ligo/src/proto/bootstrap/storage.ml

535 lines
15 KiB
OCaml
Raw Normal View History

2016-09-08 21:13:10 +04:00
(**************************************************************************)
(* *)
(* Copyright (c) 2014 - 2016. *)
(* Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
(* *)
(* All rights reserved. No warranty, explicit or implicit, provided. *)
(* *)
(**************************************************************************)
open Tezos_hash
open Storage_functors
let version = "v1"
let sandboxed_key = [ version ; "sandboxed" ]
let prevalidation_key = [ version ; "prevalidation" ]
type t = Storage_functors.context
type error += Invalid_sandbox_parameter
2016-09-08 21:13:10 +04:00
let get_sandboxed c =
Context.get c sandboxed_key >>= function
| None -> return None
| Some bytes ->
match Data_encoding.Binary.of_bytes Data_encoding.json bytes with
| None -> fail Invalid_sandbox_parameter
| Some json -> return (Some json)
2016-09-08 21:13:10 +04:00
let set_sandboxed c json =
Context.set c sandboxed_key
(Data_encoding.Binary.to_bytes Data_encoding.json json)
2016-09-08 21:13:10 +04:00
let prepare (c : Context.t) : t tzresult Lwt.t =
get_sandboxed c >>=? fun sandbox ->
Constants_repr.read sandbox >>=? function constants ->
return (c, constants)
let recover (c, _ : t) : Context.t = c
let get_prevalidation (c, _ : t) =
Context.get c prevalidation_key >>= function
| None -> Lwt.return false
| Some _ -> Lwt.return true
let set_prevalidation (c, constants : t) =
Context.set c prevalidation_key (MBytes.of_string "prevalidation") >>= fun c ->
Lwt.return (c, constants)
let constants : t -> _ = snd
module Key = struct
let store_root tail = version :: "store" :: tail
let current_level = store_root ["level"]
let current_timestamp = store_root ["timestamp"]
let current_fitness = store_root ["fitness"]
let global_counter = store_root ["global_counter"]
let next_cycle_to_be_rewarded = store_root ["next_cycle_to_be_rewarded"]
let rewards = store_root ["rewards"]
2016-11-14 20:33:32 +04:00
let public_keys = ["public_keys" ; "ed25519"]
2016-09-08 21:13:10 +04:00
module Roll = struct
let store_root l = store_root ("rolls" :: l)
let next = store_root [ "next" ]
let limbo = store_root [ "limbo" ]
let roll_store roll l =
store_root @@ Int32.to_string (Roll_repr.to_int32 roll) :: l
let successor r = roll_store r ["successor"]
let owner r = roll_store r ["owner"]
end
module Cycle = struct
let store_root l = store_root ("cycles" :: l)
let cycle_store c l =
store_root @@ Int32.to_string (Cycle_repr.to_int32 c) :: l
let last_roll c = cycle_store c [ "last_roll" ]
let random_seed c = cycle_store c [ "random_seed" ]
let reward_date c = cycle_store c [ "reward_date" ]
let roll_owner (c, r) =
cycle_store c [ "roll_owners" ; Int32.to_string (Roll_repr.to_int32 r)]
let unrevealed_nonce_hash l =
let c = l.Level_repr.cycle in
cycle_store c [ "unrevealed_nonce_hash" ;
Int32.to_string l.Level_repr.cycle_position ]
end
module Contract = struct
2016-09-08 21:13:10 +04:00
let store_root l = store_root ("contracts" :: l)
let set = store_root ["set"]
2016-11-14 20:33:32 +04:00
let pubkey_contract l = store_root ("pubkey" :: l)
let generic_contract l = store_root ("generic" :: l)
2016-09-08 21:13:10 +04:00
let contract_store c l =
match c with
| Contract_repr.Default k ->
2016-11-14 20:33:32 +04:00
pubkey_contract @@ Ed25519.Public_key_hash.to_path k @ l
| Contract_repr.Originated h ->
2016-11-14 20:33:32 +04:00
generic_contract @@ Contract_hash.to_path h @ l
