4bbc97aeb6
It now takes a `proto_header` in parameter, and it returns a full `shell_header`. This prepares the inclusion of the context's hash in the `shell_header`.
165 lines
5.4 KiB
OCaml
165 lines
5.4 KiB
OCaml
(**************************************************************************)
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(* *)
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(* Copyright (c) 2014 - 2016. *)
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(* Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
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(* *)
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(* All rights reserved. No warranty, explicit or implicit, provided. *)
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(* *)
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(**************************************************************************)
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(* Tezos Command line interface - RPC Calls *)
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open Client_rpcs
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module Services = Node_rpc_services
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let errors cctxt =
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call_service0 cctxt Services.Error.service ()
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let forge_block_header cctxt header =
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call_service0 cctxt Services.forge_block_header header
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let validate_block cctxt net block =
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call_err_service0 cctxt Services.validate_block (net, block)
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type operation = Node_rpc_services.operation =
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| Blob of Operation.t
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| Hash of Operation_hash.t
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let operation_encoding = Node_rpc_services.operation_encoding
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let inject_block cctxt ?(async = false) ?(force = false) raw operations =
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call_err_service0 cctxt Services.inject_block
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{ raw ; blocking = not async ; force ; operations }
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let inject_operation cctxt ?(async = false) ?force operation =
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call_err_service0 cctxt Services.inject_operation
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(operation, not async, force)
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let inject_protocol cctxt ?(async = false) ?force protocol =
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call_err_service0 cctxt Services.inject_protocol
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(protocol, not async, force)
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let bootstrapped cctxt =
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call_streamed_service0 cctxt Services.bootstrapped ()
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let complete cctxt ?block prefix =
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match block with
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| None ->
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call_service1 cctxt Services.complete prefix ()
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| Some block ->
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call_service2 cctxt Services.Blocks.complete block prefix ()
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let describe config ?recurse path =
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call_describe0 config Services.describe path recurse
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module Blocks = struct
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type block = Services.Blocks.block
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type block_info = Services.Blocks.block_info = {
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hash: Block_hash.t ;
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net_id: Net_id.t ;
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level: Int32.t ;
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proto_level: int ; (* uint8 *)
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predecessor: Block_hash.t ;
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timestamp: Time.t ;
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operations_hash: Operation_list_list_hash.t ;
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fitness: MBytes.t list ;
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data: MBytes.t ;
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operations: Operation_hash.t list list option ;
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protocol: Protocol_hash.t ;
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test_network: Context.test_network;
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}
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type preapply_param = Services.Blocks.preapply_param = {
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timestamp: Time.t ;
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proto_header: MBytes.t ;
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operations: operation list ;
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sort_operations: bool ;
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}
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type preapply_result = Services.Blocks.preapply_result = {
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shell_header: Block_header.shell_header ;
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operations: error Prevalidation.preapply_result ;
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}
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let net_id cctxt h =
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call_service1 cctxt Services.Blocks.net_id h ()
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let level cctxt h =
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call_service1 cctxt Services.Blocks.level h ()
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let predecessor cctxt h =
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call_service1 cctxt Services.Blocks.predecessor h ()
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let predecessors cctxt h l =
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call_service1 cctxt Services.Blocks.predecessors h l
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let hash cctxt h =
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call_service1 cctxt Services.Blocks.hash h ()
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let timestamp cctxt h =
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call_service1 cctxt Services.Blocks.timestamp h ()
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let fitness cctxt h =
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call_service1 cctxt Services.Blocks.fitness h ()
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let operations cctxt ?(contents = false) h =
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call_service1 cctxt Services.Blocks.operations h
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{ contents ; monitor = false }
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let protocol cctxt h =
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call_service1 cctxt Services.Blocks.protocol h ()
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let test_network cctxt h =
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call_service1 cctxt Services.Blocks.test_network h ()
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let preapply cctxt h
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?(timestamp = Time.now ()) ?(sort = false) ~proto_header operations =
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call_err_service1
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cctxt Services.Blocks.preapply h
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{ timestamp ; proto_header ; sort_operations = sort ; operations }
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let pending_operations cctxt block =
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call_service1 cctxt Services.Blocks.pending_operations block ()
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let info cctxt ?(include_ops = true) h =
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call_service1 cctxt Services.Blocks.info h include_ops
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let complete cctxt block prefix =
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call_service2 cctxt Services.Blocks.complete block prefix ()
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let list cctxt ?(include_ops = false)
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?length ?heads ?delay ?min_date ?min_heads () =
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call_service0 cctxt Services.Blocks.list
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{ include_ops ; length ; heads ; monitor = Some false ; delay ;
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min_date ; min_heads }
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let monitor cctxt ?(include_ops = false)
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?length ?heads ?delay ?min_date ?min_heads () =
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call_streamed_service0 cctxt Services.Blocks.list
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{ include_ops ; length ; heads ; monitor = Some true ; delay ;
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min_date ; min_heads }
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end
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module Operations = struct
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let monitor cctxt ?(contents = false) () =
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call_streamed_service1 cctxt Services.Blocks.operations
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`Prevalidation
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{ contents ; monitor = true }
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end
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module Protocols = struct
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let contents cctxt hash =
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call_service1 cctxt Services.Protocols.contents hash ()
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let list cctxt ?contents () =
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call_service0
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cctxt Services.Protocols.list
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{ contents; monitor = Some false }
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end
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module Network = struct
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let stat cctxt =
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call_service0 cctxt Services.Network.stat ()
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let connections cctxt =
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call_service0 cctxt Services.Network.Connection.list ()
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let peers cctxt =
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call_service0 cctxt Services.Network.Peer_id.list []
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let points cctxt =
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call_service0 cctxt Services.Network.Point.list []
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end
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