290 lines
11 KiB
Nim
290 lines
11 KiB
Nim
# nimbus-eth1
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# Copyright (c) 2021 Status Research & Development GmbH
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# Licensed under either of
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# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or
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# http://www.apache.org/licenses/LICENSE-2.0)
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# * MIT license ([LICENSE-MIT](LICENSE-MIT) or
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# http://opensource.org/licenses/MIT)
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# at your option. This file may not be copied, modified, or distributed
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# except according to those terms.
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## Aristo DB -- Identifier types
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## =============================
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##
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{.push raises: [].}
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import
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std/[sequtils, strutils, hashes],
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eth/[common, trie/nibbles],
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stint
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type
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ByteArray32* = array[32,byte]
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## Used for 32 byte hash components repurposed as Merkle hash labels.
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QueueID* = distinct uint64
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## Identifier used to tag filter logs stored on the backend.
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FilterID* = distinct uint64
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## Identifier used to identify a particular filter. It is generatied with
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## the filter when stored to database.
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VertexID* = distinct uint64
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## Unique identifier for a vertex of the `Aristo Trie`. The vertex is the
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## prefix tree (aka `Patricia Trie`) component. When augmented by hash
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## keys, the vertex component will be called a node. On the persistent
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## backend of the database, there is no other reference to the node than
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## the very same `VertexID`.
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HashID* = distinct UInt256
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## Variant of a `Hash256` object that can be used in a order relation
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## (i.e. it can be sorted.) Among temporary conversions for sorting, the
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## `HashID` type is consistently used for addressing leaf vertices (see
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## below `LeafTie`.)
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HashKey* = distinct ByteArray32
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## Dedicated `Hash256` object variant that is used for labelling the
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## vertices of the `Patricia Trie` in order to make it a
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## `Merkle Patricia Tree`.
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# ----------
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LeafTie* = object
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## Unique access key for a leaf vertex. It identifies a root vertex
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## followed by a nibble path along the `Patricia Trie` down to a leaf
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## vertex. So this implies an obvious injection from the set of `LeafTie`
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## objects *into* the set of `VertexID` obvious (which is typically *into*
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## only, not a bijection.)
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##
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## Note that `LeafTie` objects have no representation in the `Aristo Trie`.
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## They are used temporarily and in caches or backlog tables.
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root*: VertexID ## Root ID for the sub-trie
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path*: HashID ## Path into the `Patricia Trie`
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HashLabel* = object
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## Merkle hash key uniquely associated with a vertex ID. As hashes in a
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## `Merkle Patricia Tree` are unique only on a particular sub-trie, the
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## hash key is paired with the top vertex of the relevant sub-trie. This
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## construction is similar to the one of a `LeafTie` object.
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##
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## Note that `HashLabel` objects have no representation in the
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## `Aristo Trie`. They are used temporarily and in caches or backlog
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## tables.
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root*: VertexID ## Root ID for the sub-trie.
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key*: HashKey ## Merkle hash tacked to a vertex.
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static:
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# Not that there is no doubt about this ...
