ROSE  0.9.10.230
Partitioner.h
1 #ifndef ROSE_Partitioner2_Partitioner_H
2 #define ROSE_Partitioner2_Partitioner_H
3 
4 #include <Partitioner2/AddressUsageMap.h>
5 #include <Partitioner2/BasicBlock.h>
6 #include <Partitioner2/BasicTypes.h>
7 #include <Partitioner2/Config.h>
8 #include <Partitioner2/ControlFlowGraph.h>
9 #include <Partitioner2/DataBlock.h>
10 #include <Partitioner2/Function.h>
11 #include <Partitioner2/FunctionCallGraph.h>
12 #include <Partitioner2/InstructionProvider.h>
13 #include <Partitioner2/Modules.h>
14 #include <Partitioner2/Reference.h>
15 
16 #include <Sawyer/Attribute.h>
17 #include <Sawyer/Callbacks.h>
18 #include <Sawyer/IntervalSet.h>
19 #include <Sawyer/Map.h>
20 #include <Sawyer/Message.h>
21 #include <Sawyer/Optional.h>
22 #include <Sawyer/ProgressBar.h>
23 #include <Sawyer/SharedPointer.h>
24 
25 #include <BinaryUnparser.h>
26 #include <Progress.h>
27 
28 #include <boost/filesystem.hpp>
29 #include <boost/serialization/access.hpp>
30 #include <boost/serialization/split_member.hpp>
31 
32 #include <ostream>
33 #include <set>
34 #include <string>
35 #include <vector>
36 
37 // Derived classes needed for serialization
38 #include <BinaryYicesSolver.h>
39 #include <BinaryZ3Solver.h>
40 #include <DispatcherM68k.h>
41 #include <DispatcherPowerpc.h>
42 #include <DispatcherX86.h>
43 
44 namespace Rose {
45 namespace BinaryAnalysis {
46 
78 namespace Partitioner2 {
79 
293 class ROSE_DLL_API Partitioner: public Sawyer::Attribute::Storage<> { // final
294 public:
295  typedef Sawyer::Callbacks<CfgAdjustmentCallback::Ptr> CfgAdjustmentCallbacks;
296  typedef Sawyer::Callbacks<BasicBlockCallback::Ptr> BasicBlockCallbacks;
297  typedef std::vector<FunctionPrologueMatcher::Ptr> FunctionPrologueMatchers;
298  typedef std::vector<FunctionPaddingMatcher::Ptr> FunctionPaddingMatchers;
301  struct Thunk {
302  BasicBlock::Ptr bblock;
303  rose_addr_t target;
304  Thunk(const BasicBlock::Ptr &bblock, rose_addr_t target): bblock(bblock), target(target) {}
305  };
306 
308  typedef Sawyer::Container::Map<rose_addr_t, std::string> AddressNameMap;
309 
310 private:
311  BasePartitionerSettings settings_; // settings adjustable from the command-line
312  Configuration config_; // configuration information about functions, blocks, etc.
313  InstructionProvider::Ptr instructionProvider_; // cache for all disassembled instructions
314  MemoryMap::Ptr memoryMap_; // description of memory, especially insns and non-writable
315  ControlFlowGraph cfg_; // basic blocks that will become part of the ROSE AST
316  CfgVertexIndex vertexIndex_; // Vertex-by-address index for the CFG
317  AddressUsageMap aum_; // How addresses are used for each address represented by the CFG
318  SmtSolverPtr solver_; // Satisfiable modulo theory solver used by semantic expressions
319  Functions functions_; // List of all attached functions by entry address
320  bool autoAddCallReturnEdges_; // Add E_CALL_RETURN edges when blocks are attached to CFG?
321  bool assumeFunctionsReturn_; // Assume that unproven functions return to caller?
322  size_t stackDeltaInterproceduralLimit_; // Max depth of call stack when computing stack deltas
323  AddressNameMap addressNames_; // Names for various addresses
324  SemanticMemoryParadigm semanticMemoryParadigm_; // Slow and precise, or fast and imprecise?
325  Unparser::BasePtr unparser_; // For unparsing things to pseudo-assembly
326  Unparser::BasePtr insnUnparser_; // For unparsing single instructions in diagnostics
327 
328  // Callback lists
329  CfgAdjustmentCallbacks cfgAdjustmentCallbacks_;
330  BasicBlockCallbacks basicBlockCallbacks_;
331  FunctionPrologueMatchers functionPrologueMatchers_;
332  FunctionPaddingMatchers functionPaddingMatchers_;
333 
334  // Special CFG vertices.
