feat: find mars script

This commit is contained in:
ttttupup 2024-09-05 22:15:37 +08:00
parent 0859358c29
commit c49eaf9203
2 changed files with 386 additions and 212 deletions

View File

@ -299,215 +299,3 @@ public class FindCallScript extends GhidraScript {
}
}
class GraphFunctionFactory {
public static GDirectedGraph<FunctionVertex, FunctionEdge> createGraph(Function f, TaskMonitor monitor)
throws CancelledException {
if (monitor == null) {
monitor = TaskMonitor.DUMMY;
}
JungDirectedGraph<FunctionVertex, FunctionEdge> graph = new JungDirectedGraph<>();
BidiMap<CodeBlock, FunctionVertex> vertices = createVertices(f, monitor);
for (FunctionVertex v : vertices.values()) {
graph.addVertex(v);
}
Collection<FunctionEdge> edges = createdEdges(vertices, monitor);
for (FunctionEdge e : edges) {
graph.addEdge(e);
}
// this must be done after the edges are added to the graph
for (FunctionVertex vertex : vertices.values()) {
vertex.setType(getVertexType(graph, vertex));
}
return graph;
}
private static BidiMap<CodeBlock, FunctionVertex> createVertices(Function f, TaskMonitor monitor)
throws CancelledException {
BidiMap<CodeBlock, FunctionVertex> vertices = new DualHashBidiMap<>();
Program p = f.getProgram();
CodeBlockModel blockModel = new BasicBlockModel(p);
AddressSetView addresses = f.getBody();
CodeBlockIterator iterator = blockModel.getCodeBlocksContaining(addresses, monitor);
monitor.initialize(addresses.getNumAddresses());
for (; iterator.hasNext();) {
CodeBlock codeBlock = iterator.next();
FlowType flowType = codeBlock.getFlowType();
boolean isEntry = isEntry(codeBlock);
FunctionVertex vertex = new FunctionVertex(codeBlock, flowType, isEntry);
vertices.put(codeBlock, vertex);
long blockAddressCount = codeBlock.getNumAddresses();
long currentProgress = monitor.getProgress();
monitor.setProgress(currentProgress + blockAddressCount);
}
return vertices;
}
private static Collection<FunctionEdge> createdEdges(BidiMap<CodeBlock, FunctionVertex> vertices,
TaskMonitor monitor) throws CancelledException {
List<FunctionEdge> edges = new ArrayList<>();
for (FunctionVertex startVertex : vertices.values()) {
Collection<FunctionEdge> vertexEdges = getEdgesForStartVertex(vertices, startVertex, monitor);
edges.addAll(vertexEdges);
}
return edges;
}
private static Collection<FunctionEdge> getEdgesForStartVertex(BidiMap<CodeBlock, FunctionVertex> blockToVertexMap,
FunctionVertex startVertex, TaskMonitor monitor) throws CancelledException {
List<FunctionEdge> edges = new ArrayList<>();
CodeBlock codeBlock = blockToVertexMap.getKey(startVertex);
CodeBlockReferenceIterator destinations = codeBlock.getDestinations(monitor);
for (; destinations.hasNext();) {
CodeBlockReference reference = destinations.next();
CodeBlock destinationBlock = reference.getDestinationBlock();
FunctionVertex destinationVertex = blockToVertexMap.get(destinationBlock);
if (destinationVertex == null) {
continue;// no vertex means the code block is not in our function
}
edges.add(new FunctionEdge(startVertex, destinationVertex, reference.getFlowType()));
}
return edges;
}
private static VertexType getVertexType(Graph<FunctionVertex, FunctionEdge> graph, FunctionVertex v) {
boolean isEntry = v.isEntry();
boolean isExit = false;
FlowType flowType = v.getFlowType();
if (flowType.isTerminal()) {
isExit = true;
}
Collection<FunctionEdge> outs = graph.getOutEdges(v);
if (outs == null || outs.isEmpty()) {
isExit = true;
}
VertexType type = VertexType.BODY;
if (isEntry) {
if (isExit) {
type = VertexType.SINGLETON;
} else {
type = VertexType.ENTRY;
}
} else if (isExit) {
type = VertexType.EXIT;
}
return type;
