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(*****************************************************************************)
(* *)
(* Open Source License *)
(* Copyright (c) 2018 Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
(* *)
(* Permission is hereby granted, free of charge, to any person obtaining a *)
(* copy of this software and associated documentation files (the "Software"),*)
(* to deal in the Software without restriction, including without limitation *)
(* the rights to use, copy, modify, merge, publish, distribute, sublicense, *)
(* and/or sell copies of the Software, and to permit persons to whom the *)
(* 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 *)
(* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER*)
(* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING *)
(* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER *)
(* DEALINGS IN THE SOFTWARE. *)
(* *)
(*****************************************************************************)
(** {1 Entity Accessor Signatures} *)
(** The generic signature of a single data accessor (a single value
bound to a specific key in the hierarchical (key x value)
database). *)
module type Single_data_storage = sig
type t
type context = t
(** The type of the value *)
type value
(** Tells if the data is already defined *)
val mem : context -> bool Lwt.t
(** Retrieve the value from the storage bucket ; returns a
{!Storage_error} if the key is not set or if the deserialisation
fails *)
val get : context -> value tzresult Lwt.t
(** Retrieves the value from the storage bucket ; returns [None] if
the data is not initialized, or {!Storage_helpers.Storage_error}
if the deserialisation fails *)
val get_option : context -> value option tzresult Lwt.t
(** Allocates the storage bucket and initializes it ; returns a
{!Storage_error Existing_key} if the bucket exists *)
val init : context -> value -> Raw_context.t tzresult Lwt.t
(** Updates the content of the bucket ; returns a {!Storage_Error
Missing_key} if the value does not exists *)
val set : context -> value -> Raw_context.t tzresult Lwt.t
(** Allocates the data and initializes it with a value ; just
updates it if the bucket exists *)
val init_set : context -> value -> Raw_context.t Lwt.t
(** When the value is [Some v], allocates the data and initializes
it with [v] ; just updates it if the bucket exists. When the
valus is [None], delete the storage bucket when the value ; does
nothing if the bucket does not exists. *)
val set_option : context -> value option -> Raw_context.t Lwt.t
(** Delete the storage bucket ; returns a {!Storage_error
Missing_key} if the bucket does not exists *)
val delete : context -> Raw_context.t tzresult Lwt.t
(** Removes the storage bucket and its contents ; does nothing if
the bucket does not exists *)
val remove : context -> Raw_context.t Lwt.t
end
(** Variant of {!Single_data_storage} with gas accounting. *)
module type Single_carbonated_data_storage = sig
type t
type context = t
(** The type of the value *)
type value
(** Tells if the data is already defined.
Consumes [Gas_repr.read_bytes_cost Z.zero]. *)
val mem : context -> (Raw_context.t * bool) tzresult Lwt.t
(** Retrieve the value from the storage bucket ; returns a
{!Storage_error} if the key is not set or if the deserialisation
fails.
Consumes [Gas_repr.read_bytes_cost <size of the value>]. *)
val get : context -> (Raw_context.t * value) tzresult Lwt.t
(** Retrieves the value from the storage bucket ; returns [None] if
the data is not initialized, or {!Storage_helpers.Storage_error}
if the deserialisation fails.
Consumes [Gas_repr.read_bytes_cost <size of the value>] if present
or [Gas_repr.read_bytes_cost Z.zero]. *)
val get_option : context -> (Raw_context.t * value option) tzresult Lwt.t
(** Allocates the storage bucket and initializes it ; returns a
{!Storage_error Missing_key} if the bucket exists.
Consumes [Gas_repr.write_bytes_cost <size of the value>].
Returns the size. *)
val init : context -> value -> (Raw_context.t * int) tzresult Lwt.t
(** Updates the content of the bucket ; returns a {!Storage_Error
Existing_key} if the value does not exists.
Consumes [Gas_repr.write_bytes_cost <size of the new value>].
Returns the difference from the old to the new size. *)
val set : context -> value -> (Raw_context.t * int) tzresult Lwt.t
(** Allocates the data and initializes it with a value ; just
updates it if the bucket exists.
Consumes [Gas_repr.write_bytes_cost <size of the new value>].
Returns the difference from the old (maybe 0) to the new size, and a boolean
indicating if a value was already associated to this key. *)
val init_set :
context -> value -> (Raw_context.t * int * bool) tzresult Lwt.t
(** When the value is [Some v], allocates the data and initializes
it with [v] ; just updates it if the bucket exists. When the
valus is [None], delete the storage bucket when the value ; does
nothing if the bucket does not exists.
Consumes the same gas cost as either {!remove} or {!init_set}.