335  ControlFlowGraph::VertexIterator undiscoveredVertex_;
336  ControlFlowGraph::VertexIterator indeterminateVertex_;
337  ControlFlowGraph::VertexIterator nonexistingVertex_;
338  static const size_t nSpecialVertices = 3;
339 
340  // Protects the following data members
341  mutable SAWYER_THREAD_TRAITS::Mutex mutex_;
342  Progress::Ptr progress_; // Progress reporter to update, or null
343  mutable size_t cfgProgressTotal_; // Expected total for the CFG progress bar; initialized at first report
344 
345 
348  //
349  // Serialization
350  //
353 #ifdef ROSE_HAVE_BOOST_SERIALIZATION_LIB
354 private:
355  friend class boost::serialization::access;
356 
357  template<class S>
358  void serializeCommon(S &s, const unsigned /*version*/) {
359  s.template register_type<InstructionSemantics2::SymbolicSemantics::SValue>();
360  s.template register_type<InstructionSemantics2::SymbolicSemantics::RiscOperators>();
361  s.template register_type<InstructionSemantics2::DispatcherX86>();
362  s.template register_type<InstructionSemantics2::DispatcherM68k>();
363  s.template register_type<InstructionSemantics2::DispatcherPowerpc>();
364  s.template register_type<SymbolicExpr::Interior>();
365  s.template register_type<SymbolicExpr::Leaf>();
366  s.template register_type<YicesSolver>();
367  s.template register_type<Z3Solver>();
368  s.template register_type<Semantics::SValue>();
369  s.template register_type<Semantics::MemoryListState>();
370  s.template register_type<Semantics::MemoryMapState>();
371  s.template register_type<Semantics::RegisterState>();
372  s.template register_type<Semantics::State>();
373  s.template register_type<Semantics::RiscOperators>();
374  s & BOOST_SERIALIZATION_NVP(settings_);
375  // s & config_; -- FIXME[Robb P Matzke 2016-11-08]
376  s & BOOST_SERIALIZATION_NVP(instructionProvider_);
377  s & BOOST_SERIALIZATION_NVP(memoryMap_);
378  s & BOOST_SERIALIZATION_NVP(cfg_);
379  // s & vertexIndex_; -- initialized by rebuildVertexIndices
380  s & BOOST_SERIALIZATION_NVP(aum_);
381  // s & BOOST_SERIALIZATION_NVP(solver_); -- not saved/restored in order to override from command-line
382  s & BOOST_SERIALIZATION_NVP(functions_);
383  s & BOOST_SERIALIZATION_NVP(autoAddCallReturnEdges_);
384  s & BOOST_SERIALIZATION_NVP(assumeFunctionsReturn_);
385  s & BOOST_SERIALIZATION_NVP(stackDeltaInterproceduralLimit_);
386  s & BOOST_SERIALIZATION_NVP(addressNames_);
387  s & BOOST_SERIALIZATION_NVP(semanticMemoryParadigm_);
388  // s & unparser_; -- not saved; restored from disassembler
389  // s & cfgAdjustmentCallbacks_; -- not saved/restored
390  // s & basicBlockCallbacks_; -- not saved/restored
391  // s & functionPrologueMatchers_; -- not saved/restored
392  // s & functionPaddingMatchers_; -- not saved/restored
393  // s & undiscoveredVertex_; -- initialized by rebuildVertexIndices
394  // s & indeterminateVertex_; -- initialized by rebuildVertexIndices
395  // s & nonexistingVertex_; -- initialized by rebuildVertexIndices
396  // s & progress_; -- not saved/restored
397  // s & cfgProgressTotal_; -- not saved/restored
398  }
399 
400  template<class S>
401  void save(S &s, const unsigned version) const {
402  const_cast<Partitioner*>(this)->serializeCommon(s, version);
403  }
404 
405  template<class S>
406  void load(S &s, const unsigned version) {
407  serializeCommon(s, version);
408  rebuildVertexIndices();
409  }
410 
411  BOOST_SERIALIZATION_SPLIT_MEMBER();
412 #endif
413 
414 
417  //
418  // Constructors
419  //
422 public:
427  Partitioner();
428 
433  Partitioner(Disassembler *disassembler, const MemoryMap::Ptr &map);
434 
435  // FIXME[Robb P. Matzke 2014-11-08]: This is not ready for use yet. The problem is that because of the shallow copy, both
436  // partitioners are pointing to the same basic blocks, data blocks, and functions. This is okay by itself since these
437  // things are reference counted, but the paradigm of locked/unlocked blocks and functions breaks down somewhat -- does
438  // unlocking a basic block from one partitioner make it modifiable even though it's still locked in the other partitioner?
439  // FIXME[Robb P. Matzke 2014-12-27]: Not the most efficient implementation, but saves on cut-n-paste which would surely rot
440  // after a while.
441  Partitioner(const Partitioner &other);
442  Partitioner& operator=(const Partitioner &other);
443 
444  ~Partitioner();
445 
452  bool isDefaultConstructed() const { return instructionProvider_ == NULL; }
453 
455  void clear() /*final*/;
456 
464  Configuration& configuration() { return config_; }
465  const Configuration& configuration() const { return config_; }
473  InstructionProvider& instructionProvider() /*final*/ { return *instructionProvider_; }
474  const InstructionProvider& instructionProvider() const /*final*/ { return *instructionProvider_; }
486  MemoryMap::Ptr memoryMap() const /*final*/ { return memoryMap_; }
492  bool addressIsExecutable(rose_addr_t va) const /*final*/ {
493  return memoryMap_!=NULL && memoryMap_->at(va).require(MemoryMap::EXECUTABLE).exists();
494  }
495 
498  //
499  // Unparsing
500  //
503 
513  Unparser::BasePtr unparser() const /*final*/;
514  void unparser(const Unparser::BasePtr&) /*final*/;
526  Unparser::BasePtr insnUnparser() const /*final*/;
527  void insnUnparser(const Unparser::BasePtr&) /*final*/;
538  std::string unparse(SgAsmInstruction*) const;
539  void unparse(std::ostream&, SgAsmInstruction*) const;
540  void unparse(std::ostream&, const BasicBlock::Ptr&) const;
541  void unparse(std::ostream&, const DataBlock::Ptr&) const;
542  void unparse(std::ostream&, const Function::Ptr&) const;
543  void unparse(std::ostream&) const;
546  //
549  // Partitioner CFG queries
550  //
553 public:
559  size_t nBytes() const /*final*/ { return aum_.size(); }
560 
568  ControlFlowGraph::VertexIterator undiscoveredVertex() /*final*/ {
569  return undiscoveredVertex_;
570  }
571  ControlFlowGraph::ConstVertexIterator undiscoveredVertex() const /*final*/ {
572  return undiscoveredVertex_;
573  }
586  ControlFlowGraph::VertexIterator indeterminateVertex() /*final*/ {
587  return indeterminateVertex_;
588  }
589  ControlFlowGraph::ConstVertexIterator indeterminateVertex() const /*final*/ {
590  return indeterminateVertex_;
591  }
603  ControlFlowGraph::VertexIterator nonexistingVertex() /*final*/ {
604  return nonexistingVertex_;
605  }
606  ControlFlowGraph::ConstVertexIterator nonexistingVertex() const /*final*/ {
607  return nonexistingVertex_;
608  }
617  const ControlFlowGraph& cfg() const /*final*/ { return cfg_; }
618 
625  const AddressUsageMap& aum() const /*final*/ { return aum_; }
626 
628  AddressUsageMap aum(const Function::Ptr&) const /*final*/;
629 
634  std::vector<AddressUser> users(rose_addr_t) const /*final*/;
