GbeRegion: case Subtypes::GbeRegion:
case Subtypes::DevExp1Region: case Subtypes::DevExp1Region:
case Subtypes::Bios2Region: case Subtypes::Bios2Region:
case Subtypes::MicrocodeRegion: case Subtypes::MicrocodeRegion:
case Subtypes::EcRegion: case Subtypes::EcRegion:
case Subtypes::DevExp2Region: case Subtypes::DevExp2Region:
case Subtypes::IeRegion: case Subtypes::IeRegion:
case Subtypes::Tgbe1Region: case Subtypes::Tgbe1Region:
case Subtypes::Tgbe2Region: case Subtypes::Tgbe2Region:
case Subtypes::Reserved1Region: case Subtypes::Reserved1Region:
case Subtypes::Reserved2Region: case Subtypes::Reserved2Region:
case Subtypes::PttRegion: case Subtypes::PttRegion:
// Add region as is // Add region as is
region = model->header(currentRegion) + model->body(currentRegion); region = model->header(currentRegion) + model->body(currentRegion);
break; break;
default: default:
msg(UString("buildIntelImage: unknown region type"), currentRegion); msg(UString("buildIntelImage: unknown region type"), currentRegion);
return U_UNKNOWN_ITEM_TYPE; return U_UNKNOWN_ITEM_TYPE;
} }
// Append the resulting region // Append the resulting region
intelImage += region; intelImage += region;
} }
@ -232,12 +232,12 @@ USTATUS FfsBuilder::buildIntelImage(const UModelIndex & index, UByteArray & inte
msg(usprintf("buildIntelImage: new image size %Xh (%u) is smaller than the original %Xh (%u)", newSize, newSize, oldSize, oldSize), index); msg(usprintf("buildIntelImage: new image size %Xh (%u) is smaller than the original %Xh (%u)", newSize, newSize, oldSize, oldSize), index);
return U_INVALID_IMAGE; return U_INVALID_IMAGE;
} }
// Build successful, append header and tail // Build successful, append header and tail
intelImage = model->header(index) + intelImage + model->tail(index); intelImage = model->header(index) + intelImage + model->tail(index);
return U_SUCCESS; return U_SUCCESS;
} }
msg(UString("buildIntelImage: unexpected action " + actionTypeToUString(model->action(index))), index); msg(UString("buildIntelImage: unexpected action " + actionTypeToUString(model->action(index))), index);
return U_NOT_IMPLEMENTED; return U_NOT_IMPLEMENTED;
} }
@ -247,7 +247,7 @@ USTATUS FfsBuilder::buildRawArea(const UModelIndex & index, UByteArray & rawArea
// Sanity check // Sanity check
if (!index.isValid()) if (!index.isValid())
return U_INVALID_PARAMETER; return U_INVALID_PARAMETER;
// No action required // No action required
if (model->action(index) == Actions::NoAction) { if (model->action(index) == Actions::NoAction) {
rawArea = model->header(index) + model->body(index) + model->tail(index); rawArea = model->header(index) + model->body(index) + model->tail(index);
@ -260,12 +260,12 @@ USTATUS FfsBuilder::buildRawArea(const UModelIndex & index, UByteArray & rawArea
} }
// Rebuild or Replace // Rebuild or Replace
else if (model->action(index) == Actions::Rebuild else if (model->action(index) == Actions::Rebuild
|| model->action(index) == Actions::Replace) { || model->action(index) == Actions::Replace) {
// Rebuild if there is at least 1 child // Rebuild if there is at least 1 child
if (model->rowCount(index)) { if (model->rowCount(index)) {
// Clear the supplied UByteArray // Clear the supplied UByteArray
rawArea.clear(); rawArea.clear();
// Build children // Build children
for (int i = 0; i < model->rowCount(index); i++) { for (int i = 0; i < model->rowCount(index); i++) {
USTATUS result = U_SUCCESS; USTATUS result = U_SUCCESS;
@ -291,7 +291,7 @@ USTATUS FfsBuilder::buildRawArea(const UModelIndex & index, UByteArray & rawArea
// Append current data // Append current data
rawArea += currentData; rawArea += currentData;
} }
// Check size of new raw area, it must be same as original one // Check size of new raw area, it must be same as original one
UINT32 newSize = (UINT32)rawArea.size(); UINT32 newSize = (UINT32)rawArea.size();
UINT32 oldSize = (UINT32)model->body(index).size(); UINT32 oldSize = (UINT32)model->body(index).size();
@ -308,12 +308,12 @@ USTATUS FfsBuilder::buildRawArea(const UModelIndex & index, UByteArray & rawArea
else { else {
rawArea = model->body(index); rawArea = model->body(index);
} }
// Build successful, add header if needed // Build successful, add header if needed
rawArea = model->header(index) + rawArea + model->tail(index); rawArea = model->header(index) + rawArea + model->tail(index);
return U_SUCCESS; return U_SUCCESS;
} }
msg(UString("buildRawArea: unexpected action " + actionTypeToUString(model->action(index))), index); msg(UString("buildRawArea: unexpected action " + actionTypeToUString(model->action(index))), index);
return U_NOT_IMPLEMENTED; return U_NOT_IMPLEMENTED;
} }
@ -323,7 +323,7 @@ USTATUS FfsBuilder::buildPadding(const UModelIndex & index, UByteArray & padding
// Sanity check // Sanity check
if (!index.isValid()) if (!index.isValid())
return U_INVALID_PARAMETER; return U_INVALID_PARAMETER;
// No action required // No action required
if (model->action(index) == Actions::NoAction) { if (model->action(index) == Actions::NoAction) {
padding = model->header(index) + model->body(index) + model->tail(index); padding = model->header(index) + model->body(index) + model->tail(index);
@ -338,7 +338,7 @@ USTATUS FfsBuilder::buildPadding(const UModelIndex & index, UByteArray & padding
else if (model->action(index) == Actions::Erase) { else if (model->action(index) == Actions::Erase) {
return erase(index, padding); return erase(index, padding);
} }
msg(UString("buildPadding: unexpected action " + actionTypeToUString(model->action(index))), index); msg(UString("buildPadding: unexpected action " + actionTypeToUString(model->action(index))), index);
return U_NOT_IMPLEMENTED; return U_NOT_IMPLEMENTED;
} }
@ -348,7 +348,7 @@ USTATUS FfsBuilder::buildNonUefiData(const UModelIndex & index, UByteArray & dat
// Sanity check // Sanity check
if (!index.isValid()) if (!index.isValid())
return U_INVALID_PARAMETER; return U_INVALID_PARAMETER;
// No action required // No action required
if (model->action(index) == Actions::NoAction) { if (model->action(index) == Actions::NoAction) {
data = model->header(index) + model->body(index) + model->tail(index); data = model->header(index) + model->body(index) + model->tail(index);
@ -363,9 +363,9 @@ USTATUS FfsBuilder::buildNonUefiData(const UModelIndex & index, UByteArray & dat
else if (model->action(index) == Actions::Erase) { else if (model->action(index) == Actions::Erase) {
return erase(index, data); return erase(index, data);
} }
// TODO: rebuild properly // TODO: rebuild properly
msg(UString("buildNoUefiData: unexpected action " + actionTypeToUString(model->action(index))), index); msg(UString("buildNoUefiData: unexpected action " + actionTypeToUString(model->action(index))), index);
return U_NOT_IMPLEMENTED; return U_NOT_IMPLEMENTED;
} }
@ -375,7 +375,7 @@ USTATUS FfsBuilder::buildFreeSpace(const UModelIndex & index, UByteArray & freeS
// Sanity check // Sanity check
if (!index.isValid()) if (!index.isValid())
return U_INVALID_PARAMETER; return U_INVALID_PARAMETER;
// No actions possible for free space // No actions possible for free space
freeSpace = model->header(index) + model->body(index) + model->tail(index); freeSpace = model->header(index) + model->body(index) + model->tail(index);
return U_SUCCESS; return U_SUCCESS;
@ -385,7 +385,7 @@ USTATUS FfsBuilder::buildVolume(const UModelIndex & index, UByteArray & volume)
{ {
U_UNUSED_PARAMETER(index); U_UNUSED_PARAMETER(index);
U_UNUSED_PARAMETER(volume); U_UNUSED_PARAMETER(volume);
return U_NOT_IMPLEMENTED; return U_NOT_IMPLEMENTED;
} }
@ -393,7 +393,7 @@ USTATUS FfsBuilder::buildPadFile(const UModelIndex & index, UByteArray & padFile
{ {
U_UNUSED_PARAMETER(index); U_UNUSED_PARAMETER(index);
U_UNUSED_PARAMETER(padFile); U_UNUSED_PARAMETER(padFile);
return U_NOT_IMPLEMENTED; return U_NOT_IMPLEMENTED;
} }
@ -401,7 +401,7 @@ USTATUS FfsBuilder::buildFile(const UModelIndex & index, UByteArray & file)
{ {
U_UNUSED_PARAMETER(index); U_UNUSED_PARAMETER(index);
U_UNUSED_PARAMETER(file); U_UNUSED_PARAMETER(file);
return U_NOT_IMPLEMENTED; return U_NOT_IMPLEMENTED;
} }
@ -409,7 +409,7 @@ USTATUS FfsBuilder::buildSection(const UModelIndex & index, UByteArray & section
{ {
U_UNUSED_PARAMETER(index); U_UNUSED_PARAMETER(index);
U_UNUSED_PARAMETER(section); U_UNUSED_PARAMETER(section);
return U_NOT_IMPLEMENTED; return U_NOT_IMPLEMENTED;
} }

View File

@ -1,15 +1,15 @@
/* fssops.cpp /* fssops.cpp
Copyright (c) 2015, Nikolaj Schlej. All rights reserved. Copyright (c) 2015, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "ffsops.h" #include "ffsops.h"
#include "ffs.h" #include "ffs.h"
@ -20,10 +20,10 @@ USTATUS FfsOperations::extract(const UModelIndex & index, UString & name, UByteA
// Sanity check // Sanity check
if (!index.isValid()) if (!index.isValid())
return U_INVALID_PARAMETER; return U_INVALID_PARAMETER;
// Default name // Default name
name = uniqueItemName(index); name = uniqueItemName(index);
// Get extracted data // Get extracted data
if (mode == EXTRACT_MODE_AS_IS) { if (mode == EXTRACT_MODE_AS_IS) {
// Extract as is, with header body and tail // Extract as is, with header body and tail
@ -45,18 +45,18 @@ USTATUS FfsOperations::extract(const UModelIndex & index, UString & name, UByteA
} }
else else
return U_UNKNOWN_EXTRACT_MODE; return U_UNKNOWN_EXTRACT_MODE;
return U_SUCCESS; return U_SUCCESS;
} }
USTATUS FfsOperations::replace(const UModelIndex & index, UByteArray & data, const UINT8 mode) USTATUS FfsOperations::replace(const UModelIndex & index, UByteArray & data, const UINT8 mode)
{ {
U_UNUSED_PARAMETER(data); U_UNUSED_PARAMETER(data);
// Sanity check // Sanity check
if (!index.isValid()) if (!index.isValid())
return U_INVALID_PARAMETER; return U_INVALID_PARAMETER;
if (mode == REPLACE_MODE_AS_IS) { if (mode == REPLACE_MODE_AS_IS) {
return U_NOT_IMPLEMENTED; return U_NOT_IMPLEMENTED;
} }
@ -64,7 +64,7 @@ USTATUS FfsOperations::replace(const UModelIndex & index, UByteArray & data, con
return U_NOT_IMPLEMENTED; return U_NOT_IMPLEMENTED;
} }
return U_UNKNOWN_REPLACE_MODE; return U_UNKNOWN_REPLACE_MODE;
} }
USTATUS FfsOperations::remove(const UModelIndex & index) USTATUS FfsOperations::remove(const UModelIndex & index)
@ -72,10 +72,10 @@ USTATUS FfsOperations::remove(const UModelIndex & index)
// Sanity check // Sanity check
if (!index.isValid()) if (!index.isValid())
return U_INVALID_PARAMETER; return U_INVALID_PARAMETER;
// Set remove action // Set remove action
model->setAction(index, Actions::Remove); model->setAction(index, Actions::Remove);
return U_SUCCESS; return U_SUCCESS;
} }
@ -84,20 +84,20 @@ USTATUS FfsOperations::rebuild(const UModelIndex & index)
// Sanity check // Sanity check
if (!index.isValid()) if (!index.isValid())
return U_INVALID_PARAMETER; return U_INVALID_PARAMETER;
// On insert action, set insert action for children // On insert action, set insert action for children
//if (action == Actions::Insert) //if (action == Actions::Insert)
// for (int i = 0; i < item->childCount(); i++) // for (int i = 0; i < item->childCount(); i++)
// setAction(index.child(i, 0), Actions::Insert); // setAction(index.child(i, 0), Actions::Insert);
// Set rebuild action // Set rebuild action
model->setAction(index, Actions::Rebuild); model->setAction(index, Actions::Rebuild);
// Rebuild parent, if it has no action now // Rebuild parent, if it has no action now
UModelIndex parent = index.parent(); UModelIndex parent = index.parent();
if (parent.isValid() && model->type(parent) != Types::Root if (parent.isValid() && model->type(parent) != Types::Root
&& model->action(parent) == Actions::NoAction) && model->action(parent) == Actions::NoAction)
rebuild(parent); rebuild(parent);
return U_SUCCESS; return U_SUCCESS;
} }

File diff suppressed because it is too large Load Diff

View File

@ -1,15 +1,15 @@
/* fssreport.cpp /* fssreport.cpp
Copyright (c) 2016, Nikolaj Schlej. All rights reserved. Copyright (c) 2016, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "ffsreport.h" #include "ffsreport.h"
#include "ffs.h" #include "ffs.h"
@ -25,21 +25,21 @@ std::vector<UString> FfsReport::generate()
report.push_back(usprintf("%s: invalid model pointer provided", __FUNCTION__)); report.push_back(usprintf("%s: invalid model pointer provided", __FUNCTION__));
return report; return report;
} }
// Check root index to be valid // Check root index to be valid
UModelIndex root = model->index(0,0); UModelIndex root = model->index(0,0);
if (!root.isValid()) { if (!root.isValid()) {
report.push_back(usprintf("%s: model root index is invalid", __FUNCTION__)); report.push_back(usprintf("%s: model root index is invalid", __FUNCTION__));
return report; return report;
} }
// Generate report recursive // Generate report recursive
report.push_back(UString(" Type | Subtype | Base | Size | CRC32 | Name ")); report.push_back(UString(" Type | Subtype | Base | Size | CRC32 | Name "));
USTATUS result = generateRecursive(report, root); USTATUS result = generateRecursive(report, root);
if (result) { if (result) {
report.push_back(usprintf("%s: generateRecursive returned ", __FUNCTION__) + errorCodeToUString(result)); report.push_back(usprintf("%s: generateRecursive returned ", __FUNCTION__) + errorCodeToUString(result));
} }
return report; return report;
} }
@ -51,27 +51,27 @@ USTATUS FfsReport::generateRecursive(std::vector<UString> & report, const UModel
// Calculate item CRC32 // Calculate item CRC32
UByteArray data = model->header(index) + model->body(index) + model->tail(index); UByteArray data = model->header(index) + model->body(index) + model->tail(index);
UINT32 crc = (UINT32)crc32(0, (const UINT8*)data.constData(), (uInt)data.size()); UINT32 crc = (UINT32)crc32(0, (const UINT8*)data.constData(), (uInt)data.size());
// Information on current item // Information on current item
UString text = model->text(index); UString text = model->text(index);
UString offset = "| N/A "; UString offset = "| N/A ";
if ((!model->compressed(index)) || (index.parent().isValid() && !model->compressed(index.parent()))) { if ((!model->compressed(index)) || (index.parent().isValid() && !model->compressed(index.parent()))) {
offset = usprintf("| %08X ", model->base(index)); offset = usprintf("| %08X ", model->base(index));
} }
report.push_back( report.push_back(
UString(" ") + itemTypeToUString(model->type(index)).leftJustified(16) UString(" ") + itemTypeToUString(model->type(index)).leftJustified(16)
+ UString("| ") + itemSubtypeToUString(model->type(index), model->subtype(index)).leftJustified(22) + UString("| ") + itemSubtypeToUString(model->type(index), model->subtype(index)).leftJustified(22)
+ offset + offset
+ usprintf("| %08X | %08X | ", data.size(), crc) + usprintf("| %08X | %08X | ", (UINT32)data.size(), crc)
+ urepeated('-', level) + UString(" ") + model->name(index) + (text.isEmpty() ? UString() : UString(" | ") + text) + urepeated('-', level) + UString(" ") + model->name(index) + (text.isEmpty() ? UString() : UString(" | ") + text)
); );
// Information on child items // Information on child items
for (int i = 0; i < model->rowCount(index); i++) { for (int i = 0; i < model->rowCount(index); i++) {
generateRecursive(report, index.model()->index(i,0,index), level + 1); generateRecursive(report, index.model()->index(i,0,index), level + 1);
} }
return U_SUCCESS; return U_SUCCESS;
} }

