ROSE_HTML_Reference/Partitioner_8h_source.html

#ifndef ROSE_BinaryAnalysis_Partitioner2_Partitioner_H

#define ROSE_BinaryAnalysis_Partitioner2_Partitioner_H

#include <featureTests.h>

#ifdef ROSE_ENABLE_BINARY_ANALYSIS

#include <Rose/BinaryAnalysis/Partitioner2/BasicTypes.h>


#include <Rose/BinaryAnalysis/Partitioner2/AddressUsageMap.h>

#include <Rose/BinaryAnalysis/Partitioner2/Configuration.h>

#include <Rose/BinaryAnalysis/Partitioner2/ControlFlowGraph.h>

#include <Rose/BinaryAnalysis/Partitioner2/IndirectControlFlow.h>

#include <Rose/BinaryAnalysis/Partitioner2/Semantics.h>


#include <Rose/BinaryAnalysis/Architecture/BasicTypes.h>

#include <Rose/BinaryAnalysis/InstructionProvider.h>

#include <Rose/BinaryAnalysis/InstructionSemantics/SymbolicSemantics.h>

#include <Rose/BinaryAnalysis/SerialIo.h>

#include <Rose/BinaryAnalysis/SourceLocations.h>

#include <Rose/BinaryAnalysis/Unparser/Settings.h>

#include <Rose/Progress.h>


#include <Sawyer/Attribute.h>

#include <Sawyer/Callbacks.h>

#include <Sawyer/IntervalSet.h>

#include <Sawyer/Map.h>

#include <Sawyer/Message.h>

#include <Sawyer/Optional.h>

#include <Sawyer/ProgressBar.h>

#include <Sawyer/SharedObject.h>

#include <Sawyer/SharedPointer.h>


#include <boost/filesystem.hpp>

#include <boost/format.hpp>

#include <boost/move/utility_core.hpp>

#ifdef ROSE_ENABLE_BOOST_SERIALIZATION

#include <boost/serialization/access.hpp>

#endif


#include <ostream>

#include <set>

#include <string>

#include <vector>


namespace Rose {

namespace BinaryAnalysis {

namespace Partitioner2 {


class ROSE_DLL_API Partitioner /*final*/

    : public Sawyer::SharedObject, public Sawyer::SharedFromThis<Partitioner>, public Sawyer::Attribute::Storage<> {

    BOOST_MOVABLE_BUT_NOT_COPYABLE(Partitioner)


    //

    //                                  Types

    //

public:

    using Ptr = PartitionerPtr;

    using ConstPtr = PartitionerConstPtr;

    // Callback list types

    typedef Sawyer::Callbacks<CfgAdjustmentCallback::Ptr> CfgAdjustmentCallbacks;

    typedef Sawyer::Callbacks<BasicBlockCallbackPtr> BasicBlockCallbacks;

    typedef std::vector<FunctionPrologueMatcherPtr> FunctionPrologueMatchers;

    typedef std::vector<FunctionPaddingMatcherPtr> FunctionPaddingMatchers;


    struct Thunk {

        BasicBlockPtr bblock;

        Address target;

        Thunk(const BasicBlockPtr&, Address target);

        ~Thunk();

    };


    typedef Sawyer::Container::Map<Address, std::string> AddressNameMap;


    //

    //                                  Data members

    //

private:

    BasePartitionerSettings settings_;                  // settings adjustable from the command-line

    Configuration config_;                              // configuration information about functions, blocks, etc.

    Architecture::BaseConstPtr architecture_;           // architecture information such as the ISA, word size, etc.

    InstructionProvider::Ptr instructionProvider_;      // cache for all disassembled instructions

    MemoryMap::Ptr memoryMap_;                          // description of memory, especially insns and non-writable

    SgAsmInterpretation *interpretation_ = nullptr;     // Interpretation corresponding to the memory map

    ControlFlowGraph cfg_;                              // basic blocks that will become part of the ROSE AST

    CfgVertexIndex vertexIndex_;                        // Vertex-by-address index for the CFG

    AddressUsageMap aum_;                               // How addresses are used for each address represented by the CFG

    SmtSolverPtr solver_;                               // Satisfiable modulo theory solver used by semantic expressions

    Functions functions_;                               // List of all attached functions by entry address

    bool autoAddCallReturnEdges_ = false;               // Add E_CALL_RETURN edges when blocks are attached to CFG?

    bool assumeFunctionsReturn_ = true;                 // Assume that unproven functions return to caller?

    size_t stackDeltaInterproceduralLimit_ = 1;         // Max depth of call stack when computing stack deltas

    AddressNameMap addressNames_;                       // Names for various addresses

    SourceLocations sourceLocations_;                   // Mapping between source locations and addresses

    SemanticMemoryParadigm semanticMemoryParadigm_ = LIST_BASED_MEMORY; // Slow and precise, or fast and imprecise?

    Unparser::BasePtr unparser_;                        // For unparsing things to pseudo-assembly

    Unparser::BasePtr insnUnparser_;                    // For unparsing single instructions in diagnostics

    Unparser::BasePtr insnPlainUnparser_;               // For unparsing just instruction mnemonic and operands

    IndirectControlFlow::State icf_;                    // State for various indirect control flow recovery analyses


    // Callback lists

    CfgAdjustmentCallbacks cfgAdjustmentCallbacks_;

    BasicBlockCallbacks basicBlockCallbacks_;

    FunctionPrologueMatchers functionPrologueMatchers_;

    FunctionPaddingMatchers functionPaddingMatchers_;


    // Special CFG vertices.

    ControlFlowGraph::VertexIterator undiscoveredVertex_;

    ControlFlowGraph::VertexIterator indeterminateVertex_;

    ControlFlowGraph::VertexIterator nonexistingVertex_;

    static const size_t nSpecialVertices = 3;


    // Optional cached information

    Sawyer::Optional<Address> elfGotVa_;                // address of ELF GOT, set by findElfGotVa


    // Protects the following data members

    mutable SAWYER_THREAD_TRAITS::Mutex mutex_;

    Progress::Ptr progress_;                            // Progress reporter to update, or null

    mutable size_t cfgProgressTotal_ = 0;               // Expected total for the CFG progress bar; initialized at first report


    //

    //                                  Serialization

    //

#ifdef ROSE_ENABLE_BOOST_SERIALIZATION

private:

    friend class boost::serialization::access;

    template<class Archive> void serializeCommon(Archive&, unsigned);

    template<class Archive> void save(Archive&, unsigned) const;

    template<class Archive> void load(Archive&, unsigned);

    BOOST_SERIALIZATION_SPLIT_MEMBER();

#endif


    //

    //                                  Constructors

    //

private:

    Partitioner();                                      // needed for Boost serialization


    // Partitioner objects are reference counted and always allocated on the heap. Use the `instance` methods to construct

    // these objects.  Also, since the Partitioner class is final, we make the constructors private instead of the usual

    // protected constructors elsewhere in ROSE.

    Partitioner(const Architecture::BaseConstPtr&);

    Partitioner(const Architecture::BaseConstPtr&, const MemoryMap::Ptr&);

public:

    ~Partitioner();


public:

    static Ptr instance(const Architecture::BaseConstPtr&);


    static Ptr instance(const Architecture::BaseConstPtr&, const MemoryMap::Ptr&);


    static PartitionerPtr instanceFromRbaFile(const boost::filesystem::path&, SerialIo::Format = SerialIo::BINARY);


    void saveAsRbaFile(const boost::filesystem::path &name, SerialIo::Format fmt) const;


    Partitioner(BOOST_RV_REF(Partitioner));


    Partitioner& operator=(BOOST_RV_REF(Partitioner));


    bool isDefaultConstructed() const;


    void clear();


    Configuration& configuration();

    const Configuration& configuration() const;

    Architecture::BaseConstPtr architecture() const;


    InstructionProvider& instructionProvider();

    const InstructionProvider& instructionProvider() const;

    MemoryMap::Ptr memoryMap() const;


    SgAsmInterpretation *interpretation() const;

    void interpretation(SgAsmInterpretation*);

    bool addressIsExecutable(Address) const;


    //

    //                                  Unparsing

    //

public:

    Unparser::BasePtr unparser() const;

    void unparser(const Unparser::BasePtr&);

    Unparser::BasePtr insnUnparser() const;

    void insnUnparser(const Unparser::BasePtr&);

    void configureInsnUnparser(const Unparser::BasePtr&) const;


    void configureInsnPlainUnparser(const Unparser::BasePtr&) const;


    std::string unparse(SgAsmInstruction*) const;

    void unparse(std::ostream&, SgAsmInstruction*) const;

    void unparse(std::ostream&, const BasicBlockPtr&) const;

    void unparse(std::ostream&, const DataBlockPtr&) const;

    void unparse(std::ostream&, const FunctionPtr&) const;

    void unparse(std::ostream&) const;

    std::string unparsePlain(SgAsmInstruction*) const;


    //

    //                                  Partitioner CFG queries

    //

public:

    size_t nBytes() const;


    ControlFlowGraph::VertexIterator undiscoveredVertex();

    ControlFlowGraph::ConstVertexIterator undiscoveredVertex() const;

    ControlFlowGraph::VertexIterator indeterminateVertex();

    ControlFlowGraph::ConstVertexIterator indeterminateVertex() const;

    ControlFlowGraph::VertexIterator nonexistingVertex();

