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/
gen_lib_proving.go
611 lines (535 loc) · 25.3 KB
/
gen_lib_proving.go
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// Code generated - DO NOT EDIT.
// This file is a generated binding and any manual changes will be lost.
package bindings
import (
"errors"
"math/big"
"strings"
ethereum "github.com/ethereum/go-ethereum"
"github.com/ethereum/go-ethereum/accounts/abi"
"github.com/ethereum/go-ethereum/accounts/abi/bind"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/core/types"
"github.com/ethereum/go-ethereum/event"
)
// Reference imports to suppress errors if they are not otherwise used.
var (
_ = errors.New
_ = big.NewInt
_ = strings.NewReader
_ = ethereum.NotFound
_ = bind.Bind
_ = common.Big1
_ = types.BloomLookup
_ = event.NewSubscription
_ = abi.ConvertType
)
// LibProvingMetaData contains all meta data concerning the LibProving contract.
var LibProvingMetaData = &bind.MetaData{
ABI: "[{\"type\":\"event\",\"name\":\"ProvingPaused\",\"inputs\":[{\"name\":\"paused\",\"type\":\"bool\",\"indexed\":false,\"internalType\":\"bool\"}],\"anonymous\":false},{\"type\":\"event\",\"name\":\"TransitionContested\",\"inputs\":[{\"name\":\"blockId\",\"type\":\"uint256\",\"indexed\":true,\"internalType\":\"uint256\"},{\"name\":\"tran\",\"type\":\"tuple\",\"indexed\":false,\"internalType\":\"structTaikoData.Transition\",\"components\":[{\"name\":\"parentHash\",\"type\":\"bytes32\",\"internalType\":\"bytes32\"},{\"name\":\"blockHash\",\"type\":\"bytes32\",\"internalType\":\"bytes32\"},{\"name\":\"stateRoot\",\"type\":\"bytes32\",\"internalType\":\"bytes32\"},{\"name\":\"graffiti\",\"type\":\"bytes32\",\"internalType\":\"bytes32\"}]},{\"name\":\"contester\",\"type\":\"address\",\"indexed\":false,\"internalType\":\"address\"},{\"name\":\"contestBond\",\"type\":\"uint96\",\"indexed\":false,\"internalType\":\"uint96\"},{\"name\":\"tier\",\"type\":\"uint16\",\"indexed\":false,\"internalType\":\"uint16\"}],\"anonymous\":false},{\"type\":\"event\",\"name\":\"TransitionProved\",\"inputs\":[{\"name\":\"blockId\",\"type\":\"uint256\",\"indexed\":true,\"internalType\":\"uint256\"},{\"name\":\"tran\",\"type\":\"tuple\",\"indexed\":false,\"internalType\":\"structTaikoData.Transition\",\"components\":[{\"name\":\"parentHash\",\"type\":\"bytes32\",\"internalType\":\"bytes32\"},{\"name\":\"blockHash\",\"type\":\"bytes32\",\"internalType\":\"bytes32\"},{\"name\":\"stateRoot\",\"type\":\"bytes32\",\"internalType\":\"bytes32\"},{\"name\":\"graffiti\",\"type\":\"bytes32\",\"internalType\":\"bytes32\"}]},{\"name\":\"prover\",\"type\":\"address\",\"indexed\":false,\"internalType\":\"address\"},{\"name\":\"validityBond\",\"type\":\"uint96\",\"indexed\":false,\"internalType\":\"uint96\"},{\"name\":\"tier\",\"type\":\"uint16\",\"indexed\":false,\"internalType\":\"uint16\"}],\"anonymous\":false},{\"type\":\"error\",\"name\":\"L1_ALREADY_CONTESTED\",\"inputs\":[]},{\"type\":\"error\",\"name\":\"L1_ALREADY_PROVED\",\"inputs\":[]},{\"type\":\"error\",\"name\":\"L1_BLOCK_MISMATCH\",\"inputs\":[]},{\"type\":\"error\",\"name\":\"L1_CANNOT_CONTEST\",\"inputs\":[]},{\"type\":\"error\",\"name\":\"L1_INVALID_BLOCK_ID\",\"inputs\":[]},{\"type\":\"error\",\"name\":\"L1_INVALID_PAUSE_STATUS\",\"inputs\":[]},{\"type\":\"error\",\"name\":\"L1_INVALID_TIER\",\"inputs\":[]},{\"type\":\"error\",\"name\":\"L1_INVALID_TRANSITION\",\"inputs\":[]},{\"type\":\"error\",\"name\":\"L1_MISSING_VERIFIER\",\"inputs\":[]},{\"type\":\"error\",\"name\":\"L1_NOT_ASSIGNED_PROVER\",\"inputs\":[]}]",
}
// LibProvingABI is the input ABI used to generate the binding from.