Returns the difference from the old (maybe 0) to the new size, and a boolean
indicating if a value was already associated to this key. *)
val set_option :
context -> value option -> (Raw_context.t * int * bool) tzresult Lwt.t
(** Delete the storage bucket ; returns a {!Storage_error
Missing_key} if the bucket does not exists.
Consumes [Gas_repr.write_bytes_cost Z.zero].
Returns the freed size. *)
val delete : context -> (Raw_context.t * int) tzresult Lwt.t
(** Removes the storage bucket and its contents ; does nothing if
the bucket does not exists.
Consumes [Gas_repr.write_bytes_cost Z.zero].
Returns the freed size, and a boolean
indicating if a value was already associated to this key. *)
val remove : context -> (Raw_context.t * int * bool) tzresult Lwt.t
end
(** Restricted version of {!Indexed_data_storage} w/o iterators. *)
module type Non_iterable_indexed_data_storage = sig
type t
type context = t
(** An abstract type for keys *)
type key
(** The type of values *)
type value
(** Tells if a given key is already bound to a storage bucket *)
val mem : context -> key -> bool Lwt.t
(** Retrieve a value from the storage bucket at a given key ;
returns {!Storage_error Missing_key} if the key is not set ;
returns {!Storage_error Corrupted_data} if the deserialisation
fails. *)
val get : context -> key -> value tzresult Lwt.t
(** Retrieve a value from the storage bucket at a given key ;
returns [None] if the value is not set ; returns {!Storage_error
Corrupted_data} if the deserialisation fails. *)
val get_option : context -> key -> value option tzresult Lwt.t
(** Updates the content of a bucket ; returns A {!Storage_Error
Missing_key} if the value does not exists. *)
val set : context -> key -> value -> Raw_context.t tzresult Lwt.t
(** Allocates a storage bucket at the given key and initializes it ;
returns a {!Storage_error Existing_key} if the bucket exists. *)
val init : context -> key -> value -> Raw_context.t tzresult Lwt.t
(** Allocates a storage bucket at the given key and initializes it
with a value ; just updates it if the bucket exists. *)
val init_set : context -> key -> value -> Raw_context.t Lwt.t
(** When the value is [Some v], allocates the data and initializes
it with [v] ; just updates it if the bucket exists. When the
valus is [None], delete the storage bucket when the value ; does
nothing if the bucket does not exists. *)
val set_option : context -> key -> value option -> Raw_context.t Lwt.t
(** Delete a storage bucket and its contents ; returns a
{!Storage_error Missing_key} if the bucket does not exists. *)
val delete : context -> key -> Raw_context.t tzresult Lwt.t
(** Removes a storage bucket and its contents ; does nothing if the
bucket does not exists. *)
val remove : context -> key -> Raw_context.t Lwt.t
end
(** Variant of {!Non_iterable_indexed_data_storage} with gas accounting. *)
module type Non_iterable_indexed_carbonated_data_storage = sig
type t
type context = t
(** An abstract type for keys *)
type key
(** The type of values *)
type value
(** Tells if a given key is already bound to a storage bucket.
Consumes [Gas_repr.read_bytes_cost Z.zero]. *)
val mem : context -> key -> (Raw_context.t * bool) tzresult Lwt.t
(** Retrieve a value from the storage bucket at a given key ;
returns {!Storage_error Missing_key} if the key is not set ;
returns {!Storage_error Corrupted_data} if the deserialisation
fails.
Consumes [Gas_repr.read_bytes_cost <size of the value>]. *)
val get : context -> key -> (Raw_context.t * value) tzresult Lwt.t
(** Retrieve a value from the storage bucket at a given key ;
returns [None] if the value is not set ; returns {!Storage_error
Corrupted_data} if the deserialisation fails.
Consumes [Gas_repr.read_bytes_cost <size of the value>] if present
or [Gas_repr.read_bytes_cost Z.zero]. *)
val get_option :
context -> key -> (Raw_context.t * value option) tzresult Lwt.t
(** Updates the content of a bucket ; returns A {!Storage_Error
Missing_key} if the value does not exists.
Consumes serialization cost.
Consumes [Gas_repr.write_bytes_cost <size of the new value>].
Returns the difference from the old to the new size. *)
val set : context -> key -> value -> (Raw_context.t * int) tzresult Lwt.t
(** Allocates a storage bucket at the given key and initializes it ;
returns a {!Storage_error Existing_key} if the bucket exists.
Consumes serialization cost.
Consumes [Gas_repr.write_bytes_cost <size of the value>].
Returns the size. *)
val init : context -> key -> value -> (Raw_context.t * int) tzresult Lwt.t
(** Allocates a storage bucket at the given key and initializes it
with a value ; just updates it if the bucket exists.
Consumes serialization cost.
Consumes [Gas_repr.write_bytes_cost <size of the new value>].