View File

@ -1,15 +1,15 @@
/* ffsutils.cpp /* ffsutils.cpp
Copyright (c) 2019, LongSoft. All rights reserved. Copyright (c) 2019, LongSoft. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "ffsutils.h" #include "ffsutils.h"
#include "utility.h" #include "utility.h"
@ -21,15 +21,15 @@ USTATUS findFileRecursive(TreeModel *model, const UModelIndex index, const UStri
{ {
if (!index.isValid()) if (!index.isValid())
return U_SUCCESS; return U_SUCCESS;
if (hexPattern.isEmpty()) if (hexPattern.isEmpty())
return U_INVALID_PARAMETER; return U_INVALID_PARAMETER;
const char *hexPatternRaw = hexPattern.toLocal8Bit(); const char *hexPatternRaw = hexPattern.toLocal8Bit();
std::vector<UINT8> pattern, patternMask; std::vector<UINT8> pattern, patternMask;
if (!makePattern(hexPatternRaw, pattern, patternMask)) if (!makePattern(hexPatternRaw, pattern, patternMask))
return U_INVALID_PARAMETER; return U_INVALID_PARAMETER;
// Check for "all substrings" pattern // Check for "all substrings" pattern
size_t count = 0; size_t count = 0;
for (size_t i = 0; i < patternMask.size(); i++) for (size_t i = 0; i < patternMask.size(); i++)
@ -37,12 +37,12 @@ USTATUS findFileRecursive(TreeModel *model, const UModelIndex index, const UStri
count++; count++;
if (count == patternMask.size()) if (count == patternMask.size())
return U_SUCCESS; return U_SUCCESS;
bool hasChildren = (model->rowCount(index) > 0); bool hasChildren = (model->rowCount(index) > 0);
for (int i = 0; i < model->rowCount(index); i++) { for (int i = 0; i < model->rowCount(index); i++) {
findFileRecursive(model, index.model()->index(i, index.column(), index), hexPattern, mode, files); findFileRecursive(model, index.model()->index(i, index.column(), index), hexPattern, mode, files);
} }
UByteArray data; UByteArray data;
if (hasChildren) { if (hasChildren) {
if (mode == SEARCH_MODE_HEADER) if (mode == SEARCH_MODE_HEADER)
@ -58,16 +58,16 @@ USTATUS findFileRecursive(TreeModel *model, const UModelIndex index, const UStri
else else
data = model->header(index) + model->body(index); data = model->header(index) + model->body(index);
} }
const UINT8 *rawData = reinterpret_cast<const UINT8 *>(data.constData()); const UINT8 *rawData = reinterpret_cast<const UINT8 *>(data.constData());
INTN offset = findPattern(pattern.data(), patternMask.data(), pattern.size(), rawData, data.size(), 0); INTN offset = findPattern(pattern.data(), patternMask.data(), pattern.size(), rawData, data.size(), 0);
// For patterns that cross header|body boundary, skip patterns entirely located in body, since // For patterns that cross header|body boundary, skip patterns entirely located in body, since
// children search above has already found them. // children search above has already found them.
if (hasChildren && mode == SEARCH_MODE_ALL && offset >= model->header(index).size()) { if (hasChildren && mode == SEARCH_MODE_ALL && offset >= model->header(index).size()) {
offset = -1; offset = -1;
} }
if (offset >= 0) { if (offset >= 0) {
if (model->type(index) != Types::File) { if (model->type(index) != Types::File) {
UModelIndex ffs = model->findParentOfType(index, Types::File); UModelIndex ffs = model->findParentOfType(index, Types::File);
@ -79,9 +79,9 @@ USTATUS findFileRecursive(TreeModel *model, const UModelIndex index, const UStri
else { else {
files.insert(std::pair<UModelIndex, UModelIndex>(index, UModelIndex())); files.insert(std::pair<UModelIndex, UModelIndex>(index, UModelIndex()));
} }
} }
return U_SUCCESS; return U_SUCCESS;
} }

View File

@ -1,14 +1,14 @@
/* guiddatabase.cpp /* guiddatabase.cpp
Copyright (c) 2017, LongSoft. All rights reserved. Copyright (c) 2017, LongSoft. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHWARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHWARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "guiddatabase.h" #include "guiddatabase.h"
#include "ubytearray.h" #include "ubytearray.h"
@ -53,17 +53,17 @@ static std::string readGuidDatabase(const UString &path) {
void initGuidDatabase(const UString & path, UINT32* numEntries) void initGuidDatabase(const UString & path, UINT32* numEntries)
{ {
gLocalGuidDatabase.clear(); gLocalGuidDatabase.clear();
std::stringstream file(readGuidDatabase(path)); std::stringstream file(readGuidDatabase(path));
while (!file.eof()) { while (!file.eof()) {
std::string line; std::string line;
std::getline(file, line); std::getline(file, line);
// Use sharp symbol as commentary // Use sharp symbol as commentary
if (line.size() == 0 || line[0] == '#') if (line.size() == 0 || line[0] == '#')
continue; continue;
// GUID and name are comma-separated // GUID and name are comma-separated
std::vector<UString> lineParts; std::vector<UString> lineParts;
std::string::size_type prev = 0, curr = 0; std::string::size_type prev = 0, curr = 0;
@ -73,17 +73,17 @@ void initGuidDatabase(const UString & path, UINT32* numEntries)
prev = ++curr; prev = ++curr;
} }
lineParts.push_back(UString(line.substr(prev, curr-prev).c_str())); lineParts.push_back(UString(line.substr(prev, curr-prev).c_str()));
if (lineParts.size() < 2) if (lineParts.size() < 2)
continue; continue;
EFI_GUID guid; EFI_GUID guid;
if (!ustringToGuid(lineParts[0], guid)) if (!ustringToGuid(lineParts[0], guid))
continue; continue;
gLocalGuidDatabase[guid] = lineParts[1]; gLocalGuidDatabase[guid] = lineParts[1];
} }
if (numEntries) if (numEntries)
*numEntries = (UINT32)gLocalGuidDatabase.size(); *numEntries = (UINT32)gLocalGuidDatabase.size();
} }
@ -111,19 +111,19 @@ UString guidDatabaseLookup(const EFI_GUID & guid)
GuidDatabase guidDatabaseFromTreeRecursive(TreeModel * model, const UModelIndex index) GuidDatabase guidDatabaseFromTreeRecursive(TreeModel * model, const UModelIndex index)
{ {
GuidDatabase db; GuidDatabase db;
if (!index.isValid()) if (!index.isValid())
return db; return db;
for (int i = 0; i < model->rowCount(index); i++) { for (int i = 0; i < model->rowCount(index); i++) {
GuidDatabase tmpDb = guidDatabaseFromTreeRecursive(model, index.model()->index(i, index.column(), index)); GuidDatabase tmpDb = guidDatabaseFromTreeRecursive(model, index.model()->index(i, index.column(), index));
db.insert(tmpDb.begin(), tmpDb.end()); db.insert(tmpDb.begin(), tmpDb.end());
} }
if (model->type(index) == Types::File && !model->text(index).isEmpty()) if (model->type(index) == Types::File && !model->text(index).isEmpty())
db[readUnaligned((const EFI_GUID*)model->header(index).left(16).constData())] = model->text(index); db[readUnaligned((const EFI_GUID*)model->header(index).left(16).constData())] = model->text(index);
return db; return db;
} }
@ -137,6 +137,6 @@ USTATUS guidDatabaseExportToFile(const UString & outPath, GuidDatabase & db)
std::string name(it->second.toLocal8Bit()); std::string name(it->second.toLocal8Bit());
outputFile << guid << ',' << name << '\n'; outputFile << guid << ',' << name << '\n';
} }
return U_SUCCESS; return U_SUCCESS;
} }