2016-09-08 21:13:10 +04:00
let roll_list c = contract_store c ["roll_list"]
let change c = contract_store c ["change"]
let balance c = contract_store c ["balance"]
let assets c = contract_store c ["assets"]
let manager c = contract_store c ["manager"]
let spendable c = contract_store c ["spendable"]
let delegatable c = contract_store c ["delegatable"]
let delegate c = contract_store c ["delegate"]
let counter c = contract_store c ["counter"]
let code c = contract_store c ["code"]
let storage c = contract_store c ["storage"]
end
module Vote = struct
let store_root l = store_root ("votes" :: l)
let period_kind = store_root ["current_period_kind"]
let quorum = store_root ["current_quorum"]
let proposition = store_root ["current_proposition"]
let proposals = store_root ["proposals"]
let ballots = store_root ["ballots"]
let listings_size = store_root ["listings_size"]
let listings = store_root ["listings"]
end
end
(** Global *)
module Current_level =
Make_single_data_storage(struct
type value = Raw_level_repr.t
let name = "level"
let key = Key.current_level
let encoding = Raw_level_repr.encoding
end)
module Current_timestamp =
Make_single_data_storage(struct
type value = Time_repr.t
let name = "timestamp"
let key = Key.current_timestamp
let encoding = Time_repr.encoding
end)
module Current_fitness =
Make_single_data_storage(struct
type value = int64
let name = "fitness"
let key = Key.current_fitness
let encoding = Data_encoding.int64
end)
(** Rolls *)
module Roll = struct
module Next =
Make_single_data_storage(struct
type value = Roll_repr.t
let name = "next fresh roll"
let key = Key.Roll.next
let encoding = Roll_repr.encoding
end)
module Limbo =
Make_single_optional_data_storage(struct
type value = Roll_repr.t
let name = "limbo"
let key = Key.Roll.limbo
let encoding = Roll_repr.encoding
end)
module Last_for_cycle =
Make_indexed_data_storage(struct
type key = Cycle_repr.t
type value = Roll_repr.t
let name = "last roll for current cycle"
let key = Key.Cycle.last_roll
let encoding = Roll_repr.encoding
end)
module Successor =
Make_indexed_optional_data_storage(struct
type key = Roll_repr.t
type value = Roll_repr.t
let name = "roll successor"
let key = Key.Roll.successor
let encoding = Roll_repr.encoding
end)
module Owner =
Make_indexed_data_storage(struct
type key = Roll_repr.t
type value = Contract_repr.t
let name = "roll owner"
let key = Key.Roll.owner
let encoding = Contract_repr.encoding
end)
module Owner_for_cycle =
Make_indexed_data_storage(struct
type key = Cycle_repr.t * Roll_repr.t
type value = Ed25519.Public_key_hash.t
2016-09-08 21:13:10 +04:00
let name = "roll owner for current cycle"
let key = Key.Cycle.roll_owner
let encoding = Ed25519.Public_key_hash.encoding
2016-09-08 21:13:10 +04:00
end)
module Contract_roll_list =
Make_indexed_optional_data_storage(struct
type key = Contract_repr.t
type value = Roll_repr.t
let name = "contract roll list"
let key = Key.Contract.roll_list
let encoding = Roll_repr.encoding
end)
module Contract_change =
Make_indexed_data_storage(struct
type key = Contract_repr.t
type value = Tez_repr.t
let name = "contract change"
let key = Key.Contract.change
let encoding = Tez_repr.encoding
end)
end
(** Contracts handling *)
module Contract = struct
module Global_counter =
Make_single_data_storage(struct
type value = int32
let name = "global counter"
let key = Key.global_counter
let encoding = Data_encoding.int32
end)
(** FIXME REMOVE : use 'list' *)
2016-09-08 21:13:10 +04:00
