260 lines
9.5 KiB
Nim
260 lines
9.5 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 -- Patricia Trie builder, raw node insertion
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## ======================================================
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##
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## This module merges `PathID` values as hexary lookup paths into the
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## `Patricia Trie`. When changing vertices (aka nodes without Merkle hashes),
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## associated (but separated) Merkle hashes will be deleted unless locked.
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## Instead of deleting locked hashes error handling is applied.
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##
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## Also, nodes (vertices plus merkle hashes) can be added which is needed for
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## boundary proofing after `snap/1` download. The vertices are split from the
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## nodes and stored as-is on the table holding `Patricia Trie` entries. The
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## hashes are stored iin a separate table and the vertices are labelled
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## `locked`.
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{.push raises: [].}
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import
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std/typetraits,
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eth/common,
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results,
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"."/[aristo_desc, aristo_fetch, aristo_get, aristo_layers, aristo_vid]
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proc layersPutLeaf(
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db: AristoDbRef, rvid: RootedVertexID, path: NibblesBuf, payload: LeafPayload
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): VertexRef =
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let vtx = VertexRef(vType: Leaf, pfx: path, lData: payload)
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db.layersPutVtx(rvid, vtx)
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vtx
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proc mergePayloadImpl(
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db: AristoDbRef, # Database, top layer
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root: VertexID, # MPT state root
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path: Hash32, # Leaf item to add to the database
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leaf: Opt[VertexRef],
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payload: LeafPayload, # Payload value
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): Result[(VertexRef, VertexRef, VertexRef), AristoError] =
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## Merge the argument `(root,path)` key-value-pair into the top level vertex
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## table of the database `db`. The `path` argument is used to address the
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## leaf vertex with the payload. It is stored or updated on the database
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## accordingly.
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##
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var
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path = NibblesBuf.fromBytes(path.data)
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cur = root
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(vtx, _) = db.getVtxRc((root, cur)).valueOr:
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if error != GetVtxNotFound:
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return err(error)
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# We're at the root vertex and there is no data - this must be a fresh
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# VertexID!
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return ok (db.layersPutLeaf((root, cur), path, payload), nil, nil)
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vids: ArrayBuf[NibblesBuf.high + 1, VertexID]
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vtxs: ArrayBuf[NibblesBuf.high + 1, VertexRef]
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template resetKeys() =
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# Reset cached hashes of touched verticies
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for i in 2..vids.len:
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db.layersResKey((root, vids[^i]), vtxs[^i])
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while path.len > 0:
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# Clear existing merkle keys along the traversal path
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vids.add cur
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vtxs.add vtx
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let n = path.sharedPrefixLen(vtx.pfx)
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case vtx.vType
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of Leaf:
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let res =
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if n == vtx.pfx.len:
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# Same path - replace the current vertex with a new payload
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if vtx.lData == payload:
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return err(MergeNoAction)
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let leafVtx = if root == VertexID(1):
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var payload = payload.dup()
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# TODO can we avoid this hack? it feels like the caller should already
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# have set an appropriate stoID - this "fixup" feels risky,
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# specially from a caching point of view
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payload.stoID = vtx.lData.stoID
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db.layersPutLeaf((root, cur), path, payload)
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else:
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db.layersPutLeaf((root, cur), path, payload)
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(leafVtx, nil, nil)
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else:
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# Turn leaf into a branch (or extension) then insert the two leaves
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# into the branch
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let branch = VertexRef(vType: Branch, pfx: path.slice(0, n), startVid: db.vidFetch(16))
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let other = block: # Copy of existing leaf node, now one level deeper
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let local = branch.setUsed(vtx.pfx[n], true)
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db.layersPutLeaf((root, local), vtx.pfx.slice(n + 1), vtx.lData)
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let leafVtx = block: # Newly inserted leaf node
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let local = branch.setUsed(path[n], true)
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db.layersPutLeaf((root, local), path.slice(n + 1), payload)
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# Put the branch at the vid where the leaf was
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db.layersPutVtx((root, cur), branch)
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# We need to return vtx here because its pfx member hasn't yet been
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# sliced off and is therefore shared with the hike
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(leafVtx, vtx, other)
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resetKeys()
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return ok(res)
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of Branch:
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if vtx.pfx.len == n:
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# The existing branch is a prefix of the new entry
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let
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nibble = path[vtx.pfx.len]
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next = vtx.bVid(nibble)
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if next.isValid:
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cur = next
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path = path.slice(n + 1)
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vtx =
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if leaf.isSome and leaf[].isValid and leaf[].pfx == path:
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leaf[]
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else:
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(?db.getVtxRc((root, next)))[0]
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else:
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# There's no vertex at the branch point - insert the payload as a new