View File

@ -1,16 +1,16 @@
/* meparser.cpp /* meparser.cpp
Copyright (c) 2019, Nikolaj Schlej. All rights reserved. Copyright (c) 2019, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php. http://opensource.org/licenses/bsd-license.php.
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include <map> #include <map>
@ -42,30 +42,30 @@ USTATUS MeParser::parseMeRegionBody(const UModelIndex & index)
// Sanity check // Sanity check
if (!index.isValid()) if (!index.isValid())
return U_INVALID_PARAMETER; return U_INVALID_PARAMETER;
// Obtain ME region // Obtain ME region
UByteArray meRegion = model->body(index); UByteArray meRegion = model->body(index);
// Check region size // Check region size
if ((UINT32)meRegion.size() < ME_ROM_BYPASS_VECTOR_SIZE + sizeof(UINT32)) { if ((UINT32)meRegion.size() < ME_ROM_BYPASS_VECTOR_SIZE + sizeof(UINT32)) {
msg(usprintf("%s: ME region too small to fit ROM bypass vector", __FUNCTION__), index); msg(usprintf("%s: ME region too small to fit ROM bypass vector", __FUNCTION__), index);
return U_INVALID_ME_PARTITION_TABLE; return U_INVALID_ME_PARTITION_TABLE;
} }
// Check ME signature to determine it's version // Check ME signature to determine it's version
// ME v11 and older layout // ME v11 and older layout
if (meRegion.left(sizeof(UINT32)) == FPT_HEADER_SIGNATURE || meRegion.mid(ME_ROM_BYPASS_VECTOR_SIZE, sizeof(UINT32)) == FPT_HEADER_SIGNATURE) { if (meRegion.left(sizeof(UINT32)) == FPT_HEADER_SIGNATURE || meRegion.mid(ME_ROM_BYPASS_VECTOR_SIZE, sizeof(UINT32)) == FPT_HEADER_SIGNATURE) {
UModelIndex ptIndex; UModelIndex ptIndex;
return parseFptRegion(meRegion, index, ptIndex); return parseFptRegion(meRegion, index, ptIndex);
} }
// IFWI 1.6 // IFWI 1.6
// Check region size // Check region size
if ((UINT32)meRegion.size() < sizeof(IFWI_16_LAYOUT_HEADER)) { if ((UINT32)meRegion.size() < sizeof(IFWI_16_LAYOUT_HEADER)) {
msg(usprintf("%s: ME region too small to fit IFWI 1.6 layout header", __FUNCTION__), index); msg(usprintf("%s: ME region too small to fit IFWI 1.6 layout header", __FUNCTION__), index);
return U_INVALID_ME_PARTITION_TABLE; return U_INVALID_ME_PARTITION_TABLE;
} }
const IFWI_16_LAYOUT_HEADER* ifwi16Header = (const IFWI_16_LAYOUT_HEADER*)meRegion.constData(); const IFWI_16_LAYOUT_HEADER* ifwi16Header = (const IFWI_16_LAYOUT_HEADER*)meRegion.constData();
// Check region size // Check region size
if ((UINT32)meRegion.size() < ifwi16Header->DataPartition.Offset + sizeof(UINT32)) { if ((UINT32)meRegion.size() < ifwi16Header->DataPartition.Offset + sizeof(UINT32)) {
@ -77,7 +77,7 @@ USTATUS MeParser::parseMeRegionBody(const UModelIndex & index)
UModelIndex ptIndex; UModelIndex ptIndex;
return parseIfwi16Region(meRegion, index, ptIndex); return parseIfwi16Region(meRegion, index, ptIndex);
} }
// IFWI 1.7 // IFWI 1.7
if ((UINT32)meRegion.size() < sizeof(IFWI_17_LAYOUT_HEADER)) { if ((UINT32)meRegion.size() < sizeof(IFWI_17_LAYOUT_HEADER)) {
msg(usprintf("%s: ME region too small to fit IFWI 1.7 layout header", __FUNCTION__), index); msg(usprintf("%s: ME region too small to fit IFWI 1.7 layout header", __FUNCTION__), index);
@ -95,7 +95,7 @@ USTATUS MeParser::parseMeRegionBody(const UModelIndex & index)
UModelIndex ptIndex; UModelIndex ptIndex;
return parseIfwi17Region(meRegion, index, ptIndex); return parseIfwi17Region(meRegion, index, ptIndex);
} }
// Something else entirely // Something else entirely
msg(usprintf("%s: unknown ME region format", __FUNCTION__), index); msg(usprintf("%s: unknown ME region format", __FUNCTION__), index);
return U_INVALID_ME_PARTITION_TABLE; return U_INVALID_ME_PARTITION_TABLE;
@ -138,41 +138,41 @@ USTATUS MeParser::parseFptRegion(const UByteArray & region, const UModelIndex &
const FPT_HEADER_21* ptHeader21 = (const FPT_HEADER_21*)ptHeader; const FPT_HEADER_21* ptHeader21 = (const FPT_HEADER_21*)ptHeader;
info = usprintf("Full size: %Xh (%u)\nHeader size: %Xh (%u)\nBody size: %Xh (%u)\nROM bypass vector: %s\nNumber of entries: %u\nHeader version: %02Xh\nEntry version: %02Xh\n" info = usprintf("Full size: %Xh (%u)\nHeader size: %Xh (%u)\nBody size: %Xh (%u)\nROM bypass vector: %s\nNumber of entries: %u\nHeader version: %02Xh\nEntry version: %02Xh\n"
"Header length: %02Xh\nFlags: %Xh\nTicks to add: %04Xh\nTokens to add: %04Xh\nSPS Flags: %Xh\nFITC version: %u.%u.%u.%u\nCRC32 Checksum: %08Xh", "Header length: %02Xh\nFlags: %Xh\nTicks to add: %04Xh\nTokens to add: %04Xh\nSPS Flags: %Xh\nFITC version: %u.%u.%u.%u\nCRC32 Checksum: %08Xh",
ptSize, ptSize, ptSize, ptSize,
header.size(), header.size(), (UINT32)header.size(), (UINT32)header.size(),
ptBodySize, ptBodySize, ptBodySize, ptBodySize,
(romBypassVectorSize ? "present" : "absent"), (romBypassVectorSize ? "present" : "absent"),
ptHeader21->NumEntries, ptHeader21->NumEntries,
ptHeader21->HeaderVersion, ptHeader21->HeaderVersion,
ptHeader21->EntryVersion, ptHeader21->EntryVersion,
ptHeader21->HeaderLength, ptHeader21->HeaderLength,
ptHeader21->Flags, ptHeader21->Flags,
ptHeader21->TicksToAdd, ptHeader21->TicksToAdd,
ptHeader21->TokensToAdd, ptHeader21->TokensToAdd,
ptHeader21->SPSFlags, ptHeader21->SPSFlags,
ptHeader21->FitcMajor, ptHeader21->FitcMinor, ptHeader21->FitcHotfix, ptHeader21->FitcBuild, ptHeader21->FitcMajor, ptHeader21->FitcMinor, ptHeader21->FitcHotfix, ptHeader21->FitcBuild,
ptHeader21->HeaderCrc32); ptHeader21->HeaderCrc32);
// TODO: verify header crc32 // TODO: verify header crc32
} }
// Default handling for all other versions, may be too generic in some corner cases // Default handling for all other versions, may be too generic in some corner cases
else { else {
info = usprintf("Full size: %Xh (%u)\nHeader size: %Xh (%u)\nBody size: %Xh (%u)\nROM bypass vector: %s\nNumber of entries: %u\nHeader version: %02Xh\nEntry version: %02Xh\n" info = usprintf("Full size: %Xh (%u)\nHeader size: %Xh (%u)\nBody size: %Xh (%u)\nROM bypass vector: %s\nNumber of entries: %u\nHeader version: %02Xh\nEntry version: %02Xh\n"
"Header length: %02Xh\nFlash cycle life: %04Xh\nFlash cycle limit: %04Xh\nUMA size: %Xh\nFlags: %Xh\nFITC version: %u.%u.%u.%u\nChecksum: %02Xh", "Header length: %02Xh\nFlash cycle life: %04Xh\nFlash cycle limit: %04Xh\nUMA size: %Xh\nFlags: %Xh\nFITC version: %u.%u.%u.%u\nChecksum: %02Xh",
ptSize, ptSize, ptSize, ptSize,
header.size(), header.size(), (UINT32)header.size(), (UINT32)header.size(),
ptBodySize, ptBodySize, ptBodySize, ptBodySize,
(romBypassVectorSize ? "present" : "absent"), (romBypassVectorSize ? "present" : "absent"),
ptHeader->NumEntries, ptHeader->NumEntries,
ptHeader->HeaderVersion, ptHeader->HeaderVersion,
ptHeader->EntryVersion, ptHeader->EntryVersion,
ptHeader->HeaderLength, ptHeader->HeaderLength,
ptHeader->FlashCycleLife, ptHeader->FlashCycleLife,
ptHeader->FlashCycleLimit, ptHeader->FlashCycleLimit,
ptHeader->UmaSize, ptHeader->UmaSize,
ptHeader->Flags, ptHeader->Flags,
ptHeader->FitcMajor, ptHeader->FitcMinor, ptHeader->FitcHotfix, ptHeader->FitcBuild, ptHeader->FitcMajor, ptHeader->FitcMinor, ptHeader->FitcHotfix, ptHeader->FitcBuild,
ptHeader->HeaderChecksum); ptHeader->HeaderChecksum);
// TODO: verify header checksum8 // TODO: verify header checksum8
} }
@ -213,7 +213,7 @@ USTATUS MeParser::parseFptRegion(const UByteArray & region, const UModelIndex &
partitions.push_back(partition); partitions.push_back(partition);
} }
} }
make_partition_table_consistent: make_partition_table_consistent:
// Sort partitions by offset // Sort partitions by offset
std::sort(partitions.begin(), partitions.end()); std::sort(partitions.begin(), partitions.end());
@ -251,7 +251,7 @@ make_partition_table_consistent:
partitions[i].ptEntry.Size = (UINT32)region.size() - (UINT32)partitions[i].ptEntry.Offset; partitions[i].ptEntry.Size = (UINT32)region.size() - (UINT32)partitions[i].ptEntry.Offset;
} }
} }
// Check for intersection with previous partition // Check for intersection with previous partition
if (partitions[i].ptEntry.Offset < previousPartitionEnd) { if (partitions[i].ptEntry.Offset < previousPartitionEnd) {
// Check if current partition is located inside previous one // Check if current partition is located inside previous one
@ -295,9 +295,9 @@ make_partition_table_consistent:
// Get info // Get info
name = visibleAsciiOrHex((UINT8*) partitions[i].ptEntry.Name, 4); name = visibleAsciiOrHex((UINT8*) partitions[i].ptEntry.Name, 4);
info = usprintf("Full size: %Xh (%u)\nPartition type: %02Xh\n", info = usprintf("Full size: %Xh (%u)\nPartition type: %02Xh\n",
partition.size(), partition.size(), (UINT32)partition.size(), (UINT32)partition.size(),
partitions[i].ptEntry.Type); partitions[i].ptEntry.Type);
// Add tree item // Add tree item
UINT8 type = Subtypes::CodeFptPartition + partitions[i].ptEntry.Type; UINT8 type = Subtypes::CodeFptPartition + partitions[i].ptEntry.Type;
partitionIndex = model->addItem(partitions[i].ptEntry.Offset, Types::FptPartition, type, name, UString(), info, UByteArray(), partition, UByteArray(), Fixed, parent); partitionIndex = model->addItem(partitions[i].ptEntry.Offset, Types::FptPartition, type, name, UString(), info, UByteArray(), partition, UByteArray(), Fixed, parent);
@ -310,7 +310,7 @@ make_partition_table_consistent:
else if (partitions[i].type == Types::Padding) { else if (partitions[i].type == Types::Padding) {
// Get info // Get info
name = UString("Padding"); name = UString("Padding");
info = usprintf("Full size: %Xh (%u)", partition.size(), partition.size()); info = usprintf("Full size: %Xh (%u)", (UINT32)partition.size(), (UINT32)partition.size());
// Add tree item // Add tree item
model->addItem(partitions[i].ptEntry.Offset, Types::Padding, getPaddingType(partition), name, UString(), info, UByteArray(), partition, UByteArray(), Fixed, parent); model->addItem(partitions[i].ptEntry.Offset, Types::Padding, getPaddingType(partition), name, UString(), info, UByteArray(), partition, UByteArray(), Fixed, parent);
@ -343,7 +343,7 @@ USTATUS MeParser::parseIfwi16Region(const UByteArray & region, const UModelIndex
"Boot4 partition offset: %Xh\nBoot4 partition size: %Xh\n" "Boot4 partition offset: %Xh\nBoot4 partition size: %Xh\n"
"Boot5 partition offset: %Xh\nBoot5 partition size: %Xh\n" "Boot5 partition offset: %Xh\nBoot5 partition size: %Xh\n"
"Checksum: %llXh", "Checksum: %llXh",
header.size(), header.size(), (UINT32)header.size(), (UINT32)header.size(),
ifwiHeader->DataPartition.Offset, ifwiHeader->DataPartition.Size, ifwiHeader->DataPartition.Offset, ifwiHeader->DataPartition.Size,
ifwiHeader->BootPartition[0].Offset, ifwiHeader->BootPartition[0].Size, ifwiHeader->BootPartition[0].Offset, ifwiHeader->BootPartition[0].Size,
ifwiHeader->BootPartition[1].Offset, ifwiHeader->BootPartition[1].Size, ifwiHeader->BootPartition[1].Offset, ifwiHeader->BootPartition[1].Size,
@ -373,7 +373,7 @@ USTATUS MeParser::parseIfwi16Region(const UByteArray & region, const UModelIndex
partitions.push_back(partition); partitions.push_back(partition);
} }
} }
make_partition_table_consistent: make_partition_table_consistent:
// Sort partitions by offset // Sort partitions by offset
std::sort(partitions.begin(), partitions.end()); std::sort(partitions.begin(), partitions.end());
@ -457,8 +457,7 @@ make_partition_table_consistent:
} }
// Get info // Get info
info = usprintf("Full size: %Xh (%u)\n", info = usprintf("Full size: %Xh (%u)\n", (UINT32)partition.size(), (UINT32)partition.size());
partition.size(), partition.size());
// Add tree item // Add tree item
partitionIndex = model->addItem(partitions[i].ptEntry.Offset, partitions[i].type, partitions[i].subtype, name, UString(), info, UByteArray(), partition, UByteArray(), Fixed, parent); partitionIndex = model->addItem(partitions[i].ptEntry.Offset, partitions[i].type, partitions[i].subtype, name, UString(), info, UByteArray(), partition, UByteArray(), Fixed, parent);
@ -477,13 +476,13 @@ make_partition_table_consistent:
else if (partitions[i].type == Types::Padding) { else if (partitions[i].type == Types::Padding) {
// Get info // Get info
name = UString("Padding"); name = UString("Padding");
info = usprintf("Full size: %Xh (%u)", partition.size(), partition.size()); info = usprintf("Full size: %Xh (%u)", (UINT32)partition.size(), (UINT32)partition.size());
// Add tree item // Add tree item
model->addItem(partitions[i].ptEntry.Offset, Types::Padding, getPaddingType(partition), name, UString(), info, UByteArray(), partition, UByteArray(), Fixed, parent); model->addItem(partitions[i].ptEntry.Offset, Types::Padding, getPaddingType(partition), name, UString(), info, UByteArray(), partition, UByteArray(), Fixed, parent);
} }
} }
return U_SUCCESS; return U_SUCCESS;
} }
@ -514,7 +513,7 @@ USTATUS MeParser::parseIfwi17Region(const UByteArray & region, const UModelIndex
"Boot4 partition offset: %Xh\nBoot4 partition size: %Xh\n" "Boot4 partition offset: %Xh\nBoot4 partition size: %Xh\n"
"Boot5 partition offset: %Xh\nBoot5 partition size: %Xh\n" "Boot5 partition offset: %Xh\nBoot5 partition size: %Xh\n"
"Temp page offset: %Xh\nTemp page size: %Xh\n", "Temp page offset: %Xh\nTemp page size: %Xh\n",
header.size(), header.size(), (UINT32)header.size(), (UINT32)header.size(),
ifwiHeader->Flags, ifwiHeader->Flags,
ifwiHeader->Reserved, ifwiHeader->Reserved,
ifwiHeader->Checksum, ifwiHeader->Checksum,
@ -643,8 +642,7 @@ make_partition_table_consistent:
} }
// Get info // Get info
info = usprintf("Full size: %Xh (%u)\n", info = usprintf("Full size: %Xh (%u)\n", (UINT32)partition.size(), (UINT32)partition.size());
partition.size(), partition.size());
// Add tree item // Add tree item
partitionIndex = model->addItem(partitions[i].ptEntry.Offset, partitions[i].type, partitions[i].subtype, name, UString(), info, UByteArray(), partition, UByteArray(), Fixed, parent); partitionIndex = model->addItem(partitions[i].ptEntry.Offset, partitions[i].type, partitions[i].subtype, name, UString(), info, UByteArray(), partition, UByteArray(), Fixed, parent);
@ -663,7 +661,7 @@ make_partition_table_consistent:
else if (partitions[i].type == Types::Padding) { else if (partitions[i].type == Types::Padding) {
// Get info // Get info
name = UString("Padding"); name = UString("Padding");
info = usprintf("Full size: %Xh (%u)", partition.size(), partition.size()); info = usprintf("Full size: %Xh (%u)", (UINT32)partition.size(), (UINT32)partition.size());
// Add tree item // Add tree item
model->addItem(partitions[i].ptEntry.Offset, Types::Padding, getPaddingType(partition), name, UString(), info, UByteArray(), partition, UByteArray(), Fixed, parent); model->addItem(partitions[i].ptEntry.Offset, Types::Padding, getPaddingType(partition), name, UString(), info, UByteArray(), partition, UByteArray(), Fixed, parent);

View File

@ -1,15 +1,15 @@
/* nvram.cpp /* nvram.cpp
Copyright (c) 2016, Nikolaj Schlej. All rights reserved. Copyright (c) 2016, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php. http://opensource.org/licenses/bsd-license.php.
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "nvram.h" #include "nvram.h"
@ -17,7 +17,7 @@ UString nvarAttributesToUString(const UINT8 attributes)
{ {
if (attributes == 0x00 || attributes == 0xFF) if (attributes == 0x00 || attributes == 0xFF)
return UString(); return UString();
UString str; UString str;
if (attributes & NVRAM_NVAR_ENTRY_RUNTIME) str += UString(", Runtime"); if (attributes & NVRAM_NVAR_ENTRY_RUNTIME) str += UString(", Runtime");
if (attributes & NVRAM_NVAR_ENTRY_ASCII_NAME) str += UString(", AsciiName"); if (attributes & NVRAM_NVAR_ENTRY_ASCII_NAME) str += UString(", AsciiName");
@ -39,7 +39,7 @@ UString nvarExtendedAttributesToUString(const UINT8 attributes)
if (attributes & NVRAM_NVAR_ENTRY_EXT_AUTH_WRITE) str += UString(", AuthWrite"); if (attributes & NVRAM_NVAR_ENTRY_EXT_AUTH_WRITE) str += UString(", AuthWrite");
if (attributes & NVRAM_NVAR_ENTRY_EXT_TIME_BASED) str += UString(", TimeBasedAuthWrite"); if (attributes & NVRAM_NVAR_ENTRY_EXT_TIME_BASED) str += UString(", TimeBasedAuthWrite");
if (attributes & NVRAM_NVAR_ENTRY_EXT_UNKNOWN_MASK) str += UString(", Unknown"); if (attributes & NVRAM_NVAR_ENTRY_EXT_UNKNOWN_MASK) str += UString(", Unknown");
str.remove(0, 2); // Remove first comma and space str.remove(0, 2); // Remove first comma and space
return str; return str;
} }
@ -56,7 +56,7 @@ extern UString vssAttributesToUString(const UINT32 attributes)
if (attributes & NVRAM_VSS_VARIABLE_APPEND_WRITE) str += UString(", AppendWrite"); if (attributes & NVRAM_VSS_VARIABLE_APPEND_WRITE) str += UString(", AppendWrite");
if (attributes & NVRAM_VSS_VARIABLE_APPLE_DATA_CHECKSUM) str += UString(", AppleChecksum"); if (attributes & NVRAM_VSS_VARIABLE_APPLE_DATA_CHECKSUM) str += UString(", AppleChecksum");
if (attributes & NVRAM_VSS_VARIABLE_UNKNOWN_MASK) str += UString(", Unknown"); if (attributes & NVRAM_VSS_VARIABLE_UNKNOWN_MASK) str += UString(", Unknown");
str.remove(0, 2); // Remove first comma and space str.remove(0, 2); // Remove first comma and space
return str; return str;
} }
@ -73,7 +73,7 @@ UString evsaAttributesToUString(const UINT32 attributes)
if (attributes & NVRAM_EVSA_DATA_APPEND_WRITE) str += UString(", AppendWrite"); if (attributes & NVRAM_EVSA_DATA_APPEND_WRITE) str += UString(", AppendWrite");
if (attributes & NVRAM_EVSA_DATA_EXTENDED_HEADER) str += UString(", ExtendedHeader"); if (attributes & NVRAM_EVSA_DATA_EXTENDED_HEADER) str += UString(", ExtendedHeader");
if (attributes & NVRAM_EVSA_DATA_UNKNOWN_MASK) str += UString(", Unknown"); if (attributes & NVRAM_EVSA_DATA_UNKNOWN_MASK) str += UString(", Unknown");
str.remove(0, 2); // Remove first comma and space str.remove(0, 2); // Remove first comma and space
return str; return str;
} }
@ -81,13 +81,13 @@ UString evsaAttributesToUString(const UINT32 attributes)
UString efiTimeToUString(const EFI_TIME & time) UString efiTimeToUString(const EFI_TIME & time)
{ {
return usprintf("%04u-%02u-%02uT%02u:%02u:%02u.%u", return usprintf("%04u-%02u-%02uT%02u:%02u:%02u.%u",
time.Year, time.Year,
time.Month, time.Month,
time.Day, time.Day,
time.Hour, time.Hour,
time.Minute, time.Minute,
time.Second, time.Second,
time.Nanosecond); time.Nanosecond);
} }
UString flashMapGuidToUString(const EFI_GUID & guid) UString flashMapGuidToUString(const EFI_GUID & guid)
@ -96,9 +96,9 @@ UString flashMapGuidToUString(const EFI_GUID & guid)
if (baGuid == NVRAM_PHOENIX_FLASH_MAP_VOLUME_HEADER) return UString("Volume header"); if (baGuid == NVRAM_PHOENIX_FLASH_MAP_VOLUME_HEADER) return UString("Volume header");
if (baGuid == NVRAM_PHOENIX_FLASH_MAP_MICROCODES_GUID) return UString("Microcodes"); if (baGuid == NVRAM_PHOENIX_FLASH_MAP_MICROCODES_GUID) return UString("Microcodes");
if (baGuid == NVRAM_PHOENIX_FLASH_MAP_CMDB_GUID) return UString("CMDB"); if (baGuid == NVRAM_PHOENIX_FLASH_MAP_CMDB_GUID) return UString("CMDB");
if (baGuid == NVRAM_PHOENIX_FLASH_MAP_PUBKEY1_GUID if (baGuid == NVRAM_PHOENIX_FLASH_MAP_PUBKEY1_GUID
|| baGuid == NVRAM_PHOENIX_FLASH_MAP_PUBKEY2_GUID) return UString("SLIC pubkey"); || baGuid == NVRAM_PHOENIX_FLASH_MAP_PUBKEY2_GUID) return UString("SLIC pubkey");
if (baGuid == NVRAM_PHOENIX_FLASH_MAP_MARKER1_GUID if (baGuid == NVRAM_PHOENIX_FLASH_MAP_MARKER1_GUID
|| baGuid == NVRAM_PHOENIX_FLASH_MAP_MARKER2_GUID) return UString("SLIC marker"); || baGuid == NVRAM_PHOENIX_FLASH_MAP_MARKER2_GUID) return UString("SLIC marker");
if (baGuid == NVRAM_PHOENIX_FLASH_MAP_EVSA1_GUID if (baGuid == NVRAM_PHOENIX_FLASH_MAP_EVSA1_GUID
|| baGuid == NVRAM_PHOENIX_FLASH_MAP_EVSA2_GUID || baGuid == NVRAM_PHOENIX_FLASH_MAP_EVSA2_GUID

