ROSE_HTML_Reference/BinaryFeasiblePath_8h_source.html

 #ifndef ROSE_BinaryAnalysis_FeasiblePath_H

 #define ROSE_BinaryAnalysis_FeasiblePath_H


 #include <BaseSemantics2.h>

 #include <BinarySmtSolver.h>

 #include <BinarySymbolicExprParser.h>

 #include <Partitioner2/CfgPath.h>

 #include <RoseException.h>

 #include <Sawyer/CommandLine.h>

 #include <Sawyer/Message.h>

 #include <boost/filesystem/path.hpp>


 namespace Rose {

 namespace BinaryAnalysis {


 class FeasiblePath {

     //                                  Types and public data members

 public:

     class Exception: public Rose::Exception {

     public:

         Exception(const std::string &what)

             : Rose::Exception(what) {}

         ~Exception() throw () {}

     };


     enum SearchMode {

         SEARCH_SINGLE_DFS,

         SEARCH_SINGLE_BFS,

         SEARCH_MULTI

     };


     enum SemanticMemoryParadigm {

         LIST_BASED_MEMORY,

         MAP_BASED_MEMORY

     };


     enum EdgeVisitOrder {

         VISIT_NATURAL,

         VISIT_REVERSE,

         VISIT_RANDOM,

     };


     enum IoMode { READ, WRITE };


     enum MayOrMust { MAY, MUST };


     typedef std::set<rose_addr_t> AddressSet;


     struct Expression {

         AddressIntervalSet location;

         std::string parsable;

         SymbolicExpr::Ptr expr;

         Expression() {}

         /*implicit*/ Expression(const std::string &parsable): parsable(parsable) {}

         /*implicit*/ Expression(const SymbolicExpr::Ptr &expr): expr(expr) {}


         void print(std::ostream&) const;

     };


     struct Settings {

         // Path feasibility

         SearchMode searchMode;

         Sawyer::Optional<rose_addr_t> initialStackPtr;

         size_t maxVertexVisit;

         size_t maxPathLength;

         size_t maxCallDepth;

         size_t maxRecursionDepth;

         std::vector<Expression> assertions;

         std::vector<std::string> assertionLocations;

         std::vector<rose_addr_t> summarizeFunctions;

         bool nonAddressIsFeasible;

         std::string solverName;

         SemanticMemoryParadigm memoryParadigm;

         bool processFinalVertex;

         bool ignoreSemanticFailure;

         double kCycleCoefficient;

         EdgeVisitOrder edgeVisitOrder;

         bool trackingCodeCoverage;

         std::vector<rose_addr_t> ipRewrite;

         // Null dereferences

         struct NullDeref {

             bool check;

             MayOrMust mode;

             bool constOnly;

             NullDeref()

                 : check(false), mode(MUST), constOnly(false) {}

         } nullDeref;

         std::string exprParserDoc;

         Settings()

             : searchMode(SEARCH_SINGLE_DFS), maxVertexVisit((size_t)-1), maxPathLength(200), maxCallDepth((size_t)-1),

               maxRecursionDepth((size_t)-1), nonAddressIsFeasible(true), solverName("best"),

               memoryParadigm(LIST_BASED_MEMORY), processFinalVertex(false), ignoreSemanticFailure(false),

               kCycleCoefficient(0.0), edgeVisitOrder(VISIT_NATURAL), trackingCodeCoverage(true) {}

     };


     static Sawyer::Message::Facility mlog;


      RegisterDescriptor REG_PATH;


     struct VarDetail {

         std::string registerName;

         std::string firstAccessMode;

         SgAsmInstruction *firstAccessInsn;

         Sawyer::Optional<size_t> firstAccessIdx;

         SymbolicExpr::Ptr memAddress;

         size_t memSize;

         size_t memByteNumber;

         Sawyer::Optional<rose_addr_t> returnFrom;

         VarDetail(): firstAccessInsn(NULL), memSize(0), memByteNumber(0) {}

         std::string toString() const;

     };


     typedef Sawyer::Container::Map<std::string /*name*/, FeasiblePath::VarDetail> VarDetails;


     class PathProcessor {

     public:

         enum Action {

             BREAK,

             CONTINUE

         };


         virtual ~PathProcessor() {}


         virtual Action found(const FeasiblePath &analyzer, const Partitioner2::CfgPath &path,

                              const InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu,

                              const SmtSolverPtr &solver) { return CONTINUE; }


         virtual void nullDeref(const FeasiblePath &analyzer, const Partitioner2::CfgPath &path,

                                const SmtSolverPtr &solver, IoMode ioMode,

                                const InstructionSemantics2::BaseSemantics::SValuePtr &addr, SgAsmInstruction *insn) {}


         virtual void memoryIo(const FeasiblePath &analyzer, const Partitioner2::CfgPath &path,

                               const SmtSolverPtr &solver, IoMode ioMode,

                               const InstructionSemantics2::BaseSemantics::SValuePtr &addr,

                               const InstructionSemantics2::BaseSemantics::SValuePtr &value,

                               const InstructionSemantics2::BaseSemantics::RiscOperatorsPtr &ops) {}

     };


     struct FunctionSummary {

         rose_addr_t address;

         int64_t stackDelta;

         std::string name;

         FunctionSummary(): stackDelta(SgAsmInstruction::INVALID_STACK_DELTA) {}


         FunctionSummary(const Partitioner2::ControlFlowGraph::ConstVertexIterator &cfgFuncVertex, uint64_t stackDelta);

