Fix exit table, set delayed_withdrawn in exits
- In exit table, `instant_withdrawn`, `delayed_withdraw_request`, and
`delayed_withdrawn` were referencing batch_num. But these actions happen
outside a batch, so they should reference a block_num.
- Process delayed withdrawns:
- In Synchronizer, first match a Rollup delayed withdrawn request, with the
WDelayer deposit (via TxHash), and store the owner and token associated
with the delayed withdrawn.
- In HistoryDB: store the owner and token of a delayed withdrawal request
in the exit_tree, and set delayed_withdrawn when the withdraw is done in
the WDelayer.
- Update dependency of sqlx to master
- Last release of sqlx is from 2018 October, and it doesn't support
`NamedQuery` with a slice of structs, which is used in this commit.
4 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago Fix exit table, set delayed_withdrawn in exits
- In exit table, `instant_withdrawn`, `delayed_withdraw_request`, and
`delayed_withdrawn` were referencing batch_num. But these actions happen
outside a batch, so they should reference a block_num.
- Process delayed withdrawns:
- In Synchronizer, first match a Rollup delayed withdrawn request, with the
WDelayer deposit (via TxHash), and store the owner and token associated
with the delayed withdrawn.
- In HistoryDB: store the owner and token of a delayed withdrawal request
in the exit_tree, and set delayed_withdrawn when the withdraw is done in
the WDelayer.
- Update dependency of sqlx to master
- Last release of sqlx is from 2018 October, and it doesn't support
`NamedQuery` with a slice of structs, which is used in this commit.
4 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago Fix eth events query and sync inconsistent state
- kvdb
- Fix path in Last when doing `setNew`
- Only close if db != nil, and after closing, always set db to nil
- This will avoid a panic in the case where the db is closed but
there's an error soon after, and a future call tries to close
again. This is because pebble.Close() will panic if the db is
already closed.
- Avoid calling pebble methods when a the Storage interface already
implements that method (like Close).
- statedb
- In test, avoid calling KVDB method if the same method is available for
the StateDB (like MakeCheckpoint, CurrentBatch).
- eth
- In *EventByBlock methods, take blockHash as input argument and use it
when querying the event logs. Previously the blockHash was only taken
from the logs results *only if* there was any log. This caused the
following issue: if there was no logs, it was not possible to know if
the result was from the expected block or an uncle block! By querying
logs by blockHash we make sure that even if there are no logs, they
are from the right block.
- Note that now the function can either be called with a
blockNum or blockHash, but not both at the same time.
- sync
- If there's an error during call to Sync call resetState, which
internally resets the stateDB to avoid stale checkpoints (and a
corresponding invalid increase in the StateDB batchNum).
- During a Sync, after very batch processed, make sure that the StateDB
currentBatch corresponds to the batchNum in the smart contract
log/event.
3 years ago |
|
package eth
import ( "context" "fmt" "math/big" "strings"
"github.com/ethereum/go-ethereum" "github.com/ethereum/go-ethereum/accounts/abi" "github.com/ethereum/go-ethereum/accounts/abi/bind" ethCommon "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/core/types" "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/ethclient" "github.com/hermeznetwork/hermez-node/common" WithdrawalDelayer "github.com/hermeznetwork/hermez-node/eth/contracts/withdrawdelayer" "github.com/hermeznetwork/hermez-node/log" "github.com/hermeznetwork/tracerr" )
// DepositState is the state of Deposit
type DepositState struct { Amount *big.Int DepositTimestamp uint64 }
// WDelayerEventInitialize is the InitializeWithdrawalDelayerEvent event of the
// Smart Contract
type WDelayerEventInitialize struct { InitialWithdrawalDelay uint64 InitialHermezGovernanceAddress ethCommon.Address InitialEmergencyCouncil ethCommon.Address }
// WDelayerVariables returns the WDelayerVariables from the initialize event
