ligo/vendors/ligo-utils/tezos-protocol-alpha/storage.mli
2019-09-05 15:21:01 +02:00

331 lines
11 KiB
OCaml

(*****************************************************************************)
(* *)
(* Open Source License *)
(* Copyright (c) 2018 Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
(* *)
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(* copy of this software and associated documentation files (the "Software"),*)
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(* Software is furnished to do so, subject to the following conditions: *)
(* *)
(* The above copyright notice and this permission notice shall be included *)
(* in all copies or substantial portions of the Software. *)
(* *)
(* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR*)
(* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, *)
(* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL *)
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(*****************************************************************************)
(** Tezos Protocol Implementation - Typed storage
This module hides the hierarchical (key x value) database under
pre-allocated typed accessors for all persistent entities of the
tezos context.
This interface enforces no invariant on the contents of the
database. Its goal is to centralize all accessors in order to have
a complete view over the database contents and avoid key
collisions. *)
open Storage_sigs
module Last_block_priority : sig
val get : Raw_context.t -> int tzresult Lwt.t
val set : Raw_context.t -> int -> Raw_context.t tzresult Lwt.t
val init : Raw_context.t -> int -> Raw_context.t tzresult Lwt.t
end
module Roll : sig
(** Storage from this submodule must only be accessed through the
module `Roll`. *)
module Owner : Indexed_data_snapshotable_storage
with type key = Roll_repr.t
and type snapshot = (Cycle_repr.t * int)
and type value = Signature.Public_key.t
and type t := Raw_context.t
val clear: Raw_context.t -> Raw_context.t Lwt.t
(** The next roll to be allocated. *)
module Next : Single_data_storage
with type value = Roll_repr.t
and type t := Raw_context.t
(** Rolls linked lists represent both account owned and free rolls.
All rolls belongs either to the limbo list or to an owned list. *)
(** Head of the linked list of rolls in limbo *)
module Limbo : Single_data_storage
with type value = Roll_repr.t
and type t := Raw_context.t
(** Rolls associated to contracts, a linked list per contract *)
module Delegate_roll_list : Indexed_data_storage
with type key = Signature.Public_key_hash.t
and type value = Roll_repr.t
and type t := Raw_context.t
(** Use this to iter on a linked list of rolls *)
module Successor : Indexed_data_storage
with type key = Roll_repr.t
and type value = Roll_repr.t
and type t := Raw_context.t
(** The tez of a contract that are not assigned to rolls *)
module Delegate_change : Indexed_data_storage
with type key = Signature.Public_key_hash.t
and type value = Tez_repr.t
and type t := Raw_context.t
(** Index of the randomly selected roll snapshot of a given cycle. *)
module Snapshot_for_cycle : Indexed_data_storage
with type key = Cycle_repr.t
and type value = int
and type t := Raw_context.t
(** Last roll in the snapshoted roll allocation of a given cycle. *)
module Last_for_snapshot : Indexed_data_storage
with type key = int
and type value = Roll_repr.t
and type t = Raw_context.t * Cycle_repr.t
end
module Contract : sig
(** Storage from this submodule must only be accessed through the
module `Contract`. *)
module Global_counter : sig
val get : Raw_context.t -> Z.t tzresult Lwt.t
val set : Raw_context.t -> Z.t -> Raw_context.t tzresult Lwt.t
val init : Raw_context.t -> Z.t -> Raw_context.t tzresult Lwt.t
end
(** The domain of alive contracts *)
val fold :
Raw_context.t ->
init:'a -> f:(Contract_repr.t -> 'a -> 'a Lwt.t) -> 'a Lwt.t
val list : Raw_context.t -> Contract_repr.t list Lwt.t
(** All the tez possesed by a contract, including rolls and change *)
module Balance : Indexed_data_storage
with type key = Contract_repr.t
and type value = Tez_repr.t
and type t := Raw_context.t
(** Frozen balance, see 'delegate_storage.mli' for more explanation.
Always update `Delegates_with_frozen_balance` accordingly. *)
module Frozen_deposits : Indexed_data_storage
with type key = Cycle_repr.t
and type value = Tez_repr.t
and type t = Raw_context.t * Contract_repr.t
module Frozen_fees : Indexed_data_storage
with type key = Cycle_repr.t
and type value = Tez_repr.t
and type t = Raw_context.t * Contract_repr.t
module Frozen_rewards : Indexed_data_storage
with type key = Cycle_repr.t
and type value = Tez_repr.t
and type t = Raw_context.t * Contract_repr.t
(** The manager of a contract *)
module Manager : Indexed_data_storage
with type key = Contract_repr.t
and type value = Manager_repr.t
and type t := Raw_context.t
(** The delegate of a contract, if any. *)
module Delegate : Indexed_data_storage
with type key = Contract_repr.t
and type value = Signature.Public_key_hash.t
and type t := Raw_context.t
module Delegated : Data_set_storage
with type elt = Contract_hash.t
and type t = Raw_context.t * Contract_repr.t
module Inactive_delegate : Data_set_storage
with type elt = Contract_repr.t
and type t = Raw_context.t
(** The cycle where the delegate should be desactivated. *)
module Delegate_desactivation : Indexed_data_storage
with type key = Contract_repr.t
and type value = Cycle_repr.t
and type t := Raw_context.t
module Spendable : Data_set_storage
with type elt = Contract_repr.t
and type t := Raw_context.t
module Delegatable : Data_set_storage
with type elt = Contract_repr.t
and type t := Raw_context.t
module Counter : Indexed_data_storage
with type key = Contract_repr.t
and type value = Z.t
and type t := Raw_context.t
module Code : Non_iterable_indexed_carbonated_data_storage
with type key = Contract_repr.t
and type value = Script_repr.lazy_expr
and type t := Raw_context.t
module Storage : Non_iterable_indexed_carbonated_data_storage
with type key = Contract_repr.t
and type value = Script_repr.lazy_expr
and type t := Raw_context.t
(** Current storage space in bytes.
