DCIPs/EIPS/eip-55.md

---
eip: 55
title: Mixed-case checksum address encoding
author: Vitalik Buterin <vitalik.buterin@ethereum.org>, Alex Van de Sande <avsa@ethereum.org>
discussions-to: https://github.com/ethereum/eips/issues/55
type: Standards Track
category: ERC
status: Final
created: 2016-01-14
---

# Specification

Code:

``` python
import eth_utils


def checksum_encode(addr): # Takes a 20-byte binary address as input
    hex_addr = addr.hex()
    checksummed_buffer = ""

    # Treat the hex address as ascii/utf-8 for keccak256 hashing
    hashed_address = eth_utils.keccak(text=hex_addr).hex()

    # Iterate over each character in the hex address
    for nibble_index, character in enumerate(hex_addr):

        if character in "0123456789":
            # We can't upper-case the decimal digits
            checksummed_buffer += character
        elif character in "abcdef":
            # Check if the corresponding hex digit (nibble) in the hash is 8 or higher
            hashed_address_nibble = int(hashed_address[nibble_index], 16)
            if hashed_address_nibble > 7:
                checksummed_buffer += character.upper()
            else:
                checksummed_buffer += character
        else:
            raise eth_utils.ValidationError(
                f"Unrecognized hex character {character!r} at position {nibble_index}"
            )

    return "0x" + checksummed_buffer


def test(addr_str):
    addr_bytes = eth_utils.to_bytes(hexstr=addr_str)
    checksum_encoded = checksum_encode(addr_bytes)
    assert checksum_encoded == addr_str, f"{checksum_encoded} != expected {addr_str}"


test("0x5aAeb6053F3E94C9b9A09f33669435E7Ef1BeAed")
test("0xfB6916095ca1df60bB79Ce92cE3Ea74c37c5d359")
test("0xdbF03B407c01E7cD3CBea99509d93f8DDDC8C6FB")
test("0xD1220A0cf47c7B9Be7A2E6BA89F429762e7b9aDb")

```

In English, convert the address to hex, but if the `i`th digit is a letter (ie. it's one of `abcdef`) print it in uppercase if the `4*i`th bit of the hash of the lowercase hexadecimal address is 1 otherwise print it in lowercase.

# Rationale

Benefits:
- Backwards compatible with many hex parsers that accept mixed case, allowing it to be easily introduced over time
- Keeps the length at 40 characters
- On average there will be 15 check bits per address, and the net probability that a randomly generated address if mistyped will accidentally pass a check is 0.0247%. This is a ~50x improvement over ICAP, but not as good as a 4-byte check code.

# Implementation

In javascript:

```js
const createKeccakHash = require('keccak')

function toChecksumAddress (address) {
  address = address.toLowerCase().replace('0x', '')
  var hash = createKeccakHash('keccak256').update(address).digest('hex')
  var ret = '0x'

  for (var i = 0; i < address.length; i++) {
    if (parseInt(hash[i], 16) >= 8) {
      ret += address[i].toUpperCase()
    } else {
      ret += address[i]
    }
  }

  return ret
}
```

```
> toChecksumAddress('0xfb6916095ca1df60bb79ce92ce3ea74c37c5d359')
'0xfB6916095ca1df60bB79Ce92cE3Ea74c37c5d359'
```

Note that the input to the Keccak256 hash is the lowercase hexadecimal string (i.e. the hex address encoded as ASCII):

```
    var hash = createKeccakHash('keccak256').update(Buffer.from(address.toLowerCase(), 'ascii')).digest()
```

# Test Cases

```
# All caps
0x52908400098527886E0F7030069857D2E4169EE7
0x8617E340B3D01FA5F11F306F4090FD50E238070D
# All Lower
0xde709f2102306220921060314715629080e2fb77
0x27b1fdb04752bbc536007a920d24acb045561c26
# Normal
0x5aAeb6053F3E94C9b9A09f33669435E7Ef1BeAed
0xfB6916095ca1df60bB79Ce92cE3Ea74c37c5d359
0xdbF03B407c01E7cD3CBea99509d93f8DDDC8C6FB
0xD1220A0cf47c7B9Be7A2E6BA89F429762e7b9aDb
```
Adding EIPs website fork with some Gem Updates 2023-04-05 16:02:54 +00:00			`---`
			`eip: 55`
			`title: Mixed-case checksum address encoding`
			`author: Vitalik Buterin <vitalik.buterin@ethereum.org>, Alex Van de Sande <avsa@ethereum.org>`
			`discussions-to: https://github.com/ethereum/eips/issues/55`
			`type: Standards Track`
			`category: ERC`
			`status: Final`
			`created: 2016-01-14`
			`---`

