upgrade

package
v0.47.0-rc1 Latest Latest
Warning

This package is not in the latest version of its module.

Go to latest
Published: Jan 9, 2023 License: Apache-2.0 Imports: 30 Imported by: 0

README


sidebar_position: 1

x/upgrade

Abstract

x/upgrade is an implementation of a Cosmos SDK module that facilitates smoothly upgrading a live Cosmos chain to a new (breaking) software version. It accomplishes this by providing a BeginBlocker hook that prevents the blockchain state machine from proceeding once a pre-defined upgrade block height has been reached.

The module does not prescribe anything regarding how governance decides to do an upgrade, but just the mechanism for coordinating the upgrade safely. Without software support for upgrades, upgrading a live chain is risky because all of the validators need to pause their state machines at exactly the same point in the process. If this is not done correctly, there can be state inconsistencies which are hard to recover from.

Concepts

Plan

The x/upgrade module defines a Plan type in which a live upgrade is scheduled to occur. A Plan can be scheduled at a specific block height. A Plan is created once a (frozen) release candidate along with an appropriate upgrade Handler (see below) is agreed upon, where the Name of a Plan corresponds to a specific Handler. Typically, a Plan is created through a governance proposal process, where if voted upon and passed, will be scheduled. The Info of a Plan may contain various metadata about the upgrade, typically application specific upgrade info to be included on-chain such as a git commit that validators could automatically upgrade to.

Sidecar Process

If an operator running the application binary also runs a sidecar process to assist in the automatic download and upgrade of a binary, the Info allows this process to be seamless. This tool is Cosmovisor.

type Plan struct {
  Name   string
  Height int64
  Info   string
}

Handler

The x/upgrade module facilitates upgrading from major version X to major version Y. To accomplish this, node operators must first upgrade their current binary to a new binary that has a corresponding Handler for the new version Y. It is assumed that this version has fully been tested and approved by the community at large. This Handler defines what state migrations need to occur before the new binary Y can successfully run the chain. Naturally, this Handler is application specific and not defined on a per-module basis. Registering a Handler is done via Keeper#SetUpgradeHandler in the application.

type UpgradeHandler func(Context, Plan, VersionMap) (VersionMap, error)

During each EndBlock execution, the x/upgrade module checks if there exists a Plan that should execute (is scheduled at that height). If so, the corresponding Handler is executed. If the Plan is expected to execute but no Handler is registered or if the binary was upgraded too early, the node will gracefully panic and exit.

StoreLoader

The x/upgrade module also facilitates store migrations as part of the upgrade. The StoreLoader sets the migrations that need to occur before the new binary can successfully run the chain. This StoreLoader is also application specific and not defined on a per-module basis. Registering this StoreLoader is done via app#SetStoreLoader in the application.

func UpgradeStoreLoader (upgradeHeight int64, storeUpgrades *store.StoreUpgrades) baseapp.StoreLoader

If there's a planned upgrade and the upgrade height is reached, the old binary writes Plan to the disk before panicking.

This information is critical to ensure the StoreUpgrades happens smoothly at correct height and expected upgrade. It eliminiates the chances for the new binary to execute StoreUpgrades multiple times everytime on restart. Also if there are multiple upgrades planned on same height, the Name will ensure these StoreUpgrades takes place only in planned upgrade handler.

Proposal

Typically, a Plan is proposed and submitted through governance via a proposal containing a MsgSoftwareUpgrade message. This proposal prescribes to the standard governance process. If the proposal passes, the Plan, which targets a specific Handler, is persisted and scheduled. The upgrade can be delayed or hastened by updating the Plan.Height in a new proposal.

https://github.com/cosmos/cosmos-sdk/blob/v0.46.0/proto/cosmos/upgrade/v1beta1/tx.proto#L24-L36
Cancelling Upgrade Proposals