    ControlFlowGraph::ConstVertexIterator nonexistingVertex() const;

    const ControlFlowGraph& cfg() const;


    const AddressUsageMap& aum() const;


    AddressUsageMap aum(const FunctionPtr&) const;


    std::vector<AddressUser> users(Address) const;


    std::set<Address> ghostSuccessors() const;


    bool isEdgeIntraProcedural(ControlFlowGraph::ConstEdgeIterator edge, const FunctionPtr&) const;

    bool isEdgeIntraProcedural(const ControlFlowGraph::Edge &edge, const FunctionPtr&) const;

    bool isEdgeIntraProcedural(ControlFlowGraph::ConstEdgeIterator edge) const;

    bool isEdgeIntraProcedural(const ControlFlowGraph::Edge &edge) const;

    bool isEdgeInterProcedural(ControlFlowGraph::ConstEdgeIterator edge) const;

    bool isEdgeInterProcedural(ControlFlowGraph::ConstEdgeIterator edge, const FunctionPtr &sourceFunction) const;

    bool isEdgeInterProcedural(ControlFlowGraph::ConstEdgeIterator edge, const FunctionPtr &sourceFunction,

                               const FunctionPtr &targetFunction) const;


    bool isEdgeInterProcedural(const ControlFlowGraph::Edge &edge) const;

    bool isEdgeInterProcedural(const ControlFlowGraph::Edge &edge, const FunctionPtr &sourceFunction) const;

    bool isEdgeInterProcedural(const ControlFlowGraph::Edge &edge, const FunctionPtr &sourceFunction,

                               const FunctionPtr &targetFunction) const;

    //

    //                                  Partitioner instruction operations

    //

public:

    size_t nInstructions() const;


    AddressUser instructionExists(Address startVa) const;

    AddressUser instructionExists(SgAsmInstruction *insn) const;

    ControlFlowGraph::ConstVertexIterator instructionVertex(Address insnVa) const;


    std::vector<SgAsmInstruction*> instructionsOverlapping(const AddressInterval&) const;


    std::vector<SgAsmInstruction*> instructionsSpanning(const AddressInterval&) const;


    std::vector<SgAsmInstruction*> instructionsContainedIn(const AddressInterval&) const;


    AddressInterval instructionExtent(SgAsmInstruction*) const;


    SgAsmInstruction* discoverInstruction(Address startVa) const;


    CrossReferences instructionCrossReferences(const AddressIntervalSet &restriction) const;


    //

    //                                  Partitioner basic block placeholder operations

    //

public:

     size_t nPlaceholders() const;


    bool placeholderExists(Address startVa) const;


    ControlFlowGraph::VertexIterator findPlaceholder(Address startVa);

    ControlFlowGraph::ConstVertexIterator findPlaceholder(Address startVa) const;

    ControlFlowGraph::VertexIterator insertPlaceholder(Address startVa);


    BasicBlockPtr erasePlaceholder(const ControlFlowGraph::ConstVertexIterator &placeholder) /*final*/;

    BasicBlockPtr erasePlaceholder(Address startVa) /*final*/;

    //

    //                                  Partitioner basic block operations

    //

public:

    bool basicBlockSemanticsAutoDrop() const;

    void basicBlockSemanticsAutoDrop(bool);

    void basicBlockDropSemantics() const;


    size_t nBasicBlocks() const;


    std::vector<BasicBlockPtr> basicBlocks() const;


    BasicBlockPtr basicBlockExists(Address startVa) const;

    BasicBlockPtr basicBlockExists(const BasicBlockPtr&) const;

    std::vector<BasicBlockPtr> basicBlocksOverlapping(const AddressInterval&) const;


    std::vector<BasicBlockPtr> basicBlocksSpanning(const AddressInterval&) const;


    std::vector<BasicBlockPtr> basicBlocksContainedIn(const AddressInterval&) const;


    BasicBlockPtr basicBlockContainingInstruction(Address insnVa) const;


    AddressIntervalSet basicBlockInstructionExtent(const BasicBlockPtr&) const;


    AddressIntervalSet basicBlockDataExtent(const BasicBlockPtr&) const;


    BasicBlockPtr detachBasicBlock(Address startVa);

    BasicBlockPtr detachBasicBlock(const BasicBlockPtr &basicBlock);

    BasicBlockPtr detachBasicBlock(const ControlFlowGraph::ConstVertexIterator &placeholder);

    ControlFlowGraph::VertexIterator truncateBasicBlock(const ControlFlowGraph::ConstVertexIterator &basicBlock,

                                                        SgAsmInstruction *insn);


    void attachBasicBlock(const BasicBlockPtr&);

    void attachBasicBlock(const ControlFlowGraph::ConstVertexIterator &placeholder, const BasicBlockPtr&);

    BasicBlockPtr discoverBasicBlock(Address startVa) const;

    BasicBlockPtr discoverBasicBlock(const ControlFlowGraph::ConstVertexIterator &placeholder) const;

    BasicBlockSuccessors basicBlockSuccessors(const BasicBlockPtr&, Precision::Level precision = Precision::HIGH) const;


    std::vector<Address> basicBlockConcreteSuccessors(const BasicBlockPtr&, bool *isComplete=NULL) const;


    std::set<Address> basicBlockGhostSuccessors(const BasicBlockPtr&) const;


    bool basicBlockIsFunctionCall(const BasicBlockPtr&, Precision::Level precision = Precision::HIGH) const;


    bool basicBlockIsFunctionReturn(const BasicBlockPtr&) const;


     bool basicBlockPopsStack(const BasicBlockPtr&) const;


    InstructionSemantics::BaseSemantics::SValuePtr

    basicBlockStackDeltaIn(const BasicBlockPtr&, const FunctionPtr &function) const;


    InstructionSemantics::BaseSemantics::SValuePtr

    basicBlockStackDeltaOut(const BasicBlockPtr&, const FunctionPtr &function) const;

    void forgetStackDeltas() const;

    void forgetStackDeltas(const FunctionPtr&) const;

    size_t stackDeltaInterproceduralLimit() const;

    void stackDeltaInterproceduralLimit(size_t);

    Sawyer::Optional<bool> basicBlockOptionalMayReturn(const BasicBlockPtr&) const;

    Sawyer::Optional<bool> basicBlockOptionalMayReturn(const ControlFlowGraph::ConstVertexIterator&) const;

    void basicBlockMayReturnReset() const;


private:

    // Per-vertex data used during may-return analysis

    struct MayReturnVertexInfo {

        enum State {INIT, CALCULATING, FINISHED};

        State state;                                        // current state of vertex

        bool processedCallees;                              // have we processed BBs this vertex calls?

        boost::logic::tribool anyCalleesReturn;             // do any of those called BBs have a true may-return value?

        boost::logic::tribool result;                       // final result (eventually cached in BB)

        MayReturnVertexInfo(): state(INIT), processedCallees(false), anyCalleesReturn(false), result(boost::indeterminate) {}

    };


    // Is edge significant for analysis? See .C file for full documentation.

    bool mayReturnIsSignificantEdge(const ControlFlowGraph::ConstEdgeIterator &edge,

                                    std::vector<MayReturnVertexInfo> &vertexInfo) const;


    // Determine (and cache in vertexInfo) whether any callees return.

    boost::logic::tribool mayReturnDoesCalleeReturn(const ControlFlowGraph::ConstVertexIterator &vertex,

                                                    std::vector<MayReturnVertexInfo> &vertexInfo) const;


    // Maximum may-return result from significant successors including phantom call-return edge.

    boost::logic::tribool mayReturnDoesSuccessorReturn(const ControlFlowGraph::ConstVertexIterator &vertex,

                                                       std::vector<MayReturnVertexInfo> &vertexInfo) const;


    // The guts of the may-return analysis

    Sawyer::Optional<bool> basicBlockOptionalMayReturn(const ControlFlowGraph::ConstVertexIterator &start,

                                                       std::vector<MayReturnVertexInfo> &vertexInfo) const;


    //

    //                                  Partitioner data block operations

    //

public:

    size_t nDataBlocks() const;


    DataBlockPtr dataBlockExists(const DataBlockPtr&) const;


    DataBlockPtr findBestDataBlock(const AddressInterval&) const;


    DataBlockPtr attachDataBlock(const DataBlockPtr&);


    void detachDataBlock(const DataBlockPtr&);


    DataBlockPtr attachDataBlockToFunction(const DataBlockPtr&, const FunctionPtr&);


    DataBlockPtr attachDataBlockToBasicBlock(const DataBlockPtr&, const BasicBlockPtr&);


    std::vector<DataBlockPtr> dataBlocksOverlapping(const AddressInterval&) const;


    std::vector<DataBlockPtr> dataBlocksSpanning(const AddressInterval&) const;


    std::vector<DataBlockPtr> dataBlocksContainedIn(const AddressInterval&) const;


    AddressInterval dataBlockExtent(const DataBlockPtr&) const;


    std::vector<DataBlockPtr> dataBlocks() const;


    //

    //                                  Partitioner function operations

    //

public:

    size_t nFunctions() const;


    FunctionPtr functionExists(Address entryVa) const;

    FunctionPtr functionExists(const BasicBlockPtr &entryBlock) const;

    FunctionPtr functionExists(const FunctionPtr &function) const;

    std::vector<FunctionPtr> functions() const;


    std::vector<FunctionPtr> functionsOverlapping(const AddressInterval&) const;


    std::vector<FunctionPtr> functionsSpanning(const AddressInterval&) const;


    std::vector<FunctionPtr> functionsContainedIn(const AddressInterval&) const;