module Set =
Make_data_set_storage(struct
type value = Contract_repr.t
let name = "contract set"
let key = Key.Contract.set
let encoding = Contract_repr.encoding
end)
module Balance =
Make_indexed_data_storage(
struct
type key = Contract_repr.t
type value = Tez_repr.t
let name = "contract balance"
let key = Key.Contract.balance
let encoding = Tez_repr.encoding
end)
module Assets =
Make_indexed_data_storage(
struct
type key = Contract_repr.t
type value = Asset_repr.Map.t
let name = "contract assets"
let key = Key.Contract.assets
let encoding = Asset_repr.Map.encoding
end)
module Manager =
Make_indexed_data_storage(struct
type key = Contract_repr.t
type value = Ed25519.Public_key_hash.t
2016-09-08 21:13:10 +04:00
let name = "contract manager"
let key = Key.Contract.manager
let encoding = Ed25519.Public_key_hash.encoding
2016-09-08 21:13:10 +04:00
end)
module Spendable =
Make_indexed_data_storage(struct
type key = Contract_repr.t
type value = bool
let name = "contract spendable"
let key = Key.Contract.spendable
let encoding = Data_encoding.bool
end)
module Delegatable =
Make_indexed_data_storage(struct
type key = Contract_repr.t
type value = bool
let name = "contract delegatable"
let key = Key.Contract.delegatable
let encoding = Data_encoding.bool
end)
module Delegate =
Make_indexed_data_storage(struct
type key = Contract_repr.t
type value = Ed25519.Public_key_hash.t
2016-09-08 21:13:10 +04:00
let name = "contract delegate"
let key = Key.Contract.delegate
let encoding = Ed25519.Public_key_hash.encoding
2016-09-08 21:13:10 +04:00
end)
module Counter =
Make_indexed_data_storage(struct
type key = Contract_repr.t
type value = Int32.t
let name = "contract counter"
let key = Key.Contract.counter
let encoding = Data_encoding.int32
end)
module Code =
Make_indexed_data_storage(struct
type key = Contract_repr.t
type value = Script_repr.code
let name = "contract code"
let key = Key.Contract.code
let encoding = Script_repr.code_encoding
end)
module Storage =
Make_indexed_data_storage(struct
type key = Contract_repr.t
type value = Script_repr.storage
let name = "contract storage"
let key = Key.Contract.storage
let encoding = Script_repr.storage_encoding
end)
end
(** Votes **)
module Vote = struct
module Current_period_kind =
Make_single_data_storage(struct
type value = Voting_period_repr.kind
let name = "current period kind"
let key = Key.Vote.period_kind
let encoding = Voting_period_repr.kind_encoding
end)
module Current_quorum =
Make_single_data_storage(struct
type value = int32
let name = "current quorum"
let key = Key.Vote.quorum
let encoding = Data_encoding.int32
end)
module Current_proposal =
Make_single_data_storage(struct
type value = Protocol_hash.t
let name = "current proposal"
let key = Key.Vote.proposition
let encoding = Protocol_hash.encoding
end)
module Listings_size =
Make_single_data_storage(struct
type value = int32
let name = "listing size"
let key = Key.Vote.listings_size
let encoding = Data_encoding.int32
end)
module Listings =
Make_iterable_data_storage (Ed25519.Public_key_hash)
(struct
type value = int32
let key = Key.Vote.listings
let name = "listings"
let encoding = Data_encoding.int32
end)
module Proposals =
Make_data_set_storage
(struct
type value = Protocol_hash.t * Ed25519.Public_key_hash.t
2016-09-08 21:13:10 +04:00
let name = "proposals"
let encoding =
Data_encoding.tup2
Protocol_hash.encoding Ed25519.Public_key_hash.encoding
let key = Key.Vote.proposals
end)
module Ballots =