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# leaf and update the existing branch
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let brDup = vtx.dup()
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let local = brDup.setUsed(nibble, true)
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db.layersPutVtx((root, cur), brDup)
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let
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leafVtx = db.layersPutLeaf((root, local), path.slice(n + 1), payload)
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resetKeys()
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return ok((leafVtx, nil, nil))
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else:
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# Partial path match - we need to split the existing branch at
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# the point of divergence, inserting a new branch
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let branch = VertexRef(vType: Branch, pfx: path.slice(0, n), startVid: db.vidFetch(16))
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block: # Copy the existing vertex and add it to the new branch
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let local = branch.setUsed(vtx.pfx[n], true)
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db.layersPutVtx(
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(root, local),
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VertexRef(vType: Branch, pfx: vtx.pfx.slice(n + 1), startVid: vtx.startVid, used: vtx.used),
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)
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let leafVtx = block: # add the new entry
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let local = branch.setUsed(path[n], true)
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db.layersPutLeaf((root, local), path.slice(n + 1), payload)
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db.layersPutVtx((root, cur), branch)
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resetKeys()
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return ok((leafVtx, nil, nil))
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err(MergeHikeFailed)
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# ------------------------------------------------------------------------------
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# Public functions
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# ------------------------------------------------------------------------------
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proc mergeAccountRecord*(
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db: AristoDbRef; # Database, top layer
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accPath: Hash32; # Even nibbled byte path
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accRec: AristoAccount; # Account data
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): Result[bool,AristoError] =
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## Merge the key-value-pair argument `(accKey,accRec)` as an account
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## ledger value, i.e. the the sub-tree starting at `VertexID(1)`.
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##
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## On success, the function returns `true` if the `accRec` argument was
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## not on the database already or different from `accRec`, and `false`
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## otherwise.
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##
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let
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pyl = LeafPayload(pType: AccountData, account: accRec)
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updated = db.mergePayloadImpl(
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VertexID(1), accPath, db.cachedAccLeaf(accPath), pyl).valueOr:
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if error == MergeNoAction:
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return ok false
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return err(error)
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# Update leaf cache both of the merged value and potentially the displaced
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# leaf resulting from splitting a leaf into a branch with two leaves
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db.layersPutAccLeaf(accPath, updated[0])
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if updated[1].isValid:
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let otherPath = Hash32(getBytes(
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NibblesBuf.fromBytes(accPath.data).replaceSuffix(updated[1].pfx)))
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db.layersPutAccLeaf(otherPath, updated[2])
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ok true
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proc mergeStorageData*(
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db: AristoDbRef; # Database, top layer
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accPath: Hash32; # Needed for accounts payload
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stoPath: Hash32; # Storage data path (aka key)
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stoData: UInt256; # Storage data payload value
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): Result[void,AristoError] =
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## Store the `stoData` data argument on the storage area addressed by
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## `(accPath,stoPath)` where `accPath` is the account key (into the MPT)
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## and `stoPath` is the slot path of the corresponding storage area.
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##
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var accHike: Hike
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db.fetchAccountHike(accPath,accHike).isOkOr:
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return err(MergeStoAccMissing)
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let
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stoID = accHike.legs[^1].wp.vtx.lData.stoID
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# Provide new storage ID when needed
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useID =
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if stoID.isValid: stoID # Use as is
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elif stoID.vid.isValid: (true, stoID.vid) # Re-use previous vid
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else: (true, db.vidFetch()) # Create new vid
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mixPath = mixUp(accPath, stoPath)
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# Call merge
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pyl = LeafPayload(pType: StoData, stoData: stoData)
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updated = db.mergePayloadImpl(
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useID.vid, stoPath, db.cachedStoLeaf(mixPath), pyl).valueOr:
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if error == MergeNoAction:
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assert stoID.isValid # debugging only
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return ok()
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return err(error)
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# Mark account path Merkle keys for update
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db.layersResKeys(accHike)
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# Update leaf cache both of the merged value and potentially the displaced
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# leaf resulting from splitting a leaf into a branch with two leaves
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db.layersPutStoLeaf(mixPath, updated[0])
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if updated[1].isValid:
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let otherPath = Hash32(getBytes(
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NibblesBuf.fromBytes(stoPath.data).replaceSuffix(updated[1].pfx)))
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db.layersPutStoLeaf(mixUp(accPath, otherPath), updated[2])
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if not stoID.isValid:
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# Make sure that there is an account that refers to that storage trie
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let leaf = accHike.legs[^1].wp.vtx.dup # Dup on modify
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leaf.lData.stoID = useID
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db.layersPutAccLeaf(accPath, leaf)
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db.layersPutVtx((VertexID(1), accHike.legs[^1].wp.vid), leaf)
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ok()
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# ------------------------------------------------------------------------------
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# End
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# ------------------------------------------------------------------------------
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