// Copyright 2018 Dolphin Emulator Project // SPDX-License-Identifier: GPL-2.0-or-later #include "DolphinQt/Debugger/MemoryWidget.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "Common/BitUtils.h" #include "Common/FileUtil.h" #include "Common/IOFile.h" #include "Core/ConfigManager.h" #include "Core/Core.h" #include "Core/HW/AddressSpace.h" #include "Core/System.h" #include "DolphinQt/Debugger/MemoryViewWidget.h" #include "DolphinQt/Host.h" #include "DolphinQt/QtUtils/ModalMessageBox.h" #include "DolphinQt/Settings.h" using Type = MemoryViewWidget::Type; MemoryWidget::MemoryWidget(Core::System& system, QWidget* parent) : QDockWidget(parent), m_system(system) { setWindowTitle(tr("Memory")); setObjectName(QStringLiteral("memory")); setHidden(!Settings::Instance().IsMemoryVisible() || !Settings::Instance().IsDebugModeEnabled()); setAllowedAreas(Qt::AllDockWidgetAreas); CreateWidgets(); QSettings& settings = Settings::GetQSettings(); restoreGeometry(settings.value(QStringLiteral("memorywidget/geometry")).toByteArray()); // macOS: setHidden() needs to be evaluated before setFloating() for proper window presentation // according to Settings setFloating(settings.value(QStringLiteral("memorywidget/floating")).toBool()); m_splitter->restoreState(settings.value(QStringLiteral("codewidget/splitter")).toByteArray()); connect(&Settings::Instance(), &Settings::MemoryVisibilityChanged, this, [this](bool visible) { setHidden(!visible); }); connect(&Settings::Instance(), &Settings::DebugModeToggled, this, [this](bool enabled) { setHidden(!enabled || !Settings::Instance().IsMemoryVisible()); }); connect(&Settings::Instance(), &Settings::EmulationStateChanged, this, &MemoryWidget::Update); connect(Host::GetInstance(), &Host::UpdateDisasmDialog, this, &MemoryWidget::Update); LoadSettings(); ConnectWidgets(); OnAddressSpaceChanged(); OnDisplayChanged(); } MemoryWidget::~MemoryWidget() { QSettings& settings = Settings::GetQSettings(); settings.setValue(QStringLiteral("memorywidget/geometry"), saveGeometry()); settings.setValue(QStringLiteral("memorywidget/floating"), isFloating()); settings.setValue(QStringLiteral("memorywidget/splitter"), m_splitter->saveState()); SaveSettings(); } void MemoryWidget::CreateWidgets() { auto* layout = new QHBoxLayout; layout->setContentsMargins(2, 2, 2, 2); layout->setSpacing(0); //// Sidebar // Search auto* m_address_splitter = new QSplitter(Qt::Horizontal); m_search_address = new QComboBox; m_search_address->setInsertPolicy(QComboBox::InsertAtTop); m_search_address->setDuplicatesEnabled(false); m_search_address->setEditable(true); m_search_address->setMaxVisibleItems(8); m_search_offset = new QLineEdit; m_search_offset->setMaxLength(9); m_search_address->setPlaceholderText(tr("Search Address")); m_search_offset->setPlaceholderText(tr("Offset")); m_address_splitter->addWidget(m_search_address); m_address_splitter->addWidget(m_search_offset); m_address_splitter->setHandleWidth(1); m_address_splitter->setCollapsible(0, false); m_address_splitter->setStretchFactor(1, 2); auto* input_layout = new QHBoxLayout; m_data_edit = new QLineEdit; m_base_check = new QCheckBox(tr("Hex")); m_set_value = new QPushButton(tr("Set &Value")); m_data_preview = new QLabel; m_base_check->setLayoutDirection(Qt::RightToLeft); m_data_edit->setPlaceholderText(tr("Value")); m_data_preview->setBackgroundRole(QPalette::AlternateBase); m_data_preview->setAutoFillBackground(true); input_layout->addWidget(m_data_edit); input_layout->addWidget(m_base_check); // Input types m_input_combo = new QComboBox; m_input_combo->setMaxVisibleItems(20); // Order here determines combo list order. m_input_combo->addItem(tr("Hex Byte