func (ei *WDelayerEventInitialize) WDelayerVariables() *common.WDelayerVariables { return &common.WDelayerVariables{ EthBlockNum: 0, HermezGovernanceAddress: ei.InitialHermezGovernanceAddress, EmergencyCouncilAddress: ei.InitialEmergencyCouncil, WithdrawalDelay: ei.InitialWithdrawalDelay, EmergencyModeStartingBlock: 0, EmergencyMode: false, } }
// WDelayerEventDeposit is an event of the WithdrawalDelayer Smart Contract
type WDelayerEventDeposit struct { Owner ethCommon.Address Token ethCommon.Address Amount *big.Int DepositTimestamp uint64 TxHash ethCommon.Hash // Hash of the transaction that generated this event
}
// WDelayerEventWithdraw is an event of the WithdrawalDelayer Smart Contract
type WDelayerEventWithdraw struct { Owner ethCommon.Address Token ethCommon.Address Amount *big.Int }
// WDelayerEventEmergencyModeEnabled an event of the WithdrawalDelayer Smart Contract
type WDelayerEventEmergencyModeEnabled struct { }
// WDelayerEventNewWithdrawalDelay an event of the WithdrawalDelayer Smart Contract
type WDelayerEventNewWithdrawalDelay struct { WithdrawalDelay uint64 }
// WDelayerEventEscapeHatchWithdrawal an event of the WithdrawalDelayer Smart Contract
type WDelayerEventEscapeHatchWithdrawal struct { Who ethCommon.Address To ethCommon.Address Token ethCommon.Address Amount *big.Int }
// WDelayerEventNewEmergencyCouncil an event of the WithdrawalDelayer Smart Contract
type WDelayerEventNewEmergencyCouncil struct { NewEmergencyCouncil ethCommon.Address }
// WDelayerEventNewHermezGovernanceAddress an event of the WithdrawalDelayer Smart Contract
type WDelayerEventNewHermezGovernanceAddress struct { NewHermezGovernanceAddress ethCommon.Address }
// WDelayerEvents is the lis of events in a block of the WithdrawalDelayer Smart Contract
type WDelayerEvents struct { Deposit []WDelayerEventDeposit Withdraw []WDelayerEventWithdraw EmergencyModeEnabled []WDelayerEventEmergencyModeEnabled NewWithdrawalDelay []WDelayerEventNewWithdrawalDelay EscapeHatchWithdrawal []WDelayerEventEscapeHatchWithdrawal NewEmergencyCouncil []WDelayerEventNewEmergencyCouncil NewHermezGovernanceAddress []WDelayerEventNewHermezGovernanceAddress }
// NewWDelayerEvents creates an empty WDelayerEvents with the slices initialized.
func NewWDelayerEvents() WDelayerEvents { return WDelayerEvents{ Deposit: make([]WDelayerEventDeposit, 0), Withdraw: make([]WDelayerEventWithdraw, 0), EmergencyModeEnabled: make([]WDelayerEventEmergencyModeEnabled, 0), NewWithdrawalDelay: make([]WDelayerEventNewWithdrawalDelay, 0), EscapeHatchWithdrawal: make([]WDelayerEventEscapeHatchWithdrawal, 0), NewEmergencyCouncil: make([]WDelayerEventNewEmergencyCouncil, 0), NewHermezGovernanceAddress: make([]WDelayerEventNewHermezGovernanceAddress, 0), } }
// WDelayerInterface is the inteface to WithdrawalDelayer Smart Contract
type WDelayerInterface interface { //
// Smart Contract Methods
//
WDelayerGetHermezGovernanceAddress() (*ethCommon.Address, error) WDelayerTransferGovernance(newAddress ethCommon.Address) (*types.Transaction, error) WDelayerClaimGovernance() (*types.Transaction, error) WDelayerGetEmergencyCouncil() (*ethCommon.Address, error) WDelayerTransferEmergencyCouncil(newAddress ethCommon.Address) (*types.Transaction, error) WDelayerClaimEmergencyCouncil() (*types.Transaction, error) WDelayerIsEmergencyMode() (bool, error) WDelayerGetWithdrawalDelay() (int64, error) WDelayerGetEmergencyModeStartingTime() (int64, error) WDelayerEnableEmergencyMode() (*types.Transaction, error) WDelayerChangeWithdrawalDelay(newWithdrawalDelay uint64) (*types.Transaction, error) WDelayerDepositInfo(owner, token ethCommon.Address) (depositInfo DepositState, err error) WDelayerDeposit(onwer, token ethCommon.Address, amount *big.Int) (*types.Transaction, error) WDelayerWithdrawal(owner, token ethCommon.Address) (*types.Transaction, error) WDelayerEscapeHatchWithdrawal(to, token ethCommon.Address, amount *big.Int) (*types.Transaction, error)
WDelayerEventsByBlock(blockNum int64, blockHash *ethCommon.Hash) (*WDelayerEvents, error) WDelayerConstants() (*common.WDelayerConstants, error) WDelayerEventInit() (*WDelayerEventInitialize, int64, error) }
//
// Implementation
//
// WDelayerClient is the implementation of the interface to the WithdrawDelayer Smart Contract in ethereum.