File diff suppressed because it is too large Load Diff

View File

@ -1,35 +1,35 @@
/* peimage.cpp /* peimage.cpp
Copyright (c) 2015, Nikolaj Schlej. All rights reserved. Copyright (c) 2015, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php. http://opensource.org/licenses/bsd-license.php.
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "peimage.h" #include "peimage.h"
UString machineTypeToUString(UINT16 machineType) UString machineTypeToUString(UINT16 machineType)
{ {
switch (machineType) { switch (machineType) {
case EFI_IMAGE_FILE_MACHINE_AMD64: return UString("x86-64"); case EFI_IMAGE_FILE_MACHINE_AMD64: return UString("x86-64");
case EFI_IMAGE_FILE_MACHINE_ARM: return UString("ARM"); case EFI_IMAGE_FILE_MACHINE_ARM: return UString("ARM");
case EFI_IMAGE_FILE_MACHINE_ARMNT: return UString("ARMv7"); case EFI_IMAGE_FILE_MACHINE_ARMNT: return UString("ARMv7");
case EFI_IMAGE_FILE_MACHINE_APPLE_ARM: return UString("Apple ARM"); case EFI_IMAGE_FILE_MACHINE_APPLE_ARM: return UString("Apple ARM");
case EFI_IMAGE_FILE_MACHINE_AARCH64: return UString("AArch64"); case EFI_IMAGE_FILE_MACHINE_AARCH64: return UString("AArch64");
case EFI_IMAGE_FILE_MACHINE_EBC: return UString("EBC"); case EFI_IMAGE_FILE_MACHINE_EBC: return UString("EBC");
case EFI_IMAGE_FILE_MACHINE_I386: return UString("x86"); case EFI_IMAGE_FILE_MACHINE_I386: return UString("x86");
case EFI_IMAGE_FILE_MACHINE_IA64: return UString("IA64"); case EFI_IMAGE_FILE_MACHINE_IA64: return UString("IA64");
case EFI_IMAGE_FILE_MACHINE_POWERPC: return UString("PowerPC"); case EFI_IMAGE_FILE_MACHINE_POWERPC: return UString("PowerPC");
case EFI_IMAGE_FILE_MACHINE_POWERPCFP: return UString("PowerPC FP"); case EFI_IMAGE_FILE_MACHINE_POWERPCFP: return UString("PowerPC FP");
case EFI_IMAGE_FILE_MACHINE_THUMB: return UString("ARM Thumb"); case EFI_IMAGE_FILE_MACHINE_THUMB: return UString("ARM Thumb");
case EFI_IMAGE_FILE_MACHINE_RISCV32: return UString("RISC-V 32-bit"); case EFI_IMAGE_FILE_MACHINE_RISCV32: return UString("RISC-V 32-bit");
case EFI_IMAGE_FILE_MACHINE_RISCV64: return UString("RISC-V 64-bit"); case EFI_IMAGE_FILE_MACHINE_RISCV64: return UString("RISC-V 64-bit");
case EFI_IMAGE_FILE_MACHINE_RISCV128: return UString("RISC-V 128-bit"); case EFI_IMAGE_FILE_MACHINE_RISCV128: return UString("RISC-V 128-bit");
default: return usprintf("Unknown (%04Xh)", machineType); default: return usprintf("Unknown (%04Xh)", machineType);
} }
} }

View File

@ -1,38 +1,38 @@
/* treeitem.cpp /* treeitem.cpp
Copyright (c) 2015, Nikolaj Schlej. All rights reserved. Copyright (c) 2015, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "treeitem.h" #include "treeitem.h"
#include "types.h" #include "types.h"
TreeItem::TreeItem(const UINT32 offset, const UINT8 type, const UINT8 subtype, TreeItem::TreeItem(const UINT32 offset, const UINT8 type, const UINT8 subtype,
const UString & name, const UString & text, const UString & info, const UString & name, const UString & text, const UString & info,
const UByteArray & header, const UByteArray & body, const UByteArray & tail, const UByteArray & header, const UByteArray & body, const UByteArray & tail,
const bool fixed, const bool compressed, const bool fixed, const bool compressed,
TreeItem *parent) : TreeItem *parent) :
itemOffset(offset), itemOffset(offset),
itemAction(Actions::NoAction), itemAction(Actions::NoAction),
itemType(type), itemType(type),
itemSubtype(subtype), itemSubtype(subtype),
itemMarking(0), itemMarking(0),
itemName(name), itemName(name),
itemText(text), itemText(text),
itemInfo(info), itemInfo(info),
itemHeader(header), itemHeader(header),
itemBody(body), itemBody(body),
itemTail(tail), itemTail(tail),
itemFixed(fixed), itemFixed(fixed),
itemCompressed(compressed), itemCompressed(compressed),
parentItem(parent) parentItem(parent)
{ {
} }
@ -66,18 +66,18 @@ UString TreeItem::data(int column) const
{ {
switch (column) switch (column)
{ {
case 0: // Name case 0: // Name
return itemName; return itemName;
case 1: // Action case 1: // Action
return actionTypeToUString(itemAction); return actionTypeToUString(itemAction);
case 2: // Type case 2: // Type
return itemTypeToUString(itemType); return itemTypeToUString(itemType);
case 3: // Subtype case 3: // Subtype
return itemSubtypeToUString(itemType, itemSubtype); return itemSubtypeToUString(itemType, itemSubtype);
case 4: // Text case 4: // Text
return itemText; return itemText;
default: default:
return UString(); return UString();
} }
} }
@ -98,4 +98,4 @@ TreeItem* TreeItem::child(int row)
std::list<TreeItem*>::iterator child = childItems.begin(); std::list<TreeItem*>::iterator child = childItems.begin();
std::advance(child, row); std::advance(child, row);
return *child; return *child;
} }