			`# Specification`

			`Code:`

			``` python
			`import eth_utils`


			`def checksum_encode(addr): # Takes a 20-byte binary address as input`
			`hex_addr = addr.hex()`
			`checksummed_buffer = ""`

			`# Treat the hex address as ascii/utf-8 for keccak256 hashing`
			`hashed_address = eth_utils.keccak(text=hex_addr).hex()`

			`# Iterate over each character in the hex address`
			`for nibble_index, character in enumerate(hex_addr):`

			`if character in "0123456789":`
			`# We can't upper-case the decimal digits`
			`checksummed_buffer += character`
			`elif character in "abcdef":`
			`# Check if the corresponding hex digit (nibble) in the hash is 8 or higher`
			`hashed_address_nibble = int(hashed_address[nibble_index], 16)`
			`if hashed_address_nibble > 7:`
			`checksummed_buffer += character.upper()`
			`else:`
			`checksummed_buffer += character`
			`else:`
			`raise eth_utils.ValidationError(`
			`f"Unrecognized hex character {character!r} at position {nibble_index}"`
			`)`

			`return "0x" + checksummed_buffer`


			`def test(addr_str):`
			`addr_bytes = eth_utils.to_bytes(hexstr=addr_str)`
			`checksum_encoded = checksum_encode(addr_bytes)`
			`assert checksum_encoded == addr_str, f"{checksum_encoded} != expected {addr_str}"`


			`test("0x5aAeb6053F3E94C9b9A09f33669435E7Ef1BeAed")`
			`test("0xfB6916095ca1df60bB79Ce92cE3Ea74c37c5d359")`
			`test("0xdbF03B407c01E7cD3CBea99509d93f8DDDC8C6FB")`
			`test("0xD1220A0cf47c7B9Be7A2E6BA89F429762e7b9aDb")`

			```

			In English, convert the address to hex, but if the `i`th digit is a letter (ie. it's one of `abcdef`) print it in uppercase if the `4*i`th bit of the hash of the lowercase hexadecimal address is 1 otherwise print it in lowercase.

			`# Rationale`

			`Benefits:`
			`- Backwards compatible with many hex parsers that accept mixed case, allowing it to be easily introduced over time`
			`- Keeps the length at 40 characters`
			`- On average there will be 15 check bits per address, and the net probability that a randomly generated address if mistyped will accidentally pass a check is 0.0247%. This is a ~50x improvement over ICAP, but not as good as a 4-byte check code.`

			`# Implementation`

			`In javascript:`

			```js
			`const createKeccakHash = require('keccak')`

			`function toChecksumAddress (address) {`
			`address = address.toLowerCase().replace('0x', '')`
			`var hash = createKeccakHash('keccak256').update(address).digest('hex')`
			`var ret = '0x'`

			`for (var i = 0; i < address.length; i++) {`
			`if (parseInt(hash[i], 16) >= 8) {`
			`ret += address[i].toUpperCase()`
			`} else {`
			`ret += address[i]`
			`}`
			`}`

			`return ret`
			`}`
			```

			```
			`> toChecksumAddress('0xfb6916095ca1df60bb79ce92ce3ea74c37c5d359')`
			`'0xfB6916095ca1df60bB79Ce92cE3Ea74c37c5d359'`
			```

			`Note that the input to the Keccak256 hash is the lowercase hexadecimal string (i.e. the hex address encoded as ASCII):`

			```
			`var hash = createKeccakHash('keccak256').update(Buffer.from(address.toLowerCase(), 'ascii')).digest()`
			```

			`# Test Cases`

			```
			`# All caps`
			`0x52908400098527886E0F7030069857D2E4169EE7`
			`0x8617E340B3D01FA5F11F306F4090FD50E238070D`
			`# All Lower`
			`0xde709f2102306220921060314715629080e2fb77`
			`0x27b1fdb04752bbc536007a920d24acb045561c26`
			`# Normal`
			`0x5aAeb6053F3E94C9b9A09f33669435E7Ef1BeAed`
			`0xfB6916095ca1df60bB79Ce92cE3Ea74c37c5d359`
			`0xdbF03B407c01E7cD3CBea99509d93f8DDDC8C6FB`
			`0xD1220A0cf47c7B9Be7A2E6BA89F429762e7b9aDb`
			```