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Version: 0.47

ADR 046: Module Params

Changelog

  • Sep 22, 2021: Initial Draft

Status

Proposed

Abstract

This ADR describes an alternative approach to how Cosmos SDK modules use, interact, and store their respective parameters.

Context

Currently, in the Cosmos SDK, modules that require the use of parameters use the x/params module. The x/params works by having modules define parameters, typically via a simple Params structure, and registering that structure in the x/params module via a unique Subspace that belongs to the respective registering module. The registering module then has unique access to its respective Subspace. Through this Subspace, the module can get and set its Params structure.

In addition, the Cosmos SDK's x/gov module has direct support for changing parameters on-chain via a ParamChangeProposal governance proposal type, where stakeholders can vote on suggested parameter changes.

There are various tradeoffs to using the x/params module to manage individual module parameters. Namely, managing parameters essentially comes for "free" in that developers only need to define the Params struct, the Subspace, and the various auxiliary functions, e.g. ParamSetPairs, on the Params type. However, there are some notable drawbacks. These drawbacks include the fact that parameters are serialized in state via JSON which is extremely slow. In addition, parameter changes via ParamChangeProposal governance proposals have no way of reading from or writing to state. In other words, it is currently not possible to have any state transitions in the application during an attempt to change param(s).

Decision

We will build off of the alignment of x/gov and x/authz work per #9810. Namely, module developers will create one or more unique parameter data structures that must be serialized to state. The Param data structures must implement sdk.Msg interface with respective Protobuf Msg service method which will validate and update the parameters with all necessary changes. The x/gov module via the work done in #9810, will dispatch Param messages, which will be handled by Protobuf Msg services.

Note, it is up to developers to decide how to structure their parameters and the respective sdk.Msg messages. Consider the parameters currently defined in x/auth using the x/params module for parameter management:

message Params {
uint64 max_memo_characters = 1;
uint64 tx_sig_limit = 2;
uint64 tx_size_cost_per_byte = 3;
uint64 sig_verify_cost_ed25519 = 4;
uint64 sig_verify_cost_secp256k1 = 5;
}

Developers can choose to either create a unique data structure for every field in Params or they can create a single Params structure as outlined above in the case of x/auth.

In the former, x/params, approach, a sdk.Msg would need to be created for every single field along with a handler. This can become burdensome if there are a lot of parameter fields. In the latter case, there is only a single data structure and thus only a single message handler, however, the message handler might have to be more sophisticated in that it might need to understand what parameters are being changed vs what parameters are untouched.

Params change proposals are made using the x/gov module. Execution is done through x/authz authorization to the root x/gov module's account.

Continuing to use x/auth, we demonstrate a more complete example:

type Params struct {
MaxMemoCharacters uint64
TxSigLimit uint64
TxSizeCostPerByte uint64
SigVerifyCostED25519 uint64
SigVerifyCostSecp256k1 uint64
}

type MsgUpdateParams struct {
MaxMemoCharacters uint64
TxSigLimit uint64
TxSizeCostPerByte uint64
SigVerifyCostED25519 uint64
SigVerifyCostSecp256k1 uint64
}

type MsgUpdateParamsResponse struct {}

func (ms msgServer) UpdateParams(goCtx context.Context, msg *types.MsgUpdateParams) (*types.MsgUpdateParamsResponse, error) {
ctx := sdk.UnwrapSDKContext(goCtx)

// verification logic...

// persist params
params := ParamsFromMsg(msg)
ms.SaveParams(ctx, params)

return &types.MsgUpdateParamsResponse{}, nil
}

func ParamsFromMsg(msg *types.MsgUpdateParams) Params {
// ...
}

A gRPC Service query should also be provided, for example:

service Query {
// ...

rpc Params(QueryParamsRequest) returns (QueryParamsResponse) {
option (google.api.http).get = "/cosmos/<module>/v1beta1/params";
}
}

message QueryParamsResponse {
Params params = 1 [(gogoproto.nullable) = false];
}

Consequences

As a result of implementing the module parameter methodology, we gain the ability for module parameter changes to be stateful and extensible to fit nearly every application's use case. We will be able to emit events (and trigger hooks registered to that events using the work proposed in event hooks), call other Msg service methods or perform migration. In addition, there will be significant gains in performance when it comes to reading and writing parameters from and to state, especially if a specific set of parameters are read on a consistent basis.

However, this methodology will require developers to implement more types and Msg service metohds which can become burdensome if many parameters exist. In addition, developers are required to implement persistance logics of module parameters. However, this should be trivial.

Backwards Compatibility

The new method for working with module parameters is naturally not backwards compatible with the existing x/params module. However, the x/params will remain in the Cosmos SDK and will be marked as deprecated with no additional functionality being added apart from potential bug fixes. Note, the x/params module may be removed entirely in a future release.

Positive

  • Module parameters are serialized more efficiently
  • Modules are able to react on parameters changes and perform additional actions.
  • Special events can be emitted, allowing hooks to be triggered.

Negative

  • Module parameters becomes slightly more burdensome for module developers:
    • Modules are now responsible for persisting and retrieving parameter state
    • Modules are now required to have unique message handlers to handle parameter changes per unique parameter data structure.

Neutral

  • Requires #9810 to be reviewed and merged.

References