1 #ifndef ROSE_BinaryAnalysis_FeasiblePath_H
2 #define ROSE_BinaryAnalysis_FeasiblePath_H
4 #include <BaseSemantics2.h>
5 #include <Partitioner2/CfgPath.h>
6 #include <Sawyer/Message.h>
8 #include <boost/filesystem/path.hpp>
21 enum SearchMode { SEARCH_SINGLE_DFS, SEARCH_SINGLE_BFS, SEARCH_MULTI };
37 : searchMode(SEARCH_SINGLE_DFS), vertexVisitLimit((size_t)-1), maxPathLength((size_t)-1), maxCallDepth((size_t)-1),
38 maxRecursionDepth((size_t)-1), nonAddressIsFeasible(true) {}
55 std::string registerName;
64 VarDetail(): firstAccessInsn(NULL), memSize(0), memByteNumber(0) {}
65 std::string toString()
const;
80 const std::vector<SymbolicExpr::Ptr> &pathConditions,
97 FunctionSummary(
const Partitioner2::ControlFlowGraph::ConstVertexIterator &cfgFuncVertex, uint64_t stackDelta);
112 FunctionSummaries functionSummaries_;
127 : registers_(NULL) {}
136 functionSummaries_.
clear();
139 pathsBeginVertices_.clear();
140 pathsEndVertices_.clear();
141 cfgAvoidEdges_.clear();
142 cfgEndAvoidVertices_.clear();
182 const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathsBeginVertex);
198 size_t pathInsnIndex);
206 size_t pathInsnIndex);
213 const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathsVertex,
214 size_t &pathInsnIndex );
220 const Partitioner2::ControlFlowGraph::ConstVertexIterator &cfgCallTarget);
232 Partitioner2::ControlFlowGraph::ConstVertexIterator
233 pathToCfg(
const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathVertex)
const;
243 bool isFunctionCall(
const Partitioner2::ControlFlowGraph::ConstVertexIterator&)
const;
246 void printPathVertex(std::ostream &out,
const Partitioner2::ControlFlowGraph::Vertex &pathVertex,
247 size_t &insnIdx )
const;
259 virtual boost::tribool
261 std::vector<SymbolicExpr::Ptr> &pathConditions ,
284 const Partitioner2::ControlFlowGraph::ConstVertexIterator &cfgBeginVertex,
285 const Partitioner2::ControlFlowGraph::ConstVertexIterator &cfgEndVertex,
316 return functionSummaries_;
333 static rose_addr_t virtualAddress(
const Partitioner2::ControlFlowGraph::ConstVertexIterator &vertex);
335 void insertCallSummary(
const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathsCallSite,
337 const Partitioner2::ControlFlowGraph::ConstEdgeIterator &cfgCallEdge);
339 boost::filesystem::path emitPathGraph(
size_t callId,
size_t graphId);
std::string firstAccessMode
How was variable first accessed ("read" or "write").
std::vector< rose_addr_t > summarizeFunctions
Functions to always summarize.
Sawyer::Container::Map< rose_addr_t, FunctionSummary > FunctionSummaries
Summaries for multiple functions.
size_t vertexVisitLimit
Max times to visit a particular vertex in one path.
rose_addr_t address
Address of summarized function.
void printPathVertex(std::ostream &out, const Partitioner2::ControlFlowGraph::Vertex &pathVertex, size_t &insnIdx) const
Print one vertex of a path for debugging.
Information stored per V_USER_DEFINED path vertex.
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.
void depthFirstSearch(PathProcessor &pathProcessor)
Find all feasible paths.
virtual void processIndeterminateBlock(const Partitioner2::ControlFlowGraph::ConstVertexIterator &vertex, const InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu, size_t pathInsnIndex)
Process an indeterminate block.
Base class for machine instructions.
Sawyer::Optional< rose_addr_t > returnFrom
This variable is the return value from the specified function.
FeasiblePath()
Constructs a new feasible path analyzer.
void clear()
Erase all mappings.
std::set< ControlFlowGraph::ConstVertexIterator > CfgConstVertexSet
Set of CFG vertex pointers.
virtual void processFunctionSummary(const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathsVertex, const InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu, size_t pathInsnIndex)
Process a function summary vertex.
RegisterDescriptor REG_PATH
Descriptor of path pseudo-registers.
std::string name
Name of summarized function.
