CIP | Title | Authors | Comments-Summary | Comments-URI | Status | Type | Created | License |
---|---|---|---|---|---|---|---|---|
19 |
Cardano Addresses |
Matthias Benkort <matthias.benkort@iohk.io> |
A description of the structure of addresses in Cardano. |
Active |
Standards |
2020-03-25 |
CC-BY-4.0 |
This specification describes the structure of addresses in Cardano, covering both addresses introduced in the Shelley era and the legacy format from the Byron era.
Document design choices for posterity. Most applications interacting with the Cardano blockchain will likely not have any need for this level of details, however, some might. This CIP is meant to capture this knowledge.
In Cardano, an address is a sequence of bytes that conforms to a particular format, which we describe below.
However, users will typically come into contact with addresses only after these addresses have been encoded into sequences of human-readable characters. In Cardano, the Bech32 and Base58 encodings are used to encode addresses, as opposed to standard hexadecimal notation (Base16, example 0x8A7B
). These encoded sequence of characters have to be distinguished from the byte sequences that they encode, but lay users will (and should) perceive the encoded form as "the" address.
By convention, Shelley and stake addresses are encoded using Bech32, with the exception that Cardano does not impose a length limit on the sequence of characters. The human-readable prefixes are defined in CIP-0005; the most common prefix is addr
, representing an address on mainnet. Bech32 is the preferred encoding, as its built-in error detection may protect users against accidental misspellings or truncations.
Again by convention, Byron addresses are encoded in Base58.
Historically, Byron addresses were introduced before the design of Bech32, which solves various issues of the Base58 encoding format (see Bech32's motivation for more detail). Byron addresses were however kept as Base58 to easily distinguish them from new addresses introduced in Shelley, massively making use of Bech32 for encoding small binary objects.
Cave: In principle, it is possible for a Shelley address to be encoded in Base58 and a Byron address to be encoded in Bech32 (without length limit). However, implementations are encouraged to reject addresses that were encoded against convention, as this helps with the goal that lay users only encounter a single, canonical version of every address.
Examples of different addresses encoded in different eras:
Address Type | Encoding | Example |
---|---|---|
Byron | Base58 | 37btjrVyb4KDXBNC4haBVPCrro8AQPHwvCMp3RFhhSVWwfFmZ6wwzSK6JK1hY6wHNmtrpTf1kdbva8TCneM2YsiXT7mrzT21EacHnPpz5YyUdj64na |
Shelley | bech32 | addr1vpu5vlrf4xkxv2qpwngf6cjhtw542ayty80v8dyr49rf5eg0yu80w |
stake | bech32 | stake1vpu5vlrf4xkxv2qpwngf6cjhtw542ayty80v8dyr49rf5egfu2p0u |
In Cardano, the sequence of bytes (after decoding with Bech32 or Base58) that represents an address comprises two parts, a one-byte header and a payload of several bytes. Depending on the header, the interpretation and length of the payload varies.
In the header-byte, bits [7;4] indicate the type of addresses being used; we'll call these four bits the header type. The remaining four bits [3;0] are either unused or refer to what we'll call the network tag. There are currently 11 types of addresses in Cardano which we'll divide into three categories: Shelley addresses, stake addresses, and Byron addresses.
1 byte variable length
<------> <------------------->
┌────────┬─────────────────────┐
│ header │ payload │
└────────┴─────────────────────┘
🔎
╎ 7 6 5 4 3 2 1 0
╎ ┌─┬─┬─┬─┬─┬─┬─┬─┐
╰╌╌╌╌╌╌╌╌ │t│t│t│t│n│n│n│n│
└─┴─┴─┴─┴─┴─┴─┴─┘
See also the more detailed ABNF grammar in annex.
Except for Byron addresses (type 8 = 1000
), the second half of the header (bits [3;0]) refers to the network tag which can have the following values and semantics. Other values of the network tag are currently reserved for future network types. In the case of Byron addresses, bits [3;0] have a completely separate definition detailed in the section below.
Network Tag (. . . . n n n n ) |
Semantic |
---|---|
....0000 |
Testnet(s) |
....0001 |
Mainnet |
There are currently 8 types of Shelley addresses summarized in the table below:
Header type (t t t t . . . . ) |
Payment Part | Delegation Part |
---|---|---|
(0) 0000.... |
PaymentKeyHash |
StakeKeyHash |
(1) 0001.... |
ScriptHash |
StakeKeyHash |
(2) 0010.... |
PaymentKeyHash |
ScriptHash |
(3) 0011.... |
ScriptHash |
ScriptHash |
(4) 0100.... |
PaymentKeyHash |
Pointer |
(5) 0101.... |
ScriptHash |
Pointer |
(6) 0110.... |
PaymentKeyHash |
ø |
(7) 0111.... |
ScriptHash |
ø |
-
PaymentKeyHash
andStakeKeyHash
refer toblake2b-224
hash digests of Ed25519 verification keys. How keys are obtained is out of the scope of this specification. Interested readers may look at CIP-1852 for more details. -
ScriptHash
refer toblake2b-224
hash digests of serialized monetary scripts. How scripts are constructed and serialized is out of the scope of this specification. -
Pointer
is detailed in the section below.