Upgrade proposals can be cancelled. There exists a gov-enabled MsgCancelUpgrade message type, which can be embedded in a proposal, voted on and, if passed, will remove the scheduled upgrade Plan. Of course this requires that the upgrade was known to be a bad idea well before the upgrade itself, to allow time for a vote.

https://github.com/cosmos/cosmos-sdk/blob/v0.46.0/proto/cosmos/upgrade/v1beta1/tx.proto#L43-L51

If such a possibility is desired, the upgrade height is to be 2 * (VotingPeriod + DepositPeriod) + (SafetyDelta) from the beginning of the upgrade proposal. The SafetyDelta is the time available from the success of an upgrade proposal and the realization it was a bad idea (due to external social consensus).

A MsgCancelUpgrade proposal can also be made while the original MsgSoftwareUpgrade proposal is still being voted upon, as long as the VotingPeriod ends after the MsgSoftwareUpgrade proposal.

State

The internal state of the x/upgrade module is relatively minimal and simple. The state contains the currently active upgrade Plan (if one exists) by key 0x0 and if a Plan is marked as "done" by key 0x1. The state contains the consensus versions of all app modules in the application. The versions are stored as big endian uint64, and can be accessed with prefix 0x2 appended by the corresponding module name of type string. The state maintains a Protocol Version which can be accessed by key 0x3.

  • Plan: 0x0 -> Plan
  • Done: 0x1 | byte(plan name) -> BigEndian(Block Height)
  • ConsensusVersion: 0x2 | byte(module name) -> BigEndian(Module Consensus Version)
  • ProtocolVersion: 0x3 -> BigEndian(Protocol Version)

The x/upgrade module contains no genesis state.

Events

The x/upgrade does not emit any events by itself. Any and all proposal related events are emitted through the x/gov module.

Client

CLI

A user can query and interact with the upgrade module using the CLI.

Query

The query commands allow users to query upgrade state.

simd query upgrade --help
applied

The applied command allows users to query the block header for height at which a completed upgrade was applied.

simd query upgrade applied [upgrade-name] [flags]

If upgrade-name was previously executed on the chain, this returns the header for the block at which it was applied. This helps a client determine which binary was valid over a given range of blocks, as well as more context to understand past migrations.

Example:

simd query upgrade applied "test-upgrade"

Example Output:

"block_id": {
    "hash": "A769136351786B9034A5F196DC53F7E50FCEB53B48FA0786E1BFC45A0BB646B5",
    "parts": {
      "total": 1,
      "hash": "B13CBD23011C7480E6F11BE4594EE316548648E6A666B3575409F8F16EC6939E"
    }
  },
  "block_size": "7213",
  "header": {
    "version": {
      "block": "11"
    },
    "chain_id": "testnet-2",
    "height": "455200",
    "time": "2021-04-10T04:37:57.085493838Z",
    "last_block_id": {
      "hash": "0E8AD9309C2DC411DF98217AF59E044A0E1CCEAE7C0338417A70338DF50F4783",
      "parts": {
        "total": 1,
        "hash": "8FE572A48CD10BC2CBB02653CA04CA247A0F6830FF19DC972F64D339A355E77D"
      }
    },
    "last_commit_hash": "DE890239416A19E6164C2076B837CC1D7F7822FC214F305616725F11D2533140",
    "data_hash": "E3B0C44298FC1C149AFBF4C8996FB92427AE41E4649B934CA495991B7852B855",
    "validators_hash": "A31047ADE54AE9072EE2A12FF260A8990BA4C39F903EAF5636B50D58DBA72582",
    "next_validators_hash": "A31047ADE54AE9072EE2A12FF260A8990BA4C39F903EAF5636B50D58DBA72582",
    "consensus_hash": "048091BC7DDC283F77BFBF91D73C44DA58C3DF8A9CBC867405D8B7F3DAADA22F",
    "app_hash": "28ECC486AFC332BA6CC976706DBDE87E7D32441375E3F10FD084CD4BAF0DA021",
    "last_results_hash": "E3B0C44298FC1C149AFBF4C8996FB92427AE41E4649B934CA495991B7852B855",
    "evidence_hash": "E3B0C44298FC1C149AFBF4C8996FB92427AE41E4649B934CA495991B7852B855",
    "proposer_address": "2ABC4854B1A1C5AA8403C4EA853A81ACA901CC76"
  },
  "num_txs": "0"
}
module versions

The module_versions command gets a list of module names and their respective consensus versions.