     };


     typedef Sawyer::Container::Map<rose_addr_t, FunctionSummary> FunctionSummaries;


     class FunctionSummarizer: public Sawyer::SharedObject {

     public:

         typedef Sawyer::SharedPointer<FunctionSummarizer> Ptr;

     protected:

         FunctionSummarizer() {}

     public:

         virtual void init(const FeasiblePath &analysis, FunctionSummary &summary /*in,out*/,

                           const Partitioner2::Function::Ptr &function,

                           Partitioner2::ControlFlowGraph::ConstVertexIterator cfgCallTarget) = 0;


         virtual bool process(const FeasiblePath &analysis, const FunctionSummary &summary,

                              const InstructionSemantics2::SymbolicSemantics::RiscOperatorsPtr &ops) = 0;


         virtual InstructionSemantics2::SymbolicSemantics::SValuePtr

         returnValue(const FeasiblePath &analysis, const FunctionSummary &summary,

                     const InstructionSemantics2::SymbolicSemantics::RiscOperatorsPtr &ops) = 0;

     };


     //                                  Private data members

 private:

     const Partitioner2::Partitioner *partitioner_;      // binary analysis context

     RegisterDictionary *registers_;                     // registers augmented with "path" pseudo-register

     RegisterDescriptor REG_RETURN_;                     // FIXME[Robb P Matzke 2016-10-11]: see source

     Settings settings_;

     FunctionSummaries functionSummaries_;

     Partitioner2::CfgVertexMap vmap_;                   // relates CFG vertices to path vertices

     Partitioner2::ControlFlowGraph paths_;              // all possible paths, feasible or otherwise

     Partitioner2::CfgConstVertexSet pathsBeginVertices_;// vertices of paths_ where searching starts

     Partitioner2::CfgConstVertexSet pathsEndVertices_;  // vertices of paths_ where searching stops

     Partitioner2::CfgConstEdgeSet cfgAvoidEdges_;       // CFG edges to avoid

     Partitioner2::CfgConstVertexSet cfgEndAvoidVertices_;// CFG end-of-path and other avoidance vertices

     FunctionSummarizer::Ptr functionSummarizer_;        // user-defined function for handling function summaries

     AddressSet reachedBlockVas_;                        // basic block addresses reached during analysis

     static Sawyer::Attribute::Id POST_STATE;            // stores semantic state after executing the insns for a vertex

     static Sawyer::Attribute::Id POST_INSN_LENGTH;      // path length in instructions at end of vertex

     static Sawyer::Attribute::Id EFFECTIVE_K;           // (double) effective maximimum path length


     //                                  Construction, destruction

 public:

     FeasiblePath()

         : registers_(NULL) {}


     virtual ~FeasiblePath() {}


     void reset() {

         partitioner_ = NULL;

         registers_ = NULL;

         REG_PATH = REG_RETURN_ = RegisterDescriptor();

         functionSummaries_.clear();

         vmap_.clear();

         paths_.clear();

         pathsBeginVertices_.clear();

         pathsEndVertices_.clear();

         cfgAvoidEdges_.clear();

         cfgEndAvoidVertices_.clear();

         reachedBlockVas_.clear();

     }


     static void initDiagnostics();


     //                                  Settings affecting behavior

 public:

     const Settings& settings() const { return settings_; }

     Settings& settings() { return settings_; }

     void settings(const Settings &s) { settings_ = s; }

     static Sawyer::CommandLine::SwitchGroup commandLineSwitches(Settings &settings);


     static std::string expressionDocumentation();


     //                                  Overridable processing functions

 public:

     virtual InstructionSemantics2::BaseSemantics::DispatcherPtr

     buildVirtualCpu(const Partitioner2::Partitioner&, const Partitioner2::CfgPath*, PathProcessor*, const SmtSolver::Ptr&);


     virtual void

     setInitialState(const InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu,

                     const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathsBeginVertex);


     virtual void

     processBasicBlock(const Partitioner2::BasicBlock::Ptr &bblock,

                       const InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu, size_t pathInsnIndex);


     virtual void

     processIndeterminateBlock(const Partitioner2::ControlFlowGraph::ConstVertexIterator &vertex,

                               const InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu,

                               size_t pathInsnIndex);


     virtual void

     processFunctionSummary(const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathsVertex,

                            const InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu,

                            size_t pathInsnIndex);


     virtual void

     processVertex(const InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu,

                   const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathsVertex,

                   size_t &pathInsnIndex /*in,out*/);


     virtual bool

     shouldSummarizeCall(const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathVertex,

                         const Partitioner2::ControlFlowGraph &cfg,

                         const Partitioner2::ControlFlowGraph::ConstVertexIterator &cfgCallTarget);


     virtual bool

     shouldInline(const Partitioner2::CfgPath &path, const Partitioner2::ControlFlowGraph::ConstVertexIterator &cfgCallTarget);


     FunctionSummarizer::Ptr functionSummarizer() const { return functionSummarizer_; }

     void functionSummarizer(const FunctionSummarizer::Ptr &f) { functionSummarizer_ = f; }

     //                                  Utilities

 public:

     Partitioner2::ControlFlowGraph::ConstVertexIterator

     pathToCfg(const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathVertex) const;


     Partitioner2::CfgConstVertexSet

     cfgToPaths(const Partitioner2::CfgConstVertexSet&) const;


     bool pathEndsWithFunctionCall(const Partitioner2::CfgPath&) const;


     bool isFunctionCall(const Partitioner2::ControlFlowGraph::ConstVertexIterator&) const;


     void printPathVertex(std::ostream &out, const Partitioner2::ControlFlowGraph::Vertex &pathVertex,

