// Copyright 2015 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . package common import ( "bytes" "database/sql/driver" "encoding/hex" "encoding/json" "errors" "fmt" "math/big" "math/rand" "reflect" "strings" "github.com/ledgerwatch/erigon/common/hexutil" "golang.org/x/crypto/sha3" ) // Lengths of hashes and addresses in bytes. const ( // HashLength is the expected length of the hash (in bytes) HashLength = 32 // AddressLength is the expected length of the address (in bytes) AddressLength = 20 // BlockNumberLength length of uint64 big endian BlockNumberLength = 8 // IncarnationLength length of uint64 for contract incarnations IncarnationLength = 8 // Address32Length is the expected length of the Starknet address (in bytes) Address32Length = 32 ) var ( hashT = reflect.TypeOf(Hash{}) addressT = reflect.TypeOf(Address{}) addressSt = reflect.TypeOf(Address32{}) ) // Hash represents the 32 byte Keccak256 hash of arbitrary data. type Hash [HashLength]byte // BytesToHash sets b to hash. // If b is larger than len(h), b will be cropped from the left. func BytesToHash(b []byte) Hash { var h Hash h.SetBytes(b) return h } // BigToHash sets byte representation of b to hash. // If b is larger than len(h), b will be cropped from the left. func BigToHash(b *big.Int) Hash { return BytesToHash(b.Bytes()) } // HexToHash sets byte representation of s to hash. // If b is larger than len(h), b will be cropped from the left. func HexToHash(s string) Hash { return BytesToHash(FromHex(s)) } // Bytes gets the byte representation of the underlying hash. func (h Hash) Bytes() []byte { return h[:] } // Big converts a hash to a big integer. func (h Hash) Big() *big.Int { return new(big.Int).SetBytes(h[:]) } // Hex converts a hash to a hex string. func (h Hash) Hex() string { return hexutil.Encode(h[:]) } // TerminalString implements log.TerminalStringer, formatting a string for console // output during logging. func (h Hash) TerminalString() string { return fmt.Sprintf("%x…%x", h[:3], h[29:]) } // String implements the stringer interface and is used also by the logger when // doing full logging into a file. func (h Hash) String() string { return h.Hex() } // Format implements fmt.Formatter. // Hash supports the %v, %s, %v, %x, %X and %d format verbs. func (h Hash) Format(s fmt.State, c rune) { hexb := make([]byte, 2+len(h)*2) copy(hexb, "0x") hex.Encode(hexb[2:], h[:]) switch c { case 'x', 'X': if !s.Flag('#') { hexb = hexb[2:] } if c == 'X' { hexb = bytes.ToUpper(hexb) } fallthrough case 'v', 's': s.Write(hexb) case 'q': q := []byte{'"'} s.Write(q) s.Write(hexb) s.Write(q) case 'd': fmt.Fprint(s, ([len(h)]byte)(h)) default: fmt.Fprintf(s, "%%!%c(hash=%x)", c, h) } } // UnmarshalText parses a hash in hex syntax. func (h *Hash) UnmarshalText(input []byte) error { return hexutil.UnmarshalFixedText("Hash", input, h[:]) } // UnmarshalJSON parses a hash in hex syntax. func (h *Hash) UnmarshalJSON(input []byte) error { return hexutil.UnmarshalFixedJSON(hashT, input, h[:]) } // MarshalText returns the hex representation of h. func (h Hash) MarshalText() ([]byte, error) { return hexutil.Bytes(h[:]).MarshalText() } // SetBytes sets the hash to the value of b. // If b is larger than len(h), b will be cropped from the left. func (h *Hash) SetBytes(b []byte) { if len(b) > len(h) { b = b[len(b)-HashLength:] } copy(h[HashLength-len(b):], b) } // Generate implements testing/quick.Generator. func (h Hash) Generate(rand *rand.Rand, size int) reflect.Value { m := rand.Intn(len(h)) for i := len(h) - 1; i > m; i-- { h[i] = byte(rand.Uint32()) } return reflect.ValueOf(h) } // Scan implements Scanner for database/sql. func (h *Hash) Scan(src interface{}) error { srcB, ok := src.