public CStandardProgressDialog( final Window parent, final String title, final String description, final IStandardProgressModel progressModel) { super(parent, title, ModalityType.DOCUMENT_MODAL); // m_description = description; m_progressModel = progressModel; setDefaultCloseOperation(JDialog.DO_NOTHING_ON_CLOSE); addWindowListener(new InternalWindowListener()); progressModel.addProgressListener(m_internalListener); m_progressPanel = new CProgressPanel(description, false, false); m_progressPanel.setBorder(new EmptyBorder(15, 15, 15, 15)); add(m_progressPanel); pack(); if (parent != null) { GuiHelper.centerChildToParent(parent, this, true); } else { GuiHelper.centerOnScreen(this); } }
public void setSubDescription(final String subDescription) { m_progressPanel.setSubText(subDescription); if (getParent() != null) { GuiHelper.centerChildToParent(getParent(), this, true); } else { GuiHelper.centerOnScreen(this); } }
/** Renderer class for the node chooser table. */ public final class CNodeChooserRenderer extends DefaultTableCellRenderer { /** Used for serialization. */ private static final long serialVersionUID = -7732373934467520210L; /** Font used in the node chooser table. */ private static final Font DEFAULT_CELL_FONT = new Font(GuiHelper.getDefaultFont(), Font.PLAIN, 12); /** Background color for nodes that are not currently displaying search results. */ private static final Color DEFAULT_BACKGROUND = new Color(252, 252, 252); /** Background color for nodes that are currently displaying search results. */ private static final Color SEARCH_HIT_BACKGROUND = new Color(252, 252, 200); /** Text color used to print the row text of selected nodes. */ private static final Color SELECTED_FOREGROUND = new Color(160, 0, 0); /** Text color used to print the row text of unselected nodes. */ private static final Color UNSELECTED_FOREGROUND = new Color(0, 0, 0); /** Text color used to print the row text of invisible nodes. */ private static final Color INVISIBLE_FOREGROUND = new Color(128, 128, 128); /** Default monospace font used for tooltips. */ private static final String MONOSPACE_FONT = GuiHelper.getMonospaceFont(); /** Table that is rendered by this renderer. */ private final CNodeChooserTable m_table; /** Graph that provides the nodes shown in the table. */ private final ZyGraph m_graph; /** Searcher field that provides search results to be rendered in the table. */ private final GraphSearcher m_searcher; /** * Creates a new renderer object. * * @param nodeChooserTable Table that is rendered by this renderer. * @param graph Graph that provides the nodes shown in the table. * @param searcher Searcher field that provides search results to be rendered in the table. */ public CNodeChooserRenderer( final CNodeChooserTable nodeChooserTable, final ZyGraph graph, final GraphSearcher searcher) { m_table = Preconditions.checkNotNull(nodeChooserTable, "IE01770: Table can't be null."); m_graph = Preconditions.checkNotNull(graph, "IE01771: Graph can't be null."); m_searcher = Preconditions.checkNotNull(searcher, "IE01772: Graph searcher can't be null."); setOpaque(true); } /** * Builds the tooltip text of a table row from the content of a node. * * @param content The content of a node. * @return The tooltip text for the node. */ private static String buildToolTip(final ZyLabelContent content) { return HtmlGenerator.getHtml(content, MONOSPACE_FONT, true); } /** * Returns the text to be shown in the node chooser table for a given node. * * @param node The node to display. * @return The display text of the node. */ private static String getNodeText(final INaviViewNode node) { if (node instanceof INaviFunctionNode) { return ((INaviFunctionNode) node).getFunction().getName(); } else if (node instanceof INaviCodeNode) { return Iterables.getFirst(((INaviCodeNode) node).getInstructions(), null) .getAddress() .toHexString(); } else if (node instanceof INaviGroupNode) { return "GroupNode"; // ((INaviGroupNode) node).getComment(); //TODO fix this. } else if (node instanceof INaviTextNode) { return "Comment node"; } else { throw new IllegalStateException("IE01152: Invalid node in