635 
643  std::set<rose_addr_t> ghostSuccessors() const /*final*/;
644 
673  bool isEdgeIntraProcedural(ControlFlowGraph::ConstEdgeIterator edge,
674  const Function::Ptr &function = Function::Ptr()) const /*final*/;
675  bool isEdgeIntraProcedural(const ControlFlowGraph::Edge &edge,
676  const Function::Ptr &function = Function::Ptr()) const /*final*/;
713  bool isEdgeInterProcedural(ControlFlowGraph::ConstEdgeIterator edge,
714  const Function::Ptr &sourceFunction = Function::Ptr(),
715  const Function::Ptr &targetFunction = Function::Ptr()) const /*final*/;
716  bool isEdgeInterProcedural(const ControlFlowGraph::Edge &edge,
717  const Function::Ptr &sourceFunction = Function::Ptr(),
718  const Function::Ptr &targetFunction = Function::Ptr()) const /*final*/;
723  //
726  // Partitioner instruction operations
727  //
730 public:
736  size_t nInstructions() const /*final*/;
737 
747  Sawyer::Optional<AddressUser> instructionExists(rose_addr_t startVa) const /*final*/ {
748  return aum_.instructionExists(startVa);
749  }
750  Sawyer::Optional<AddressUser> instructionExists(SgAsmInstruction *insn) const /*final*/ {
751  return insn==NULL ? Sawyer::Nothing() : instructionExists(insn->get_address());
752  }
761  ControlFlowGraph::ConstVertexIterator instructionVertex(rose_addr_t insnVa) const;
762 
771  std::vector<SgAsmInstruction*> instructionsOverlapping(const AddressInterval&) const /*final*/;
772 
781  std::vector<SgAsmInstruction*> instructionsSpanning(const AddressInterval&) const /*final*/;
782 
792  std::vector<SgAsmInstruction*> instructionsContainedIn(const AddressInterval&) const /*final*/;
793 
801  AddressInterval instructionExtent(SgAsmInstruction*) const /*final*/;
802 
815  SgAsmInstruction* discoverInstruction(rose_addr_t startVa) const /*final*/;
816 
821  CrossReferences instructionCrossReferences(const AddressIntervalSet &restriction) const /*final*/;
822 
823 
826  //
827  // Partitioner basic block placeholder operations
828  //
831 public:
841  size_t nPlaceholders() const /*final*/;
842 
851  bool placeholderExists(rose_addr_t startVa) const /*final*/;
852 
863  ControlFlowGraph::VertexIterator findPlaceholder(rose_addr_t startVa) /*final*/ {
864  if (Sawyer::Optional<ControlFlowGraph::VertexIterator> found = vertexIndex_.getOptional(startVa))
865  return *found;
866  return cfg_.vertices().end();
867  }
868  ControlFlowGraph::ConstVertexIterator findPlaceholder(rose_addr_t startVa) const /*final*/ {
869  if (Sawyer::Optional<ControlFlowGraph::VertexIterator> found = vertexIndex_.getOptional(startVa))
870  return *found;
871  return cfg_.vertices().end();
872  }
891  ControlFlowGraph::VertexIterator insertPlaceholder(rose_addr_t startVa) /*final*/;
892 
906  BasicBlock::Ptr erasePlaceholder(const ControlFlowGraph::ConstVertexIterator &placeholder) /*final*/;
907  BasicBlock::Ptr erasePlaceholder(rose_addr_t startVa) /*final*/;
912  //
915  // Partitioner basic block operations
916  //
919 public:
933  bool basicBlockSemanticsAutoDrop() const /*final*/ { return settings_.basicBlockSemanticsAutoDrop; }
934  void basicBlockSemanticsAutoDrop(bool b) { settings_.basicBlockSemanticsAutoDrop = b; }
945  void basicBlockDropSemantics() const /*final*/;
946 
955  size_t nBasicBlocks() const /*final*/;
956 
964  std::vector<BasicBlock::Ptr> basicBlocks() const /*final*/;
965 
987  BasicBlock::Ptr basicBlockExists(rose_addr_t startVa) const /*final*/;
988  BasicBlock::Ptr basicBlockExists(const BasicBlock::Ptr&) const /*final*/;
1000  std::vector<BasicBlock::Ptr> basicBlocksOverlapping(const AddressInterval&) const /*final*/;
1001 
1012  std::vector<BasicBlock::Ptr> basicBlocksSpanning(const AddressInterval&) const /*final*/;
1013 
1023  std::vector<BasicBlock::Ptr> basicBlocksContainedIn(const AddressInterval&) const /*final*/;
1024 
1031  BasicBlock::Ptr basicBlockContainingInstruction(rose_addr_t insnVa) const /*final*/;
1032 
1042  AddressIntervalSet basicBlockInstructionExtent(const BasicBlock::Ptr&) const /*final*/;
1043 
1049  AddressIntervalSet basicBlockDataExtent(const BasicBlock::Ptr&) const /*final*/;
1050 
1075  BasicBlock::Ptr detachBasicBlock(rose_addr_t startVa) /*final*/;
1076  BasicBlock::Ptr detachBasicBlock(const BasicBlock::Ptr &basicBlock) /*final*/;
1077  BasicBlock::Ptr detachBasicBlock(const ControlFlowGraph::ConstVertexIterator &placeholder) /*final*/;
1092  ControlFlowGraph::VertexIterator truncateBasicBlock(const ControlFlowGraph::ConstVertexIterator &basicBlock,
1093  SgAsmInstruction *insn) /*final*/;
1094 
1127  void attachBasicBlock(const BasicBlock::Ptr&) /*final*/;
1128  void attachBasicBlock(const ControlFlowGraph::ConstVertexIterator &placeholder, const BasicBlock::Ptr&) /*final*/;
1216  BasicBlock::Ptr discoverBasicBlock(rose_addr_t startVa) const /*final*/;
1217  BasicBlock::Ptr discoverBasicBlock(const ControlFlowGraph::ConstVertexIterator &placeholder) const /*final*/;
1234  BasicBlock::Successors basicBlockSuccessors(const BasicBlock::Ptr&,
1235  Precision::Level precision = Precision::HIGH) const /*final*/;
1236 
1245  std::vector<rose_addr_t> basicBlockConcreteSuccessors(const BasicBlock::Ptr&, bool *isComplete=NULL) const /*final*/;
1246 
1265  std::set<rose_addr_t> basicBlockGhostSuccessors(const BasicBlock::Ptr&) const /*final*/;
1266 
1276  bool basicBlockIsFunctionCall(const BasicBlock::Ptr&, Precision::Level precision = Precision::HIGH) const /*final*/;
1277 
1288  bool basicBlockIsFunctionReturn(const BasicBlock::Ptr&) const /*final*/;
1289 
1294  bool basicBlockPopsStack(const BasicBlock::Ptr&) const /*final*/;
1295 
1335  BaseSemantics::SValuePtr basicBlockStackDeltaIn(const BasicBlock::Ptr&, const Function::Ptr &function) const /*final*/;
1336  BaseSemantics::SValuePtr basicBlockStackDeltaOut(const BasicBlock::Ptr&, const Function::Ptr &function) const /*final*/;
1347  void forgetStackDeltas() const /*final*/;
1348  void forgetStackDeltas(const Function::Ptr&) const /*final*/;
1360  size_t stackDeltaInterproceduralLimit() const /*final*/ { return stackDeltaInterproceduralLimit_; }
1361  void stackDeltaInterproceduralLimit(size_t n) /*final*/ { stackDeltaInterproceduralLimit_ = std::max(size_t(1), n); }
1414  Sawyer::Optional<bool> basicBlockOptionalMayReturn(const BasicBlock::Ptr&) const /*final*/;
1415 
1416  Sawyer::Optional<bool> basicBlockOptionalMayReturn(const ControlFlowGraph::ConstVertexIterator&) const /*final*/;
1425  void basicBlockMayReturnReset() const /*final*/;
1426 
1427 private:
1428  // Per-vertex data used during may-return analysis
1429  struct MayReturnVertexInfo {
1430  enum State {INIT, CALCULATING, FINISHED};
1431  State state; // current state of vertex
1432  bool processedCallees; // have we processed BBs this vertex calls?