}
private static boolean isEntry(CodeBlock codeBlock) {
boolean isSource = true;
try {
CodeBlockReferenceIterator iter = codeBlock.getSources(TaskMonitor.DUMMY);
while (iter.hasNext()) {
isSource = false;
if (iter.next().getFlowType().isCall()) {
// any calls into a code block will make it an 'entry'
return true;
}
}
} catch (CancelledException e) {
// will never happen, because I don't have a monitor
}
return isSource;
}
}
class FunctionVertex extends CodeBlockVertex {
private VertexType type = VertexType.BODY;
private FlowType flowType;
private boolean isEntry;
public FunctionVertex(CodeBlock codeBlock, FlowType flowType, boolean isEntry) {
super(codeBlock);
this.flowType = flowType;
this.isEntry = isEntry;
}
public boolean isEntry() {
return isEntry;
}
public FlowType getFlowType() {
return flowType;
}
public VertexType getType() {
return type;
}
public void setType(VertexType type) {
this.type = type;
}
}
class FunctionEdge implements GEdge<FunctionVertex> {
private FunctionVertex start;
private FunctionVertex end;
private FlowType flowType;
public FunctionEdge(FunctionVertex start, FunctionVertex end, FlowType flowType) {
this.start = start;
this.end = end;
this.flowType = flowType;
}
public FlowType getFlowType() {
return flowType;
}
@Override
public FunctionVertex getStart() {
return start;
}
@Override
public FunctionVertex getEnd() {
return end;
}
}
enum VertexType {
//@formatter:off
BODY,
ENTRY,
EXIT,
GROUP,
SINGLETON;
//@formatter:on
public boolean isEntry() {
return this == ENTRY || this == SINGLETON;
}
public boolean isExit() {
return this == EXIT || this == SINGLETON;
}
}

View File

@ -0,0 +1,386 @@
// find mars
//@author ttttupup
//@category _NEW_
//@keybinding
//@menupath
//@toolbar
import java.util.ArrayList;
import java.util.Iterator;
import java.util.List;
import docking.widgets.filter.ContainsTextFilterFactory;
import docking.widgets.filter.TextFilter;
import ghidra.app.decompiler.DecompInterface;
import ghidra.app.decompiler.DecompileOptions;
import ghidra.app.decompiler.DecompileResults;
import ghidra.app.script.GhidraScript;
import ghidra.program.model.address.Address;
import ghidra.program.model.address.AddressFactory;
import ghidra.program.model.address.AddressIterator;
import ghidra.program.model.address.AddressSet;
import ghidra.program.model.address.AddressSetView;
import ghidra.program.model.address.AddressSpace;
import ghidra.program.model.block.BasicBlockModel;
import ghidra.program.model.block.CodeBlock;
import ghidra.program.model.listing.CodeUnit;
import ghidra.program.model.listing.Data;
import ghidra.program.model.listing.Function;
import ghidra.program.model.listing.FunctionManager;
import ghidra.program.model.listing.Instruction;
import ghidra.program.model.mem.MemoryAccessException;
import ghidra.program.model.pcode.HighFunction;
import ghidra.program.model.pcode.PcodeBlockBasic;
import ghidra.program.model.pcode.PcodeOp;
import ghidra.program.model.pcode.PcodeOpAST;
import ghidra.program.model.pcode.Varnode;
import ghidra.program.model.symbol.Reference;
import ghidra.program.model.symbol.ReferenceIterator;
import ghidra.program.model.symbol.ReferenceManager;
import ghidra.program.model.symbol.SourceType;
import ghidra.program.util.string.FoundString;
import ghidra.sleigh.grammar.SleighParser.stringorident_return;
import ghidra.util.StringUtilities;
import ghidra.util.exception.CancelledException;
import ghidra.util.exception.DuplicateNameException;
import ghidra.util.exception.InvalidInputException;
public class FindMarsScript extends GhidraScript {
DecompInterface decompiler = new DecompInterface();
