Pinned Repositories
barf-project
BARF : A multiplatform open source Binary Analysis and Reverse engineering Framework
fuzzbench
FuzzBench - Fuzzer benchmarking as a service.
honggfuzz
Security oriented software fuzzer. Supports evolutionary, feedback-driven fuzzing based on code coverage (SW and HW based)
pysmtlib
A python layer to interface with several SMTLIBv2 enabled SMT solvers
Triton
Triton is a Dynamic Binary Analysis (DBA) framework. It provides internal components like a Dynamic Symbolic Execution (DSE) engine, a dynamic taint engine, AST representations of the x86, x86-64 and AArch64 Instructions Set Architecture (ISA), SMT simplification passes, an SMT solver interface and, the last but not least, Python bindings.
fuzzbench
FuzzBench - Fuzzer benchmarking as a service.
honggfuzz
Security oriented software fuzzer. Supports evolutionary, feedback-driven fuzzing based on code coverage (SW and HW based)
Triton
Triton is a dynamic binary analysis library. Build your own program analysis tools, automate your reverse engineering, perform software verification or just emulate code.
barf-project
BARF : A multiplatform open source Binary Analysis and Reverse engineering Framework
QBDI
A Dynamic Binary Instrumentation framework based on LLVM.
cnheitman's Repositories
cnheitman/Triton
Triton is a Dynamic Binary Analysis (DBA) framework. It provides internal components like a Dynamic Symbolic Execution (DSE) engine, a dynamic taint engine, AST representations of the x86, x86-64 and AArch64 Instructions Set Architecture (ISA), SMT simplification passes, an SMT solver interface and, the last but not least, Python bindings.
cnheitman/barf-project
BARF : A multiplatform open source Binary Analysis and Reverse engineering Framework
cnheitman/fuzzbench
FuzzBench - Fuzzer benchmarking as a service.
cnheitman/honggfuzz
Security oriented software fuzzer. Supports evolutionary, feedback-driven fuzzing based on code coverage (SW and HW based)
cnheitman/pysmtlib
A python layer to interface with several SMTLIBv2 enabled SMT solvers