    AddressIntervalSet functionExtent(const FunctionPtr&) const;

    void functionExtent(const FunctionPtr &function, AddressIntervalSet &retval /*in,out*/) const;

    AddressIntervalSet functionBasicBlockExtent(const FunctionPtr &function) const;

    void functionBasicBlockExtent(const FunctionPtr &function, AddressIntervalSet &retval /*in,out*/) const;

    AddressIntervalSet functionDataBlockExtent(const FunctionPtr &function) const;

    void functionDataBlockExtent(const FunctionPtr &function, AddressIntervalSet &retval /*in,out*/) const;

    size_t attachFunction(const FunctionPtr&);

    size_t attachFunctions(const Functions&);

    FunctionPtr attachOrMergeFunction(const FunctionPtr&);


    size_t attachFunctionBasicBlocks(const Functions&);

    size_t attachFunctionBasicBlocks(const FunctionPtr&);

    void detachFunction(const FunctionPtr&);


    std::vector<Function::Ptr> entryFunctions();


    std::vector<FunctionPtr>

    functionsOwningBasicBlock(const ControlFlowGraph::Vertex&, bool doSort = true) const;


    std::vector<FunctionPtr>

    functionsOwningBasicBlock(const ControlFlowGraph::ConstVertexIterator&, bool doSort = true) const;


    std::vector<FunctionPtr>

    functionsOwningBasicBlock(Address bblockVa, bool doSort = true) const;


    std::vector<FunctionPtr>

    functionsOwningBasicBlock(const BasicBlockPtr&, bool doSort = true) const;


    template<class Container> // container can hold any type accepted by functionsOwningBasicBlock

    std::vector<FunctionPtr>


    functionsOwningBasicBlocks(const Container &bblocks) const {

        std::vector<FunctionPtr> retval;

        for (const typename Container::value_type& bblock: bblocks) {

            for (const FunctionPtr &function: functionsOwningBasicBlock(bblock, false))

                insertUnique(retval, function, sortFunctionsByAddress);

        }

        return retval;

    }


    std::vector<FunctionPtr> discoverCalledFunctions() const;


    std::vector<FunctionPtr> discoverFunctionEntryVertices() const;


    Sawyer::Optional<Thunk> functionIsThunk(const FunctionPtr&) const;


    void discoverFunctionBasicBlocks(const FunctionPtr &function) const;


    std::set<Address> functionGhostSuccessors(const FunctionPtr&) const;


    FunctionCallGraph functionCallGraph(AllowParallelEdges::Type allowParallelEdges) const;


    InstructionSemantics::BaseSemantics::SValuePtr functionStackDelta(const FunctionPtr &function) const;


    void allFunctionStackDelta() const;


    Sawyer::Optional<bool> functionOptionalMayReturn(const FunctionPtr &function) const;


    void allFunctionMayReturn() const;


    const CallingConvention::Analysis& functionCallingConvention(const FunctionPtr&) const;

    const CallingConvention::Analysis& functionCallingConvention(const FunctionPtr&,

                                                                 const CallingConvention::Definition::Ptr &dflt) const;

    void allFunctionCallingConvention() const;

    void allFunctionCallingConvention(const CallingConvention::Definition::Ptr &dflt) const;


    CallingConvention::Dictionary functionCallingConventionDefinitions(const FunctionPtr&) const;

    CallingConvention::Dictionary functionCallingConventionDefinitions(const FunctionPtr&,

                                                                       const CallingConvention::Definition::Ptr&) const;

    void allFunctionCallingConventionDefinition() const;

    void allFunctionCallingConventionDefinition(const CallingConvention::Definition::Ptr&) const;

    void fixInterFunctionEdges();

    void fixInterFunctionEdge(const ControlFlowGraph::ConstEdgeIterator&);

    bool functionIsNoop(const FunctionPtr&) const;


    void allFunctionIsNoop() const;


    void forgetFunctionIsNoop() const;

    void forgetFunctionIsNoop(const FunctionPtr&) const;

    std::set<Address> functionDataFlowConstants(const FunctionPtr&) const;


    //

    //                                  Callbacks

    //

public:

    CfgAdjustmentCallbacks& cfgAdjustmentCallbacks();

    const CfgAdjustmentCallbacks& cfgAdjustmentCallbacks() const;

    BasicBlockCallbacks& basicBlockCallbacks();

    const BasicBlockCallbacks& basicBlockCallbacks() const;

public:

    FunctionPrologueMatchers& functionPrologueMatchers();

    const FunctionPrologueMatchers& functionPrologueMatchers() const;

    std::vector<FunctionPtr> nextFunctionPrologue(Address startVa);

    std::vector<FunctionPtr> nextFunctionPrologue(Address startVa, Address &lastSearchedVa /*out*/);

public:

    FunctionPaddingMatchers& functionPaddingMatchers();

    const FunctionPaddingMatchers& functionPaddingMatchers() const;

    DataBlockPtr matchFunctionPadding(const FunctionPtr&);


    //

    //                                  Partitioner miscellaneous

    //

public:

    void dumpCfg(std::ostream&, const std::string &prefix="", bool showBlocks=true, bool computeProperties=true) const;


    void cfgGraphViz(std::ostream&, const AddressInterval &restrict = AddressInterval::whole(), bool showNeighbors=true) const;


    static std::string vertexName(const ControlFlowGraph::Vertex&);

    std::string vertexName(const ControlFlowGraph::ConstVertexIterator&) const;

    static std::string vertexNameEnd(const ControlFlowGraph::Vertex&);


    static std::string edgeNameSrc(const ControlFlowGraph::Edge&);

    std::string edgeNameSrc(const ControlFlowGraph::ConstEdgeIterator&) const;

    static std::string edgeNameDst(const ControlFlowGraph::Edge&);

    std::string edgeNameDst(const ControlFlowGraph::ConstEdgeIterator&) const;

    static std::string edgeName(const ControlFlowGraph::Edge&);

    std::string edgeName(const ControlFlowGraph::ConstEdgeIterator&) const;

    static std::string basicBlockName(const BasicBlockPtr&);


    static std::string dataBlockName(const DataBlockPtr&);


    static std::string functionName(const FunctionPtr&);


    void expandIndeterminateCalls();


    Progress::Ptr progress() const;

    void progress(const Progress::Ptr&);

    void updateProgress(const std::string &phase, double completion) const;


    void showStatistics() const;


    // Checks consistency of internal data structures when debugging is enable (when NDEBUG is not defined).

    void checkConsistency() const;


    SgAsmGenericSection* elfGot(SgAsmElfFileHeader*);


    Sawyer::Optional<Address> elfGotVa() const;


    const IndirectControlFlow::State& icf() const;

    IndirectControlFlow::State& icf();

    //

    //                                  Settings

    //

public:


    const BasePartitionerSettings& settings() const;

    void settings(const BasePartitionerSettings&);

    void enableSymbolicSemantics(bool = true);

    void disableSymbolicSemantics();

    bool usingSymbolicSemantics() const;

    void autoAddCallReturnEdges(bool);

    bool autoAddCallReturnEdges() const;

    void assumeFunctionsReturn(bool);

    bool assumeFunctionsReturn() const;

    void addressName(Address, const std::string&);

    const std::string& addressName(Address) const;

    const AddressNameMap& addressNames() const;

    const SourceLocations& sourceLocations() const;

    SourceLocations& sourceLocations();

    void sourceLocations(const SourceLocations&);

    bool checkingCallBranch() const;

    void checkingCallBranch(bool);

    //

    //                                  Instruction semantics

    //

public:

    SemanticMemoryParadigm semanticMemoryParadigm() const;

    void semanticMemoryParadigm(SemanticMemoryParadigm);

    SmtSolverPtr smtSolver() const;


    InstructionSemantics::BaseSemantics::RiscOperatorsPtr newOperators() const;

    InstructionSemantics::BaseSemantics::RiscOperatorsPtr newOperators(SemanticMemoryParadigm) const;

    InstructionSemantics::BaseSemantics::DispatcherPtr

    newDispatcher(const InstructionSemantics::BaseSemantics::RiscOperatorsPtr&) const;


    //

    //                                  Python API support functions

    //

#ifdef ROSE_ENABLE_PYTHON_API

    void pythonUnparse() const;

#endif


    //

    //                                  Partitioner internal utilities

    //

private:

    void init(const MemoryMap::Ptr&);

    void init(const Partitioner&);

    void updateCfgProgress();


private:

    // Convert a CFG vertex iterator from one partitioner to another.  This is called during copy construction when the source

    // and destination CFGs are identical.

    ControlFlowGraph::VertexIterator convertFrom(const Partitioner &other,

                                                 ControlFlowGraph::ConstVertexIterator otherIter);


    // Adjusts edges for a placeholder vertex. This method erases all outgoing edges for the specified placeholder vertex and

    // then inserts a single edge from the placeholder to the special "undiscovered" vertex. */

    ControlFlowGraph::EdgeIterator adjustPlaceholderEdges(const ControlFlowGraph::VertexIterator &placeholder);


    // Adjusts edges for a non-existing basic block.  This method erases all outgoing edges for the specified vertex and

    // then inserts a single edge from the vertex to the special "non-existing" vertex. */

    ControlFlowGraph::EdgeIterator adjustNonexistingEdges(const ControlFlowGraph::VertexIterator &vertex);


    // Implementation for the discoverBasicBlock methods.  The startVa must not be the address of an existing placeholder.