Following the command with a specific module name will return only that module's information.

simd query upgrade module_versions [optional module_name] [flags]

Example:

simd query upgrade module_versions

Example Output:

module_versions:
- name: auth
  version: "2"
- name: authz
  version: "1"
- name: bank
  version: "2"
- name: capability
  version: "1"
- name: crisis
  version: "1"
- name: distribution
  version: "2"
- name: evidence
  version: "1"
- name: feegrant
  version: "1"
- name: genutil
  version: "1"
- name: gov
  version: "2"
- name: ibc
  version: "2"
- name: mint
  version: "1"
- name: params
  version: "1"
- name: slashing
  version: "2"
- name: staking
  version: "2"
- name: transfer
  version: "1"
- name: upgrade
  version: "1"
- name: vesting
  version: "1"

Example:

regen query upgrade module_versions ibc

Example Output:

module_versions:
- name: ibc
  version: "2"
plan

The plan command gets the currently scheduled upgrade plan, if one exists.

regen query upgrade plan [flags]

Example:

simd query upgrade plan

Example Output:

height: "130"
info: ""
name: test-upgrade
time: "0001-01-01T00:00:00Z"
upgraded_client_state: null

REST

A user can query the upgrade module using REST endpoints.

Applied Plan

AppliedPlan queries a previously applied upgrade plan by its name.

/cosmos/upgrade/v1beta1/applied_plan/{name}

Example:

curl -X GET "http://localhost:1317/cosmos/upgrade/v1beta1/applied_plan/v2.0-upgrade" -H "accept: application/json"

Example Output:

{
  "height": "30"
}
Current Plan

CurrentPlan queries the current upgrade plan.

/cosmos/upgrade/v1beta1/current_plan

Example:

curl -X GET "http://localhost:1317/cosmos/upgrade/v1beta1/current_plan" -H "accept: application/json"

Example Output:

{
  "plan": "v2.1-upgrade"
}
Module versions

ModuleVersions queries the list of module versions from state.

/cosmos/upgrade/v1beta1/module_versions

Example:

curl -X GET "http://localhost:1317/cosmos/upgrade/v1beta1/module_versions" -H "accept: application/json"

Example Output:

{
  "module_versions": [
    {
      "name": "auth",
      "version": "2"
    },
    {
      "name": "authz",
      "version": "1"
    },
    {
      "name": "bank",
      "version": "2"
    },
    {
      "name": "capability",
      "version": "1"
    },
    {
      "name": "crisis",
      "version": "1"
    },
    {
      "name": "distribution",
      "version": "2"
    },
    {
      "name": "evidence",
      "version": "1"
    },
    {
      "name": "feegrant",
      "version": "1"
    },
    {
      "name": "genutil",
      "version": "1"
    },
    {
      "name": "gov",
      "version": "2"
    },
    {
      "name": "ibc",
      "version": "2"
    },
    {
      "name": "mint",
      "version": "1"
    },
    {
      "name": "params",
      "version": "1"
    },
    {
      "name": "slashing",
      "version": "2"
    },
    {
      "name": "staking",
      "version": "2"
    },
    {
      "name": "transfer",
      "version": "1"
    },
    {
      "name": "upgrade",
      "version": "1"
    },
    {
      "name": "vesting",
      "version": "1"
    }
  ]
}

gRPC

A user can query the upgrade module using gRPC endpoints.

