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Version: v0.50

ADR 030: Authorization Module


  • 2019-11-06: Initial Draft
  • 2020-10-12: Updated Draft
  • 2020-11-13: Accepted
  • 2020-05-06: proto API updates, use sdk.Msg instead of sdk.ServiceMsg (the latter concept was removed from Cosmos SDK)
  • 2022-04-20: Updated the SendAuthorization proto docs to clarify the SpendLimit is a required field. (Generic authorization can be used with bank msg type url to create limit less bank authorization)




This ADR defines the x/authz module which allows accounts to grant authorizations to perform actions on behalf of that account to other accounts.


The concrete use cases which motivated this module include:

  • the desire to delegate the ability to vote on proposals to other accounts besides the account which one has delegated stake
  • "sub-keys" functionality, as originally proposed in #4480 which is a term used to describe the functionality provided by this module together with the fee_grant module from ADR 029 and the group module.

The "sub-keys" functionality roughly refers to the ability for one account to grant some subset of its capabilities to other accounts with possibly less robust, but easier to use security measures. For instance, a master account representing an organization could grant the ability to spend small amounts of the organization's funds to individual employee accounts. Or an individual (or group) with a multisig wallet could grant the ability to vote on proposals to any one of the member keys.

The current implementation is based on work done by the Gaian's team at Hackatom Berlin 2019.


We will create a module named authz which provides functionality for granting arbitrary privileges from one account (the granter) to another account (the grantee). Authorizations must be granted for a particular Msg service methods one by one using an implementation of Authorization interface.


Authorizations determine exactly what privileges are granted. They are extensible and can be defined for any Msg service method even outside of the module where the Msg method is defined. Authorizations reference Msgs using their TypeURL.


type Authorization interface {

// MsgTypeURL returns the fully-qualified Msg TypeURL (as described in ADR 020),
// which will process and accept or reject a request.
MsgTypeURL() string

// Accept determines whether this grant permits the provided sdk.Msg to be performed, and if
// so provides an upgraded authorization instance.
Accept(ctx sdk.Context, msg sdk.Msg) (AcceptResponse, error)

// ValidateBasic does a simple validation check that
// doesn't require access to any other information.
ValidateBasic() error

// AcceptResponse instruments the controller of an authz message if the request is accepted
// and if it should be updated or deleted.
type AcceptResponse struct {
// If Accept=true, the controller can accept and authorization and handle the update.
Accept bool
// If Delete=true, the controller must delete the authorization object and release
// storage resources.
Delete bool
// Controller, who is calling Authorization.Accept must check if `Updated != nil`. If yes,
// it must use the updated version and handle the update on the storage level.
Updated Authorization

For example a SendAuthorization like this is defined for MsgSend that takes a SpendLimit and updates it down to zero:

type SendAuthorization struct {
// SpendLimit specifies the maximum amount of tokens that can be spent
// by this authorization and will be updated as tokens are spent. This field is required. (Generic authorization
// can be used with bank msg type url to create limit less bank authorization).
SpendLimit sdk.Coins

func (a SendAuthorization) MsgTypeURL() string {
return sdk.MsgTypeURL(&MsgSend{})

func (a SendAuthorization) Accept(ctx sdk.Context, msg sdk.Msg) (authz.AcceptResponse, error) {
mSend, ok := msg.(*MsgSend)
if !ok {
return authz.AcceptResponse{}, sdkerrors.ErrInvalidType.Wrap("type mismatch")
limitLeft, isNegative := a.SpendLimit.SafeSub(mSend.Amount)
if isNegative {
return authz.AcceptResponse{}, sdkerrors.ErrInsufficientFunds.Wrapf("requested amount is more than spend limit")
if limitLeft.IsZero() {
return authz.AcceptResponse{Accept: true, Delete: true}, nil

return authz.AcceptResponse{Accept: true, Delete: false, Updated: &SendAuthorization{SpendLimit: limitLeft}}, nil

A different type of capability for MsgSend could be implemented using the Authorization interface with no need to change the underlying bank module.

Small notes on AcceptResponse
  • The AcceptResponse.Accept field will be set to true if the authorization is accepted. However, if it is rejected, the function Accept will raise an error (without setting AcceptResponse.Accept to false).

  • The AcceptResponse.Updated field will be set to a non-nil value only if there is a real change to the authorization. If authorization remains the same (as is, for instance, always the case for a GenericAuthorization), the field will be nil.

Msg Service

service Msg {
// Grant grants the provided authorization to the grantee on the granter's
// account with the provided expiration time.
rpc Grant(MsgGrant) returns (MsgGrantResponse);

// Exec attempts to execute the provided messages using
// authorizations granted to the grantee. Each message should have only
// one signer corresponding to the granter of the authorization.
rpc Exec(MsgExec) returns (MsgExecResponse);

// Revoke revokes any authorization corresponding to the provided method name on the
// granter's account that has been granted to the grantee.
rpc Revoke(MsgRevoke) returns (MsgRevokeResponse);

// Grant gives permissions to execute
// the provided method with expiration time.
message Grant {
google.protobuf.Any authorization = 1 [(cosmos_proto.accepts_interface) = "cosmos.authz.v1beta1.Authorization"];
google.protobuf.Timestamp expiration = 2 [(gogoproto.stdtime) = true, (gogoproto.nullable) = false];

message MsgGrant {
string granter = 1;
string grantee = 2;

Grant grant = 3 [(gogoproto.nullable) = false];

message MsgExecResponse {
cosmos.base.abci.v1beta1.Result result = 1;

message MsgExec {
string grantee = 1;
// Authorization Msg requests to execute. Each msg must implement Authorization interface
repeated google.protobuf.Any msgs = 2 [(cosmos_proto.accepts_interface) = "cosmos.base.v1beta1.Msg"];;

Router Middleware

The authz Keeper will expose a DispatchActions method which allows other modules to send Msgs to the router based on Authorization grants:

type Keeper interface {
// DispatchActions routes the provided msgs to their respective handlers if the grantee was granted an authorization
// to send those messages by the first (and only) signer of each msg.
DispatchActions(ctx sdk.Context, grantee sdk.AccAddress, msgs []sdk.Msg) sdk.Result`


tx exec Method

When a CLI user wants to run a transaction on behalf of another account using MsgExec, they can use the exec method. For instance gaiacli tx gov vote 1 yes --from <grantee> --generate-only | gaiacli tx authz exec --send-as <granter> --from <grantee> would send a transaction like this:

MsgExec {
Grantee: mykey,
Msgs: []sdk.Msg{
MsgVote {
ProposalID: 1,
Voter: cosmos3thsdgh983egh823
Option: Yes

tx grant <grantee> <authorization> --from <granter>

This CLI command will send a MsgGrant transaction. authorization should be encoded as JSON on the CLI.

tx revoke <grantee> <method-name> --from <granter>

This CLI command will send a MsgRevoke transaction.

Built-in Authorizations


// SendAuthorization allows the grantee to spend up to spend_limit coins from
// the granter's account.
message SendAuthorization {
repeated cosmos.base.v1beta1.Coin spend_limit = 1;


// GenericAuthorization gives the grantee unrestricted permissions to execute
// the provided method on behalf of the granter's account.
message GenericAuthorization {
option (cosmos_proto.implements_interface) = "Authorization";

// Msg, identified by it's type URL, to grant unrestricted permissions to execute
string msg = 1;



  • Users will be able to authorize arbitrary actions on behalf of their accounts to other users, improving key management for many use cases
  • The solution is more generic than previously considered approaches and the Authorization interface approach can be extended to cover other use cases by SDK users