    BasicBlockPtr discoverBasicBlockInternal(Address startVa) const;


    // This method is called whenever a new placeholder is inserted into the CFG or a new basic block is attached to the

    // CFG/AUM. The call happens immediately after the CFG/AUM are updated.

    void bblockAttached(const ControlFlowGraph::VertexIterator &newVertex);


    // This method is called whenever a basic block is detached from the CFG/AUM or when a placeholder is erased from the CFG.

    // The call happens immediately after the CFG/AUM are updated.

    void bblockDetached(Address startVa, const BasicBlockPtr &removedBlock);


    // Rebuild the vertexIndex_ and other cache-like data members from the control flow graph

    void rebuildVertexIndices();

};


} // namespace

} // namespace

} // namespace


#endif

#endif

Rose::BinaryAnalysis::CallingConvention::Analysis
Function calling convention.
Definition BinaryAnalysis/CallingConvention/Analysis.h:19

Rose::BinaryAnalysis::InstructionProvider
Provides and caches instructions.
Definition InstructionProvider.h:32

Rose::BinaryAnalysis::Partitioner2::AddressUsageMap
Address usage map.
Definition AddressUsageMap.h:374

Rose::BinaryAnalysis::Partitioner2::AddressUser
Address usage item.
Definition AddressUsageMap.h:36

Rose::BinaryAnalysis::Partitioner2::Configuration
Holds configuration information.
Definition Configuration.h:281

Rose::BinaryAnalysis::Partitioner2::FunctionCallGraph
Function call information.
Definition FunctionCallGraph.h:21

Rose::BinaryAnalysis::Partitioner2::Partitioner
Partitions instructions into basic blocks and functions.
Definition Partitioner.h:260

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockInstructionExtent
AddressIntervalSet basicBlockInstructionExtent(const BasicBlockPtr &) const
Returns the addresses used by basic block instructions.

Rose::BinaryAnalysis::Partitioner2::Partitioner::CfgAdjustmentCallbacks
Sawyer::Callbacks< CfgAdjustmentCallback::Ptr > CfgAdjustmentCallbacks
See cfgAdjustmentCallbacks.
Definition Partitioner.h:279

Rose::BinaryAnalysis::Partitioner2::Partitioner::configuration
const Configuration & configuration() const
Property: Configuration information.

Rose::BinaryAnalysis::Partitioner2::Partitioner::nonexistingVertex
ControlFlowGraph::VertexIterator nonexistingVertex()
Returns the special "non-existing" vertex.

Rose::BinaryAnalysis::Partitioner2::Partitioner::nonexistingVertex
ControlFlowGraph::ConstVertexIterator nonexistingVertex() const
Returns the special "non-existing" vertex.

Rose::BinaryAnalysis::Partitioner2::Partitioner::dataBlockName
static std::string dataBlockName(const DataBlockPtr &)
Name of a data block.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockIsFunctionReturn
bool basicBlockIsFunctionReturn(const BasicBlockPtr &) const
Determine if a basic block looks like a function return.

Rose::BinaryAnalysis::Partitioner2::Partitioner::entryFunctions
std::vector< Function::Ptr > entryFunctions()
Entry points of the binary.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlocksContainedIn
std::vector< BasicBlockPtr > basicBlocksContainedIn(const AddressInterval &) const
Returns basic blocks that are fully contained in an address interval.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionPrologueMatchers
FunctionPrologueMatchers & functionPrologueMatchers()
Ordered list of function prologue matchers.

Rose::BinaryAnalysis::Partitioner2::Partitioner::addressName
void addressName(Address, const std::string &)
Property: Name for address.

Rose::BinaryAnalysis::Partitioner2::Partitioner::undiscoveredVertex
ControlFlowGraph::VertexIterator undiscoveredVertex()
Returns the special "undiscovered" vertex.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockDropSemantics
void basicBlockDropSemantics() const
Immediately drop semantic information for all attached basic blocks.

Rose::BinaryAnalysis::Partitioner2::Partitioner::nDataBlocks
size_t nDataBlocks() const
Returns the number of data blocks attached to the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::indeterminateVertex
ControlFlowGraph::ConstVertexIterator indeterminateVertex() const
Returns the special "indeterminate" vertex.

Rose::BinaryAnalysis::Partitioner2::Partitioner::allFunctionCallingConvention
void allFunctionCallingConvention() const
Compute calling conventions for all functions.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionStackDelta
InstructionSemantics::BaseSemantics::SValuePtr functionStackDelta(const FunctionPtr &function) const
Stack delta analysis for one function.

Rose::BinaryAnalysis::Partitioner2::Partitioner::interpretation
void interpretation(SgAsmInterpretation *)
Property: Interpretation corresponding to the memory map.

Rose::BinaryAnalysis::Partitioner2::Partitioner::erasePlaceholder
BasicBlockPtr erasePlaceholder(Address startVa)
Remove a basic block placeholder from the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::unparser
Unparser::BasePtr unparser() const
Returns an unparser.

Rose::BinaryAnalysis::Partitioner2::Partitioner::forgetFunctionIsNoop
void forgetFunctionIsNoop() const
Clears cached function no-op analysis results.

Rose::BinaryAnalysis::Partitioner2::Partitioner::cfgAdjustmentCallbacks
CfgAdjustmentCallbacks & cfgAdjustmentCallbacks()
List of all callbacks invoked when the CFG is adjusted.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionOptionalMayReturn
Sawyer::Optional< bool > functionOptionalMayReturn(const FunctionPtr &function) const
May-return analysis for one function.

Rose::BinaryAnalysis::Partitioner2::Partitioner::instructionsContainedIn
std::vector< SgAsmInstruction * > instructionsContainedIn(const AddressInterval &) const
Returns instructions that are fully contained in an address interval.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockOptionalMayReturn
Sawyer::Optional< bool > basicBlockOptionalMayReturn(const BasicBlockPtr &) const
Determine if part of the CFG can pop the top stack frame.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockSuccessors
BasicBlockSuccessors basicBlockSuccessors(const BasicBlockPtr &, Precision::Level precision=Precision::HIGH) const
Determine successors for a basic block.

Rose::BinaryAnalysis::Partitioner2::Partitioner::dataBlocksContainedIn
std::vector< DataBlockPtr > dataBlocksContainedIn(const AddressInterval &) const
Returns data blocks that are fully contained in an address interval.

Rose::BinaryAnalysis::Partitioner2::Partitioner::semanticMemoryParadigm
SemanticMemoryParadigm semanticMemoryParadigm() const
Property: Whether to use map- or list-based memory states.

Rose::BinaryAnalysis::Partitioner2::Partitioner::allFunctionCallingConvention
void allFunctionCallingConvention(const CallingConvention::Definition::Ptr &dflt) const
Compute calling conventions for all functions.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionCallGraph
FunctionCallGraph functionCallGraph(AllowParallelEdges::Type allowParallelEdges) const
Returns a function call graph.

Rose::BinaryAnalysis::Partitioner2::Partitioner::stackDeltaInterproceduralLimit
size_t stackDeltaInterproceduralLimit() const
Property: max depth for inter-procedural stack delta analysis.

Rose::BinaryAnalysis::Partitioner2::Partitioner::stackDeltaInterproceduralLimit
void stackDeltaInterproceduralLimit(size_t)
Property: max depth for inter-procedural stack delta analysis.

Rose::BinaryAnalysis::Partitioner2::Partitioner::insertPlaceholder
ControlFlowGraph::VertexIterator insertPlaceholder(Address startVa)
Insert a basic-block placeholder.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionExists
FunctionPtr functionExists(const FunctionPtr &function) const
Determines whether a function exists in the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::forgetStackDeltas
void forgetStackDeltas(const FunctionPtr &) const
Clears all cached stack deltas.

Rose::BinaryAnalysis::Partitioner2::Partitioner::unparse
void unparse(std::ostream &, const DataBlockPtr &) const
Unparse some entity.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionsOverlapping
std::vector< FunctionPtr > functionsOverlapping(const AddressInterval &) const
Returns functions that overlap with specified address interval.

Rose::BinaryAnalysis::Partitioner2::Partitioner::matchFunctionPadding
DataBlockPtr matchFunctionPadding(const FunctionPtr &)
Finds function padding.

Rose::BinaryAnalysis::Partitioner2::Partitioner::configureInsnPlainUnparser
void configureInsnPlainUnparser(const Unparser::BasePtr &) const
Configure plain single-instruction unparser.

Rose::BinaryAnalysis::Partitioner2::Partitioner::discoverInstruction
SgAsmInstruction * discoverInstruction(Address startVa) const
Discover an instruction.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionIsNoop
bool functionIsNoop(const FunctionPtr &) const
Function no-op analysis.

Rose::BinaryAnalysis::Partitioner2::Partitioner::fixInterFunctionEdge
void fixInterFunctionEdge(const ControlFlowGraph::ConstEdgeIterator &)
Adjust inter-function edge types.