Applied Plan

AppliedPlan queries a previously applied upgrade plan by its name.

cosmos.upgrade.v1beta1.Query/AppliedPlan

Example:

grpcurl -plaintext \
    -d '{"name":"v2.0-upgrade"}' \
    localhost:9090 \
    cosmos.upgrade.v1beta1.Query/AppliedPlan

Example Output:

{
  "height": "30"
}
Current Plan

CurrentPlan queries the current upgrade plan.

cosmos.upgrade.v1beta1.Query/CurrentPlan

Example:

grpcurl -plaintext localhost:9090 cosmos.slashing.v1beta1.Query/CurrentPlan

Example Output:

{
  "plan": "v2.1-upgrade"
}
Module versions

ModuleVersions queries the list of module versions from state.

cosmos.upgrade.v1beta1.Query/ModuleVersions

Example:

grpcurl -plaintext localhost:9090 cosmos.slashing.v1beta1.Query/ModuleVersions

Example Output:

{
  "module_versions": [
    {
      "name": "auth",
      "version": "2"
    },
    {
      "name": "authz",
      "version": "1"
    },
    {
      "name": "bank",
      "version": "2"
    },
    {
      "name": "capability",
      "version": "1"
    },
    {
      "name": "crisis",
      "version": "1"
    },
    {
      "name": "distribution",
      "version": "2"
    },
    {
      "name": "evidence",
      "version": "1"
    },
    {
      "name": "feegrant",
      "version": "1"
    },
    {
      "name": "genutil",
      "version": "1"
    },
    {
      "name": "gov",
      "version": "2"
    },
    {
      "name": "ibc",
      "version": "2"
    },
    {
      "name": "mint",
      "version": "1"
    },
    {
      "name": "params",
      "version": "1"
    },
    {
      "name": "slashing",
      "version": "2"
    },
    {
      "name": "staking",
      "version": "2"
    },
    {
      "name": "transfer",
      "version": "1"
    },
    {
      "name": "upgrade",
      "version": "1"
    },
    {
      "name": "vesting",
      "version": "1"
    }
  ]
}

Resources

A list of (external) resources to learn more about the x/upgrade module.

Documentation

Overview

Package upgrade provides a Cosmos SDK module that can be used for smoothly upgrading a live Cosmos chain to a new software version. It accomplishes this by providing a BeginBlocker hook that prevents the blockchain state machine from proceeding once a pre-defined upgrade block height has been reached. The module does not prescribe anything regarding how governance decides to do an upgrade, but just the mechanism for coordinating the upgrade safely. Without software support for upgrades, upgrading a live chain is risky because all of the validators need to pause their state machines at exactly the same point in the process. If this is not done correctly, there can be state inconsistencies which are hard to recover from.

General Workflow

Let's assume we are running v0.38.0 of our software in our testnet and want to upgrade to v0.40.0. How would this look in practice? First of all, we want to finalize the v0.40.0 release candidate and there install a specially named upgrade handler (eg. "testnet-v2" or even "v0.40.0"). An upgrade handler should be defined in a new version of the software to define what migrations to run to migrate from the older version of the software. Naturally, this is app-specific rather than module specific, and must be defined in `app.go`, even if it imports logic from various modules to perform the actions. You can register them with `upgradeKeeper.SetUpgradeHandler` during the app initialization (before starting the abci server), and they serve not only to perform a migration, but also to identify if this is the old or new version (eg. presence of a handler registered for the named upgrade).

Once the release candidate along with an appropriate upgrade handler is frozen, we can have a governance vote to approve this upgrade at some future block height (e.g. 200000). This is known as an upgrade.Plan. The v0.38.0 code will not know of this handler, but will continue to run until block 200000, when the plan kicks in at BeginBlock. It will check for existence of the handler, and finding it missing, know that it is running the obsolete software, and gracefully exit.

Generally the application binary will restart on exit, but then will execute this BeginBlocker again and exit, causing a restart loop. Either the operator can manually install the new software, or you can make use of an external watcher daemon to possibly download and then switch binaries, also potentially doing a backup. An example of such a daemon is https://github.com/cosmos/cosmos-sdk/tree/main/cosmovisor described below under "Automation".

