ligo/lib_node_shell/node_rpc_services.mli

205 lines
5.8 KiB
OCaml

(**************************************************************************)
(* *)
(* Copyright (c) 2014 - 2017. *)
(* Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
(* *)
(* All rights reserved. No warranty, explicit or implicit, provided. *)
(* *)
(**************************************************************************)
module Error : sig
val service: (unit, unit, unit, Json_schema.schema) RPC.service
val encoding: error list Data_encoding.t
val wrap: 'a Data_encoding.t -> 'a tzresult Data_encoding.encoding
end
module Blocks : sig
type block = [
| `Genesis
| `Head of int | `Prevalidation
| `Test_head of int | `Test_prevalidation
| `Hash of Block_hash.t
]
val blocks_arg : block RPC.Arg.arg
val parse_block: string -> (block, string) result
val to_string: block -> string
type block_info = {
hash: Block_hash.t ;
net_id: Net_id.t ;
level: Int32.t ;
proto_level: int ; (* uint8 *)
predecessor: Block_hash.t ;
timestamp: Time.t ;
validation_passes: int ; (* uint8 *)
operations_hash: Operation_list_list_hash.t ;
fitness: MBytes.t list ;
data: MBytes.t ;
operations: (Operation_hash.t * Operation.t) list list option ;
protocol: Protocol_hash.t ;
test_network: Context.test_network;
}
val info:
(unit, unit * block, bool, block_info) RPC.service
val net_id:
(unit, unit * block, unit, Net_id.t) RPC.service
val level:
(unit, unit * block, unit, Int32.t) RPC.service
val predecessor:
(unit, unit * block, unit, Block_hash.t) RPC.service
val predecessors:
(unit, unit * block , int, Block_hash.t list) RPC.service
val hash:
(unit, unit * block, unit, Block_hash.t) RPC.service
val timestamp:
(unit, unit * block, unit, Time.t) RPC.service
val fitness:
(unit, unit * block, unit, MBytes.t list) RPC.service
type operations_param = {
contents: bool ;
monitor: bool ;
}
val operations:
(unit, unit * block, operations_param,
(Operation_hash.t * Operation.t option) list list) RPC.service
val protocol:
(unit, unit * block, unit, Protocol_hash.t) RPC.service
val test_network:
(unit, unit * block, unit, Context.test_network) RPC.service
val pending_operations:
(unit, unit * block, unit,
error Prevalidation.preapply_result * Operation.t Operation_hash.Map.t) RPC.service
type list_param = {
include_ops: bool ;
length: int option ;
heads: Block_hash.t list option ;
monitor: bool option ;
delay: int option ;
min_date: Time.t option;
min_heads: int option;
}
val list:
(unit, unit, list_param, block_info list list) RPC.service
val list_invalid:
(unit, unit, unit, (Block_hash.t * int32 * error list) list) RPC.service
type preapply_param = {
timestamp: Time.t ;
proto_header: MBytes.t ;
operations: Operation.t list ;
sort_operations: bool ;
}
type preapply_result = {
shell_header: Block_header.shell_header ;
operations: error Prevalidation.preapply_result ;
}
val preapply:
(unit, unit * block, preapply_param, preapply_result tzresult) RPC.service
val complete: (unit, (unit * block) * string, unit, string list) RPC.service
val proto_path: (unit, unit * block) RPC.Path.path
end
module Protocols : sig
val contents:
(unit, unit * Protocol_hash.t, unit, Protocol.t) RPC.service
type list_param = {
contents: bool option ;
monitor: bool option ;
}
val list:
(unit, unit,
list_param,
(Protocol_hash.t * Protocol.t option) list) RPC.service
end
module Network : sig
val stat :
(unit, unit, unit, P2p.Stat.t) RPC.service
val versions :
(unit, unit, unit, P2p.Version.t list) RPC.service
val events :
(unit, unit, unit, P2p.RPC.Event.t) RPC.service
val connect :
(unit, unit * P2p.Point.t, float, unit tzresult) RPC.service
module Connection : sig
val list :
(unit, unit, unit, P2p.Connection_info.t list) RPC.service
val info :
(unit, unit * P2p.Peer_id.t, unit, P2p.Connection_info.t option) RPC.service
val kick :
(unit, unit * P2p.Peer_id.t, bool, unit) RPC.service
end
module Point : sig
val list :
(unit, unit, P2p.RPC.Point.state list,
(P2p.Point.t * P2p.RPC.Point.info) list) RPC.service
val info :
(unit, unit * P2p.Point.t, unit, P2p.RPC.Point.info option) RPC.service
val events :
(unit, unit * P2p.Point.t, bool, P2p.RPC.Point.Event.t list) RPC.service
end
module Peer_id : sig
val list :
(unit, unit, P2p.RPC.Peer_id.state list,
(P2p.Peer_id.t * P2p.RPC.Peer_id.info) list) RPC.service
val info :
(unit, unit * P2p.Peer_id.t, unit, P2p.RPC.Peer_id.info option) RPC.service
val events :
(unit, unit * P2p.Peer_id.t, bool, P2p.RPC.Peer_id.Event.t list) RPC.service
end
end
val forge_block_header:
(unit, unit, Block_header.t, MBytes.t) RPC.service
type inject_block_param = {
raw: MBytes.t ;
blocking: bool ;
force: bool ;
net_id: Net_id.t option ;
operations: Operation.t list list ;
}
val inject_block:
(unit, unit, inject_block_param, Block_hash.t tzresult) RPC.service
val inject_operation:
(unit, unit,
(MBytes.t * bool * Net_id.t option * bool option),
Operation_hash.t tzresult) RPC.service
val inject_protocol:
(unit, unit,
(Protocol.t * bool * bool option),
Protocol_hash.t tzresult) RPC.service
val bootstrapped: (unit, unit, unit, Block_hash.t * Time.t) RPC.service
val complete: (unit, unit * string, unit, string list) RPC.service
val describe: (unit, unit) RPC.Service.description_service