String"), int(Type::HexString)); m_input_combo->addItem(tr("ASCII"), int(Type::ASCII)); m_input_combo->addItem(tr("Float"), int(Type::Float32)); m_input_combo->addItem(tr("Double"), int(Type::Double)); m_input_combo->addItem(tr("Unsigned 8"), int(Type::Unsigned8)); m_input_combo->addItem(tr("Unsigned 16"), int(Type::Unsigned16)); m_input_combo->addItem(tr("Unsigned 32"), int(Type::Unsigned32)); m_input_combo->addItem(tr("Signed 8"), int(Type::Signed8)); m_input_combo->addItem(tr("Signed 16"), int(Type::Signed16)); m_input_combo->addItem(tr("Signed 32"), int(Type::Signed32)); // Search Options auto* search_group = new QGroupBox(tr("Search")); auto* search_layout = new QVBoxLayout; search_group->setLayout(search_layout); m_find_next = new QPushButton(tr("Find &Next")); m_find_previous = new QPushButton(tr("Find &Previous")); m_result_label = new QLabel; search_layout->addWidget(m_find_next); search_layout->addWidget(m_find_previous); search_layout->addWidget(m_result_label); search_layout->setSpacing(1); // Address Space auto* address_space_group = new QGroupBox(tr("Address Space")); auto* address_space_layout = new QVBoxLayout; address_space_group->setLayout(address_space_layout); // i18n: One of the options shown below "Address Space". "Effective" addresses are the addresses // used directly by the CPU and may be subject to translation via the MMU to physical addresses. m_address_space_effective = new QRadioButton(tr("Effective")); // i18n: One of the options shown below "Address Space". "Auxiliary" is the address space of ARAM // (Auxiliary RAM). m_address_space_auxiliary = new QRadioButton(tr("Auxiliary")); // i18n: One of the options shown below "Address Space". "Physical" is the address space that // reflects how devices (e.g. RAM) is physically wired up. m_address_space_physical = new QRadioButton(tr("Physical")); address_space_layout->addWidget(m_address_space_effective); address_space_layout->addWidget(m_address_space_auxiliary); address_space_layout->addWidget(m_address_space_physical); address_space_layout->setSpacing(1); // Data Type auto* displaytype_group = new QGroupBox(tr("Display Type")); auto* displaytype_layout = new QVBoxLayout; displaytype_group->setLayout(displaytype_layout); m_display_combo = new QComboBox; m_display_combo->setMaxVisibleItems(20); m_display_combo->addItem(tr("Hex 8"), int(Type::Hex8)); m_display_combo->addItem(tr("Hex 16"), int(Type::Hex16)); m_display_combo->addItem(tr("Hex 32"), int(Type::Hex32)); m_display_combo->addItem(tr("Unsigned 8"), int(Type::Unsigned8)); m_display_combo->addItem(tr("Unsigned 16"), int(Type::Unsigned16)); m_display_combo->addItem(tr("Unsigned 32"), int(Type::Unsigned32)); m_display_combo->addItem(tr("Signed 8"), int(Type::Signed8)); m_display_combo->addItem(tr("Signed 16"), int(Type::Signed16)); m_display_combo->addItem(tr("Signed 32"), int(Type::Signed32)); m_display_combo->addItem(tr("ASCII"), int(Type::ASCII)); m_display_combo->addItem(tr("Float"), int(Type::Float32)); m_display_combo->addItem(tr("Double"), int(Type::Double)); m_align_combo = new QComboBox; // i18n: "Fixed" here means that the alignment is always the same m_align_combo->addItem(tr("Fixed Alignment")); m_align_combo->addItem(tr("Type-based Alignment"), 0); m_align_combo->addItem(tr("No Alignment"), 1); m_row_length_combo = new QComboBox; m_row_length_combo->addItem(tr("4 Bytes"), 4); m_row_length_combo->addItem(tr("8 Bytes"), 8); m_row_length_combo->addItem(tr("16 Bytes"), 16); m_row_length_combo->setCurrentIndex(2); m_dual_check = new QCheckBox(tr("Dual View")); displaytype_layout->addWidget(m_display_combo); displaytype_layout->addWidget(m_align_combo); displaytype_layout->addWidget(m_row_length_combo); displaytype_layout->addWidget(m_dual_check); // MBP options auto* bp_group = new QGroupBox(tr("Memory breakpoint options")); auto* bp_layout = new