package tezos-protocol-008-PtEdo2Zk

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type Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error +=
  1. | Invalid_fitness_gap of int64 * int64
type Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error +=
  1. | Timestamp_too_early of Alpha_context.Timestamp.t * Alpha_context.Timestamp.t
type Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error +=
  1. | Invalid_block_signature of Tezos_crypto.Block_hash.t * Tezos_crypto.Signature.public_key_hash
type Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error +=
  1. | Unexpected_endorsement
type Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error +=
  1. | Invalid_signature
type Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error +=
  1. | Invalid_stamp
val minimal_time : Alpha_context.context -> int -> Tezos_base.Time.Protocol.t -> (Tezos_base.Time.Protocol.t, Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error list) Stdlib.result

minimal_time ctxt priority pred_block_time returns the minimal time, given the predecessor block timestamp pred_block_time, after which a baker with priority priority is allowed to bake. Fail with Invalid_time_between_blocks_constant if the minimal time cannot be computed.

val check_baking_rights : Alpha_context.context -> Alpha_context.Block_header.contents -> Tezos_base.Time.Protocol.t -> (Alpha_context.public_key * Alpha_context.Period.t, Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error list) Stdlib.result Lwt.t

check_baking_rights ctxt block pred_timestamp verifies that: * the contract that owned the roll at cycle start has the block signer as delegate. * the timestamp is coherent with the announced slot.

val endorsement_rights : Alpha_context.context -> Alpha_context.Level.t -> ((Alpha_context.public_key * int list * bool) Tezos_protocol_environment_008_PtEdo2Zk__Environment.Signature.Public_key_hash.Map.t, Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error list) Stdlib.result Lwt.t

For a given level computes who has the right to include an endorsement in the next block. The result can be stored in Alpha_context.allowed_endorsements

val check_endorsement_rights : Alpha_context.context -> Tezos_crypto.Chain_id.t -> Alpha_context.Kind.endorsement Alpha_context.Operation.t -> (Alpha_context.public_key_hash * int list * bool, Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error list) Stdlib.result Lwt.t

Check that the operation was signed by a delegate allowed to endorse at the level specified by the endorsement.

val baking_reward : Alpha_context.context -> block_priority:int -> included_endorsements:int -> (Alpha_context.Tez.t, Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error list) Stdlib.result

Returns the baking reward calculated w.r.t a given priority p and a number e of included endorsements

val endorsing_reward : Alpha_context.context -> block_priority:int -> int -> (Alpha_context.Tez.t, Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error list) Stdlib.result

Returns the endorsing reward calculated w.r.t a given priority.

baking_priorities ctxt level is the lazy list of contract's public key hashes that are allowed to bake for level.

val first_baking_priorities : Alpha_context.context -> ?max_priority:int -> Alpha_context.public_key_hash -> Alpha_context.Level.t -> (int list, Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error list) Stdlib.result Lwt.t

first_baking_priorities ctxt ?max_priority contract_hash level is a list of priorities of max ?max_priority elements, where the delegate of contract_hash is allowed to bake for level. If ?max_priority is None, a sensible number of priorities is returned.

val check_signature : Alpha_context.Block_header.t -> Tezos_crypto.Chain_id.t -> Alpha_context.public_key -> (unit, Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error list) Stdlib.result Lwt.t

check_signature ctxt chain_id block id check if the block is signed with the given key, and belongs to the given chain_id

val check_header_proof_of_work_stamp : Alpha_context.Block_header.shell_header -> Alpha_context.Block_header.contents -> int64 -> bool

Checks if the header that would be built from the given components is valid for the given difficulty. The signature is not passed as it is does not impact the proof-of-work stamp. The stamp is checked on the hash of a block header whose signature has been zeroed-out.

val check_proof_of_work_stamp : Alpha_context.context -> Alpha_context.Block_header.t -> (unit, Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error list) Stdlib.result

verify if the proof of work stamp is valid

val check_fitness_gap : Alpha_context.context -> Alpha_context.Block_header.t -> (unit, Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error list) Stdlib.result

check if the gap between the fitness of the current context and the given block is within the protocol parameters

val dawn_of_a_new_cycle : Alpha_context.context -> Alpha_context.Cycle.t option
val earlier_predecessor_timestamp : Alpha_context.context -> Alpha_context.Level.t -> (Alpha_context.Timestamp.t, Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error list) Stdlib.result

Since Emmy+

A block is valid only if its timestamp has a minimal delay with respect to the previous block's timestamp, and this minimal delay depends not only on the block's priority but also on the number of endorsement operations included in the block.

In Emmy+, blocks' fitness increases by one unit with each level.

In this way, Emmy+ simplifies the optimal baking strategy: The bakers used to have to choose whether to wait for more endorsements to include in their block, or to publish the block immediately, without waiting. The incentive for including more endorsements was to increase the fitness and win against unknown blocks. However, when a block was produced too late in the priority period, there was the risk that the block did not reach endorsers before the block of next priority. In Emmy+, the baker does not need to take such a decision, because the baker cannot publish a block too early.

val minimum_allowed_endorsements : Alpha_context.context -> block_delay:Alpha_context.Period.t -> int

Given a delay of a block's timestamp with respect to the minimum time to bake at the block's priority (as returned by `minimum_time`), it returns the minimum number of endorsements that the block has to contain

val minimal_valid_time : Alpha_context.context -> priority:int -> endorsing_power:int -> (Tezos_base.Time.Protocol.t, Tezos_protocol_environment_008_PtEdo2Zk__Environment.Error_monad.error list) Stdlib.result

This is the somehow the dual of the previous function. Given a block priority and a number of endorsement slots (given by the `endorsing_power` argument), it returns the minimum time at which the next block can be baked.

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