BasicBlockModel basicBlockModel;
@Override
protected void run() throws Exception {
DecompileOptions decompileOptions = new DecompileOptions();
decompiler.setOptions(decompileOptions);
decompiler.openProgram(currentProgram);
basicBlockModel = new BasicBlockModel(currentProgram);
Address findXScopeTracer = findXScopeTracer();
// Address findXScopeTracer = currentProgram.getAddressFactory().getAddress("0x183d04d10");
if (null != findXScopeTracer) {
ReferenceIterator referenceIterator = currentProgram.getReferenceManager()
.getReferencesTo(findXScopeTracer);
while (referenceIterator.hasNext()) {
monitor.checkCancelled();
Reference next = referenceIterator.next();
Address fromAddress = next.getFromAddress();
Function functionContaining = currentProgram.getFunctionManager().getFunctionContaining(fromAddress);
if (null == functionContaining) {
println("no found function: " + fromAddress.toString());
continue;
}
DecompileResults res = decompiler.decompileFunction(functionContaining, 20, null);
if (!res.decompileCompleted()) {
println("decompile error: " + res.getErrorMessage());
continue;
}
HighFunction highFunction = res.getHighFunction();
Iterator<PcodeOpAST> pcodeOps = highFunction.getPcodeOps();
while (pcodeOps.hasNext()) {
monitor.checkCancelled();
PcodeOpAST opAST = pcodeOps.next();
int opcode = opAST.getOpcode();
if (PcodeOp.CALL == opcode || PcodeOp.CALLIND == opcode || PcodeOp.CALLOTHER == opcode) {
Varnode input0 = opAST.getInput(0);
boolean contains = input0.contains(findXScopeTracer);
if (contains) {
Varnode input3 = opAST.getInput(3);
Varnode input4 = opAST.getInput(4);
if (input4 == null || input3 == null) {
continue;
}
String namespaceString = "";
String funcNameString = "";
if (input3.isUnique()) {
namespaceString = getUniqueValue(input3);
} else if (input3.isConstant()) {
namespaceString = getConstact(input3);
}
if (input4.isUnique()) {
funcNameString = getUniqueValue(input4);
} else if (input4.isConstant()) {
funcNameString = getConstact(input4);
}
if (StringUtilities.isAllBlank(namespaceString)
|| StringUtilities.isAllBlank(funcNameString)) {
continue;
}
String name = namespaceString.replace(" ", "") + "::" + funcNameString.replace(" ", "");
println("find function :" + name);
functionContaining.setName(name, SourceType.USER_DEFINED);
currentProgram.getListing().setComment(functionContaining.getEntryPoint(),
CodeUnit.EOL_COMMENT, "mars scipt auto define: " + name);
}
}
}
}
}
}
private String getConstact(Varnode input3) {
Address address2 = input3.getAddress();
Address address3 = currentProgram.getAddressFactory().getDefaultAddressSpace().getAddress(address2.getOffset());
Data dataAt2 = getDataAt(address3);
if (null != dataAt2) {
if (dataAt2.hasStringValue()) {
return dataAt2.getValue().toString();
}
}
return null;
}
private void easy(Address findXScopeTracer) throws CancelledException {
if (null != findXScopeTracer) {
ReferenceIterator referenceIterator = currentProgram.getReferenceManager()
.getReferencesTo(findXScopeTracer);
while (referenceIterator.hasNext()) {
monitor.checkCancelled();
Reference next = referenceIterator.next();
Address fromAddress = next.getFromAddress();
Instruction instructionAt = currentProgram.getListing().getInstructionAt(fromAddress);
if (null != instructionAt) {
PcodeOp[] pcode = instructionAt.getPcode();
if (null != pcode) {
for (PcodeOp pcodeOp : pcode) {
if (pcodeOp.getOpcode() == PcodeOp.CALL) {
Varnode namespace = pcodeOp.getInput(3);
Varnode funcName = pcodeOp.getInput(4);
if (null != namespace) {
if (namespace.isConstant()) {
long offset = namespace.getAddress().getOffset();
Address address = currentProgram.getAddressFactory().getDefaultAddressSpace()