                          size_t &insnIdx /*in,out*/) const;


     void printPath(std::ostream &out, const Partitioner2::CfgPath&) const;


     static bool isAnyEndpointReachable(const Partitioner2::ControlFlowGraph &cfg,

                                        const Partitioner2::ControlFlowGraph::ConstVertexIterator &beginVertex,

                                        const Partitioner2::CfgConstVertexSet &endVertices);


     //                                  Functions for describing the search space

 public:


     void

     setSearchBoundary(const Partitioner2::Partitioner &partitioner,

                       const Partitioner2::CfgConstVertexSet &cfgBeginVertices,

                       const Partitioner2::CfgConstVertexSet &cfgEndVertices,

                       const Partitioner2::CfgConstVertexSet &cfgAvoidVertices = Partitioner2::CfgConstVertexSet(),

                       const Partitioner2::CfgConstEdgeSet &cfgAvoidEdges = Partitioner2::CfgConstEdgeSet());

     void

     setSearchBoundary(const Partitioner2::Partitioner &partitioner,

                       const Partitioner2::ControlFlowGraph::ConstVertexIterator &cfgBeginVertex,

                       const Partitioner2::ControlFlowGraph::ConstVertexIterator &cfgEndVertex,

                       const Partitioner2::CfgConstVertexSet &cfgAvoidVertices = Partitioner2::CfgConstVertexSet(),

                       const Partitioner2::CfgConstEdgeSet &cfgAvoidEdges = Partitioner2::CfgConstEdgeSet());

     //                                  Functions for searching for paths

 public:

     void depthFirstSearch(PathProcessor &pathProcessor);


     //                                  Functions for getting the results

 public:

     const Partitioner2::Partitioner& partitioner() const;


     const FunctionSummaries& functionSummaries() const {

         return functionSummaries_;

     }


     const FunctionSummary& functionSummary(rose_addr_t entryVa) const;


     const VarDetail& varDetail(const InstructionSemantics2::BaseSemantics::StatePtr&, const std::string &varName) const;


     const VarDetails& varDetails(const InstructionSemantics2::BaseSemantics::StatePtr&) const;


     static InstructionSemantics2::BaseSemantics::StatePtr pathPostState(const Partitioner2::CfgPath&, size_t vertexIdx);


     double pathEffectiveK(const Partitioner2::CfgPath&) const;


     static size_t pathLength(const Partitioner2::CfgPath&);


     //                                  Functions for code coverage

 public:

     const AddressSet& reachedBlockVas() const;


     //                                  Private supporting functions

 private:

     // Check that analysis settings are valid, or throw an exception.

     void checkSettings() const;


     static rose_addr_t virtualAddress(const Partitioner2::ControlFlowGraph::ConstVertexIterator &vertex);


     void insertCallSummary(const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathsCallSite,

                            const Partitioner2::ControlFlowGraph &cfg,

                            const Partitioner2::ControlFlowGraph::ConstEdgeIterator &cfgCallEdge);


     boost::filesystem::path emitPathGraph(size_t callId, size_t graphId);  // emit paths graph to "rose-debug" directory


     // Pop an edge (or more) from the path and follow some other edge.  Also, adjust the SMT solver's stack in a similar

     // way. The SMT solver will have an initial state, plus one pushed state per edge of the path.

     void backtrack(Partitioner2::CfgPath &path /*in,out*/, const SmtSolver::Ptr&);


     // Process one edge of a path to find any path constraints. When called, the cpu's current state should be the virtual

     // machine state at it exists just prior to executing the target vertex of the specified edge.

     //

     // Returns a null pointer if the edge's assertion is trivially unsatisfiable, such as when the edge points to a basic block

     // whose address doesn't match the contents of the instruction pointer register after executing the edge's source

     // block. Otherwise, returns a symbolic expression which must be tree if the edge is feasible. For trivially feasible

     // edges, the return value is the constant 1 (one bit wide; i.e., true).

     SymbolicExpr::Ptr pathEdgeConstraint(const Partitioner2::ControlFlowGraph::ConstEdgeIterator &pathEdge,

                                          InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu);


     // Parse the expression if it's a parsable string, otherwise return the expression as is. */

     Expression parseExpression(Expression, const std::string &where, SymbolicExprParser&) const;


     SymbolicExpr::Ptr expandExpression(const Expression&, SymbolicExprParser&);


     // Based on the last vertex of the path, insert user-specified assertions into the SMT solver.

     void insertAssertions(const SmtSolver::Ptr&, const Partitioner2::CfgPath&,

                           const std::vector<Expression> &assertions, bool atEndOfPath, SymbolicExprParser&);


     // Size of vertex. How much of "k" does this vertex consume?

     static size_t vertexSize(const Partitioner2::ControlFlowGraph::ConstVertexIterator&);


     // Insert the edge assertion and any applicable user assertions (after delayed expansion of the expressions' register

     // and memory references), and run the solver, returning its result.

