ligo/src/node/shell/node_rpc_services.ml

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(**************************************************************************)
(* *)
(* Copyright (c) 2014 - 2016. *)
(* Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
(* *)
(* All rights reserved. No warranty, explicit or implicit, provided. *)
(* *)
(**************************************************************************)
open Data_encoding
module Error = struct
let service =
RPC.service
~description: "Schema for all the RPC errors from the shell"
~input: Data_encoding.empty
~output: Data_encoding.json_schema
RPC.Path.(root / "errors")
let encoding =
let path, _ = RPC.forge_request service () () in
describe
~description:
(Printf.sprintf
"The full list of error is available with \
the global RPC `/%s`" (String.concat "/" path))
(conv
~schema:Json_schema.any
(fun exn -> `A (List.map json_of_error exn))
(function `A exns -> List.map error_of_json exns | _ -> [])
json)
let wrap param_encoding =
union [
case
(obj1 (req "ok" param_encoding))
(function Ok x -> Some x | _ -> None)
(fun x -> Ok x) ;
case
(obj1 (req "error" encoding))
(function Error x -> Some x | _ -> None)
(fun x -> Error x) ;
]
end
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module Blocks = struct
type block = [
| `Genesis
| `Head of int | `Prevalidation
| `Test_head of int | `Test_prevalidation
| `Hash of Block_hash.t
]
type net = Store.net_id = Net of Block_hash.t
let net_encoding =
conv (fun (Net id) -> id) (fun id -> Net id) Block_hash.encoding
type block_info = {
hash: Block_hash.t ;
predecessor: Block_hash.t ;
fitness: MBytes.t list ;
timestamp: Time.t ;
protocol: Protocol_hash.t option ;
operations: Operation_hash.t list option ;
net: net ;
test_protocol: Protocol_hash.t option ;
test_network: (net * Time.t) option ;
}
let block_info_encoding =
conv
(fun { hash ; predecessor ; fitness ; timestamp ; protocol ; operations ;
net ; test_protocol ; test_network } ->
(hash, predecessor, fitness, timestamp, protocol, operations,
net, test_protocol, test_network))
(fun (hash, predecessor, fitness, timestamp, protocol, operations,
net, test_protocol, test_network) ->
{ hash ; predecessor ; fitness ; timestamp ; protocol ; operations ;
net ; test_protocol ; test_network })
(obj9
(req "hash" Block_hash.encoding)
(req "predecessor" Block_hash.encoding)
(req "fitness" Fitness.encoding)
(req "timestamp" Time.encoding)
(opt "protocol" Protocol_hash.encoding)
(opt "operations" (list Operation_hash.encoding))
(req "net" net_encoding)
(opt "test_protocol" Protocol_hash.encoding)
(opt "test_network" (tup2 net_encoding Time.encoding)))
let parse_block s =
try
match Utils.split '~' s with
| ["genesis"] -> Ok `Genesis
| ["head"] -> Ok (`Head 0)
| ["prevalidation"] -> Ok `Prevalidation
| ["test_head"] -> Ok (`Test_head 0)
| ["test_prevalidation"] -> Ok `Test_prevalidation
| ["head"; n] -> Ok (`Head (int_of_string n))
| ["test_head"; n] -> Ok (`Test_head (int_of_string n))
| [h] -> Ok (`Hash (Block_hash.of_b58check h))
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| _ -> raise Exit
with _ -> Error "Cannot parse block identifier."
