package eth import ( "context" "encoding/binary" "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" HermezAuctionProtocol "github.com/hermeznetwork/hermez-node/eth/contracts/auction" ERC777 "github.com/hermeznetwork/hermez-node/eth/contracts/erc777" "golang.org/x/crypto/sha3" ) // AuctionConstants are the constants of the Rollup Smart Contract type AuctionConstants struct { // Blocks per slot BlocksPerSlot uint8 // Minimum bid when no one has bid yet InitialMinimalBidding *big.Int // First block where the first slot begins GenesisBlockNum int64 // ERC777 token with which the bids will be made TokenHEZ ethCommon.Address // HermezRollup smartcontract address HermezRollup ethCommon.Address // Hermez Governanze Token smartcontract address who controls some parameters and collects HEZ fee // Only for test GovernanceAddress ethCommon.Address } // SlotState is the state of a slot type SlotState struct { Bidder ethCommon.Address Fulfilled bool BidAmount *big.Int ClosedMinBid *big.Int } // NewSlotState returns an empty SlotState func NewSlotState() *SlotState { return &SlotState{ Bidder: ethCommon.Address{}, Fulfilled: false, BidAmount: big.NewInt(0), ClosedMinBid: big.NewInt(0), } } // Coordinator is the details of the Coordinator identified by the forger address type Coordinator struct { Forger ethCommon.Address URL string } // AuctionVariables are the variables of the Auction Smart Contract type AuctionVariables struct { // Boot Coordinator Address DonationAddress ethCommon.Address // Boot Coordinator Address BootCoordinator ethCommon.Address // The minimum bid value in a series of 6 slots DefaultSlotSetBid [6]*big.Int // Distance (#slots) to the closest slot to which you can bid ( 2 Slots = 2 * 40 Blocks = 20 min ) ClosedAuctionSlots uint16 // Distance (#slots) to the farthest slot to which you can bid (30 days = 4320 slots ) OpenAuctionSlots uint16 // How the HEZ tokens deposited by the slot winner are distributed (Burn: 40% - Donation: 40% - HGT: 20%) AllocationRatio [3]uint16 // Minimum outbid (percentage) over the previous one to consider it valid Outbidding uint16 // Number of blocks at the end of a slot in which any coordinator can forge if the winner has not forged one before SlotDeadline uint8 } // AuctionState represents the state of the Rollup in the Smart Contract type AuctionState struct { // Mapping to control slot state Slots map[int64]*SlotState // Mapping to control balances pending to claim PendingBalances map[ethCommon.Address]*big.Int // Mapping to register all the coordinators. The address used for the mapping is the forger address Coordinators map[ethCommon.Address]*Coordinator } // AuctionEventNewBid is an event of the Auction Smart Contract type AuctionEventNewBid struct { Slot int64 BidAmount *big.Int Bidder ethCommon.Address } // AuctionEventNewSlotDeadline is an event of the Auction Smart Contract type AuctionEventNewSlotDeadline struct { NewSlotDeadline uint8 } // AuctionEventNewClosedAuctionSlots is an event of the Auction Smart Contract type AuctionEventNewClosedAuctionSlots struct { NewClosedAuctionSlots uint16 } // AuctionEventNewOutbidding is an event of the Auction Smart Contract type AuctionEventNewOutbidding struct { NewOutbidding uint16 } // AuctionEventNewDonationAddress is an event of the Auction Smart Contract type AuctionEventNewDonationAddress struct { NewDonationAddress ethCommon.Address } // AuctionEventNewBootCoordinator is an event of the Auction Smart Contract type AuctionEventNewBootCoordinator struct { NewBootCoordinator ethCommon.Address } // AuctionEventNewOpenAuctionSlots is an event of the Auction Smart Contract type AuctionEventNewOpenAuctionSlots struct { NewOpenAuctionSlots uint16 } // AuctionEventNewAllocationRatio is an event of the Auction Smart Contract type AuctionEventNewAllocationRatio struct { NewAllocationRatio [3]uint16 } // AuctionEventSetCoordinator is an event of the Auction Smart Contract type AuctionEventSetCoordinator struct { BidderAddress ethCommon.Address ForgerAddress ethCommon.Address CoordinatorURL string } // AuctionEventNewForgeAllocated is an event of the Auction Smart Contract type AuctionEventNewForgeAllocated struct { Bidder ethCommon.Address Forger ethCommon.Address SlotToForge int64 BurnAmount *big.Int DonationAmount *big.Int GovernanceAmount *big.Int } // AuctionEventNewDefaultSlotSetBid is an event of the Auction Smart Contract type AuctionEventNewDefaultSlotSetBid struct { SlotSet int64 NewInitialMinBid *big.Int } // AuctionEventNewForge is an event of the Auction Smart Contract type AuctionEventNewForge struct { Forger ethCommon.Address SlotToForge int64 } // AuctionEventHEZClaimed is an event of the Auction Smart Contract type AuctionEventHEZClaimed struct { Owner ethCommon.Address Amount *big.Int } // AuctionEvents is the list of events in a block of the Auction Smart Contract type AuctionEvents struct { NewBid []AuctionEventNewBid NewSlotDeadline []AuctionEventNewSlotDeadline NewClosedAuctionSlots []AuctionEventNewClosedAuctionSlots NewOutbidding []AuctionEventNewOutbidding NewDonationAddress []AuctionEventNewDonationAddress NewBootCoordinator []AuctionEventNewBootCoordinator NewOpenAuctionSlots []AuctionEventNewOpenAuctionSlots NewAllocationRatio []AuctionEventNewAllocationRatio SetCoordinator []AuctionEventSetCoordinator NewForgeAllocated []AuctionEventNewForgeAllocated NewDefaultSlotSetBid []AuctionEventNewDefaultSlotSetBid NewForge []AuctionEventNewForge HEZClaimed []AuctionEventHEZClaimed } // NewAuctionEvents creates an empty AuctionEvents with the slices initialized. func NewAuctionEvents() AuctionEvents { return AuctionEvents{ NewBid: make([]AuctionEventNewBid, 0), NewSlotDeadline: make([]AuctionEventNewSlotDeadline, 0), NewClosedAuctionSlots: make([]AuctionEventNewClosedAuctionSlots, 0), NewOutbidding: make([]AuctionEventNewOutbidding, 0), NewDonationAddress: make([]AuctionEventNewDonationAddress, 0), NewBootCoordinator: make([]AuctionEventNewBootCoordinator, 0), NewOpenAuctionSlots: make([]AuctionEventNewOpenAuctionSlots, 0), NewAllocationRatio: make([]AuctionEventNewAllocationRatio, 0), SetCoordinator: make([]AuctionEventSetCoordinator, 0), NewForgeAllocated: make([]AuctionEventNewForgeAllocated, 0), NewDefaultSlotSetBid: make([]AuctionEventNewDefaultSlotSetBid, 0), NewForge: make([]AuctionEventNewForge, 0), HEZClaimed: make([]AuctionEventHEZClaimed, 0), } } // AuctionInterface is the inteface to to Auction Smart Contract type AuctionInterface interface { // // Smart Contract Methods // // Getter/Setter, where Setter is onlyOwner AuctionSetSlotDeadline(newDeadline uint8) (*types.Transaction, error) AuctionGetSlotDeadline() (uint8, error) AuctionSetOpenAuctionSlots(newOpenAuctionSlots uint16) (*types.Transaction, error) AuctionGetOpenAuctionSlots() (uint16, error) AuctionSetClosedAuctionSlots(newClosedAuctionSlots uint16) (*types.Transaction, error) AuctionGetClosedAuctionSlots() (uint16, error) AuctionSetOutbidding(newOutbidding uint16) (*types.Transaction, error) AuctionGetOutbidding() (uint16, error) AuctionSetAllocationRatio(newAllocationRatio [3]uint16) (*types.Transaction, error) AuctionGetAllocationRatio() ([3]uint16, error) AuctionSetDonationAddress(newDonationAddress ethCommon.Address) (*types.Transaction, error) AuctionGetDonationAddress() (*ethCommon.Address, error) AuctionSetBootCoordinator(newBootCoordinator ethCommon.Address) (*types.Transaction, error) AuctionGetBootCoordinator() (*ethCommon.Address, error) AuctionChangeDefaultSlotSetBid(slotSet int64, newInitialMinBid *big.Int) (*types.Transaction, error) // Coordinator Management AuctionSetCoordinator(forger ethCommon.Address, coordinatorURL string) (*types.Transaction, error) // Slot