Returns the difference from the old (maybe 0) to the new size, and a boolean
indicating if a value was already associated to this key. *)
val init_set :
context -> key -> value -> (Raw_context.t * int * bool) tzresult Lwt.t
(** When the value is [Some v], allocates the data and initializes
it with [v] ; just updates it if the bucket exists. When the
valus is [None], delete the storage bucket when the value ; does
nothing if the bucket does not exists.
Consumes serialization cost.
Consumes the same gas cost as either {!remove} or {!init_set}.
Returns the difference from the old (maybe 0) to the new size, and a boolean
indicating if a value was already associated to this key. *)
val set_option :
context ->
key ->
value option ->
(Raw_context.t * int * bool) tzresult Lwt.t
(** Delete a storage bucket and its contents ; returns a
{!Storage_error Missing_key} if the bucket does not exists.
Consumes [Gas_repr.write_bytes_cost Z.zero].
Returns the freed size. *)
val delete : context -> key -> (Raw_context.t * int) tzresult Lwt.t
(** Removes a storage bucket and its contents ; does nothing if the
bucket does not exists.
Consumes [Gas_repr.write_bytes_cost Z.zero].
Returns the freed size, and a boolean
indicating if a value was already associated to this key. *)
val remove : context -> key -> (Raw_context.t * int * bool) tzresult Lwt.t
end
(** The generic signature of indexed data accessors (a set of values
of the same type indexed by keys of the same form in the
hierarchical (key x value) database). *)
module type Indexed_data_storage = sig
include Non_iterable_indexed_data_storage
(** Empties all the keys and associated data. *)
val clear : context -> Raw_context.t Lwt.t
(** Lists all the keys. *)
val keys : context -> key list Lwt.t
(** Lists all the keys and associated data. *)
val bindings : context -> (key * value) list Lwt.t
(** Iterates over all the keys and associated data. *)
val fold :
context -> init:'a -> f:(key -> value -> 'a -> 'a Lwt.t) -> 'a Lwt.t
(** Iterate over all the keys. *)
val fold_keys : context -> init:'a -> f:(key -> 'a -> 'a Lwt.t) -> 'a Lwt.t
end
module type Indexed_data_snapshotable_storage = sig
type snapshot
type key
include Indexed_data_storage with type key := key
module Snapshot :
Indexed_data_storage
with type key = snapshot * key
and type value = value
and type t = t
val snapshot_exists : context -> snapshot -> bool Lwt.t
val snapshot : context -> snapshot -> Raw_context.t tzresult Lwt.t
val delete_snapshot : context -> snapshot -> Raw_context.t Lwt.t
end
(** The generic signature of a data set accessor (a set of values
bound to a specific key prefix in the hierarchical (key x value)
database). *)
module type Data_set_storage = sig
type t
type context = t
(** The type of elements. *)
type elt
(** Tells if a elt is a member of the set *)
val mem : context -> elt -> bool Lwt.t
(** Adds a elt is a member of the set *)
val add : context -> elt -> Raw_context.t Lwt.t
(** Removes a elt of the set ; does nothing if not a member *)
val del : context -> elt -> Raw_context.t Lwt.t
(** Adds/Removes a elt of the set *)
val set : context -> elt -> bool -> Raw_context.t Lwt.t
(** Returns the elements of the set, deserialized in a list in no
particular order. *)
val elements : context -> elt list Lwt.t
(** Iterates over the elements of the set. *)
val fold : context -> init:'a -> f:(elt -> 'a -> 'a Lwt.t) -> 'a Lwt.t
(** Removes all elements in the set *)
val clear : context -> Raw_context.t Lwt.t
end
module type NAME = sig
val name : Raw_context.key
end
module type VALUE = sig
type t
val encoding : t Data_encoding.t
end
module type REGISTER = sig
val ghost : bool
end
module type Indexed_raw_context = sig
type t
type context = t
type key
type 'a ipath
val clear : context -> Raw_context.t Lwt.t
val fold_keys : context -> init:'a -> f:(key -> 'a -> 'a Lwt.t) -> 'a Lwt.t
val keys : context -> key list Lwt.t
val resolve : context -> string list -> key list Lwt.t
val remove_rec : context -> key -> context Lwt.t
val copy : context -> from:key -> to_:key -> context tzresult Lwt.t
module Make_set (R : REGISTER) (N : NAME) :
Data_set_storage with type t = t and type elt = key
module Make_map (N : NAME) (V : VALUE) :
Indexed_data_storage
with type t = t
and type key = key
and type value = V.t
module Make_carbonated_map (N : NAME) (V : VALUE) :
Non_iterable_indexed_carbonated_data_storage
with type t = t
and type key = key
and type value = V.t
module Raw_context : Raw_context.T with type t = t ipath
end