node chooser"); } } /** * Updates the background color of a row in case the corresponding node is currently displaying * search results. * * @param node The node that corresponds to the table row. */ private void calculateBackgroundColor(final INaviViewNode node) { final List<SearchResult> results = m_searcher.getResults(); for (final SearchResult result : results) { if ((result.getObject() instanceof NaviNode) && ((NaviNode) result.getObject()).getRawNode().equals(node)) { setBackground(SEARCH_HIT_BACKGROUND); return; } } } /** * Small helper function to return the node of a given node index. * * @param index The node index. * @return The node at the given index. */ private INaviViewNode getNode(final int index) { return m_graph.getRawView().getGraph().getNodes().get(index); } // ESCA-JAVA0138: Not our function @Override public Component getTableCellRendererComponent( final JTable table, final Object value, final boolean isSelected, final boolean hasFocus, final int row, final int column) { setFont(DEFAULT_CELL_FONT); final INaviViewNode node = getNode(m_table.modelIndex(row)); Color textColor = UNSELECTED_FOREGROUND; if (node.isSelected()) { textColor = SELECTED_FOREGROUND; } else if (!node.isVisible()) { textColor = INVISIBLE_FOREGROUND; } setForeground(textColor); if (column == CNodeChooserModel.COLUMN_IN) { setText(String.valueOf(node.getIncomingEdges().size())); } else if (column == CNodeChooserModel.COLUMN_OUT) { setText(String.valueOf(node.getOutgoingEdges().size())); } else if (column == CNodeChooserModel.COLUMN_ADDRESS) { setText(getNodeText(node)); } else { setText(""); } setBackground(DEFAULT_BACKGROUND); if (column == CNodeChooserModel.COLUMN_COLOR) { setBackground(node.getColor()); } else { calculateBackgroundColor(node); } setToolTipText(buildToolTip(m_graph.getNode(node).getNodeContent())); return this; } }
/** This class can be used to display the stack of a target process. */ public final class JStackPanel extends JPanel { private static final long serialVersionUID = -7850318708757157383L; private static final int PADDING_OFFSETVIEW = 20; private static final int PADDING_LEFT = 10; private static final int SIZEOF_DWORD = 4; private static final int SIZEOF_QWORD = 8; /** Provides the stack data that is displayed in the view. */ private final IStackModel m_model; /** Font used to draw the data. */ private final Font m_font = new Font(GuiHelper.getMonospaceFont(), 0, 12); /** Height of individual rows in the display. */ private int m_rowHeight; /** Height of a single char in the display. */ private int m_charHeight; /** Width of a single char in the view. */ private int m_charWidth; /** Width of the offset view. */ private int m_offsetViewWidth; private boolean m_firstDraw = true; private static final int m_hexElementWidth = 10; /** Default internal listener that is used to handle various events. */ private final InternalListener m_listener = new InternalListener(); /** The first visible row. */ private int m_firstRow = 0; /** Top-padding of all views in pixels. */ private static final int m_paddingTop = 16; /** Font color of the offset view. */ private final Color m_fontColorOffsets = Color.WHITE; private final Color m_fontColorValues = Color.BLACK; /** Color that is used to draw all text in disabled components. */ private final Color m_disabledColor = Color.GRAY; /** Background color of the offset view. */ private final Color m_bgColorOffset = Color.GRAY; /** Timer that is used to refresh the component if no data for the selected range is available. */ private Timer m_updateTimer; private DefinitionStatus m_status = DefinitionStatus.UNDEFINED; private final AddressMode m_addressMode = AddressMode.BIT32; private int m_firstColumn = 0; /** * Creates a new stack view. * * @param model The model that provides the data displayed in the view. */ public JStackPanel(final IStackModel model) { super(new BorderLayout()); Preconditions.checkNotNull(model, "Error: Model argument can not be null"); m_model = model; m_model.addListener(m_listener); // Necessary to receive input setFocusable(true); // Set the initial font setFont(m_font); setPreferredSize(new