When the binary restarts with the upgraded version (here v0.40.0), it will detect we have registered the "testnet-v2" upgrade handler in the code, and realize it is the new version. It then will run the upgrade handler and *migrate the database in-place*. Once finished, it marks the upgrade as done, and continues processing the rest of the block as normal. Once 2/3 of the voting power has upgraded, the blockchain will immediately resume the consensus mechanism. If the majority of operators add a custom `do-upgrade` script, this should be a matter of minutes and not even require them to be awake at that time.

Integrating With An App

Setup an upgrade Keeper for the app and then define a BeginBlocker that calls the upgrade keeper's BeginBlocker method:

func (app *myApp) BeginBlocker(ctx sdk.Context, req abci.RequestBeginBlock) abci.ResponseBeginBlock {
	app.upgradeKeeper.BeginBlocker(ctx, req)
	return abci.ResponseBeginBlock{}
}

The app must then integrate the upgrade keeper with its governance module as appropriate. The governance module should call ScheduleUpgrade to schedule an upgrade and ClearUpgradePlan to cancel a pending upgrade.

Performing Upgrades

Upgrades can be scheduled at a predefined block height. Once this block height is reached, the existing software will cease to process ABCI messages and a new version with code that handles the upgrade must be deployed. All upgrades are coordinated by a unique upgrade name that cannot be reused on the same blockchain. In order for the upgrade module to know that the upgrade has been safely applied, a handler with the name of the upgrade must be installed. Here is an example handler for an upgrade named "my-fancy-upgrade":

app.upgradeKeeper.SetUpgradeHandler("my-fancy-upgrade", func(ctx sdk.Context, plan upgrade.Plan) {
	// Perform any migrations of the state store needed for this upgrade
})

This upgrade handler performs the dual function of alerting the upgrade module that the named upgrade has been applied, as well as providing the opportunity for the upgraded software to perform any necessary state migrations. Both the halt (with the old binary) and applying the migration (with the new binary) are enforced in the state machine. Actually switching the binaries is an ops task and not handled inside the sdk / abci app.

Here is a sample code to set store migrations with an upgrade:

// this configures a no-op upgrade handler for the "my-fancy-upgrade" upgrade
app.UpgradeKeeper.SetUpgradeHandler("my-fancy-upgrade",  func(ctx sdk.Context, plan upgrade.Plan) {
	// upgrade changes here
})

upgradeInfo, err := app.UpgradeKeeper.ReadUpgradeInfoFromDisk()
if err != nil {
	// handle error
}

if upgradeInfo.Name == "my-fancy-upgrade" && !app.UpgradeKeeper.IsSkipHeight(upgradeInfo.Height) {
	storeUpgrades := store.StoreUpgrades{
		Renamed: []store.StoreRename{{
			OldKey: "foo",
			NewKey: "bar",
		}},
		Deleted: []string{},
	}

	// configure store loader that checks if version == upgradeHeight and applies store upgrades
	app.SetStoreLoader(upgrade.UpgradeStoreLoader(upgradeInfo.Height, &storeUpgrades))
}

Halt Behavior

Before halting the ABCI state machine in the BeginBlocker method, the upgrade module will log an error that looks like:

UPGRADE "<Name>" NEEDED at height <NNNN>: <Info>

where Name are Info are the values of the respective fields on the upgrade Plan.

To perform the actual halt of the blockchain, the upgrade keeper simply panics which prevents the ABCI state machine from proceeding but doesn't actually exit the process. Exiting the process can cause issues for other nodes that start to lose connectivity with the exiting nodes, thus this module prefers to just halt but not exit.

Automation and Plan.Info

We have deprecated calling out to scripts, instead with propose https://github.com/cosmos/cosmos-sdk/tree/main/cosmovisor as a model for a watcher daemon that can launch simd as a subprocess and then read the upgrade log message to swap binaries as needed. You can pass in information into Plan.Info according to the format specified here https://github.com/cosmos/cosmos-sdk/tree/main/cosmovisor/README.md#auto-download . This will allow a properly configured cosmsod daemon to auto-download new binaries and auto-upgrade. As noted there, this is intended more for full nodes than validators.

