retdec
gccrs
retdec | gccrs | |
---|---|---|
6 | 102 | |
7,798 | 2,277 | |
1.0% | 1.4% | |
7.0 | 10.0 | |
9 days ago | 2 days ago | |
C++ | ||
MIT License | GNU General Public License v3.0 only |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
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retdec
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need help with an old game trainer
found something called retdec @ https://github.com/avast/retdec
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How to compile to make reverse engineering easy?
RetDec
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rust to c complication?
https://github.com/avast/retdec (multiple machine code formats to C/C++)
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CDDC 2022 in Thailand Outfield
// // This file was generated by the Retargetable Decompiler // Website: https://retdec.com // Copyright (c) Retargetable Decompiler // #include #include #include #include // ------------------------ Structures ------------------------ struct _IO_FILE { int32_t e0; }; // ------------------- Function Prototypes -------------------- int64_t __do_global_dtors_aux(void); int64_t __libc_csu_fini(void); int64_t __libc_csu_init(int64_t a1, int64_t a2, int64_t a3); int64_t _fini(void); int64_t _init(void); int64_t _start(int64_t a1, int64_t a2, int64_t a3, int64_t a4); int64_t deregister_tm_clones(void); int64_t frame_dummy(void); int32_t function_7b0(char * s1, char * s2, int32_t n); int32_t function_7c0(int64_t * ptr, int32_t size, int32_t n, struct _IO_FILE * stream); int32_t function_7d0(struct _IO_FILE * stream); void function_7e0(void); int32_t function_7f0(char * format, ...); char * function_800(char * s, int32_t n, struct _IO_FILE * stream); int32_t function_810(struct _IO_FILE * stream, char * buf, int32_t modes, int32_t n); struct _IO_FILE * function_820(char * filename, char * modes); void function_830(char * s); void function_840(int32_t status); void function_850(int64_t * d); int64_t readflag(void); int64_t register_tm_clones(void); // --------------------- Global Variables --------------------- int64_t g1 = 2400; // 0x200d70 int64_t g2 = 2336; // 0x200d78 struct _IO_FILE * g3 = NULL; // 0x201020 struct _IO_FILE * g4 = NULL; // 0x201030 char g5 = 0; // 0x201038 char * g6; // 0x201040 int32_t g7 = 0; // 0x400 int32_t g8; // ------------------------ Functions ------------------------- // Address range: 0x788 - 0x79f int64_t _init(void) { int64_t result = 0; // 0x796 if (*(int64_t *)0x200fe8 != 0) { // 0x798 __gmon_start__(); result = &g8; } // 0x79a return result; } // Address range: 0x7b0 - 0x7b6 int32_t function_7b0(char * s1, char * s2, int32_t n) { // 0x7b0 return strncmp(s1, s2, n); } // Address range: 0x7c0 - 0x7c6 int32_t function_7c0(int64_t * ptr, int32_t size, int32_t n, struct _IO_FILE * stream) { // 0x7c0 return fread(ptr, size, n, stream); } // Address range: 0x7d0 - 0x7d6 int32_t function_7d0(struct _IO_FILE * stream) { // 0x7d0 return fclose(stream); } // Address range: 0x7e0 - 0x7e6 void function_7e0(void) { // 0x7e0 __stack_chk_fail(); } // Address range: 0x7f0 - 0x7f6 int32_t function_7f0(char * format, ...) { // 0x7f0 return printf(format); } // Address range: 0x800 - 0x806 char * function_800(char * s, int32_t n, struct _IO_FILE * stream) { // 0x800 return fgets(s, n, stream); } // Address range: 0x810 - 0x816 int32_t function_810(struct _IO_FILE * stream, char * buf, int32_t modes, int32_t n) { // 0x810 return setvbuf(stream, buf, modes, n); } // Address range: 0x820 - 0x826 struct _IO_FILE * function_820(char * filename, char * modes) { // 0x820 return fopen(filename, modes); } // Address range: 0x830 - 0x836 void function_830(char * s) { // 0x830 perror(s); } // Address range: 0x840 - 0x846 void function_840(int32_t status) { // 0x840 exit(status); } // Address range: 0x850 - 0x856 void function_850(int64_t * d) { // 0x850 __cxa_finalize(d); } // Address range: 0x860 - 0x88b int64_t _start(int64_t a1, int64_t a2, int64_t a3, int64_t a4) { // 0x860 int64_t v1; // 0x860 __libc_start_main(2518, (int32_t)a4, (char **)&v1, (void (*)())2816, (void (*)())2928, (void (*)())a3); __asm_hlt(); // UNREACHABLE } // Address range: 0x890 - 0x8c2 int64_t deregister_tm_clones(void) { // 0x890 return (int64_t)&g3; } // Address range: 0x8d0 - 0x912 int64_t register_tm_clones(void) { // 0x8d0 return 0; } // Address range: 0x920 - 0x95a int64_t __do_global_dtors_aux(void) { // 0x920 if (g5 != 0) { // 0x958 int64_t result; // 0x920 return result; } // 0x929 if (*(int64_t *)0x200ff8 != 0) { // 0x937 __cxa_finalize((int64_t *)*(int64_t *)0x201008); } int64_t result2 = deregister_tm_clones(); // 0x943 g5 = 1; return result2; } // Address range: 0x960 - 0x96a int64_t frame_dummy(void) { // 0x960 return register_tm_clones(); } // Address range: 0x96a - 0x9d6 int64_t readflag(void) { struct _IO_FILE * file = fopen("flag", "rb"); // 0x980 if (file != NULL) { // 0x9a6 fread((int64_t *)&g6, (int32_t)&g7, 1, file); fclose(file); return 0; } // 0x990 perror("[-] flag file "); exit(0); // UNREACHABLE } // Address range: 0x9d6 - 0xaf7 int main(int argc, char ** argv) { int64_t v1 = __readfsqword(40); // 0x9e1 setvbuf(g3, NULL, 1, 0); setvbuf(g4, NULL, 1, 0); readflag(); printf("[+] password => %p\n", (int64_t *)"P4s$w0rD"); int64_t str; // bp-1048, 0x9d6 fgets((char *)&str, (int32_t)&g7, g4); printf((char *)&str); if (strncmp("P4s$w0rD", "weakpass", 8) != 0) { // 0xac4 printf("[!] password is %s\n", "P4s$w0rD"); } else { // 0xaaa printf("[+] %s", (char *)&g6); } int64_t result = 0; // 0xaee if (v1 != __readfsqword(40)) { // 0xaf0 __stack_chk_fail(); result = &g8; } // 0xaf5 return result; } // Address range: 0xb00 - 0xb65 int64_t __libc_csu_init(int64_t a1, int64_t a2, int64_t a3) { int64_t result = _init(); // 0xb2c if ((int64_t)&g2 - (int64_t)&g1 >> 3 == 0) { // 0xb56 return result; } int64_t v1 = 0; // 0xb34 while (v1 + 1 != (int64_t)&g2 - (int64_t)&g1 >> 3) { // 0xb40 v1++; } // 0xb56 return result; } // Address range: 0xb70 - 0xb72 int64_t __libc_csu_fini(void) { // 0xb70 int64_t result; // 0xb70 return result; } // Address range: 0xb74 - 0xb7d int64_t _fini(void) { // 0xb74 int64_t result; // 0xb74 return result; } // --------------- Dynamically Linked Functions --------------- // void __cxa_finalize(void * d); // void __gmon_start__(void); // int __libc_start_main(int *(main)(int, char **, char **), int argc, char ** ubp_av, void(* init)(void), void(* fini)(void), void(* rtld_fini)(void), void(* stack_end)); // void __stack_chk_fail(void); // void exit(int status); // int fclose(FILE * stream); // char * fgets(char * restrict s, int n, FILE * restrict stream); // FILE * fopen(const char * restrict filename, const char * restrict modes); // size_t fread(void * restrict ptr, size_t size, size_t n, FILE * restrict stream); // void perror(const char * s); // int printf(const char * restrict format, ...); // int setvbuf(FILE * restrict stream, char * restrict buf, int modes, size_t n); // int strncmp(const char * s1, const char * s2, size_t n); // --------------------- Meta-Information --------------------- // Detected compiler/packer: gcc (7.5.0) // Detected functions: 22
- Old C code – how to upgrade it?