1433  boost::logic::tribool anyCalleesReturn; // do any of those called BBs have a true may-return value?
1434  boost::logic::tribool result; // final result (eventually cached in BB)
1435  MayReturnVertexInfo(): state(INIT), processedCallees(false), anyCalleesReturn(false), result(boost::indeterminate) {}
1436  };
1437 
1438  // Is edge significant for analysis? See .C file for full documentation.
1439  bool mayReturnIsSignificantEdge(const ControlFlowGraph::ConstEdgeIterator &edge,
1440  std::vector<MayReturnVertexInfo> &vertexInfo) const;
1441 
1442  // Determine (and cache in vertexInfo) whether any callees return.
1443  boost::logic::tribool mayReturnDoesCalleeReturn(const ControlFlowGraph::ConstVertexIterator &vertex,
1444  std::vector<MayReturnVertexInfo> &vertexInfo) const;
1445 
1446  // Maximum may-return result from significant successors including phantom call-return edge.
1447  boost::logic::tribool mayReturnDoesSuccessorReturn(const ControlFlowGraph::ConstVertexIterator &vertex,
1448  std::vector<MayReturnVertexInfo> &vertexInfo) const;
1449 
1450  // The guts of the may-return analysis
1451  Sawyer::Optional<bool> basicBlockOptionalMayReturn(const ControlFlowGraph::ConstVertexIterator &start,
1452  std::vector<MayReturnVertexInfo> &vertexInfo) const;
1453 
1454 
1455 
1458  //
1459  // Partitioner data block operations
1460  //
1463 public:
1469  size_t nDataBlocks() const /*final*/;
1470 
1476  bool dataBlockExists(const DataBlock::Ptr&) const /*final*/;
1477 
1486  DataBlock::Ptr findBestDataBlock(const AddressInterval&) const /*final*/;
1487 
1496  void attachDataBlock(const DataBlock::Ptr&) /*final*/;
1497 
1504  DataBlock::Ptr detachDataBlock(const DataBlock::Ptr&) /*final*/;
1505 
1515  DataBlock::Ptr attachDataBlockToFunction(const DataBlock::Ptr&, const Function::Ptr&) /*final*/;
1516 
1529  DataBlock::Ptr attachDataBlockToBasicBlock(const DataBlock::Ptr&, const BasicBlock::Ptr&) /*final*/;
1530 
1540  std::vector<DataBlock::Ptr> dataBlocksOverlapping(const AddressInterval&) const /*final*/;
1541 
1551  std::vector<DataBlock::Ptr> dataBlocksSpanning(const AddressInterval&) const /*final*/;
1552 
1562  std::vector<DataBlock::Ptr> dataBlocksContainedIn(const AddressInterval&) const /*final*/;
1563 
1570  AddressInterval dataBlockExtent(const DataBlock::Ptr&) const /*final*/;
1571 
1577  std::vector<DataBlock::Ptr> dataBlocks() const /*final*/;
1578 
1579 
1580 
1583  //
1584  // Partitioner function operations
1585  //
1588 public:
1594  size_t nFunctions() const /*final*/ { return functions_.size(); }
1595 
1614  Function::Ptr functionExists(rose_addr_t entryVa) const /*final*/;
1615  Function::Ptr functionExists(const BasicBlock::Ptr &entryBlock) const /*final*/;
1616  Function::Ptr functionExists(const Function::Ptr &function) const /*final*/;
1624  std::vector<Function::Ptr> functions() const /*final*/;
1625 
1635  std::vector<Function::Ptr> functionsOverlapping(const AddressInterval&) const /*final*/;
1636 
1647  std::vector<Function::Ptr> functionsSpanning(const AddressInterval&) const /*final*/;
1648 
1658  std::vector<Function::Ptr> functionsContainedIn(const AddressInterval&) const /*final*/;
1659 
1676  AddressIntervalSet functionExtent(const Function::Ptr&) const /*final*/;
1677  void functionExtent(const Function::Ptr &function, AddressIntervalSet &retval /*in,out*/) const /*final*/;
1678  AddressIntervalSet functionBasicBlockExtent(const Function::Ptr &function) const /*final*/;
1679  void functionBasicBlockExtent(const Function::Ptr &function, AddressIntervalSet &retval /*in,out*/) const /*final*/;
1680  AddressIntervalSet functionDataBlockExtent(const Function::Ptr &function) const /*final*/;
1681  void functionDataBlockExtent(const Function::Ptr &function, AddressIntervalSet &retval /*in,out*/) const /*final*/;
1703  size_t attachFunction(const Function::Ptr&) /*final*/;
1704  size_t attachFunctions(const Functions&) /*final*/;
1720  Function::Ptr attachOrMergeFunction(const Function::Ptr&) /*final*/;
1721 
1738  size_t attachFunctionBasicBlocks(const Functions&) /*final*/;
1739  size_t attachFunctionBasicBlocks(const Function::Ptr&) /*final*/;
1755  void detachFunction(const Function::Ptr&) /*final*/;
1756 
1791  std::vector<Function::Ptr>
1792  functionsOwningBasicBlock(const ControlFlowGraph::Vertex&, bool doSort = true) const /*final*/;
1793 
1794  std::vector<Function::Ptr>
1795  functionsOwningBasicBlock(const ControlFlowGraph::ConstVertexIterator&, bool doSort = true) const /*final*/;
1796 
1797  std::vector<Function::Ptr>
1798  functionsOwningBasicBlock(rose_addr_t bblockVa, bool doSort = true) const /*final*/;
1799 
1800  std::vector<Function::Ptr>
1801  functionsOwningBasicBlock(const BasicBlock::Ptr&, bool doSort = true) const /*final*/;
1802 
1803  template<class Container> // container can hold any type accepted by functionsOwningBasicBlock
1804  std::vector<Function::Ptr>
1805  functionsOwningBasicBlocks(const Container &bblocks) const /*final*/ {
1806  std::vector<Function::Ptr> retval;
1807  BOOST_FOREACH (const typename Container::value_type& bblock, bblocks) {
1808  BOOST_FOREACH (const Function::Ptr &function, functionsOwningBasicBlock(bblock, false))