Dimension(400, 400)); } /** * Returns the character size of a single character on the given graphics context. * * @param g The graphics context. * @return The size of a single character. */ private static int getCharacterWidth(final Graphics g) { return (int) g.getFontMetrics().getStringBounds("0", g).getWidth(); } /** * Determines the height of a character in a graphical context. * * @param g The graphical context. * @return The height of a character in the graphical context. */ private static int getCharHeight(final Graphics g) { return g.getFontMetrics().getAscent(); } /** * Determines the height of the current font in a graphical context. * * @param g The graphical context. * @return The height of the current font in the graphical context. */ private static int getRowHeight(final Graphics g) { return g.getFontMetrics().getHeight(); } /** * Calculates current character and row sizes. * * @param g The graphical context. */ private void calculateSizes(final Graphics g) { m_rowHeight = getRowHeight(g); m_charHeight = getCharHeight(g); m_charWidth = getCharacterWidth(g); } /** * Draws the background of the view. * * @param g The graphics context of the view. */ private void drawBackground(final Graphics g) { // Draw the background of the offset view g.setColor(m_bgColorOffset); g.fillRect(-m_firstColumn * m_charWidth, 0, m_offsetViewWidth, getHeight()); } /** * Draws the stack values onto the screen. * * @param g The graphics context to paint on. */ private void drawElements(final Graphics g) { if (isEnabled()) { // Choose the right color for the offset text g.setColor(m_fontColorValues); } else { g.setColor(m_disabledColor != m_bgColorOffset ? m_disabledColor : Color.WHITE); } final int x = (10 + m_offsetViewWidth) - (m_charWidth * m_firstColumn); int linesToDraw = getNumberOfVisibleRows(); if ((m_firstRow + linesToDraw) >= m_model.getNumberOfEntries()) { linesToDraw = m_model.getNumberOfEntries() - m_firstRow; // TODO: This can make linesToDraw // negative if (linesToDraw < 0) { // FIXME: This is a workaround for case 2337. The issue is real // but reproducing it can take hours. For this reason I am now // implementing this workaround, but in the future the underlying // cause of this behavior should be determined and fixed. return; } } if (m_model.getStartAddress() == -1) { return; } final long elementSize = getElementSize(); if (m_status == DefinitionStatus.DEFINED) { final long startAddress = m_model.getStartAddress() + (m_firstRow * elementSize); final long numberOfBytes = linesToDraw * elementSize; if (!m_model.hasData(startAddress, numberOfBytes)) { setDefinitionStatus(DefinitionStatus.UNDEFINED); setEnabled(false); if (m_updateTimer != null) { m_updateTimer.setRepeats(false); m_updateTimer.stop(); } m_updateTimer = new Timer(1000, new WaitingForDataAction(startAddress, numberOfBytes)); m_updateTimer.setRepeats(true); m_updateTimer.start(); return; } // Iterate over the data and print the offsets for (int i = 0; i < linesToDraw; i++) { final long elementAddress = startAddress + (i * elementSize); g.drawString(m_model.getElement(elementAddress), x, m_paddingTop + (i * m_rowHeight)); } } else { // Iterate over the data and print the offsets for (int i = 0; i < linesToDraw; i++) { g.drawString( Strings.repeat("?", 2 * getElementSize()), x, m_paddingTop + (i * m_rowHeight)); } } } /** * Draws the offsets in the offset view. * * @param g The graphics context of the hex panel. */ private void drawOffsets(final Graphics g) { final int linesToDraw = getNumberOfVisibleRows(); final String formatString = m_addressMode == AddressMode.BIT32 ? "%08X" : "%016X"; final long elementSize = getElementSize(); final long baseAddress = m_model.getStartAddress() == -1 ? 