// Deprecated: Use LibProvingMetaData.ABI instead.
var LibProvingABI = LibProvingMetaData.ABI
// LibProving is an auto generated Go binding around an Ethereum contract.
type LibProving struct {
LibProvingCaller // Read-only binding to the contract
LibProvingTransactor // Write-only binding to the contract
LibProvingFilterer // Log filterer for contract events
}
// LibProvingCaller is an auto generated read-only Go binding around an Ethereum contract.
type LibProvingCaller struct {
contract *bind.BoundContract // Generic contract wrapper for the low level calls
}
// LibProvingTransactor is an auto generated write-only Go binding around an Ethereum contract.
type LibProvingTransactor struct {
contract *bind.BoundContract // Generic contract wrapper for the low level calls
}
// LibProvingFilterer is an auto generated log filtering Go binding around an Ethereum contract events.
type LibProvingFilterer struct {
contract *bind.BoundContract // Generic contract wrapper for the low level calls
}
// LibProvingSession is an auto generated Go binding around an Ethereum contract,
// with pre-set call and transact options.
type LibProvingSession struct {
Contract *LibProving // Generic contract binding to set the session for
CallOpts bind.CallOpts // Call options to use throughout this session
TransactOpts bind.TransactOpts // Transaction auth options to use throughout this session
}
// LibProvingCallerSession is an auto generated read-only Go binding around an Ethereum contract,
// with pre-set call options.
type LibProvingCallerSession struct {
Contract *LibProvingCaller // Generic contract caller binding to set the session for
CallOpts bind.CallOpts // Call options to use throughout this session
}
// LibProvingTransactorSession is an auto generated write-only Go binding around an Ethereum contract,
// with pre-set transact options.
type LibProvingTransactorSession struct {
Contract *LibProvingTransactor // Generic contract transactor binding to set the session for
TransactOpts bind.TransactOpts // Transaction auth options to use throughout this session
}
// LibProvingRaw is an auto generated low-level Go binding around an Ethereum contract.
type LibProvingRaw struct {
Contract *LibProving // Generic contract binding to access the raw methods on
}
// LibProvingCallerRaw is an auto generated low-level read-only Go binding around an Ethereum contract.
type LibProvingCallerRaw struct {
Contract *LibProvingCaller // Generic read-only contract binding to access the raw methods on
}
// LibProvingTransactorRaw is an auto generated low-level write-only Go binding around an Ethereum contract.
type LibProvingTransactorRaw struct {
Contract *LibProvingTransactor // Generic write-only contract binding to access the raw methods on
}
// NewLibProving creates a new instance of LibProving, bound to a specific deployed contract.
func NewLibProving(address common.Address, backend bind.ContractBackend) (*LibProving, error) {
contract, err := bindLibProving(address, backend, backend, backend)
if err != nil {
return nil, err
}
return &LibProving{LibProvingCaller: LibProvingCaller{contract: contract}, LibProvingTransactor: LibProvingTransactor{contract: contract}, LibProvingFilterer: LibProvingFilterer{contract: contract}}, nil
}
// NewLibProvingCaller creates a new read-only instance of LibProving, bound to a specific deployed contract.
func NewLibProvingCaller(address common.Address, caller bind.ContractCaller) (*LibProvingCaller, error) {
contract, err := bindLibProving(address, caller, nil, nil)
if err != nil {
return nil, err
}
return &LibProvingCaller{contract: contract}, nil
}
// NewLibProvingTransactor creates a new write-only instance of LibProving, bound to a specific deployed contract.
func NewLibProvingTransactor(address common.Address, transactor bind.ContractTransactor) (*LibProvingTransactor, error) {
contract, err := bindLibProving(address, nil, transactor, nil)
if err != nil {
return nil, err
}
return &LibProvingTransactor{contract: contract}, nil
}
// NewLibProvingFilterer creates a new log filterer instance of LibProving, bound to a specific deployed contract.