QVBoxLayout; bp_group->setLayout(bp_layout); // i18n: This string is used for a radio button that represents the type of // memory breakpoint that gets triggered when a read operation or write operation occurs. // The string is not a command to read and write something or to allow reading and writing. m_bp_read_write = new QRadioButton(tr("Read and write")); // i18n: This string is used for a radio button that represents the type of // memory breakpoint that gets triggered when a read operation occurs. // The string does not mean "read-only" in the sense that something cannot be written to. m_bp_read_only = new QRadioButton(tr("Read only")); // i18n: This string is used for a radio button that represents the type of // memory breakpoint that gets triggered when a write operation occurs. // The string does not mean "write-only" in the sense that something cannot be read from. m_bp_write_only = new QRadioButton(tr("Write only")); m_bp_log_check = new QCheckBox(tr("Log")); bp_layout->addWidget(m_bp_read_write); bp_layout->addWidget(m_bp_read_only); bp_layout->addWidget(m_bp_write_only); bp_layout->addWidget(m_bp_log_check); bp_layout->setSpacing(1); // Sidebar auto* sidebar = new QWidget; auto* sidebar_layout = new QVBoxLayout; // Sidebar top menu QMenuBar* menubar = new QMenuBar(sidebar); menubar->setNativeMenuBar(false); QMenu* menu_import = new QMenu(tr("&Import"), menubar); menu_import->addAction(tr("&Load file to current address"), this, &MemoryWidget::OnSetValueFromFile); menubar->addMenu(menu_import); QMenu* menu_export = new QMenu(tr("&Export"), menubar); menu_export->addAction(tr("Dump &MRAM"), this, &MemoryWidget::OnDumpMRAM); menu_export->addAction(tr("Dump &ExRAM"), this, &MemoryWidget::OnDumpExRAM); menu_export->addAction(tr("Dump &ARAM"), this, &MemoryWidget::OnDumpARAM); menu_export->addAction(tr("Dump &FakeVMEM"), this, &MemoryWidget::OnDumpFakeVMEM); menubar->addMenu(menu_export); sidebar_layout->setSpacing(1); sidebar->setLayout(sidebar_layout); sidebar_layout->addItem(new QSpacerItem(1, 20)); sidebar_layout->addWidget(m_address_splitter); sidebar_layout->addLayout(input_layout); sidebar_layout->addWidget(m_input_combo); sidebar_layout->addItem(new QSpacerItem(1, 10)); sidebar_layout->addWidget(m_data_preview); sidebar_layout->addWidget(m_set_value); sidebar_layout->addItem(new QSpacerItem(1, 10)); sidebar_layout->addWidget(search_group); sidebar_layout->addItem(new QSpacerItem(1, 10)); sidebar_layout->addWidget(displaytype_group); sidebar_layout->addItem(new QSpacerItem(1, 10)); sidebar_layout->addWidget(address_space_group); sidebar_layout->addItem(new QSpacerItem(1, 10)); sidebar_layout->addWidget(bp_group); sidebar_layout->addItem(new QSpacerItem(0, 0, QSizePolicy::Expanding, QSizePolicy::Expanding)); // Splitter m_splitter = new QSplitter(Qt::Horizontal); auto* sidebar_scroll = new QScrollArea; sidebar_scroll->setWidget(sidebar); sidebar_scroll->setWidgetResizable(true); m_memory_view = new MemoryViewWidget(m_system, this); m_splitter->addWidget(m_memory_view); m_splitter->addWidget(sidebar_scroll); m_splitter->setStretchFactor(0, 3); m_splitter->setStretchFactor(1, 1); layout->addWidget(m_splitter); auto* widget = new QWidget; widget->setLayout(layout); setWidget(widget); } void MemoryWidget::ConnectWidgets() { connect(m_search_address, &QComboBox::currentTextChanged, this, &MemoryWidget::OnSearchAddress); connect(m_search_offset, &QLineEdit::textChanged, this, &MemoryWidget::OnSearchAddress); connect(m_data_edit, &QLineEdit::textChanged, this, &MemoryWidget::ValidateAndPreviewInputValue); connect(m_input_combo, &QComboBox::currentIndexChanged, this, &MemoryWidget::ValidateAndPreviewInputValue); connect(m_set_value, &QPushButton::clicked, this, &MemoryWidget::OnSetValue); connect(m_find_next, &QPushButton::clicked, this, &MemoryWidget::OnFindNextValue); connect(m_find_previous, &QPushButton::clicked, this, &MemoryWidget::OnFindPreviousValue); for (auto* radio : {m_address_space_effective, m_address_space_auxiliary, m_address_space_physical}) { connect(radio, &QRadioButton::toggled, this, &MemoryWidget::OnAddressSpaceChanged); } for (auto* combo : {m_display_combo, m_align_combo, m_row_length_combo}) { connect(combo, &QComboBox::currentIndexChanged, this, &MemoryWidget::OnDisplayChanged); } connect(m_dual_check, &QCheckBox::toggled, this, &MemoryWidget::OnDisplayChanged); for (auto* radio : {m_bp_read_write, m_bp_read_only, m_bp_write_only}) connect(radio, &QRadioButton::toggled, this, &MemoryWidget::OnBPTypeChanged); connect(m_base_check, &QCheckBox::toggled, this, &MemoryWidget::ValidateAndPreviewInputValue); connect(m_bp_log_check, &QCheckBox::toggled, this, &MemoryWidget::OnBPLogChanged); connect(m_memory_view, &MemoryViewWidget::BreakpointsChanged, this, &MemoryWidget::BreakpointsChanged); connect(m_memory_view, &MemoryViewWidget::ShowCode, this, &MemoryWidget::ShowCode); connect(m_memory_view, &MemoryViewWidget::RequestWatch, this, &MemoryWidget::RequestWatch); } void MemoryWidget::closeEvent(QCloseEvent*) { Settings::Instance().SetMemoryVisible(false); } void MemoryWidget::showEvent(QShowEvent* event) { Update(); } void MemoryWidget::Update() { if (!isVisible()) return; m_memory_view->Update(); update(); } void MemoryWidget::LoadSettings() { QSettings& settings = Settings::GetQSettings(); const int combo_index = settings.value(QStringLiteral("memorywidget/inputcombo"), 1).toInt(); m_input_combo->setCurrentIndex(combo_index); const bool address_space_effective = settings.value(QStringLiteral("memorywidget/addrspace_effective"), true).toBool(); const bool address_space_auxiliary = settings.value(QStringLiteral("memorywidget/addrspace_auxiliary"), false).toBool(); const bool address_space_physical = settings.value(QStringLiteral("memorywidget/addrspace_physical"), false).toBool(); m_address_space_effective->setChecked(address_space_effective); m_address_space_auxiliary->setChecked(address_space_auxiliary); m_address_space_physical->setChecked(address_space_physical); const int display_index = settings.value(QStringLiteral("memorywidget/display_type"), 1).toInt(); m_display_combo->setCurrentIndex(display_index); bool bp_rw = settings.value(QStringLiteral("memorywidget/bpreadwrite"), true).toBool(); bool bp_r = settings.value(QStringLiteral("memorywidget/bpread"), false).toBool(); bool bp_w = settings.value(QStringLiteral("memorywidget/bpwrite"), false).toBool(); bool bp_log = settings.value(QStringLiteral("memorywidget/bplog"), true).toBool(); if (bp_rw) m_memory_view->SetBPType(MemoryViewWidget::BPType::ReadWrite); else if (bp_r) m_memory_view->SetBPType(MemoryViewWidget::BPType::ReadOnly); else m_memory_view->SetBPType(MemoryViewWidget::BPType::WriteOnly); m_bp_read_write->setChecked(bp_rw); m_bp_read_only->setChecked(bp_r); m_bp_write_only->setChecked(bp_w); m_bp_log_check->setChecked(bp_log); } void MemoryWidget::SaveSettings() { QSettings& settings = Settings::GetQSettings(); settings.setValue(QStringLiteral("memorywidget/inputcombo"), m_input_combo->currentIndex()); settings.setValue(QStringLiteral("memorywidget/addrspace_effective"), m_address_space_effective->isChecked()); settings.setValue(QStringLiteral("memorywidget/addrspace_auxiliary"), m_address_space_auxiliary->isChecked()); settings.setValue(QStringLiteral("memorywidget/addrspace_physical"), m_address_space_physical->isChecked()); settings.setValue(QStringLiteral("memorywidget/display_type"), m_display_combo->currentIndex()); settings.setValue(QStringLiteral("memorywidget/bpreadwrite"), m_bp_read_write->isChecked()); settings.setValue(QStringLiteral("memorywidget/bpread"), m_bp_read_only->isChecked()); settings.setValue(QStringLiteral("memorywidget/bpwrite"), m_bp_write_only->isChecked()); settings.setValue(QStringLiteral("memorywidget/bplog"), m_bp_log_check->isChecked()); } void