plans

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Published: May 2, 2024 License: Apache-2.0 Imports: 26 Imported by: 0

README

x/plans

Abstract

This document specifies the plans module of Lava Protocol.

The plans module is responsible for managing Lava's subscription plans and handling government proposals for adding new ones. When a consumer wants to use Lava, they need to purchase a subscription. Each subscription is associated with a specific plan that sets certain limitations. The plan determines the base limitations of the subscription, such as compute unit (CU) limitations and the maximum number of providers that can be paired in each pairing session, among other things.

Note that the plans module is closely connected to the subscription and projects modules. To fully understand how subscriptions, plans, and projects work together, please also refer to their respective READMEs.

This document focuses on the plans' technical aspects and does not include current subscription plans and prices. For more information on those, please visit Lava's official website.

Contents

Concepts

Plan

A plan consists of limitations that are associated with a subscription. A consumer can only use Lava when they purchase a subscription that is subject to the limitations set by the plan. A plan is defined as follows:

type Plan struct {
    Index                     string    // plan unique index
    Block                     uint64    // the epoch that this plan was created
    Price                     Coin      // plan price (in ulava)
    AllowOveruse              bool      // allow CU overuse flag
    OveruseRate               uint64    // price of CU overuse (higher price per CU)
    Description               string    // plan description (for humans)
    Type                      string    // plan type (currently unused)
    AnnualDiscountPercentage  uint64    // discount for buying a yearly plan (percentage)
    PlanPolicy                Policy    // plan's policy
    ProjectsLimit             uint64    // number of allowed projects
    AllowedBuyers             []string  // list of addresses that are allowed to buy the plan (empty list -> everyone is allowed)
}

Note, the Coin type is from Cosmos-SDK (cosmos.base.v1beta1.Coin).

The plan's limitations mostly lie in its policy. As mentioned above, the plan has other fields like its unique index, price, and more. The plan's “overuse” related fields refers to a scenario where the subscription exceeds the CU limit set by the plan policy. In such cases, if CU overuse is permitted, the price of CU is higher than normal.

Policy

A policy consists of a set of limitations that apply to a plan, a subscription, or a specific project. Each project opened using a consumer's subscription is subject to the effective policy derived from the plan policy, subscription policy, and project policy. The effective policy is calculated by selecting the strictest limitation from each policy. Overall, the policy affects the pairing between the project and providers and limits the CU that can be used by the consumer.

A policy is defined as follows:

type Policy struct {
	ChainPolicies          []ChainPolicy            // list of policies per chain
	GeolocationProfile     int32                    // allowed geolocations
	TotalCuLimit           uint64                   // CU usage limit per month
	EpochCuLimit           uint64                   // CU usage limit per epoch
	MaxProvidersToPair     uint64                   // max number of providers to pair
	SelectedProvidersMode  SELECTED_PROVIDERS_MODE  // selected providers mode
	SelectedProviders      []string                 // allow list of selected providers
}

See below for more information regarding chain policies, geolocation and selected providers.

A plan will always have a policy, but this is not always the case for subscription or project policies, which can be nil. A plan's policy can only be changed through a government proposal to add a new plan. As for subscription and project policies, they can be modified using transactions defined in the projects module.

Chain Policy

A chain policy consists limitations that can be imposed on specific chains (like list of allowed APIs, requirement for advanced APIs, etc.). If a certain chain is not shown in the policy's array of chain policeis, it's regarded as not allowed by the policy (i.e. the consumer won't be able to send relays to this chain).

A chain policy is defined as follows:

type ChainPolicy struct {
	ChainId       string              // chain's unique index        
	Apis          []string            // allowed APIs
	Requirements  []ChainRequirement 
}

A chain requirement is defined as follows:

type ChainRequirement struct {
	Collection  types.CollectionData
	Extensions  []string             
	Mixed       bool                 
}

The Extensions field is intended to enable the use of certain APIs to obtain different responses (for a modified price). Currently, the only implemented extension is the archive extension, which allows consumers to make archived RPC calls to retrieve data from blocks that are not stored in the chain's memory. If a regular call is made for a block that is not in the chain's memory, an error will occur. In the future, the compliance extension will be implemented to enable the rejection of specific APIs.

