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State

This doc lists all the data Peggy module reads/writes to its state as KV pairs

Module Params

Params is a module-wide configuration structure that stores parameters and defines overall functioning of the peggy module. Detailed specification for each parameter can be found in the Parameters section.
keyValueTypeEncoding
[]byte{0x4}Module paramstypes.ParamsProtobuf encoded

Validator Info

Ethereum Address by Validator

Stores Delegate Ethereum address indexed by the Validator’s account address
keyValueTypeEncoding
[]byte{0x1} + []byte(validatorAddr)Ethereum addresscommon.AddressProtobuf encoded

Validator by Ethereum Address

Stores Validator account address indexed by the Delegate Ethereum address
keyValueTypeEncoding
[]byte{0xfb} + []byte(ethAddress)Validator addresssdk.ValAddressProtobuf encoded

OrchestratorValidator

When a validator would like to delegate their voting power to another key. The value is stored using the orchestrator address as the key
KeyValueTypeEncoding
[]byte{0xe8} + []byte(AccAddress)Orchestrator address assigned by a validator[]byteProtobuf encoded

Valset

This is the validator set of the bridge. Created automatically by Peggy module during EndBlocker. Stored in two possible ways, first with a height and second without (unsafe). Unsafe is used for testing and export and import of state. 
type Valset struct {
	Nonce        uint64                               
	Members      []*BridgeValidator                   
	Height       uint64                               
	RewardAmount math.Int 
	RewardToken string
}
keyValueTypeEncoding
[]byte{0x2} + nonce (big endian encoded)Validator settypes.ValsetProtobuf encoded

SlashedValsetNonce

The latest validator set slash nonce. This is used to track which validator set needs to be slashed and which already has been.
KeyValueTypeEncoding
[]byte{0xf5}Nonceuint64encoded via big endian

ValsetNonce

Nonce of the latest validator set. Updated on each new validator set.
keyValueTypeEncoding
[]byte{0xf6}Nonceuint64encoded via big endian

Valset Confirmation

Singer confirmation for a particular validator set. See oracle messages
KeyValueTypeEncoding
[]byte{0x3} + (nonce + []byte(AccAddress)Validator Confirmationtypes.MsgValsetConfirmProtobuf encoded

Batch Confirmation

Singer confirmation for a particular token batch. See oracle messages
KeyValueTypeEncoding
[]byte{0xe1} + []byte(tokenContract) + nonce + []byte(AccAddress)Validator Batch Confirmationtypes.MsgConfirmBatchProtobuf encoded

OutgoingTransferTx

User withdrawals are pooled together in Peggy Tx Pool ready to be batched later by a Batch Creator. Each withdrawal is indexed by a unique nonce set by the Peggy module when the withdrawal was received. 
type OutgoingTransferTx struct {
	Id          uint64     
	Sender      string     
	DestAddress string     
	Erc20Token  *ERC20Token 
	Erc20Fee    *ERC20Token 
}
KeyValueTypeEncoding
[]byte{0x7} + []byte("lastTxPoolId")nonce of outgoing withdrawaluint64Big endian encoded

LastTXPoolID

Monotonically increasing value for each withdrawal received by Injective
KeyValueTypeEncoding
[]byte{0x6} + []byte("lastTxPoolId")Last used withdrawal IDuint64Big endian encoded

OutgoingTxBatch

OutgoingTxBatch represents a collection of withdrawals of the same token type. Created on every successful MsgRequestBatch. Stored in two possible ways, first with a height and second without (unsafe). Unsafe is used for testing and export and import of state. Currently Peggy.sol is hardcoded to only accept batches with a single token type and only pay rewards in that same token type. 
type OutgoingTxBatch struct {
	BatchNonce    uint64               
	BatchTimeout  uint64               
	Transactions  []*OutgoingTransferTx 
	TokenContract string                
	Block         uint64               
}
keyValueTypeEncoding
[]byte{0xa} + []byte(tokenContract) + nonce (big endian encoded)A batch of outgoing transactionstypes.OutgoingTxBatchProtobuf encoded
[]byte{0xb} + block (big endian encoded)A batch of outgoing transactionstypes.OutgoingTxBatchProtobuf encoded

LastOutgoingBatchID

Monotonically increasing value for each batch created on Injective by some Batch Creator
KeyValueTypeEncoding
[]byte{0x7} + []byte("lastBatchId")Last used batch IDuint64Big endian encoded

SlashedBlockHeight

Represents the latest slashed block height. There is always only a singe value stored.
KeyValueTypeEncoding
[]byte{0xf7}Latest height a batch slashing occurreduint64Big endian encoded

LastUnbondingBlockHeight

Represents the latest bloch height at which a Validator started unbonding from the Validator Set. Used to determine slashing conditions.
KeyValueTypeEncoding
[]byte{0xf8}Latest height at which a Validator started unbondinguint64Big endian encoded

TokenContract & Denom

A denom that is originally from a counter chain will be from a contract. The token contract and denom are stored in two ways. First, the denom is used as the key and the value is the token contract. Second, the contract is used as the key, the value is the denom the token contract represents.
KeyValueTypeEncoding
[]byte{0xf3} + []byte(denom)Token contract address[]bytestored in byte format
[]byte{0xf4} + []byte(tokenContract)Token denom[]bytestored in byte format

LastObservedValset

This entry represents the last observed Valset that was successfully relayed to Ethereum. Updates after an attestation of ValsetUpdatedEvent has been processed on Injective.
KeyValueTypeEncoding
[]byte{0xfa}Last observed Valset on Ethereumtypes.ValsetProtobuf encoded

LastEventNonce

The nonce of the last observed event on Ethereum. This is set when TryAttestation() is called. There is always only a single value held in this store.
KeyValueTypeEncoding
[]byte{0xf2}Last observed event nonceuint64Big endian encoded

LastObservedEthereumHeight

This block height of the last observed event on Ethereum. There will always only be a single value stored in this store.
KeyValueTypeEncoding
[]byte{0xf9}Last observed Ethereum Heightuint64Protobuf encoded

LastEventByValidator

This is the last observed event on Ethereum from a particular Validator. Updated every time the asssociated Orchestrator sends an event claim. 
type LastClaimEvent struct {
    EthereumEventNonce  uint64 
    EthereumEventHeight uint64 
}
KeyValueTypeEncoding
[]byte{0xf1} + []byte(validator address)Last observed event by some Validatortypes.LastClaimEventProtobuf encoded

Attestation

Attestation is an aggregate of claims that eventually becomes observed by all orchestrators as more votes (claims) are coming in. Once observed the claim’s particular logic gets executed. Each attestation is bound to a unique event nonce (generated by Peggy contract) and they must be processed in order. This is a correctness issue, if relaying out of order transaction replay attacks become possible. 
type Attestation struct {
	Observed bool       
	Votes    []string   
	Height   uint64     
	Claim    *types.Any 
}
KeyValueTypeEncoding
[]byte{0x5} + event nonce (big endian encoded) + []byte(claimHash)Attestation of occurred events/claimstypes.AttestationProtobuf encoded

PastEthSignatureCheckpoint

A computed hash indicating that a validator set/token batch in fact existed on Injective. This checkpoint also exists in Peggy contract. Updated on each new valset update and token batch creation.
KeyValueTypeEncoding
[]byte{0x1b}Last created checkpoint hash on Injectivegethcommon.Hashstore in byte format

EthereumBlacklist

A list of known malicious Ethereum addresses that are prevented from using the bridge.
KeyValueTypeEncoding
[]byte{0x1c} + []byte(ethereum address)Empty []byte slicegethcommon.Hashstored in byte format]