View File

@ -1,15 +1,15 @@
/* treemodel.cpp /* treemodel.cpp
Copyright (c) 2015, Nikolaj Schlej. All rights reserved. Copyright (c) 2015, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "treemodel.h" #include "treemodel.h"
@ -20,9 +20,9 @@ QVariant TreeModel::data(const UModelIndex &index, int role) const
{ {
if (!index.isValid()) if (!index.isValid())
return QVariant(); return QVariant();
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
if (role == Qt::DisplayRole) { if (role == Qt::DisplayRole) {
return item->data(index.column()).toLocal8Bit(); return item->data(index.column()).toLocal8Bit();
} }
@ -36,7 +36,7 @@ QVariant TreeModel::data(const UModelIndex &index, int role) const
else if (role == Qt::UserRole) { else if (role == Qt::UserRole) {
return item->info().toLocal8Bit(); return item->info().toLocal8Bit();
} }
return QVariant(); return QVariant();
} }
@ -44,23 +44,23 @@ Qt::ItemFlags TreeModel::flags(const UModelIndex &index) const
{ {
if (!index.isValid()) if (!index.isValid())
return Qt::NoItemFlags; return Qt::NoItemFlags;
return Qt::ItemIsEnabled | Qt::ItemIsSelectable; return Qt::ItemIsEnabled | Qt::ItemIsSelectable;
} }
QVariant TreeModel::headerData(int section, Qt::Orientation orientation, QVariant TreeModel::headerData(int section, Qt::Orientation orientation,
int role) const int role) const
{ {
if (orientation == Qt::Horizontal && role == Qt::DisplayRole) { if (orientation == Qt::Horizontal && role == Qt::DisplayRole) {
switch (section) { switch (section) {
case 0: return tr("Name"); case 0: return tr("Name");
case 1: return tr("Action"); case 1: return tr("Action");
case 2: return tr("Type"); case 2: return tr("Type");
case 3: return tr("Subtype"); case 3: return tr("Subtype");
case 4: return tr("Text"); case 4: return tr("Text");
} }
} }
return QVariant(); return QVariant();
} }
#else #else
@ -68,12 +68,12 @@ UString TreeModel::data(const UModelIndex &index, int role) const
{ {
if (!index.isValid()) if (!index.isValid())
return UString(); return UString();
if (role != 0 && role != 0x0100) if (role != 0 && role != 0x0100)
return UString(); return UString();
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
if (role == 0) if (role == 0)
return item->data(index.column()); return item->data(index.column());
else else
@ -81,19 +81,19 @@ UString TreeModel::data(const UModelIndex &index, int role) const
} }
UString TreeModel::headerData(int section, int orientation, UString TreeModel::headerData(int section, int orientation,
int role) const int role) const
{ {
if (orientation == 1 && role == 0) { if (orientation == 1 && role == 0) {
switch (section) switch (section)
{ {
case 0: return UString("Name"); case 0: return UString("Name");
case 1: return UString("Action"); case 1: return UString("Action");
case 2: return UString("Type"); case 2: return UString("Type");
case 3: return UString("Subtype"); case 3: return UString("Subtype");
case 4: return UString("Text"); case 4: return UString("Text");
} }
} }
return UString(); return UString();
} }
#endif #endif
@ -110,14 +110,14 @@ UModelIndex TreeModel::index(int row, int column, const UModelIndex &parent) con
{ {
if (!hasIndex(row, column, parent)) if (!hasIndex(row, column, parent))
return UModelIndex(); return UModelIndex();
TreeItem *parentItem; TreeItem *parentItem;
if (!parent.isValid()) if (!parent.isValid())
parentItem = rootItem; parentItem = rootItem;
else else
parentItem = static_cast<TreeItem*>(parent.internalPointer()); parentItem = static_cast<TreeItem*>(parent.internalPointer());
TreeItem *childItem = parentItem->child(row); TreeItem *childItem = parentItem->child(row);
if (childItem) if (childItem)
return createIndex(row, column, childItem); return createIndex(row, column, childItem);
@ -129,16 +129,16 @@ UModelIndex TreeModel::parent(const UModelIndex &index) const
{ {
if (!index.isValid()) if (!index.isValid())
return UModelIndex(); return UModelIndex();
TreeItem *childItem = static_cast<TreeItem*>(index.internalPointer()); TreeItem *childItem = static_cast<TreeItem*>(index.internalPointer());
if (childItem == rootItem) if (childItem == rootItem)
return UModelIndex(); return UModelIndex();
TreeItem *parentItem = childItem->parent(); TreeItem *parentItem = childItem->parent();
if (parentItem == rootItem) if (parentItem == rootItem)
return UModelIndex(); return UModelIndex();
return createIndex(parentItem->row(), 0, parentItem); return createIndex(parentItem->row(), 0, parentItem);
} }
@ -147,12 +147,12 @@ int TreeModel::rowCount(const UModelIndex &parent) const
TreeItem *parentItem; TreeItem *parentItem;
if (parent.column() > 0) if (parent.column() > 0)
return 0; return 0;
if (!parent.isValid()) if (!parent.isValid())
parentItem = rootItem; parentItem = rootItem;
else else
parentItem = static_cast<TreeItem*>(parent.internalPointer()); parentItem = static_cast<TreeItem*>(parent.internalPointer());
return parentItem->childCount(); return parentItem->childCount();
} }
@ -161,7 +161,7 @@ UINT32 TreeModel::base(const UModelIndex &current) const
// TODO: rewrite this as loop if we ever see an image that is too deep for this naive implementation // TODO: rewrite this as loop if we ever see an image that is too deep for this naive implementation
if (!current.isValid()) if (!current.isValid())
return 0; return 0;
UModelIndex parent = current.parent(); UModelIndex parent = current.parent();
if (!parent.isValid()) if (!parent.isValid())
return offset(current); return offset(current);
@ -302,24 +302,24 @@ void TreeModel::setFixed(const UModelIndex &index, const bool fixed)
{ {
if (!index.isValid()) if (!index.isValid())
return; return;
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
item->setFixed(fixed); item->setFixed(fixed);
if (!item->parent()) if (!item->parent())
return; return;
if (fixed) { if (fixed) {
// Special handling for uncompressed to compressed boundary // Special handling for uncompressed to compressed boundary
if (item->compressed() && item->parent()->compressed() == FALSE) { if (item->compressed() && item->parent()->compressed() == FALSE) {
item->setFixed(item->parent()->fixed()); item->setFixed(item->parent()->fixed());
return; return;
} }
// Propagate fixed flag until root // Propagate fixed flag until root
setFixed(index.parent(), true); setFixed(index.parent(), true);
} }
emit dataChanged(index, index); emit dataChanged(index, index);
} }
@ -327,10 +327,10 @@ void TreeModel::setCompressed(const UModelIndex &index, const bool compressed)
{ {
if (!index.isValid()) if (!index.isValid())
return; return;
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
item->setCompressed(compressed); item->setCompressed(compressed);
emit dataChanged(index, index); emit dataChanged(index, index);
} }
@ -345,10 +345,10 @@ void TreeModel::setMarking(const UModelIndex &index, const UINT8 marking)
{ {
if (!index.isValid()) if (!index.isValid())
return; return;
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
item->setMarking(marking); item->setMarking(marking);
emit dataChanged(index, index); emit dataChanged(index, index);
} }
@ -356,7 +356,7 @@ void TreeModel::setOffset(const UModelIndex &index, const UINT32 offset)
{ {
if (!index.isValid()) if (!index.isValid())
return; return;
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
item->setOffset(offset); item->setOffset(offset);
emit dataChanged(index, index); emit dataChanged(index, index);
@ -366,7 +366,7 @@ void TreeModel::setType(const UModelIndex &index, const UINT8 data)
{ {
if (!index.isValid()) if (!index.isValid())
return; return;
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
item->setType(data); item->setType(data);
emit dataChanged(index, index); emit dataChanged(index, index);
@ -376,7 +376,7 @@ void TreeModel::setSubtype(const UModelIndex & index, const UINT8 subtype)
{ {
if (!index.isValid()) if (!index.isValid())
return; return;
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
item->setSubtype(subtype); item->setSubtype(subtype);
emit dataChanged(index, index); emit dataChanged(index, index);
@ -386,7 +386,7 @@ void TreeModel::setName(const UModelIndex &index, const UString &data)
{ {
if (!index.isValid()) if (!index.isValid())
return; return;
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
item->setName(data); item->setName(data);
emit dataChanged(index, index); emit dataChanged(index, index);
@ -396,7 +396,7 @@ void TreeModel::setText(const UModelIndex &index, const UString &data)
{ {
if (!index.isValid()) if (!index.isValid())
return; return;
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
item->setText(data); item->setText(data);
emit dataChanged(index, index); emit dataChanged(index, index);
@ -406,7 +406,7 @@ void TreeModel::setInfo(const UModelIndex &index, const UString &data)
{ {
if (!index.isValid()) if (!index.isValid())
return; return;
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
item->setInfo(data); item->setInfo(data);
emit dataChanged(index, index); emit dataChanged(index, index);
@ -416,7 +416,7 @@ void TreeModel::addInfo(const UModelIndex &index, const UString &data, const boo
{ {
if (!index.isValid()) if (!index.isValid())
return; return;
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
item->addInfo(data, append); item->addInfo(data, append);
emit dataChanged(index, index); emit dataChanged(index, index);
@ -426,7 +426,7 @@ void TreeModel::setAction(const UModelIndex &index, const UINT8 action)
{ {
if (!index.isValid()) if (!index.isValid())
return; return;
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
item->setAction(action); item->setAction(action);
emit dataChanged(index, index); emit dataChanged(index, index);
@ -436,7 +436,7 @@ UByteArray TreeModel::parsingData(const UModelIndex &index) const
{ {
if (!index.isValid()) if (!index.isValid())
return UByteArray(); return UByteArray();
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
return item->parsingData(); return item->parsingData();
} }
@ -445,7 +445,7 @@ bool TreeModel::hasEmptyParsingData(const UModelIndex &index) const
{ {
if (!index.isValid()) if (!index.isValid())
return true; return true;
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
return item->hasEmptyParsingData(); return item->hasEmptyParsingData();
} }
@ -454,7 +454,7 @@ void TreeModel::setParsingData(const UModelIndex &index, const UByteArray &data)
{ {
if (!index.isValid()) if (!index.isValid())
return; return;
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
item->setParsingData(data); item->setParsingData(data);
emit dataChanged(this->index(0, 0), index); emit dataChanged(this->index(0, 0), index);
@ -464,7 +464,7 @@ UByteArray TreeModel::uncompressedData(const UModelIndex &index) const
{ {
if (!index.isValid()) if (!index.isValid())
return UByteArray(); return UByteArray();
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
return item->uncompressedData(); return item->uncompressedData();
} }
@ -473,7 +473,7 @@ bool TreeModel::hasEmptyUncompressedData(const UModelIndex &index) const
{ {
if (!index.isValid()) if (!index.isValid())
return true; return true;
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
return item->hasEmptyUncompressedData(); return item->hasEmptyUncompressedData();
} }
@ -482,22 +482,22 @@ void TreeModel::setUncompressedData(const UModelIndex &index, const UByteArray &
{ {
if (!index.isValid()) if (!index.isValid())
return; return;
TreeItem *item = static_cast<TreeItem*>(index.internalPointer()); TreeItem *item = static_cast<TreeItem*>(index.internalPointer());
item->setUncompressedData(data); item->setUncompressedData(data);
emit dataChanged(this->index(0, 0), index); emit dataChanged(this->index(0, 0), index);
} }
UModelIndex TreeModel::addItem(const UINT32 offset, const UINT8 type, const UINT8 subtype, UModelIndex TreeModel::addItem(const UINT32 offset, const UINT8 type, const UINT8 subtype,
const UString & name, const UString & text, const UString & info, const UString & name, const UString & text, const UString & info,
const UByteArray & header, const UByteArray & body, const UByteArray & tail, const UByteArray & header, const UByteArray & body, const UByteArray & tail,
const ItemFixedState fixed, const ItemFixedState fixed,
const UModelIndex & parent, const UINT8 mode) const UModelIndex & parent, const UINT8 mode)
{ {
TreeItem *item = 0; TreeItem *item = 0;
TreeItem *parentItem = 0; TreeItem *parentItem = 0;
int parentColumn = 0; int parentColumn = 0;
if (!parent.isValid()) if (!parent.isValid())
parentItem = rootItem; parentItem = rootItem;
else else
@ -512,9 +512,9 @@ UModelIndex TreeModel::addItem(const UINT32 offset, const UINT8 type, const UINT
parentColumn = parent.column(); parentColumn = parent.column();
} }
} }
TreeItem *newItem = new TreeItem(offset, type, subtype, name, text, info, header, body, tail, Movable, this->compressed(parent), parentItem); TreeItem *newItem = new TreeItem(offset, type, subtype, name, text, info, header, body, tail, Movable, this->compressed(parent), parentItem);
if (mode == CREATE_MODE_APPEND) { if (mode == CREATE_MODE_APPEND) {
emit layoutAboutToBeChanged(); emit layoutAboutToBeChanged();
parentItem->appendChild(newItem); parentItem->appendChild(newItem);
@ -535,9 +535,9 @@ UModelIndex TreeModel::addItem(const UINT32 offset, const UINT8 type, const UINT
delete newItem; delete newItem;
return UModelIndex(); return UModelIndex();
} }
emit layoutChanged(); emit layoutChanged();
UModelIndex created = createIndex(newItem->row(), parentColumn, newItem); UModelIndex created = createIndex(newItem->row(), parentColumn, newItem);
setFixed(created, (bool)fixed); // Non-trivial logic requires additional call setFixed(created, (bool)fixed); // Non-trivial logic requires additional call
return created; return created;
@ -547,17 +547,17 @@ UModelIndex TreeModel::findParentOfType(const UModelIndex& index, UINT8 type) co
{ {
if (!index.isValid() || !index.parent().isValid()) if (!index.isValid() || !index.parent().isValid())
return UModelIndex(); return UModelIndex();
TreeItem *item; TreeItem *item;
UModelIndex parent = index.parent(); UModelIndex parent = index.parent();
for (item = static_cast<TreeItem*>(parent.internalPointer()); for (item = static_cast<TreeItem*>(parent.internalPointer());
item != NULL && item != rootItem && item->type() != type; item != NULL && item != rootItem && item->type() != type;
item = static_cast<TreeItem*>(parent.internalPointer())) item = static_cast<TreeItem*>(parent.internalPointer()))
parent = parent.parent(); parent = parent.parent();
if (item != NULL && item != rootItem) if (item != NULL && item != rootItem)
return parent; return parent;
return UModelIndex(); return UModelIndex();
} }
@ -565,30 +565,30 @@ UModelIndex TreeModel::findLastParentOfType(const UModelIndex& index, UINT8 type
{ {
if (!index.isValid()) if (!index.isValid())
return UModelIndex(); return UModelIndex();
UModelIndex lastParentOfType = findParentOfType(index, type); UModelIndex lastParentOfType = findParentOfType(index, type);
if (!lastParentOfType.isValid()) if (!lastParentOfType.isValid())
return UModelIndex(); return UModelIndex();
UModelIndex currentParentOfType = findParentOfType(lastParentOfType, type); UModelIndex currentParentOfType = findParentOfType(lastParentOfType, type);
while (currentParentOfType.isValid()) { while (currentParentOfType.isValid()) {
lastParentOfType = currentParentOfType; lastParentOfType = currentParentOfType;
currentParentOfType = findParentOfType(lastParentOfType, type); currentParentOfType = findParentOfType(lastParentOfType, type);
} }
return lastParentOfType; return lastParentOfType;
} }
UModelIndex TreeModel::findByBase(UINT32 base) const UModelIndex TreeModel::findByBase(UINT32 base) const
{ {
UModelIndex parentIndex = index(0,0); UModelIndex parentIndex = index(0,0);
goDeeper: goDeeper:
int n = rowCount(parentIndex); int n = rowCount(parentIndex);
for (int i = 0; i < n; i++) { for (int i = 0; i < n; i++) {
UModelIndex currentIndex = parentIndex.model()->index(i, 0, parentIndex); UModelIndex currentIndex = parentIndex.model()->index(i, 0, parentIndex);
UINT32 currentBase = this->base(currentIndex); UINT32 currentBase = this->base(currentIndex);
UINT32 fullSize = (UINT32)(header(currentIndex).size() + body(currentIndex).size() + tail(currentIndex).size()); UINT32 fullSize = (UINT32)(header(currentIndex).size() + body(currentIndex).size() + tail(currentIndex).size());
if ((compressed(currentIndex) == false || (compressed(currentIndex) == true && compressed(currentIndex.parent()) == false)) // Base is meaningful only for true uncompressed items if ((compressed(currentIndex) == false || (compressed(currentIndex) == true && compressed(currentIndex.parent()) == false)) // Base is meaningful only for true uncompressed items
@ -598,6 +598,6 @@ goDeeper:
goto goDeeper; goto goDeeper;
} }
} }
return (parentIndex == index(0, 0) ? UModelIndex() : parentIndex); return (parentIndex == index(0, 0) ? UModelIndex() : parentIndex);
} }