Info AuctionGetSlotNumber(blockNum int64) (int64, error) AuctionGetCurrentSlotNumber() (int64, error) AuctionGetMinBidBySlot(slot int64) (*big.Int, error) AuctionGetDefaultSlotSetBid(slotSet uint8) (*big.Int, error) AuctionGetSlotSet(slot int64) (*big.Int, error) // Bidding AuctionBid(slot int64, bidAmount *big.Int) (*types.Transaction, error) AuctionMultiBid(startingSlot int64, endingSlot int64, slotSet [6]bool, maxBid, closedMinBid, budget *big.Int) (*types.Transaction, error) // Forge AuctionCanForge(forger ethCommon.Address, blockNum int64) (bool, error) AuctionForge(forger ethCommon.Address) (*types.Transaction, error) // Fees AuctionClaimHEZ() (*types.Transaction, error) AuctionGetClaimableHEZ(bidder ethCommon.Address) (*big.Int, error) // // Smart Contract Status // AuctionConstants() (*AuctionConstants, error) AuctionEventsByBlock(blockNum int64) (*AuctionEvents, *ethCommon.Hash, error) } // // Implementation // // AuctionClient is the implementation of the interface to the Auction Smart Contract in ethereum. type AuctionClient struct { client *EthereumClient address ethCommon.Address tokenAddress ethCommon.Address auction *HermezAuctionProtocol.HermezAuctionProtocol contractAbi abi.ABI } // NewAuctionClient creates a new AuctionClient. `tokenAddress` is the address of the HEZ tokens. func NewAuctionClient(client *EthereumClient, address, tokenAddress ethCommon.Address) (*AuctionClient, error) { contractAbi, err := abi.JSON(strings.NewReader(string(HermezAuctionProtocol.HermezAuctionProtocolABI))) if err != nil { return nil, err } auction, err := HermezAuctionProtocol.NewHermezAuctionProtocol(address, client.Client()) if err != nil { return nil, err } return &AuctionClient{ client: client, address: address, tokenAddress: tokenAddress, auction: auction, contractAbi: contractAbi, }, nil } // AuctionSetSlotDeadline is the interface to call the smart contract function func (c *AuctionClient) AuctionSetSlotDeadline(newDeadline uint8) (*types.Transaction, error) { var tx *types.Transaction var err error if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { return c.auction.SetSlotDeadline(auth, newDeadline) }, ); err != nil { return nil, fmt.Errorf("Failed setting slotDeadline: %w", err) } return tx, nil } // AuctionGetSlotDeadline is the interface to call the smart contract function func (c *AuctionClient) AuctionGetSlotDeadline() (slotDeadline uint8, err error) { if err := c.client.Call(func(ec *ethclient.Client) error { slotDeadline, err = c.auction.GetSlotDeadline(nil) return err }); err != nil { return 0, err } return slotDeadline, nil } // AuctionSetOpenAuctionSlots is the interface to call the smart contract function func (c *AuctionClient) AuctionSetOpenAuctionSlots(newOpenAuctionSlots uint16) (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { return c.auction.SetOpenAuctionSlots(auth, newOpenAuctionSlots) }, ); err != nil { return nil, fmt.Errorf("Failed setting openAuctionSlots: %w", err) } return tx, nil } // AuctionGetOpenAuctionSlots is the interface to call the smart contract function func (c *AuctionClient) AuctionGetOpenAuctionSlots() (openAuctionSlots uint16, err error) { if err := c.client.Call(func(ec *ethclient.Client) error { openAuctionSlots, err = c.auction.GetOpenAuctionSlots(nil) return err }); err != nil { return 0, err } return openAuctionSlots, nil } // AuctionSetClosedAuctionSlots is the interface to call the smart contract function func (c *AuctionClient) AuctionSetClosedAuctionSlots(newClosedAuctionSlots uint16) (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { return c.auction.SetClosedAuctionSlots(auth, newClosedAuctionSlots) }, ); err != nil { return nil, fmt.Errorf("Failed setting closedAuctionSlots: %w", err) } return tx, nil } // AuctionGetClosedAuctionSlots is the interface to call the smart contract