The Mixed field is designed to enable a combination of regular and extension/addon supporting providers. For instance, if the archive extension is defined but the Mixed field is set to false, the consumer's project will only be paired with providers that support the specified extensions and addons. On the other hand, if the Mixed field is set to true, the consumer's project will also be paired with providers that don't fully support the extenstion/addons.

For more details on CollectionData object, see the spec module's README.

Geolocation

Geolocation profile allows consumers to get paired with providers that support these geolocations, ultimately optimizing latency and improving the quality of service for end-users. The geolocations are defined as a bitmap so the int32 field in the policy can represent multiple geolocations.

The geolocations are defined as follows:

enum Geolocation {
	"GLS" = 0      // Global strict
	"USC" = 1      // US center
	"EU"  = 2      // Europe
	"USE" = 4      // US east
	"USW" = 8      // US west
	"AF"  = 16     // Africa
	"AS"  = 32     // Asia
	"AU"  = 64     // Australia
	"GL"  = 65535  // Global
}

The GLS geolocation means that the policy is global and not configurable.

Selected Providers

The selected providers feature enables consumers to pre-select providers they prefer for their pairing list by implementing an allow-list within the project policy. There several modes that determine this feature's behaviour:

enum SELECTED_PROVIDERS_MODE {
    ALLOWED = 0    // no providers restrictions (feature is enabled but no restrictions)
    MIXED = 1      // use the selected providers mixed with randomly chosen providers
    EXCLUSIVE = 2  // use only the selected providers
    DISABLED = 3   // selected providers feature is disabled
}

In the policy the user can define the desired mode and the selected providers allow-list.

Parameters

The plans module does not contain parameters.

Queries

The plans module supports the following queries:

Query Arguments What it does
info index (string) shows a plan's info by index
list none show the info for all plans (latest version)
params none shows the module's parameters

Transactions

The plans module does not support any transactions.

Proposals

The plans module supports the following proposals: plans-add and plans-del. To send a proposal and vote use the following commands:

lavad tx gov submit-legacy-proposal plans-add <proposal_json_1>,<proposal_json_2> --from alice <gas-flags>
lavad tx gov vote <latest_proposal_id> yes --from alice <gas-flags>

OR

lavad tx gov submit-legacy-proposal plans-del <proposal_json_1>,<proposal_json_2> --from alice <gas-flags>
lavad tx gov vote <latest_proposal_id> yes --from alice <gas-flags>

A valid plans-add JSON proposal format:

{
    "proposal": {
        "title": "Add temporary to-delete plan proposal",
        "description": "A proposal of a temporary to-delete plan",
        "plans": [
            {
                "index": "to_delete_plan",
                "description": "This plan has no restrictions",
                "type": "rpc",
                "price": {
                    "denom": "ulava",
                    "amount": "100000"
                },
                "annual_discount_percentage": 20,
                "allow_overuse": true,
                "overuse_rate": 2,
                "plan_policy": {
                    "chain_policies": [
                        {
                            "chain_id": "LAV1",
                            "apis": [
                            ]
                        },
                        {
                            "chain_id": "ETH1",
                            "apis": [
                                "eth_blockNumber",
                                "eth_accounts"
                            ]
                        }
                    ],
                    "geolocation_profile": "AU",
                    "total_cu_limit": 1000000,
                    "epoch_cu_limit": 100000,
                    "max_providers_to_pair": 3,
                    "selected_providers_mode": "MIXED",
                    "selected_providers": [
                        "lava@1wvn4slrf2r7cm92fnqdhvl3x470944uev92squ"
                    ]
                }
            }
        ]
    },
    "deposit": "10000000ulava"
}

A valid plans-del JSON proposal format:

{
    "proposal": {
        "title": "Delete temporary (to-delete) plan proposal",
        "description": "A proposal to delete temporary (to-delete) plan",
        "plans": [
            "to_delete_plan"
        ]
    },
    "deposit": "10000000ulava"
}

Events

The plans module has the following events:

Event When it happens
add_new_plan_to_storage a successful addition of a plan
del_plan_from_storage a successful deletion of a plan

Documentation

Index

Constants

This section is empty.

Variables

This section is empty.

