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Turns out that Zcash swiched to BLS12-381 since https://github.com/zcash/zcash/issues/2502, thanks to @EdgeDLT for pointing that out. I've checked that our TestCubicCircuit_EndToEnd_Prod test passes with response file downloaded from the attestations page of Zcash ceremony, thus I propose to put theirs attestations link before the link to PPoT, because PPoT attestations contain outdated links and not all responses can be downloaded. Signed-off-by: Anna Shaleva <shaleva.ann@nspcc.ru>
63 lines
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4.5 KiB
Markdown
63 lines
No EOL
4.5 KiB
Markdown
### Example description
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This example demonstrates how to create your own circuit and generate Groth-16
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proof based on BLS12-381 elliptic curve points with the help of
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[consensys/gnark](https://pkg.go.dev/github.com/consensys/gnark). It also shows how to generate, deploy and invoke Verifier
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smart contract to verify proofs for the given circuit on the Neo chain with the
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help of [zkpbindings](https://pkg.go.dev/github.com/nspcc-dev/neo-go/pkg/smartcontract/zkpbinding) NeoGo package. The package also contains circuit
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tests implemented with [gnark/test](https://pkg.go.dev/github.com/consensys/gnark/test) to check the circuit validity and
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end-to-end proof generation/verification test implemented with [neotest](https://pkg.go.dev/github.com/nspcc-dev/neo-go/pkg/neotest)
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to demonstrate how to build, deploy and verify proofs via Verifier smart
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contract for the given circuit.
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### Groth-16 setup notes
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Common reference string (CRS) is needed to generate proving and verifying keys
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for the given constrained system. In production environment, CRS generation can
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be performed via Multi-Party Computation (MPC) ceremony that includes two
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phases: Phase 1 (a.k.a. Powers of Tau) that is curve-specific and those
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results may be used by all circuits; and Phase 2 that is circuit-specific and
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uses the result of Phase 1 as an input.
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For testing setups, check out the [`TestCubicCircuit_EndToEnd`](./main_test.go)
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keys generation stage. For production usage, read the information below.
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Both phases for BLS12-381 curve can be implemented in the Go programming language
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using the corresponding `consensys/gnark` API (see the
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[test example](https://github.com/Consensys/gnark/blob/36b0b58f02d0381774b24efba0a48032e5f794b4/backend/groth16/bls12-381/mpcsetup/setup_test.go#L34))
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and the example of a
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[CLI tool that uses the API with BN254 elliptic curve](https://github.com/bnb-chain/zkbnb-setup)
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to organize the ceremony and generate proving and verifying keys for a circuit.
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However, both phases take a significant amount of time and computations to be
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performed. Luckily for the developers, it is possible to omit a curve-specific
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part of the MPC and reuse the existing results of Phase 1 got from a trusted
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source, e.g. from [Zcash PowersOfTau](https://github.com/ZcashFoundation/powersoftau-attestations)
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held by the [Zcash Foundation](https://github.com/ZcashFoundation).
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`TestCubicCircuit_EndToEnd_Prod` test of the current circuit example demonstrates
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how to use the `response` output file from the Phase 1 of the Filecoin's Powers
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of Tau ceremony for BLS12-381 curve:
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* [`response8`](./response8) file is the response output from the ceremony that was run locally
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based on the [Filecoin Powers of Tau](https://github.com/filecoin-project/powersoftau/)
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with the `REQUIRED_POWER` set to 8 (to reduce computations and response file size).
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The ceremony itself was run with the help of [testing script](https://github.com/filecoin-project/powersoftau/blob/master/test.sh).
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To get the response file for a production environment, the user has two options:
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1. Organize his own ceremony with required number of powers following the
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[guide](https://github.com/filecoin-project/powersoftau/tree/master#instructions)
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from the ceremony source repo.
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2. Download the existing suitable `response` file from the trusted existing ceremony.
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Please, be careful while choosing `response` file and ensure that it has enough
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powers computed (at least as much as the number of the circuit's constraints requires).
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Example of suitable ceremonies:
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* Zcash Powers Of Tau [attestations page](https://github.com/ZcashFoundation/powersoftau-attestations) (up to 2^21)
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* Filecoin Perpetual Powers Of Tau [attestations page](https://github.com/arielgabizon/perpetualpowersoftau#perpetual-powers-of-tau-for-bls381) (up to 2^27)
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* [main_test](./main_test.go) contains the `TestCubicCircuit_EndToEnd_Prod` test
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itself and demonstrates how to properly initialize Phase 2 based on the given
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response file and make some dummy contributions into it.
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Take the [`TestCubicCircuit_EndToEnd_Prod`](./main_test.go) test logic as a basis
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while generating the circuit-specific proving and verifying keys for the production
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usage. Currently, we don't have a BLS12-381 specific Groth-16 setup CLI utility
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like for [BN254 curve](https://github.com/bnb-chain/zkbnb-setup), but eventually
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it will be included into the NeoGo toolkit to make the development process easier.
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Don't hesitate to contact us if you're looking for a similar CLI utility for
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BLS12-381 curve. |