function func (c *AuctionClient) AuctionGetClosedAuctionSlots() (closedAuctionSlots uint16, err error) { if err := c.client.Call(func(ec *ethclient.Client) error { closedAuctionSlots, err = c.auction.GetClosedAuctionSlots(nil) return err }); err != nil { return 0, err } return closedAuctionSlots, nil } // AuctionSetOutbidding is the interface to call the smart contract function func (c *AuctionClient) AuctionSetOutbidding(newOutbidding uint16) (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 12500000, //nolint:gomnd func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { return c.auction.SetOutbidding(auth, newOutbidding) }, ); err != nil { return nil, fmt.Errorf("Failed setting setOutbidding: %w", err) } return tx, nil } // AuctionGetOutbidding is the interface to call the smart contract function func (c *AuctionClient) AuctionGetOutbidding() (outbidding uint16, err error) { if err := c.client.Call(func(ec *ethclient.Client) error { outbidding, err = c.auction.GetOutbidding(nil) return err }); err != nil { return 0, err } return outbidding, nil } // AuctionSetAllocationRatio is the interface to call the smart contract function func (c *AuctionClient) AuctionSetAllocationRatio(newAllocationRatio [3]uint16) (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { return c.auction.SetAllocationRatio(auth, newAllocationRatio) }, ); err != nil { return nil, fmt.Errorf("Failed setting allocationRatio: %w", err) } return tx, nil } // AuctionGetAllocationRatio is the interface to call the smart contract function func (c *AuctionClient) AuctionGetAllocationRatio() (allocationRation [3]uint16, err error) { if err := c.client.Call(func(ec *ethclient.Client) error { allocationRation, err = c.auction.GetAllocationRatio(nil) return err }); err != nil { return [3]uint16{}, err } return allocationRation, nil } // AuctionSetDonationAddress is the interface to call the smart contract function func (c *AuctionClient) AuctionSetDonationAddress(newDonationAddress 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.auction.SetDonationAddress(auth, newDonationAddress) }, ); err != nil { return nil, fmt.Errorf("Failed setting donationAddress: %w", err) } return tx, nil } // AuctionGetDonationAddress is the interface to call the smart contract function func (c *AuctionClient) AuctionGetDonationAddress() (donationAddress *ethCommon.Address, err error) { var _donationAddress ethCommon.Address if err := c.client.Call(func(ec *ethclient.Client) error { _donationAddress, err = c.auction.GetDonationAddress(nil) return err }); err != nil { return nil, err } return &_donationAddress, nil } // AuctionSetBootCoordinator is the interface to call the smart contract function func (c *AuctionClient) AuctionSetBootCoordinator(newBootCoordinator 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.auction.SetBootCoordinator(auth, newBootCoordinator) }, ); err != nil { return nil, fmt.Errorf("Failed setting bootCoordinator: %w", err) } return tx, nil } // AuctionGetBootCoordinator is the interface to call the smart contract function func (c *AuctionClient) AuctionGetBootCoordinator() (bootCoordinator *ethCommon.Address, err error) { var _bootCoordinator ethCommon.Address if err := c.client.Call(func(ec *ethclient.Client) error { _bootCoordinator, err = c.auction.GetBootCoordinator(nil) return err }); err != nil { return nil, err } return &_bootCoordinator, nil } // AuctionChangeDefaultSlotSetBid is the interface to call the smart contract function func (c *AuctionClient) AuctionChangeDefaultSlotSetBid(slotSet int64, newInitialMinBid *big.Int) (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { slotSetToSend := big.NewInt(slotSet) return c.auction.ChangeDefaultSlotSetBid(auth, slotSetToSend, newInitialMinBid) }, ); err != nil { return nil, fmt.Errorf("Failed changing slotSet Bid: %w", err) } return