Source file block_header_repr.ml

(*****************************************************************************)
(*                                                                           *)
(* Open Source License                                                       *)
(* Copyright (c) 2018 Dynamic Ledger Solutions, Inc. <contact@tezos.com>     *)
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(** Block header *)

type contents = {
  payload_hash : Block_payload_hash.t;
  payload_round : Round_repr.t;
  seed_nonce_hash : Nonce_hash.t option;
  proof_of_work_nonce : bytes;
  liquidity_baking_toggle_vote :
    Liquidity_baking_repr.liquidity_baking_toggle_vote;
}

type protocol_data = {contents : contents; signature : Signature.t}

type t = {shell : Block_header.shell_header; protocol_data : protocol_data}

type block_header = t

type raw = Block_header.t

type shell_header = Block_header.shell_header

let raw_encoding = Block_header.encoding

let shell_header_encoding = Block_header.shell_header_encoding

type block_watermark = Block_header of Chain_id.t

let bytes_of_block_watermark = function
  | Block_header chain_id ->
      Bytes.cat (Bytes.of_string "\x11") (Chain_id.to_bytes chain_id)

let to_watermark b = Signature.Custom (bytes_of_block_watermark b)

let of_watermark = function
  | Signature.Custom b ->
      if Compare.Int.(Bytes.length b > 0) then
        match Bytes.get b 0 with
        | '\x11' ->
            Option.map
              (fun chain_id -> Block_header chain_id)
              (Chain_id.of_bytes_opt (Bytes.sub b 1 (Bytes.length b - 1)))
        | _ -> None
      else None
  | _ -> None

let contents_encoding =
  let open Data_encoding in
  def "block_header.alpha.unsigned_contents"
  @@ conv
       (fun {
              payload_hash;
              payload_round;
              seed_nonce_hash;
              proof_of_work_nonce;
              liquidity_baking_toggle_vote;
            } ->
         ( payload_hash,
           payload_round,
           proof_of_work_nonce,
           seed_nonce_hash,
           liquidity_baking_toggle_vote ))
       (fun ( payload_hash,
              payload_round,
              proof_of_work_nonce,
              seed_nonce_hash,
              liquidity_baking_toggle_vote ) ->
         {
           payload_hash;
           payload_round;
           seed_nonce_hash;
           proof_of_work_nonce;
           liquidity_baking_toggle_vote;
         })
       (obj5
          (req "payload_hash" Block_payload_hash.encoding)
          (req "payload_round" Round_repr.encoding)
          (req
             "proof_of_work_nonce"
             (Fixed.bytes Hex Constants_repr.proof_of_work_nonce_size))
          (opt "seed_nonce_hash" Nonce_hash.encoding)
          (req
             "liquidity_baking_toggle_vote"
             Liquidity_baking_repr.liquidity_baking_toggle_vote_encoding))

let protocol_data_encoding =
  let open Data_encoding in
  def "block_header.alpha.signed_contents"
  @@ conv
       (fun {contents; signature} -> (contents, signature))
       (fun (contents, signature) -> {contents; signature})
       (merge_objs
          contents_encoding
          (obj1 (req "signature" Signature.encoding)))

let raw {shell; protocol_data} =
  let protocol_data =
    Data_encoding.Binary.to_bytes_exn protocol_data_encoding protocol_data
  in
  {Block_header.shell; protocol_data}

let unsigned_encoding =
  let open Data_encoding in
  merge_objs Block_header.shell_header_encoding contents_encoding

let encoding =
  let open Data_encoding in
  def "block_header.alpha.full_header"
  @@ conv
       (fun {shell; protocol_data} -> (shell, protocol_data))
       (fun (shell, protocol_data) -> {shell; protocol_data})
       (merge_objs Block_header.shell_header_encoding protocol_data_encoding)

(** Constants *)

let max_header_length =
  let fake_level = Raw_level_repr.root in
  let fake_round = Round_repr.zero in
  let fake_fitness =
    Fitness_repr.create_without_locked_round
      ~level:fake_level
      ~predecessor_round:fake_round
      ~round:fake_round
  in
  let fake_shell =
    {
      Block_header.level = 0l;
      proto_level = 0;
      predecessor = Block_hash.zero;
      timestamp = Time.of_seconds 0L;
      validation_passes = 0;
      operations_hash = Operation_list_list_hash.zero;
      fitness = Fitness_repr.to_raw fake_fitness;
      context = Context_hash.zero;
    }
  and fake_contents =
    {
      payload_hash = Block_payload_hash.zero;
      payload_round = Round_repr.zero;
      proof_of_work_nonce =
        Bytes.make Constants_repr.proof_of_work_nonce_size '0';
      seed_nonce_hash = Some Nonce_hash.zero;
      liquidity_baking_toggle_vote = LB_pass;
    }
  in
  Data_encoding.Binary.length
    encoding
    {
      shell = fake_shell;
      protocol_data = {contents = fake_contents; signature = Signature.zero};
    }