([]byte) if !ok { return fmt.Errorf("can't scan %T into Hash", src) } if len(srcB) != HashLength { return fmt.Errorf("can't scan []byte of len %d into Hash, want %d", len(srcB), HashLength) } copy(h[:], srcB) return nil } // Value implements valuer for database/sql. func (h Hash) Value() (driver.Value, error) { return h[:], nil } // UnprefixedHash allows marshaling a Hash without 0x prefix. type UnprefixedHash Hash // UnmarshalText decodes the hash from hex. The 0x prefix is optional. func (h *UnprefixedHash) UnmarshalText(input []byte) error { return hexutil.UnmarshalFixedUnprefixedText("UnprefixedHash", input, h[:]) } // MarshalText encodes the hash as hex. func (h UnprefixedHash) MarshalText() ([]byte, error) { return []byte(hex.EncodeToString(h[:])), nil } /////////// Address // Address represents the 20 byte address of an Ethereum account. type Address [AddressLength]byte // BytesToAddress returns Address with value b. // If b is larger than len(h), b will be cropped from the left. func BytesToAddress(b []byte) Address { var a Address a.SetBytes(b) return a } // BytesToAddressNoCopy - see https://tip.golang.org/ref/spec#Conversions_from_slice_to_array_pointer func BytesToAddressNoCopy(b []byte) Address { return *(*Address)(b) } // BigToAddress returns Address with byte values of b. // If b is larger than len(h), b will be cropped from the left. func BigToAddress(b *big.Int) Address { return BytesToAddress(b.Bytes()) } // HexToAddress returns Address with byte values of s. // If s is larger than len(h), s will be cropped from the left. func HexToAddress(s string) Address { return BytesToAddress(FromHex(s)) } // IsHexAddress verifies whether a string can represent a valid hex-encoded // Ethereum address or not. func IsHexAddress(s string) bool { if has0xPrefix(s) { s = s[2:] } return len(s) == 2*AddressLength && isHex(s) } // Bytes gets the string representation of the underlying address. func (a Address) Bytes() []byte { return a[:] } // Hash converts an address to a hash by left-padding it with zeros. func (a Address) Hash() Hash { return BytesToHash(a[:]) } // Hex returns an EIP55-compliant hex string representation of the address. func (a Address) Hex() string { return string(a.checksumHex()) } // String implements fmt.Stringer. func (a Address) String() string { return a.Hex() } func (a *Address) checksumHex() []byte { buf := a.hex() // compute checksum sha := sha3.NewLegacyKeccak256() //nolint:errcheck sha.Write(buf[2:]) hash := sha.Sum(nil) for i := 2; i < len(buf); i++ { hashByte := hash[(i-2)/2] if i%2 == 0 { hashByte = hashByte >> 4 } else { hashByte &= 0xf } if buf[i] > '9' && hashByte > 7 { buf[i] -= 32 } } return buf } func (a Address) hex() []byte { var buf [len(a)*2 + 2]byte copy(buf[:2], "0x") hex.Encode(buf[2:], a[:]) return buf[:] } // Format implements fmt.Formatter. // Address supports the %v, %s, %v, %x, %X and %d format verbs. func (a Address) Format(s fmt.State, c rune) { switch c { case 'v', 's': s.Write(a.checksumHex()) case 'q': q := []byte{'"'} s.Write(q) s.Write(a.checksumHex()) s.Write(q) case 'x', 'X': // %x disables the checksum. hex := a.hex() if !s.Flag('#') { hex = hex[2:] } if c == 'X' { hex = bytes.ToUpper(hex) } s.Write(hex) case 'd': fmt.Fprint(s, ([len(a)]byte)(a)) default: fmt.Fprintf(s, "%%!