Fundamentally, the first part of a Shelley address indicates the ownership of the funds associated with the address. We call it the payment part. Whoever owns the payment parts owns any funds at the address. As a matter of fact, in order to spend from an address, one must provide a witness attesting that the address can be spent. In the case of a PaymentKeyHash
, it means providing a signature of the transaction body made with the signing key corresponding to the hashed public key (as well as the public key itself for verification). For monetary scripts, it means being able to provide the source script and meet the necessary conditions to validate the script.
The second part of a Shelley address indicates the owner of the stake rights associated with the address. We call it the delegation part. Whoever owns the delegation parts owns the stake rights of any funds associated with the address. In most scenarios, the payment part and the delegation part are owned by the same party. Yet it is possible to construct addresses where both parts are owned and managed by separate entities. We call such addresses mangled addresses or hybrid addresses.
Some addresses (types 6 and 7) carry no delegation part whatsoever. Their associated stake can't be delegated. They can be used by parties who want to prove that they are not delegating funds which is typically the case for custodial businesses managing funds on the behalf of other stakeholders. Delegation parts can also be defined in terms of on-chain pointers.
In an address, a chain pointer refers to a point of the chain containing a stake key registration certificate. A point is identified by 3 coordinates:
- An absolute slot number
- A transaction index (within that slot)
- A (delegation) certificate index (within that transaction)
These coordinates form a concise way of referring to a stake key (typically half the size of a stake key hash). They are serialized as three variable-length positive numbers following the ABNF grammar here below:
POINTER = VARIABLE-LENGTH-UINT ; slot number
| VARIABLE-LENGTH-UINT ; transaction index
| VARIABLE-LENGTH-UINT ; certificate index
VARIABLE-LENGTH-UINT = (%b1 | UINT7 | VARIABLE-LENGTH-UINT)
/ (%b0 | UINT7)
UINT7 = 7BIT
Like Shelley addresses, stake addresses (also known as reward addresses) start with a single header byte identifying their type and the network, followed by 28 bytes of payload identifying either a stake key hash or a script hash.
Header type (t t t t . . . . ) |
Stake Reference |
---|---|
(14) 1110.... |
StakeKeyHash |
(15) 1111.... |
ScriptHash |
-
StakeKeyHash
refers toblake2b-224
hash digests of Ed25519 verification keys. How keys are obtained is out of the scope of this specification. Interested readers may look at CIP-1852 for more details. -
ScriptHash
refers toblake2b-224
hash digests of serialized monetary scripts. How scripts are constructed and serialized is out of the scope of this specification.
Before diving in, please acknowledge that a lot of the supported capabilities of Byron addresses have remained largely unused. The initial design showed important trade-offs and rendered it unpractical to sustain the long-term goals of the network. A new format was created when introducing Shelley and Byron addresses were kept only for backward compatibility. Byron addresses are also sometimes called bootstrap addresses.
Like many other objects on the Cardano blockchain yet unlike Shelley addresses, Byron addresses are CBOR-encoded binary objects. Conveniently enough, the first 4 bits of their first byte are always equal to 1000....
which allows us to land back on our feet w.r.t to the address type. Their internal structure is however vastly different and a bit unusual.
┌────────┬──────────────┬────────┐
│ root │ attributes │ type │
└────────┴──────────────┴────────┘
╎ ╎ ╎
╎ ╎ ╰╌╌ Standard
╎ ╎ ╰╌╌ Redeem
╎ ╎
╎ ╰╌╌ Derivation Path
╎ ╰╌╌ Network Tag
╎
╎ ┌────────┬─────────────────┬──────────────┐
╰╌╌╌╌ double-hash ( │ type │ spending data │ attributes │ )
└────────┴─────────────────┴──────────────┘
╎
╰╌╌ Verification Key
╰╌╌ Redemption Key
The address root
uniquely identifies the address and is a double-hash digest (SHA3-256, and then Blake2b-224) of the address type, spending data, and attributes.
Then comes the address attributes which are both optional. The network tag is present only on test networks and contains an identifier that is used for network discrimination. The derivation path (detailed below) was used by legacy so-called random wallets in the early days of Cardano and its usage was abandoned with the introduction of Yoroi and so-called Icarus addresses.
