import ida_hexrays import ida_funcs for func_ea in ida_funcs.functions(): func = ida_funcs.get_func_name(func_ea) if ida_hexrays.decompile(func_ea): print(f"Decompiled func") cfunc = ida_hexrays.decompile(func_ea) c_code = str(cfunc) # Save c_code to a file, etc.
However, the logic is preserved. A skilled reverser can reconstruct the original intent with careful renaming and retyping. You are not limited to manual F5 presses. IDA Pro supports batch decompilation via IDAPython: ida pro decompile to c
push ebp mov ebp, esp mov eax, [ebp+arg_0] cmp eax, 5 jg short loc_401020 ... import ida_hexrays import ida_funcs for func_ea in ida_funcs
Introduction In the world of reverse engineering, few tools are as venerable and powerful as IDA Pro (Interactive Disassembler). Developed by Hex-Rays, IDA Pro has been the gold standard for disassembly for decades. However, reading raw assembly language (x86, ARM, MIPS, etc.) is a time-consuming and error-prone process. This is where the Hex-Rays Decompiler changes the game. You are not limited to manual F5 presses
| Original C | Decompiled Pseudocode | |------------|------------------------| | for (i=0;i<10;i++) | for ( i = 0; i < 10; ++i ) | | typedef struct int x; | struct int x; (often unnamed) | | Meaningful variable names | Generic names like v1 , v2 | | Optimized loops | May be unrolled or reversed | | Inline functions | Appear as distinct code blocks |
int __cdecl check_value(int input)
: Rename sub_401200 and define its correct prototype. The pseudocode will become calculate_checksum(); . Decompiler Output vs. Original C: Understanding the Gap It is crucial to manage expectations. The output from IDA Pro decompile to C is not the original source code.