chain

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Published: Sep 2, 2020 License: MIT Imports: 5 Imported by: 24

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Functions

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Types

type BlockCounter

type BlockCounter interface {
	// WaitForBlockHeight blocks at the caller until the given block height is
	// reached. If the number of blocks is zero or negative or if the given
	// block height has been already reached, it returns immediately.
	WaitForBlockHeight(blockNumber uint64) error

	// BlockHeightWaiter returns a channel that will emit the block number after
	// the given block height is reached and then immediately close.
	// Reading from the returned channel immediately will effectively behave the
	// same way as calling WaitForBlockHeight.
	BlockHeightWaiter(blockNumber uint64) (<-chan uint64, error)

	// CurrentBlock returns the current block height.
	CurrentBlock() (uint64, error)

	// WatchBlocks returns a channel that will emit new block numbers as they
	// are mined. When the context provided as the parameter ends, new blocks
	// are no longer pushed to the channel and the channel is closed. If there
	// is no reader for the channel or reader is too slow, block updates can be
	// dropped.
	WatchBlocks(ctx context.Context) <-chan uint64
}

BlockCounter is an interface that provides the ability to wait for a certain number of abstract blocks or watch as they are mined. Block height is expected to increase monotonically, though the time between blocks depends on the underlying implementation.

type Handle

type Handle interface {
	BlockCounter() (BlockCounter, error)
	StakeMonitor() (StakeMonitor, error)
	ThresholdRelay() relaychain.Interface
	Signing() Signing
}

Handle represents a handle to a blockchain that provides access to the core operator functionality needed for Keep network interactions.

type Signing

type Signing interface {
	// PublicKey returns operator's public key in a serialized format.
	// The returned public key is used to Sign messages and can be later used
	// for verification.
	PublicKey() []byte

	// Sign the provided message with operator's private key. Returns the
	// signature or error in case signing failed.
	Sign(message []byte) ([]byte, error)

	// Verify the provided message against the signature using operator's
	// public key. Returns true if signature is valid and false otherwise.
	// If signature verification failed for some reason, an error is returned.
	Verify(message []byte, signature []byte) (bool, error)

	// VerifyWithPublicKey verifies the provided message against the signature
	// using the provided operator's public key. Returns true if signature is
	// valid and false otherwise. If signature verification failed for some
	// reason, an error is returned.
	VerifyWithPublicKey(
		message []byte,
		signature []byte,
		publicKey []byte,
	) (bool, error)

	// PublicKeyToAddress converts operator's public key to an address
	// associated with the chain.
	PublicKeyToAddress(publicKey ecdsa.PublicKey) []byte

	// PublicKeyToAddress converts operator's public key bytes to an address
	// associated with the chain.
	PublicKeyBytesToAddress(publicKey []byte) []byte
}

Signing is an interface that provides ability to sign and verify signatures using operator's key associated with the chain.

type StakeMonitor

type StakeMonitor interface {
	// HasMinimumStake checks if the specified account has enough active stake
	// to become network operator and that the operator contract the client is
	// working with has been authorized for potential slashing.
	//
	// Having the required minimum of active stake makes the operator eligible
	// to join the network. If the active stake is not currently undelegating,
	// operator is also eligible for work selection.
	HasMinimumStake(address string) (bool, error)

	// StakerFor returns a Staker for the given address.
	StakerFor(address string) (Staker, error)
}

StakeMonitor is an interface that provides ability to check and monitor the stake for the provided address.

type Staker

type Staker interface {
	// Address returns staker's address
	Address() relaychain.StakerAddress
	// Stake returns the current stake of this staker according to the connected
	// chain state as a promise. If setup of the promise fails, an error is
	// returned.
	Stake() (*big.Int, error)
}

Staker represents a single staker in the system.

type Utility

type Utility interface {
	Handle

	Genesis() error
	RequestRelayEntry() *async.EventEntryGeneratedPromise
}

Utility represents a handle to a blockchain that provides access to certain utility functions for Keep network interactions. Notably, these functions can either be application or operator functionality, and they are generally not part of the day-to-day process of operating a Keep node.

Directories

Path Synopsis
gen
abi
cmd

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