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doAssert HashKey.default.ByteArray32.initNibbleRange.len == 64
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# ------------------------------------------------------------------------------
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# Public helpers: `VertexID` scalar data model
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# ------------------------------------------------------------------------------
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func `<`*(a, b: VertexID): bool {.borrow.}
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func `<=`*(a, b: VertexID): bool {.borrow.}
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func `==`*(a, b: VertexID): bool {.borrow.}
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func cmp*(a, b: VertexID): int {.borrow.}
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func `$`*(a: VertexID): string {.borrow.}
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func `==`*(a: VertexID; b: static[uint]): bool = (a == VertexID(b))
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# Scalar model extension as in `IntervalSetRef[VertexID,uint64]`
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func `+`*(a: VertexID; b: uint64): VertexID = (a.uint64+b).VertexID
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func `-`*(a: VertexID; b: uint64): VertexID = (a.uint64-b).VertexID
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func `-`*(a, b: VertexID): uint64 = (a.uint64 - b.uint64)
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# ------------------------------------------------------------------------------
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# Public helpers: `QueueID` scalar data model
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# ------------------------------------------------------------------------------
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func `<`*(a, b: QueueID): bool {.borrow.}
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func `<=`*(a, b: QueueID): bool {.borrow.}
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func `==`*(a, b: QueueID): bool {.borrow.}
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func cmp*(a, b: QueueID): int {.borrow.}
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func `$`*(a: QueueID): string {.borrow.}
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func `==`*(a: QueueID; b: static[uint]): bool = (a == QueueID(b))
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func `+`*(a: QueueID; b: uint64): QueueID = (a.uint64+b).QueueID
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func `-`*(a: QueueID; b: uint64): QueueID = (a.uint64-b).QueueID
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func `-`*(a, b: QueueID): uint64 = (a.uint64 - b.uint64)
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# ------------------------------------------------------------------------------
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# Public helpers: `FilterID` scalar data model
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# ------------------------------------------------------------------------------
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func `<`*(a, b: FilterID): bool {.borrow.}
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func `<=`*(a, b: FilterID): bool {.borrow.}
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func `==`*(a, b: FilterID): bool {.borrow.}
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func `$`*(a: FilterID): string {.borrow.}
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func `==`*(a: FilterID; b: static[uint]): bool = (a == FilterID(b))
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func `+`*(a: FilterID; b: uint64): FilterID = (a.uint64+b).FilterID
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func `-`*(a: FilterID; b: uint64): FilterID = (a.uint64-b).FilterID
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func `-`*(a, b: FilterID): uint64 = (a.uint64 - b.uint64)
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# ------------------------------------------------------------------------------
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# Public helpers: `HashID` scalar data model
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# ------------------------------------------------------------------------------
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func u256*(lp: HashID): UInt256 = lp.UInt256
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func low*(T: type HashID): T = low(UInt256).T
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func high*(T: type HashID): T = high(UInt256).T
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func `+`*(a: HashID; b: UInt256): HashID = (a.u256+b).HashID
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func `-`*(a: HashID; b: UInt256): HashID = (a.u256-b).HashID
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func `-`*(a, b: HashID): UInt256 = (a.u256 - b.u256)
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func `==`*(a, b: HashID): bool = a.u256 == b.u256
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func `<=`*(a, b: HashID): bool = a.u256 <= b.u256
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func `<`*(a, b: HashID): bool = a.u256 < b.u256
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func cmp*(x, y: HashID): int = cmp(x.UInt256, y.UInt256)
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# ------------------------------------------------------------------------------
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# Public helpers: `LeafTie`
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# ------------------------------------------------------------------------------
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func high*(_: type LeafTie; root = VertexID(1)): LeafTie =
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## Highest possible `LeafTie` object for given root vertex.
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LeafTie(root: root, path: high(HashID))
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func low*(_: type LeafTie; root = VertexID(1)): LeafTie =
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## Lowest possible `LeafTie` object for given root vertex.
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LeafTie(root: root, path: low(HashID))
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func `+`*(lty: LeafTie, n: int): LeafTie =
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## Return a `LeafTie` object with incremented path field. This function
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## will not check for a path field overflow. Neither it will verify that
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## the argument `n` is non-negative.
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LeafTie(root: lty.root, path: HashID(lty.path.u256 + n.u256))
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func `-`*(lty: LeafTie, n: int): LeafTie =
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## Return a `LeafTie` object with decremented path field. This function
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## will not check for a path field underflow. Neither it will verify that
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## the argument `n` is non-negative.