     SmtSolver::Satisfiable

     solvePathConstraints(SmtSolver::Ptr&, const Partitioner2::CfgPath&, const SymbolicExpr::Ptr &edgeAssertion,

                          const std::vector<Expression> &userAssertions, bool atEndOfPath, SymbolicExprParser&);


     // Mark vertex as being reached

     void markAsReached(const Partitioner2::ControlFlowGraph::ConstVertexIterator&);

 };


 } // namespace

 } // namespace


 std::ostream& operator<<(std::ostream&, const Rose::BinaryAnalysis::FeasiblePath::Expression&);


 // Convert string to feasible path expression during command-line parsing

 namespace Sawyer {

     namespace CommandLine {

         template<>

         struct LexicalCast<Rose::BinaryAnalysis::FeasiblePath::Expression> {

             static Rose::BinaryAnalysis::FeasiblePath::Expression convert(const std::string &src) {

                 return Rose::BinaryAnalysis::FeasiblePath::Expression(src);

             }

         };

     }

 }


 #endif

Rose::BinaryAnalysis::FeasiblePath::VarDetail::firstAccessMode
std::string firstAccessMode
How was variable first accessed ("read" or "write").
Definition: BinaryFeasiblePath.h:136

Rose::BinaryAnalysis::FeasiblePath::Settings::summarizeFunctions
std::vector< rose_addr_t > summarizeFunctions
Functions to always summarize.
Definition: BinaryFeasiblePath.h:90

Rose::BinaryAnalysis::FeasiblePath::FunctionSummaries
Sawyer::Container::Map< rose_addr_t, FunctionSummary > FunctionSummaries
Summaries for multiple functions.
Definition: BinaryFeasiblePath.h:223

Rose::BinaryAnalysis::FeasiblePath::SEARCH_SINGLE_BFS
Perform a breadth first search.
Definition: BinaryFeasiblePath.h:35

Rose::BinaryAnalysis::FeasiblePath::Settings::NullDeref::mode
MayOrMust mode
Check for addrs that may or must be null.
Definition: BinaryFeasiblePath.h:104

Rose::BinaryAnalysis::InstructionSemantics2::BaseSemantics::RiscOperatorsPtr
boost::shared_ptr< RiscOperators > RiscOperatorsPtr
Shared-ownership pointer to a RISC operators object.
Definition: BaseSemanticsTypes.h:54

Rose::BinaryAnalysis::FeasiblePath::Settings::edgeVisitOrder
EdgeVisitOrder edgeVisitOrder
Order in which to visit edges.
Definition: BinaryFeasiblePath.h:97

Rose::BinaryAnalysis::FeasiblePath::FunctionSummarizer::returnValue
virtual InstructionSemantics2::SymbolicSemantics::SValuePtr returnValue(const FeasiblePath &analysis, const FunctionSummary &summary, const InstructionSemantics2::SymbolicSemantics::RiscOperatorsPtr &ops)=0
Return value for function.

Rose::BinaryAnalysis::FeasiblePath::isAnyEndpointReachable
static bool isAnyEndpointReachable(const Partitioner2::ControlFlowGraph &cfg, const Partitioner2::ControlFlowGraph::ConstVertexIterator &beginVertex, const Partitioner2::CfgConstVertexSet &endVertices)
Determine whether any ending vertex is reachable.

Rose::BinaryAnalysis::FeasiblePath::FunctionSummary::address
rose_addr_t address
Address of summarized function.
Definition: BinaryFeasiblePath.h:211

Rose::BinaryAnalysis::FeasiblePath::Settings::memoryParadigm
SemanticMemoryParadigm memoryParadigm
Type of memory state when there's a choice to be made.
Definition: BinaryFeasiblePath.h:93

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

Rose::BinaryAnalysis::FeasiblePath::SEARCH_SINGLE_DFS
Perform a depth first search.
Definition: BinaryFeasiblePath.h:34

Rose::BinaryAnalysis::FeasiblePath::Settings::trackingCodeCoverage
bool trackingCodeCoverage
If set, track which block addresses are reached.
Definition: BinaryFeasiblePath.h:98

Rose::BinaryAnalysis::FeasiblePath::pathEffectiveK
double pathEffectiveK(const Partitioner2::CfgPath &) const
Effective maximum path length.

Rose::BinaryAnalysis::FeasiblePath::printPathVertex
void printPathVertex(std::ostream &out, const Partitioner2::ControlFlowGraph::Vertex &pathVertex, size_t &insnIdx) const
Print one vertex of a path for debugging.

Rose::BinaryAnalysis::FeasiblePath::LIST_BASED_MEMORY
Precise but slow.
Definition: BinaryFeasiblePath.h:41

Rose::BinaryAnalysis::FeasiblePath::Expression::parsable
std::string parsable
String to be parsed as an expression.
Definition: BinaryFeasiblePath.h:69

Rose::BinaryAnalysis::FeasiblePath::FunctionSummary
Information stored per V_USER_DEFINED path vertex.
Definition: BinaryFeasiblePath.h:210

Rose::BinaryAnalysis::FeasiblePath::VarDetails
Sawyer::Container::Map< std::string, FeasiblePath::VarDetail > VarDetails
Variable detail by name.
Definition: BinaryFeasiblePath.h:149

Rose::BinaryAnalysis::FeasiblePath::MayOrMust
MayOrMust
Types of comparisons.
Definition: BinaryFeasiblePath.h:56

Rose::BinaryAnalysis::FeasiblePath::setSearchBoundary
void setSearchBoundary(const Partitioner2::Partitioner &partitioner, const Partitioner2::CfgConstVertexSet &cfgBeginVertices, const Partitioner2::CfgConstVertexSet &cfgEndVertices, const Partitioner2::CfgConstVertexSet &cfgAvoidVertices=Partitioner2::CfgConstVertexSet(), const Partitioner2::CfgConstEdgeSet &cfgAvoidEdges=Partitioner2::CfgConstEdgeSet())
Specify search boundary.

