2023-05-30 11:47:47 +00:00
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# nimbus-eth1
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2024-02-01 21:27:48 +00:00
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# Copyright (c) 2023-2024 Status Research & Development GmbH
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2023-05-30 11:47:47 +00:00
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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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{.push raises: [].}
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import
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2024-06-22 20:33:37 +00:00
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eth/common,
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2023-09-12 18:45:12 +00:00
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results,
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2024-09-19 08:39:06 +00:00
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stew/arraybuf,
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2023-06-12 18:16:03 +00:00
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"."/[aristo_desc, aristo_get]
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2023-05-30 11:47:47 +00:00
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2024-02-08 16:32:16 +00:00
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const
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HikeAcceptableStopsNotFound* = {
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HikeBranchTailEmpty,
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HikeBranchMissingEdge,
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HikeLeafUnexpected,
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HikeNoLegs}
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## When trying to find a leaf vertex the Patricia tree, there are several
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## conditions where the search stops which do not constitute a problem
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## with the trie (aka sysetm error.)
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2023-05-30 11:47:47 +00:00
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# ------------------------------------------------------------------------------
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# Private functions
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# ------------------------------------------------------------------------------
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2024-06-22 20:33:37 +00:00
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func getNibblesImpl(hike: Hike; start = 0; maxLen = high(int)): NibblesBuf =
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## May be needed for partial rebuild, as well
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for n in start ..< min(hike.legs.len, maxLen):
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let leg = hike.legs[n]
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case leg.wp.vtx.vType:
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of Branch:
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result = result & leg.wp.vtx.pfx & NibblesBuf.nibble(leg.nibble.byte)
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of Leaf:
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result = result & leg.wp.vtx.pfx
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# ------------------------------------------------------------------------------
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# Public functions
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# ------------------------------------------------------------------------------
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2024-02-08 16:32:16 +00:00
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func to*(rc: Result[Hike,(VertexID,AristoError,Hike)]; T: type Hike): T =
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## Extract `Hike` from either ok ot error part of argument `rc`.
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if rc.isOk: rc.value else: rc.error[2]
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func to*(hike: Hike; T: type NibblesBuf): T =
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## Convert back
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hike.getNibblesImpl() & hike.tail
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func legsTo*(hike: Hike; T: type NibblesBuf): T =
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## Convert back
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hike.getNibblesImpl()
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func legsTo*(hike: Hike; numLegs: int; T: type NibblesBuf): T =
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## variant of `legsTo()`
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hike.getNibblesImpl(0, numLegs)
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# --------
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proc step*(
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path: NibblesBuf, rvid: RootedVertexID, db: AristoDbRef
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): Result[(VertexRef, NibblesBuf, VertexID), AristoError] =
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# Fetch next vertex
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let (vtx, _) = db.getVtxRc(rvid).valueOr:
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if error != GetVtxNotFound:
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return err(error)
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if rvid.root == rvid.vid:
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return err(HikeNoLegs)
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# The vertex ID `vid` was a follow up from a parent vertex, but there is
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# no child vertex on the database. So `vid` is a dangling link which is
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# allowed only if there is a partial trie (e.g. with `snap` sync.)
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return err(HikeDanglingEdge)
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case vtx.vType:
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of Leaf:
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# This must be the last vertex, so there cannot be any `tail` left.
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if path.len != path.sharedPrefixLen(vtx.pfx):
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return err(HikeLeafUnexpected)
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ok (vtx, NibblesBuf(), VertexID(0))
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of Branch:
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# There must be some more data (aka `tail`) after a `Branch` vertex.
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if path.len <= vtx.pfx.len:
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return err(HikeBranchTailEmpty)
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let
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nibble = path[vtx.pfx.len].int8
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nextVid = vtx.bVid[nibble]
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if not nextVid.isValid:
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return err(HikeBranchMissingEdge)
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ok (vtx, path.slice(vtx.pfx.len + 1), nextVid)
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iterator stepUp*(
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path: NibblesBuf; # Partial path
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root: VertexID; # Start vertex
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db: AristoDbRef; # Database
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): Result[VertexRef, AristoError] =
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## For the argument `path`, iterate over the logest possible path in the
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## argument database `db`.
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var
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path = path
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next = root
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vtx: VertexRef
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block iter:
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while true:
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(vtx, path, next) = step(path, (root, next), db).valueOr:
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yield Result[VertexRef, AristoError].err(error)
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break iter
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yield Result[VertexRef, AristoError].ok(vtx)
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if path.len == 0:
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break
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proc hikeUp*(
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path: NibblesBuf; # Partial path
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root: VertexID; # Start vertex
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db: AristoDbRef; # Database
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leaf: Opt[VertexRef];
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hike: var Hike;
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): Result[void,(VertexID,AristoError)] =
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## For the argument `path`, find and return the logest possible path in the
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## argument database `db` - this may result in a partial match in which case
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## hike.tail will be non-empty.
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##
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## If a leaf is given, it gets used for the "last" leg of the hike.
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hike.root = root
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hike.tail = path
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hike.legs.setLen(0)
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if not root.isValid:
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return err((VertexID(0),HikeRootMissing))
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if path.len == 0:
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return err((VertexID(0),HikeEmptyPath))
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var vid = root
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while true:
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if leaf.isSome() and leaf[].isValid and path == leaf[].pfx:
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hike.legs.add Leg(wp: VidVtxPair(vid: vid, vtx: leaf[]), nibble: -1)
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reset(hike.tail)
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break
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let (vtx, path, next) = step(hike.tail, (root, vid), db).valueOr:
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return err((vid,error))
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let wp = VidVtxPair(vid:vid, vtx:vtx)
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case vtx.vType
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of Leaf:
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hike.legs.add Leg(wp: wp, nibble: -1)
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hike.tail = path
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break
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of Branch:
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hike.legs.add Leg(wp: wp, nibble: int8 hike.tail[vtx.pfx.len])
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hike.tail = path
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vid = next
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ok()
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2024-02-08 16:32:16 +00:00
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proc hikeUp*(
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lty: LeafTie;
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db: AristoDbRef;
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leaf: Opt[VertexRef];
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hike: var Hike
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): Result[void,(VertexID,AristoError)] =
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## Variant of `hike()`
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lty.path.to(NibblesBuf).hikeUp(lty.root, db, leaf, hike)
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proc hikeUp*(
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path: openArray[byte];
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root: VertexID;
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db: AristoDbRef;
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leaf: Opt[VertexRef];
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hike: var Hike
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): Result[void,(VertexID,AristoError)] =
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## Variant of `hike()`
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NibblesBuf.fromBytes(path).hikeUp(root, db, leaf, hike)
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proc hikeUp*(
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path: Hash32;
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root: VertexID;
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db: AristoDbRef;
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leaf: Opt[VertexRef];
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hike: var Hike
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): Result[void,(VertexID,AristoError)] =
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## Variant of `hike()`
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NibblesBuf.fromBytes(path.data).hikeUp(root, db, leaf, hike)
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2023-05-30 11:47:47 +00:00
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# ------------------------------------------------------------------------------
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# End
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# ------------------------------------------------------------------------------
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