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LeafTie(root: lty.root, path: HashID(lty.path.u256 - n.u256))
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# ------------------------------------------------------------------------------
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# Public helpers: Conversions between `HashID`, `HashKey`, `Hash256`
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# ------------------------------------------------------------------------------
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func to*(hid: HashID; T: type Hash256): T =
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result.data = hid.UInt256.toBytesBE
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func to*(hid: HashID; T: type HashKey): T =
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hid.UInt256.toBytesBE.T
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func to*(key: HashKey; T: type HashID): T =
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UInt256.fromBytesBE(key.ByteArray32).T
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func to*(key: HashKey; T: type Hash256): T =
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T(data: ByteArray32(key))
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func to*(hash: Hash256; T: type HashKey): T =
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hash.data.T
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func to*(key: Hash256; T: type HashID): T =
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key.data.HashKey.to(T)
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# ------------------------------------------------------------------------------
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# Public helpers: Miscellaneous mappings
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# ------------------------------------------------------------------------------
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func to*(key: HashKey; T: type Blob): T =
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## Representation of a `HashKey` as `Blob` (preserving full information)
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key.ByteArray32.toSeq
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func to*(hid: HashID; T: type Blob): T =
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## Representation of a `HashID` as `Blob` (preserving full information)
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hid.UInt256.toBytesBE.toSeq
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func to*(key: HashKey; T: type NibblesSeq): T =
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## Representation of a `HashKey` as `NibbleSeq` (preserving full information)
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key.ByteArray32.initNibbleRange()
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func to*(hid: HashID; T: type NibblesSeq): T =
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## Representation of a `HashKey` as `NibbleSeq` (preserving full information)
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ByteArray32(hid.to(HashKey)).initNibbleRange()
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func to*(n: SomeUnsignedInt|UInt256; T: type HashID): T =
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## Representation of a scalar as `HashID` (preserving full information)
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n.u256.T
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func digestTo*(data: openArray[byte]; T: type HashKey): T =
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## Keccak hash of a `Blob` like argument, represented as a `HashKey`
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keccakHash(data).data.T
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# ------------------------------------------------------------------------------
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# Public helpers: `Tables` and `Rlp` support
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# ------------------------------------------------------------------------------
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func hash*(a: HashID): Hash =
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## Table/KeyedQueue mixin
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a.to(HashKey).ByteArray32.hash
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func hash*(a: HashKey): Hash =
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## Table/KeyedQueue mixin
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a.ByteArray32.hash
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func `==`*(a, b: HashKey): bool =
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## Table/KeyedQueue mixin
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a.ByteArray32 == b.ByteArray32
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func read*[T: HashID|HashKey](
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rlp: var Rlp;
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W: type T;
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): T
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{.gcsafe, raises: [RlpError].} =
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rlp.read(Hash256).to(T)
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func append*(writer: var RlpWriter, val: HashID|HashKey) =
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writer.append(val.to(Hash256))
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# ------------------------------------------------------------------------------
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# Public helpers: `LeafTie` scalar data model
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# ------------------------------------------------------------------------------
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func `<`*(a, b: LeafTie): bool =
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a.root < b.root or (a.root == b.root and a.path < b.path)
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func `==`*(a, b: LeafTie): bool =
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a.root == b.root and a.path == b.path
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func cmp*(a, b: LeafTie): int =
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if a < b: -1 elif a == b: 0 else: 1
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func `$`*(a: LeafTie): string =
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let w = $a.root.uint64.toHex & ":" & $a.path.Uint256.toHex
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w.strip(leading=true, trailing=false, chars={'0'}).toLowerAscii
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# ------------------------------------------------------------------------------
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# Miscellaneous helpers
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# ------------------------------------------------------------------------------
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func `$`*(hid: HashID): string =
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if hid == high(HashID):
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"2^256-1"
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elif hid == 0.u256.HashID:
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"0"
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elif hid == 2.u256.pow(255).HashID:
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"2^255" # 800...
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elif hid == 2.u256.pow(254).HashID:
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"2^254" # 400..
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elif hid == 2.u256.pow(253).HashID:
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"2^253" # 200...
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elif hid == 2.u256.pow(251).HashID:
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"2^252" # 100...
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else:
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hid.UInt256.toHex
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func `$`*(key: HashKey): string =
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$key.to(HashID)
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# ------------------------------------------------------------------------------
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# End
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# ------------------------------------------------------------------------------
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