package types import ( "github.com/ethereum/go-ethereum/common" ) // accessList is copied from go-ethereum // https://github.com/ethereum/go-ethereum/blob/cf856ea1ad96ac39ea477087822479b63417036a/core/state/access_list.go#L23 type accessList struct { addresses map[common.Address]int slots []map[common.Hash]struct{} } // ContainsAddress returns true if the address is in the access list. func (al *accessList) ContainsAddress(address common.Address) bool { _, ok := al.addresses[address] return ok } // Contains checks if a slot within an account is present in the access list, returning // separate flags for the presence of the account and the slot respectively. func (al *accessList) Contains(address common.Address, slot common.Hash) (addressPresent bool, slotPresent bool) { idx, ok := al.addresses[address] if !ok { // no such address (and hence zero slots) return false, false } if idx == -1 { // address yes, but no slots return true, false } if idx >= len(al.slots) { // return in case of out-of-range return true, false } _, slotPresent = al.slots[idx][slot] return true, slotPresent } // newAccessList creates a new accessList. func newAccessList() *accessList { return &accessList{ addresses: make(map[common.Address]int), } } // Copy creates an independent copy of an accessList. func (al *accessList) Copy() *accessList { cp := newAccessList() for k, v := range al.addresses { cp.addresses[k] = v } cp.slots = make([]map[common.Hash]struct{}, len(al.slots)) for i, slotMap := range al.slots { newSlotmap := make(map[common.Hash]struct{}, len(slotMap)) for k := range slotMap { newSlotmap[k] = struct{}{} } cp.slots[i] = newSlotmap } return cp } // AddAddress adds an address to the access list, and returns 'true' if the operation // caused a change (addr was not previously in the list). func (al *accessList) AddAddress(address common.Address) bool { if _, present := al.addresses[address]; present { return false } al.addresses[address] = -1 return true } // AddSlot adds the specified (addr, slot) combo to the access list. // Return values are: // - address added // - slot added // For any 'true' value returned, a corresponding journal entry must be made. func (al *accessList) AddSlot(address common.Address, slot common.Hash) (addrChange bool, slotChange bool) { idx, addrPresent := al.addresses[address] if !addrPresent || idx == -1 { // Address not present, or addr present but no slots there al.addresses[address] = len(al.slots) slotmap := map[common.Hash]struct{}{slot: {}} al.slots = append(al.slots, slotmap) return !addrPresent, true } if idx >= len(al.slots) { // return in case of out-of-range return false, false } // There is already an (address,slot) mapping slotmap := al.slots[idx] if _, ok := slotmap[slot]; !ok { slotmap[slot] = struct{}{} // Journal add slot change return false, true } // No changes required return false, false } // DeleteSlot removes an (address, slot)-tuple from the access list. // This operation needs to be performed in the same order as the addition happened. // This method is meant to be used by the journal, which maintains ordering of // operations. func (al *accessList) DeleteSlot(address common.Address, slot common.Hash) { idx, addrOk := al.addresses[address] // There are two ways this can fail if !addrOk { panic("reverting slot change, address not present in list") } slotmap := al.slots[idx] delete(slotmap, slot) // If that was the last (first) slot, remove it // Since additions and rollbacks are always performed in order, // we can delete the item without worrying about screwing up later indices if len(slotmap) == 0 { al.slots = al.slots[:idx] al.addresses[address] = -1 } } // DeleteAddress removes an address from the access list. This operation // needs to be performed in the same order as the addition happened. // This method is meant to be used by the journal, which maintains ordering of // operations. func (al *accessList) DeleteAddress(address common.Address) { delete(al.addresses, address) }