Functions

func ExportGenesis

func ExportGenesis(ctx sdk.Context, k keeper.Keeper) *types.GenesisState

ExportGenesis returns the capability module's exported genesis.

func InitGenesis

func InitGenesis(ctx sdk.Context, k keeper.Keeper, genState types.GenesisState)

InitGenesis initializes the capability module's state from a provided genesis state.

func NewHandler

func NewHandler(k keeper.Keeper) sdk.Handler

NewHandler ...

func NewPlansProposalsHandler

func NewPlansProposalsHandler(k keeper.Keeper) v1beta1.Handler

NewPlanProposalsHandler creates a new governance Handler for a Plan

Types

type AppModule

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

AppModule implements the AppModule interface for the capability module.

func NewAppModule

func NewAppModule(
	cdc codec.Codec,
	keeper keeper.Keeper,
) AppModule

func (AppModule) BeginBlock

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

BeginBlock executes all ABCI BeginBlock logic respective to the capability module.

func (AppModule) ConsensusVersion

func (AppModule) ConsensusVersion() uint64

ConsensusVersion implements ConsensusVersion.

func (AppModule) EndBlock

EndBlock executes all ABCI EndBlock logic respective to the capability module. It returns no validator updates.

func (AppModule) ExportGenesis

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

ExportGenesis returns the capability module's exported genesis state as raw JSON bytes.

func (AppModule) GenerateGenesisState

func (AppModule) GenerateGenesisState(simState *module.SimulationState)

GenerateGenesisState creates a randomized GenState of the module

func (AppModule) InitGenesis

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

InitGenesis performs the capability module's genesis initialization It returns no validator updates.

func (AppModule) Name

func (am AppModule) Name() string

Name returns the capability module's name.

func (AppModule) ProposalContents

ProposalContents doesn't return any content functions for governance proposals

func (AppModule) RegisterInvariants

func (am AppModule) RegisterInvariants(_ sdk.InvariantRegistry)

RegisterInvariants registers the capability module's invariants.

func (AppModule) RegisterServices

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

RegisterServices registers a GRPC query service to respond to the module-specific GRPC queries. It also registers migration handlers.

func (AppModule) RegisterStoreDecoder

func (am AppModule) RegisterStoreDecoder(_ sdk.StoreDecoderRegistry)

RegisterStoreDecoder registers a decoder

func (AppModule) WeightedOperations

func (am AppModule) WeightedOperations(simState module.SimulationState) []simtypes.WeightedOperation

WeightedOperations returns the all the gov module operations with their respective weights.

type AppModuleBasic

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

AppModuleBasic implements the AppModuleBasic interface for the capability module.

func NewAppModuleBasic

func NewAppModuleBasic(cdc codec.BinaryCodec) AppModuleBasic

func (AppModuleBasic) DefaultGenesis

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

DefaultGenesis returns the capability module's default genesis state.

func (AppModuleBasic) GetQueryCmd

func (AppModuleBasic) GetQueryCmd() *cobra.Command

GetQueryCmd returns the capability module's root query command.

func (AppModuleBasic) GetTxCmd

func (a AppModuleBasic) GetTxCmd() *cobra.Command

GetTxCmd returns the capability module's root tx command.

func (AppModuleBasic) Name

func (AppModuleBasic) Name() string

Name returns the capability module's name.

func (AppModuleBasic) RegisterCodec

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

func (AppModuleBasic) RegisterGRPCGatewayRoutes

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

RegisterGRPCGatewayRoutes registers the gRPC Gateway routes for the module.

func (AppModuleBasic) RegisterInterfaces

func (a AppModuleBasic) RegisterInterfaces(reg cdctypes.InterfaceRegistry)

RegisterInterfaces registers the module's interface types

func (AppModuleBasic) RegisterLegacyAminoCodec

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

func (AppModuleBasic) RegisterRESTRoutes

func (AppModuleBasic) RegisterRESTRoutes(clientCtx client.Context, rtr *mux.Router)

RegisterRESTRoutes registers the capability module's REST service handlers.

func (AppModuleBasic) ValidateGenesis

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

ValidateGenesis performs genesis state validation for the capability module.

Directories

Path Synopsis
cli
migrations
v2
v3
v7
v8
v9
Package types is a reverse proxy.
Package types is a reverse proxy.

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