.getAddress(offset);
Data dataAt = currentProgram.getListing().getDataAt(address);
if (null != dataAt) {
if (dataAt.hasStringValue()) {
dataAt.getValue().toString();
}
}
}
}
if (null != funcName) {
if (funcName.isConstant()) {
long offset = funcName.getAddress().getOffset();
Address address = currentProgram.getAddressFactory().getDefaultAddressSpace()
.getAddress(offset);
Data dataAt = currentProgram.getListing().getDataAt(address);
if (null != dataAt) {
if (dataAt.hasStringValue()) {
dataAt.getValue().toString();
}
}
}
}
}
}
}
println("caller address: " + fromAddress.toString());
}
}
}
}
private void find() throws Exception {
Function findXLogger = findXLogger();
if (null != findXLogger) {
if (findXLogger.isThunk()) {
currentProgram.getFunctionManager().createFunction("XLogger::operator()", findXLogger.getEntryPoint(),
findXLogger.getBody(), findXLogger.getSignatureSource());
} else {
findXLogger.setName("XLogger::operator()", SourceType.USER_DEFINED);
currentProgram.getListing().setComment(findXLogger.getEntryPoint(), CodeUnit.EOL_COMMENT,
"rename function: XLogger::operator()");
ReferenceIterator referenceIterator = currentProgram.getReferenceManager()
.getReferencesTo(findXLogger.getEntryPoint());
while (referenceIterator.hasNext()) {
monitor.checkCancelled();
Reference next = referenceIterator.next();
Address fromAddress = next.getFromAddress();
println("caller address: " + fromAddress.toString());
handle(fromAddress, findXLogger.getEntryPoint());
}
}
}
}
private Address findXScopeTracer() throws Exception {
List<FoundString> list = findStrings(null, 5, 1, true, false);
ContainsTextFilterFactory factory = new ContainsTextFilterFactory(false, true);
TextFilter textFilter = factory.getTextFilter("mars::comm::DNS::GetHostByName");
for (FoundString foundString : list) {
monitor.checkCancelled();
String string = foundString.getString(currentProgram.getMemory());
if (textFilter.matches(string)) {
Address address = foundString.getAddress();
println("=====text addr :" + address.toString());
ReferenceIterator referencesTo = currentProgram.getReferenceManager().getReferencesTo(address);
while (referencesTo.hasNext()) {
Reference ref = referencesTo.next();
Address textAddress = ref.getFromAddress();
Function func = currentProgram.getFunctionManager().getFunctionContaining(textAddress);
if (null == func) {
continue;
}
CodeBlock[] codeBlocksContaining = basicBlockModel.getCodeBlocksContaining(textAddress, monitor);
for (CodeBlock codeBlock : codeBlocksContaining) {
AddressIterator addressIterator = codeBlock.getAddresses(true);
while (addressIterator.hasNext()) {
Address next = addressIterator.next();
CodeUnit codeUnitAt = currentProgram.getListing().getCodeUnitAt(next);
if (null != codeUnitAt) {
if (codeUnitAt.getMnemonicString().equals("CALL")) {
Instruction instructionAt = currentProgram.getListing().getInstructionAt(next);
PcodeOp[] pcode = instructionAt.getPcode();
PcodeOp pcodeOp = pcode[pcode.length - 1];
Varnode input = pcodeOp.getInput(0);
Address address2 = input.getAddress();
println("===== XScopeTracer::XScopeTracer addr :" + address2.toString());
Function functionAt = currentProgram.getFunctionManager().getFunctionAt(address2);
if (null != functionAt) {
functionAt.setName("XScopeTracer::XScopeTracer", SourceType.USER_DEFINED);
currentProgram.getListing().setComment(functionAt.getEntryPoint(),
CodeUnit.EOL_COMMENT, "scipt auto define: XScopeTracer::XScopeTracer");
} else {
createFunction(address2, "XScopeTracer::XScopeTracer");
currentProgram.getListing().setComment(address2, CodeUnit.EOL_COMMENT,