Rose::BinaryAnalysis::FeasiblePath::depthFirstSearch
void depthFirstSearch(PathProcessor &pathProcessor)
Find all feasible paths.

Rose::BinaryAnalysis::FeasiblePath::processIndeterminateBlock
virtual void processIndeterminateBlock(const Partitioner2::ControlFlowGraph::ConstVertexIterator &vertex, const InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu, size_t pathInsnIndex)
Process an indeterminate block.

SgAsmInstruction
Base class for machine instructions.
Definition: binaryInstruction.C:691

Rose::BinaryAnalysis::FeasiblePath::VarDetail::returnFrom
Sawyer::Optional< rose_addr_t > returnFrom
This variable is the return value from the specified function.
Definition: BinaryFeasiblePath.h:142

Rose::BinaryAnalysis::InstructionSemantics2::SymbolicSemantics::RiscOperatorsPtr
boost::shared_ptr< class RiscOperators > RiscOperatorsPtr
Shared-ownership pointer to symbolic RISC operations.
Definition: SymbolicSemantics2.h:773

Rose::BinaryAnalysis::FeasiblePath::FeasiblePath
FeasiblePath()
Constructs a new feasible path analyzer.
Definition: BinaryFeasiblePath.h:283

Rose::BinaryAnalysis::FeasiblePath::SearchMode
SearchMode
How to search for paths.
Definition: BinaryFeasiblePath.h:33

Rose::BinaryAnalysis::FeasiblePath::FunctionSummarizer::process
virtual bool process(const FeasiblePath &analysis, const FunctionSummary &summary, const InstructionSemantics2::SymbolicSemantics::RiscOperatorsPtr &ops)=0
Invoked when the analysis traverses the summary.

Rose::BinaryAnalysis::InstructionSemantics2::BaseSemantics::StatePtr
boost::shared_ptr< State > StatePtr
Shared-ownership pointer to a semantic state.
Definition: BaseSemanticsTypes.h:51

Rose::BinaryAnalysis::FeasiblePath::processFunctionSummary
virtual void processFunctionSummary(const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathsVertex, const InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu, size_t pathInsnIndex)
Process a function summary vertex.

Rose::BinaryAnalysis::FeasiblePath::PathProcessor::CONTINUE
Look for more paths.
Definition: BinaryFeasiblePath.h:158

Rose::BinaryAnalysis::FeasiblePath::REG_PATH
RegisterDescriptor REG_PATH
Descriptor of path pseudo-registers.
Definition: BinaryFeasiblePath.h:131

Sawyer::Optional< rose_addr_t >

Rose::BinaryAnalysis::FeasiblePath::FunctionSummary::name
std::string name
Name of summarized function.
Definition: BinaryFeasiblePath.h:213

Rose::BinaryAnalysis::FeasiblePath::VarDetail::firstAccessIdx
Sawyer::Optional< size_t > firstAccessIdx
Instruction position in path where this var was first read.
Definition: BinaryFeasiblePath.h:138

Rose::BinaryAnalysis::FeasiblePath::Settings::Settings
Settings()
Default settings.
Definition: BinaryFeasiblePath.h:114

Sawyer::CommandLine::SwitchGroup
A collection of related switch declarations.
Definition: util/Sawyer/CommandLine.h:2522

Rose::BinaryAnalysis::FeasiblePath::Settings::NullDeref
Definition: BinaryFeasiblePath.h:102

Sawyer::Container::GraphIteratorSet< ControlFlowGraph::ConstVertexIterator >

Rose
Main namespace for the ROSE library.
Definition: BinaryTutorial.dox:3

Rose::BinaryAnalysis::SymbolicExprParser
Parses symbolic expressions from text.
Definition: BinarySymbolicExprParser.h:27

Rose::BinaryAnalysis::SmtSolver::Satisfiable
Satisfiable
Satisfiability constants.
Definition: BinarySmtSolver.h:78

Rose::BinaryAnalysis::FeasiblePath::Settings::maxCallDepth
size_t maxCallDepth
Max length of path in terms of function calls.
Definition: BinaryFeasiblePath.h:86

Rose::BinaryAnalysis::FeasiblePath::Settings::nullDeref
struct Rose::BinaryAnalysis::FeasiblePath::Settings::NullDeref nullDeref
Settings for null-dereference analysis.

Rose::BinaryAnalysis::FeasiblePath::VISIT_RANDOM
Visit edges in random order.
Definition: BinaryFeasiblePath.h:49

Sawyer::Container::IntervalSet< AddressInterval >

Rose::BinaryAnalysis::FeasiblePath::SEARCH_MULTI
Blast everything at once to the SMT solver.
Definition: BinaryFeasiblePath.h:36

Sawyer::SharedPointer< Node >

Rose::BinaryAnalysis::FeasiblePath
Feasible path analysis.
Definition: BinaryFeasiblePath.h:19

Sawyer
Name space for the entire library.
Definition: BinaryFeasiblePath.h:590

Rose::BinaryAnalysis::FeasiblePath::PathProcessor::nullDeref
virtual void nullDeref(const FeasiblePath &analyzer, const Partitioner2::CfgPath &path, const SmtSolverPtr &solver, IoMode ioMode, const InstructionSemantics2::BaseSemantics::SValuePtr &addr, SgAsmInstruction *insn)
Function invoked whenever a null pointer dereference is detected.
Definition: BinaryFeasiblePath.h:192

Sawyer::Container::GraphIteratorBiMap< ControlFlowGraph::ConstVertexIterator, ControlFlowGraph::ConstVertexIterator >

Rose::BinaryAnalysis::FeasiblePath::Settings::assertionLocations
std::vector< std::string > assertionLocations
Locations at which "constraints" are checked.
Definition: BinaryFeasiblePath.h:89

Rose::BinaryAnalysis::FeasiblePath::functionSummaries
const FunctionSummaries & functionSummaries() const
Function summary information.
Definition: BinaryFeasiblePath.h:489

Rose::BinaryAnalysis::FeasiblePath::cfgToPaths
Partitioner2::CfgConstVertexSet cfgToPaths(const Partitioner2::CfgConstVertexSet &) const
Convert CFG vertices to path vertices.