1809  insertUnique(retval, function, sortFunctionsByAddress);
1810  }
1811  return retval;
1812  }
1824  std::vector<Function::Ptr> discoverCalledFunctions() const /*final*/;
1825 
1837  std::vector<Function::Ptr> discoverFunctionEntryVertices() const /*final*/;
1838 
1848  Sawyer::Optional<Thunk> functionIsThunk(const Function::Ptr&) const /*final*/;
1849 
1860  void discoverFunctionBasicBlocks(const Function::Ptr &function) const /*final*/;
1861 
1868  std::set<rose_addr_t> functionGhostSuccessors(const Function::Ptr&) const /*final*/;
1869 
1877  FunctionCallGraph functionCallGraph(AllowParallelEdges::Type allowParallelEdges) const /*final*/;
1878 
1898  BaseSemantics::SValuePtr functionStackDelta(const Function::Ptr &function) const /*final*/;
1899 
1903  void allFunctionStackDelta() const /*final*/;
1904 
1911  Sawyer::Optional<bool> functionOptionalMayReturn(const Function::Ptr &function) const /*final*/;
1912 
1916  void allFunctionMayReturn() const /*final*/;
1917 
1944  const CallingConvention::Analysis&
1945  functionCallingConvention(const Function::Ptr&,
1946  const CallingConvention::Definition::Ptr &dflt = CallingConvention::Definition::Ptr())
1947  const /*final*/;
1948 
1961  void
1962  allFunctionCallingConvention(const CallingConvention::Definition::Ptr &dflt = CallingConvention::Definition::Ptr())
1963  const /*final*/;
1964 
1990  CallingConvention::Dictionary
1991  functionCallingConventionDefinitions(const Function::Ptr&,
1992  const CallingConvention::Definition::Ptr &dflt = CallingConvention::Definition::Ptr())
1993  const /*final*/;
1994 
2007  void
2008  allFunctionCallingConventionDefinition(const CallingConvention::Definition::Ptr &dflt =
2009  CallingConvention::Definition::Ptr()) const /*final*/;
2010 
2019  void fixInterFunctionEdges() /*final*/;
2020  void fixInterFunctionEdge(const ControlFlowGraph::ConstEdgeIterator&) /*final*/;
2040  bool functionIsNoop(const Function::Ptr&) const /*final*/;
2041 
2047  void allFunctionIsNoop() const /*final*/;
2048 
2056  void forgetFunctionIsNoop() const /*final*/;
2057  void forgetFunctionIsNoop(const Function::Ptr&) const /*final*/;
2064  std::set<rose_addr_t> functionDataFlowConstants(const Function::Ptr&) const /*final*/;
2065 
2066 
2067 
2070  //
2071  // Callbacks
2072  //
2075 public:
2093  CfgAdjustmentCallbacks& cfgAdjustmentCallbacks() /*final*/ { return cfgAdjustmentCallbacks_; }
2094  const CfgAdjustmentCallbacks& cfgAdjustmentCallbacks() const /*final*/ { return cfgAdjustmentCallbacks_; }
2105  BasicBlockCallbacks& basicBlockCallbacks() /*final*/ { return basicBlockCallbacks_; }
2106  const BasicBlockCallbacks& basicBlockCallbacks() const /*final*/ { return basicBlockCallbacks_; }
2109 public:
2117  FunctionPrologueMatchers& functionPrologueMatchers() /*final*/ { return functionPrologueMatchers_; }
2118  const FunctionPrologueMatchers& functionPrologueMatchers() const /*final*/ { return functionPrologueMatchers_; }
2140  std::vector<Function::Ptr> nextFunctionPrologue(rose_addr_t startVa) /*final*/;
2141 
2142 public:
2148  FunctionPaddingMatchers& functionPaddingMatchers() /*final*/ { return functionPaddingMatchers_; }
2149  const FunctionPaddingMatchers& functionPaddingMatchers() const /*final*/ { return functionPaddingMatchers_; }
2159  DataBlock::Ptr matchFunctionPadding(const Function::Ptr&) /*final*/;
2160 
2161 
2162 
2165  //
2166  // Partitioner miscellaneous
2167  //
2170 public:
2182  void dumpCfg(std::ostream&, const std::string &prefix="", bool showBlocks=true,
2183  bool computeProperties=true) const /*final*/;
2184 
2198  void cfgGraphViz(std::ostream&, const AddressInterval &restrict = AddressInterval::whole(),
2199  bool showNeighbors=true) const /*final*/;
2200 
2206  static std::string vertexName(const ControlFlowGraph::Vertex&) /*final*/;
2207  std::string vertexName(const ControlFlowGraph::ConstVertexIterator&) const /*final*/;
2213  static std::string vertexNameEnd(const ControlFlowGraph::Vertex&) /*final*/;
2214 
2220  static std::string edgeNameSrc(const ControlFlowGraph::Edge&) /*final*/;
2221  std::string edgeNameSrc(const ControlFlowGraph::ConstEdgeIterator&) const /*final*/;
2229  static std::string edgeNameDst(const ControlFlowGraph::Edge&) /*final*/;
2230  std::string edgeNameDst(const ControlFlowGraph::ConstEdgeIterator&) const /*final*/;
2238  static std::string edgeName(const ControlFlowGraph::Edge&) /*final*/;
2239  std::string edgeName(const ControlFlowGraph::ConstEdgeIterator&) const /*final*/;
2245  static std::string basicBlockName(const BasicBlock::Ptr&) /*final*/;
2246 
2250  static std::string dataBlockName(const DataBlock::Ptr&) /*final*/;
2251 
2255  static std::string functionName(const Function::Ptr&) /*final*/;
2256 
2274  Progress::Ptr progress() const /*final*/;
2275  void progress(const Progress::Ptr&) /*final*/;
2282  void updateProgress(const std::string &phase, double completion) const;
2283 
2285  void showStatistics() const;
2286 
2288  // Settings
2290 public:
2291 
2299  const BasePartitionerSettings& settings() const /*final*/ { return settings_; }
2300  void settings(const BasePartitionerSettings &s) /*final*/ { settings_ = s; }
2311  void enableSymbolicSemantics(bool b=true) /*final*/ { settings_.usingSemantics = b; }
