ligo/lib_node_shell/state.mli

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(**************************************************************************)
(* *)
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(* Copyright (c) 2014 - 2017. *)
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(* Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
(* *)
(* All rights reserved. No warranty, explicit or implicit, provided. *)
(* *)
(**************************************************************************)
(** Tezos Shell - Abstraction over all the disk storage.
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It encapsulates access to:
- the index of validation contexts; and
- the persistent state of the node:
- the blockchain and its alternate heads of a "network";
- the pool of pending operations of a "network". *)
type t
type global_state = t
(** Read the internal state of the node and initialize
the databases. *)
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val read:
?patch_context:(Context.t -> Context.t Lwt.t) ->
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store_root:string ->
context_root:string ->
unit ->
global_state tzresult Lwt.t
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val close:
global_state -> unit Lwt.t
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(** {2 Errors} **************************************************************)
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type error +=
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| Unknown_network of Net_id.t
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(** {2 Network} ************************************************************)
(** Data specific to a given network (e.g the mainnet or the current
test network). *)
module Net : sig
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type t
type net_state = t
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(** The chain starts from a genesis block associated to a seed protocol *)
type genesis = {
time: Time.t ;
block: Block_hash.t ;
protocol: Protocol_hash.t ;
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}
val genesis_encoding: genesis Data_encoding.t
(** Initialize a network for a given [genesis]. By default,
the network does accept forking test network. When
[~allow_forked_network:true] is provided, test network are allowed. *)
val create:
global_state ->
?allow_forked_network:bool ->
genesis -> net_state Lwt.t
(** Look up for a network by the hash of its genesis block. *)
val get: global_state -> Net_id.t -> net_state tzresult Lwt.t
(** Returns all the known networks. *)
val all: global_state -> net_state list Lwt.t
(** Destroy a network: this completly removes from the local storage all
the data associated to the network (this includes blocks and
operations). *)
val destroy: global_state -> net_state -> unit Lwt.t
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(** Various accessors. *)
val id: net_state -> Net_id.t
val genesis: net_state -> genesis
val global_state: net_state -> global_state
(** Hash of the faked block header of the genesis block. *)
val faked_genesis_hash: net_state -> Block_hash.t
(** Return the expiration timestamp of a test netwowk. *)
val expiration: net_state -> Time.t option
val allow_forked_network: net_state -> bool
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end
(** {2 Block database} *****************************************************)
module Block : sig
type t
type block = t
val known: Net.t -> Block_hash.t -> bool Lwt.t
val known_valid: Net.t -> Block_hash.t -> bool Lwt.t
val known_invalid: Net.t -> Block_hash.t -> bool Lwt.t
val read_invalid: Net.t -> Block_hash.t -> Store.Block.invalid_block option Lwt.t
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val list_invalid: Net.t -> (Block_hash.t * int32 * error list) list Lwt.t
val read: Net.t -> Block_hash.t -> block tzresult Lwt.t
val read_opt: Net.t -> Block_hash.t -> block option Lwt.t
val read_exn: Net.t -> Block_hash.t -> block Lwt.t
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val store:
Net.t ->
Block_header.t ->
Operation.t list list ->
Updater.validation_result ->
block option tzresult Lwt.t
val store_invalid:
Net.t ->
Block_header.t ->
error list ->
bool tzresult Lwt.t
val compare: t -> t -> int
val equal: t -> t -> bool
val hash: t -> Block_hash.t
val header: t -> Block_header.t
val shell_header: t -> Block_header.shell_header
val timestamp: t -> Time.t
val fitness: t -> Fitness.t
val validation_passes: t -> int
val net_id: t -> Net_id.t
val net_state: t -> Net.t
val level: t -> Int32.t
val message: t -> string option
val max_operations_ttl: t -> int
val max_number_of_operations: t -> int list
val max_operation_data_length: t -> int
val is_genesis: t -> bool
val predecessor: t -> block option Lwt.t
val context: t -> Context.t Lwt.t
val protocol_hash: t -> Protocol_hash.t Lwt.t
val test_network: t -> Test_network_status.t Lwt.t
val operation_hashes:
t -> int ->
(Operation_hash.t list * Operation_list_list_hash.path) Lwt.t
val all_operation_hashes: t -> Operation_hash.t list list Lwt.t
val operations:
t -> int -> (Operation.t list * Operation_list_list_hash.path) Lwt.t
val all_operations: t -> Operation.t list list Lwt.t
val watcher: Net.t -> block Lwt_stream.t * Lwt_watcher.stopper
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end
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val read_block:
global_state -> Block_hash.t -> Block.t option Lwt.t
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val read_block_exn:
global_state -> Block_hash.t -> Block.t Lwt.t
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val compute_locator: Net.t -> ?size:int -> Block.t -> Block_locator.t Lwt.t
val fork_testnet:
Block.t -> Protocol_hash.t -> Time.t -> Net.t tzresult Lwt.t
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type mempool = {
known_valid: Operation_hash.t list ;
pending: Operation_hash.Set.t ;
}
val empty_mempool: mempool
val mempool_encoding: mempool Data_encoding.t
type chain_data = {
current_head: Block.t ;
current_mempool: mempool ;
live_blocks: Block_hash.Set.t ;
live_operations: Operation_hash.Set.t ;
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locator: Block_locator.t Lwt.t lazy_t ;
}
val read_chain_store:
Net.t ->
(Store.Chain.store -> chain_data -> 'a Lwt.t) ->
'a Lwt.t
val update_chain_store:
Net.t ->
(Store.Chain.store -> chain_data -> (chain_data option * 'a) Lwt.t) ->
'a Lwt.t
(** {2 Protocol database} ***************************************************)
module Protocol : sig
include (module type of (struct include Protocol end))
(** Is a value stored in the local database ? *)
val known: global_state -> Protocol_hash.t -> bool Lwt.t
(** Read a value in the local database. *)
val read: global_state -> Protocol_hash.t -> Protocol.t tzresult Lwt.t
val read_opt: global_state -> Protocol_hash.t -> Protocol.t option Lwt.t
val read_exn: global_state -> Protocol_hash.t -> Protocol.t Lwt.t
(** Read a value in the local database (without parsing). *)
val read_raw: global_state -> Protocol_hash.t -> MBytes.t tzresult Lwt.t
val read_raw_opt: global_state -> Protocol_hash.t -> MBytes.t option Lwt.t
val read_raw_exn: global_state -> Protocol_hash.t -> MBytes.t Lwt.t
val store: global_state -> Protocol.t -> Protocol_hash.t option Lwt.t
(** Remove a value from the local database. *)
val remove: global_state -> Protocol_hash.t -> bool Lwt.t
val list: global_state -> Protocol_hash.Set.t Lwt.t
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end
module Registred_protocol : sig
module type T = sig
val hash: Protocol_hash.t
include Updater.NODE_PROTOCOL
val complete_b58prefix : Context.t -> string -> string list Lwt.t
end
type t = (module T)
val mem: Protocol_hash.t -> bool
val get: Protocol_hash.t -> t option
val get_exn: Protocol_hash.t -> t
end
module Register_embedded_protocol
(Env : Updater.Node_protocol_environment_sigs.V1)
(Proto : Env.Updater.PROTOCOL)
(Source : sig
val hash: Protocol_hash.t option
val sources: Protocol.t
end) : sig end