Rose::BinaryAnalysis::FeasiblePath::shouldInline
virtual bool shouldInline(const Partitioner2::CfgPath &path, const Partitioner2::ControlFlowGraph::ConstVertexIterator &cfgCallTarget)
Determines whether a function call should be inlined.

Rose::BinaryAnalysis::FeasiblePath::Settings::ipRewrite
std::vector< rose_addr_t > ipRewrite
An even number of from,to pairs for rewriting the insn ptr reg.
Definition: BinaryFeasiblePath.h:99

Rose::BinaryAnalysis::InstructionSemantics2::BaseSemantics::DispatcherPtr
boost::shared_ptr< Dispatcher > DispatcherPtr
Shared-ownership pointer to a semantics instruction dispatcher.
Definition: BaseSemanticsTypes.h:57

Rose::BinaryAnalysis::FeasiblePath::expressionDocumentation
static std::string expressionDocumentation()
Documentation for the symbolic expression parser.

Rose::BinaryAnalysis::FeasiblePath::settings
void settings(const Settings &s)
Property: Settings used by this analysis.
Definition: BinaryFeasiblePath.h:316

Rose::BinaryAnalysis::FeasiblePath::Settings::maxPathLength
size_t maxPathLength
Limit path length in terms of number of instructions.
Definition: BinaryFeasiblePath.h:85

Rose::BinaryAnalysis::FeasiblePath::Settings::NullDeref::constOnly
bool constOnly
If true, check only constants or sets of constants.
Definition: BinaryFeasiblePath.h:105

Rose::BinaryAnalysis::FeasiblePath::FunctionSummarizer
Base class for callbacks for function summaries.
Definition: BinaryFeasiblePath.h:228

Rose::BinaryAnalysis::FeasiblePath::Expression::location
AddressIntervalSet location
Location where constraint applies.
Definition: BinaryFeasiblePath.h:68

Sawyer::Container::GraphIteratorBiMap::clear
void clear()
Remove all entries from this container.
Definition: GraphIteratorBiMap.h:102

Rose::BinaryAnalysis::FeasiblePath::VISIT_REVERSE
Visit edges in reverse of the natural order.
Definition: BinaryFeasiblePath.h:48

Rose::BinaryAnalysis::FeasiblePath::pathPostState
static InstructionSemantics2::BaseSemantics::StatePtr pathPostState(const Partitioner2::CfgPath &, size_t vertexIdx)
Get the state at the end of the specified vertex.

Rose::BinaryAnalysis::FeasiblePath::FunctionSummary::FunctionSummary
FunctionSummary()
Construct empty function summary.
Definition: BinaryFeasiblePath.h:216

Rose::BinaryAnalysis::FeasiblePath::Settings::nonAddressIsFeasible
bool nonAddressIsFeasible
Indeterminate/undiscovered vertices are feasible?
Definition: BinaryFeasiblePath.h:91

Rose::BinaryAnalysis::FeasiblePath::Settings::maxVertexVisit
size_t maxVertexVisit
Max times to visit a particular vertex in one path.
Definition: BinaryFeasiblePath.h:84

Rose::BinaryAnalysis::RegisterDescriptor
Describes (part of) a physical CPU register.
Definition: RegisterDescriptor.h:25

Rose::BinaryAnalysis::FeasiblePath::Settings::maxRecursionDepth
size_t maxRecursionDepth
Max path length in terms of recursive function calls.
Definition: BinaryFeasiblePath.h:87

Rose::BinaryAnalysis::FeasiblePath::PathProcessor::memoryIo
virtual void memoryIo(const FeasiblePath &analyzer, const Partitioner2::CfgPath &path, const SmtSolverPtr &solver, IoMode ioMode, const InstructionSemantics2::BaseSemantics::SValuePtr &addr, const InstructionSemantics2::BaseSemantics::SValuePtr &value, const InstructionSemantics2::BaseSemantics::RiscOperatorsPtr &ops)
Function invoked every time a memory reference occurs.
Definition: BinaryFeasiblePath.h:200

Rose::BinaryAnalysis::FeasiblePath::PathProcessor::Action
Action
Definition: BinaryFeasiblePath.h:156

Rose::BinaryAnalysis::FeasiblePath::reset
void reset()
Reset to initial state without changing settings.
Definition: BinaryFeasiblePath.h:289

Rose::BinaryAnalysis::Partitioner2::CfgPath
A path through a control flow graph.
Definition: CfgPath.h:15

Rose::BinaryAnalysis::FeasiblePath::VarDetail
Information about a variable seen on a path.
Definition: BinaryFeasiblePath.h:134

