129 lines
4.0 KiB
Nim
129 lines
4.0 KiB
Nim
# nimbus-eth1
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# Copyright (c) 2023-2024 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 -- Handy Helpers
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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, typetraits],
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eth/common,
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results,
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"."/[aristo_constants, aristo_desc, aristo_get, aristo_hike, aristo_layers]
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# ------------------------------------------------------------------------------
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# Public functions, converters
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# ------------------------------------------------------------------------------
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proc toNode*(
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vtx: VertexRef; # Vertex to convert
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db: AristoDbRef; # Database, top layer
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stopEarly = true; # Full list of missing links if `false`
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beKeyOk = true; # Allow fetching DB backend keys
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): Result[NodeRef,seq[VertexID]] =
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## Convert argument the vertex `vtx` to a node type. Missing Merkle hash
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## keys are searched for on the argument database `db`.
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##
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## On error, at least the vertex ID of the first missing Merkle hash key is
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## returned. If the argument `stopEarly` is set `false`, all missing Merkle
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## hash keys are returned.
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##
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## In the argument `beKeyOk` is set `false`, keys for node links are accepted
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## only from the cache layer. This does not affect a link key for a payload
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## storage root.
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##
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proc getKey(db: AristoDbRef; vid: VertexID; beOk: bool): HashKey =
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block body:
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let key = db.layersGetKey(vid).valueOr:
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break body
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if key.isValid:
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return key
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else:
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return VOID_HASH_KEY
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if beOk:
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let rc = db.getKeyBE vid
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if rc.isOk:
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return rc.value
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VOID_HASH_KEY
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case vtx.vType:
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of Leaf:
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let node = NodeRef(vType: Leaf, lPfx: vtx.lPfx, lData: vtx.lData)
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# Need to resolve storage root for account leaf
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if vtx.lData.pType == AccountData:
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let vid = vtx.lData.stoID
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if vid.isValid:
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let key = db.getKey vid
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if not key.isValid:
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return err(@[vid])
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node.key[0] = key
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return ok node
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of Branch:
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let node = NodeRef(vType: Branch, bVid: vtx.bVid)
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var missing: seq[VertexID]
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for n in 0 .. 15:
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let vid = vtx.bVid[n]
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if vid.isValid:
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let key = db.getKey(vid, beOk=beKeyOk)
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if key.isValid:
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node.key[n] = key
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elif stopEarly:
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return err(@[vid])
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else:
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missing.add vid
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if 0 < missing.len:
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return err(missing)
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return ok node
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of Extension:
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let
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vid = vtx.eVid
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key = db.getKey(vid, beOk=beKeyOk)
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if not key.isValid:
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return err(@[vid])
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let node = NodeRef(vType: Extension, ePfx: vtx.ePfx, eVid: vid)
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node.key[0] = key
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return ok node
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iterator subVids*(vtx: VertexRef): VertexID =
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## Returns the list of all sub-vertex IDs for the argument `vtx`.
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case vtx.vType:
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of Leaf:
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if vtx.lData.pType == AccountData:
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let vid = vtx.lData.stoID
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if vid.isValid:
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yield vid
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of Branch:
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for vid in vtx.bVid:
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if vid.isValid:
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yield vid
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of Extension:
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yield vtx.eVid
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# ---------------------
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proc updateAccountForHasher*(
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db: AristoDbRef; # Database
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hike: Hike; # Return value from `retrieveStorageID()`
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) =
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## The argument `hike` is used to mark/reset the keys along the implied
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## vertex path for being re-calculated.
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##
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# Clear Merkle keys so that `hasify()` can calculate the re-hash forest/tree
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for w in hike.legs.mapIt(it.wp.vid):
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db.layersResKey(hike.root, w)
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# ------------------------------------------------------------------------------
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# End
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# ------------------------------------------------------------------------------
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