type WDelayerClient struct { client *EthereumClient address ethCommon.Address wdelayer *WithdrawalDelayer.WithdrawalDelayer contractAbi abi.ABI opts *bind.CallOpts }
// NewWDelayerClient creates a new WDelayerClient
func NewWDelayerClient(client *EthereumClient, address ethCommon.Address) (*WDelayerClient, error) { contractAbi, err := abi.JSON(strings.NewReader(string(WithdrawalDelayer.WithdrawalDelayerABI))) if err != nil { return nil, tracerr.Wrap(err) } wdelayer, err := WithdrawalDelayer.NewWithdrawalDelayer(address, client.Client()) if err != nil { return nil, tracerr.Wrap(err) } return &WDelayerClient{ client: client, address: address, wdelayer: wdelayer, contractAbi: contractAbi, opts: newCallOpts(), }, nil }
// WDelayerGetHermezGovernanceAddress is the interface to call the smart contract function
func (c *WDelayerClient) WDelayerGetHermezGovernanceAddress() (hermezGovernanceAddress *ethCommon.Address, err error) { var _hermezGovernanceAddress ethCommon.Address if err := c.client.Call(func(ec *ethclient.Client) error { _hermezGovernanceAddress, err = c.wdelayer.GetHermezGovernanceAddress(c.opts) return tracerr.Wrap(err) }); err != nil { return nil, tracerr.Wrap(err) } return &_hermezGovernanceAddress, nil }
// WDelayerTransferGovernance is the interface to call the smart contract function
func (c *WDelayerClient) WDelayerTransferGovernance(newAddress ethCommon.Address) (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { return c.wdelayer.TransferGovernance(auth, newAddress) }, ); err != nil { return nil, tracerr.Wrap(fmt.Errorf("Failed transfer hermezGovernanceAddress: %w", err)) } return tx, nil }
// WDelayerClaimGovernance is the interface to call the smart contract function
func (c *WDelayerClient) WDelayerClaimGovernance() (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { return c.wdelayer.ClaimGovernance(auth) }, ); err != nil { return nil, tracerr.Wrap(fmt.Errorf("Failed claim hermezGovernanceAddress: %w", err)) } return tx, nil }
// WDelayerGetEmergencyCouncil is the interface to call the smart contract function
func (c *WDelayerClient) WDelayerGetEmergencyCouncil() (emergencyCouncilAddress *ethCommon.Address, err error) { var _emergencyCouncilAddress ethCommon.Address if err := c.client.Call(func(ec *ethclient.Client) error { _emergencyCouncilAddress, err = c.wdelayer.GetEmergencyCouncil(c.opts) return tracerr.Wrap(err) }); err != nil { return nil, tracerr.Wrap(err) } return &_emergencyCouncilAddress, nil }
// WDelayerTransferEmergencyCouncil is the interface to call the smart contract function
func (c *WDelayerClient) WDelayerTransferEmergencyCouncil(newAddress ethCommon.Address) (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { return c.wdelayer.TransferEmergencyCouncil(auth, newAddress) }, ); err != nil { return nil, tracerr.Wrap(fmt.Errorf("Failed transfer EmergencyCouncil: %w", err)) } return tx, nil }
// WDelayerClaimEmergencyCouncil is the interface to call the smart contract function
func (c *WDelayerClient) WDelayerClaimEmergencyCouncil() (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { return c.wdelayer.ClaimEmergencyCouncil(auth) }, ); err != nil { return nil, tracerr.Wrap(fmt.Errorf("Failed claim EmergencyCouncil: %w", err)) } return tx, nil }