0 : m_model.getStartAddress(); // Iterate over the data and print the offsets for (int i = 0; i < linesToDraw; i++) { final int elementIndex = m_firstRow + i; final long elementAddress = baseAddress + (elementIndex * elementSize); final String offsetString = String.format(formatString, elementAddress); if (elementAddress == m_model.getStackPointer()) { highlightStackPointer(g, i); } if (isEnabled()) { g.setColor(m_fontColorOffsets); } else { g.setColor(m_disabledColor != m_bgColorOffset ? m_disabledColor : Color.WHITE); } g.drawString( offsetString, PADDING_LEFT - (m_charWidth * m_firstColumn), m_paddingTop + (i * m_rowHeight)); } } /** * Returns the size in bytes of a single stack element. * * @return The size in bytes of a single stack element. */ private int getElementSize() { return m_addressMode == AddressMode.BIT32 ? SIZEOF_DWORD : SIZEOF_QWORD; } /** * Highlights the address of the stack pointer. * * @param g The graphics context to draw to. * @param row Row where the stack pointer is shown. */ private void highlightStackPointer(final Graphics g, final int row) { g.setColor(Color.RED); final double width = g.getFontMetrics().getStringBounds(Strings.repeat("0", 2 * getElementSize()), g).getWidth(); g.fillRect( PADDING_LEFT - 2 - (m_charWidth * m_firstColumn), (m_paddingTop + (row * m_rowHeight)) - m_charHeight, (int) width + 4, m_charHeight + 2); } /** * Calculates and sets the size of the offset view depending on the currently selected address * mode. */ private void updateOffsetViewWidth() { final int addressBytes = m_addressMode == AddressMode.BIT32 ? 8 : 16; m_offsetViewWidth = PADDING_OFFSETVIEW + (m_charWidth * addressBytes); } /** Calculates and sets the preferred size of the component. */ private void updatePreferredSize() { // TODO: Improve this final int width = m_offsetViewWidth + m_hexElementWidth + (18 * m_charWidth); setPreferredSize(new Dimension(width, getHeight())); revalidate(); } /** * Returns the number of visible rows. * * @return The number of visible rows. */ protected int getNumberOfVisibleRows() { if (m_rowHeight == 0) { return 0; } final int rawHeight = getHeight() - m_paddingTop; return (rawHeight / m_rowHeight) + ((rawHeight % m_rowHeight) == 0 ? 0 : 1); } protected void setFirstRow(final int value) { m_firstRow = value; repaint(); } public int getCharWidth() { return m_charWidth; } public int getOffsetViewWidth() { return m_offsetViewWidth; } public String getValueAt(final Point point) { final int line = ((point.y - m_paddingTop) + m_rowHeight) / m_rowHeight; final long elementSize = getElementSize(); final long startAddress = m_model.getStartAddress() + (m_firstRow * elementSize); final long elementAddress = startAddress + (line * elementSize); return m_model.hasData(elementAddress, elementSize) ? m_model.getElement(elementAddress) : null; } /** * Scrolls to the given offset. * * @param offset The offset to scroll to. */ public void gotoOffset(final long offset) { // setCurrentPosition(offset); } @Override public void paint(final Graphics g) { super.paint(g); // Calculate current sizes of characters and rows calculateSizes(g); updateOffsetViewWidth(); if (m_firstDraw) { m_firstDraw = false; // The first time the component is drawn, its size must be set. updatePreferredSize(); } // Draw the background of the hex panel drawBackground(g); // Draw the offsets column drawOffsets(g); drawElements(g); } /** * Changes the definition status of the view data. * * @param status The new definition status. */ public void setDefinitionStatus(final DefinitionStatus status) { Preconditions.checkNotNull(status, "Error: Status argument can not be null"); m_status = status; repaint(); } public void setFirstColumn(final int value) { m_firstColumn = value; } private class InternalListener implements IStackModelListener { @Override public void dataChanged() { repaint(); } } private class WaitingForDataAction extends AbstractAction { private static final long serialVersionUID = -610823391617272365L; private final long m_startAddress; private final long m_numberOfBytes; private WaitingForDataAction(final long startAddress, final long numberOfBytes) { m_startAddress = startAddress; m_numberOfBytes = numberOfBytes; } @Override public void actionPerformed(final ActionEvent event) { if (m_model.hasData(m_startAddress, m_numberOfBytes)) { JStackPanel.this.setEnabled(true); setDefinitionStatus(DefinitionStatus.DEFINED); ((Timer) event.getSource()).stop(); } else if (!m_model.keepTrying()) { ((Timer) event.getSource()).stop(); } } } }