tx, nil } // AuctionGetClaimableHEZ is the interface to call the smart contract function func (c *AuctionClient) AuctionGetClaimableHEZ(claimAddress ethCommon.Address) (claimableHEZ *big.Int, err error) { if err := c.client.Call(func(ec *ethclient.Client) error { claimableHEZ, err = c.auction.GetClaimableHEZ(nil, claimAddress) return err }); err != nil { return nil, err } return claimableHEZ, nil } // AuctionSetCoordinator is the interface to call the smart contract function func (c *AuctionClient) AuctionSetCoordinator(forger ethCommon.Address, coordinatorURL string) (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { return c.auction.SetCoordinator(auth, forger, coordinatorURL) }, ); err != nil { return nil, fmt.Errorf("Failed set coordinator: %w", err) } return tx, nil } // AuctionGetCurrentSlotNumber is the interface to call the smart contract function func (c *AuctionClient) AuctionGetCurrentSlotNumber() (currentSlotNumber int64, err error) { var _currentSlotNumber *big.Int if err := c.client.Call(func(ec *ethclient.Client) error { _currentSlotNumber, err = c.auction.GetCurrentSlotNumber(nil) return err }); err != nil { return 0, err } return _currentSlotNumber.Int64(), nil } // AuctionGetMinBidBySlot is the interface to call the smart contract function func (c *AuctionClient) AuctionGetMinBidBySlot(slot int64) (minBid *big.Int, err error) { if err := c.client.Call(func(ec *ethclient.Client) error { slotToSend := big.NewInt(slot) minBid, err = c.auction.GetMinBidBySlot(nil, slotToSend) return err }); err != nil { return big.NewInt(0), err } return minBid, nil } // AuctionGetSlotSet is the interface to call the smart contract function func (c *AuctionClient) AuctionGetSlotSet(slot int64) (slotSet *big.Int, err error) { if err := c.client.Call(func(ec *ethclient.Client) error { slotToSend := big.NewInt(slot) slotSet, err = c.auction.GetSlotSet(nil, slotToSend) return err }); err != nil { return big.NewInt(0), err } return slotSet, nil } // AuctionGetDefaultSlotSetBid is the interface to call the smart contract function func (c *AuctionClient) AuctionGetDefaultSlotSetBid(slotSet uint8) (minBidSlotSet *big.Int, err error) { if err := c.client.Call(func(ec *ethclient.Client) error { minBidSlotSet, err = c.auction.GetDefaultSlotSetBid(nil, slotSet) return err }); err != nil { return big.NewInt(0), err } return minBidSlotSet, nil } // AuctionGetSlotNumber is the interface to call the smart contract function func (c *AuctionClient) AuctionGetSlotNumber(blockNum int64) (slot int64, err error) { var _slot *big.Int if err := c.client.Call(func(ec *ethclient.Client) error { _slot, err = c.auction.GetSlotNumber(nil, big.NewInt(blockNum)) return err }); err != nil { return 0, err } return _slot.Int64(), nil } // AuctionBid is the interface to call the smart contract function func (c *AuctionClient) AuctionBid(slot int64, bidAmount *big.Int) (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { tokens, err := ERC777.NewERC777(c.tokenAddress, ec) if err != nil { return nil, err } bidFnSignature := []byte("bid(uint128,uint128)") hash := sha3.NewLegacyKeccak256() _, err = hash.Write(bidFnSignature) if err != nil { return nil, err } methodID := hash.Sum(nil)[:4] slotBytes := make([]byte, 8) binary.BigEndian.PutUint64(slotBytes, uint64(slot)) paddedSlot := ethCommon.LeftPadBytes(slotBytes, 32) paddedAmount := ethCommon.LeftPadBytes(bidAmount.Bytes(), 32) var userData []byte userData = append(userData, methodID...) userData = append(userData, paddedSlot...) userData = append(userData, paddedAmount...) return tokens.Send(auth, c.address, bidAmount, userData) }, ); err != nil { return nil, fmt.Errorf("Failed bid: %w", err) } return tx, nil } // AuctionMultiBid is the interface to call the smart contract function func (c *AuctionClient) AuctionMultiBid(startingSlot