MemoryWidget::OnAddressSpaceChanged() { AddressSpace::Type space; if (m_address_space_effective->isChecked()) space = AddressSpace::Type::Effective; else if (m_address_space_auxiliary->isChecked()) space = AddressSpace::Type::Auxiliary; else space = AddressSpace::Type::Physical; m_memory_view->SetAddressSpace(space); SaveSettings(); } void MemoryWidget::OnDisplayChanged() { const auto type = static_cast(m_display_combo->currentData().toInt()); int bytes_per_row = m_row_length_combo->currentData().toInt(); int alignment; bool dual_view = m_dual_check->isChecked(); if (type == Type::Double && bytes_per_row == 4) bytes_per_row = 8; // Alignment: First (fixed) option equals bytes per row. 'currentData' is correct for other // options. Type-based must be calculated in memoryviewwidget and is left at 0. "No alignment" is // equivalent to a value of 1. if (m_align_combo->currentIndex() == 0) alignment = bytes_per_row; else alignment = m_align_combo->currentData().toInt(); m_memory_view->SetDisplay(type, bytes_per_row, alignment, dual_view); SaveSettings(); } void MemoryWidget::OnBPLogChanged() { m_memory_view->SetBPLoggingEnabled(m_bp_log_check->isChecked()); SaveSettings(); } void MemoryWidget::OnBPTypeChanged() { bool read_write = m_bp_read_write->isChecked(); bool read_only = m_bp_read_only->isChecked(); MemoryViewWidget::BPType type; if (read_write) type = MemoryViewWidget::BPType::ReadWrite; else if (read_only) type = MemoryViewWidget::BPType::ReadOnly; else type = MemoryViewWidget::BPType::WriteOnly; m_memory_view->SetBPType(type); SaveSettings(); } void MemoryWidget::SetAddress(u32 address) { // Store current and target address in combo box const QSignalBlocker blocker(m_search_address); const QString current_text = m_search_address->currentText(); const QString target_addr = QString::number(address, 16); bool good; const u32 current_addr = current_text.toUInt(&good, 16); if (good) { AddressSpace::Accessors* accessors = AddressSpace::GetAccessors(m_memory_view->GetAddressSpace()); const Core::CPUThreadGuard guard(m_system); good = accessors->IsValidAddress(guard, current_addr); } if (m_search_address->findText(current_text) == -1 && good) m_search_address->insertItem(0, current_text); if (m_search_address->findText(target_addr) == -1) m_search_address->insertItem(0, target_addr); m_search_address->setCurrentText(target_addr); m_memory_view->SetAddress(address); Settings::Instance().SetMemoryVisible(true); raise(); m_memory_view->setFocus(); } void MemoryWidget::OnSearchAddress() { const auto target_addr = GetTargetAddress(); if (target_addr.is_good_address && target_addr.is_good_offset) m_memory_view->SetAddress(target_addr.address); QFont addr_font, offset_font; QPalette addr_palette, offset_palette; if (!target_addr.is_good_address) { addr_font.setBold(true); addr_palette.setColor(QPalette::Text, Qt::red); } if (!target_addr.is_good_offset) { offset_font.setBold(true); offset_palette.setColor(QPalette::Text, Qt::red); } m_search_address->setFont(addr_font); m_search_address->setPalette(addr_palette); m_search_offset->setFont(offset_font); m_search_offset->setPalette(offset_palette); } void MemoryWidget::ValidateAndPreviewInputValue() { m_data_preview->clear(); QString input_text = m_data_edit->text(); const auto input_type = static_cast(m_input_combo->currentData().toInt()); m_base_check->setEnabled(input_type == Type::Unsigned32 || input_type == Type::Signed32 || input_type == Type::Unsigned16 || input_type == Type::Signed16 || input_type == Type::Unsigned8 || input_type == Type::Signed8); if (input_text.isEmpty()) return; // Remove any spaces if (input_type != Type::ASCII) input_text.remove(QLatin1Char(' ')); if (m_base_check->isChecked()) { if (input_text.startsWith(QLatin1Char('-'))) input_text.insert(1, QStringLiteral("0x")); else input_text.prepend(QStringLiteral("0x")); } QFont font; QPalette palette; std::vector bytes = m_memory_view->ConvertTextToBytes(input_type, input_text); if (!bytes.empty()) { QString hex_string; std::string s; for (const u8 c : bytes) s.append(fmt::format("{:02x}", c)); hex_string = QString::fromStdString(s); int output_length = hex_string.length(); if (output_length > 16) { hex_string.truncate(16); output_length = hex_string.length(); hex_string.append(QStringLiteral("...")); } for (int i = 2; i < output_length; i += 2) hex_string.insert(output_length - i, QLatin1Char{' '}); m_data_preview->setText(hex_string); } else { font.setBold(true); palette.setColor(QPalette::Text, Qt::red); } m_data_edit->setFont(font); m_data_edit->setPalette(palette); } QByteArray MemoryWidget::GetInputData() const { // Empty or invalid input data returns an empty array. if (m_data_preview->text().isEmpty()) return QByteArray(); const auto input_type = static_cast(m_input_combo->currentData().toInt()); // Ascii might be truncated, pull from data edit box. if (input_type == Type::ASCII) return QByteArray(m_data_edit->text().toUtf8()); // If we are doing a large array of hex bytes if (input_type == Type::HexString) return QByteArray::fromHex(m_data_edit->text().toUtf8()); // Data preview has exactly what we want to input, so pull it from there. return QByteArray::fromHex(m_data_preview->text().toUtf8()); } void MemoryWidget::OnSetValue() { if (!Core::IsRunning()) return; auto target_addr = GetTargetAddress(); if (!target_addr.is_good_address) { ModalMessageBox::critical(this, tr("Error"), tr("Bad address provided.")); return; } if (!target_addr.is_good_offset) { ModalMessageBox::critical(this, tr("Error"), tr("Bad offset provided.")); return; } const QByteArray bytes = GetInputData(); // Invalid input will give an empty array. if (bytes.isEmpty()) { ModalMessageBox::critical(this, tr("Error"), tr("Bad value provided.")); return; } const Core::CPUThreadGuard guard(m_system); AddressSpace::Accessors* accessors = AddressSpace::GetAccessors(m_memory_view->GetAddressSpace()); u32 end_address = target_addr.address + static_cast(bytes.size()) - 1; if (!accessors->IsValidAddress(guard, target_addr.address) || !accessors->IsValidAddress(guard, end_address)) { ModalMessageBox::critical(this, tr("Error"), tr("Target address range is invalid.")); return; } for (const char c : bytes) accessors->WriteU8(guard, target_addr.address++, static_cast(c)); Update(); } void MemoryWidget::OnSetValueFromFile() { if (!Core::IsRunning()) return; auto target_addr = GetTargetAddress(); if (!target_addr.is_good_address) { ModalMessageBox::critical(this, tr("Error"), tr("Bad address provided.")); return; } if (!target_addr.is_good_offset) { ModalMessageBox::critical(this, tr("Error"), tr("Bad offset provided.")); return; } QString path = QFileDialog::getOpenFileName(this, tr("Select a file"), QDir::currentPath(), tr("All files (*)")); if (path.isNull()) { return; } File::IOFile f(path.toStdString(), "rb"); if (!f) { ModalMessageBox::critical(this, tr("Error"), tr("Unable to open file.")); return; } const u64 file_length = f.GetSize(); std::vector file_contents(file_length); if (!f.ReadBytes(file_contents.data(), file_length)) { ModalMessageBox::critical(this, tr("Error"), tr("Unable to read file.")); return; } AddressSpace::Accessors* accessors = AddressSpace::GetAccessors(m_memory_view->GetAddressSpace()); const Core::CPUThreadGuard guard(m_system); for (u8 b : file_contents) accessors->WriteU8(guard, target_addr.address++, b); Update(); } static void DumpArray(const std::string& filename, const u8* data, size_t length) { if (!data) return; File::IOFile f(filename, "wb"); if (!f) { ModalMessageBox::critical( nullptr, QObject::tr("Error"), QObject::tr("Failed to dump %1: Can't open file").arg(QString::fromStdString(filename))); return; } if (!f.WriteBytes(data, length)) { ModalMessageBox::critical(nullptr, QObject::tr("Error"), QObject::tr("Failed to dump %1: Failed to write to file") .arg(QString::fromStdString(filename))); } } void MemoryWidget::OnDumpMRAM() { AddressSpace::Accessors* accessors = AddressSpace::GetAccessors(AddressSpace::Type::Mem1); DumpArray(File::GetUserPath(F_MEM1DUMP_IDX), accessors->begin(), std::distance(accessors->begin(), accessors->end())); } void MemoryWidget::OnDumpExRAM() { AddressSpace::Accessors* accessors = AddressSpace::GetAccessors(AddressSpace::Type::Mem2); DumpArray(File::GetUserPath(F_MEM2DUMP_IDX), accessors->begin(), std::distance(accessors->begin(), accessors->end())); } void MemoryWidget::OnDumpARAM() { AddressSpace::Accessors* accessors = AddressSpace::GetAccessors(AddressSpace::Type::Auxiliary); DumpArray(File::GetUserPath(F_ARAMDUMP_IDX), accessors->begin(), std::distance(accessors->begin(), accessors->end())); } void MemoryWidget::OnDumpFakeVMEM() { AddressSpace::Accessors* accessors = AddressSpace::GetAccessors(AddressSpace::Type::Fake); DumpArray(File::GetUserPath(F_FAKEVMEMDUMP_IDX), accessors->begin(), std::distance(accessors->begin(), accessors->end())); } MemoryWidget::TargetAddress MemoryWidget::GetTargetAddress() const { TargetAddress target; // Returns 0 if conversion fails const u32 addr = m_search_address->currentText().toUInt(&target.is_good_address, 16); target.is_good_address |= m_search_address->currentText().isEmpty(); const s32 offset = m_search_offset->text().toInt(&target.is_good_offset, 16); const u32 neg_offset = offset != std::numeric_limits::min() ? -offset : u32(std::numeric_limits::max()) + 1; target.is_good_offset |= m_search_offset->text().isEmpty(); target.is_good_offset &= offset >= 0 || neg_offset <= addr; target.is_good_offset &= offset <= 0 || (std::numeric_limits::max() - u32(offset)) >= addr; if (!target.is_good_address || !target.is_good_offset) return target; if (offset < 0) target.address = addr - neg_offset; else target.address = addr + u32(offset); return target; } void MemoryWidget::FindValue(bool next) { auto target_addr = GetTargetAddress(); if (!target_addr.is_good_address) { m_result_label->setText(tr("Bad address provided.")); return; } if (!target_addr.is_good_offset) { m_result_label->setText(tr("Bad offset provided.")); return; } const QByteArray search_for = GetInputData(); if (search_for.isEmpty()) { m_result_label->setText(tr("Bad Value Given")); return; } if (!m_search_address->currentText().isEmpty()) { // skip the quoted address so we don't potentially refind the last result target_addr.address += next ? 1 : -1; } const std::optional found_addr = [&] { AddressSpace::Accessors* accessors = AddressSpace::GetAccessors(m_memory_view->GetAddressSpace()); const Core::CPUThreadGuard guard(m_system); return accessors->Search(guard, target_addr.address, reinterpret_cast(search_for.data()), static_cast(search_for.size()), next); }(); if (found_addr.has_value()) { m_result_label->setText(tr("Match Found")); u32 offset = *found_addr; m_search_address->setCurrentText(QStringLiteral("%1").arg(offset, 8, 16, QLatin1Char('0'))); m_search_offset->clear(); m_memory_view->SetAddress(offset); return; } m_result_label->setText(tr("No Match")); } void MemoryWidget::OnFindNextValue() { FindValue(true); } void MemoryWidget::OnFindPreviousValue() { FindValue(false); }