let blocks_arg =
let name = "block_id" in
let descr =
"A block identifier. This is either a block hash in hexadecimal \
notation or a one the predefined aliases: \
'genesis', 'head', 'prevalidation', \
'test_head' or 'test_prevalidation'. One might alse use 'head~N'
to 'test_head~N', where N is an integer to denotes the Nth predecessors
of 'head' or 'test_head'." in
let construct = function
| `Genesis -> "genesis"
| `Head 0 -> "head"
| `Head n -> Printf.sprintf "head~%d" n
| `Prevalidation -> "prevalidation"
| `Test_head 0 -> "test_head"
| `Test_head n -> Printf.sprintf "test_head~%d" n
| `Test_prevalidation -> "test_prevalidation"
| `Hash h -> Block_hash.to_b58check h in
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let destruct = parse_block in
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RPC.Arg.make ~name ~descr ~construct ~destruct ()
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type preapply_param = {
operations: Operation_hash.t list ;
sort: bool ;
timestamp: Time.t option ;
}
let preapply_param_encoding =
(conv
(fun { operations ; sort ; timestamp } ->
(operations, Some sort, timestamp))
(fun (operations, sort, timestamp) ->
let sort =
match sort with
| None -> true
| Some x -> x in
{ operations ; sort ; timestamp })
(obj3
(req "operations" (list Operation_hash.encoding))
(opt "sort" bool)
(opt "timestamp" Time.encoding)))
type preapply_result = {
operations: error Updater.preapply_result ;
fitness: MBytes.t list ;
timestamp: Time.t ;
}
let preapply_result_encoding =
(conv
(fun { operations ; timestamp ; fitness } ->
(timestamp, fitness, operations))
(fun (timestamp, fitness, operations) ->
{ operations ; timestamp ; fitness })
(obj3
(req "timestamp" Time.encoding)
(req "fitness" Fitness.encoding)
(req "operations" (Updater.preapply_result_encoding Error.encoding))))
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let block_path : (unit, unit * block) RPC.Path.path =
RPC.Path.(root / "blocks" /: blocks_arg )
let info =
RPC.service
~description:"All the block informations."
~input:
(conv
(fun x -> Some x)
(function None -> false | Some x -> x)
(obj1 (opt "operations" bool)))
~output: block_info_encoding
block_path
let net =
RPC.service
~description:"Returns the net of the chain in which the block belongs."
~input: empty
~output: (obj1 (req "net" net_encoding))
RPC.Path.(block_path / "net")
let predecessor =
RPC.service
~description:"Returns the previous block's id."
~input: empty
~output: (obj1 (req "predecessor" Block_hash.encoding))
RPC.Path.(block_path / "predecessor")
let hash =
RPC.service
~description:"Returns the block's id."
~input: empty
~output: (obj1 (req "hash" Block_hash.encoding))
RPC.Path.(block_path / "hash")
let fitness =
RPC.service
~description:"Returns the block's fitness."
~input: empty
~output: (obj1 (req "fitness" Fitness.encoding))
RPC.Path.(block_path / "fitness")
let timestamp =
RPC.service
~description:"Returns the block's timestamp."
~input: empty
~output: (obj1 (req "timestamp" Time.encoding))
RPC.Path.(block_path / "timestamp")
let operations =
RPC.service
~description:"List the block operations."
~input: empty
~output: (obj1 (req "operations" (list Operation_hash.encoding)))
RPC.Path.(block_path / "operations")
let protocol =
RPC.service
~description:"List the block protocol."
~input: empty
~output: (obj1 (req "protocol" Protocol_hash.encoding))
RPC.Path.(block_path / "protocol")
let test_protocol =
RPC.service
~description:"List the block test protocol."
~input: empty
~output: (obj1 (opt "protocol" Protocol_hash.encoding))
RPC.Path.(block_path / "test_protocol")
let test_network =
RPC.service
~description:"Returns the associated test network."
~input: empty
~output: (obj1 (opt "net" (tup2 net_encoding Time.encoding)))
RPC.Path.(block_path / "test_network")
let pending_operations =
(* TODO: branch_delayed/... *)
RPC.service
~description:
"List the not-yet-prevalidated operations."
~input: empty
~output:
(conv
(fun ({ Updater.applied; branch_delayed ; branch_refused },
unprocessed) ->
(applied,
Operation_hash_map.bindings branch_delayed,
Operation_hash_map.bindings branch_refused,
Operation_hash_set.elements unprocessed))
(fun (applied, branch_delayed, branch_refused, unprocessed) ->
({ Updater.applied ; refused = Operation_hash_map.empty ;
branch_refused =
List.fold_right
(fun (k, o) -> Operation_hash_map.add k o)
branch_refused Operation_hash_map.empty ;
branch_delayed =
List.fold_right
(fun (k, o) -> Operation_hash_map.add k o)
branch_delayed Operation_hash_map.empty ;
},
List.fold_right Operation_hash_set.add
unprocessed Operation_hash_set.empty))
(obj4
(req "applied" (list Operation_hash.encoding))
(req "branch_delayed"
(list (tup2 Operation_hash.encoding Error.encoding)))
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(req "branch_refused"
(list (tup2 Operation_hash.encoding Error.encoding)))
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(req "unprocessed" (list Operation_hash.encoding))))
RPC.Path.(block_path / "pending_operations")
let proto_path =
RPC.Path.(block_path / "proto")
let preapply =
RPC.service
~description:
"Simulate the validation of a block that would contain \
the given operations and return the resulting fitness."