Rose::BinaryAnalysis::FeasiblePath::PathProcessor::found
virtual Action found(const FeasiblePath &analyzer, const Partitioner2::CfgPath &path, const InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu, const SmtSolverPtr &solver)
Function invoked whenever a complete path is found.
Definition: BinaryFeasiblePath.h:177

Rose::BinaryAnalysis::FeasiblePath::functionSummarizer
FunctionSummarizer::Ptr functionSummarizer() const
Property: Function summary handling.
Definition: BinaryFeasiblePath.h:401

Rose::BinaryAnalysis::FeasiblePath::Exception
Exception for errors specific to feasible path analysis.
Definition: BinaryFeasiblePath.h:25

Rose::BinaryAnalysis::FeasiblePath::shouldSummarizeCall
virtual bool shouldSummarizeCall(const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathVertex, const Partitioner2::ControlFlowGraph &cfg, const Partitioner2::ControlFlowGraph::ConstVertexIterator &cfgCallTarget)
Determines whether a function call should be summarized instead of inlined.

Rose::BinaryAnalysis::FeasiblePath::isFunctionCall
bool isFunctionCall(const Partitioner2::ControlFlowGraph::ConstVertexIterator &) const
True if vertex is a function call.

Rose::BinaryAnalysis::FeasiblePath::Expression::expr
SymbolicExpr::Ptr expr
Symbolic expression.
Definition: BinaryFeasiblePath.h:70

Rose::BinaryAnalysis::FeasiblePath::Settings::ignoreSemanticFailure
bool ignoreSemanticFailure
Whether to ignore instructions with no semantic info.
Definition: BinaryFeasiblePath.h:95

Rose::BinaryAnalysis::FeasiblePath::Settings::searchMode
SearchMode searchMode
Method to use when searching for feasible paths.
Definition: BinaryFeasiblePath.h:82

Sawyer::Attribute::Id
size_t Id
Attribute identification.
Definition: Attribute.h:140

Sawyer::Container::Graph::clear
void clear()
Remove all vertices and edges.
Definition: Graph.h:1978

BinaryAnalysis

Rose::BinaryAnalysis::FeasiblePath::pathEndsWithFunctionCall
bool pathEndsWithFunctionCall(const Partitioner2::CfgPath &) const
True if path ends with a function call.

Rose::BinaryAnalysis::FeasiblePath::IoMode
IoMode
Read or write operation.
Definition: BinaryFeasiblePath.h:53

Rose::BinaryAnalysis::FeasiblePath::printPath
void printPath(std::ostream &out, const Partitioner2::CfgPath &) const
Print the path to the specified output stream.

Rose::BinaryAnalysis::FeasiblePath::AddressSet
std::set< rose_addr_t > AddressSet
Set of basic block addresses.
Definition: BinaryFeasiblePath.h:59

Rose::BinaryAnalysis::FeasiblePath::buildVirtualCpu
virtual InstructionSemantics2::BaseSemantics::DispatcherPtr buildVirtualCpu(const Partitioner2::Partitioner &, const Partitioner2::CfgPath *, PathProcessor *, const SmtSolver::Ptr &)
Create the virtual CPU.

Rose::BinaryAnalysis::FeasiblePath::settings
const Settings & settings() const
Property: Settings used by this analysis.
Definition: BinaryFeasiblePath.h:314

Rose::BinaryAnalysis::FeasiblePath::MAP_BASED_MEMORY
Fast but not precise.
Definition: BinaryFeasiblePath.h:42

Sawyer::CommandLine::LexicalCast
Definition: util/Sawyer/CommandLine.h:732

Rose::BinaryAnalysis::FeasiblePath::VarDetail::memByteNumber
size_t memByteNumber
Byte number for memory access.
Definition: BinaryFeasiblePath.h:141

Rose::BinaryAnalysis::FeasiblePath::FunctionSummary::stackDelta
int64_t stackDelta
Stack delta for summarized function.
Definition: BinaryFeasiblePath.h:212

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

Rose::BinaryAnalysis::FeasiblePath::Settings::kCycleCoefficient
double kCycleCoefficient
Coefficient for adjusting maxPathLengh during CFG cycles.
Definition: BinaryFeasiblePath.h:96

Rose::BinaryAnalysis::FeasiblePath::commandLineSwitches
static Sawyer::CommandLine::SwitchGroup commandLineSwitches(Settings &settings)
Describe command-line switches.

Rose::BinaryAnalysis::FeasiblePath::FunctionSummarizer::Ptr
Sawyer::SharedPointer< FunctionSummarizer > Ptr
Reference counting pointer.
Definition: BinaryFeasiblePath.h:231

Rose::BinaryAnalysis::FeasiblePath::mlog
static Sawyer::Message::Facility mlog
Diagnostic output.
Definition: BinaryFeasiblePath.h:122

Rose::BinaryAnalysis::FeasiblePath::processVertex
virtual void processVertex(const InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu, const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathsVertex, size_t &pathInsnIndex)
Process one vertex.

Rose::BinaryAnalysis::FeasiblePath::varDetails
const VarDetails & varDetails(const InstructionSemantics2::BaseSemantics::StatePtr &) const
Details about all variables by name.

Rose::BinaryAnalysis::FeasiblePath::PathProcessor
Path searching functor.
Definition: BinaryFeasiblePath.h:154

Sawyer::Container::GraphIteratorSet::clear
void clear()
Remove all edges or vertices from this set.
Definition: GraphIteratorSet.h:121

Rose::BinaryAnalysis::FeasiblePath::pathLength
static size_t pathLength(const Partitioner2::CfgPath &)
Total length of path.