func NewLibProvingFilterer(address common.Address, filterer bind.ContractFilterer) (*LibProvingFilterer, error) {
contract, err := bindLibProving(address, nil, nil, filterer)
if err != nil {
return nil, err
}
return &LibProvingFilterer{contract: contract}, nil
}
// bindLibProving binds a generic wrapper to an already deployed contract.
func bindLibProving(address common.Address, caller bind.ContractCaller, transactor bind.ContractTransactor, filterer bind.ContractFilterer) (*bind.BoundContract, error) {
parsed, err := LibProvingMetaData.GetAbi()
if err != nil {
return nil, err
}
return bind.NewBoundContract(address, *parsed, caller, transactor, filterer), nil
}
// Call invokes the (constant) contract method with params as input values and
// sets the output to result. The result type might be a single field for simple
// returns, a slice of interfaces for anonymous returns and a struct for named
// returns.
func (_LibProving *LibProvingRaw) Call(opts *bind.CallOpts, result *[]interface{}, method string, params ...interface{}) error {
return _LibProving.Contract.LibProvingCaller.contract.Call(opts, result, method, params...)
}
// Transfer initiates a plain transaction to move funds to the contract, calling
// its default method if one is available.
func (_LibProving *LibProvingRaw) Transfer(opts *bind.TransactOpts) (*types.Transaction, error) {
return _LibProving.Contract.LibProvingTransactor.contract.Transfer(opts)
}
// Transact invokes the (paid) contract method with params as input values.
func (_LibProving *LibProvingRaw) Transact(opts *bind.TransactOpts, method string, params ...interface{}) (*types.Transaction, error) {
return _LibProving.Contract.LibProvingTransactor.contract.Transact(opts, method, params...)
}
// Call invokes the (constant) contract method with params as input values and
// sets the output to result. The result type might be a single field for simple
// returns, a slice of interfaces for anonymous returns and a struct for named
// returns.
func (_LibProving *LibProvingCallerRaw) Call(opts *bind.CallOpts, result *[]interface{}, method string, params ...interface{}) error {
return _LibProving.Contract.contract.Call(opts, result, method, params...)
}
// Transfer initiates a plain transaction to move funds to the contract, calling
// its default method if one is available.
func (_LibProving *LibProvingTransactorRaw) Transfer(opts *bind.TransactOpts) (*types.Transaction, error) {
return _LibProving.Contract.contract.Transfer(opts)
}
// Transact invokes the (paid) contract method with params as input values.
func (_LibProving *LibProvingTransactorRaw) Transact(opts *bind.TransactOpts, method string, params ...interface{}) (*types.Transaction, error) {
return _LibProving.Contract.contract.Transact(opts, method, params...)
}
// LibProvingProvingPausedIterator is returned from FilterProvingPaused and is used to iterate over the raw logs and unpacked data for ProvingPaused events raised by the LibProving contract.
type LibProvingProvingPausedIterator struct {
Event *LibProvingProvingPaused // Event containing the contract specifics and raw log
contract *bind.BoundContract // Generic contract to use for unpacking event data
event string // Event name to use for unpacking event data
logs chan types.Log // Log channel receiving the found contract events
sub ethereum.Subscription // Subscription for errors, completion and termination
done bool // Whether the subscription completed delivering logs
fail error // Occurred error to stop iteration
}
// Next advances the iterator to the subsequent event, returning whether there
// are any more events found. In case of a retrieval or parsing error, false is
// returned and Error() can be queried for the exact failure.
func (it *LibProvingProvingPausedIterator) Next() bool {
// If the iterator failed, stop iterating
if it.fail != nil {
return false
}
// If the iterator completed, deliver directly whatever's available
if it.done {
select {
case log := <-it.logs:
it.Event = new(LibProvingProvingPaused)
if err := it.contract.UnpackLog(it.Event, it.event, log); err != nil {
it.fail = err
return false
}
it.Event.Raw = log
return true
default:
return false
}
}
// Iterator still in progress, wait for either a data or an error event
select {
case log := <-it.logs:
it.Event = new(LibProvingProvingPaused)
if err := it.contract.UnpackLog(it.Event, it.event, log); err != nil {
it.fail = err
return false
}
it.Event.Raw = log
return true
case err := <-it.sub.Err():
it.done = true
it.fail = err
return it.Next()
}
}
// Error returns any retrieval or parsing error occurred during filtering.
func (it *LibProvingProvingPausedIterator) Error() error {
return it.fail
}
// Close terminates the iteration process, releasing any pending underlying
// resources.
func (it *LibProvingProvingPausedIterator) Close() error {
it.sub.Unsubscribe()
return nil
}
// LibProvingProvingPaused represents a ProvingPaused event raised by the LibProving contract.
type LibProvingProvingPaused struct {
Paused bool
Raw types.Log // Blockchain specific contextual infos
}
// FilterProvingPaused is a free log retrieval operation binding the contract event 0xed64db85835d07c3c990b8ebdd55e32d64e5ed53143b6ef2179e7bfaf17ddc3b.
