package tezos-protocol-alpha

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include Raw_context_intf.VIEW with type key := Raw_context.key with type value := Raw_context.value with type tree := Raw_context.tree with type t = t ipath
type t = t ipath

The type for context views.

Getters

mem t k is an Lwt promise that resolves to true iff k is bound to a value in t.

mem_tree t k is like mem but for trees.

get t k is an Lwt promise that resolves to Ok v if k is bound to the value v in t and Storage_ErrorMissing_key otherwise.

find t k is an Lwt promise that resolves to Some v if k is bound to the value v in t and None otherwise.

find_tree t k is like find but for trees.

val list : t -> ?offset:int -> ?length:int -> Raw_context.key -> (string * Raw_context.tree) list Tezos_protocol_environment_alpha.Lwt.t

list t key is the list of files and sub-nodes stored under k in t. The result order is not specified but is stable.

offset and length are used for pagination.

Setters

init t k v is an Lwt promise that resolves to Ok c if:

  • k is unbound in t;
  • k is bound to v in c;
  • and c is similar to t otherwise.

It is Storage_errorExisting_key if k is already bound in t.

update t k v is an Lwt promise that resolves to Ok c if:

  • k is bound in t;
  • k is bound to v in c;
  • and c is similar to t otherwise.

It is Storage_errorMissing_key if k is not already bound in t.

add t k v is an Lwt promise that resolves to c such that:

  • k is bound to v in c;
  • and c is similar to t otherwise.

If k was already bound in t to a value that is physically equal to v, the result of the function is a promise that resolves to t. Otherwise, the previous binding of k in t disappears.

add_tree is like add but for trees.

remove t k v is an Lwt promise that resolves to c such that:

  • k is unbound in c;
  • and c is similar to t otherwise.

remove_existing t k v is an Lwt promise that resolves to Ok c if:

  • k is bound in t to a value;
  • k is unbound in c;
  • and c is similar to t otherwise.

remove_existing_tree t k v is an Lwt promise that reolves to Ok c if:

  • k is bound in t to a tree;
  • k is unbound in c;
  • and c is similar to t otherwise.

add_or_remove t k v is:

  • add t k x if v is Some x;
  • remove t k otherwise.

add_or_remove_tree t k v is:

  • add_tree t k x if v is Some x;
  • remove t k otherwise.

Folds

val fold : ?depth:Raw_context_intf.depth -> t -> Raw_context.key -> order:[ `Sorted | `Undefined ] -> init:'a -> f: (Raw_context.key -> Raw_context.tree -> 'a -> 'a Tezos_protocol_environment_alpha.Lwt.t) -> 'a Tezos_protocol_environment_alpha.Lwt.t

fold ?depth t root ~order ~init ~f recursively folds over the trees and values of t. The f callbacks are called with a key relative to root. f is never called with an empty key for values; i.e., folding over a value is a no-op.

The depth is 0-indexed. If depth is set (by default it is not), then f is only called when the conditions described by the parameter is true:

  • Eq d folds over nodes and values of depth exactly d.
  • Lt d folds over nodes and values of depth strictly less than d.
  • Le d folds over nodes and values of depth less than or equal to d.
  • Gt d folds over nodes and values of depth strictly more than d.
  • Ge d folds over nodes and values of depth more than or equal to d.

If order is `Sorted (the default), the elements are traversed in lexicographic order of their keys. For large nodes, it is memory-consuming, use `Undefined for a more memory efficient fold.

Hash configurations

val config : t -> Raw_context_intf.config

config t is t's hash configuration.

length t key is an Lwt promise that resolves to the number of files and sub-nodes stored under k in t.

It is equivalent to list t k >|= List.length but has a constant-time complexity.

Most of the time, this function does not perform any I/O as the length is cached in the tree. It may perform one read to load the root node of the tree in case it has not been loaded already. The initial constant is the same between list and length. They both perform the same kind of I/O reads. While list usually performs a linear number of reads, length does at most one.

module Tree : Raw_context_intf.TREE with type t := t and type key := Raw_context.key and type value := Raw_context.value and type tree := Raw_context.tree

Tree provides immutable, in-memory partial mirror of the context, with lazy reads and delayed writes. The trees are Merkle trees that carry the same hash as the part of the context they mirror.

Proofs are compact representations of trees which can be shared between peers.

type ('proof, 'result) verifier := 'proof -> (Raw_context.tree -> (Raw_context.tree * 'result) Tezos_protocol_environment_alpha.Lwt.t) -> (Raw_context.tree * 'result, [ `Proof_mismatch of string | `Stream_too_long of string | `Stream_too_short of string ]) Tezos_protocol_environment_alpha.Pervasives.result Tezos_protocol_environment_alpha.Lwt.t

verify p f runs f in checking mode. f is a function that takes a tree as input and returns a new version of the tree and a result. p is a proof, that is a minimal representation of the tree that contains what f should be expecting.

Therefore, contrary to trees found in a storage, the contents of the trees passed to f may not be available. For this reason, looking up a value at some path can now produce three distinct outcomes:

  • A value v is present in the proof p and returned : find tree path is a promise returning Some v;
  • path is known to have no value in tree : find tree path is a promise returning None; and
  • path is known to have a value in tree but p does not provide it because f should not need it: verify returns an error classifying path as an invalid path (see below).

The same semantics apply to all operations on the tree t passed to f and on all operations on the trees built from f.

The generated tree is the tree after f has completed. That tree is disconnected from any storage (i.e. index). It is possible to run operations on it as long as they don't require loading shallowed subtrees.

The result is Error (`Msg _) if the proof is rejected:

  • For tree proofs: when p.before is different from the hash of p.state;
  • For tree and stream proofs: when p.after is different from the hash of f p.state;
  • For tree proofs: when f p.state tries to access invalid paths in p.state;
  • For stream proofs: when the proof is not consumed in the exact same order it was produced;
  • For stream proofs: when the proof is too short or not empty once f is done.
  • raises Failure

    if the proof version is invalid or incompatible with the verifier.

type tree_proof := Proof.tree Proof.t

The type for tree proofs.

Guarantee that the given computation performs exactly the same state operations as the generating computation, *in some order*.

val verify_tree_proof : (tree_proof, 'a) verifier

verify_tree_proof is the verifier of tree proofs.

type stream_proof := Proof.stream Proof.t

The type for stream proofs.

Guarantee that the given computation performs exactly the same state operations as the generating computation, in the exact same order.

val verify_stream_proof : (stream_proof, 'a) verifier

verify_stream is the verifier of stream proofs.

val equal_config : Raw_context_intf.config -> Raw_context_intf.config -> bool

The equality function for context configurations. If two context have the same configuration, they will generate the same context hashes.

val project : t -> Raw_context.root

Internally used in Storage_functors to escape from a view.

val absolute_key : t -> Raw_context.key -> Raw_context.key

Internally used in Storage_functors to retrieve a full key from partial key relative a view.

Raised if block gas quota is exhausted during gas consumption.

type Tezos_protocol_environment_alpha.Error_monad.error +=
  1. | Operation_quota_exceeded

Raised if operation gas quota is exhausted during gas consumption.

Internally used in Storage_functors to consume gas from within a view. May raise Block_quota_exceeded or Operation_quota_exceeded.

Check if consume_gas will fail

val description : t Storage_description.t