View File

@ -1,14 +1,14 @@
/* types.cpp /* types.cpp
Copyright (c) 2016, Nikolaj Schlej. All rights reserved. Copyright (c) 2016, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHWARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHWARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "ustring.h" #include "ustring.h"
#include "types.h" #include "types.h"
@ -18,202 +18,202 @@ WITHWARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
UString regionTypeToUString(const UINT8 type) UString regionTypeToUString(const UINT8 type)
{ {
switch (type) { switch (type) {
case Subtypes::DescriptorRegion: return UString("Descriptor"); case Subtypes::DescriptorRegion: return UString("Descriptor");
case Subtypes::BiosRegion: return UString("BIOS"); case Subtypes::BiosRegion: return UString("BIOS");
case Subtypes::MeRegion: return UString("ME"); case Subtypes::MeRegion: return UString("ME");
case Subtypes::GbeRegion: return UString("GbE"); case Subtypes::GbeRegion: return UString("GbE");
case Subtypes::PdrRegion: return UString("PDR"); case Subtypes::PdrRegion: return UString("PDR");
case Subtypes::DevExp1Region: return UString("DevExp1"); case Subtypes::DevExp1Region: return UString("DevExp1");
case Subtypes::Bios2Region: return UString("BIOS2"); case Subtypes::Bios2Region: return UString("BIOS2");
case Subtypes::MicrocodeRegion: return UString("Microcode"); case Subtypes::MicrocodeRegion: return UString("Microcode");
case Subtypes::EcRegion: return UString("EC"); case Subtypes::EcRegion: return UString("EC");
case Subtypes::DevExp2Region: return UString("DevExp2"); case Subtypes::DevExp2Region: return UString("DevExp2");
case Subtypes::IeRegion: return UString("IE"); case Subtypes::IeRegion: return UString("IE");
case Subtypes::Tgbe1Region: return UString("10GbE1"); case Subtypes::Tgbe1Region: return UString("10GbE1");
case Subtypes::Tgbe2Region: return UString("10GbE2"); case Subtypes::Tgbe2Region: return UString("10GbE2");
case Subtypes::Reserved1Region: return UString("Reserved1"); case Subtypes::Reserved1Region: return UString("Reserved1");
case Subtypes::Reserved2Region: return UString("Reserved2"); case Subtypes::Reserved2Region: return UString("Reserved2");
case Subtypes::PttRegion: return UString("PTT"); case Subtypes::PttRegion: return UString("PTT");
}; };
return UString("Unknown"); return UString("Unknown");
} }
UString itemTypeToUString(const UINT8 type) UString itemTypeToUString(const UINT8 type)
{ {
switch (type) { switch (type) {
case Types::Root: return UString("Root"); case Types::Root: return UString("Root");
case Types::Image: return UString("Image"); case Types::Image: return UString("Image");
case Types::Capsule: return UString("Capsule"); case Types::Capsule: return UString("Capsule");
case Types::Region: return UString("Region"); case Types::Region: return UString("Region");
case Types::Volume: return UString("Volume"); case Types::Volume: return UString("Volume");
case Types::Padding: return UString("Padding"); case Types::Padding: return UString("Padding");
case Types::File: return UString("File"); case Types::File: return UString("File");
case Types::Section: return UString("Section"); case Types::Section: return UString("Section");
case Types::FreeSpace: return UString("Free space"); case Types::FreeSpace: return UString("Free space");
case Types::VssStore: return UString("VSS store"); case Types::VssStore: return UString("VSS store");
case Types::Vss2Store: return UString("VSS2 store"); case Types::Vss2Store: return UString("VSS2 store");
case Types::FtwStore: return UString("FTW store"); case Types::FtwStore: return UString("FTW store");
case Types::FdcStore: return UString("FDC store"); case Types::FdcStore: return UString("FDC store");
case Types::FsysStore: return UString("Fsys store"); case Types::FsysStore: return UString("Fsys store");
case Types::EvsaStore: return UString("EVSA store"); case Types::EvsaStore: return UString("EVSA store");
case Types::CmdbStore: return UString("CMDB store"); case Types::CmdbStore: return UString("CMDB store");
case Types::FlashMapStore: return UString("FlashMap store"); case Types::FlashMapStore: return UString("FlashMap store");
case Types::NvarEntry: return UString("NVAR entry"); case Types::NvarEntry: return UString("NVAR entry");
case Types::VssEntry: return UString("VSS entry"); case Types::VssEntry: return UString("VSS entry");
case Types::FsysEntry: return UString("Fsys entry"); case Types::FsysEntry: return UString("Fsys entry");
case Types::EvsaEntry: return UString("EVSA entry"); case Types::EvsaEntry: return UString("EVSA entry");
case Types::FlashMapEntry: return UString("FlashMap entry"); case Types::FlashMapEntry: return UString("FlashMap entry");
case Types::Microcode: return UString("Microcode"); case Types::Microcode: return UString("Microcode");
case Types::SlicData: return UString("SLIC data"); case Types::SlicData: return UString("SLIC data");
// ME-specific // ME-specific
case Types::FptStore: return UString("FPT store"); case Types::FptStore: return UString("FPT store");
case Types::FptEntry: return UString("FPT entry"); case Types::FptEntry: return UString("FPT entry");
case Types::IfwiHeader: return UString("IFWI header"); case Types::IfwiHeader: return UString("IFWI header");
case Types::IfwiPartition: return UString("IFWI partition"); case Types::IfwiPartition: return UString("IFWI partition");
case Types::FptPartition: return UString("FPT partition"); case Types::FptPartition: return UString("FPT partition");
case Types::BpdtStore: return UString("BPDT store"); case Types::BpdtStore: return UString("BPDT store");
case Types::BpdtEntry: return UString("BPDT entry"); case Types::BpdtEntry: return UString("BPDT entry");
case Types::BpdtPartition: return UString("BPDT partition"); case Types::BpdtPartition: return UString("BPDT partition");
case Types::CpdStore: return UString("CPD store"); case Types::CpdStore: return UString("CPD store");
case Types::CpdEntry: return UString("CPD entry"); case Types::CpdEntry: return UString("CPD entry");
case Types::CpdPartition: return UString("CPD partition"); case Types::CpdPartition: return UString("CPD partition");
case Types::CpdExtension: return UString("CPD extension"); case Types::CpdExtension: return UString("CPD extension");
case Types::CpdSpiEntry: return UString("CPD SPI entry"); case Types::CpdSpiEntry: return UString("CPD SPI entry");
} }
return UString("Unknown"); return UString("Unknown");
} }
UString itemSubtypeToUString(const UINT8 type, const UINT8 subtype) UString itemSubtypeToUString(const UINT8 type, const UINT8 subtype)
{ {
switch (type) { switch (type) {
case Types::Image: case Types::Image:
if (subtype == Subtypes::IntelImage) return UString("Intel"); if (subtype == Subtypes::IntelImage) return UString("Intel");
if (subtype == Subtypes::UefiImage) return UString("UEFI"); if (subtype == Subtypes::UefiImage) return UString("UEFI");
break; break;
case Types::Padding: case Types::Padding:
if (subtype == Subtypes::ZeroPadding) return UString("Empty (0x00)"); if (subtype == Subtypes::ZeroPadding) return UString("Empty (0x00)");
if (subtype == Subtypes::OnePadding) return UString("Empty (0xFF)"); if (subtype == Subtypes::OnePadding) return UString("Empty (0xFF)");
if (subtype == Subtypes::DataPadding) return UString("Non-empty"); if (subtype == Subtypes::DataPadding) return UString("Non-empty");
break; break;
case Types::Volume: case Types::Volume:
if (subtype == Subtypes::UnknownVolume) return UString("Unknown"); if (subtype == Subtypes::UnknownVolume) return UString("Unknown");
if (subtype == Subtypes::Ffs2Volume) return UString("FFSv2"); if (subtype == Subtypes::Ffs2Volume) return UString("FFSv2");
if (subtype == Subtypes::Ffs3Volume) return UString("FFSv3"); if (subtype == Subtypes::Ffs3Volume) return UString("FFSv3");
if (subtype == Subtypes::NvramVolume) return UString("NVRAM"); if (subtype == Subtypes::NvramVolume) return UString("NVRAM");
if (subtype == Subtypes::MicrocodeVolume) return UString("Microcode"); if (subtype == Subtypes::MicrocodeVolume) return UString("Microcode");
break; break;
case Types::Capsule: case Types::Capsule:
if (subtype == Subtypes::AptioSignedCapsule) return UString("Aptio signed"); if (subtype == Subtypes::AptioSignedCapsule) return UString("Aptio signed");
if (subtype == Subtypes::AptioUnsignedCapsule) return UString("Aptio unsigned"); if (subtype == Subtypes::AptioUnsignedCapsule) return UString("Aptio unsigned");
if (subtype == Subtypes::UefiCapsule) return UString("UEFI 2.0"); if (subtype == Subtypes::UefiCapsule) return UString("UEFI 2.0");
if (subtype == Subtypes::ToshibaCapsule) return UString("Toshiba"); if (subtype == Subtypes::ToshibaCapsule) return UString("Toshiba");
break; break;
case Types::Region: return regionTypeToUString(subtype); case Types::Region: return regionTypeToUString(subtype);
case Types::File: return fileTypeToUString(subtype); case Types::File: return fileTypeToUString(subtype);
case Types::Section: return sectionTypeToUString(subtype); case Types::Section: return sectionTypeToUString(subtype);
case Types::NvarEntry: case Types::NvarEntry:
if (subtype == Subtypes::InvalidNvarEntry) return UString("Invalid"); if (subtype == Subtypes::InvalidNvarEntry) return UString("Invalid");
if (subtype == Subtypes::InvalidLinkNvarEntry) return UString("Invalid link"); if (subtype == Subtypes::InvalidLinkNvarEntry) return UString("Invalid link");
if (subtype == Subtypes::LinkNvarEntry) return UString("Link"); if (subtype == Subtypes::LinkNvarEntry) return UString("Link");
if (subtype == Subtypes::DataNvarEntry) return UString("Data"); if (subtype == Subtypes::DataNvarEntry) return UString("Data");
if (subtype == Subtypes::FullNvarEntry) return UString("Full"); if (subtype == Subtypes::FullNvarEntry) return UString("Full");
break; break;
case Types::VssEntry: case Types::VssEntry:
if (subtype == Subtypes::InvalidVssEntry) return UString("Invalid"); if (subtype == Subtypes::InvalidVssEntry) return UString("Invalid");
if (subtype == Subtypes::StandardVssEntry) return UString("Standard"); if (subtype == Subtypes::StandardVssEntry) return UString("Standard");
if (subtype == Subtypes::AppleVssEntry) return UString("Apple"); if (subtype == Subtypes::AppleVssEntry) return UString("Apple");
if (subtype == Subtypes::AuthVssEntry) return UString("Auth"); if (subtype == Subtypes::AuthVssEntry) return UString("Auth");
if (subtype == Subtypes::IntelVssEntry) return UString("Intel"); if (subtype == Subtypes::IntelVssEntry) return UString("Intel");
break; break;
case Types::FsysEntry: case Types::FsysEntry:
if (subtype == Subtypes::InvalidFsysEntry) return UString("Invalid"); if (subtype == Subtypes::InvalidFsysEntry) return UString("Invalid");
if (subtype == Subtypes::NormalFsysEntry) return UString("Normal"); if (subtype == Subtypes::NormalFsysEntry) return UString("Normal");
break; break;
case Types::EvsaEntry: case Types::EvsaEntry:
if (subtype == Subtypes::InvalidEvsaEntry) return UString("Invalid"); if (subtype == Subtypes::InvalidEvsaEntry) return UString("Invalid");
if (subtype == Subtypes::UnknownEvsaEntry) return UString("Unknown"); if (subtype == Subtypes::UnknownEvsaEntry) return UString("Unknown");
if (subtype == Subtypes::GuidEvsaEntry) return UString("GUID"); if (subtype == Subtypes::GuidEvsaEntry) return UString("GUID");
if (subtype == Subtypes::NameEvsaEntry) return UString("Name"); if (subtype == Subtypes::NameEvsaEntry) return UString("Name");
if (subtype == Subtypes::DataEvsaEntry) return UString("Data"); if (subtype == Subtypes::DataEvsaEntry) return UString("Data");
break; break;
case Types::FlashMapEntry: case Types::FlashMapEntry:
if (subtype == Subtypes::VolumeFlashMapEntry) return UString("Volume"); if (subtype == Subtypes::VolumeFlashMapEntry) return UString("Volume");
if (subtype == Subtypes::DataFlashMapEntry) return UString("Data"); if (subtype == Subtypes::DataFlashMapEntry) return UString("Data");
break; break;
case Types::Microcode: case Types::Microcode:
if (subtype == Subtypes::IntelMicrocode) return UString("Intel"); if (subtype == Subtypes::IntelMicrocode) return UString("Intel");
if (subtype == Subtypes::AmdMicrocode) return UString("AMD"); if (subtype == Subtypes::AmdMicrocode) return UString("AMD");
break; break;
// ME-specific // ME-specific
case Types::FptEntry: case Types::FptEntry:
if (subtype == Subtypes::ValidFptEntry) return UString("Valid"); if (subtype == Subtypes::ValidFptEntry) return UString("Valid");
if (subtype == Subtypes::InvalidFptEntry) return UString("Invalid"); if (subtype == Subtypes::InvalidFptEntry) return UString("Invalid");
break; break;
case Types::FptPartition: case Types::FptPartition:
if (subtype == Subtypes::CodeFptPartition) return UString("Code"); if (subtype == Subtypes::CodeFptPartition) return UString("Code");
if (subtype == Subtypes::DataFptPartition) return UString("Data"); if (subtype == Subtypes::DataFptPartition) return UString("Data");
if (subtype == Subtypes::GlutFptPartition) return UString("GLUT"); if (subtype == Subtypes::GlutFptPartition) return UString("GLUT");
break; break;
case Types::IfwiPartition: case Types::IfwiPartition:
if (subtype == Subtypes::BootIfwiPartition) return UString("Boot"); if (subtype == Subtypes::BootIfwiPartition) return UString("Boot");
if (subtype == Subtypes::DataIfwiPartition) return UString("Data"); if (subtype == Subtypes::DataIfwiPartition) return UString("Data");
break; break;
case Types::CpdPartition: case Types::CpdPartition:
if (subtype == Subtypes::ManifestCpdPartition) return UString("Manifest"); if (subtype == Subtypes::ManifestCpdPartition) return UString("Manifest");
if (subtype == Subtypes::MetadataCpdPartition) return UString("Metadata"); if (subtype == Subtypes::MetadataCpdPartition) return UString("Metadata");
if (subtype == Subtypes::KeyCpdPartition) return UString("Key"); if (subtype == Subtypes::KeyCpdPartition) return UString("Key");
if (subtype == Subtypes::CodeCpdPartition) return UString("Code"); if (subtype == Subtypes::CodeCpdPartition) return UString("Code");
break; break;
} }
return UString(); return UString();
} }
UString compressionTypeToUString(const UINT8 algorithm) UString compressionTypeToUString(const UINT8 algorithm)
{ {
switch (algorithm) { switch (algorithm) {
case COMPRESSION_ALGORITHM_NONE: return UString("None"); case COMPRESSION_ALGORITHM_NONE: return UString("None");
case COMPRESSION_ALGORITHM_EFI11: return UString("EFI 1.1"); case COMPRESSION_ALGORITHM_EFI11: return UString("EFI 1.1");
case COMPRESSION_ALGORITHM_TIANO: return UString("Tiano"); case COMPRESSION_ALGORITHM_TIANO: return UString("Tiano");
case COMPRESSION_ALGORITHM_UNDECIDED: return UString("Undecided Tiano/EFI 1.1"); case COMPRESSION_ALGORITHM_UNDECIDED: return UString("Undecided Tiano/EFI 1.1");
case COMPRESSION_ALGORITHM_LZMA: return UString("LZMA"); case COMPRESSION_ALGORITHM_LZMA: return UString("LZMA");
case COMPRESSION_ALGORITHM_LZMA_INTEL_LEGACY: return UString("Intel legacy LZMA"); case COMPRESSION_ALGORITHM_LZMA_INTEL_LEGACY: return UString("Intel legacy LZMA");
} }
return UString("Unknown"); return UString("Unknown");
} }
UString actionTypeToUString(const UINT8 action) UString actionTypeToUString(const UINT8 action)
{ {
switch (action) { switch (action) {
case Actions::NoAction: return UString(); case Actions::NoAction: return UString();
case Actions::Create: return UString("Create"); case Actions::Create: return UString("Create");
case Actions::Insert: return UString("Insert"); case Actions::Insert: return UString("Insert");
case Actions::Replace: return UString("Replace"); case Actions::Replace: return UString("Replace");
case Actions::Remove: return UString("Remove"); case Actions::Remove: return UString("Remove");
case Actions::Rebuild: return UString("Rebuild"); case Actions::Rebuild: return UString("Rebuild");
case Actions::Rebase: return UString("Rebase"); case Actions::Rebase: return UString("Rebase");
} }
return UString("Unknown"); return UString("Unknown");
} }
UString fitEntryTypeToUString(const UINT8 type) UString fitEntryTypeToUString(const UINT8 type)
{ {
switch (type & 0x7F) { switch (type & 0x7F) {
case FIT_TYPE_HEADER: return UString("FIT Header"); case FIT_TYPE_HEADER: return UString("FIT Header");
case FIT_TYPE_MICROCODE: return UString("Microcode"); case FIT_TYPE_MICROCODE: return UString("Microcode");
case FIT_TYPE_BIOS_AC_MODULE: return UString("BIOS ACM"); case FIT_TYPE_BIOS_AC_MODULE: return UString("BIOS ACM");
case FIT_TYPE_BIOS_INIT_MODULE: return UString("BIOS Init"); case FIT_TYPE_BIOS_INIT_MODULE: return UString("BIOS Init");
case FIT_TYPE_TPM_POLICY: return UString("TPM Policy"); case FIT_TYPE_TPM_POLICY: return UString("TPM Policy");
case FIT_TYPE_BIOS_POLICY_DATA: return UString("BIOS Policy Data"); case FIT_TYPE_BIOS_POLICY_DATA: return UString("BIOS Policy Data");
case FIT_TYPE_TXT_CONF_POLICY: return UString("TXT Configuration Policy"); case FIT_TYPE_TXT_CONF_POLICY: return UString("TXT Configuration Policy");
case FIT_TYPE_AC_KEY_MANIFEST: return UString("BootGuard Key Manifest"); case FIT_TYPE_AC_KEY_MANIFEST: return UString("BootGuard Key Manifest");
case FIT_TYPE_AC_BOOT_POLICY: return UString("BootGuard Boot Policy"); case FIT_TYPE_AC_BOOT_POLICY: return UString("BootGuard Boot Policy");
case FIT_TYPE_EMPTY: return UString("Empty"); case FIT_TYPE_EMPTY: return UString("Empty");
} }
return UString("Unknown"); return UString("Unknown");
} }

View File

@ -16,7 +16,6 @@ WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
// A workaround for compilers not supporting c++11 and c11 // A workaround for compilers not supporting c++11 and c11
// for using PRIX64. // for using PRIX64.
#define __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS
#include <inttypes.h> #include <inttypes.h>
#if defined(__clang__) || defined(__GNUC__) #if defined(__clang__) || defined(__GNUC__)

View File

@ -1,14 +1,14 @@
/* ustring.cpp /* ustring.cpp
Copyright (c) 2016, Nikolaj Schlej. All rights reserved. Copyright (c) 2016, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include "ustring.h" #include "ustring.h"
#include <stdarg.h> #include <stdarg.h>
@ -19,9 +19,9 @@ UString usprintf(const char* fmt, ...)
UString msg; UString msg;
va_list vl; va_list vl;
va_start(vl, fmt); va_start(vl, fmt);
msg = msg.vasprintf(fmt, vl); msg = msg.vasprintf(fmt, vl);
va_end(vl); va_end(vl);
return msg; return msg;
}; };
@ -37,16 +37,16 @@ UString urepeated(char c, int len)
#else #else
#ifdef BSTRLIB_NOVSNP #ifdef BSTRLIB_NOVSNP
/* This is just a hack. If you are using a system without a vsnprintf, it is /* This is just a hack. If you are using a system without a vsnprintf, it is
not recommended that bformat be used at all. */ not recommended that bformat be used at all. */
#define exvsnprintf(r,b,n,f,a) {vsprintf (b,f,a); r = -1;} #define exvsnprintf(r,b,n,f,a) {vsprintf (b,f,a); r = -1;}
#define START_VSNBUFF (256) #define START_VSNBUFF (256)
#else #else
#if defined (__GNUC__) && !defined (__PPC__) && !defined(__WIN32__) #if defined (__GNUC__) && !defined (__PPC__) && !defined(__WIN32__)
/* Something is making gcc complain about this prototype not being here, so /* Something is making gcc complain about this prototype not being here, so
I've just gone ahead and put it in. */ I've just gone ahead and put it in. */
extern "C" { extern "C" {
extern int vsnprintf(char *buf, size_t count, const char *format, va_list arg); extern int vsnprintf(char *buf, size_t count, const char *format, va_list arg);
} }
#endif #endif
@ -64,12 +64,12 @@ UString usprintf(const char* fmt, ...)
bstring b; bstring b;
va_list arglist; va_list arglist;
int r, n; int r, n;
if (fmt == NULL) { if (fmt == NULL) {
msg = "<NULL>"; msg = "<NULL>";
} }
else { else {
if ((b = bfromcstr("")) == NULL) { if ((b = bfromcstr("")) == NULL) {
msg = "<NULL>"; msg = "<NULL>";
} }
@ -80,14 +80,14 @@ UString usprintf(const char* fmt, ...)
b = bformat("<NULL>"); b = bformat("<NULL>");
break; break;
} }
va_start(arglist, fmt); va_start(arglist, fmt);
exvsnprintf(r, (char *)b->data, n + 1, fmt, arglist); exvsnprintf(r, (char *)b->data, n + 1, fmt, arglist);
va_end(arglist); va_end(arglist);
b->data[n] = '\0'; b->data[n] = '\0';
b->slen = (int)(strlen)((char *)b->data); b->slen = (int)(strlen)((char *)b->data);
if (b->slen < n) break; if (b->slen < n) break;
if (r > n) n = r; else n += n; if (r > n) n = r; else n += n;
} }
@ -95,7 +95,7 @@ UString usprintf(const char* fmt, ...)
bdestroy(b); bdestroy(b);
} }
} }
return msg; return msg;
} }