(** Header parsing entry point  *)

let hash_raw = Block_header.hash

let hash {shell; protocol_data} =
  Block_header.hash
    {
      shell;
      protocol_data =
        Data_encoding.Binary.to_bytes_exn protocol_data_encoding protocol_data;
    }

type error +=
  | (* Permanent *)
      Invalid_block_signature of
      Block_hash.t * Signature.Public_key_hash.t
  | (* Permanent *) Invalid_stamp
  | (* Permanent *)
      Invalid_payload_round of {
      payload_round : Round_repr.t;
      round : Round_repr.t;
    }
  | (* Permanent *) Invalid_commitment of {expected : bool}
  | (* Permanent *) Wrong_timestamp of Time.t * Time.t

let () =
  register_error_kind
    `Permanent
    ~id:"block_header.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:"block_header.invalid_stamp"
    ~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:"block_header.invalid_payload_round"
    ~title:"Invalid payload round"
    ~description:"The given payload round is invalid."
    ~pp:(fun ppf (payload_round, round) ->
      Format.fprintf
        ppf
        "The provided payload round (%a) is after the block round (%a)."
        Round_repr.pp
        payload_round
        Round_repr.pp
        round)
    Data_encoding.(
      obj2
        (req "payload_round" Round_repr.encoding)
        (req "round" Round_repr.encoding))
    (function
      | Invalid_payload_round {payload_round; round} ->
          Some (payload_round, round)
      | _ -> None)
    (fun (payload_round, round) -> Invalid_payload_round {payload_round; round}) ;
  register_error_kind
    `Permanent
    ~id:"block_header.invalid_commitment"
    ~title:"Invalid commitment in block header"
    ~description:"The block header has invalid commitment."
    ~pp:(fun ppf expected ->
      if expected then
        Format.fprintf ppf "Missing seed's nonce commitment in block header."
      else
        Format.fprintf ppf "Unexpected seed's nonce commitment in block header.")
    Data_encoding.(obj1 (req "expected" bool))
    (function Invalid_commitment {expected} -> Some expected | _ -> None)
    (fun expected -> Invalid_commitment {expected}) ;
  register_error_kind
    `Permanent
    ~id:"block_header.wrong_timestamp"
    ~title:"Wrong timestamp"
    ~description:"Block timestamp not the expected one."
    ~pp:(fun ppf (block_ts, expected_ts) ->
      Format.fprintf
        ppf
        "Wrong timestamp: block timestamp (%a) not the expected one (%a)"
        Time.pp_hum
        block_ts
        Time.pp_hum
        expected_ts)
    Data_encoding.(
      obj2
        (req "block_timestamp" Time.encoding)
        (req "expected_timestamp" Time.encoding))
    (function Wrong_timestamp (t1, t2) -> Some (t1, t2) | _ -> None)
    (fun (t1, t2) -> Wrong_timestamp (t1, t2))

let check_signature (block : t) (chain_id : Chain_id.t)
    (key : Signature.Public_key.t) =
  let check_signature key ({shell; protocol_data = {contents; signature}} : t) =
    let unsigned_header =
      Data_encoding.Binary.to_bytes_exn unsigned_encoding (shell, contents)
    in
    Signature.check
      ~watermark:(to_watermark (Block_header chain_id))
      key
      signature
      unsigned_header
  in
  if check_signature key block then ok ()
  else
    error (Invalid_block_signature (hash block, Signature.Public_key.hash key))

let check_payload_round ~round ~payload_round =
  error_when
    Round_repr.(payload_round > round)
    (Invalid_payload_round {payload_round; round})

let check_timestamp round_durations ~timestamp ~round ~predecessor_timestamp
    ~predecessor_round =
  Round_repr.timestamp_of_round
    round_durations
    ~predecessor_timestamp
    ~predecessor_round
    ~round
  >>? fun expected_timestamp ->
  if Time_repr.(expected_timestamp = timestamp) then Error_monad.ok ()
  else error (Wrong_timestamp (timestamp, expected_timestamp))

module Proof_of_work = struct
  let check_hash hash stamp_threshold =
    let bytes = Block_hash.to_bytes hash in
    let word = TzEndian.get_int64 bytes 0 in
    Compare.Uint64.(word <= stamp_threshold)

  let check_header_proof_of_work_stamp shell contents stamp_threshold =
    let hash =
      hash {shell; protocol_data = {contents; signature = Signature.zero}}
    in
    check_hash hash stamp_threshold

  let check_proof_of_work_stamp ~proof_of_work_threshold block =
    if
      check_header_proof_of_work_stamp
        block.shell
        block.protocol_data.contents
        proof_of_work_threshold
    then ok ()
    else error Invalid_stamp
end

let begin_validate_block_header ~(block_header : t) ~(chain_id : Chain_id.t)
    ~(predecessor_timestamp : Time.t) ~(predecessor_round : Round_repr.t)
    ~(fitness : Fitness_repr.t) ~(timestamp : Time.t)
    ~(delegate_pk : Signature.Public_key.t)
    ~(round_durations : Round_repr.Durations.t)
    ~(proof_of_work_threshold : int64) ~(expected_commitment : bool) =
  (* Level relationship between current node and the predecessor is
     done by the shell. We know that level is predecessor level + 1.
     The predecessor block hash is guaranteed by the shell to be the
     one in the shell header.  The operations are guaranteed to
     correspond to the shell_header.operations_hash by the shell *)
  let {payload_round; seed_nonce_hash; _} =
    block_header.protocol_data.contents
  in
  let raw_level = block_header.shell.level in
  Proof_of_work.check_proof_of_work_stamp ~proof_of_work_threshold block_header
  >>? fun () ->
  Raw_level_repr.of_int32 raw_level >>? fun level ->
  check_signature block_header chain_id delegate_pk >>? fun () ->
  let round = Fitness_repr.round fitness in
  check_payload_round ~round ~payload_round >>? fun () ->
  check_timestamp
    round_durations
    ~predecessor_timestamp
    ~predecessor_round
    ~timestamp
    ~round
  >>? fun () ->
  Fitness_repr.check_except_locked_round fitness ~level ~predecessor_round
  >>? fun () ->
  let has_commitment =
    match seed_nonce_hash with None -> false | Some _ -> true
  in
  error_unless
    Compare.Bool.(has_commitment = expected_commitment)
    (Invalid_commitment {expected = expected_commitment})