Cancelling Upgrades

There are two ways to cancel a planned upgrade - with on-chain governance or off-chain social consensus. For the first one, there is a CancelSoftwareUpgrade proposal type, which can be voted on and will remove the scheduled upgrade plan. Of course this requires that the upgrade was known to be a bad idea well before the upgrade itself, to allow time for a vote. If you want to allow such a possibility, you should set the upgrade height to be 2 * (votingperiod + depositperiod) + (safety delta) from the beginning of the first upgrade proposal. Safety delta is the time available from the success of an upgrade proposal and the realization it was a bad idea (due to external testing). You can also start a CancelSoftwareUpgrade proposal while the original SoftwareUpgrade proposal is still being voted upon, as long as the voting period ends after the SoftwareUpgrade proposal.

However, let's assume that we don't realize the upgrade has a bug until shortly before it will occur (or while we try it out - hitting some panic in the migration). It would seem the blockchain is stuck, but we need to allow an escape for social consensus to overrule the planned upgrade. To do so, there's a --unsafe-skip-upgrades flag to the start command, which will cause the node to mark the upgrade as done upon hitting the planned upgrade height(s), without halting and without actually performing a migration. If over two-thirds run their nodes with this flag on the old binary, it will allow the chain to continue through the upgrade with a manual override. (This must be well-documented for anyone syncing from genesis later on).

Example:

simd start --unsafe-skip-upgrades <height1> <optional_height_2> ... <optional_height_N>

NOTE: Here simd is used as an example binary, replace it with original binary

Index

Constants

This section is empty.

Variables

This section is empty.

Functions

func BeginBlocker

func BeginBlocker(k *keeper.Keeper, ctx sdk.Context, _ abci.RequestBeginBlock)

BeginBlock will check if there is a scheduled plan and if it is ready to be executed. If the current height is in the provided set of heights to skip, it will skip and clear the upgrade plan. If it is ready, it will execute it if the handler is installed, and panic/abort otherwise. If the plan is not ready, it will ensure the handler is not registered too early (and abort otherwise).

The purpose is to ensure the binary is switched EXACTLY at the desired block, and to allow a migration to be executed if needed upon this switch (migration defined in the new binary) skipUpgradeHeightArray is a set of block heights for which the upgrade must be skipped

func BuildUpgradeNeededMsg added in v0.40.0

func BuildUpgradeNeededMsg(plan types.Plan) string

BuildUpgradeNeededMsg prints the message that notifies that an upgrade is needed.

func NewSoftwareUpgradeProposalHandler

func NewSoftwareUpgradeProposalHandler(k *keeper.Keeper) govtypes.Handler

NewSoftwareUpgradeProposalHandler creates a governance handler to manage new proposal types. It enables SoftwareUpgradeProposal to propose an Upgrade, and CancelSoftwareUpgradeProposal to abort a previously voted upgrade.

func PopulateVersionMap added in v0.47.0

func PopulateVersionMap(upgradeKeeper *keeper.Keeper, modules map[string]appmodule.AppModule)

Types

type AppModule

type AppModule struct {
	AppModuleBasic
	// contains filtered or unexported fields
}

AppModule implements the sdk.AppModule interface

func NewAppModule

func NewAppModule(keeper *keeper.Keeper) AppModule

NewAppModule creates a new AppModule object

func (AppModule) BeginBlock

func (am AppModule) BeginBlock(ctx sdk.Context, req abci.RequestBeginBlock)

BeginBlock calls the upgrade module hooks

CONTRACT: this is registered in BeginBlocker *before* all other modules' BeginBlock functions

func (AppModule) ConsensusVersion added in v0.43.0

func (AppModule) ConsensusVersion() uint64

ConsensusVersion implements AppModule/ConsensusVersion.