View File

@ -1,15 +1,15 @@
/* utility.cpp /* utility.cpp
Copyright (c) 2016, Nikolaj Schlej. All rights reserved. Copyright (c) 2016, Nikolaj Schlej. All rights reserved.
This program and the accompanying materials This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*/ */
#include <cstdio> #include <cstdio>
#include <cctype> #include <cctype>
@ -40,7 +40,7 @@ UString visibleAsciiOrHex(UINT8* bytes, UINT32 length)
break; break;
} }
} }
if (ascii) { if (ascii) {
// No need to continue iterating over every symbol, we did it already // No need to continue iterating over every symbol, we did it already
break; break;
@ -49,7 +49,7 @@ UString visibleAsciiOrHex(UINT8* bytes, UINT32 length)
else if (bytes[i] < '\x20' || bytes[i] > '\x7E') { // Explicit ascii codes to avoid locale dependency else if (bytes[i] < '\x20' || bytes[i] > '\x7E') { // Explicit ascii codes to avoid locale dependency
ascii = false; ascii = false;
} }
if (ascii) { if (ascii) {
asciiString += usprintf("%c", bytes[i]); asciiString += usprintf("%c", bytes[i]);
} }
@ -68,48 +68,48 @@ UString uniqueItemName(const UModelIndex & index)
// Sanity check // Sanity check
if (!index.isValid()) if (!index.isValid())
return UString("Invalid_index"); return UString("Invalid_index");
// Get model from index // Get model from index
const TreeModel* model = (const TreeModel*)index.model(); const TreeModel* model = (const TreeModel*)index.model();
// Construct the name // Construct the name
UString itemName = model->name(index); UString itemName = model->name(index);
UString itemText = model->text(index); UString itemText = model->text(index);
// Default name // Default name
UString name = itemName; UString name = itemName;
switch (model->type(index)) { switch (model->type(index)) {
case Types::NvarEntry: case Types::NvarEntry:
case Types::VssEntry: case Types::VssEntry:
case Types::FsysEntry: case Types::FsysEntry:
case Types::EvsaEntry: case Types::EvsaEntry:
case Types::FlashMapEntry: case Types::FlashMapEntry:
case Types::File: case Types::File:
name = itemText.isEmpty() ? itemName : itemName + '_' + itemText; name = itemText.isEmpty() ? itemName : itemName + '_' + itemText;
break; break;
case Types::Section: { case Types::Section: {
// Get parent file name // Get parent file name
UModelIndex fileIndex = model->findParentOfType(index, Types::File); UModelIndex fileIndex = model->findParentOfType(index, Types::File);
UString fileText = model->text(fileIndex); UString fileText = model->text(fileIndex);
name = fileText.isEmpty() ? model->name(fileIndex) : model->name(fileIndex) + '_' + fileText; name = fileText.isEmpty() ? model->name(fileIndex) : model->name(fileIndex) + '_' + fileText;
// Special case of GUIDed sections // Special case of GUIDed sections
if (model->subtype(index) == EFI_SECTION_GUID_DEFINED || model->subtype(index) == EFI_SECTION_FREEFORM_SUBTYPE_GUID) { if (model->subtype(index) == EFI_SECTION_GUID_DEFINED || model->subtype(index) == EFI_SECTION_FREEFORM_SUBTYPE_GUID) {
name = model->name(index) +'_' + name; name = model->name(index) +'_' + name;
} }
} break; } break;
} }
// Populate subtypeString // Populate subtypeString
UString subtypeString = itemSubtypeToUString(model->type(index), model->subtype(index)); UString subtypeString = itemSubtypeToUString(model->type(index), model->subtype(index));
// Create final name // Create final name
name = itemTypeToUString(model->type(index)) name = itemTypeToUString(model->type(index))
+ (subtypeString.length() ? ('_' + subtypeString) : UString()) + (subtypeString.length() ? ('_' + subtypeString) : UString())
+ '_' + name; + '_' + name;
fixFileName(name, true); fixFileName(name, true);
return name; return name;
} }
@ -127,10 +127,10 @@ void fixFileName(UString &name, bool replaceSpaces)
name[i] < (char)0x20 || // ASCII control characters, banned in Windows, hard to work with in *nix name[i] < (char)0x20 || // ASCII control characters, banned in Windows, hard to work with in *nix
name[i] > (char)0x7f || // high ASCII characters name[i] > (char)0x7f || // high ASCII characters
(replaceSpaces && name[i] == ' ') // Provides better readability (replaceSpaces && name[i] == ' ') // Provides better readability
) { ) {
name[i] = '_'; name[i] = '_';
continue; continue;
} }
for (size_t j = 0; j < sizeof(table); j++) { for (size_t j = 0; j < sizeof(table); j++) {
if (name[i] == table[j]) { if (name[i] == table[j]) {
name[i] = '_'; name[i] = '_';
@ -147,57 +147,57 @@ void fixFileName(UString &name, bool replaceSpaces)
UString errorCodeToUString(USTATUS errorCode) UString errorCodeToUString(USTATUS errorCode)
{ {
switch (errorCode) { switch (errorCode) {
case U_SUCCESS: return UString("Success"); case U_SUCCESS: return UString("Success");
case U_NOT_IMPLEMENTED: return UString("Not implemented"); case U_NOT_IMPLEMENTED: return UString("Not implemented");
case U_INVALID_PARAMETER: return UString("Function called with invalid parameter"); case U_INVALID_PARAMETER: return UString("Function called with invalid parameter");
case U_BUFFER_TOO_SMALL: return UString("Buffer too small"); case U_BUFFER_TOO_SMALL: return UString("Buffer too small");
case U_OUT_OF_RESOURCES: return UString("Out of resources"); case U_OUT_OF_RESOURCES: return UString("Out of resources");
case U_OUT_OF_MEMORY: return UString("Out of memory"); case U_OUT_OF_MEMORY: return UString("Out of memory");
case U_FILE_OPEN: return UString("File can't be opened"); case U_FILE_OPEN: return UString("File can't be opened");
case U_FILE_READ: return UString("File can't be read"); case U_FILE_READ: return UString("File can't be read");
case U_FILE_WRITE: return UString("File can't be written"); case U_FILE_WRITE: return UString("File can't be written");
case U_ITEM_NOT_FOUND: return UString("Item not found"); case U_ITEM_NOT_FOUND: return UString("Item not found");
case U_UNKNOWN_ITEM_TYPE: return UString("Unknown item type"); case U_UNKNOWN_ITEM_TYPE: return UString("Unknown item type");
case U_INVALID_FLASH_DESCRIPTOR: return UString("Invalid flash descriptor"); case U_INVALID_FLASH_DESCRIPTOR: return UString("Invalid flash descriptor");
case U_INVALID_REGION: return UString("Invalid region"); case U_INVALID_REGION: return UString("Invalid region");
case U_EMPTY_REGION: return UString("Empty region"); case U_EMPTY_REGION: return UString("Empty region");
case U_BIOS_REGION_NOT_FOUND: return UString("BIOS region not found"); case U_BIOS_REGION_NOT_FOUND: return UString("BIOS region not found");
case U_VOLUMES_NOT_FOUND: return UString("UEFI volumes not found"); case U_VOLUMES_NOT_FOUND: return UString("UEFI volumes not found");
case U_INVALID_VOLUME: return UString("Invalid UEFI volume"); case U_INVALID_VOLUME: return UString("Invalid UEFI volume");
case U_VOLUME_REVISION_NOT_SUPPORTED: return UString("Volume revision not supported"); case U_VOLUME_REVISION_NOT_SUPPORTED: return UString("Volume revision not supported");
//case U_VOLUME_GROW_FAILED: return UString("Volume grow failed"); //case U_VOLUME_GROW_FAILED: return UString("Volume grow failed");
case U_UNKNOWN_FFS: return UString("Unknown file system"); case U_UNKNOWN_FFS: return UString("Unknown file system");
case U_INVALID_FILE: return UString("Invalid file"); case U_INVALID_FILE: return UString("Invalid file");
case U_INVALID_SECTION: return UString("Invalid section"); case U_INVALID_SECTION: return UString("Invalid section");
case U_UNKNOWN_SECTION: return UString("Unknown section"); case U_UNKNOWN_SECTION: return UString("Unknown section");
case U_STANDARD_COMPRESSION_FAILED: return UString("Standard compression failed"); case U_STANDARD_COMPRESSION_FAILED: return UString("Standard compression failed");
case U_CUSTOMIZED_COMPRESSION_FAILED: return UString("Customized compression failed"); case U_CUSTOMIZED_COMPRESSION_FAILED: return UString("Customized compression failed");
case U_STANDARD_DECOMPRESSION_FAILED: return UString("Standard decompression failed"); case U_STANDARD_DECOMPRESSION_FAILED: return UString("Standard decompression failed");
case U_CUSTOMIZED_DECOMPRESSION_FAILED: return UString("Customized decompression failed"); case U_CUSTOMIZED_DECOMPRESSION_FAILED: return UString("Customized decompression failed");
case U_UNKNOWN_COMPRESSION_TYPE: return UString("Unknown compression type"); case U_UNKNOWN_COMPRESSION_TYPE: return UString("Unknown compression type");
case U_UNKNOWN_EXTRACT_MODE: return UString("Unknown extract mode"); case U_UNKNOWN_EXTRACT_MODE: return UString("Unknown extract mode");
case U_UNKNOWN_REPLACE_MODE: return UString("Unknown replace mode"); case U_UNKNOWN_REPLACE_MODE: return UString("Unknown replace mode");
//case U_UNKNOWN_INSERT_MODE: return UString("Unknown insert mode"); //case U_UNKNOWN_INSERT_MODE: return UString("Unknown insert mode");
case U_UNKNOWN_IMAGE_TYPE: return UString("Unknown executable image type"); case U_UNKNOWN_IMAGE_TYPE: return UString("Unknown executable image type");
case U_UNKNOWN_PE_OPTIONAL_HEADER_TYPE: return UString("Unknown PE optional header type"); case U_UNKNOWN_PE_OPTIONAL_HEADER_TYPE: return UString("Unknown PE optional header type");
case U_UNKNOWN_RELOCATION_TYPE: return UString("Unknown relocation type"); case U_UNKNOWN_RELOCATION_TYPE: return UString("Unknown relocation type");
//case U_GENERIC_CALL_NOT_SUPPORTED: return UString("Generic call not supported"); //case U_GENERIC_CALL_NOT_SUPPORTED: return UString("Generic call not supported");
//case U_VOLUME_BASE_NOT_FOUND: return UString("Volume base address not found"); //case U_VOLUME_BASE_NOT_FOUND: return UString("Volume base address not found");
//case U_PEI_CORE_ENTRY_POINT_NOT_FOUND: return UString("PEI core entry point not found"); //case U_PEI_CORE_ENTRY_POINT_NOT_FOUND: return UString("PEI core entry point not found");
case U_COMPLEX_BLOCK_MAP: return UString("Block map structure too complex for correct analysis"); case U_COMPLEX_BLOCK_MAP: return UString("Block map structure too complex for correct analysis");
case U_DIR_ALREADY_EXIST: return UString("Directory already exists"); case U_DIR_ALREADY_EXIST: return UString("Directory already exists");
case U_DIR_CREATE: return UString("Directory can't be created"); case U_DIR_CREATE: return UString("Directory can't be created");
case U_DIR_CHANGE: return UString("Change directory failed"); case U_DIR_CHANGE: return UString("Change directory failed");
//case U_UNKNOWN_PATCH_TYPE: return UString("Unknown patch type"); //case U_UNKNOWN_PATCH_TYPE: return UString("Unknown patch type");
//case U_PATCH_OFFSET_OUT_OF_BOUNDS: return UString("Patch offset out of bounds"); //case U_PATCH_OFFSET_OUT_OF_BOUNDS: return UString("Patch offset out of bounds");
//case U_INVALID_SYMBOL: return UString("Invalid symbol"); //case U_INVALID_SYMBOL: return UString("Invalid symbol");
//case U_NOTHING_TO_PATCH: return UString("Nothing to patch"); //case U_NOTHING_TO_PATCH: return UString("Nothing to patch");
case U_DEPEX_PARSE_FAILED: return UString("Dependency expression parsing failed"); case U_DEPEX_PARSE_FAILED: return UString("Dependency expression parsing failed");
case U_TRUNCATED_IMAGE: return UString("Image is truncated"); case U_TRUNCATED_IMAGE: return UString("Image is truncated");
case U_INVALID_CAPSULE: return UString("Invalid capsule"); case U_INVALID_CAPSULE: return UString("Invalid capsule");
case U_STORES_NOT_FOUND: return UString("Stores not found"); case U_STORES_NOT_FOUND: return UString("Stores not found");
case U_INVALID_STORE_SIZE: return UString("Invalid store size"); case U_INVALID_STORE_SIZE: return UString("Invalid store size");
default: return usprintf("Unknown error %02lX", errorCode); default: return usprintf("Unknown error %02lX", errorCode);
} }
} }
@ -212,169 +212,169 @@ USTATUS decompress(const UByteArray & compressedData, const UINT8 compressionTyp
UINT8* scratch; UINT8* scratch;
UINT32 scratchSize = 0; UINT32 scratchSize = 0;
const EFI_TIANO_HEADER* header; const EFI_TIANO_HEADER* header;
// For all but LZMA dictionary size is 0 // For all but LZMA dictionary size is 0
dictionarySize = 0; dictionarySize = 0;
switch (compressionType) switch (compressionType)
{ {
case EFI_NOT_COMPRESSED: { case EFI_NOT_COMPRESSED: {
decompressedData = compressedData; decompressedData = compressedData;
algorithm = COMPRESSION_ALGORITHM_NONE; algorithm = COMPRESSION_ALGORITHM_NONE;
return U_SUCCESS; return U_SUCCESS;
} }
case EFI_STANDARD_COMPRESSION: { case EFI_STANDARD_COMPRESSION: {
// Set default algorithm to unknown // Set default algorithm to unknown
algorithm = COMPRESSION_ALGORITHM_UNKNOWN; algorithm = COMPRESSION_ALGORITHM_UNKNOWN;
// Get buffer sizes // Get buffer sizes
data = (UINT8*)compressedData.data(); data = (UINT8*)compressedData.data();
dataSize = (UINT32)compressedData.size(); dataSize = (UINT32)compressedData.size();
// Check header to be valid // Check header to be valid
header = (const EFI_TIANO_HEADER*)data; header = (const EFI_TIANO_HEADER*)data;
if (header->CompSize + sizeof(EFI_TIANO_HEADER) != dataSize) if (header->CompSize + sizeof(EFI_TIANO_HEADER) != dataSize)
return U_STANDARD_DECOMPRESSION_FAILED; return U_STANDARD_DECOMPRESSION_FAILED;
// Get info function is the same for both algorithms // Get info function is the same for both algorithms
if (U_SUCCESS != EfiTianoGetInfo(data, dataSize, &decompressedSize, &scratchSize)) if (U_SUCCESS != EfiTianoGetInfo(data, dataSize, &decompressedSize, &scratchSize))
return U_STANDARD_DECOMPRESSION_FAILED; return U_STANDARD_DECOMPRESSION_FAILED;
