(*****************************************************************************) (* *) (* Open Source License *) (* Copyright (c) 2018 Dynamic Ledger Solutions, Inc. *) (* *) (* 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. *) (* *) (*****************************************************************************) module type BASIC_DATA = sig type t include Compare.S with type t := t val encoding: t Data_encoding.t val pp: Format.formatter -> t -> unit end type t type context = t type public_key = Signature.Public_key.t type public_key_hash = Signature.Public_key_hash.t type signature = Signature.t module Tez : sig include BASIC_DATA type tez = t val zero: tez val one_mutez: tez val one_cent: tez val fifty_cents: tez val one: tez val ( -? ) : tez -> tez -> tez tzresult val ( +? ) : tez -> tez -> tez tzresult val ( *? ) : tez -> int64 -> tez tzresult val ( /? ) : tez -> int64 -> tez tzresult val of_string: string -> tez option val to_string: tez -> string val of_mutez: int64 -> tez option val to_mutez: tez -> int64 end module Period : sig include BASIC_DATA type period = t val rpc_arg: period RPC_arg.arg val of_seconds: int64 -> period tzresult val to_seconds: period -> int64 val mult: int32 -> period -> period tzresult val zero: period val one_second: period val one_minute: period val one_hour: period end module Timestamp : sig include BASIC_DATA with type t = Time.t type time = t val (+?) : time -> Period.t -> time tzresult val (-?) : time -> time -> Period.t tzresult val of_notation: string -> time option val to_notation: time -> string val of_seconds: string -> time option val to_seconds_string: time -> string val current: context -> time end module Raw_level : sig include BASIC_DATA type raw_level = t val rpc_arg: raw_level RPC_arg.arg val diff: raw_level -> raw_level -> int32 val root: raw_level val succ: raw_level -> raw_level val pred: raw_level -> raw_level option val to_int32: raw_level -> int32 val of_int32: int32 -> raw_level tzresult end module Cycle : sig include BASIC_DATA type cycle = t val rpc_arg: cycle RPC_arg.arg val root: cycle val succ: cycle -> cycle val pred: cycle -> cycle option val add: cycle -> int -> cycle val sub: cycle -> int -> cycle option val to_int32: cycle -> int32 module Map : S.MAP with type key = cycle end module Gas : sig type t = private | Unaccounted | Limited of { remaining : Z.t } val encoding : t Data_encoding.encoding val pp : Format.formatter -> t -> unit type cost val cost_encoding : cost Data_encoding.encoding val pp_cost : Format.formatter -> cost -> unit type error += Block_quota_exceeded (* `Temporary *) type error += Operation_quota_exceeded (* `Temporary *) type error += Gas_limit_too_high (* `Permanent *) val free : cost val atomic_step_cost : int -> cost val step_cost : int -> cost val alloc_cost : int -> cost val alloc_bytes_cost : int -> cost val alloc_mbytes_cost : int -> cost val alloc_bits_cost : int -> cost val read_bytes_cost : Z.t -> cost val write_bytes_cost : Z.t -> cost val ( *@ ) : int -> cost -> cost val ( +@ ) : cost -> cost -> cost val check_limit: context -> Z.t -> unit tzresult val set_limit: context -> Z.t -> context val set_unlimited: context -> context val consume: context -> cost -> context tzresult val check_enough: context -> cost -> unit tzresult val level: context -> t val consumed: since: context -> until: context -> Z.t val block_level: context -> Z.t end module Script_int : module type of Script_int_repr module Script_timestamp : sig open Script_int type t val compare: t -> t -> int val to_string: t -> string val to_notation: t -> string option val to_num_str: t -> string val of_string: string -> t option val diff: t -> t -> z num val add_delta: t -> z num -> t val sub_delta: t -> z num -> t val now: context -> t val to_zint: t -> Z.t val of_zint: Z.t -> t end module Script : sig type prim = Michelson_v1_primitives.prim = | K_parameter | K_storage | K_code | D_False | D_Elt | D_Left | D_None | D_Pair | D_Right | D_Some | D_True | D_Unit | I_PACK | I_UNPACK | I_BLAKE2B | I_SHA256 | I_SHA512 | I_ABS | I_ADD | I_AMOUNT | I_AND | I_BALANCE | I_CAR | I_CDR | I_CHAIN_ID | I_CHECK_SIGNATURE | I_COMPARE | I_CONCAT | I_CONS | I_CREATE_ACCOUNT | I_CREATE_CONTRACT | I_IMPLICIT_ACCOUNT | I_DIP | I_DROP | I_DUP | I_EDIV | I_EMPTY_BIG_MAP | I_EMPTY_MAP | I_EMPTY_SET | I_EQ | I_EXEC | I_APPLY | I_FAILWITH | I_GE | I_GET | I_GT | I_HASH_KEY | I_IF | I_IF_CONS | I_IF_LEFT | I_IF_NONE | I_INT | I_LAMBDA | I_LE | I_LEFT | I_LOOP | I_LSL | I_LSR | I_LT | I_MAP | I_MEM | I_MUL | I_NEG | I_NEQ | I_NIL | I_NONE | I_NOT | I_NOW | I_OR | I_PAIR | I_PUSH | I_RIGHT | I_SIZE | I_SOME | I_SOURCE | I_SENDER | I_SELF | I_SLICE | I_STEPS_TO_QUOTA | I_SUB | I_SWAP | I_TRANSFER_TOKENS | I_SET_DELEGATE | I_UNIT | I_UPDATE | I_XOR | I_ITER | I_LOOP_LEFT | I_ADDRESS | I_CONTRACT | I_ISNAT | I_CAST | I_RENAME | I_DIG | I_DUG | T_bool | T_contract | T_int | T_key | T_key_hash | T_lambda | T_list | T_map | T_big_map | T_nat | T_option | T_or | T_pair | T_set | T_signature | T_string | T_bytes | T_mutez | T_timestamp | T_unit | T_operation | T_address | T_chain_id type location = Micheline.canonical_location type annot = Micheline.annot type expr = prim Micheline.canonical type lazy_expr = expr Data_encoding.lazy_t val lazy_expr : expr -> lazy_expr type node = (location, prim) Micheline.node type t = { code: lazy_expr ; storage: lazy_expr } val location_encoding: location Data_encoding.t val expr_encoding: expr Data_encoding.t val prim_encoding: prim Data_encoding.t val encoding: t Data_encoding.t val lazy_expr_encoding: lazy_expr Data_encoding.t val deserialized_cost : expr -> Gas.cost val serialized_cost : MBytes.t -> Gas.cost val traversal_cost : node -> Gas.cost val node_cost : node -> Gas.cost val int_node_cost : Z.t -> Gas.cost val int_node_cost_of_numbits : int -> Gas.cost val string_node_cost : string -> Gas.cost val string_node_cost_of_length : int -> Gas.cost val bytes_node_cost : MBytes.t -> Gas.cost val bytes_node_cost_of_length : int -> Gas.cost val prim_node_cost_nonrec : expr list -> annot -> Gas.cost val prim_node_cost_nonrec_of_length : int -> annot -> Gas.cost val seq_node_cost_nonrec : expr list -> Gas.cost val seq_node_cost_nonrec_of_length : int -> Gas.cost val minimal_deserialize_cost : lazy_expr -> Gas.cost val force_decode : context -> lazy_expr -> (expr * context) tzresult Lwt.t val force_bytes : context -> lazy_expr -> (MBytes.t * context) tzresult Lwt.t val unit_parameter : lazy_expr module Legacy_support : sig val manager_script_code: lazy_expr val add_do: manager_pkh: Signature.Public_key_hash.t -> script_code: lazy_expr -> script_storage: lazy_expr -> (lazy_expr * lazy_expr) tzresult Lwt.t val add_set_delegate: manager_pkh: Signature.Public_key_hash.t -> script_code: lazy_expr -> script_storage: lazy_expr -> (lazy_expr * lazy_expr) tzresult Lwt.t val has_default_entrypoint: lazy_expr -> bool val add_root_entrypoint: script_code: lazy_expr -> lazy_expr tzresult Lwt.t end end module Constants : sig (** Fixed constants *) type fixed = { proof_of_work_nonce_size : int ; nonce_length : int ; max_revelations_per_block : int ; max_operation_data_length : int ; max_proposals_per_delegate : int ; } val fixed_encoding: fixed Data_encoding.t val fixed: fixed val proof_of_work_nonce_size: int val nonce_length: int val max_revelations_per_block: int val max_operation_data_length: int val max_proposals_per_delegate: int (** Constants parameterized by context *) type parametric = { preserved_cycles: int ; blocks_per_cycle: int32 ; blocks_per_commitment: int32 ; blocks_per_roll_snapshot: int32 ; blocks_per_voting_period: int32 ; time_between_blocks: Period.t list ; endorsers_per_block: int ; hard_gas_limit_per_operation: Z.t ; hard_gas_limit_per_block: Z.t ; proof_of_work_threshold: int64 ; tokens_per_roll: Tez.t ; michelson_maximum_type_size: int; seed_nonce_revelation_tip: Tez.t ; origination_size: int ; block_security_deposit: Tez.t ; endorsement_security_deposit: Tez.t ; block_reward: Tez.t ; endorsement_reward: Tez.t ; cost_per_byte: Tez.t ; hard_storage_limit_per_operation: Z.t ; test_chain_duration: int64; quorum_min: int32 ; quorum_max: int32 ; min_proposal_quorum : int32 ; initial_endorsers: int ; delay_per_missing_endorsement : Period.t ; } val parametric_encoding: parametric Data_encoding.t val parametric: context -> parametric val preserved_cycles: context -> int val blocks_per_cycle: context -> int32 val blocks_per_commitment: context -> int32 val blocks_per_roll_snapshot: context -> int32 val blocks_per_voting_period: context -> int32 val time_between_blocks: context -> Period.t list val endorsers_per_block: context -> int val initial_endorsers: context -> int val delay_per_missing_endorsement: context -> Period.t val hard_gas_limit_per_operation: context -> Z.t val hard_gas_limit_per_block: context -> Z.t val cost_per_byte: context -> Tez.t val hard_storage_limit_per_operation: context -> Z.t val proof_of_work_threshold: context -> int64 val tokens_per_roll: context -> Tez.t val michelson_maximum_type_size: context -> int val block_reward: context -> Tez.t val endorsement_reward: context -> Tez.t val seed_nonce_revelation_tip: context -> Tez.t val origination_size: context -> int val block_security_deposit: context -> Tez.t val endorsement_security_deposit: context -> Tez.t val test_chain_duration: context -> int64 val quorum_min: context -> int32 val quorum_max: context -> int32 val min_proposal_quorum: context -> int32 (** All constants: fixed and parametric *) type t = { fixed : fixed ; parametric : parametric ; } val encoding: t Data_encoding.t end module Voting_period : sig include BASIC_DATA type voting_period = t val rpc_arg: voting_period RPC_arg.arg val root: voting_period val succ: voting_period -> voting_period type kind = | Proposal | Testing_vote | Testing | Promotion_vote val kind_encoding: kind Data_encoding.encoding val to_int32: voting_period -> int32 end module Level : sig type t = private { level: Raw_level.t ; level_position: int32 ; cycle: Cycle.t ; cycle_position: int32 ; voting_period: Voting_period.t ; voting_period_position: int32 ; expected_commitment: bool ; } include BASIC_DATA with type t := t val pp_full: Format.formatter -> t -> unit type level = t val root: context -> level val succ: context -> level -> level val pred: context -> level -> level option val from_raw: context -> ?offset:int32 -> Raw_level.t -> level val diff: level -> level -> int32 val current: context -> level val last_level_in_cycle: context -> Cycle.t -> level val levels_in_cycle: context -> Cycle.t -> level list val levels_in_current_cycle: context -> ?offset:int32 -> unit -> level list val last_allowed_fork_level: context -> Raw_level.t end module Fitness : sig include (module type of Fitness) type fitness = t val increase: ?gap:int -> context -> context val current: context -> int64 val to_int64: fitness -> int64 tzresult end module Nonce : sig type t type nonce = t val encoding: nonce Data_encoding.t type unrevealed = { nonce_hash: Nonce_hash.t ; delegate: public_key_hash ; rewards: Tez.t ; fees: Tez.t ; } val record_hash: context -> unrevealed -> context tzresult Lwt.t val reveal: context -> Level.t -> nonce -> context tzresult Lwt.t type status = | Unrevealed of unrevealed | Revealed of nonce val get: context -> Level.t -> status tzresult Lwt.t val of_bytes: MBytes.t -> nonce tzresult val hash: nonce -> Nonce_hash.t val check_hash: nonce -> Nonce_hash.t -> bool end module Seed : sig type seed type error += | Unknown of { oldest : Cycle.t ; cycle : Cycle.t ; latest : Cycle.t } val for_cycle: context -> Cycle.t -> seed tzresult Lwt.t val cycle_end: context -> Cycle.t -> (context * Nonce.unrevealed list) tzresult Lwt.t val seed_encoding : seed Data_encoding.t end module Big_map: sig type id = Z.t val fresh : context -> (context * id) tzresult Lwt.t val fresh_temporary : context -> context * id val mem : context -> id -> Script_expr_hash.t -> (context * bool) tzresult Lwt.t val get_opt : context -> id -> Script_expr_hash.t -> (context * Script.expr option) tzresult Lwt.t val rpc_arg : id RPC_arg.t val cleanup_temporary : context -> context Lwt.t val exists : context -> id -> (context * (Script.expr * Script.expr) option) tzresult Lwt.t end module Contract : sig include BASIC_DATA type contract = t val rpc_arg: contract RPC_arg.arg val to_b58check: contract -> string val of_b58check: string -> contract tzresult val implicit_contract: public_key_hash -> contract val is_implicit: contract -> public_key_hash option val exists: context -> contract -> bool tzresult Lwt.t val must_exist: context -> contract -> unit tzresult Lwt.t val allocated: context -> contract -> bool tzresult Lwt.t val must_be_allocated: context -> contract -> unit tzresult Lwt.t val list: context -> contract list Lwt.t val get_manager_key: context -> public_key_hash -> public_key tzresult Lwt.t val is_manager_key_revealed: context -> public_key_hash -> bool tzresult Lwt.t val reveal_manager_key: context -> public_key_hash -> public_key -> context tzresult Lwt.t val get_script_code: context -> contract -> (context * Script.lazy_expr option) tzresult Lwt.t val get_script: context -> contract -> (context * Script.t option) tzresult Lwt.t val get_storage: context -> contract -> (context * Script.expr option) tzresult Lwt.t val get_counter: context -> public_key_hash -> Z.t tzresult Lwt.t val get_balance: context -> contract -> Tez.t tzresult Lwt.t val init_origination_nonce: context -> Operation_hash.t -> context val unset_origination_nonce: context -> context val fresh_contract_from_current_nonce : context -> (context * t) tzresult Lwt.t val originated_from_current_nonce: since: context -> until:context -> contract list tzresult Lwt.t type big_map_diff_item = | Update of { big_map : Big_map.id ; diff_key : Script.expr; diff_key_hash : Script_expr_hash.t; diff_value : Script.expr option; } | Clear of Big_map.id | Copy of Big_map.id * Big_map.id | Alloc of { big_map : Big_map.id; key_type : Script.expr; value_type : Script.expr; } type big_map_diff = big_map_diff_item list val big_map_diff_encoding : big_map_diff Data_encoding.t val originate: context -> contract -> balance: Tez.t -> script: (Script.t * big_map_diff option) -> delegate: public_key_hash option -> context tzresult Lwt.t type error += Balance_too_low of contract * Tez.t * Tez.t val spend: context -> contract -> Tez.t -> context tzresult Lwt.t val credit: context -> contract -> Tez.t -> context tzresult Lwt.t val update_script_storage: context -> contract -> Script.expr -> big_map_diff option -> context tzresult Lwt.t val used_storage_space: context -> t -> Z.t tzresult Lwt.t val increment_counter: context -> public_key_hash -> context tzresult Lwt.t val check_counter_increment: context -> public_key_hash -> Z.t -> unit tzresult Lwt.t (**/**) (* Only for testing *) type origination_nonce val initial_origination_nonce : Operation_hash.t -> origination_nonce val originated_contract : origination_nonce -> contract end module Delegate : sig type balance = | Contract of Contract.t | Rewards of Signature.Public_key_hash.t * Cycle.t | Fees of Signature.Public_key_hash.t * Cycle.t | Deposits of Signature.Public_key_hash.t * Cycle.t type balance_update = | Debited of Tez.t | Credited of Tez.t type balance_updates = (balance * balance_update) list val balance_updates_encoding : balance_updates Data_encoding.t val cleanup_balance_updates : balance_updates -> balance_updates val get: context -> Contract.t -> public_key_hash option tzresult Lwt.t val set: context -> Contract.t -> public_key_hash option -> context tzresult Lwt.t val fold: context -> init:'a -> f:(public_key_hash -> 'a -> 'a Lwt.t) -> 'a Lwt.t val list: context -> public_key_hash list Lwt.t val freeze_deposit: context -> public_key_hash -> Tez.t -> context tzresult Lwt.t val freeze_rewards: context -> public_key_hash -> Tez.t -> context tzresult Lwt.t val freeze_fees: context -> public_key_hash -> Tez.t -> context tzresult Lwt.t val cycle_end: context -> Cycle.t -> Nonce.unrevealed list -> (context * balance_updates * Signature.Public_key_hash.t list) tzresult Lwt.t type frozen_balance = { deposit : Tez.t ; fees : Tez.t ; rewards : Tez.t ; } val punish: context -> public_key_hash -> Cycle.t -> (context * frozen_balance) tzresult Lwt.t val full_balance: context -> public_key_hash -> Tez.t tzresult Lwt.t val has_frozen_balance: context -> public_key_hash -> Cycle.t -> bool tzresult Lwt.t val frozen_balance: context -> public_key_hash -> Tez.t tzresult Lwt.t val frozen_balance_encoding: frozen_balance Data_encoding.t val frozen_balance_by_cycle_encoding: frozen_balance Cycle.Map.t Data_encoding.t val frozen_balance_by_cycle: context -> Signature.Public_key_hash.t -> frozen_balance Cycle.Map.t Lwt.t val staking_balance: context -> Signature.Public_key_hash.t -> Tez.t tzresult Lwt.t val delegated_contracts: context -> Signature.Public_key_hash.t -> Contract_repr.t list Lwt.t val delegated_balance: context -> Signature.Public_key_hash.t -> Tez.t tzresult Lwt.t val deactivated: context -> Signature.Public_key_hash.t -> bool tzresult Lwt.t val grace_period: context -> Signature.Public_key_hash.t -> Cycle.t tzresult Lwt.t end module Vote : sig type proposal = Protocol_hash.t val record_proposal: context -> Protocol_hash.t -> public_key_hash -> context tzresult Lwt.t val get_proposals: context -> int32 Protocol_hash.Map.t tzresult Lwt.t val clear_proposals: context -> context Lwt.t val recorded_proposal_count_for_delegate: context -> public_key_hash -> int tzresult Lwt.t val listings_encoding : (Signature.Public_key_hash.t * int32) list Data_encoding.t val freeze_listings: context -> context tzresult Lwt.t val clear_listings: context -> context tzresult Lwt.t val listing_size: context -> int32 tzresult Lwt.t val in_listings: context -> public_key_hash -> bool Lwt.t val get_listings : context -> (public_key_hash * int32) list Lwt.t type ballot = Yay | Nay | Pass val ballot_encoding : ballot Data_encoding.t type ballots = { yay: int32 ; nay: int32 ; pass: int32 ; } val ballots_encoding : ballots Data_encoding.t val has_recorded_ballot : context -> public_key_hash -> bool Lwt.t val record_ballot: context -> public_key_hash -> ballot -> context tzresult Lwt.t val get_ballots: context -> ballots tzresult Lwt.t val get_ballot_list: context -> (Signature.Public_key_hash.t * ballot) list Lwt.t val clear_ballots: context -> context Lwt.t val get_current_period_kind: context -> Voting_period.kind tzresult Lwt.t val set_current_period_kind: context -> Voting_period.kind -> context tzresult Lwt.t val get_current_quorum: context -> int32 tzresult Lwt.t val get_participation_ema: context -> int32 tzresult Lwt.t val set_participation_ema: context -> int32 -> context tzresult Lwt.t val get_current_proposal: context -> proposal tzresult Lwt.t val init_current_proposal: context -> proposal -> context tzresult Lwt.t val clear_current_proposal: context -> context tzresult Lwt.t end module Block_header : sig type t = { shell: Block_header.shell_header ; protocol_data: protocol_data ; } and protocol_data = { contents: contents ; signature: Signature.t ; } and contents = { priority: int ; seed_nonce_hash: Nonce_hash.t option ; proof_of_work_nonce: MBytes.t ; } type block_header = t type raw = Block_header.t type shell_header = Block_header.shell_header val raw: block_header -> raw val hash: block_header -> Block_hash.t val hash_raw: raw -> Block_hash.t val encoding: block_header Data_encoding.encoding val raw_encoding: raw Data_encoding.t val contents_encoding: contents Data_encoding.t val unsigned_encoding: (shell_header * contents) Data_encoding.t val protocol_data_encoding: protocol_data Data_encoding.encoding val shell_header_encoding: shell_header Data_encoding.encoding val max_header_length: int (** The maximum size of block headers in bytes *) end module Kind : sig type seed_nonce_revelation = Seed_nonce_revelation_kind type double_endorsement_evidence = Double_endorsement_evidence_kind type double_baking_evidence = Double_baking_evidence_kind type activate_account = Activate_account_kind type endorsement = Endorsement_kind type proposals = Proposals_kind type ballot = Ballot_kind type reveal = Reveal_kind type transaction = Transaction_kind type origination = Origination_kind type delegation = Delegation_kind type 'a manager = | Reveal_manager_kind : reveal manager | Transaction_manager_kind : transaction manager | Origination_manager_kind : origination manager | Delegation_manager_kind : delegation manager end type 'kind operation = { shell: Operation.shell_header ; protocol_data: 'kind protocol_data ; } and 'kind protocol_data = { contents: 'kind contents_list ; signature: Signature.t option ; } and _ contents_list = | Single : 'kind contents -> 'kind contents_list | Cons : 'kind Kind.manager contents * 'rest Kind.manager contents_list -> (('kind * 'rest) Kind.manager ) contents_list and _ contents = | Endorsement : { level: Raw_level.t ; } -> Kind.endorsement contents | Seed_nonce_revelation : { level: Raw_level.t ; nonce: Nonce.t ; } -> Kind.seed_nonce_revelation contents | Double_endorsement_evidence : { op1: Kind.endorsement operation ; op2: Kind.endorsement operation ; } -> Kind.double_endorsement_evidence contents | Double_baking_evidence : { bh1: Block_header.t ; bh2: Block_header.t ; } -> Kind.double_baking_evidence contents | Activate_account : { id: Ed25519.Public_key_hash.t ; activation_code: Blinded_public_key_hash.activation_code ; } -> Kind.activate_account contents | Proposals : { source: Signature.Public_key_hash.t ; period: Voting_period.t ; proposals: Protocol_hash.t list ; } -> Kind.proposals contents | Ballot : { source: Signature.Public_key_hash.t ; period: Voting_period.t ; proposal: Protocol_hash.t ; ballot: Vote.ballot ; } -> Kind.ballot contents | Manager_operation : { source: Signature.Public_key_hash.t ; fee: Tez.tez ; counter: counter ; operation: 'kind manager_operation ; gas_limit: Z.t; storage_limit: Z.t; } -> 'kind Kind.manager contents and _ manager_operation = | Reveal : Signature.Public_key.t -> Kind.reveal manager_operation | Transaction : { amount: Tez.tez ; parameters: Script.lazy_expr ; entrypoint: string ; destination: Contract.contract ; } -> Kind.transaction manager_operation | Origination : { delegate: Signature.Public_key_hash.t option ; script: Script.t ; credit: Tez.tez ; preorigination: Contract.t option ; } -> Kind.origination manager_operation | Delegation : Signature.Public_key_hash.t option -> Kind.delegation manager_operation and counter = Z.t type 'kind internal_operation = { source: Contract.contract ; operation: 'kind manager_operation ; nonce: int ; } type packed_manager_operation = | Manager : 'kind manager_operation -> packed_manager_operation type packed_contents = | Contents : 'kind contents -> packed_contents type packed_contents_list = | Contents_list : 'kind contents_list -> packed_contents_list type packed_protocol_data = | Operation_data : 'kind protocol_data -> packed_protocol_data type packed_operation = { shell: Operation.shell_header ; protocol_data: packed_protocol_data ; } type packed_internal_operation = | Internal_operation : 'kind internal_operation -> packed_internal_operation val manager_kind: 'kind manager_operation -> 'kind Kind.manager module Fees : sig val origination_burn: context -> (context * Tez.t) tzresult Lwt.t val record_paid_storage_space: context -> Contract.t -> (context * Z.t * Z.t * Tez.t) tzresult Lwt.t val start_counting_storage_fees : context -> context val burn_storage_fees: context -> storage_limit:Z.t -> payer:Contract.t -> context tzresult Lwt.t type error += Cannot_pay_storage_fee (* `Temporary *) type error += Operation_quota_exceeded (* `Temporary *) type error += Storage_limit_too_high (* `Permanent *) val check_storage_limit: context -> storage_limit:Z.t -> unit tzresult end module Operation : sig type nonrec 'kind contents = 'kind contents type nonrec packed_contents = packed_contents val contents_encoding: packed_contents Data_encoding.t type nonrec 'kind protocol_data = 'kind protocol_data type nonrec packed_protocol_data = packed_protocol_data val protocol_data_encoding: packed_protocol_data Data_encoding.t val unsigned_encoding: (Operation.shell_header * packed_contents_list) Data_encoding.t type raw = Operation.t = { shell: Operation.shell_header ; proto: MBytes.t ; } val raw_encoding: raw Data_encoding.t val contents_list_encoding: packed_contents_list Data_encoding.t type 'kind t = 'kind operation = { shell: Operation.shell_header ; protocol_data: 'kind protocol_data ; } type nonrec packed = packed_operation val encoding: packed Data_encoding.t val raw: _ operation -> raw val hash: _ operation -> Operation_hash.t val hash_raw: raw -> Operation_hash.t val hash_packed: packed_operation -> Operation_hash.t val acceptable_passes: packed_operation -> int list type error += Missing_signature (* `Permanent *) type error += Invalid_signature (* `Permanent *) val check_signature: public_key -> Chain_id.t -> _ operation -> unit tzresult Lwt.t val check_signature_sync: public_key -> Chain_id.t -> _ operation -> unit tzresult val internal_operation_encoding: packed_internal_operation Data_encoding.t val pack: 'kind operation -> packed_operation type ('a, 'b) eq = Eq : ('a, 'a) eq val equal: 'a operation -> 'b operation -> ('a, 'b) eq option module Encoding : sig type 'b case = Case : { tag: int ; name: string ; encoding: 'a Data_encoding.t ; select: packed_contents -> 'b contents option ; proj: 'b contents -> 'a ; inj: 'a -> 'b contents } -> 'b case val endorsement_case: Kind.endorsement case val seed_nonce_revelation_case: Kind.seed_nonce_revelation case val double_endorsement_evidence_case: Kind.double_endorsement_evidence case val double_baking_evidence_case: Kind.double_baking_evidence case val activate_account_case: Kind.activate_account case val proposals_case: Kind.proposals case val ballot_case: Kind.ballot case val reveal_case: Kind.reveal Kind.manager case val transaction_case: Kind.transaction Kind.manager case val origination_case: Kind.origination Kind.manager case val delegation_case: Kind.delegation Kind.manager case module Manager_operations : sig type 'b case = MCase : { tag: int ; name: string ; encoding: 'a Data_encoding.t ; select: packed_manager_operation -> 'kind manager_operation option ; proj: 'kind manager_operation -> 'a ; inj: 'a -> 'kind manager_operation } -> 'kind case val reveal_case: Kind.reveal case val transaction_case: Kind.transaction case val origination_case: Kind.origination case val delegation_case: Kind.delegation case end end val of_list: packed_contents list -> packed_contents_list val to_list: packed_contents_list -> packed_contents list end module Roll : sig type t = private int32 type roll = t val encoding: roll Data_encoding.t val snapshot_rolls: context -> context tzresult Lwt.t val cycle_end: context -> Cycle.t -> context tzresult Lwt.t val baking_rights_owner: context -> Level.t -> priority:int -> public_key tzresult Lwt.t val endorsement_rights_owner: context -> Level.t -> slot:int -> public_key tzresult Lwt.t val delegate_pubkey: context -> public_key_hash -> public_key tzresult Lwt.t val get_rolls: context -> Signature.Public_key_hash.t -> roll list tzresult Lwt.t val get_change: context -> Signature.Public_key_hash.t -> Tez.t tzresult Lwt.t end module Commitment : sig type t = { blinded_public_key_hash : Blinded_public_key_hash.t ; amount : Tez.tez } val get_opt: context -> Blinded_public_key_hash.t -> Tez.t option tzresult Lwt.t val delete: context -> Blinded_public_key_hash.t -> context tzresult Lwt.t end module Bootstrap : sig val cycle_end: context -> Cycle.t -> context tzresult Lwt.t end module Global : sig val get_block_priority: context -> int tzresult Lwt.t val set_block_priority: context -> int -> context tzresult Lwt.t end val prepare_first_block: Context.t -> typecheck:(context -> Script.t -> ((Script.t * Contract.big_map_diff option) * context) tzresult Lwt.t) -> level:Int32.t -> timestamp:Time.t -> fitness:Fitness.t -> context tzresult Lwt.t val prepare: Context.t -> level:Int32.t -> predecessor_timestamp:Time.t -> timestamp:Time.t -> fitness:Fitness.t -> context tzresult Lwt.t val finalize: ?commit_message:string -> context -> Updater.validation_result val activate: context -> Protocol_hash.t -> context Lwt.t val fork_test_chain: context -> Protocol_hash.t -> Time.t -> context Lwt.t val record_endorsement: context -> Signature.Public_key_hash.t -> context val allowed_endorsements: context -> (Signature.Public_key.t * int list * bool) Signature.Public_key_hash.Map.t val init_endorsements: context -> (Signature.Public_key.t * int list * bool) Signature.Public_key_hash.Map.t -> context val included_endorsements: context -> int val reset_internal_nonce: context -> context val fresh_internal_nonce: context -> (context * int) tzresult val record_internal_nonce: context -> int -> context val internal_nonce_already_recorded: context -> int -> bool val add_fees: context -> Tez.t -> context tzresult Lwt.t val add_rewards: context -> Tez.t -> context tzresult Lwt.t val add_deposit: context -> Signature.Public_key_hash.t -> Tez.t -> context tzresult Lwt.t val get_fees: context -> Tez.t val get_rewards: context -> Tez.t val get_deposits: context -> Tez.t Signature.Public_key_hash.Map.t val description: context Storage_description.t