2312  void disableSymbolicSemantics() /*final*/ { settings_.usingSemantics = false; }
2313  bool usingSymbolicSemantics() const /*final*/ { return settings_.usingSemantics; }
2337  void autoAddCallReturnEdges(bool b) /*final*/ { autoAddCallReturnEdges_ = b; }
2338  bool autoAddCallReturnEdges() const /*final*/ { return autoAddCallReturnEdges_; }
2355  void assumeFunctionsReturn(bool b) /*final*/ { assumeFunctionsReturn_ = b; }
2356  bool assumeFunctionsReturn() const /*final*/ { return assumeFunctionsReturn_; }
2368  void addressName(rose_addr_t, const std::string&) /*final*/;
2369  const std::string& addressName(rose_addr_t va) const /*final*/ { return addressNames_.getOrDefault(va); }
2370  const AddressNameMap& addressNames() const /*final*/ { return addressNames_; }
2380  bool checkingCallBranch() const /*final*/ { return settings_.checkingCallBranch; }
2381  void checkingCallBranch(bool b) /*final*/ { settings_.checkingCallBranch = b; }
2385  //
2388  // Instruction semantics
2389  //
2392 public:
2402  SemanticMemoryParadigm semanticMemoryParadigm() const { return semanticMemoryParadigm_; }
2403  void semanticMemoryParadigm(SemanticMemoryParadigm p) { semanticMemoryParadigm_ = p; }
2412  SmtSolverPtr smtSolver() const /*final*/ { return solver_; }
2413 
2424  BaseSemantics::RiscOperatorsPtr newOperators() const /*final*/;
2425  BaseSemantics::RiscOperatorsPtr newOperators(SemanticMemoryParadigm) const /*final*/;
2435  BaseSemantics::DispatcherPtr newDispatcher(const BaseSemantics::RiscOperatorsPtr&) const /*final*/;
2436 
2437 
2438 
2441  //
2442  // Python API support functions
2443  //
2446 #ifdef ROSE_ENABLE_PYTHON_API
2447  void pythonUnparse() const;
2448 #endif
2449 
2450 
2451 
2454  //
2455  // Partitioner internal utilities
2456  //
2459 private:
2460  void init(Disassembler*, const MemoryMap::Ptr&);
2461  void init(const Partitioner&);
2462  void updateCfgProgress();
2463 
2464 private:
2465  // Convert a CFG vertex iterator from one partitioner to another. This is called during copy construction when the source
2466  // and destination CFGs are identical.
2467  ControlFlowGraph::VertexIterator convertFrom(const Partitioner &other,
2468  ControlFlowGraph::ConstVertexIterator otherIter);
2469 
2470  // Adjusts edges for a placeholder vertex. This method erases all outgoing edges for the specified placeholder vertex and
2471  // then inserts a single edge from the placeholder to the special "undiscovered" vertex. */
2472  ControlFlowGraph::EdgeIterator adjustPlaceholderEdges(const ControlFlowGraph::VertexIterator &placeholder);
2473 
2474  // Adjusts edges for a non-existing basic block. This method erases all outgoing edges for the specified vertex and
2475  // then inserts a single edge from the vertex to the special "non-existing" vertex. */
2476  ControlFlowGraph::EdgeIterator adjustNonexistingEdges(const ControlFlowGraph::VertexIterator &vertex);
2477 
2478  // Implementation for the discoverBasicBlock methods. The startVa must not be the address of an existing placeholder.
2479  BasicBlock::Ptr discoverBasicBlockInternal(rose_addr_t startVa) const;
2480 
2481  // Checks consistency of internal data structures when debugging is enable (when NDEBUG is not defined).
2482  void checkConsistency() const;
2483 
2484  // This method is called whenever a new placeholder is inserted into the CFG or a new basic block is attached to the
2485  // CFG/AUM. The call happens immediately after the CFG/AUM are updated.
2486  void bblockAttached(const ControlFlowGraph::VertexIterator &newVertex);
2487 
2488  // This method is called whenever a basic block is detached from the CFG/AUM or when a placeholder is erased from the CFG.
2489  // The call happens immediately after the CFG/AUM are updated.
2490  void bblockDetached(rose_addr_t startVa, const BasicBlock::Ptr &removedBlock);
2491 
2492  // Rebuild the vertexIndex_ and other cache-like data members from the control flow graph
2493  void rebuildVertexIndices();
2494 };
2495 
2496 } // namespace
2497 } // namespace
2498 } // namespace
2499 
2500 #endif
Rose::BinaryAnalysis::Partitioner2::Partitioner::Thunk
Represents information about a thunk.
Definition: Partitioner.h:301
Rose::BinaryAnalysis::Partitioner2::AddressUsageMap::size
size_t size() const
Number of addresses represented by the map.
Definition: AddressUsageMap.h:390
Rose::BinaryAnalysis::Partitioner2::Partitioner::BasicBlockCallbacks
Sawyer::Callbacks< BasicBlockCallback::Ptr > BasicBlockCallbacks
See basicBlockCallbacks.
Definition: Partitioner.h:296
Rose::BinaryAnalysis::Partitioner2::Partitioner::functionPrologueMatchers
const FunctionPrologueMatchers & functionPrologueMatchers() const
Ordered list of function prologue matchers.
Definition: Partitioner.h:2118
Rose::BinaryAnalysis::Partitioner2::Partitioner::smtSolver
SmtSolverPtr smtSolver() const
SMT solver.
Definition: Partitioner.h:2412
Rose::BinaryAnalysis::Partitioner2::Partitioner::Thunk::bblock
BasicBlock::Ptr bblock
The one and only basic block for the thunk.
Definition: Partitioner.h:302
Rose::BinaryAnalysis::Partitioner2::Partitioner::functionPrologueMatchers
FunctionPrologueMatchers & functionPrologueMatchers()
Ordered list of function prologue matchers.