// Allocate memory // Allocate memory
decompressed = (UINT8*)malloc(decompressedSize); decompressed = (UINT8*)malloc(decompressedSize);
efiDecompressed = (UINT8*)malloc(decompressedSize); efiDecompressed = (UINT8*)malloc(decompressedSize);
scratch = (UINT8*)malloc(scratchSize); scratch = (UINT8*)malloc(scratchSize);
if (!decompressed || !efiDecompressed || !scratch) { if (!decompressed || !efiDecompressed || !scratch) {
free(decompressed);
free(efiDecompressed);
free(scratch);
return U_STANDARD_DECOMPRESSION_FAILED;
}
// Decompress section data using both algorithms
USTATUS result = U_SUCCESS;
// Try Tiano
USTATUS TianoResult = TianoDecompress(data, dataSize, decompressed, decompressedSize, scratch, scratchSize);
// Try EFI 1.1
USTATUS EfiResult = EfiDecompress(data, dataSize, efiDecompressed, decompressedSize, scratch, scratchSize);
if (decompressedSize > INT32_MAX) {
result = U_STANDARD_DECOMPRESSION_FAILED;
}
else if (EfiResult == U_SUCCESS && TianoResult == U_SUCCESS) { // Both decompressions are OK
algorithm = COMPRESSION_ALGORITHM_UNDECIDED;
decompressedData = UByteArray((const char*)decompressed, (int)decompressedSize);
efiDecompressedData = UByteArray((const char*)efiDecompressed, (int)decompressedSize);
}
else if (TianoResult == U_SUCCESS) { // Only Tiano is OK
algorithm = COMPRESSION_ALGORITHM_TIANO;
decompressedData = UByteArray((const char*)decompressed, (int)decompressedSize);
}
else if (EfiResult == U_SUCCESS) { // Only EFI 1.1 is OK
algorithm = COMPRESSION_ALGORITHM_EFI11;
decompressedData = UByteArray((const char*)efiDecompressed, (int)decompressedSize);
}
else { // Both decompressions failed
result = U_STANDARD_DECOMPRESSION_FAILED;
}
free(decompressed); free(decompressed);
free(efiDecompressed); free(efiDecompressed);
free(scratch); free(scratch);
return U_STANDARD_DECOMPRESSION_FAILED; return result;
} }
case EFI_CUSTOMIZED_COMPRESSION: {
// Decompress section data using both algorithms // Set default algorithm to unknown
USTATUS result = U_SUCCESS; algorithm = COMPRESSION_ALGORITHM_UNKNOWN;
// Try Tiano
USTATUS TianoResult = TianoDecompress(data, dataSize, decompressed, decompressedSize, scratch, scratchSize); // Get buffer sizes
// Try EFI 1.1 data = (const UINT8*)compressedData.constData();
USTATUS EfiResult = EfiDecompress(data, dataSize, efiDecompressed, decompressedSize, scratch, scratchSize); dataSize = (UINT32)compressedData.size();
if (decompressedSize > INT32_MAX) { // Get info as normal LZMA section
result = U_STANDARD_DECOMPRESSION_FAILED; if (U_SUCCESS != LzmaGetInfo(data, dataSize, &decompressedSize)) {
} // Get info as Intel legacy LZMA section
else if (EfiResult == U_SUCCESS && TianoResult == U_SUCCESS) { // Both decompressions are OK data += sizeof(UINT32);
algorithm = COMPRESSION_ALGORITHM_UNDECIDED; if (U_SUCCESS != LzmaGetInfo(data, dataSize, &decompressedSize)) {
return U_CUSTOMIZED_DECOMPRESSION_FAILED;
}
else {
algorithm = COMPRESSION_ALGORITHM_LZMA_INTEL_LEGACY;
}
}
else {
algorithm = COMPRESSION_ALGORITHM_LZMA;
}
// Allocate memory
decompressed = (UINT8*)malloc(decompressedSize);
if (!decompressed) {
return U_OUT_OF_MEMORY;
}
// Decompress section data
if (U_SUCCESS != LzmaDecompress(data, dataSize, decompressed)) {
free(decompressed);
return U_CUSTOMIZED_DECOMPRESSION_FAILED;
}
if (decompressedSize > INT32_MAX) {
free(decompressed);
return U_CUSTOMIZED_DECOMPRESSION_FAILED;
}
dictionarySize = readUnaligned((UINT32*)(data + 1)); // LZMA dictionary size is stored in bytes 1-4 of LZMA properties header
decompressedData = UByteArray((const char*)decompressed, (int)decompressedSize); decompressedData = UByteArray((const char*)decompressed, (int)decompressedSize);
efiDecompressedData = UByteArray((const char*)efiDecompressed, (int)decompressedSize); free(decompressed);
return U_SUCCESS;
} }
else if (TianoResult == U_SUCCESS) { // Only Tiano is OK case EFI_CUSTOMIZED_COMPRESSION_LZMAF86: {
algorithm = COMPRESSION_ALGORITHM_TIANO; // Set default algorithm to unknown
decompressedData = UByteArray((const char*)decompressed, (int)decompressedSize); algorithm = COMPRESSION_ALGORITHM_UNKNOWN;
}
else if (EfiResult == U_SUCCESS) { // Only EFI 1.1 is OK // Get buffer sizes
algorithm = COMPRESSION_ALGORITHM_EFI11; data = (const UINT8*)compressedData.constData();
decompressedData = UByteArray((const char*)efiDecompressed, (int)decompressedSize); dataSize = (UINT32)compressedData.size();
}
else { // Both decompressions failed // Get info as normal LZMA section
result = U_STANDARD_DECOMPRESSION_FAILED;
}
free(decompressed);
free(efiDecompressed);
free(scratch);
return result;
}
case EFI_CUSTOMIZED_COMPRESSION: {
// Set default algorithm to unknown
algorithm = COMPRESSION_ALGORITHM_UNKNOWN;
// Get buffer sizes
data = (const UINT8*)compressedData.constData();
dataSize = (UINT32)compressedData.size();
// Get info as normal LZMA section
if (U_SUCCESS != LzmaGetInfo(data, dataSize, &decompressedSize)) {
// Get info as Intel legacy LZMA section
data += sizeof(UINT32);
if (U_SUCCESS != LzmaGetInfo(data, dataSize, &decompressedSize)) { if (U_SUCCESS != LzmaGetInfo(data, dataSize, &decompressedSize)) {
return U_CUSTOMIZED_DECOMPRESSION_FAILED; return U_CUSTOMIZED_DECOMPRESSION_FAILED;
} }
else { algorithm = COMPRESSION_ALGORITHM_LZMAF86;
algorithm = COMPRESSION_ALGORITHM_LZMA_INTEL_LEGACY;
// Allocate memory
decompressed = (UINT8*)malloc(decompressedSize);
if (!decompressed) {
return U_OUT_OF_MEMORY;
} }
}
else { // Decompress section data
algorithm = COMPRESSION_ALGORITHM_LZMA; if (U_SUCCESS != LzmaDecompress(data, dataSize, decompressed)) {
} free(decompressed);
return U_CUSTOMIZED_DECOMPRESSION_FAILED;
// Allocate memory }
decompressed = (UINT8*)malloc(decompressedSize);
if (!decompressed) { if (decompressedSize > INT32_MAX) {
return U_OUT_OF_MEMORY; free(decompressed);
} return U_CUSTOMIZED_DECOMPRESSION_FAILED;
}
// Decompress section data
if (U_SUCCESS != LzmaDecompress(data, dataSize, decompressed)) { // After LZMA decompression, the data need to be converted to the raw data.
UINT32 state = 0;
const UINT8 x86LookAhead = 4;
if (decompressedSize != x86LookAhead + x86_Convert(decompressed, decompressedSize, 0, &state, 0)) {
free(decompressed);
return U_CUSTOMIZED_DECOMPRESSION_FAILED;
}
dictionarySize = readUnaligned((UINT32*)(data + 1)); // LZMA dictionary size is stored in bytes 1-4 of LZMA properties header
decompressedData = UByteArray((const char*)decompressed, (int)decompressedSize);
free(decompressed); free(decompressed);
return U_CUSTOMIZED_DECOMPRESSION_FAILED; return U_SUCCESS;
} }
default: {
if (decompressedSize > INT32_MAX) { algorithm = COMPRESSION_ALGORITHM_UNKNOWN;
free(decompressed); return U_UNKNOWN_COMPRESSION_TYPE;
return U_CUSTOMIZED_DECOMPRESSION_FAILED;
}
dictionarySize = readUnaligned((UINT32*)(data + 1)); // LZMA dictionary size is stored in bytes 1-4 of LZMA properties header
decompressedData = UByteArray((const char*)decompressed, (int)decompressedSize);
free(decompressed);
return U_SUCCESS;
}
case EFI_CUSTOMIZED_COMPRESSION_LZMAF86: {
// Set default algorithm to unknown
algorithm = COMPRESSION_ALGORITHM_UNKNOWN;
// Get buffer sizes
data = (const UINT8*)compressedData.constData();
dataSize = (UINT32)compressedData.size();
// Get info as normal LZMA section
if (U_SUCCESS != LzmaGetInfo(data, dataSize, &decompressedSize)) {
return U_CUSTOMIZED_DECOMPRESSION_FAILED;
}
algorithm = COMPRESSION_ALGORITHM_LZMAF86;
// Allocate memory
decompressed = (UINT8*)malloc(decompressedSize);
if (!decompressed) {
return U_OUT_OF_MEMORY;
}
// Decompress section data
if (U_SUCCESS != LzmaDecompress(data, dataSize, decompressed)) {
free(decompressed);
return U_CUSTOMIZED_DECOMPRESSION_FAILED;
}
if (decompressedSize > INT32_MAX) {
free(decompressed);
return U_CUSTOMIZED_DECOMPRESSION_FAILED;
}
// After LZMA decompression, the data need to be converted to the raw data.
UINT32 state = 0;
const UINT8 x86LookAhead = 4;
if (decompressedSize != x86LookAhead + x86_Convert(decompressed, decompressedSize, 0, &state, 0)) {
free(decompressed);
return U_CUSTOMIZED_DECOMPRESSION_FAILED;
}
dictionarySize = readUnaligned((UINT32*)(data + 1)); // LZMA dictionary size is stored in bytes 1-4 of LZMA properties header
decompressedData = UByteArray((const char*)decompressed, (int)decompressedSize);
free(decompressed);
return U_SUCCESS;
}
default: {
algorithm = COMPRESSION_ALGORITHM_UNKNOWN;
return U_UNKNOWN_COMPRESSION_TYPE;
} }
} }
} }
@ -386,12 +386,12 @@ UINT8 calculateSum8(const UINT8* buffer, UINT32 bufferSize)
{ {
if (!buffer) if (!buffer)
return 0; return 0;
UINT8 counter = 0; UINT8 counter = 0;
while (bufferSize--) while (bufferSize--)
counter += buffer[bufferSize]; counter += buffer[bufferSize];
return counter; return counter;
} }
@ -400,7 +400,7 @@ UINT8 calculateChecksum8(const UINT8* buffer, UINT32 bufferSize)
{ {
if (!buffer) if (!buffer)
return 0; return 0;
return (UINT8)(0x100U - calculateSum8(buffer, bufferSize)); return (UINT8)(0x100U - calculateSum8(buffer, bufferSize));
} }
@ -409,16 +409,16 @@ UINT16 calculateChecksum16(const UINT16* buffer, UINT32 bufferSize)
{ {
if (!buffer) if (!buffer)
return 0; return 0;
UINT16 counter = 0; UINT16 counter = 0;
UINT32 index = 0; UINT32 index = 0;
bufferSize /= sizeof(UINT16); bufferSize /= sizeof(UINT16);
for (; index < bufferSize; index++) { for (; index < bufferSize; index++) {
counter = (UINT16)(counter + buffer[index]); counter = (UINT16)(counter + buffer[index]);
} }
return (UINT16)(0x10000 - counter); return (UINT16)(0x10000 - counter);
} }
@ -462,11 +462,11 @@ static inline int char2hex(char c)
} }
INTN findPattern(const UINT8 *pattern, const UINT8 *patternMask, UINTN patternSize, INTN findPattern(const UINT8 *pattern, const UINT8 *patternMask, UINTN patternSize,
const UINT8 *data, UINTN dataSize, UINTN dataOff) const UINT8 *data, UINTN dataSize, UINTN dataOff)
{ {
if (patternSize == 0 || dataSize == 0 || dataOff >= dataSize || dataSize - dataOff < patternSize) if (patternSize == 0 || dataSize == 0 || dataOff >= dataSize || dataSize - dataOff < patternSize)
return -1; return -1;
while (dataOff + patternSize < dataSize) { while (dataOff + patternSize < dataSize) {
BOOLEAN matches = TRUE; BOOLEAN matches = TRUE;
for (UINTN i = 0; i < patternSize; i++) { for (UINTN i = 0; i < patternSize; i++) {
@ -475,78 +475,78 @@ INTN findPattern(const UINT8 *pattern, const UINT8 *patternMask, UINTN patternSi
break; break;
} }
} }
if (matches) if (matches)
return static_cast<INTN>(dataOff); return static_cast<INTN>(dataOff);
dataOff++; dataOff++;
} }
return -1; return -1;
} }
BOOLEAN makePattern(const CHAR8 *textPattern, std::vector<UINT8> &pattern, std::vector<UINT8> &patternMask) BOOLEAN makePattern(const CHAR8 *textPattern, std::vector<UINT8> &pattern, std::vector<UINT8> &patternMask)
{ {
UINTN len = std::strlen(textPattern); UINTN len = std::strlen(textPattern);
if (len == 0 || len % 2 != 0) if (len == 0 || len % 2 != 0)
return FALSE; return FALSE;
len /= 2; len /= 2;
pattern.resize(len); pattern.resize(len);
patternMask.resize(len); patternMask.resize(len);
for (UINTN i = 0; i < len; i++) { for (UINTN i = 0; i < len; i++) {
int v1 = char2hex(std::toupper(textPattern[i * 2])); int v1 = char2hex(std::toupper(textPattern[i * 2]));
int v2 = char2hex(std::toupper(textPattern[i * 2 + 1])); int v2 = char2hex(std::toupper(textPattern[i * 2 + 1]));
if (v1 == -1 || v2 == -1) if (v1 == -1 || v2 == -1)
return FALSE; return FALSE;
if (v1 != -2) { if (v1 != -2) {
patternMask[i] = 0xF0; patternMask[i] = 0xF0;
pattern[i] = static_cast<UINT8>(v1) << 4; pattern[i] = static_cast<UINT8>(v1) << 4;
} }
if (v2 != -2) { if (v2 != -2) {
patternMask[i] |= 0x0F; patternMask[i] |= 0x0F;
pattern[i] |= static_cast<UINT8>(v2); pattern[i] |= static_cast<UINT8>(v2);
} }
} }
return TRUE; return TRUE;
} }
USTATUS gzipDecompress(const UByteArray & input, UByteArray & output) USTATUS gzipDecompress(const UByteArray & input, UByteArray & output)
{ {
output.clear(); output.clear();
if (input.size() == 0) if (input.size() == 0)
return U_SUCCESS; return U_SUCCESS;
z_stream stream; z_stream stream;
stream.next_in = (z_const Bytef *)input.data(); stream.next_in = (z_const Bytef *)input.data();
stream.avail_in = (uInt)input.size(); stream.avail_in = (uInt)input.size();
stream.zalloc = Z_NULL; stream.zalloc = Z_NULL;
stream.zfree = Z_NULL; stream.zfree = Z_NULL;
stream.opaque = Z_NULL; stream.opaque = Z_NULL;
// 15 for the maximum history buffer, 16 for gzip only input. // 15 for the maximum history buffer, 16 for gzip only input.
int ret = inflateInit2(&stream, 15U | 16U); int ret = inflateInit2(&stream, 15U | 16U);
if (ret != Z_OK) if (ret != Z_OK)
return U_GZIP_DECOMPRESSION_FAILED; return U_GZIP_DECOMPRESSION_FAILED;
while (ret == Z_OK) { while (ret == Z_OK) {
Bytef out[4096]; Bytef out[4096];
stream.next_out = out; stream.next_out = out;
stream.avail_out = sizeof(out); stream.avail_out = sizeof(out);
ret = inflate(&stream, Z_NO_FLUSH); ret = inflate(&stream, Z_NO_FLUSH);
if ((ret == Z_OK || ret == Z_STREAM_END) && stream.avail_out != sizeof(out)) if ((ret == Z_OK || ret == Z_STREAM_END) && stream.avail_out != sizeof(out))
output += UByteArray((char *)out, sizeof(out) - stream.avail_out); output += UByteArray((char *)out, sizeof(out) - stream.avail_out);
} }
inflateEnd(&stream); inflateEnd(&stream);
return ret == Z_STREAM_END ? U_SUCCESS : U_GZIP_DECOMPRESSION_FAILED; return ret == Z_STREAM_END ? U_SUCCESS : U_GZIP_DECOMPRESSION_FAILED;
} }