// WDelayerIsEmergencyMode is the interface to call the smart contract function
func (c *WDelayerClient) WDelayerIsEmergencyMode() (ermergencyMode bool, err error) { if err := c.client.Call(func(ec *ethclient.Client) error { ermergencyMode, err = c.wdelayer.IsEmergencyMode(c.opts) return tracerr.Wrap(err) }); err != nil { return false, tracerr.Wrap(err) } return ermergencyMode, nil }
// WDelayerGetWithdrawalDelay is the interface to call the smart contract function
func (c *WDelayerClient) WDelayerGetWithdrawalDelay() (withdrawalDelay int64, err error) { var _withdrawalDelay uint64 if err := c.client.Call(func(ec *ethclient.Client) error { _withdrawalDelay, err = c.wdelayer.GetWithdrawalDelay(c.opts) return tracerr.Wrap(err) }); err != nil { return 0, tracerr.Wrap(err) } return int64(_withdrawalDelay), nil }
// WDelayerGetEmergencyModeStartingTime is the interface to call the smart contract function
func (c *WDelayerClient) WDelayerGetEmergencyModeStartingTime() (emergencyModeStartingTime int64, err error) { var _emergencyModeStartingTime uint64 if err := c.client.Call(func(ec *ethclient.Client) error { _emergencyModeStartingTime, err = c.wdelayer.GetEmergencyModeStartingTime(c.opts) return tracerr.Wrap(err) }); err != nil { return 0, tracerr.Wrap(err) } return int64(_emergencyModeStartingTime), nil }
// WDelayerEnableEmergencyMode is the interface to call the smart contract function
func (c *WDelayerClient) WDelayerEnableEmergencyMode() (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { return c.wdelayer.EnableEmergencyMode(auth) }, ); err != nil { return nil, tracerr.Wrap(fmt.Errorf("Failed setting enable emergency mode: %w", err)) } return tx, nil }
// WDelayerChangeWithdrawalDelay is the interface to call the smart contract function
func (c *WDelayerClient) WDelayerChangeWithdrawalDelay(newWithdrawalDelay uint64) (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { return c.wdelayer.ChangeWithdrawalDelay(auth, newWithdrawalDelay) }, ); err != nil { return nil, tracerr.Wrap(fmt.Errorf("Failed setting withdrawal delay: %w", err)) } return tx, nil }
// WDelayerDepositInfo is the interface to call the smart contract function
func (c *WDelayerClient) WDelayerDepositInfo(owner, token ethCommon.Address) (depositInfo DepositState, err error) { if err := c.client.Call(func(ec *ethclient.Client) error { amount, depositTimestamp, err := c.wdelayer.DepositInfo(c.opts, owner, token) depositInfo.Amount = amount depositInfo.DepositTimestamp = depositTimestamp return tracerr.Wrap(err) }); err != nil { return depositInfo, tracerr.Wrap(err) } return depositInfo, nil }
// WDelayerDeposit is the interface to call the smart contract function
func (c *WDelayerClient) WDelayerDeposit(owner, token ethCommon.Address, amount *big.Int) (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { return c.wdelayer.Deposit(auth, owner, token, amount) }, ); err != nil { return nil, tracerr.Wrap(fmt.Errorf("Failed deposit: %w", err)) } return tx, nil }
// WDelayerWithdrawal is the interface to call the smart contract function
func (c *WDelayerClient) WDelayerWithdrawal(owner, token ethCommon.Address) (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { return c.wdelayer.Withdrawal(auth, owner, token) }, ); err != nil { return nil, tracerr.Wrap(fmt.Errorf("Failed withdrawal: %w", err)) } return tx, nil }
