ligo/vendors/ligo-utils/tezos-protocol-alpha/baking.ml

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2019-09-05 17:21:01 +04:00
(*****************************************************************************)
(* *)
(* Open Source License *)
(* Copyright (c) 2018 Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
(* *)
(* Permission is hereby granted, free of charge, to any person obtaining a *)
(* copy of this software and associated documentation files (the "Software"),*)
(* to deal in the Software without restriction, including without limitation *)
(* the rights to use, copy, modify, merge, publish, distribute, sublicense, *)
(* and/or sell copies of the Software, and to permit persons to whom the *)
(* Software is furnished to do so, subject to the following conditions: *)
(* *)
(* The above copyright notice and this permission notice shall be included *)
(* in all copies or substantial portions of the Software. *)
(* *)
(* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR*)
(* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, *)
(* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL *)
(* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER*)
(* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING *)
(* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER *)
(* DEALINGS IN THE SOFTWARE. *)
(* *)
(*****************************************************************************)
open Alpha_context
open Misc
type error += Invalid_fitness_gap of int64 * int64 (* `Permanent *)
type error += Timestamp_too_early of Timestamp.t * Timestamp.t (* `Permanent *)
type error += Unexpected_endorsement (* `Permanent *)
type error += Invalid_block_signature of Block_hash.t * Signature.Public_key_hash.t (* `Permanent *)
type error += Invalid_signature (* `Permanent *)
type error += Invalid_stamp (* `Permanent *)
let () =
register_error_kind
`Permanent
~id:"baking.timestamp_too_early"
~title:"Block forged too early"
~description:"The block timestamp is before the first slot \
for this baker at this level"
~pp:(fun ppf (r, p) ->
Format.fprintf ppf "Block forged too early (%a is before %a)"
Time.pp_hum p Time.pp_hum r)
Data_encoding.(obj2
(req "minimum" Time.encoding)
(req "provided" Time.encoding))
(function Timestamp_too_early (r, p) -> Some (r, p) | _ -> None)
(fun (r, p) -> Timestamp_too_early (r, p)) ;
register_error_kind
`Permanent
~id:"baking.invalid_fitness_gap"
~title:"Invalid fitness gap"
~description:"The gap of fitness is out of bounds"
~pp:(fun ppf (m, g) ->
Format.fprintf ppf
"The gap of fitness %Ld is not between 0 and %Ld" g m)
Data_encoding.(obj2
(req "maximum" int64)
(req "provided" int64))
(function Invalid_fitness_gap (m, g) -> Some (m, g) | _ -> None)
(fun (m, g) -> Invalid_fitness_gap (m, g)) ;
register_error_kind
`Permanent
~id:"baking.invalid_block_signature"
~title:"Invalid block signature"
~description:
"A block was not signed with the expected private key."
~pp:(fun ppf (block, pkh) ->
Format.fprintf ppf "Invalid signature for block %a. Expected: %a."
Block_hash.pp_short block
Signature.Public_key_hash.pp_short pkh)
Data_encoding.(obj2
(req "block" Block_hash.encoding)
(req "expected" Signature.Public_key_hash.encoding))
(function Invalid_block_signature (block, pkh) -> Some (block, pkh) | _ -> None)
(fun (block, pkh) -> Invalid_block_signature (block, pkh));
register_error_kind
`Permanent
~id:"baking.invalid_signature"
~title:"Invalid block signature"
~description:"The block's signature is invalid"
~pp:(fun ppf () ->
Format.fprintf ppf "Invalid block signature")
Data_encoding.empty
(function Invalid_signature -> Some () | _ -> None)
(fun () -> Invalid_signature) ;
register_error_kind
`Permanent
~id:"baking.insufficient_proof_of_work"
~title:"Insufficient block proof-of-work stamp"
~description:"The block's proof-of-work stamp is insufficient"
~pp:(fun ppf () ->
Format.fprintf ppf "Insufficient proof-of-work stamp")
Data_encoding.empty
(function Invalid_stamp -> Some () | _ -> None)
(fun () -> Invalid_stamp) ;
register_error_kind
`Permanent
~id:"baking.unexpected_endorsement"
~title:"Endorsement from unexpected delegate"
~description:"The operation is signed by a delegate without endorsement rights."
~pp:(fun ppf () ->
Format.fprintf ppf
"The endorsement is signed by a delegate without endorsement rights.")
Data_encoding.unit
(function Unexpected_endorsement -> Some () | _ -> None)
(fun () -> Unexpected_endorsement)
let minimal_time c priority pred_timestamp =
let priority = Int32.of_int priority in
let rec cumsum_time_between_blocks acc durations p =
if Compare.Int32.(<=) p 0l then
ok acc
else match durations with
| [] -> cumsum_time_between_blocks acc [ Period.one_minute ] p
| [ last ] ->
Period.mult p last >>? fun period ->
Timestamp.(acc +? period)
| first :: durations ->
Timestamp.(acc +? first) >>? fun acc ->
let p = Int32.pred p in
cumsum_time_between_blocks acc durations p in
Lwt.return
(cumsum_time_between_blocks
pred_timestamp (Constants.time_between_blocks c) (Int32.succ priority))
let earlier_predecessor_timestamp ctxt level =
let current = Level.current ctxt in
let current_timestamp = Timestamp.current ctxt in
let gap = Level.diff level current in
let step = List.hd (Constants.time_between_blocks ctxt) in
if Compare.Int32.(gap < 1l) then
failwith "Baking.earlier_block_timestamp: past block."
else
Lwt.return (Period.mult (Int32.pred gap) step) >>=? fun delay ->
Lwt.return Timestamp.(current_timestamp +? delay) >>=? fun result ->
return result
let check_timestamp c priority pred_timestamp =
minimal_time c priority pred_timestamp >>=? fun minimal_time ->
let timestamp = Alpha_context.Timestamp.current c in
fail_unless Timestamp.(minimal_time <= timestamp)
(Timestamp_too_early (minimal_time, timestamp))
let check_baking_rights c { Block_header.priority ; _ }
pred_timestamp =
let level = Level.current c in
Roll.baking_rights_owner c level ~priority >>=? fun delegate ->
check_timestamp c priority pred_timestamp >>=? fun () ->
return delegate
type error += Incorrect_priority (* `Permanent *)
let () =
register_error_kind
`Permanent
~id:"incorrect_priority"
~title:"Incorrect priority"
~description:"Block priority must be non-negative."
