Documentation
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Index ¶
- Variables
- func GenerateProofDB(proof []string) (*proofDB, error)
- func ParseMessagePassed(receipt *types.Receipt) (*bindings.L2ToL1MessagePasserMessagePassed, error)
- func StorageSlotOfWithdrawalHash(hash common.Hash) common.Hash
- func VerifyAccountProof(root common.Hash, address common.Address, account types.StateAccount, ...) error
- func VerifyProof(stateRoot common.Hash, proof *gethclient.AccountResult) error
- func VerifyStorageProof(root common.Hash, proof gethclient.StorageResult) error
- func WithdrawalHash(ev *bindings.L2ToL1MessagePasserMessagePassed) (common.Hash, error)
- type ProofClient
- type ProvenWithdrawalParameters
- type ReceiptClient
Constants ¶
This section is empty.
Variables ¶
var (
Uint256Type, _ = abi.NewType("uint256", "", nil)
BytesType, _ = abi.NewType("bytes", "", nil)
AddressType, _ = abi.NewType("address", "", nil)
)
Standard ABI types copied from golang ABI tests
var MessagePassedTopic = crypto.Keccak256Hash([]byte("MessagePassed(uint256,address,address,uint256,uint256,bytes,bytes32)"))
Functions ¶
func GenerateProofDB ¶
func ParseMessagePassed ¶
func ParseMessagePassed(receipt *types.Receipt) (*bindings.L2ToL1MessagePasserMessagePassed, error)
ParseMessagePassed parses MessagePassed events from a transaction receipt. It does not support multiple withdrawals per receipt.
func StorageSlotOfWithdrawalHash ¶
StorageSlotOfWithdrawalHash determines the storage slot of the L2ToL1MessagePasser contract to look at given a WithdrawalHash
func VerifyAccountProof ¶
func VerifyProof ¶
func VerifyProof(stateRoot common.Hash, proof *gethclient.AccountResult) error
func VerifyStorageProof ¶
func VerifyStorageProof(root common.Hash, proof gethclient.StorageResult) error
func WithdrawalHash ¶
func WithdrawalHash(ev *bindings.L2ToL1MessagePasserMessagePassed) (common.Hash, error)
WithdrawalHash computes the hash of the withdrawal that was stored in the L2toL1MessagePasser contract state. TODO:
- I don't like having to use the ABI Generated struct
- There should be a better way to run the ABI encoding
- These needs to be fuzzed against the solidity
Types ¶
type ProofClient ¶
type ProofClient interface {
GetProof(context.Context, common.Address, []string, *big.Int) (*gethclient.AccountResult, error)
}
type ProvenWithdrawalParameters ¶
type ProvenWithdrawalParameters struct {
Nonce *big.Int
Sender common.Address
Target common.Address
Value *big.Int
GasLimit *big.Int
L2OutputIndex *big.Int
Data []byte
OutputRootProof bindings.TypesOutputRootProof
WithdrawalProof [][]byte // List of trie nodes to prove L2 storage
}
ProvenWithdrawalParameters is the set of parameters to pass to the ProveWithdrawalTransaction and FinalizeWithdrawalTransaction functions
func ProveWithdrawalParameters ¶
func ProveWithdrawalParameters( ctx context.Context, version [32]byte, proofCl ProofClient, l2ReceiptCl ReceiptClient, txHash common.Hash, header *types.Header, nextHeader *types.Header, l2OutputOracleContract *bindings.L2OutputOracleCaller, ) (ProvenWithdrawalParameters, error)
ProveWithdrawalParameters queries L1 & L2 to generate all withdrawal parameters and proof necessary to prove a withdrawal on L1. The header provided is very important. It should be a block (timestamp) for which there is a submitted output in the L2 Output Oracle contract. If not, the withdrawal will fail as it the storage proof cannot be verified if there is no submitted state root.
Source Files