(**************************************************************************) (* *) (* Copyright (c) 2014 - 2017. *) (* Dynamic Ledger Solutions, Inc. *) (* *) (* All rights reserved. No warranty, explicit or implicit, provided. *) (* *) (**************************************************************************) type t type global_state = t (** An abstraction over all the disk storage used by the node. 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". *) val read: ?patch_context:(Context.t -> Context.t Lwt.t) -> store_root:string -> context_root:string -> unit -> global_state tzresult Lwt.t (** Read the internal state of the node and initialize the databases. *) val close: global_state -> unit Lwt.t (** {2 Errors} **************************************************************) type error += | Unknown_network of Net_id.t (** {2 Network} ************************************************************) (** Data specific to a given network. *) module Net : sig type t type net_state = t type genesis = { time: Time.t ; block: Block_hash.t ; protocol: Protocol_hash.t ; } val genesis_encoding: genesis Data_encoding.t val create: global_state -> ?allow_forked_network:bool -> genesis -> net_state Lwt.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 get: global_state -> Net_id.t -> net_state tzresult Lwt.t (** Look up for a network by the hash of its genesis block. *) val all: global_state -> net_state list Lwt.t (** Returns all the known networks. *) val destroy: global_state -> net_state -> unit 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 id: net_state -> Net_id.t val genesis: net_state -> genesis val faked_genesis_hash: net_state -> Block_hash.t val expiration: net_state -> Time.t option val allow_forked_network: net_state -> bool (** Accessors. Respectively access to; - the network id (the hash of its genesis block) - its optional expiration time - the associated global state. *) val global_state: net_state -> global_state 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: 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 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 -> 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 val max_operations_ttl: 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 -> Context.test_network 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 * Watcher.stopper end val read_block: global_state -> Block_hash.t -> Block.t option Lwt.t val read_block_exn: global_state -> Block_hash.t -> Block.t Lwt.t val fork_testnet: Block.t -> Protocol_hash.t -> Time.t -> Net.t tzresult Lwt.t type chain_data = { current_head: Block.t ; current_reversed_mempool: Operation_hash.t list ; } 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 (** 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 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: Tezos_data.Protocol.t end) : sig end