~pp:(fun ppf () ->
Format.fprintf ppf "The block priority must be non-negative.")
Data_encoding.unit
(function Incorrect_priority -> Some () | _ -> None)
(fun () -> Incorrect_priority)
let endorsement_reward ctxt ~block_priority:prio n =
if Compare.Int.(prio >= 0)
then
Lwt.return
Tez.(Constants.endorsement_reward ctxt /? (Int64.(succ (of_int prio)))) >>=? fun tez ->
Lwt.return Tez.(tez *? Int64.of_int n)
else fail Incorrect_priority
let baking_priorities c level =
let rec f priority =
Roll.baking_rights_owner c level ~priority >>=? fun delegate ->
return (LCons (delegate, (fun () -> f (succ priority))))
in
f 0
let endorsement_rights c level =
fold_left_s
(fun acc slot ->
Roll.endorsement_rights_owner c level ~slot >>=? fun pk ->
let pkh = Signature.Public_key.hash pk in
let right =
match Signature.Public_key_hash.Map.find_opt pkh acc with
| None -> (pk, [slot], false)
| Some (pk, slots, used) -> (pk, slot :: slots, used) in
return (Signature.Public_key_hash.Map.add pkh right acc))
Signature.Public_key_hash.Map.empty
(0 --> (Constants.endorsers_per_block c - 1))
let check_endorsement_rights ctxt chain_id (op : Kind.endorsement Operation.t) =
let current_level = Level.current ctxt in
let Single (Endorsement { level ; _ }) = op.protocol_data.contents in
begin
if Raw_level.(succ level = current_level.level) then
return (Alpha_context.allowed_endorsements ctxt)
else
endorsement_rights ctxt (Level.from_raw ctxt level)
end >>=? fun endorsements ->
match
Signature.Public_key_hash.Map.fold (* no find_first *)
(fun pkh (pk, slots, used) acc ->
match Operation.check_signature_sync pk chain_id op with
| Error _ -> acc
| Ok () -> Some (pkh, slots, used))
endorsements None
with
| None -> fail Unexpected_endorsement
| Some v -> return v
let select_delegate delegate delegate_list max_priority =
let rec loop acc l n =
if Compare.Int.(n >= max_priority)
then return (List.rev acc)
else
let LCons (pk, t) = l in
let acc =
if Signature.Public_key_hash.equal delegate (Signature.Public_key.hash pk)
then n :: acc
else acc in
t () >>=? fun t ->
loop acc t (succ n)
in
loop [] delegate_list 0
let first_baking_priorities
ctxt
?(max_priority = 32)
delegate level =
baking_priorities ctxt level >>=? fun delegate_list ->
select_delegate delegate delegate_list max_priority
let check_hash hash stamp_threshold =
let bytes = Block_hash.to_bytes hash in
let word = MBytes.get_int64 bytes 0 in
Compare.Uint64.(word <= stamp_threshold)
let check_header_proof_of_work_stamp shell contents stamp_threshold =
let hash =
Block_header.hash
{ shell ; protocol_data = { contents ; signature = Signature.zero } } in
check_hash hash stamp_threshold
let check_proof_of_work_stamp ctxt block =
let proof_of_work_threshold = Constants.proof_of_work_threshold ctxt in
if check_header_proof_of_work_stamp
block.Block_header.shell
block.protocol_data.contents
proof_of_work_threshold then
return_unit
else
fail Invalid_stamp
let check_signature block chain_id key =
let check_signature key
{ Block_header.shell ; protocol_data = { contents ; signature } } =
let unsigned_header =
Data_encoding.Binary.to_bytes_exn
Block_header.unsigned_encoding
(shell, contents) in
Signature.check ~watermark:(Block_header chain_id) key signature unsigned_header in
if check_signature key block then
return_unit
else
fail (Invalid_block_signature (Block_header.hash block,
Signature.Public_key.hash key))
let max_fitness_gap ctxt =
let slots = Int64.of_int (Constants.endorsers_per_block ctxt + 1) in
Int64.add slots 1L
let check_fitness_gap ctxt (block : Block_header.t) =
let current_fitness = Fitness.current ctxt in
Lwt.return (Fitness.to_int64 block.shell.fitness) >>=? fun announced_fitness ->
let gap = Int64.sub announced_fitness current_fitness in
if Compare.Int64.(gap <= 0L || max_fitness_gap ctxt < gap) then
fail (Invalid_fitness_gap (max_fitness_gap ctxt, gap))
else
return_unit
let last_of_a_cycle ctxt l =
Compare.Int32.(Int32.succ l.Level.cycle_position =
Constants.blocks_per_cycle ctxt)
let dawn_of_a_new_cycle ctxt =
let level = Level.current ctxt in
if last_of_a_cycle ctxt level then
return_some level.cycle
else
return_none