Definition: Partitioner.h:2117
Rose::BinaryAnalysis::Partitioner2::Partitioner::addressName
const std::string & addressName(rose_addr_t va) const
Property: Name for address.
Definition: Partitioner.h:2369
Rose::BinaryAnalysis::Partitioner2::Partitioner::disableSymbolicSemantics
void disableSymbolicSemantics()
Use or not use symbolic semantics.
Definition: Partitioner.h:2312
Rose::BinaryAnalysis::Partitioner2::Partitioner::checkingCallBranch
void checkingCallBranch(bool b)
Property: Whether to look for function calls used as branches.
Definition: Partitioner.h:2381
Rose::BinaryAnalysis::Partitioner2::Partitioner::indeterminateVertex
ControlFlowGraph::ConstVertexIterator indeterminateVertex() const
Returns the special "indeterminate" vertex.
Definition: Partitioner.h:589
Rose::BinaryAnalysis::Partitioner2::Partitioner::configuration
const Configuration & configuration() const
Configuration information.
Definition: Partitioner.h:465
SgAsmInstruction
Base class for machine instructions.
Definition: binaryInstruction.C:676
Rose::BinaryAnalysis::Partitioner2::Partitioner::instructionExists
Sawyer::Optional< AddressUser > instructionExists(SgAsmInstruction *insn) const
Determines whether an instruction is attached to the CFG/AUM.
Definition: Partitioner.h:750
Rose::BinaryAnalysis::Partitioner2::Partitioner::functionPaddingMatchers
const FunctionPaddingMatchers & functionPaddingMatchers() const
Ordered list of function padding matchers.
Definition: Partitioner.h:2149
Rose::BinaryAnalysis::Partitioner2::Partitioner::cfg
const ControlFlowGraph & cfg() const
Returns the control flow graph.
Definition: Partitioner.h:617
Rose::BinaryAnalysis::InstructionProvider
Provides and caches instructions.
Definition: InstructionProvider.h:28
Rose::BinaryAnalysis::Partitioner2::BasePartitionerSettings
Settings that directly control a partitioner.
Definition: BasicTypes.h:277
std
STL namespace.
Sawyer::Optional
Holds a value or nothing.
Definition: Optional.h:49
Rose::BinaryAnalysis::Partitioner2::Partitioner::indeterminateVertex
ControlFlowGraph::VertexIterator indeterminateVertex()
Returns the special "indeterminate" vertex.
Definition: Partitioner.h:586
Rose::BinaryAnalysis::Partitioner2::Partitioner::instructionProvider
InstructionProvider & instructionProvider()
Returns the instruction provider.
Definition: Partitioner.h:473
Sawyer::Container::Graph::vertices
boost::iterator_range< VertexIterator > vertices()
Iterators for all vertices.
Definition: Graph.h:1462
Rose
Main namespace for the ROSE library.
Definition: BinaryTutorial.dox:3
Rose::BinaryAnalysis::Partitioner2::Partitioner::AddressNameMap
Sawyer::Container::Map< rose_addr_t, std::string > AddressNameMap
Map address to name.
Definition: Partitioner.h:308
Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockCallbacks
BasicBlockCallbacks & basicBlockCallbacks()
Callbacks for adjusting basic block during discovery.
Definition: Partitioner.h:2105
Rose::BinaryAnalysis::Partitioner2::Partitioner::undiscoveredVertex
ControlFlowGraph::VertexIterator undiscoveredVertex()
Returns the special "undiscovered" vertex.
Definition: Partitioner.h:568
Rose::BinaryAnalysis::Partitioner2::Partitioner::semanticMemoryParadigm
SemanticMemoryParadigm semanticMemoryParadigm() const
Property: Whether to use map- or list-based memory states.
Definition: Partitioner.h:2402
Sawyer
Name space for the entire library.
Definition: BinaryFeasiblePath.h:575
Rose::BinaryAnalysis::Partitioner2::Partitioner::configuration
Configuration & configuration()
Configuration information.
Definition: Partitioner.h:464
Rose::BinaryAnalysis::Partitioner2::Partitioner::assumeFunctionsReturn
bool assumeFunctionsReturn() const
Property: Assume (or not) that function calls return.
Definition: Partitioner.h:2356
Rose::BinaryAnalysis::Partitioner2::Partitioner::findPlaceholder
ControlFlowGraph::ConstVertexIterator findPlaceholder(rose_addr_t startVa) const
Find the CFG vertex for a basic block placeholder.
Definition: Partitioner.h:868
Rose::BinaryAnalysis::Partitioner2::Partitioner::aum
const AddressUsageMap & aum() const
Returns the address usage map.
Definition: Partitioner.h:625
Rose::BinaryAnalysis::Partitioner2::Partitioner::addressNames
const AddressNameMap & addressNames() const
Property: Name for address.
Definition: Partitioner.h:2370
Sawyer::Container::HashMap::getOptional
Optional< Value > getOptional(const Key &key) const
Lookup and return a value or nothing.
Definition: HashMap.h:434
Rose::BinaryAnalysis::InstructionSemantics2::BaseSemantics
Base classes for instruction semantics.
Definition: BaseSemantics2.h:305
Rose::BinaryAnalysis::Partitioner2::Partitioner::settings
void settings(const BasePartitionerSettings &s)
Partitioner settings.
Definition: Partitioner.h:2300
Rose::BinaryAnalysis::Partitioner2::Partitioner::assumeFunctionsReturn
void assumeFunctionsReturn(bool b)
Property: Assume (or not) that function calls return.
Definition: Partitioner.h:2355
Rose::BinaryAnalysis::Partitioner2::AddressUsageMap::instructionExists
bool instructionExists(SgAsmInstruction *) const
Determines whether an instruction exists in the map.
Rose::BinaryAnalysis::Partitioner2::Partitioner::Thunk::target
rose_addr_t target
The one and only successor for the basic block.
Definition: Partitioner.h:303
Rose::BinaryAnalysis::InstructionSemantics2::BaseSemantics::RiscOperatorsPtr
boost::shared_ptr< class RiscOperators > RiscOperatorsPtr
Shared-ownership pointer to a RISC operators object.
Definition: BaseSemantics2.h:1357
Rose::BinaryAnalysis::Partitioner2::Partitioner::nonexistingVertex
ControlFlowGraph::VertexIterator nonexistingVertex()
Returns the special "non-existing" vertex.
Definition: Partitioner.h:603
Rose::BinaryAnalysis::Partitioner2::Partitioner::isDefaultConstructed
bool isDefaultConstructed() const
Return true if this is a default constructed partitioner.