//
// Solidity: event ProvingPaused(bool paused)
func (_LibProving *LibProvingFilterer) FilterProvingPaused(opts *bind.FilterOpts) (*LibProvingProvingPausedIterator, error) {
logs, sub, err := _LibProving.contract.FilterLogs(opts, "ProvingPaused")
if err != nil {
return nil, err
}
return &LibProvingProvingPausedIterator{contract: _LibProving.contract, event: "ProvingPaused", logs: logs, sub: sub}, nil
}
// WatchProvingPaused is a free log subscription operation binding the contract event 0xed64db85835d07c3c990b8ebdd55e32d64e5ed53143b6ef2179e7bfaf17ddc3b.
//
// Solidity: event ProvingPaused(bool paused)
func (_LibProving *LibProvingFilterer) WatchProvingPaused(opts *bind.WatchOpts, sink chan<- *LibProvingProvingPaused) (event.Subscription, error) {
logs, sub, err := _LibProving.contract.WatchLogs(opts, "ProvingPaused")
if err != nil {
return nil, err
}
return event.NewSubscription(func(quit <-chan struct{}) error {
defer sub.Unsubscribe()
for {
select {
case log := <-logs:
// New log arrived, parse the event and forward to the user
event := new(LibProvingProvingPaused)
if err := _LibProving.contract.UnpackLog(event, "ProvingPaused", log); err != nil {
return err
}
event.Raw = log
select {
case sink <- event:
case err := <-sub.Err():
return err
case <-quit:
return nil
}
case err := <-sub.Err():
return err
case <-quit:
return nil
}
}
}), nil
}
// ParseProvingPaused is a log parse operation binding the contract event 0xed64db85835d07c3c990b8ebdd55e32d64e5ed53143b6ef2179e7bfaf17ddc3b.
//
// Solidity: event ProvingPaused(bool paused)
func (_LibProving *LibProvingFilterer) ParseProvingPaused(log types.Log) (*LibProvingProvingPaused, error) {
event := new(LibProvingProvingPaused)
if err := _LibProving.contract.UnpackLog(event, "ProvingPaused", log); err != nil {
return nil, err
}
event.Raw = log
return event, nil
}
// LibProvingTransitionContestedIterator is returned from FilterTransitionContested and is used to iterate over the raw logs and unpacked data for TransitionContested events raised by the LibProving contract.
type LibProvingTransitionContestedIterator struct {
Event *LibProvingTransitionContested // Event containing the contract specifics and raw log
contract *bind.BoundContract // Generic contract to use for unpacking event data
event string // Event name to use for unpacking event data
logs chan types.Log // Log channel receiving the found contract events
sub ethereum.Subscription // Subscription for errors, completion and termination
done bool // Whether the subscription completed delivering logs
fail error // Occurred error to stop iteration
}
// Next advances the iterator to the subsequent event, returning whether there
// are any more events found. In case of a retrieval or parsing error, false is
// returned and Error() can be queried for the exact failure.
func (it *LibProvingTransitionContestedIterator) Next() bool {
// If the iterator failed, stop iterating
if it.fail != nil {
return false
}
// If the iterator completed, deliver directly whatever's available
if it.done {
select {
case log := <-it.logs:
it.Event = new(LibProvingTransitionContested)
if err := it.contract.UnpackLog(it.Event, it.event, log); err != nil {
it.fail = err
return false
}
it.Event.Raw = log
return true
default:
return false
}
}
// Iterator still in progress, wait for either a data or an error event
select {
case log := <-it.logs:
it.Event = new(LibProvingTransitionContested)
if err := it.contract.UnpackLog(it.Event, it.event, log); err != nil {
it.fail = err
return false
}
it.Event.Raw = log
return true
case err := <-it.sub.Err():
it.done = true
it.fail = err
return it.Next()
}
}
// Error returns any retrieval or parsing error occurred during filtering.
func (it *LibProvingTransitionContestedIterator) Error() error {
return it.fail
}
// Close terminates the iteration process, releasing any pending underlying
// resources.
func (it *LibProvingTransitionContestedIterator) Close() error {
it.sub.Unsubscribe()
return nil
}
// LibProvingTransitionContested represents a TransitionContested event raised by the LibProving contract.
type LibProvingTransitionContested struct {
BlockId *big.Int
Tran TaikoDataTransition
Contester common.Address
ContestBond *big.Int
Tier uint16
Raw types.Log // Blockchain specific contextual infos
}
// FilterTransitionContested is a free log retrieval operation binding the contract event 0xb4c0a86c1ff239277697775b1e91d3375fd3a5ef6b345aa4e2f6001c890558f6.