int64, endingSlot int64, slotSet [6]bool, maxBid, closedMinBid, budget *big.Int) (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 1000000, //nolint:gomnd func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { tokens, err := ERC777.NewERC777(c.tokenAddress, ec) if err != nil { return nil, err } multiBidFnSignature := []byte("multiBid(uint128,uint128,bool[6],uint128,uint128)") hash := sha3.NewLegacyKeccak256() _, err = hash.Write(multiBidFnSignature) if err != nil { return nil, err } methodID := hash.Sum(nil)[:4] startingSlotBytes := make([]byte, 8) binary.BigEndian.PutUint64(startingSlotBytes, uint64(startingSlot)) paddedStartingSlot := ethCommon.LeftPadBytes(startingSlotBytes, 32) endingSlotBytes := make([]byte, 8) binary.BigEndian.PutUint64(endingSlotBytes, uint64(endingSlot)) paddedEndingSlot := ethCommon.LeftPadBytes(endingSlotBytes, 32) paddedMinBid := ethCommon.LeftPadBytes(closedMinBid.Bytes(), 32) paddedMaxBid := ethCommon.LeftPadBytes(maxBid.Bytes(), 32) var userData []byte userData = append(userData, methodID...) userData = append(userData, paddedStartingSlot...) userData = append(userData, paddedEndingSlot...) for i := 0; i < len(slotSet); i++ { if slotSet[i] { paddedSlotSet := ethCommon.LeftPadBytes([]byte{1}, 32) userData = append(userData, paddedSlotSet...) } else { paddedSlotSet := ethCommon.LeftPadBytes([]byte{0}, 32) userData = append(userData, paddedSlotSet...) } } userData = append(userData, paddedMaxBid...) userData = append(userData, paddedMinBid...) return tokens.Send(auth, c.address, budget, userData) }, ); err != nil { return nil, fmt.Errorf("Failed multibid: %w", err) } return tx, nil } // AuctionCanForge is the interface to call the smart contract function func (c *AuctionClient) AuctionCanForge(forger ethCommon.Address, blockNum int64) (canForge bool, err error) { if err := c.client.Call(func(ec *ethclient.Client) error { canForge, err = c.auction.CanForge(nil, forger, big.NewInt(blockNum)) return err }); err != nil { return false, err } return canForge, nil } // AuctionClaimHEZ is the interface to call the smart contract function func (c *AuctionClient) AuctionClaimHEZ() (tx *types.Transaction, err error) { if tx, err = c.client.CallAuth( 0, func(ec *ethclient.Client, auth *bind.TransactOpts) (*types.Transaction, error) { return c.auction.ClaimHEZ(auth) }, ); err != nil { return nil, fmt.Errorf("Failed claim HEZ: %w", err) } return tx, nil } // AuctionForge is the interface to call the smart contract function func (c *AuctionClient) AuctionForge(forger 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.auction.Forge(auth, forger) }, ); err != nil { return nil, fmt.Errorf("Failed forge: %w", err) } return tx, nil } // AuctionConstants returns the Constants of the Auction Smart Contract func (c *AuctionClient) AuctionConstants() (auctionConstants *AuctionConstants, err error) { auctionConstants = new(AuctionConstants) if err := c.client.Call(func(ec *ethclient.Client) error { auctionConstants.BlocksPerSlot, err = c.auction.BLOCKSPERSLOT(nil) if err != nil { return err } genesisBlock, err := c.auction.GenesisBlock(nil) if err != nil { return err } auctionConstants.GenesisBlockNum = genesisBlock.Int64() auctionConstants.HermezRollup, err = c.auction.HermezRollup(nil) if err != nil { return err } auctionConstants.InitialMinimalBidding, err = c.auction.INITIALMINIMALBIDDING(nil) if err != nil { return err } auctionConstants.TokenHEZ, err = c.auction.TokenHEZ(nil) return err }); err != nil { return nil, err } return auctionConstants, nil } // AuctionVariables returns the variables of the Auction Smart Contract func (c *AuctionClient) AuctionVariables() (auctionVariables *AuctionVariables, err error) { auctionVariables = new(AuctionVariables) if err := c.client.Call(func(ec *ethclient.Client) error { auctionVariables.AllocationRatio, err = c.AuctionGetAllocationRatio() if err != nil { return err } bootCoordinator, err := c.AuctionGetBootCoordinator() if err != nil { return err } auctionVariables.BootCoordinator = *bootCoordinator auctionVariables.ClosedAuctionSlots, err = c.AuctionGetClosedAuctionSlots() if err != nil { return err } var defaultSlotSetBid [6]*big.Int for i := uint8(0); i < 6; i++ { bid, err := c.AuctionGetDefaultSlotSetBid(i) if err != nil { return err } defaultSlotSetBid[i] = bid } auctionVariables.DefaultSlotSetBid = defaultSlotSetBid donationAddress, err := c.AuctionGetDonationAddress() if err != nil { return err } auctionVariables.DonationAddress = *donationAddress auctionVariables.OpenAuctionSlots, err = c.AuctionGetOpenAuctionSlots() if err != nil { return err } auctionVariables.Outbidding, err = c.AuctionGetOutbidding() if err != nil { return err } auctionVariables.SlotDeadline, err = c.AuctionGetSlotDeadline() return err }); err != nil { return nil, err } return auctionVariables, nil } var ( logAuctionNewBid = crypto.Keccak256Hash([]byte("NewBid(uint128,uint128,address)")) logAuctionNewSlotDeadline = crypto.Keccak256Hash([]byte("NewSlotDeadline(uint8)")) logAuctionNewClosedAuctionSlots = crypto.Keccak256Hash([]byte("NewClosedAuctionSlots(uint16)")) logAuctionNewOutbidding = crypto.Keccak256Hash([]byte("NewOutbidding(uint16)")) logAuctionNewDonationAddress = crypto.Keccak256Hash([]byte("NewDonationAddress(address)")) logAuctionNewBootCoordinator = crypto.Keccak256Hash([]byte("NewBootCoordinator(address)")) logAuctionNewOpenAuctionSlots = crypto.Keccak256Hash([]byte("NewOpenAuctionSlots(uint16)")) logAuctionNewAllocationRatio = crypto.Keccak256Hash([]byte("NewAllocationRatio(uint16[3])")) logAuctionSetCoordinator = crypto.Keccak256Hash([]byte("SetCoordinator(address,address,string)")) logAuctionNewForgeAllocated = crypto.Keccak256Hash([]byte("NewForgeAllocated(address,address,uint128,uint128,uint128,uint128)")) logAuctionNewDefaultSlotSetBid = crypto.Keccak256Hash([]byte("NewDefaultSlotSetBid(uint128,uint128)")) logAuctionNewForge = crypto.Keccak256Hash([]byte("NewForge(address,uint128)")) logAuctionHEZClaimed = crypto.Keccak256Hash([]byte("HEZClaimed(address,uint128)")) ) // AuctionEventsByBlock returns the events in a block that happened in the // Auction Smart Contract and the blockHash where the eents happened. If there // are no events in that block, blockHash is nil. func (c *AuctionClient) AuctionEventsByBlock(blockNum int64) (*AuctionEvents, *ethCommon.Hash, error) { var auctionEvents AuctionEvents var blockHash ethCommon.Hash query := ethereum.FilterQuery{ FromBlock: big.NewInt(blockNum), ToBlock: big.NewInt(blockNum), Addresses: []ethCommon.Address{ c.address, }, Topics: [][]ethCommon.Hash{}, } logs, err := c.client.client.FilterLogs(context.TODO(), query) if err != nil { return nil, nil, err } if len(logs) > 0 { blockHash = logs[0].BlockHash } for _, vLog := range logs { if vLog.BlockHash != blockHash { return nil, nil, ErrBlockHashMismatchEvent } switch vLog.Topics[0] { case logAuctionNewBid: var auxNewBid struct { Slot *big.Int BidAmount *big.Int Address ethCommon.Address } var newBid AuctionEventNewBid if err := c.contractAbi.Unpack(&auxNewBid, "NewBid", vLog.Data); err != nil { return nil, nil, err } newBid.BidAmount = auxNewBid.BidAmount newBid.Slot = new(big.Int).SetBytes(vLog.Topics[1][:]).Int64() newBid.Bidder = ethCommon.BytesToAddress(vLog.Topics[2].Bytes()) auctionEvents.NewBid = append(auctionEvents.NewBid, newBid) case logAuctionNewSlotDeadline: var newSlotDeadline AuctionEventNewSlotDeadline if err := c.contractAbi.Unpack(&newSlotDeadline, "NewSlotDeadline", vLog.Data); err != nil { return nil, nil, err } auctionEvents.NewSlotDeadline = append(auctionEvents.NewSlotDeadline, newSlotDeadline) case logAuctionNewClosedAuctionSlots: var newClosedAuctionSlots