Definition: Partitioner.h:452
Rose::BinaryAnalysis::Partitioner2::Partitioner::usingSymbolicSemantics
bool usingSymbolicSemantics() const
Use or not use symbolic semantics.
Definition: Partitioner.h:2313
Rose::BinaryAnalysis::Partitioner2::SemanticMemoryParadigm
SemanticMemoryParadigm
Organization of semantic memory.
Definition: BasicTypes.h:80
Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockCallbacks
const BasicBlockCallbacks & basicBlockCallbacks() const
Callbacks for adjusting basic block during discovery.
Definition: Partitioner.h:2106
Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockSemanticsAutoDrop
void basicBlockSemanticsAutoDrop(bool b)
Property: Automatically drop semantics for attached basic blocks.
Definition: Partitioner.h:934
Sawyer::Container::Map::getOrDefault
const Value & getOrDefault(const Key &key) const
Lookup and return a value or a default.
Definition: Sawyer/Map.h:577
Rose::BinaryAnalysis::Partitioner2::Partitioner::stackDeltaInterproceduralLimit
void stackDeltaInterproceduralLimit(size_t n)
Property: max depth for inter-procedural stack delta analysis.
Definition: Partitioner.h:1361
Rose::BinaryAnalysis::Partitioner2::Partitioner::instructionProvider
const InstructionProvider & instructionProvider() const
Returns the instruction provider.
Definition: Partitioner.h:474
Rose::BinaryAnalysis::Partitioner2::BasePartitionerSettings::checkingCallBranch
bool checkingCallBranch
Check for situations where CALL is used as a branch.
Definition: BasicTypes.h:282
Rose::BinaryAnalysis::Partitioner2::BasePartitionerSettings::usingSemantics
bool usingSemantics
Whether instruction semantics are used.
Definition: BasicTypes.h:278
Rose::Progress
A general, thread-safe way to report progress made on some task.
Definition: Progress.h:164
Rose::BinaryAnalysis::Partitioner2::Partitioner::autoAddCallReturnEdges
void autoAddCallReturnEdges(bool b)
Property: Insert (or not) function call return edges.
Definition: Partitioner.h:2337
Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockSemanticsAutoDrop
bool basicBlockSemanticsAutoDrop() const
Property: Automatically drop semantics for attached basic blocks.
Definition: Partitioner.h:933
Rose::BinaryAnalysis::Partitioner2::BasePartitionerSettings::basicBlockSemanticsAutoDrop
bool basicBlockSemanticsAutoDrop
Conserve memory by dropping semantics for attached basic blocks.
Definition: BasicTypes.h:283
Rose::BinaryAnalysis::Partitioner2::Partitioner::undiscoveredVertex
ControlFlowGraph::ConstVertexIterator undiscoveredVertex() const
Returns the special "undiscovered" vertex.
Definition: Partitioner.h:571
Rose::BinaryAnalysis::Partitioner2::Partitioner::nonexistingVertex
ControlFlowGraph::ConstVertexIterator nonexistingVertex() const
Returns the special "non-existing" vertex.
Definition: Partitioner.h:606
Rose::BinaryAnalysis::Partitioner2::Partitioner::FunctionPrologueMatchers
std::vector< FunctionPrologueMatcher::Ptr > FunctionPrologueMatchers
See functionPrologueMatchers.
Definition: Partitioner.h:297
Rose::BinaryAnalysis::Partitioner2::Partitioner::functionPaddingMatchers
FunctionPaddingMatchers & functionPaddingMatchers()
Ordered list of function padding matchers.
Definition: Partitioner.h:2148
Rose::BinaryAnalysis::Partitioner2::Partitioner::cfgAdjustmentCallbacks
const CfgAdjustmentCallbacks & cfgAdjustmentCallbacks() const
List of all callbacks invoked when the CFG is adjusted.
Definition: Partitioner.h:2094
Sawyer::Attribute::Storage
API and storage for attributes.
Definition: Attribute.h:208
Sawyer::Nothing
Represents no value.
Definition: Optional.h:32
Rose::BinaryAnalysis::Partitioner2::Partitioner::memoryMap
MemoryMap::Ptr memoryMap() const
Returns the memory map.
Definition: Partitioner.h:486
Rose::BinaryAnalysis::Partitioner2::Partitioner
Partitions instructions into basic blocks and functions.
Definition: Partitioner.h:293
Rose::BinaryAnalysis::Partitioner2::Partitioner::checkingCallBranch
bool checkingCallBranch() const
Property: Whether to look for function calls used as branches.
Definition: Partitioner.h:2380
Rose::BinaryAnalysis::Partitioner2::Partitioner::addressIsExecutable
bool addressIsExecutable(rose_addr_t va) const
Returns true if address is executable.
Definition: Partitioner.h:492
Rose::BinaryAnalysis::Disassembler
Virtual base class for instruction disassemblers.
Definition: Disassembler.h:43
Sawyer::Container::Map::size
size_t size() const
Number of nodes, keys, or values in this container.
Definition: Sawyer/Map.h:386
Rose::BinaryAnalysis::Partitioner2::Partitioner::enableSymbolicSemantics
void enableSymbolicSemantics(bool b=true)
Use or not use symbolic semantics.
Definition: Partitioner.h:2311
Rose::BinaryAnalysis::Partitioner2::Partitioner::autoAddCallReturnEdges
bool autoAddCallReturnEdges() const
Property: Insert (or not) function call return edges.
Definition: Partitioner.h:2338
Rose::BinaryAnalysis::Partitioner2::Partitioner::CfgAdjustmentCallbacks
Sawyer::Callbacks< CfgAdjustmentCallback::Ptr > CfgAdjustmentCallbacks
See cfgAdjustmentCallbacks.
Definition: Partitioner.h:295
Rose::BinaryAnalysis::Partitioner2::Partitioner::FunctionPaddingMatchers
std::vector< FunctionPaddingMatcher::Ptr > FunctionPaddingMatchers
See functionPaddingMatchers.
Definition: Partitioner.h:298
Rose::BinaryAnalysis::Partitioner2::Partitioner::semanticMemoryParadigm
void semanticMemoryParadigm(SemanticMemoryParadigm p)
Property: Whether to use map- or list-based memory states.
Definition: Partitioner.h:2403
Rose::BinaryAnalysis::Partitioner2::Configuration
Holds configuration information.
Definition: Config.h:210
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