shelley.cddl

; Shelley Types

block =
  [ header
  , transaction_bodies         : [* transaction_body]
  , transaction_witness_sets   : [* transaction_witness_set]
  , transaction_metadata_set   :
      { * transaction_index => transaction_metadata }
  ]; Valid blocks must also satisfy the following two constraints:
   ; 1) the length of transaction_bodies and transaction_witness_sets
   ;    must be the same
   ; 2) every transaction_index must be strictly smaller than the
   ;    length of transaction_bodies

transaction =
  [ transaction_body
  , transaction_witness_set
  , transaction_metadata / null
  ]

transaction_index = uint .size 2

header =
  [ header_body
  , body_signature : $kes_signature
  ]

header_body =
  [ block_number     : uint
  , slot             : uint
  , prev_hash        : $hash32 / null
  , issuer_vkey      : $vkey
  , vrf_vkey         : $vrf_vkey
  , nonce_vrf        : $vrf_cert
  , leader_vrf       : $vrf_cert
  , block_body_size  : uint
  , block_body_hash  : $hash32 ; merkle triple root
  , operational_cert
  , protocol_version
  ]

operational_cert =
  ( hot_vkey        : $kes_vkey
  , sequence_number : uint
  , kes_period      : uint
  , sigma           : $signature
  )

next_major_protocol_version = 3

major_protocol_version = 1..next_major_protocol_version

protocol_version = (major_protocol_version, uint)

transaction_body =
  { 0 : set<transaction_input>
  , 1 : [* transaction_output]
  , 2 : coin ; fee
  , 3 : uint ; ttl
  , ? 4 : [* certificate]
  , ? 5 : withdrawals
  , ? 6 : update
  , ? 7 : metadata_hash
  }

transaction_input = [ transaction_id : $hash32
                    , index : uint
                    ]

transaction_output = [address, amount : coin]

; address = bytes
; reward_account = bytes

; address format:
; [ 8 bit header | payload ];
;
; shelley payment addresses:
; bit 7: 0
; bit 6: base/other
; bit 5: pointer/enterprise [for base: stake cred is keyhash/scripthash]
; bit 4: payment cred is keyhash/scripthash
; bits 3-0: network id
;
; reward addresses:
; bits 7-5: 111
; bit 4: credential is keyhash/scripthash
; bits 3-0: network id
;
; byron addresses:
; bits 7-4: 1000

; 0000: base address: keyhash28,keyhash28
; 0001: base address: scripthash28,keyhash28
; 0010: base address: keyhash28,scripthash28
; 0011: base address: scripthash28,scripthash28
; 0100: pointer address: keyhash28, 3 variable length uint
; 0101: pointer address: scripthash28, 3 variable length uint
; 0110: enterprise address: keyhash28
; 0111: enterprise address: scripthash28
; 1000: byron address
; 1110: reward account: keyhash28
; 1111: reward account: scripthash28
; 1001 - 1101: future formats

certificate =
  [ stake_registration
  // stake_deregistration
  // stake_delegation
  // pool_registration
  // pool_retirement
  // genesis_key_delegation
  // move_instantaneous_rewards_cert
  ]

stake_registration = (0, stake_credential)
stake_deregistration = (1, stake_credential)
stake_delegation = (2, stake_credential, pool_keyhash)
pool_registration = (3, pool_params)
pool_retirement = (4, pool_keyhash, epoch)
genesis_key_delegation = (5, genesishash, genesis_delegate_hash, vrf_keyhash)
move_instantaneous_rewards_cert = (6, move_instantaneous_reward)

move_instantaneous_reward = [ 0 / 1, { * stake_credential => coin } ]
; The first field determines where the funds are drawn from.
; 0 denotes the reserves, 1 denotes the treasury.

stake_credential =
  [  0, addr_keyhash
  // 1, scripthash
  ]

pool_params = ( operator:       pool_keyhash
              , vrf_keyhash:    vrf_keyhash
              , pledge:         coin
              , cost:           coin
              , margin:         unit_interval
              , reward_account: reward_account
              , pool_owners:    set<addr_keyhash>
              , relays:         [* relay]
              , pool_metadata:  pool_metadata / null
              )

port = uint .le 65535
ipv4 = bytes .size 4
ipv6 = bytes .size 16
dns_name = tstr .size (0..64)

single_host_addr = ( 0
                   , port / null
                   , ipv4 / null
                   , ipv6 / null
                   )
single_host_name = ( 1
                   , port / null
                   , dns_name ; An A or AAAA DNS record
                   )
multi_host_name = ( 2
                   , dns_name ; A SRV DNS record
                   )
relay =
  [  single_host_addr
  // single_host_name
  // multi_host_name
  ]

pool_metadata = [url, metadata_hash]
url = tstr .size (0..64)

withdrawals = { * reward_account => coin }

update = [ proposed_protocol_parameter_updates
         , epoch
         ]

proposed_protocol_parameter_updates =
  { * genesishash => protocol_param_update }

protocol_param_update =
  { ? 0:  uint               ; minfee A
  , ? 1:  uint               ; minfee B
  , ? 2:  uint               ; max block body size
  , ? 3:  uint               ; max transaction size
  , ? 4:  uint               ; max block header size
  , ? 5:  coin               ; key deposit
  , ? 6:  coin               ; pool deposit
  , ? 7: epoch               ; maximum epoch
  , ? 8: uint                ; n_opt: desired number of stake pools
  , ? 9: rational            ; pool pledge influence
  , ? 10: unit_interval      ; expansion rate
  , ? 11: unit_interval      ; treasury growth rate
  , ? 12: unit_interval      ; d. decentralization constant
  , ? 13: $nonce             ; extra entropy
  , ? 14: [protocol_version] ; protocol version
  , ? 15: coin               ; min utxo value
  }

transaction_witness_set =
  { ?0 => [* vkeywitness ]
  , ?1 => [* multisig_script ]
  , ?2 => [* bootstrap_witness ]
  ; In the future, new kinds of witnesses can be added like this:
  ; , ?3 => [* monetary_policy_script ]
  ; , ?4 => [* plutus_script ]
  }

transaction_metadatum =
    { * transaction_metadatum => transaction_metadatum }
  / [ * transaction_metadatum ]
  / int
  / bytes .size (0..64)
  / text .size (0..64)

transaction_metadatum_label = uint

transaction_metadata =
  { * transaction_metadatum_label => transaction_metadatum }

vkeywitness = [ $vkey, $signature ]

bootstrap_witness =
  [ public_key : $vkey
  , signature  : $signature
  , chain_code : bytes .size 32
  , attributes : bytes
  ]

multisig_script =
  [ multisig_pubkey
  // multisig_all
  // multisig_any
  // multisig_n_of_k
  ]

multisig_pubkey = (0, addr_keyhash)
multisig_all = (1, [ * multisig_script ])
multisig_any = (2, [ * multisig_script ])
multisig_n_of_k = (3, n: uint, [ * multisig_script ])

coin = uint
epoch = uint

addr_keyhash          = $hash28
genesis_delegate_hash = $hash28
pool_keyhash          = $hash28
genesishash           = $hash28

vrf_keyhash           = $hash32
metadata_hash         = $hash32

; To compute a script hash, note that you must prepend
; a tag to the bytes of the script before hashing.
; The tag is determined by the language.
; In the Shelley era there is only one such tag,
; namely "\x00" for multisig scripts.
scripthash            = $hash28

$nonce /= [ 0 // 1, bytes .size 32 ]