~input: preapply_param_encoding
~output: (Error.wrap preapply_result_encoding)
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RPC.Path.(block_path / "preapply")
let complete =
let prefix_arg =
let destruct s = Ok s
and construct s = s in
RPC.Arg.make ~name:"prefix" ~destruct ~construct () in
RPC.service
~description: "Try to complete a prefix of a Base58Check-encoded data. \
This RPC is actually able to complete hashes of \
block, operations, public_keys and contracts."
~input: empty
~output: (list string)
RPC.Path.(block_path / "complete" /: prefix_arg )
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type list_param = {
operations: bool option ;
length: int option ;
heads: Block_hash.t list option ;
monitor: bool option ;
delay: int option ;
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min_date: Time.t option;
min_heads: int option;
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}
let list_param_encoding =
conv
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(fun { operations ; length ; heads ; monitor ;
delay ; min_date ; min_heads } ->
(operations, length, heads, monitor, delay, min_date, min_heads))
(fun (operations, length, heads, monitor, delay, min_date, min_heads) ->
{ operations ; length ; heads ; monitor ;
delay ; min_date ; min_heads })
(obj7
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(opt "operations"
(Data_encoding.describe
~description:
"Whether the resulting block informations should include the \
list of operations' hashes. Default false."
bool))
(opt "length"
(Data_encoding.describe
~description:
"The requested number of predecessors to returns (per \
requested head)."
int31))
(opt "heads"
(Data_encoding.describe
~description:
"An empty argument requests blocks from the current heads. \
A non empty list allow to request specific fragment \
of the chain."
(list Block_hash.encoding)))
(opt "monitor"
(Data_encoding.describe
~description:
"When true, the socket is \"kept alive\" after the first \
answer and new heads are streamed when discovered."
bool))
(opt "delay"
(Data_encoding.describe
~description:
"By default only the blocks that were validated by the node \
are considered. \
When this optional argument is 0, only blocks with a \
timestamp in the past are considered. Other values allows to \
adjust the current time."
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int31))
(opt "min_date"
(Data_encoding.describe
~description: "When `min_date` is provided, heads with a \
timestamp before `min_date` are filtered ouf"
Time.encoding))
(opt "min_heads"
(Data_encoding.describe
~description:"When `min_date` is provided, returns at least \
`min_heads` even when their timestamp is before \
`min_date`."
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int31)))
let list =
RPC.service
~description:
"Lists known heads of the blockchain sorted with decreasing fitness. \
Optional arguments allows to returns the list of predecessors for \
known heads or the list of predecessors for a given list of blocks."
~input: list_param_encoding
~output: (obj1 (req "blocks" (list (list block_info_encoding))))
RPC.Path.(root / "blocks")
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end
module Operations = struct
let operations_arg =
let name = "operation_id" in
let descr =
"A operation identifier in hexadecimal." in
let construct = Operation_hash.to_b58check in
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let destruct h =
try Ok (Operation_hash.of_b58check h)
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with _ -> Error "Can't parse hash" in
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RPC.Arg.make ~name ~descr ~construct ~destruct ()
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let bytes =
RPC.service
~input: empty
~output:
(obj1 (req "data"
(describe ~title: "Tezos signed operation (hex encoded)"
(Time.timed_encoding @@
Error.wrap @@
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Updater.raw_operation_encoding))))
RPC.Path.(root / "operations" /: operations_arg)
type list_param = {
contents: bool option ;
monitor: bool option ;
}
let list_param_encoding =
conv
(fun {contents; monitor} -> (contents, monitor))
(fun (contents, monitor) -> {contents; monitor})
(obj2
(opt "contents" bool)
(opt "monitor" bool))
let list =
RPC.service
~input: list_param_encoding
~output:
(obj1
(req "operations"
(list
(obj2
(req "hash" Operation_hash.encoding)
(opt "contents"
(dynamic_size Updater.raw_operation_encoding)))
)))
RPC.Path.(root / "operations")
end
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module Protocols = struct
let protocols_arg =
let name = "protocol_id" in
let descr =
"A protocol identifier in hexadecimal." in
let construct = Protocol_hash.to_b58check in
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let destruct h =
try Ok (Protocol_hash.of_b58check h)
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with _ -> Error "Can't parse hash" in
RPC.Arg.make ~name ~descr ~construct ~destruct ()
let bytes =
RPC.service
~input: empty
~output:
(obj1 (req "data"
(describe ~title: "Tezos protocol"
(Time.timed_encoding @@
Error.wrap @@
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Store.protocol_encoding))))
RPC.Path.(root / "protocols" /: protocols_arg)
type list_param = {
contents: bool option ;
monitor: bool option ;
}
let list_param_encoding =
conv
(fun {contents; monitor} -> (contents, monitor))
(fun (contents, monitor) -> {contents; monitor})
(obj2
(opt "contents" bool)
(opt "monitor" bool))
let list =
RPC.service
~input: list_param_encoding
~output:
(obj1
(req "protocols"
(list
(obj2
(req "hash" Protocol_hash.encoding)
(opt "contents"
(dynamic_size Store.protocol_encoding)))
)))
RPC.Path.(root / "protocols")
end
module Network = struct
open P2p_types
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let (peer_id_arg : P2p_types.Peer_id.t RPC.Arg.arg) =
RPC.Arg.make
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~name:"peer_id"
~descr:"A network global identifier, also known as an identity."