Make_iterable_data_storage (Ed25519.Public_key_hash)
(struct
type value = Vote_repr.ballot
let key = Key.Vote.ballots
let name = "ballot"
let encoding = Vote_repr.ballot_encoding
end)
end
(** Keys *)
module Public_key =
Make_iterable_data_storage (Ed25519.Public_key_hash)
(struct
type value = Ed25519.public_key
2016-11-14 20:33:32 +04:00
let key = Key.public_keys
2016-09-08 21:13:10 +04:00
let name = "public keys"
let encoding = Ed25519.public_key_encoding
end)
(** Seed *)
module Seed = struct
type nonce_status =
| Unrevealed of {
nonce_hash: Tezos_hash.Nonce_hash.t ;
delegate_to_reward: Ed25519.Public_key_hash.t ;
2016-09-08 21:13:10 +04:00
reward_amount: Tez_repr.t ;
}
| Revealed of Seed_repr.nonce
module Nonce =
Make_indexed_data_storage(struct
type key = Level_repr.level
type value = nonce_status
let name = "unrevealed nonce hash"
let key = Key.Cycle.unrevealed_nonce_hash
let encoding =
let open Data_encoding in
union [
case ~tag:0
(tup3
Nonce_hash.encoding
Ed25519.Public_key_hash.encoding
Tez_repr.encoding
)
(function
| Unrevealed { nonce_hash ; delegate_to_reward ; reward_amount } ->
Some (nonce_hash, delegate_to_reward, reward_amount)
| _ -> None)
(fun (nonce_hash, delegate_to_reward, reward_amount) ->
Unrevealed { nonce_hash ; delegate_to_reward ; reward_amount }) ;
case ~tag:1
Seed_repr.nonce_encoding
(function
| Revealed nonce -> Some nonce
| _ -> None)
(fun nonce -> Revealed nonce)
]
end)
module For_cycle =
Make_indexed_data_storage(struct
type key = Cycle_repr.t
type value = Seed_repr.seed
let name = "cycle random seed"
let key = Key.Cycle.random_seed
let encoding = Seed_repr.seed_encoding
end)
end
(** Rewards *)
module Rewards = struct
module Next =
Make_single_data_storage(struct
type value = Cycle_repr.t
let name = "reward cycle"
let key = Key.next_cycle_to_be_rewarded
let encoding = Cycle_repr.encoding
end)
module Date =
Make_indexed_data_storage(struct
type key = Cycle_repr.t
type value = Time_repr.t
let name = "reward timestamp"
let key = Key.Cycle.reward_date
let encoding = Time_repr.encoding
end)
module Amount =
Raw_make_iterable_data_storage(struct
type t = Ed25519.Public_key_hash.t * Cycle_repr.t
2016-09-08 21:13:10 +04:00
let prefix = Key.rewards
let length = Ed25519.Public_key_hash.path_len + 1
let to_path (pkh, c) =
Ed25519.Public_key_hash.to_path pkh @
[Int32.to_string (Cycle_repr.to_int32 c)]
let of_path p =
match List.rev p with
| [] -> assert false
| cycle :: rev_pkh ->
(Ed25519.Public_key_hash.of_path (List.rev rev_pkh),
Cycle_repr.of_int32_exn @@ Int32.of_string cycle)
let compare (pkh1, c1) (pkh2, c2) =
let cmp1 = Ed25519.Public_key_hash.compare pkh1 pkh2 in
if Compare.Int.(cmp1 = 0) then Cycle_repr.compare c1 c2
else cmp1
end)(struct
type value = Tez_repr.t
let name = "level miner contract"
let encoding = Tez_repr.encoding
end)
end
let get_genesis_block (c, _) = Context.get_genesis_block c
let get_genesis_time (c, _) = Context.get_genesis_time c
let activate (c, constants) h =
Updater.activate c h >>= fun c -> Lwt.return (c, constants)
let fork_test_network (c, constants) =
Updater.fork_test_network c >>= fun c -> Lwt.return (c, constants)
let set_test_protocol (c, constants) h =
Updater.set_test_protocol c h >>= fun c -> Lwt.return (c, constants)
(** Resolver *)
let () =
Storage_functors.register_resolvers
(module Contract_hash)
[ Key.Contract.generic_contract [] ] ;
Storage_functors.register_resolvers
(module Ed25519.Public_key_hash)
[ Key.Contract.pubkey_contract [] ;
Key.public_keys ]