Rose::BinaryAnalysis::Partitioner2::Partitioner::truncateBasicBlock
ControlFlowGraph::VertexIterator truncateBasicBlock(const ControlFlowGraph::ConstVertexIterator &basicBlock, SgAsmInstruction *insn)
Truncate an attached basic-block.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionIsThunk
Sawyer::Optional< Thunk > functionIsThunk(const FunctionPtr &) const
True if function is a thunk.

Rose::BinaryAnalysis::Partitioner2::Partitioner::attachFunctionBasicBlocks
size_t attachFunctionBasicBlocks(const Functions &)
Create placeholders for function basic blocks.

Rose::BinaryAnalysis::Partitioner2::Partitioner::cfg
const ControlFlowGraph & cfg() const
Returns the control flow graph.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionCallingConvention
const CallingConvention::Analysis & functionCallingConvention(const FunctionPtr &, const CallingConvention::Definition::Ptr &dflt) const
Calling convention analysis for one function.

Rose::BinaryAnalysis::Partitioner2::Partitioner::sourceLocations
const SourceLocations & sourceLocations() const
Property: Source locations.

Rose::BinaryAnalysis::Partitioner2::Partitioner::operator=
Partitioner & operator=(BOOST_RV_REF(Partitioner))
Move assignment.

Rose::BinaryAnalysis::Partitioner2::Partitioner::isEdgeInterProcedural
bool isEdgeInterProcedural(ControlFlowGraph::ConstEdgeIterator edge) const
Determine if an edge is inter-procedural.

Rose::BinaryAnalysis::Partitioner2::Partitioner::checkingCallBranch
void checkingCallBranch(bool)
Property: Whether to look for function calls used as branches.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlocksSpanning
std::vector< BasicBlockPtr > basicBlocksSpanning(const AddressInterval &) const
Returns basic blocks that span an entire address interval.

Rose::BinaryAnalysis::Partitioner2::Partitioner::configuration
Configuration & configuration()
Property: Configuration information.

Rose::BinaryAnalysis::Partitioner2::Partitioner::aum
AddressUsageMap aum(const FunctionPtr &) const
Returns the address usage map for a single function.

Rose::BinaryAnalysis::Partitioner2::Partitioner::FunctionPaddingMatchers
std::vector< FunctionPaddingMatcherPtr > FunctionPaddingMatchers
See functionPaddingMatchers.
Definition Partitioner.h:282

Rose::BinaryAnalysis::Partitioner2::Partitioner::elfGot
SgAsmGenericSection * elfGot(SgAsmElfFileHeader *)
Find the ELF global offset table and save its address.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockConcreteSuccessors
std::vector< Address > basicBlockConcreteSuccessors(const BasicBlockPtr &, bool *isComplete=NULL) const
Determines concrete successors for a basic block.

Rose::BinaryAnalysis::Partitioner2::Partitioner::dataBlocksSpanning
std::vector< DataBlockPtr > dataBlocksSpanning(const AddressInterval &) const
Returns data blocks that span an entire address interval.

Rose::BinaryAnalysis::Partitioner2::Partitioner::findBestDataBlock
DataBlockPtr findBestDataBlock(const AddressInterval &) const
Find an existing data block.

Rose::BinaryAnalysis::Partitioner2::Partitioner::forgetStackDeltas
void forgetStackDeltas() const
Clears all cached stack deltas.

Rose::BinaryAnalysis::Partitioner2::Partitioner::allFunctionStackDelta
void allFunctionStackDelta() const
Compute stack delta analysis for all functions.

Rose::BinaryAnalysis::Partitioner2::Partitioner::assumeFunctionsReturn
bool assumeFunctionsReturn() const
Property: Assume (or not) that function calls return.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockName
static std::string basicBlockName(const BasicBlockPtr &)
Name of a basic block.

Rose::BinaryAnalysis::Partitioner2::Partitioner::unparse
void unparse(std::ostream &, const BasicBlockPtr &) const
Unparse some entity.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionExists
FunctionPtr functionExists(Address entryVa) const
Determines whether a function exists in the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockDataExtent
AddressIntervalSet basicBlockDataExtent(const BasicBlockPtr &) const
Returns the addresses used by basic block data.

Rose::BinaryAnalysis::Partitioner2::Partitioner::nPlaceholders
size_t nPlaceholders() const
Returns the number of basic basic block placeholders in the CFG.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionExtent
AddressIntervalSet functionExtent(const FunctionPtr &) const
Returns the addresses used by a function.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlocks
std::vector< BasicBlockPtr > basicBlocks() const
Returns all basic blocks attached to the CFG.

Rose::BinaryAnalysis::Partitioner2::Partitioner::isEdgeInterProcedural
bool isEdgeInterProcedural(const ControlFlowGraph::Edge &edge, const FunctionPtr &sourceFunction) const
Determine if an edge is inter-procedural.

Rose::BinaryAnalysis::Partitioner2::Partitioner::nFunctions
size_t nFunctions() const
Returns the number of functions attached to the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::discoverCalledFunctions
std::vector< FunctionPtr > discoverCalledFunctions() const
Scans the CFG to find function calls.

Rose::BinaryAnalysis::Partitioner2::Partitioner::isEdgeIntraProcedural
bool isEdgeIntraProcedural(ControlFlowGraph::ConstEdgeIterator edge) const
Determine if an edge is intra-procedural.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockExists
BasicBlockPtr basicBlockExists(const BasicBlockPtr &) const
Determines whether a discovered basic block exists in the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::settings
void settings(const BasePartitionerSettings &)
Partitioner settings.

Rose::BinaryAnalysis::Partitioner2::Partitioner::ghostSuccessors
std::set< Address > ghostSuccessors() const
Determine all ghost successors in the control flow graph.

Rose::BinaryAnalysis::Partitioner2::Partitioner::autoAddCallReturnEdges
bool autoAddCallReturnEdges() const
Property: Insert (or not) function call return edges.

Rose::BinaryAnalysis::Partitioner2::Partitioner::architecture
Architecture::BaseConstPtr architecture() const
Property: Architecture information.

Rose::BinaryAnalysis::Partitioner2::Partitioner::unparse
void unparse(std::ostream &, SgAsmInstruction *) const
Unparse some entity.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionGhostSuccessors
std::set< Address > functionGhostSuccessors(const FunctionPtr &) const
Returns ghost successors for a single function.

Rose::BinaryAnalysis::Partitioner2::Partitioner::isEdgeInterProcedural
bool isEdgeInterProcedural(const ControlFlowGraph::Edge &edge, const FunctionPtr &sourceFunction, const FunctionPtr &targetFunction) const
Determine if an edge is inter-procedural.

Rose::BinaryAnalysis::Partitioner2::Partitioner::edgeName
std::string edgeName(const ControlFlowGraph::ConstEdgeIterator &) const
Name of an edge.

Rose::BinaryAnalysis::Partitioner2::Partitioner::unparse
void unparse(std::ostream &, const FunctionPtr &) const
Unparse some entity.

Rose::BinaryAnalysis::Partitioner2::Partitioner::indeterminateVertex
ControlFlowGraph::VertexIterator indeterminateVertex()
Returns the special "indeterminate" vertex.

Rose::BinaryAnalysis::Partitioner2::Partitioner::isEdgeIntraProcedural
bool isEdgeIntraProcedural(const ControlFlowGraph::Edge &edge, const FunctionPtr &) const
Determine if an edge is intra-procedural.

Rose::BinaryAnalysis::Partitioner2::Partitioner::instructionVertex
ControlFlowGraph::ConstVertexIterator instructionVertex(Address insnVa) const
Returns the CFG vertex containing specified instruction.

Rose::BinaryAnalysis::Partitioner2::Partitioner::nBytes
size_t nBytes() const
Returns the number of bytes represented by the CFG.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockContainingInstruction
BasicBlockPtr basicBlockContainingInstruction(Address insnVa) const
Returns the basic block that contains a specific instruction address.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockIsFunctionCall
bool basicBlockIsFunctionCall(const BasicBlockPtr &, Precision::Level precision=Precision::HIGH) const
Determine if a basic block looks like a function call.

Rose::BinaryAnalysis::Partitioner2::Partitioner::attachBasicBlock
void attachBasicBlock(const ControlFlowGraph::ConstVertexIterator &placeholder, const BasicBlockPtr &)
Attach a basic block to the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::newOperators
InstructionSemantics::BaseSemantics::RiscOperatorsPtr newOperators(SemanticMemoryParadigm) const
Obtain new RiscOperators.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockMayReturnReset
void basicBlockMayReturnReset() const
Clear all may-return properties.

Rose::BinaryAnalysis::Partitioner2::Partitioner::detachBasicBlock
BasicBlockPtr detachBasicBlock(Address startVa)
Detach a basic block from the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::addressName
const std::string & addressName(Address) const
Property: Name for address.

Rose::BinaryAnalysis::Partitioner2::Partitioner::discoverFunctionBasicBlocks
void discoverFunctionBasicBlocks(const FunctionPtr &function) const
Adds basic blocks to a function.

Rose::BinaryAnalysis::Partitioner2::Partitioner::icf
IndirectControlFlow::State & icf()
Internal data structures for indirect control flow recovery.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionCallingConvention
const CallingConvention::Analysis & functionCallingConvention(const FunctionPtr &) const
Calling convention analysis for one function.