//
// Solidity: event TransitionContested(uint256 indexed blockId, (bytes32,bytes32,bytes32,bytes32) tran, address contester, uint96 contestBond, uint16 tier)
func (_LibProving *LibProvingFilterer) FilterTransitionContested(opts *bind.FilterOpts, blockId []*big.Int) (*LibProvingTransitionContestedIterator, error) {
var blockIdRule []interface{}
for _, blockIdItem := range blockId {
blockIdRule = append(blockIdRule, blockIdItem)
}
logs, sub, err := _LibProving.contract.FilterLogs(opts, "TransitionContested", blockIdRule)
if err != nil {
return nil, err
}
return &LibProvingTransitionContestedIterator{contract: _LibProving.contract, event: "TransitionContested", logs: logs, sub: sub}, nil
}
// WatchTransitionContested is a free log subscription operation binding the contract event 0xb4c0a86c1ff239277697775b1e91d3375fd3a5ef6b345aa4e2f6001c890558f6.
//
// Solidity: event TransitionContested(uint256 indexed blockId, (bytes32,bytes32,bytes32,bytes32) tran, address contester, uint96 contestBond, uint16 tier)
func (_LibProving *LibProvingFilterer) WatchTransitionContested(opts *bind.WatchOpts, sink chan<- *LibProvingTransitionContested, blockId []*big.Int) (event.Subscription, error) {
var blockIdRule []interface{}
for _, blockIdItem := range blockId {
blockIdRule = append(blockIdRule, blockIdItem)
}
logs, sub, err := _LibProving.contract.WatchLogs(opts, "TransitionContested", blockIdRule)
if err != nil {
return nil, err
}
return event.NewSubscription(func(quit <-chan struct{}) error {
defer sub.Unsubscribe()
for {
select {
case log := <-logs:
// New log arrived, parse the event and forward to the user
event := new(LibProvingTransitionContested)
if err := _LibProving.contract.UnpackLog(event, "TransitionContested", log); err != nil {
return err
}
event.Raw = log
select {
case sink <- event:
case err := <-sub.Err():
return err
case <-quit:
return nil
}
case err := <-sub.Err():
return err
case <-quit:
return nil
}
}
}), nil
}
// ParseTransitionContested is a log parse operation binding the contract event 0xb4c0a86c1ff239277697775b1e91d3375fd3a5ef6b345aa4e2f6001c890558f6.
//
// Solidity: event TransitionContested(uint256 indexed blockId, (bytes32,bytes32,bytes32,bytes32) tran, address contester, uint96 contestBond, uint16 tier)
func (_LibProving *LibProvingFilterer) ParseTransitionContested(log types.Log) (*LibProvingTransitionContested, error) {
event := new(LibProvingTransitionContested)
if err := _LibProving.contract.UnpackLog(event, "TransitionContested", log); err != nil {
return nil, err
}
event.Raw = log
return event, nil
}
// LibProvingTransitionProvedIterator is returned from FilterTransitionProved and is used to iterate over the raw logs and unpacked data for TransitionProved events raised by the LibProving contract.
type LibProvingTransitionProvedIterator struct {
Event *LibProvingTransitionProved // Event containing the contract specifics and raw log
contract *bind.BoundContract // Generic contract to use for unpacking event data
event string // Event name to use for unpacking event data
logs chan types.Log // Log channel receiving the found contract events
sub ethereum.Subscription // Subscription for errors, completion and termination
done bool // Whether the subscription completed delivering logs
fail error // Occurred error to stop iteration
}
// Next advances the iterator to the subsequent event, returning whether there
// are any more events found. In case of a retrieval or parsing error, false is
// returned and Error() can be queried for the exact failure.