- RetDec – retargetable machine-code decompiler based on LLVM
gccrs
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FreeBSD evaluating Rust's adoption into base system
There is a Rust front-end for GCC that is under active development [1]. If the chip vendors are not willing to develop and upstream a LLVM back-end then they can feel free to start contributing to it.
[1] https://rust-gcc.github.io/
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Why do lifetimes need to be leaky?
That's why gccrs doesn't even consider lifetime checking a part of the language (they plan to use Polonius, too).
- Rust-GCC: GCC Front-End for Rust
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How hard would it be to port the Rust toolchain to a new non-POSIX OS written in Rust and get it to host its own development? What would that process entail?
There's ongoing work on a Rust front-end for GCC (https://github.com/Rust-GCC/gccrs). Bit barebones right now -- ie, even core doesn't compile -- but there's funding, demand, and regular progress, so it'll only get better from there. Once gccrs can compile core, it should be ready to compile most of Rust, and thus if you've taught the calling conventions for C to GCC, you're golden.
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How hard is it to write a front end for a more complex language like Rust or Kotlin?
I recommend checking out the GCC Rust frontend project.
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Rust contributions for Linux 6.4 are finally merged upstream!
That is what theyre refering to, yes. The GitHub is named https://github.com/Rust-GCC/gccrs
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GCC 13 and the State of Gccrs
- But this misses so much extra context information
3. Macro invocations there are really subtle rules on how you treat macro invocations such as this which is not documented at all https://github.com/Rust-GCC/gccrs/blob/master/gcc/rust/expan...
Some day I personally want to write a blog post about how complicated and under spec'd Rust is, then write one about the stuff i do like it such as iterators being part of libcore so i don't need reactive extensions.
- Break rust Easter Egg Merged Into gccrs
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Any alternate Rust compilers?
(Speaking of which, Rust-GCC (or gcc-rs or gccrs or whichever other of their names they decide is the primary one) isn't even going to be a complete C++ implementation. Their plan is to implement enough to compile Polonius (the NLL 2.0 borrow checker being developed in Rust for rustc) and then share that since borrow-checking isn't necessary for codegen... only to identify and reject invalid programs... making the C++ portion of it not that different in scope from mrustc.)
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Which programming languages, if all legacy code written in them was ported to a more modern language, would become extinct?
That bridge will be crossed with gccrs (compiling Rust with gcc directly, coming next month with GCC 13) and rust_codegen_gcc (rustc frontend, GCC backend, works now but just doesn’t yet have an “easy” setup)
What are some alternatives?
copycat - A concatenative language on Scheme
gcc-rust - a (WIP) Rust frontend for gcc / a gcc backend for rustc
stoical - An ancient forth like language
rustc_codegen_gcc - libgccjit AOT codegen for rustc
unwebpack-sourcemap - Extract uncompiled, uncompressed SPA code from Webpack source maps.
rustc_codegen_gcc - libgccjit AOT codegen for rustc
stoical-mentoring
mold - Mold: A Modern Linker 🦠
mstoical - MStoical - a Forth like language, but better
rust - Empowering everyone to build reliable and efficient software.
oscp - Designed for automated enumeration for ethical hacking and penetration testing
Rust-for-Linux - Adding support for the Rust language to the Linux kernel.