"scipt auto create: XScopeTracer::XScopeTracer");
}
return address2;
}
}
}
}
}
}
}
return null;
}
private void handle(Address address, Address calleeAddress) throws CancelledException {
Function functionContaining = currentProgram.getFunctionManager().getFunctionContaining(address);
if (null == functionContaining) {
println("no found function: " + address.toString());
return;
}
DecompileResults res = decompiler.decompileFunction(functionContaining, 20, null);
if (!res.decompileCompleted()) {
println("decompile error: " + res.getErrorMessage());
return;
}
HighFunction highFunction = res.getHighFunction();
ArrayList<PcodeBlockBasic> basicBlocks = highFunction.getBasicBlocks();
for (PcodeBlockBasic pcodeBlockBasic : basicBlocks) {
monitor.checkCancelled();
boolean contains = pcodeBlockBasic.contains(address);
if (contains) {
Iterator<PcodeOp> iterator = pcodeBlockBasic.getIterator();
for (; iterator.hasNext();) {
monitor.checkCancelled();
PcodeOp next = iterator.next();
if (next.getOpcode() == PcodeOp.CALL) {
if (next.getNumInputs() > 4) {
Varnode input3 = next.getInput(3);
if (null != input3) {
if (input3.isUnique()) {
String uniqueValue = getUniqueValue(input3);
if (null != uniqueValue) {
println(uniqueValue);
}
}
}
}
}
}
}
}
}
private String getUniqueValue(Varnode input3) {
PcodeOp def = input3.getDef();
Varnode[] inputs = def.getInputs();
if (null != inputs && inputs.length > 0) {
if (inputs[0].isConstant()) {
Address address2 = inputs[0].getAddress();
Address address3 = currentProgram.getAddressFactory().getDefaultAddressSpace()
.getAddress(address2.getOffset());
Data dataAt2 = currentProgram.getListing().getDataAt(address3);
if (null != dataAt2) {
if (dataAt2.hasStringValue()) {
return dataAt2.getValue().toString();
}
}
}
}
return null;
}
private Function findXLogger() throws MemoryAccessException, CancelledException {
FunctionManager functionManager = currentProgram.getFunctionManager();
ReferenceManager referenceManager = currentProgram.getReferenceManager();
AddressFactory factory = currentProgram.getAddressFactory();
AddressSpace[] addressSpaces = factory.getAddressSpaces();
AddressSetView initializedMemory = currentProgram.getMemory().getLoadedAndInitializedAddressSet();
AddressSet searchSet = initializedMemory.intersect(new AddressSet(initializedMemory));
List<FoundString> findStrings = new ArrayList<>();
println("初次查询速度较慢,请耐心等待。");
for (AddressSpace space : addressSpaces) {
if (monitor.isCancelled()) {
break;
}
AddressSet intersecting = searchSet.intersectRange(space.getMinAddress(), space.getMaxAddress());
findStrings.addAll(findStrings(null, 10, 1, true, true));
}
if (null != findStrings && findStrings.size() > 0) {
ContainsTextFilterFactory containsTextFilterFactory = new ContainsTextFilterFactory(false, true);
TextFilter textFilter = containsTextFilterFactory
.getTextFilter("XLogger& XLogger::operator()(const char* _format, ...)");
for (FoundString foundString : findStrings) {
if (monitor.isCancelled()) {
break;
}
String string = foundString.getString(currentProgram.getMemory());
if (textFilter.matches(string)) {
Address address = foundString.getAddress();
println(address.toString());
ReferenceIterator referencesTo = referenceManager.getReferencesTo(address);
while (referencesTo.hasNext()) {
if (monitor.isCancelled()) {
break;
}
Reference ref = referencesTo.next();
Address xLoggerAddr = ref.getFromAddress();
Function targetFunction = functionManager.getFunctionContaining(xLoggerAddr);
if (null == targetFunction) {
continue;
}
println("XLogger::operator() " + targetFunction.getEntryPoint().toString());
return targetFunction;
}
}
}
}
return null;
}
}