Finally, the address type allows for distinguishing different sub-types of Byron addresses. Redeem addresses are used inside the Byron genesis configuration and were given to early investors who helped to fund the project.
A full and more detailed CDDL specification of Byron addresses is given in the annex to the CIP.
Historically, Cardano wallets have been storing information about the wallet structure directly within the address. This information comes in the form of two derivation indexes (in the sense of child key derivation as defined in BIP-0032) which we call derivation path. To protect the wallet's anonymity, the derivation path is stored encrypted using a ChaCha20/Poly1305 authenticated cipher.
N/A
N/A
All test vectors below use the following payment key, stake key, script and pointer:
addr_vk1w0l2sr2zgfm26ztc6nl9xy8ghsk5sh6ldwemlpmp9xylzy4dtf7st80zhd
stake_vk1px4j0r2fk7ux5p23shz8f3y5y2qam7s954rgf3lg5merqcj6aetsft99wu
script1cda3khwqv60360rp5m7akt50m6ttapacs8rqhn5w342z7r35m37
(2498243, 27, 3)
mainnet:
type-00: addr1qx2fxv2umyhttkxyxp8x0dlpdt3k6cwng5pxj3jhsydzer3n0d3vllmyqwsx5wktcd8cc3sq835lu7drv2xwl2wywfgse35a3x
type-01: addr1z8phkx6acpnf78fuvxn0mkew3l0fd058hzquvz7w36x4gten0d3vllmyqwsx5wktcd8cc3sq835lu7drv2xwl2wywfgs9yc0hh
type-02: addr1yx2fxv2umyhttkxyxp8x0dlpdt3k6cwng5pxj3jhsydzerkr0vd4msrxnuwnccdxlhdjar77j6lg0wypcc9uar5d2shs2z78ve
type-03: addr1x8phkx6acpnf78fuvxn0mkew3l0fd058hzquvz7w36x4gt7r0vd4msrxnuwnccdxlhdjar77j6lg0wypcc9uar5d2shskhj42g
type-04: addr1gx2fxv2umyhttkxyxp8x0dlpdt3k6cwng5pxj3jhsydzer5pnz75xxcrzqf96k
type-05: addr128phkx6acpnf78fuvxn0mkew3l0fd058hzquvz7w36x4gtupnz75xxcrtw79hu
type-06: addr1vx2fxv2umyhttkxyxp8x0dlpdt3k6cwng5pxj3jhsydzers66hrl8
type-07: addr1w8phkx6acpnf78fuvxn0mkew3l0fd058hzquvz7w36x4gtcyjy7wx
type-14: stake1uyehkck0lajq8gr28t9uxnuvgcqrc6070x3k9r8048z8y5gh6ffgw
type-15: stake178phkx6acpnf78fuvxn0mkew3l0fd058hzquvz7w36x4gtcccycj5
testnet:
type-00: addr_test1qz2fxv2umyhttkxyxp8x0dlpdt3k6cwng5pxj3jhsydzer3n0d3vllmyqwsx5wktcd8cc3sq835lu7drv2xwl2wywfgs68faae
type-01: addr_test1zrphkx6acpnf78fuvxn0mkew3l0fd058hzquvz7w36x4gten0d3vllmyqwsx5wktcd8cc3sq835lu7drv2xwl2wywfgsxj90mg
type-02: addr_test1yz2fxv2umyhttkxyxp8x0dlpdt3k6cwng5pxj3jhsydzerkr0vd4msrxnuwnccdxlhdjar77j6lg0wypcc9uar5d2shsf5r8qx
type-03: addr_test1xrphkx6acpnf78fuvxn0mkew3l0fd058hzquvz7w36x4gt7r0vd4msrxnuwnccdxlhdjar77j6lg0wypcc9uar5d2shs4p04xh
type-04: addr_test1gz2fxv2umyhttkxyxp8x0dlpdt3k6cwng5pxj3jhsydzer5pnz75xxcrdw5vky
type-05: addr_test12rphkx6acpnf78fuvxn0mkew3l0fd058hzquvz7w36x4gtupnz75xxcryqrvmw
type-06: addr_test1vz2fxv2umyhttkxyxp8x0dlpdt3k6cwng5pxj3jhsydzerspjrlsz
type-07: addr_test1wrphkx6acpnf78fuvxn0mkew3l0fd058hzquvz7w36x4gtcl6szpr
type-14: stake_test1uqehkck0lajq8gr28t9uxnuvgcqrc6070x3k9r8048z8y5gssrtvn
type-15: stake_test17rphkx6acpnf78fuvxn0mkew3l0fd058hzquvz7w36x4gtcljw6kf
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