%c(address=%x)", c, a) } } // SetBytes sets the address to the value of b. // If b is larger than len(a), b will be cropped from the left. func (a *Address) SetBytes(b []byte) { if len(b) > len(a) { b = b[len(b)-AddressLength:] } copy(a[AddressLength-len(b):], b) } // MarshalText returns the hex representation of a. func (a Address) MarshalText() ([]byte, error) { return hexutil.Bytes(a[:]).MarshalText() } // UnmarshalText parses a hash in hex syntax. func (a *Address) UnmarshalText(input []byte) error { return hexutil.UnmarshalFixedText("Address", input, a[:]) } // UnmarshalJSON parses a hash in hex syntax. func (a *Address) UnmarshalJSON(input []byte) error { return hexutil.UnmarshalFixedJSON(addressT, input, a[:]) } // Scan implements Scanner for database/sql. func (a *Address) Scan(src interface{}) error { srcB, ok := src.([]byte) if !ok { return fmt.Errorf("can't scan %T into Address", src) } if len(srcB) != AddressLength { return fmt.Errorf("can't scan []byte of len %d into Address, want %d", len(srcB), AddressLength) } copy(a[:], srcB) return nil } // Value implements valuer for database/sql. func (a Address) Value() (driver.Value, error) { return a[:], nil } // UnprefixedAddress allows marshaling an Address without 0x prefix. type UnprefixedAddress Address // UnmarshalText decodes the address from hex. The 0x prefix is optional. func (a *UnprefixedAddress) UnmarshalText(input []byte) error { return hexutil.UnmarshalFixedUnprefixedText("UnprefixedAddress", input, a[:]) } // MarshalText encodes the address as hex. func (a UnprefixedAddress) MarshalText() ([]byte, error) { return []byte(hex.EncodeToString(a[:])), nil } // MixedcaseAddress retains the original string, which may or may not be // correctly checksummed type MixedcaseAddress struct { addr Address original string } // NewMixedcaseAddress constructor (mainly for testing) func NewMixedcaseAddress(addr Address) MixedcaseAddress { return MixedcaseAddress{addr: addr, original: addr.Hex()} } // NewMixedcaseAddressFromString is mainly meant for unit-testing func NewMixedcaseAddressFromString(hexaddr string) (*MixedcaseAddress, error) { if !IsHexAddress(hexaddr) { return nil, errors.New("invalid address") } a := FromHex(hexaddr) return &MixedcaseAddress{addr: BytesToAddress(a), original: hexaddr}, nil } // UnmarshalJSON parses MixedcaseAddress func (ma *MixedcaseAddress) UnmarshalJSON(input []byte) error { if err := hexutil.UnmarshalFixedJSON(addressT, input, ma.addr[:]); err != nil { return err } return json.Unmarshal(input, &ma.original) } // MarshalJSON marshals the original value func (ma *MixedcaseAddress) MarshalJSON() ([]byte, error) { if strings.HasPrefix(ma.original, "0x") || strings.HasPrefix(ma.original, "0X") { return json.Marshal(fmt.Sprintf("0x%s", ma.original[2:])) } return json.Marshal(fmt.Sprintf("0x%s", ma.original)) } // Address returns the address func (ma *MixedcaseAddress) Address() Address { return ma.addr } // String implements fmt.Stringer func (ma *MixedcaseAddress) String() string { if ma.ValidChecksum() { return fmt.Sprintf("%s [chksum ok]", ma.original) } return fmt.Sprintf("%s [chksum INVALID]", ma.original) } // ValidChecksum returns true if the address has valid checksum func (ma *MixedcaseAddress) ValidChecksum() bool { return ma.original == ma.addr.Hex() } // Original returns the mixed-case input string func (ma *MixedcaseAddress) Original() string { return ma.original } // Addresses is a slice of common.Address, implementing sort.Interface type Addresses []Address func (addrs Addresses) Len() int { return len(addrs) } func (addrs Addresses) Less(i, j int) bool { return bytes.Compare(addrs[i][:], addrs[j][:]) == -1 } func (addrs Addresses) Swap(i, j int) { addrs[i], addrs[j] = addrs[j], addrs[i] } // Hashes is a slice of common.Hash, implementing sort.Interface type Hashes []Hash func (hashes Hashes) Len() int { return len(hashes) } func (hashes Hashes) Less(i, j int) bool { return bytes.Compare(hashes[i][:], hashes[j][:]) == -1 } func (hashes Hashes) Swap(i, j int) { hashes[i], hashes[j] = hashes[j], hashes[i] } const