Rose::BinaryAnalysis::Partitioner2::Partitioner::usingSymbolicSemantics
bool usingSymbolicSemantics() const
Use or not use symbolic semantics.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionsOwningBasicBlocks
std::vector< FunctionPtr > functionsOwningBasicBlocks(const Container &bblocks) const
Finds functions that own the specified basic block.
Definition Partitioner.h:1779

Rose::BinaryAnalysis::Partitioner2::Partitioner::checkingCallBranch
bool checkingCallBranch() const
Property: Whether to look for function calls used as branches.

Rose::BinaryAnalysis::Partitioner2::Partitioner::cfgGraphViz
void cfgGraphViz(std::ostream &, const AddressInterval &restrict=AddressInterval::whole(), bool showNeighbors=true) const
Output CFG as GraphViz.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockCallbacks
const BasicBlockCallbacks & basicBlockCallbacks() const
Callbacks for adjusting basic block during discovery.

Rose::BinaryAnalysis::Partitioner2::Partitioner::instructionsSpanning
std::vector< SgAsmInstruction * > instructionsSpanning(const AddressInterval &) const
Returns instructions that span an entire address interval.

Rose::BinaryAnalysis::Partitioner2::Partitioner::instructionExists
AddressUser instructionExists(Address startVa) const
Determines whether an instruction is attached to the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::findPlaceholder
ControlFlowGraph::VertexIterator findPlaceholder(Address startVa)
Find the CFG vertex for a basic block placeholder.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionName
static std::string functionName(const FunctionPtr &)
Name of a function.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionsOwningBasicBlock
std::vector< FunctionPtr > functionsOwningBasicBlock(const BasicBlockPtr &, bool doSort=true) const
Finds functions that own the specified basic block.

Rose::BinaryAnalysis::Partitioner2::Partitioner::expandIndeterminateCalls
void expandIndeterminateCalls()
Expands indeterminate function calls.

Rose::BinaryAnalysis::Partitioner2::Partitioner::discoverBasicBlock
BasicBlockPtr discoverBasicBlock(Address startVa) const
Discover instructions for a detached basic block.

Rose::BinaryAnalysis::Partitioner2::Partitioner::unparse
void unparse(std::ostream &) const
Unparse some entity.

Rose::BinaryAnalysis::Partitioner2::Partitioner::isEdgeIntraProcedural
bool isEdgeIntraProcedural(const ControlFlowGraph::Edge &edge) const
Determine if an edge is intra-procedural.

Rose::BinaryAnalysis::Partitioner2::Partitioner::attachDataBlock
DataBlockPtr attachDataBlock(const DataBlockPtr &)
Attach a data block to the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::attachFunctionBasicBlocks
size_t attachFunctionBasicBlocks(const FunctionPtr &)
Create placeholders for function basic blocks.

Rose::BinaryAnalysis::Partitioner2::Partitioner::dumpCfg
void dumpCfg(std::ostream &, const std::string &prefix="", bool showBlocks=true, bool computeProperties=true) const
Output the control flow graph.

Rose::BinaryAnalysis::Partitioner2::Partitioner::newOperators
InstructionSemantics::BaseSemantics::RiscOperatorsPtr newOperators() const
Obtain new RiscOperators.

Rose::BinaryAnalysis::Partitioner2::Partitioner::assumeFunctionsReturn
void assumeFunctionsReturn(bool)
Property: Assume (or not) that function calls return.

Rose::BinaryAnalysis::Partitioner2::Partitioner::dataBlockExists
DataBlockPtr dataBlockExists(const DataBlockPtr &) const
Determine if a data block or its equivalent is attached to the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::attachDataBlockToBasicBlock
DataBlockPtr attachDataBlockToBasicBlock(const DataBlockPtr &, const BasicBlockPtr &)
Attach a data block to a basic block.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockSemanticsAutoDrop
bool basicBlockSemanticsAutoDrop() const
Property: Automatically drop semantics for attached basic blocks.

Rose::BinaryAnalysis::Partitioner2::Partitioner::users
std::vector< AddressUser > users(Address) const
Entities that exist at a particular address.

Rose::BinaryAnalysis::Partitioner2::Partitioner::dataBlocksOverlapping
std::vector< DataBlockPtr > dataBlocksOverlapping(const AddressInterval &) const
Returns data blocks that overlap with specified address interval.

Rose::BinaryAnalysis::Partitioner2::Partitioner::Partitioner
Partitioner(BOOST_RV_REF(Partitioner))
Move constructor.

Rose::BinaryAnalysis::Partitioner2::Partitioner::detachBasicBlock
BasicBlockPtr detachBasicBlock(const BasicBlockPtr &basicBlock)
Detach a basic block from the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::nextFunctionPrologue
std::vector< FunctionPtr > nextFunctionPrologue(Address startVa)
Finds the next function by searching for a function prologue.

Rose::BinaryAnalysis::Partitioner2::Partitioner::newDispatcher
InstructionSemantics::BaseSemantics::DispatcherPtr newDispatcher(const InstructionSemantics::BaseSemantics::RiscOperatorsPtr &) const
Obtain a new instruction semantics dispatcher.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlocksOverlapping
std::vector< BasicBlockPtr > basicBlocksOverlapping(const AddressInterval &) const
Returns basic blocks that overlap with specified address interval.

Rose::BinaryAnalysis::Partitioner2::Partitioner::attachBasicBlock
void attachBasicBlock(const BasicBlockPtr &)
Attach a basic block to the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::interpretation
SgAsmInterpretation * interpretation() const
Property: Interpretation corresponding to the memory map.

Rose::BinaryAnalysis::Partitioner2::Partitioner::unparsePlain
std::string unparsePlain(SgAsmInstruction *) const
Unparse an instruction in a plain way.

Rose::BinaryAnalysis::Partitioner2::Partitioner::progress
Progress::Ptr progress() const
Property: How to report progress.

Rose::BinaryAnalysis::Partitioner2::Partitioner::detachFunction
void detachFunction(const FunctionPtr &)
Detaches a function from the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::vertexNameEnd
static std::string vertexNameEnd(const ControlFlowGraph::Vertex &)
Name of last instruction in vertex.

Rose::BinaryAnalysis::Partitioner2::Partitioner::insnUnparser
void insnUnparser(const Unparser::BasePtr &)
Returns an unparser.

Rose::BinaryAnalysis::Partitioner2::Partitioner::addressIsExecutable
bool addressIsExecutable(Address) const
Returns true if address is executable.

Rose::BinaryAnalysis::Partitioner2::Partitioner::detachDataBlock
void detachDataBlock(const DataBlockPtr &)
Detaches a data block from the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::vertexName
std::string vertexName(const ControlFlowGraph::ConstVertexIterator &) const
Name of a vertex.

Rose::BinaryAnalysis::Partitioner2::Partitioner::showStatistics
void showStatistics() const
Print some partitioner performance statistics.

Rose::BinaryAnalysis::Partitioner2::Partitioner::instance
static Ptr instance(const Architecture::BaseConstPtr &)
Default allocating constructor.

Rose::BinaryAnalysis::Partitioner2::Partitioner::disableSymbolicSemantics
void disableSymbolicSemantics()
Use or not use symbolic semantics.

Rose::BinaryAnalysis::Partitioner2::Partitioner::aum
const AddressUsageMap & aum() const
Returns the address usage map.

Rose::BinaryAnalysis::Partitioner2::Partitioner::icf
const IndirectControlFlow::State & icf() const
Internal data structures for indirect control flow recovery.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockGhostSuccessors
std::set< Address > basicBlockGhostSuccessors(const BasicBlockPtr &) const
Determine ghost successors for a basic block.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functions
std::vector< FunctionPtr > functions() const
All functions attached to the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::saveAsRbaFile
void saveAsRbaFile(const boost::filesystem::path &name, SerialIo::Format fmt) const
Save this partitioner as an RBA file.

Rose::BinaryAnalysis::Partitioner2::Partitioner::erasePlaceholder
BasicBlockPtr erasePlaceholder(const ControlFlowGraph::ConstVertexIterator &placeholder)
Remove a basic block placeholder from the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::progress
void progress(const Progress::Ptr &)
Property: How to report progress.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionsSpanning
std::vector< FunctionPtr > functionsSpanning(const AddressInterval &) const
Returns functions that span an entire address interval.

Rose::BinaryAnalysis::Partitioner2::Partitioner::instructionsOverlapping
std::vector< SgAsmInstruction * > instructionsOverlapping(const AddressInterval &) const
Returns instructions that overlap with specified address interval.

Rose::BinaryAnalysis::Partitioner2::Partitioner::enableSymbolicSemantics
void enableSymbolicSemantics(bool=true)
Use or not use symbolic semantics.

Rose::BinaryAnalysis::Partitioner2::Partitioner::findPlaceholder
ControlFlowGraph::ConstVertexIterator findPlaceholder(Address startVa) const
Find the CFG vertex for a basic block placeholder.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionPrologueMatchers
const FunctionPrologueMatchers & functionPrologueMatchers() const
Ordered list of function prologue matchers.

Rose::BinaryAnalysis::Partitioner2::Partitioner::elfGotVa
Sawyer::Optional< Address > elfGotVa() const
Returns a previously cached ELF GOT address.

Rose::BinaryAnalysis::Partitioner2::Partitioner::AddressNameMap
Sawyer::Container::Map< Address, std::string > AddressNameMap
Map address to name.
Definition Partitioner.h:293

Rose::BinaryAnalysis::Partitioner2::Partitioner::nInstructions
size_t nInstructions() const
Returns the number of instructions attached to the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::unparser
void unparser(const Unparser::BasePtr &)
Returns an unparser.