func (it *LibProvingTransitionProvedIterator) Next() bool {
// If the iterator failed, stop iterating
if it.fail != nil {
return false
}
// If the iterator completed, deliver directly whatever's available
if it.done {
select {
case log := <-it.logs:
it.Event = new(LibProvingTransitionProved)
if err := it.contract.UnpackLog(it.Event, it.event, log); err != nil {
it.fail = err
return false
}
it.Event.Raw = log
return true
default:
return false
}
}
// Iterator still in progress, wait for either a data or an error event
select {
case log := <-it.logs:
it.Event = new(LibProvingTransitionProved)
if err := it.contract.UnpackLog(it.Event, it.event, log); err != nil {
it.fail = err
return false
}
it.Event.Raw = log
return true
case err := <-it.sub.Err():
it.done = true
it.fail = err
return it.Next()
}
}
// Error returns any retrieval or parsing error occurred during filtering.
func (it *LibProvingTransitionProvedIterator) Error() error {
return it.fail
}
// Close terminates the iteration process, releasing any pending underlying
// resources.
func (it *LibProvingTransitionProvedIterator) Close() error {
it.sub.Unsubscribe()
return nil
}
// LibProvingTransitionProved represents a TransitionProved event raised by the LibProving contract.
type LibProvingTransitionProved struct {
BlockId *big.Int
Tran TaikoDataTransition
Prover common.Address
ValidityBond *big.Int
Tier uint16
Raw types.Log // Blockchain specific contextual infos
}
// FilterTransitionProved is a free log retrieval operation binding the contract event 0xc195e4be3b936845492b8be4b1cf604db687a4d79ad84d979499c136f8e6701f.
//
// Solidity: event TransitionProved(uint256 indexed blockId, (bytes32,bytes32,bytes32,bytes32) tran, address prover, uint96 validityBond, uint16 tier)
func (_LibProving *LibProvingFilterer) FilterTransitionProved(opts *bind.FilterOpts, blockId []*big.Int) (*LibProvingTransitionProvedIterator, error) {
var blockIdRule []interface{}
for _, blockIdItem := range blockId {
blockIdRule = append(blockIdRule, blockIdItem)
}
logs, sub, err := _LibProving.contract.FilterLogs(opts, "TransitionProved", blockIdRule)
if err != nil {
return nil, err
}
return &LibProvingTransitionProvedIterator{contract: _LibProving.contract, event: "TransitionProved", logs: logs, sub: sub}, nil
}
// WatchTransitionProved is a free log subscription operation binding the contract event 0xc195e4be3b936845492b8be4b1cf604db687a4d79ad84d979499c136f8e6701f.
//
// Solidity: event TransitionProved(uint256 indexed blockId, (bytes32,bytes32,bytes32,bytes32) tran, address prover, uint96 validityBond, uint16 tier)
func (_LibProving *LibProvingFilterer) WatchTransitionProved(opts *bind.WatchOpts, sink chan<- *LibProvingTransitionProved, blockId []*big.Int) (event.Subscription, error) {
var blockIdRule []interface{}
for _, blockIdItem := range blockId {
blockIdRule = append(blockIdRule, blockIdItem)
}
logs, sub, err := _LibProving.contract.WatchLogs(opts, "TransitionProved", blockIdRule)
if err != nil {
return nil, err
}
return event.NewSubscription(func(quit <-chan struct{}) error {
defer sub.Unsubscribe()
for {
select {
case log := <-logs:
// New log arrived, parse the event and forward to the user
event := new(LibProvingTransitionProved)
if err := _LibProving.contract.UnpackLog(event, "TransitionProved", log); err != nil {
return err
}
event.Raw = log
select {
case sink <- event:
case err := <-sub.Err():
return err
case <-quit:
return nil
}
case err := <-sub.Err():
return err
case <-quit:
return nil
}
}
}), nil
}
// ParseTransitionProved is a log parse operation binding the contract event 0xc195e4be3b936845492b8be4b1cf604db687a4d79ad84d979499c136f8e6701f.
//
// Solidity: event TransitionProved(uint256 indexed blockId, (bytes32,bytes32,bytes32,bytes32) tran, address prover, uint96 validityBond, uint16 tier)
func (_LibProving *LibProvingFilterer) ParseTransitionProved(log types.Log) (*LibProvingTransitionProved, error) {
event := new(LibProvingTransitionProved)
if err := _LibProving.contract.UnpackLog(event, "TransitionProved", log); err != nil {
return nil, err
}
event.Raw = log
return event, nil
}