AuctionEventNewClosedAuctionSlots if err := c.contractAbi.Unpack(&newClosedAuctionSlots, "NewClosedAuctionSlots", vLog.Data); err != nil { return nil, nil, err } auctionEvents.NewClosedAuctionSlots = append(auctionEvents.NewClosedAuctionSlots, newClosedAuctionSlots) case logAuctionNewOutbidding: var newOutbidding AuctionEventNewOutbidding if err := c.contractAbi.Unpack(&newOutbidding, "NewOutbidding", vLog.Data); err != nil { return nil, nil, err } auctionEvents.NewOutbidding = append(auctionEvents.NewOutbidding, newOutbidding) case logAuctionNewDonationAddress: var newDonationAddress AuctionEventNewDonationAddress newDonationAddress.NewDonationAddress = ethCommon.BytesToAddress(vLog.Topics[1].Bytes()) auctionEvents.NewDonationAddress = append(auctionEvents.NewDonationAddress, newDonationAddress) case logAuctionNewBootCoordinator: var newBootCoordinator AuctionEventNewBootCoordinator newBootCoordinator.NewBootCoordinator = ethCommon.BytesToAddress(vLog.Topics[1].Bytes()) auctionEvents.NewBootCoordinator = append(auctionEvents.NewBootCoordinator, newBootCoordinator) case logAuctionNewOpenAuctionSlots: var newOpenAuctionSlots AuctionEventNewOpenAuctionSlots if err := c.contractAbi.Unpack(&newOpenAuctionSlots, "NewOpenAuctionSlots", vLog.Data); err != nil { return nil, nil, err } auctionEvents.NewOpenAuctionSlots = append(auctionEvents.NewOpenAuctionSlots, newOpenAuctionSlots) case logAuctionNewAllocationRatio: var newAllocationRatio AuctionEventNewAllocationRatio if err := c.contractAbi.Unpack(&newAllocationRatio, "NewAllocationRatio", vLog.Data); err != nil { return nil, nil, err } auctionEvents.NewAllocationRatio = append(auctionEvents.NewAllocationRatio, newAllocationRatio) case logAuctionSetCoordinator: var setCoordinator AuctionEventSetCoordinator if err := c.contractAbi.Unpack(&setCoordinator, "SetCoordinator", vLog.Data); err != nil { return nil, nil, err } setCoordinator.BidderAddress = ethCommon.BytesToAddress(vLog.Topics[1].Bytes()) setCoordinator.ForgerAddress = ethCommon.BytesToAddress(vLog.Topics[2].Bytes()) auctionEvents.SetCoordinator = append(auctionEvents.SetCoordinator, setCoordinator) case logAuctionNewForgeAllocated: var newForgeAllocated AuctionEventNewForgeAllocated if err := c.contractAbi.Unpack(&newForgeAllocated, "NewForgeAllocated", vLog.Data); err != nil { return nil, nil, err } newForgeAllocated.Bidder = ethCommon.BytesToAddress(vLog.Topics[1].Bytes()) newForgeAllocated.Forger = ethCommon.BytesToAddress(vLog.Topics[2].Bytes()) newForgeAllocated.SlotToForge = new(big.Int).SetBytes(vLog.Topics[3][:]).Int64() auctionEvents.NewForgeAllocated = append(auctionEvents.NewForgeAllocated, newForgeAllocated) case logAuctionNewDefaultSlotSetBid: var auxNewDefaultSlotSetBid struct { SlotSet *big.Int NewInitialMinBid *big.Int } var newDefaultSlotSetBid AuctionEventNewDefaultSlotSetBid if err := c.contractAbi.Unpack(&auxNewDefaultSlotSetBid, "NewDefaultSlotSetBid", vLog.Data); err != nil { return nil, nil, err } newDefaultSlotSetBid.NewInitialMinBid = auxNewDefaultSlotSetBid.NewInitialMinBid newDefaultSlotSetBid.SlotSet = auxNewDefaultSlotSetBid.SlotSet.Int64() auctionEvents.NewDefaultSlotSetBid = append(auctionEvents.NewDefaultSlotSetBid, newDefaultSlotSetBid) case logAuctionNewForge: var newForge AuctionEventNewForge newForge.Forger = ethCommon.BytesToAddress(vLog.Topics[1].Bytes()) newForge.SlotToForge = new(big.Int).SetBytes(vLog.Topics[2][:]).Int64() auctionEvents.NewForge = append(auctionEvents.NewForge, newForge) case logAuctionHEZClaimed: var HEZClaimed AuctionEventHEZClaimed if err := c.contractAbi.Unpack(&HEZClaimed, "HEZClaimed", vLog.Data); err != nil { return nil, nil, err } HEZClaimed.Owner = ethCommon.BytesToAddress(vLog.Topics[1].Bytes()) auctionEvents.HEZClaimed = append(auctionEvents.HEZClaimed, HEZClaimed) } } return &auctionEvents, &blockHash, nil }