Rose::BinaryAnalysis::Partitioner2::Partitioner::instance
static Ptr instance(const Architecture::BaseConstPtr &, const MemoryMap::Ptr &)
Construct a partitioner.

Rose::BinaryAnalysis::Partitioner2::Partitioner::autoAddCallReturnEdges
void autoAddCallReturnEdges(bool)
Property: Insert (or not) function call return edges.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockStackDeltaOut
InstructionSemantics::BaseSemantics::SValuePtr basicBlockStackDeltaOut(const BasicBlockPtr &, const FunctionPtr &function) const
Return the stack delta expression.

Rose::BinaryAnalysis::Partitioner2::Partitioner::clear
void clear()
Reset CFG/AUM to initial state.

Rose::BinaryAnalysis::Partitioner2::Partitioner::discoverBasicBlock
BasicBlockPtr discoverBasicBlock(const ControlFlowGraph::ConstVertexIterator &placeholder) const
Discover instructions for a detached basic block.

Rose::BinaryAnalysis::Partitioner2::Partitioner::nextFunctionPrologue
std::vector< FunctionPtr > nextFunctionPrologue(Address startVa, Address &lastSearchedVa)
Finds the next function by searching for a function prologue.

Rose::BinaryAnalysis::Partitioner2::Partitioner::isDefaultConstructed
bool isDefaultConstructed() const
Return true if this is a default constructed partitioner.

Rose::BinaryAnalysis::Partitioner2::Partitioner::allFunctionMayReturn
void allFunctionMayReturn() const
Compute may-return analysis for all functions.

Rose::BinaryAnalysis::Partitioner2::Partitioner::FunctionPrologueMatchers
std::vector< FunctionPrologueMatcherPtr > FunctionPrologueMatchers
See functionPrologueMatchers.
Definition Partitioner.h:281

Rose::BinaryAnalysis::Partitioner2::Partitioner::insnUnparser
Unparser::BasePtr insnUnparser() const
Returns an unparser.

Rose::BinaryAnalysis::Partitioner2::Partitioner::smtSolver
SmtSolverPtr smtSolver() const
SMT solver.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionsOwningBasicBlock
std::vector< FunctionPtr > functionsOwningBasicBlock(const ControlFlowGraph::Vertex &, bool doSort=true) const
Finds functions that own the specified basic block.

Rose::BinaryAnalysis::Partitioner2::Partitioner::isEdgeIntraProcedural
bool isEdgeIntraProcedural(ControlFlowGraph::ConstEdgeIterator edge, const FunctionPtr &) const
Determine if an edge is intra-procedural.

Rose::BinaryAnalysis::Partitioner2::Partitioner::attachOrMergeFunction
FunctionPtr attachOrMergeFunction(const FunctionPtr &)
Attaches or merges a function into the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::attachDataBlockToFunction
DataBlockPtr attachDataBlockToFunction(const DataBlockPtr &, const FunctionPtr &)
Attach a data block to an attached or detached function.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockExists
BasicBlockPtr basicBlockExists(Address startVa) const
Determines whether a discovered basic block exists in the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::attachFunctions
size_t attachFunctions(const Functions &)
Attaches a function to the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::detachBasicBlock
BasicBlockPtr detachBasicBlock(const ControlFlowGraph::ConstVertexIterator &placeholder)
Detach a basic block from the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionDataFlowConstants
std::set< Address > functionDataFlowConstants(const FunctionPtr &) const
Find constants in function using data-flow.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionBasicBlockExtent
void functionBasicBlockExtent(const FunctionPtr &function, AddressIntervalSet &retval) const
Returns the addresses used by a function.

Rose::BinaryAnalysis::Partitioner2::Partitioner::nBasicBlocks
size_t nBasicBlocks() const
Returns the number of basic blocks attached to the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::addressNames
const AddressNameMap & addressNames() const
Property: Name for address.

Rose::BinaryAnalysis::Partitioner2::Partitioner::edgeNameDst
std::string edgeNameDst(const ControlFlowGraph::ConstEdgeIterator &) const
Name of an outgoing edge.

Rose::BinaryAnalysis::Partitioner2::Partitioner::configureInsnUnparser
void configureInsnUnparser(const Unparser::BasePtr &) const
Configure the single-instruction unparser.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionCallingConventionDefinitions
CallingConvention::Dictionary functionCallingConventionDefinitions(const FunctionPtr &) const
Return list of matching calling conventions.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockPopsStack
bool basicBlockPopsStack(const BasicBlockPtr &) const
Determine if the basic block pops at least one byte from the stack.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionsOwningBasicBlock
std::vector< FunctionPtr > functionsOwningBasicBlock(const ControlFlowGraph::ConstVertexIterator &, bool doSort=true) const
Finds functions that own the specified basic block.

Rose::BinaryAnalysis::Partitioner2::Partitioner::fixInterFunctionEdges
void fixInterFunctionEdges()
Adjust inter-function edge types.

Rose::BinaryAnalysis::Partitioner2::Partitioner::allFunctionIsNoop
void allFunctionIsNoop() const
Analyze all functions for whether they are effectivly no-ops.

Rose::BinaryAnalysis::Partitioner2::Partitioner::dataBlocks
std::vector< DataBlockPtr > dataBlocks() const
Returns the list of all attached data blocks.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionDataBlockExtent
void functionDataBlockExtent(const FunctionPtr &function, AddressIntervalSet &retval) const
Returns the addresses used by a function.

Rose::BinaryAnalysis::Partitioner2::Partitioner::isEdgeInterProcedural
bool isEdgeInterProcedural(ControlFlowGraph::ConstEdgeIterator edge, const FunctionPtr &sourceFunction, const FunctionPtr &targetFunction) const
Determine if an edge is inter-procedural.

Rose::BinaryAnalysis::Partitioner2::Partitioner::placeholderExists
bool placeholderExists(Address startVa) const
Determines whether a basic block placeholder exists in the CFG.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionPaddingMatchers
const FunctionPaddingMatchers & functionPaddingMatchers() const
Ordered list of function padding matchers.

Rose::BinaryAnalysis::Partitioner2::Partitioner::edgeNameSrc
std::string edgeNameSrc(const ControlFlowGraph::ConstEdgeIterator &) const
Name of an incoming edge.

Rose::BinaryAnalysis::Partitioner2::Partitioner::vertexName
static std::string vertexName(const ControlFlowGraph::Vertex &)
Name of a vertex.

Rose::BinaryAnalysis::Partitioner2::Partitioner::semanticMemoryParadigm
void semanticMemoryParadigm(SemanticMemoryParadigm)
Property: Whether to use map- or list-based memory states.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockCallbacks
BasicBlockCallbacks & basicBlockCallbacks()
Callbacks for adjusting basic block during discovery.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionExists
FunctionPtr functionExists(const BasicBlockPtr &entryBlock) const
Determines whether a function exists in the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionDataBlockExtent
AddressIntervalSet functionDataBlockExtent(const FunctionPtr &function) const
Returns the addresses used by a function.

Rose::BinaryAnalysis::Partitioner2::Partitioner::instructionProvider
InstructionProvider & instructionProvider()
Returns the instruction provider.

Rose::BinaryAnalysis::Partitioner2::Partitioner::BasicBlockCallbacks
Sawyer::Callbacks< BasicBlockCallbackPtr > BasicBlockCallbacks
See basicBlockCallbacks.
Definition Partitioner.h:280

Rose::BinaryAnalysis::Partitioner2::Partitioner::sourceLocations
void sourceLocations(const SourceLocations &)
Property: Source locations.

Rose::BinaryAnalysis::Partitioner2::Partitioner::attachFunction
size_t attachFunction(const FunctionPtr &)
Attaches a function to the CFG/AUM.

Rose::BinaryAnalysis::Partitioner2::Partitioner::forgetFunctionIsNoop
void forgetFunctionIsNoop(const FunctionPtr &) const
Clears cached function no-op analysis results.

Rose::BinaryAnalysis::Partitioner2::Partitioner::edgeName
static std::string edgeName(const ControlFlowGraph::Edge &)
Name of an edge.

Rose::BinaryAnalysis::Partitioner2::Partitioner::edgeNameDst
static std::string edgeNameDst(const ControlFlowGraph::Edge &)
Name of an outgoing edge.

Rose::BinaryAnalysis::Partitioner2::Partitioner::cfgAdjustmentCallbacks
const CfgAdjustmentCallbacks & cfgAdjustmentCallbacks() const
List of all callbacks invoked when the CFG is adjusted.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionExtent
void functionExtent(const FunctionPtr &function, AddressIntervalSet &retval) const
Returns the addresses used by a function.

Rose::BinaryAnalysis::Partitioner2::Partitioner::instructionExtent
AddressInterval instructionExtent(SgAsmInstruction *) const
Returns the address interval for an instruction.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockSemanticsAutoDrop
void basicBlockSemanticsAutoDrop(bool)
Property: Automatically drop semantics for attached basic blocks.

Rose::BinaryAnalysis::Partitioner2::Partitioner::memoryMap
MemoryMap::Ptr memoryMap() const
Returns the memory map.

Rose::BinaryAnalysis::Partitioner2::Partitioner::instructionCrossReferences
CrossReferences instructionCrossReferences(const AddressIntervalSet &restriction) const
Cross references.

