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New opcode: modexp #6139
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As a builder in ecosystem, I humbly think that will be a very useful OpCode. I humbly suggest if you can make that PR and do it, go for it. Demand for such contributions is very high right now. |
I'd support that, I believe it is fairly trivial, since Go's big.Int supports it. I'm not completely sure about the cost. Can the computational cost be expressed by multiplying the lengths of the inputs by some factors and summing? It should probably be called |
Separately, I would also support an |
It's probably worth doing as more interest across chains in auth seems to be happening, and passkey related solutions still have to contend with Windows Hello as a platform authenticator, and that uses RS256 (cose algo -257). AFAIK no other chain is dealing with passkey delegated smart account control using anything other than ecdsa or ed25519 type stuff, so an RS256 Windows Hello verifier might give you guys some kind of edge |
I'm not opposed to the idea, and see value in implementing this. However as you touched on, What might be better is to expect developers implement it themselves with the If it were to be added as an opcode, it'd make sense to support the widely used |
Thanks for the suggestions. I'll do some research into the cost, and propose something in the PR which we can review together. |
Preliminary work into figuring out a suitable function to estimate the cost is complete. Inspired by EIP-2565, it appears that fitting a line to Note the data looks bimodal, as I think my computer didn't maintain constant speed on this task due to sleep or multitasking. It should be a good starting point to refine. Jupyter Notebook of Results: https://colab.research.google.com/drive/1f9evrZLmLFPg6YgbkLHptZZGiNm_G6KX?usp=sharing For comparison, a constant or linear function is a highly inaccurate estimate. Suggesting it makes sense to implement a custom cost function implementing the function estimated from the notebook in |
In the meantime, I'll push what what I have as a PR for review and leave the cost as a placeholder with |
Regarding the cost model for bmodexp, @jannotti: I have conducted a more in-depth analysis, comparing three classes of models with automated model selection. It appears that the log-polynomial model is by far the most accurate, while the linear model is unfortunately highly inaccurate. The cost for the maximum input length is too high to set the cost as a constant. The relative performances of the models are assessed both in-sample and out-of-sample, using the known cost for the extreme input case as the out-of-sample test point. The models have fixed intercept through 0, because for zero length input the cost should be zero (although we will add a minimum cost to that). The coefficient for the model parameters are forced to be positive, based on the intuition that any increase in the input sizes should increase the cost, and to ensure there's no weird negative case to deal with. Colab: https://colab.research.google.com/drive/1f9evrZLmLFPg6YgbkLHptZZGiNm_G6KX The data may not be available in the Colab, as it isn't permanently uploaded. Should you have issues viewing the results, please see the PDF. |
Based on the analysis, it appears that the log-polynomial model is the most suitable choice. This means that a custom function for calculating the cost should be added to |
@mangoplane - nice work, can we set up a quick call to chat? John CTO - Algorand Foundation |
Thanks @johnalanwoods! I’d be happy to set up a call. I'm available from tomorrow onward, and since I'm based in Sydney, Australia, any time between 8 AM and 9 PM AEST works well for me. Please feel free to send the invite to my email: winton.nathan.roberts@gmail.com. I look forward to our conversation. |
Problem
I believe
modexp
(modular exponentiation) should be available as an opcode, as it seems like an important crypto primitive. It is also present in many other chains like EVM. While I have implemented its functionality in Puya BigNumber, I'm afraid its cost is prohibitively expensive for most real-world applications like RSA signature verification. This is why I propose it be made an opcode.This opcode would pave the way for several novel use cases, such as supporting RSA, which is still a popular cryptographic function seen in many places like JWT verification and DKIM in email.
Solution
I offer to make a PR adding support for the opcode, updating several source files in
data/transactions/logic
to integrate it. Before creating the PR, I thought it best to raise an issue to provide context and see whether it's something others would like to see added. The API design would be something typical, likelymodexp(base: Bytes, exponent: Bytes, modulus: Bytes)
. The opcode cost would be a function of the input size, similar tobase64_decode
.Dependencies
There are no known dependencies.
Urgency
I am aware of several developers, including myself, who wish to support RSA in some form, such as for DKIM in email or privacy-preserving JWT verification. In that sense, it seems like an important opcode.
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