Sawyer::Optional< size_t > firstAccessIdx
Instruction position in path where this var was first read.
Settings()
Default settings.
Main namespace for the ROSE library.
Describes (part of) a physical CPU register.
Map & clear()
Remove all nodes.
size_t maxCallDepth
Max length of path in terms of function calls.
const FunctionSummaries & functionSummaries() const
Function summary information.
Partitioner2::CfgConstVertexSet cfgToPaths(const Partitioner2::CfgConstVertexSet &) const
Convert CFG vertices to path vertices.
virtual bool shouldInline(const Partitioner2::CfgPath &path, const Partitioner2::ControlFlowGraph::ConstVertexIterator &cfgCallTarget)
Determines whether a function call should be inlined.
void settings(const Settings &s)
Property: Settings used by this analysis.
boost::shared_ptr< class State > StatePtr
Shared-ownership pointer to a semantic state.
size_t maxPathLength
Limit path length in terms of number of instructions.
const VarDetail & varDetail(const InstructionSemantics2::BaseSemantics::StatePtr &state, const std::string &varName) const
Details about a variable.
boost::shared_ptr< class Dispatcher > DispatcherPtr
Shared-ownership pointer to a semantics instruction dispatcher.
FunctionSummary()
Construct empty function summary.
bool nonAddressIsFeasible
Indeterminate/undiscovered vertices are feasible?
size_t maxRecursionDepth
Max path length in terms of recursive function calls.
void reset()
Reset to initial state without changing settings.
A path through a control flow graph.
std::set< ControlFlowGraph::ConstEdgeIterator > CfgConstEdgeSet
Set of CFG edge pointers.
Information about a variable seen on a path.
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.
bool isFunctionCall(const Partitioner2::ControlFlowGraph::ConstVertexIterator &) const
True if vertex is a function call.
Defines registers available for a particular architecture.
SearchMode searchMode
Method to use when searching for feasible paths.
void clear()
Remove all vertices and edges.
bool pathEndsWithFunctionCall(const Partitioner2::CfgPath &) const
True if path ends with a function call.
void printPath(std::ostream &out, const Partitioner2::CfgPath &) const
Print the path to the specified output stream.
const Settings & settings() const
Property: Settings used by this analysis.
size_t memByteNumber
Byte number for memory access.
int64_t stackDelta
Stack delta for summarized function.
virtual boost::tribool isPathFeasible(const Partitioner2::CfgPath &path, SMTSolver &, const std::vector< SymbolicExpr::Ptr > &postConditions, std::vector< SymbolicExpr::Ptr > &pathConditions, InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu)
Determine whether a single path is feasible.
static Sawyer::Message::Facility mlog
Diagnostic output.
virtual void processVertex(const InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu, const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathsVertex, size_t &pathInsnIndex)
Process one vertex.
virtual InstructionSemantics2::BaseSemantics::DispatcherPtr buildVirtualCpu(const Partitioner2::Partitioner &)
Create the virtual CPU.
Partitioner2::ControlFlowGraph::ConstVertexIterator pathToCfg(const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathVertex) const
Convert path vertex to a CFG vertex.
const FunctionSummary & functionSummary(rose_addr_t entryVa) const
Function summary information.
std::vector< SymbolicExpr::Ptr > postConditions
Additional constraints to be satisifed at the end of a path.
const Partitioner2::Partitioner & partitioner() const
Property: Partitioner currently in use.
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.
SymbolicExpr::Ptr memAddress
Address where variable is located.
Partitions instructions into basic blocks and functions.
Do not look for more paths.
Settings & settings()
Property: Settings used by this analysis.
size_t memSize
Size of total memory access in bytes.
SgAsmInstruction * firstAccessInsn
Instruction address where this var was first read.
Settings that control this analysis.
static void initDiagnostics()
Initialize diagnostic output.
Interface to Satisfiability Modulo Theory (SMT) solvers.
virtual void setInitialState(const InstructionSemantics2::BaseSemantics::DispatcherPtr &cpu, const Partitioner2::ControlFlowGraph::ConstVertexIterator &pathsBeginVertex)
Initialize state for first vertex of path.
Sawyer::Optional< rose_addr_t > initialStackPtr
Concrete value to use for stack pointer register initial value.