Rose::BinaryAnalysis::Partitioner2::Partitioner::isEdgeInterProcedural
bool isEdgeInterProcedural(ControlFlowGraph::ConstEdgeIterator edge, const FunctionPtr &sourceFunction) const
Determine if an edge is inter-procedural.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionsContainedIn
std::vector< FunctionPtr > functionsContainedIn(const AddressInterval &) const
Returns functions that are fully contained in an address interval.

Rose::BinaryAnalysis::Partitioner2::Partitioner::discoverFunctionEntryVertices
std::vector< FunctionPtr > discoverFunctionEntryVertices() const
Scans the CFG to find function entry basic blocks.

Rose::BinaryAnalysis::Partitioner2::Partitioner::allFunctionCallingConventionDefinition
void allFunctionCallingConventionDefinition(const CallingConvention::Definition::Ptr &) const
Analyzes calling conventions and saves results.

Rose::BinaryAnalysis::Partitioner2::Partitioner::sourceLocations
SourceLocations & sourceLocations()
Property: Source locations.

Rose::BinaryAnalysis::Partitioner2::Partitioner::isEdgeInterProcedural
bool isEdgeInterProcedural(const ControlFlowGraph::Edge &edge) const
Determine if an edge is inter-procedural.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionBasicBlockExtent
AddressIntervalSet functionBasicBlockExtent(const FunctionPtr &function) const
Returns the addresses used by a function.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionsOwningBasicBlock
std::vector< FunctionPtr > functionsOwningBasicBlock(Address bblockVa, bool doSort=true) const
Finds functions that own the specified basic block.

Rose::BinaryAnalysis::Partitioner2::Partitioner::instructionProvider
const InstructionProvider & instructionProvider() const
Returns the instruction provider.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionPaddingMatchers
FunctionPaddingMatchers & functionPaddingMatchers()
Ordered list of function padding matchers.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockOptionalMayReturn
Sawyer::Optional< bool > basicBlockOptionalMayReturn(const ControlFlowGraph::ConstVertexIterator &) const
Determine if part of the CFG can pop the top stack frame.

Rose::BinaryAnalysis::Partitioner2::Partitioner::settings
const BasePartitionerSettings & settings() const
Partitioner settings.

Rose::BinaryAnalysis::Partitioner2::Partitioner::edgeNameSrc
static std::string edgeNameSrc(const ControlFlowGraph::Edge &)
Name of an incoming edge.

Rose::BinaryAnalysis::Partitioner2::Partitioner::undiscoveredVertex
ControlFlowGraph::ConstVertexIterator undiscoveredVertex() const
Returns the special "undiscovered" vertex.

Rose::BinaryAnalysis::Partitioner2::Partitioner::unparse
std::string unparse(SgAsmInstruction *) const
Unparse some entity.

Rose::BinaryAnalysis::Partitioner2::Partitioner::updateProgress
void updateProgress(const std::string &phase, double completion) const
Update partitioner with a new progress report.

Rose::BinaryAnalysis::Partitioner2::Partitioner::functionCallingConventionDefinitions
CallingConvention::Dictionary functionCallingConventionDefinitions(const FunctionPtr &, const CallingConvention::Definition::Ptr &) const
Return list of matching calling conventions.

Rose::BinaryAnalysis::Partitioner2::Partitioner::allFunctionCallingConventionDefinition
void allFunctionCallingConventionDefinition() const
Analyzes calling conventions and saves results.

Rose::BinaryAnalysis::Partitioner2::Partitioner::dataBlockExtent
AddressInterval dataBlockExtent(const DataBlockPtr &) const
Returns the addresses used by a data block.

Rose::BinaryAnalysis::Partitioner2::Partitioner::instanceFromRbaFile
static PartitionerPtr instanceFromRbaFile(const boost::filesystem::path &, SerialIo::Format=SerialIo::BINARY)
Construct a partitioner by loading it and an AST from a file.

Rose::BinaryAnalysis::Partitioner2::Partitioner::basicBlockStackDeltaIn
InstructionSemantics::BaseSemantics::SValuePtr basicBlockStackDeltaIn(const BasicBlockPtr &, const FunctionPtr &function) const
Return the stack delta expression.

Rose::BinaryAnalysis::Partitioner2::Partitioner::instructionExists
AddressUser instructionExists(SgAsmInstruction *insn) const
Determines whether an instruction is attached to the CFG/AUM.

Rose::BinaryAnalysis::SerialIo::Format
Format
Format of the state file.
Definition SerialIo.h:102

Rose::BinaryAnalysis::SourceLocations
Bidirectional mapping between addresses and source locations.
Definition SourceLocations.h:33

Sawyer::Attribute::Storage
API and storage for attributes.
Definition Attribute.h:215

Sawyer::Callbacks
Definition Callbacks.h:19

Sawyer::Container::Graph< CfgVertex, CfgEdge >

Sawyer::Container::HashMap< Address, ControlFlowGraph::VertexIterator >

Sawyer::Container::IntervalSet< AddressInterval >

Sawyer::Container::Interval< Address >

Sawyer::Container::Map
Container associating values with keys.
Definition Sawyer/Map.h:72

Sawyer::Optional
Holds a value or nothing.
Definition Optional.h:54

Sawyer::SharedFromThis
Creates SharedPointer from this.
Definition SharedPointer.h:398

Sawyer::SharedObject
Base class for reference counted objects.
Definition SharedObject.h:64

Sawyer::SharedPointer
Reference-counting intrusive smart pointer.
Definition SharedPointer.h:65

SgAsmElfFileHeader
Represents the file header of an ELF binary container.
Definition binaryInstruction.C:23061

SgAsmGenericSection
Contiguous region of a file.
Definition binaryInstruction.C:32667

SgAsmInstruction
Base class for machine instructions.
Definition binaryInstruction.C:45375

SgAsmInterpretation
Represents an interpretation of a binary container.
Definition binaryInstruction.C:15734

Rose::BinaryAnalysis::Architecture::BaseConstPtr
std::shared_ptr< const Base > BaseConstPtr
Reference counted pointer for Architecture::Base.
Definition Rose/BinaryAnalysis/Architecture/BasicTypes.h:41

Rose::BinaryAnalysis::CallingConvention::Dictionary
std::vector< DefinitionPtr > Dictionary
An ordered collection of calling convention definitions.
Definition Rose/BinaryAnalysis/CallingConvention/BasicTypes.h:71

Rose::BinaryAnalysis::InstructionSemantics::BaseSemantics::RiscOperatorsPtr
boost::shared_ptr< RiscOperators > RiscOperatorsPtr
Shared-ownership pointer to a RISC operators object.
Definition Rose/BinaryAnalysis/InstructionSemantics/BaseSemantics/BasicTypes.h:77

Rose::BinaryAnalysis::InstructionSemantics::BaseSemantics::DispatcherPtr
boost::shared_ptr< Dispatcher > DispatcherPtr
Shared-ownership pointer to a semantics instruction dispatcher.
Definition Rose/BinaryAnalysis/InstructionSemantics/BaseSemantics/BasicTypes.h:80

Rose::BinaryAnalysis::Partitioner2::AllowParallelEdges::Type
Type
Definition Rose/BinaryAnalysis/Partitioner2/BasicTypes.h:44

Rose::BinaryAnalysis::Partitioner2::Precision::Level
Level
Definition Rose/BinaryAnalysis/Partitioner2/BasicTypes.h:34

Rose::BinaryAnalysis::Partitioner2::BasicBlockSuccessors
std::vector< BasicBlockSuccessor > BasicBlockSuccessors
All successors in no particular order.
Definition Rose/BinaryAnalysis/Partitioner2/BasicTypes.h:755

Rose::BinaryAnalysis::Partitioner2::SemanticMemoryParadigm
SemanticMemoryParadigm
Organization of semantic memory.
Definition Rose/BinaryAnalysis/Partitioner2/BasicTypes.h:92

Rose::BinaryAnalysis::Partitioner2::LIST_BASED_MEMORY
@ LIST_BASED_MEMORY
Precise but slow.
Definition Rose/BinaryAnalysis/Partitioner2/BasicTypes.h:93

Rose::BinaryAnalysis::Address
std::uint64_t Address
Address.
Definition Address.h:11

Rose::BinaryAnalysis::SmtSolverPtr
std::shared_ptr< SmtSolver > SmtSolverPtr
Reference counting pointer.
Definition Rose/BinaryAnalysis/BasicTypes.h:59

Rose
The ROSE library.
Definition BinaryTutorial.dox:3

Rose::BinaryAnalysis::Partitioner2::BasePartitionerSettings
Settings that directly control a partitioner.
Definition Rose/BinaryAnalysis/Partitioner2/BasicTypes.h:326

Rose::BinaryAnalysis::Partitioner2::IndirectControlFlow::State
Internal state for these analyses.
Definition IndirectControlFlow.h:23

Rose::BinaryAnalysis::Partitioner2::Partitioner::Thunk
Represents information about a thunk.
Definition Partitioner.h:285

Rose::BinaryAnalysis::Partitioner2::Partitioner::Thunk::target
Address target
The one and only successor for the basic block.
Definition Partitioner.h:287

Rose::BinaryAnalysis::Partitioner2::Partitioner::Thunk::bblock
BasicBlockPtr bblock
The one and only basic block for the thunk.
Definition Partitioner.h:286