// WDelayerEscapeHatchWithdrawal is the interface to call the smart contract function
func (c *WDelayerClient) WDelayerEscapeHatchWithdrawal(to, token ethCommon.Address, amount *big.Int) (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { return c.wdelayer.EscapeHatchWithdrawal(auth, to, token, amount) }, ); err != nil { return nil, tracerr.Wrap(fmt.Errorf("Failed escapeHatchWithdrawal: %w", err)) } return tx, nil }
// WDelayerConstants returns the Constants of the WDelayer Smart Contract
func (c *WDelayerClient) WDelayerConstants() (constants *common.WDelayerConstants, err error) { constants = new(common.WDelayerConstants) if err := c.client.Call(func(ec *ethclient.Client) error { constants.MaxWithdrawalDelay, err = c.wdelayer.MAXWITHDRAWALDELAY(c.opts) if err != nil { return tracerr.Wrap(err) } constants.MaxEmergencyModeTime, err = c.wdelayer.MAXEMERGENCYMODETIME(c.opts) if err != nil { return tracerr.Wrap(err) } constants.HermezRollup, err = c.wdelayer.HermezRollupAddress(c.opts) if err != nil { return tracerr.Wrap(err) } return tracerr.Wrap(err) }); err != nil { return constants, tracerr.Wrap(err) } return constants, nil }
var ( logWDelayerDeposit = crypto.Keccak256Hash([]byte("Deposit(address,address,uint192,uint64)")) logWDelayerWithdraw = crypto.Keccak256Hash([]byte("Withdraw(address,address,uint192)")) logWDelayerEmergencyModeEnabled = crypto.Keccak256Hash([]byte("EmergencyModeEnabled()")) logWDelayerNewWithdrawalDelay = crypto.Keccak256Hash([]byte("NewWithdrawalDelay(uint64)")) logWDelayerEscapeHatchWithdrawal = crypto.Keccak256Hash([]byte("EscapeHatchWithdrawal(address,address,address,uint256)")) logWDelayerNewEmergencyCouncil = crypto.Keccak256Hash([]byte("NewEmergencyCouncil(address)")) logWDelayerNewHermezGovernanceAddress = crypto.Keccak256Hash([]byte("NewHermezGovernanceAddress(address)")) logWDelayerInitialize = crypto.Keccak256Hash([]byte( "InitializeWithdrawalDelayerEvent(uint64,address,address)")) )
// WDelayerEventInit returns the initialize event with its corresponding block number
func (c *WDelayerClient) WDelayerEventInit() (*WDelayerEventInitialize, int64, error) { query := ethereum.FilterQuery{ Addresses: []ethCommon.Address{ c.address, }, Topics: [][]ethCommon.Hash{{logWDelayerInitialize}}, } logs, err := c.client.client.FilterLogs(context.Background(), query) if err != nil { return nil, 0, tracerr.Wrap(err) } if len(logs) != 1 { return nil, 0, tracerr.Wrap(fmt.Errorf("no event of type InitializeWithdrawalDelayerEvent found")) } vLog := logs[0] if vLog.Topics[0] != logWDelayerInitialize { return nil, 0, tracerr.Wrap(fmt.Errorf("event is not InitializeWithdrawalDelayerEvent")) }
var wDelayerInit WDelayerEventInitialize if err := c.contractAbi.UnpackIntoInterface(&wDelayerInit, "InitializeWithdrawalDelayerEvent", vLog.Data); err != nil { return nil, 0, tracerr.Wrap(err) } return &wDelayerInit, int64(vLog.BlockNumber), tracerr.Wrap(err) }
// WDelayerEventsByBlock returns the events in a block that happened in the
// WDelayer Smart Contract.
// To query by blockNum, set blockNum >= 0 and blockHash == nil.
// To query by blockHash, set blockNum == -1 and blockHash != nil.