~destruct:(fun s -> try
Ok (Crypto_box.Public_key_hash.of_b58check s)
with Failure msg -> Error msg)
~construct:Crypto_box.Public_key_hash.to_b58check
()
let point_arg =
RPC.Arg.make
~name:"point"
~descr:"A network point (ipv4:port or [ipv6]:port)."
~destruct:Point.of_string
~construct:Point.to_string
()
let stat =
RPC.service
~description:"Global network bandwidth statistics in B/s."
~input: empty
~output: P2p.Stat.encoding
RPC.Path.(root / "network" / "stat")
let events =
RPC.service
~description:"Stream of all network events"
~input: empty
~output: P2p.RPC.Event.encoding
RPC.Path.(root / "network" / "log")
let connect =
RPC.service
~description:"Connect to a peer"
~input: (obj1 (dft "timeout" float 5.))
~output: (Error.wrap @@ empty)
RPC.Path.(root / "network" / "connect" /: point_arg)
let monitor_encoding = obj1 (dft "monitor" bool false)
module Connection = struct
let list =
RPC.service
~input: empty
~output: (list P2p.Connection_info.encoding)
RPC.Path.(root / "network" / "connection")
let info =
RPC.service
~input: empty
~output: (option P2p.Connection_info.encoding)
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RPC.Path.(root / "network" / "connection" /: peer_id_arg)
let kick =
RPC.service
~input: (obj1 (req "wait" bool))
~output: empty
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RPC.Path.(root / "network" / "connection" /: peer_id_arg / "kick")
end
module Point = struct
let infos =
let filter =
obj1 (dft "filter" (list P2p.RPC.Point.state_encoding) []) in
RPC.service
~input: filter
~output: (list (tup2 P2p.Point.encoding P2p.RPC.Point.info_encoding))
RPC.Path.(root / "network" / "point")
let info =
RPC.service
~input: empty
~output: (option P2p.RPC.Point.info_encoding)
RPC.Path.(root / "network" / "point" /: point_arg)
let events =
RPC.service
~input: monitor_encoding
~output: (list P2p.RPC.Point.Event.encoding)
RPC.Path.(root / "network" / "point" /: point_arg / "log")
end
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module Peer_id = struct
let infos =
let filter =
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obj1 (dft "filter" (list P2p.RPC.Peer_id.state_encoding) []) in
RPC.service
~input: filter
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~output: (list (tup2 P2p.Peer_id.encoding P2p.RPC.Peer_id.info_encoding))
RPC.Path.(root / "network" / "peer_id")
let info =
RPC.service
~input: empty
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~output: (option P2p.RPC.Peer_id.info_encoding)
RPC.Path.(root / "network" / "peer_id" /: peer_id_arg)
let events =
RPC.service
~input: monitor_encoding
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~output: (list P2p.RPC.Peer_id.Event.encoding)
RPC.Path.(root / "network" / "peer_id" /: peer_id_arg / "log")
end
end
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let forge_block =
RPC.service
~description: "Forge a block header"
~input:
(obj6
(opt "net_id" Updater.net_id_encoding)
(opt "predecessor" Block_hash.encoding)
(opt "timestamp" Time.encoding)
(req "fitness" Fitness.encoding)
(req "operations" (list Operation_hash.encoding))
(req "header" bytes))
~output: (obj1 (req "block" bytes))
RPC.Path.(root / "forge_block")
let validate_block =
RPC.service
~description:
"Force the node to fetch and validate the given block hash."
