203 lines
6.7 KiB
Markdown
203 lines
6.7 KiB
Markdown
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---
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title: 58/RLN-V2
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name: Rate Limit Nullifier V2
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status: raw
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editor: Rasul Ibragimov \<curryrasul@gmail.com\>
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contributors:
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- Lev Soukhanov \<0xdeadfae@gmail.com\>
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sidebar_position: 1
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---
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## Abstract
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The protocol specified in this document is an improvement of [32/RLN-V1](../32/rln-v1.md), being more general construct, that allows to set various limits for an epoch (it's 1 message per epoch in [32/RLN-V1](../32/rln-v1.md)) while remaining almost as simple as it predecessor.
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Moreover, it allows to set different rate-limits for different RLN app users based on some public data, e.g. stake or reputation.
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## Motivation
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The main goal of this RFC is to generalize [32/RLN-V1](../32/rln-v1.md) and expand its applications.
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There are two different subprotocols based on this protocol:
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* RLN-Same - RLN with the same rate-limit for all users;
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* RLN-Diff - RLN that allows to set different rate-limits for different users.
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It is important to note that by using a large epoch limit value, users will be able to remain anonymous, because their `internal_nullifiers` will not be repeated until they exceed the limit.
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## Flow
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As in [32/RLN-V1](../32/rln-v1.md), the general flow can be described by three steps:
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1. Registration
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2. Signaling
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3. Verification and slashing
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The two sub-protocols have different flows, and hence are defined separately.
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### Important note
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All terms and parameters used remain the same as in [32/RLN-V1](../32/rln-v1.md), more details [here](../32/rln-v1.md/#technical-overview)
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## RLN-Same flow
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### Registration
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The registration process in the RLN-Same subprotocol does not differ from [32/RLN-V1](../32/rln-v1.md).
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### Signalling
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#### Proof generation
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For proof generation, the user needs to submit the following fields to the circuit:
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```
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{
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identity_secret: identity_secret_hash,
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path_elements: Merkle_proof.path_elements,
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identity_path_index: Merkle_proof.indices,
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x: signal_hash,
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message_id: message_id,
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external_nullifier: external_nullifier,
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message_limit: message_limit
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}
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```
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#### Calculating output
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The following fields are needed for proof output calculation:
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```
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{
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identity_secret_hash: bigint,
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external_nullifier: bigint,
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message_id: bigint,
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x: bigint,
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}
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```
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The output `[y, internal_nullifier]` is calculated in the following way:
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```
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a_0 = identity_secret_hash
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a_1 = poseidonHash([a0, external_nullifier, message_id])
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y = a_0 + x * a_1
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internal_nullifier = poseidonHash([a_1])
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```
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## RLN-Diff flow
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### Registration
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**id_commitment** in [32/RLN-V1](../32/rln-v1.md) is equal to `poseidonHash(identity_secret)`.
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The goal of RLN-Diff is to set different rate-limits for different users.
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It follows that **id_commitment** must somehow depend on the `user_message_limit` parameter, where 0 \<= `user_message_limit` \<= `message_limit`.
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There are few ways to do that:
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1. Sending `identity_secret_hash` = `poseidonHash(identity_secret, userMessageLimit)` and zk proof that `user_message_limit` is valid (is in the right range).
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This approach requires zkSNARK verification, which is an expensive operation on the blockchain.
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2. Sending the same `identity_secret_hash` as in [32/RLN-V1](../32/rln-v1.md) (`poseidonHash(identity_secret)`) and a user_message_limit publicly to a server or smart-contract where `rate_commitment` = `poseidonHash(identity_secret_hash, userMessageLimit)` is calculated.
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The leaves in the membership Merkle tree would be the rate_commitments of the users.
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This approach requires additional hashing in the Circuit, but it eliminates the need for zk proof verification for the registration.
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Both methods are correct, and the choice of the method is left to the implementer.
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It is recommended to use second method for the reasons already described.
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The following flow description will also be based on the second method.
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### Signalling
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#### Proof generation
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For proof generation, the user need to submit the following fields to the circuit:
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```
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{
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identity_secret: identity_secret_hash,
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path_elements: Merkle_proof.path_elements,
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identity_path_index: Merkle_proof.indices,
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x: signal_hash,
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message_id: message_id,
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external_nullifier: external_nullifier,
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user_message_limit: message_limit
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}
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```
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#### Calculating output
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The Output is calculated in the same way as the RLN-Same sub-protocol.
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### Verification and slashing
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Verification and slashing in both subprotocols remain the same as in [32/RLN-V1](../32/rln-v1.md).
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The only difference that may arise is the `message_limit` check in RLN-Same, since it is now a public input of the Circuit.
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### ZK Circuits specification
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The design of the [32/RLN-V1](../32/rln-v1.md) circuits is different from the circuits of this protocol.
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RLN-v2 requires additional algebraic constraints.
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The membership proof and Shamir's Secret Sharing constraints remain unchanged.
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The ZK Circuit is implemented using a [Groth-16 ZK-SNARK](https://eprint.iacr.org/2016/260.pdf),
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using the [circomlib](https://docs.circom.io/) library.
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Both schemes contain compile-time constants/system parameters:
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* DEPTH - depth of membership Merkle tree
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* LIMIT_BIT_SIZE - bit size of `limit` numbers, e.g. for the 16 - maximum `limit` number is 65535.
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The main difference of the protocol is that instead of a new polynomial (a new value `a_1`) for a new epoch, a new polynomial is generated for each message.
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The user assigns an identifier to each message; the main requirement is that this identifier be in the range from 1 to `limit`.
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This is proven using range constraints.
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### RLN-Same circuit
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#### Circuit parameters
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**Public Inputs**
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- `x`
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- `external_nullifier`
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- `message_limit` - limit per epoch
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**Private Inputs**
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- `identity_secret_hash`
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- `path_elements`
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- `identity_path_index`
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- `message_id`
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**Outputs**
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- `y`
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- `root`
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- `internal_nullifier`
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### RLN-Diff circuit
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In the RLN-Diff scheme, instead of the public parameter `message_limit`, a parameter is used that is set for each user during registration (`user_message_limit`); the `message_id` value is compared to it in the same way as it is compared to `message_limit` in the case of RLN-Same.
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#### Circuit parameters
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**Public Inputs**
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- `x`
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- `external_nullifier`
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**Private Inputs**
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- `identity_secret_hash`
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- `path_elements`
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- `identity_path_index`
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- `message_id`
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- `user_message_limit`
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**Outputs**
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- `y`
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- `root`
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- `internal_nullifier`
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## Appendix A: Security considerations
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Although there are changes in the circuits, this spec inherits all the security considerations of [32/RLN-V1](../32/rln-v1.md).
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## Copyright
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Copyright and related rights waived via [CC0](https://creativecommons.org/publicdomain/zero/1.0/).
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## References
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- [1](https://zkresear.ch/t/rate-limit-nullifier-v2-circuits/102)
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- [2](https://github.com/Rate-Limiting-Nullifier/rln-circuits-v2)
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- [3](../32/rln-v1.md/#technical-overview)
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