func (AppModule) ExportGenesis

func (am AppModule) ExportGenesis(_ sdk.Context, cdc codec.JSONCodec) json.RawMessage

ExportGenesis is always empty, as InitGenesis does nothing either

func (AppModule) InitGenesis

func (am AppModule) InitGenesis(ctx sdk.Context, _ codec.JSONCodec, _ json.RawMessage) []abci.ValidatorUpdate

InitGenesis is ignored, no sense in serializing future upgrades

func (AppModule) IsAppModule added in v0.47.0

func (am AppModule) IsAppModule()

IsAppModule implements the appmodule.AppModule interface.

func (AppModule) IsOnePerModuleType added in v0.47.0

func (am AppModule) IsOnePerModuleType()

IsOnePerModuleType implements the depinject.OnePerModuleType interface.

func (AppModule) RegisterInvariants

func (AppModule) RegisterInvariants(_ sdk.InvariantRegistry)

RegisterInvariants does nothing, there are no invariants to enforce

func (AppModule) RegisterServices added in v0.40.0

func (am AppModule) RegisterServices(cfg module.Configurator)

RegisterServices registers module services.

type AppModuleBasic

type AppModuleBasic struct{}

AppModuleBasic implements the sdk.AppModuleBasic interface

func (AppModuleBasic) DefaultGenesis

func (AppModuleBasic) DefaultGenesis(_ codec.JSONCodec) json.RawMessage

DefaultGenesis is an empty object

func (AppModuleBasic) GetQueryCmd

func (AppModuleBasic) GetQueryCmd() *cobra.Command

GetQueryCmd returns the CLI query commands for this module

func (AppModuleBasic) GetTxCmd

func (AppModuleBasic) GetTxCmd() *cobra.Command

GetTxCmd returns the CLI transaction commands for this module

func (AppModuleBasic) Name

func (AppModuleBasic) Name() string

Name returns the ModuleName

func (AppModuleBasic) RegisterGRPCGatewayRoutes added in v0.40.0

func (AppModuleBasic) RegisterGRPCGatewayRoutes(clientCtx client.Context, mux *gwruntime.ServeMux)

RegisterGRPCGatewayRoutes registers the gRPC Gateway routes for the upgrade module.

func (AppModuleBasic) RegisterInterfaces added in v0.40.0

func (b AppModuleBasic) RegisterInterfaces(registry codectypes.InterfaceRegistry)

RegisterInterfaces registers interfaces and implementations of the upgrade module.

func (AppModuleBasic) RegisterLegacyAminoCodec added in v0.40.0

func (AppModuleBasic) RegisterLegacyAminoCodec(cdc *codec.LegacyAmino)

RegisterLegacyAminoCodec registers the upgrade types on the LegacyAmino codec

func (AppModuleBasic) ValidateGenesis

func (AppModuleBasic) ValidateGenesis(_ codec.JSONCodec, config client.TxEncodingConfig, _ json.RawMessage) error

ValidateGenesis is always successful, as we ignore the value

type UpgradeInputs added in v0.47.0

type UpgradeInputs struct {
	depinject.In

	Config *modulev1.Module
	Key    *store.KVStoreKey
	Cdc    codec.Codec

	AppOpts servertypes.AppOptions `optional:"true"`
}

type UpgradeOutputs added in v0.47.0

type UpgradeOutputs struct {
	depinject.Out

	UpgradeKeeper *keeper.Keeper
	Module        appmodule.AppModule
	GovHandler    govv1beta1.HandlerRoute
	BaseAppOption runtime.BaseAppOption
}

func ProvideModule added in v0.47.0

func ProvideModule(in UpgradeInputs) UpgradeOutputs

Directories

Path Synopsis
cli
Package types is a reverse proxy.
Package types is a reverse proxy.

Jump to

Keyboard shortcuts

? : This menu
/ : Search site
f or F : Jump to
y or Y : Canonical URL