~input:
(obj2
(req "net" Blocks.net_encoding)
(req "hash" Block_hash.encoding))
~output:
(Error.wrap @@ empty)
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RPC.Path.(root / "validate_block")
let inject_block =
RPC.service
~description:
"Inject a block in the node and broadcast it. The `operations` \
embedded in `blockHeader` might pre-validated using a \
contextual RPCs from the latest block \
(e.g. '/blocks/head/context/preapply'). Returns the ID of the \
block. By default, the RPC will wait for the block to be \
validated before to answer."
~input:
(conv
(fun (block, blocking, force) ->
(block, Some blocking, force))
(fun (block, blocking, force) ->
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(block, Utils.unopt ~default:true blocking, force))
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(obj3
(req "data" bytes)
(opt "blocking"
(describe
~description:
"Should the RPC wait for the block to be \
validated before to answer. (default: true)"
bool))
(opt "force"
(describe
~description:
"Should we inject the block when its fitness is below \
the current head. (default: false)"
bool))))
~output:
(Error.wrap @@
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(obj1 (req "block_hash" Block_hash.encoding)))
RPC.Path.(root / "inject_block")
let inject_operation =
RPC.service
~description:
"Inject an operation in node and broadcast it. Returns the \
ID of the operation. The `signedOperationContents` should be \
constructed using a contextual RPCs from the latest block \
and signed by the client. By default, the RPC will wait for \
the operation to be (pre-)validated before to answer. See \
RPCs ubder /blocks/prevalidation for more details on the \
prevalidation context."
~input:
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(obj3
(req "signedOperationContents"
(describe ~title: "Tezos signed operation (hex encoded)"
bytes))
(dft "blocking"
(describe
~description:
"Should the RPC wait for the operation to be \
(pre-)validated before to answer. (default: true)"
bool)
true)
(opt "force"
(describe
~description:
"Should we inject operation that are \"branch_refused\" \
or \"branch_delayed\". (default: false)"
bool)))
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~output:
(Error.wrap @@
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describe
~title: "Hash of the injected operation" @@
(obj1 (req "injectedOperation" Operation_hash.encoding)))
RPC.Path.(root / "inject_operation")
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let inject_protocol =
let proto_of_rpc =
List.map (fun (name, interface, implementation) ->
{ Tezos_compiler.Protocol.name; interface; implementation })
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in
let rpc_of_proto =
List.map (fun { Tezos_compiler.Protocol.name; interface; implementation } ->
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(name, interface, implementation))
in
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let proto =
conv
rpc_of_proto
proto_of_rpc
(list
(obj3
(req "name"
(describe ~title:"OCaml module name"
string))
(opt "interface"
(describe
~description:"Content of the .mli file"
string))
(req "implementation"
(describe
~description:"Content of the .ml file"
string))))
in
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RPC.service
~description:
"Inject a protocol in node. Returns the ID of the protocol."
~input:
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(obj3
(req "protocol"
(describe ~title: "Tezos protocol"
proto))
(dft "blocking"
(describe
~description:
"Should the RPC wait for the protocol to be \
validated before to answer. (default: true)"
bool)
true)
(opt "force"
(describe
~description:
"Should we inject protocol that is invalid. (default: false)"
bool)))
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~output:
(Error.wrap @@
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describe
~title: "Hash of the injected protocol" @@
(obj1 (req "injectedProtocol" Protocol_hash.encoding)))
RPC.Path.(root / "inject_protocol")
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let complete =
let prefix_arg =
let destruct s = Ok s
and construct s = s in
RPC.Arg.make ~name:"prefix" ~destruct ~construct () in
RPC.service
~description: "Try to complete a prefix of a Base58Check-encoded data. \
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This RPC is actually able to complete hashes of \
block and hashes of operations."
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~input: empty
~output: (list string)
RPC.Path.(root / "complete" /: prefix_arg )
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let describe =
RPC.Description.service
~description: "RPCs documentation and input/output schema"
RPC.Path.(root / "describe")