// If there are no events in that block the result is nil.
func (c *WDelayerClient) WDelayerEventsByBlock(blockNum int64, blockHash *ethCommon.Hash) (*WDelayerEvents, error) { var wdelayerEvents WDelayerEvents
var blockNumBigInt *big.Int if blockNum >= 0 { blockNumBigInt = big.NewInt(blockNum) } query := ethereum.FilterQuery{ BlockHash: blockHash, FromBlock: blockNumBigInt, ToBlock: blockNumBigInt, Addresses: []ethCommon.Address{ c.address, }, Topics: [][]ethCommon.Hash{}, }
logs, err := c.client.client.FilterLogs(context.Background(), query) if err != nil { return nil, tracerr.Wrap(err) } if len(logs) == 0 { return nil, nil }
for _, vLog := range logs { if blockHash != nil && vLog.BlockHash != *blockHash { log.Errorw("Block hash mismatch", "expected", blockHash.String(), "got", vLog.BlockHash.String()) return nil, tracerr.Wrap(ErrBlockHashMismatchEvent) } switch vLog.Topics[0] { case logWDelayerDeposit: var deposit WDelayerEventDeposit err := c.contractAbi.UnpackIntoInterface(&deposit, "Deposit", vLog.Data) if err != nil { return nil, tracerr.Wrap(err) } deposit.Owner = ethCommon.BytesToAddress(vLog.Topics[1].Bytes()) deposit.Token = ethCommon.BytesToAddress(vLog.Topics[2].Bytes()) deposit.TxHash = vLog.TxHash wdelayerEvents.Deposit = append(wdelayerEvents.Deposit, deposit)
case logWDelayerWithdraw: var withdraw WDelayerEventWithdraw err := c.contractAbi.UnpackIntoInterface(&withdraw, "Withdraw", vLog.Data) if err != nil { return nil, tracerr.Wrap(err) } withdraw.Token = ethCommon.BytesToAddress(vLog.Topics[1].Bytes()) withdraw.Owner = ethCommon.BytesToAddress(vLog.Topics[2].Bytes()) wdelayerEvents.Withdraw = append(wdelayerEvents.Withdraw, withdraw)
case logWDelayerEmergencyModeEnabled: var emergencyModeEnabled WDelayerEventEmergencyModeEnabled wdelayerEvents.EmergencyModeEnabled = append(wdelayerEvents.EmergencyModeEnabled, emergencyModeEnabled)
case logWDelayerNewWithdrawalDelay: var withdrawalDelay WDelayerEventNewWithdrawalDelay err := c.contractAbi.UnpackIntoInterface(&withdrawalDelay, "NewWithdrawalDelay", vLog.Data) if err != nil { return nil, tracerr.Wrap(err) } wdelayerEvents.NewWithdrawalDelay = append(wdelayerEvents.NewWithdrawalDelay, withdrawalDelay)
case logWDelayerEscapeHatchWithdrawal: var escapeHatchWithdrawal WDelayerEventEscapeHatchWithdrawal err := c.contractAbi.UnpackIntoInterface(&escapeHatchWithdrawal, "EscapeHatchWithdrawal", vLog.Data) if err != nil { return nil, tracerr.Wrap(err) } escapeHatchWithdrawal.Who = ethCommon.BytesToAddress(vLog.Topics[1].Bytes()) escapeHatchWithdrawal.To = ethCommon.BytesToAddress(vLog.Topics[2].Bytes()) escapeHatchWithdrawal.Token = ethCommon.BytesToAddress(vLog.Topics[3].Bytes()) wdelayerEvents.EscapeHatchWithdrawal = append(wdelayerEvents.EscapeHatchWithdrawal, escapeHatchWithdrawal)
case logWDelayerNewEmergencyCouncil: var emergencyCouncil WDelayerEventNewEmergencyCouncil err := c.contractAbi.UnpackIntoInterface(&emergencyCouncil, "NewEmergencyCouncil", vLog.Data) if err != nil { return nil, tracerr.Wrap(err) } wdelayerEvents.NewEmergencyCouncil = append(wdelayerEvents.NewEmergencyCouncil, emergencyCouncil)
case logWDelayerNewHermezGovernanceAddress: var governanceAddress WDelayerEventNewHermezGovernanceAddress err := c.contractAbi.UnpackIntoInterface(&governanceAddress, "NewHermezGovernanceAddress", vLog.Data) if err != nil { return nil, tracerr.Wrap(err) } wdelayerEvents.NewHermezGovernanceAddress = append(wdelayerEvents.NewHermezGovernanceAddress, governanceAddress) } } return &wdelayerEvents, nil }
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