Includes code, global storage and big map elements. *)
module Used_storage_space : Indexed_data_storage
with type key = Contract_repr.t
and type value = Z.t
and type t := Raw_context.t
(** Maximal space available without needing to burn new fees. *)
module Paid_storage_space : Indexed_data_storage
with type key = Contract_repr.t
and type value = Z.t
and type t := Raw_context.t
type bigmap_key = Raw_context.t * Contract_repr.t
module Big_map : Non_iterable_indexed_carbonated_data_storage
with type key = Script_expr_hash.t
and type value = Script_repr.expr
and type t := bigmap_key
end
(** Set of all registered delegates. *)
module Delegates : Data_set_storage
with type t := Raw_context.t
and type elt = Signature.Public_key_hash.t
(** Set of all active delegates with rolls. *)
module Active_delegates_with_rolls : Data_set_storage
with type t := Raw_context.t
and type elt = Signature.Public_key_hash.t
(** Set of all the delegates with frozen rewards/bonds/fees for a given cycle. *)
module Delegates_with_frozen_balance : Data_set_storage
with type t = Raw_context.t * Cycle_repr.t
and type elt = Signature.Public_key_hash.t
(** Votes *)
module Vote : sig
module Current_period_kind : Single_data_storage
with type value = Voting_period_repr.kind
and type t := Raw_context.t
(** Expected quorum, in centile of percentage *)
module Current_quorum : Single_data_storage
with type value = int32
and type t := Raw_context.t
module Current_proposal : Single_data_storage
with type value = Protocol_hash.t
and type t := Raw_context.t
(** Sum of all rolls of all delegates. *)
module Listings_size : Single_data_storage
with type value = int32
and type t := Raw_context.t
(** Contains all delegates with their assigned number of rolls. *)
module Listings : Indexed_data_storage
with type key = Signature.Public_key_hash.t
and type value = int32
and type t := Raw_context.t
(** Set of protocol proposal with corresponding proposer delegate *)
module Proposals : Data_set_storage
with type elt = Protocol_hash.t * Signature.Public_key_hash.t
and type t := Raw_context.t
(** Keeps for each delegate the number of proposed protocols *)
module Proposals_count : Indexed_data_storage
with type key = Signature.Public_key_hash.t
and type value = int
and type t := Raw_context.t
(** Contains for each delegate its ballot *)
module Ballots : Indexed_data_storage
with type key = Signature.Public_key_hash.t
and type value = Vote_repr.ballot
and type t := Raw_context.t
end
(** Seed *)
module Seed : sig
(** Storage from this submodule must only be accessed through the
module `Seed`. *)
type unrevealed_nonce = {
nonce_hash: Nonce_hash.t ;
delegate: Signature.Public_key_hash.t ;
rewards: Tez_repr.t ;
fees: Tez_repr.t ;
}
type nonce_status =
| Unrevealed of unrevealed_nonce
| Revealed of Seed_repr.nonce
module Nonce : Non_iterable_indexed_data_storage
with type key := Level_repr.t
and type value := nonce_status
and type t := Raw_context.t
module For_cycle : sig
val init : Raw_context.t -> Cycle_repr.t -> Seed_repr.seed -> Raw_context.t tzresult Lwt.t
val get : Raw_context.t -> Cycle_repr.t -> Seed_repr.seed tzresult Lwt.t
val delete : Raw_context.t -> Cycle_repr.t -> Raw_context.t tzresult Lwt.t
end
end
(** Commitments *)
module Commitments : Indexed_data_storage
with type key = Blinded_public_key_hash.t
and type value = Tez_repr.t
and type t := Raw_context.t
(** Ramp up security deposits... *)
module Ramp_up : sig
module Rewards :
Indexed_data_storage
with type key = Cycle_repr.t
and type value = Tez_repr.t * Tez_repr.t (* baking * endorsement *)
and type t := Raw_context.t
module Security_deposits :
Indexed_data_storage
with type key = Cycle_repr.t
and type value = Tez_repr.t * Tez_repr.t (* baking * endorsement *)
and type t := Raw_context.t
end