StorageKeyLen = 2*HashLength + IncarnationLength // StorageKey is representation of address of a contract storage item // It consists of two parts, each of which are 32-byte hashes: // 1. Hash of the contract's address // 2. Hash of the item's key type StorageKey [StorageKeyLen]byte // StorageKeys is a slice of StorageKey, implementing sort.Interface type StorageKeys []StorageKey func (keys StorageKeys) Len() int { return len(keys) } func (keys StorageKeys) Less(i, j int) bool { return bytes.Compare(keys[i][:], keys[j][:]) == -1 } func (keys StorageKeys) Swap(i, j int) { keys[i], keys[j] = keys[j], keys[i] } /////////// Address32 // Address32 represents the 32 byte address. type Address32 [Address32Length]byte // BytesToAddress32 returns Address32 with value b. // If b is larger than len(h), b will be cropped from the left. func BytesToAddress32(b []byte) Address32 { var a Address32 a.SetBytes(b) return a } // HexToAddress32 returns Address32 with byte values of s. // If s is larger than len(h), s will be cropped from the left. func HexToAddress32(s string) Address32 { return BytesToAddress32(FromHex(s)) } // IsHexAddress32 verifies whether a string can represent a valid hex-encoded // Starknet address or not. func IsHexAddress32(s string) bool { if has0xPrefix(s) { s = s[2:] } return len(s) == 2*Address32Length && isHex(s) } // Bytes gets the string representation of the underlying address. func (a Address32) Bytes() []byte { return a[:] } // Hash converts an address to a hash by left-padding it with zeros. func (a Address32) Hash() Hash { return BytesToHash(a[:]) } // Hex returns an EIP55-compliant hex string representation of the address. func (a Address32) Hex() string { return string(a.checksumHex()) } // String implements fmt.Stringer. func (a Address32) String() string { return a.Hex() } func (a *Address32) checksumHex() []byte { buf := a.hex() // compute checksum sha := sha3.NewLegacyKeccak256() //nolint:errcheck sha.Write(buf[2:]) hash := sha.Sum(nil) for i := 2; i < len(buf); i++ { hashByte := hash[(i-2)/2] if i%2 == 0 { hashByte = hashByte >> 4 } else { hashByte &= 0xf } if buf[i] > '9' && hashByte > 7 { buf[i] -= 32 } } return buf } func (a Address32) hex() []byte { var buf [len(a)*2 + 2]byte copy(buf[:2], "0x") hex.Encode(buf[2:], a[:]) return buf[:] } // SetBytes sets the address to the value of b. // If b is larger than len(a), b will be cropped from the left. func (a *Address32) SetBytes(b []byte) { if len(b) > len(a) { b = b[len(b)-Address32Length:] } copy(a[Address32Length-len(b):], b) } // MarshalText returns the hex representation of a. func (a Address32) MarshalText() ([]byte, error) { return hexutil.Bytes(a[:]).MarshalText() } // UnmarshalText parses a hash in hex syntax. func (a *Address32) UnmarshalText(input []byte) error { return hexutil.UnmarshalFixedText("Address", input, a[:]) } // UnmarshalJSON parses a hash in hex syntax. func (a *Address32) UnmarshalJSON(input []byte) error { return hexutil.UnmarshalFixedJSON(addressSt, input, a[:]) } // ToCommonAddress converts Address32 to Address func (a *Address32) ToCommonAddress() Address { ad := Address{} ad.SetBytes(a.Bytes()) return ad } // Format implements fmt.Formatter. // Address32 supports the %v, %s, %v, %x, %X and %d format verbs. func (a Address32) Format(s fmt.State, c rune) { switch c { case 'v', 's': s.Write(a.checksumHex()) case 'q': q := []byte{'"'} s.Write(q) s.Write(a.checksumHex()) s.Write(q) case 'x', 'X': // %x disables the checksum. hex := a.hex() if !s.Flag('#') { hex = hex[2:] } if c == 'X' { hex = bytes.ToUpper(hex) } s.Write(hex) case 'd': fmt.Fprint(s, ([len(a)]byte)(a)) default: fmt.Fprintf(s, "%%!%c(address=%x)", c, a) } }