Why does my assembly code even work at this point?! I hope one day one doesn't need to be a PhD to formally verify it...

Interesting, DJB and Peter Schwabe have a demo program for verifying the correctness of finite-field arithmetic in Curve25519 code, it's almost fully automatic, only needs minimum annotations. It simply extracts the calculation you are trying do to, generates a SageMath script, and calls SageMath to crosscheck the math. Not real "formal verification", but certainly better than staring at the screen with pen and paper...

Perhaps it's really possible to hack the code and use it to verify my PDP-11 assembly code. gfverif.cryptojedi.org/index.s

Oh no, the program correctness verifier has SIGSEGVed and crashed. "You've become the very thing you swore to destroy"...

gfverif's way of doing quick and dirty verification of existing C code is somewhere between genius and madness - define a new "mockup" integer type and use C++ to overload the operators like plus or minus, instead of doing calculations, it generates SageMath scripts of equivalent operations in algebra. This way, the entire C algorithm can be automatically extracted without writing any parser or compiler... The only problem: conditional branches using data are not supported, but you're not supposed to do that in crypto anyway... 🤣

Bignum addition code for PDP-11 has been formally verified by CBMC automatically in 0.2 seconds, showing its equivalence to the reference implementation. It also verified that a carry cannot occur after a specific addition, magic! Now trying to see whether it could handle multiplication... I don't expect success, the SMT solver will probably get stuck somewhere...

As expected, the MiniSAT solver gets stuck when attempting to formally verify the PDP-11 multiplication routine via CBMC, 20 minutes and it's still running... Meanwhile, Z3 solved it in 5 minutes, magic! I, for one, welcome our new Microsoft overlord...

Deliberately "unfixed" a carry bug in the code, CBMC was able to catch it in 5 minutes using the Z3 solver.

Added a tricky optimization, saves 2 cycles, but I'm afraid it's sometimes wrong. But CBMC proved its correctness, magic.

Managed to save yet another cycle with the help from the formal verifier.

Someone should make a video tutorial on formal verification and name it "Bugs DESTROYED by FACTS and LOGIC!11!" Of all things that use this stupid meme, this will be the only legit one...

> size of program expression: 50300 steps
> Generated 8194 VCC(s)
> Running SMT2 QF_AUFBV using Z3

I don't think the solver is able to answer this huge problem. Anyway, I'll know when I wake up tomorrow...

looks like an interesting platform. Unfortunately, little documentation exists for WhyML as a standalone programming language. Unless you're already have ML/OCaml/F# experience, all can you do is asking "why" 3 times. It comes with a handy IDE that lists all the goals and options you need to prove a program, but something is missing: for newcomers the first goal should always be "close the IDE, go and learn Standard ML for 2 months before you come back..."

Cryptoline looks like the most complete solution for verifying crypto code for now. But the toolchain couldn't fully understand bitwise operations. A simple add routine requires 83 TODO items. :oh_no:

@niconiconi Does this kind of tools only exists for assembly languages? Just being curious.

@EWings The usual way is implementing and verifying everything in a very-high-level functional programming language. Model-checking tools for C programs also exists. Cryptoline is a domain-specific tool for low-level crypto code.

@niconiconi Ah I see. Was trying to change the "write it and let it run" way of programming recently so this kind of things are interesting.
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@EWings I just started looking for verification tools for cryptography since a week ago. I don't know any more than you...

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