Rose::BinaryAnalysis::FeasiblePath::pathToCfg
Partitioner2::ControlFlowGraph::ConstVertexIterator pathToCfg(const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathVertex) const
Convert path vertex to a CFG vertex.

Rose::BinaryAnalysis::FeasiblePath::VISIT_NATURAL
Visit edges in their natural, forward order.
Definition: BinaryFeasiblePath.h:47

Rose::BinaryAnalysis::FeasiblePath::functionSummary
const FunctionSummary & functionSummary(rose_addr_t entryVa) const
Function summary information.

Rose::BinaryAnalysis::FeasiblePath::partitioner
const Partitioner2::Partitioner & partitioner() const
Property: Partitioner currently in use.

Rose::BinaryAnalysis::RegisterDictionary
Defines registers available for a particular architecture.
Definition: Registers.h:35

Rose::BinaryAnalysis::FeasiblePath::varDetail
const VarDetail & varDetail(const InstructionSemantics2::BaseSemantics::StatePtr &, const std::string &varName) const
Details about a variable.

Rose::BinaryAnalysis::FeasiblePath::processBasicBlock
virtual void processBasicBlock(const Partitioner2::BasicBlock::Ptr &bblock, const InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu, size_t pathInsnIndex)
Process instructions for one basic block on the specified virtual CPU.

Rose::BinaryAnalysis::FeasiblePath::VarDetail::memAddress
SymbolicExpr::Ptr memAddress
Address where variable is located.
Definition: BinaryFeasiblePath.h:139

Rose::BinaryAnalysis::Partitioner2::Partitioner
Partitions instructions into basic blocks and functions.
Definition: Partitioner.h:316

Rose::Exception
Base class for all ROSE exceptions.
Definition: RoseException.h:9

Rose::BinaryAnalysis::FeasiblePath::reachedBlockVas
const AddressSet & reachedBlockVas() const
Property: Addresses reached during analysis.

Rose::BinaryAnalysis::FeasiblePath::Settings::solverName
std::string solverName
Type of SMT solver.
Definition: BinaryFeasiblePath.h:92

Rose::BinaryAnalysis::FeasiblePath::PathProcessor::BREAK
Do not look for more paths.
Definition: BinaryFeasiblePath.h:157

Rose::BinaryAnalysis::FeasiblePath::EdgeVisitOrder
EdgeVisitOrder
Edge visitation order.
Definition: BinaryFeasiblePath.h:46

Rose::BinaryAnalysis::FeasiblePath::functionSummarizer
void functionSummarizer(const FunctionSummarizer::Ptr &f)
Property: Function summary handling.
Definition: BinaryFeasiblePath.h:402

Rose::BinaryAnalysis::FeasiblePath::settings
Settings & settings()
Property: Settings used by this analysis.
Definition: BinaryFeasiblePath.h:315

Rose::BinaryAnalysis::FeasiblePath::VarDetail::memSize
size_t memSize
Size of total memory access in bytes.
Definition: BinaryFeasiblePath.h:140

Sawyer::Container::Map
Container associating values with keys.
Definition: Sawyer/Map.h:66

Rose::BinaryAnalysis::FeasiblePath::Settings::exprParserDoc
std::string exprParserDoc
String documenting how expressions are parsed, empty for default.
Definition: BinaryFeasiblePath.h:111

Rose::BinaryAnalysis::FeasiblePath::Settings::processFinalVertex
bool processFinalVertex
Whether to process the last vertex of the path.
Definition: BinaryFeasiblePath.h:94

Rose::BinaryAnalysis::FeasiblePath::VarDetail::firstAccessInsn
SgAsmInstruction * firstAccessInsn
Instruction address where this var was first read.
Definition: BinaryFeasiblePath.h:137

Rose::BinaryAnalysis::FeasiblePath::Expression
Expression to be evaluated.
Definition: BinaryFeasiblePath.h:67

Rose::BinaryAnalysis::FeasiblePath::Settings
Settings that control this analysis.
Definition: BinaryFeasiblePath.h:80

Rose::BinaryAnalysis::FeasiblePath::initDiagnostics
static void initDiagnostics()
Initialize diagnostic output.

Rose::BinaryAnalysis::FeasiblePath::Settings::NullDeref::check
bool check
If true, look for null dereferences along the paths.
Definition: BinaryFeasiblePath.h:103

Rose::BinaryAnalysis::FeasiblePath::setInitialState
virtual void setInitialState(const InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu, const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathsBeginVertex)
Initialize state for first vertex of path.

Rose::BinaryAnalysis::FeasiblePath::Settings::initialStackPtr
Sawyer::Optional< rose_addr_t > initialStackPtr
Concrete value to use for stack pointer register initial value.
Definition: BinaryFeasiblePath.h:83

Rose::BinaryAnalysis::FeasiblePath::SemanticMemoryParadigm
SemanticMemoryParadigm
Organization of semantic memory.
Definition: BinaryFeasiblePath.h:40

Rose::BinaryAnalysis::FeasiblePath::Settings::assertions
std::vector< Expression > assertions
Constraints to be satisfied at some point along the path.
Definition: BinaryFeasiblePath.h:88

Rose::BinaryAnalysis::FeasiblePath::FunctionSummarizer::init
virtual void init(const FeasiblePath &analysis, FunctionSummary &summary, const Partitioner2::Function::Ptr &function, Partitioner2::ControlFlowGraph::ConstVertexIterator cfgCallTarget)=0
Invoked when a new summary is created.