358 lines
11 KiB
Nim
358 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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import
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std/[hashes, sequtils, sets, tables],
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chronicles,
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eth/[common, trie/nibbles],
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stew/results,
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../../range_desc,
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"."/[hexary_desc, hexary_paths]
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{.push raises: [Defect].}
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logScope:
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topics = "snap-db"
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const
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extraTraceMessages = false # or true
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when extraTraceMessages:
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import stew/byteutils
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# ------------------------------------------------------------------------------
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# Private helpers
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# ------------------------------------------------------------------------------
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proc convertTo(key: RepairKey; T: type NodeKey): T =
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## Might be lossy, check before use
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discard result.init(key.ByteArray33[1 .. 32])
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proc convertTo(key: Blob; T: type NodeKey): T =
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## Might be lossy, check before use
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discard result.init(key)
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proc doStepLink(step: RPathStep): Result[RepairKey,bool] =
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## Helper for `hexaryInspectPath()` variant
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case step.node.kind:
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of Branch:
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if step.nibble < 0:
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return err(false) # indicates caller should try parent
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return ok(step.node.bLink[step.nibble])
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of Extension:
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return ok(step.node.eLink)
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of Leaf:
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discard
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err(true) # fully fail
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proc doStepLink(step: XPathStep): Result[NodeKey,bool] =
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## Helper for `hexaryInspectPath()` variant
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case step.node.kind:
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of Branch:
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if step.nibble < 0:
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return err(false) # indicates caller should try parent
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return ok(step.node.bLink[step.nibble].convertTo(NodeKey))
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of Extension:
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return ok(step.node.eLink.convertTo(NodeKey))
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of Leaf:
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discard
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err(true) # fully fail
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proc hexaryInspectPathImpl(
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db: HexaryTreeDbRef; ## Database
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rootKey: RepairKey; ## State root
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path: NibblesSeq; ## Starting path
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): Result[RepairKey,void]
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{.gcsafe, raises: [Defect,KeyError]} =
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## Translate `path` into `RepairKey`
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let steps = path.hexaryPath(rootKey,db)
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if 0 < steps.path.len and steps.tail.len == 0:
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block:
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let rc = steps.path[^1].doStepLink()
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if rc.isOk:
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return ok(rc.value)
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if rc.error or steps.path.len == 1:
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return err()
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block:
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let rc = steps.path[^2].doStepLink()
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if rc.isOk:
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return ok(rc.value)
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err()
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proc hexaryInspectPathImpl(
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getFn: HexaryGetFn; ## Database retrieval function
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root: NodeKey; ## State root
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path: NibblesSeq; ## Starting path
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): Result[NodeKey,void]
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{.gcsafe, raises: [Defect,RlpError]} =
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## Translate `path` into `RepairKey`
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let steps = path.hexaryPath(root,getFn)
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if 0 < steps.path.len and steps.tail.len == 0:
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block:
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let rc = steps.path[^1].doStepLink()
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if rc.isOk:
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return ok(rc.value)
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if rc.error or steps.path.len == 1:
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return err()
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block:
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let rc = steps.path[^2].doStepLink()
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if rc.isOk:
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return ok(rc.value)
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err()
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# ------------------------------------------------------------------------------
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# Private functions
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# ------------------------------------------------------------------------------
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proc processLink(
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db: HexaryTreeDbRef;
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stats: var TrieNodeStat;
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inspect: TableRef[RepairKey,NibblesSeq];
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parent: NodeKey;
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trail: NibblesSeq;
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child: RepairKey;
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) {.gcsafe, raises: [Defect,KeyError]} =
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## Helper for `hexaryInspect()`
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if not child.isZero:
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if not child.isNodeKey:
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# Oops -- caught in the middle of a repair process? Just register
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# this node
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stats.dangling.add trail.hexPrefixEncode(isLeaf = false)
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elif db.tab.hasKey(child):
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inspect[child] = trail
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else:
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stats.dangling.add trail.hexPrefixEncode(isLeaf = false)
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proc processLink(
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getFn: HexaryGetFn;
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stats: var TrieNodeStat;
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inspect: TableRef[NodeKey,NibblesSeq];
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parent: NodeKey;
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trail: NibblesSeq;
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child: Rlp;
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) {.gcsafe, raises: [Defect,RlpError,KeyError]} =
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## Ditto
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if not child.isEmpty:
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let
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#parentKey = parent.convertTo(NodeKey)
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childBlob = child.toBytes
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if childBlob.len != 32:
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# Oops -- that is wrong, although the only sensible action is to
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# register the node and otherwise ignore it
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stats.dangling.add trail.hexPrefixEncode(isLeaf = false)
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else:
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let childKey = childBlob.convertTo(NodeKey)
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if 0 < child.toBytes.getFn().len:
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inspect[childKey] = trail
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else:
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stats.dangling.add trail.hexPrefixEncode(isLeaf = false)
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# ------------------------------------------------------------------------------
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# Public functions
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# ------------------------------------------------------------------------------
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proc hexaryInspectPath*(
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db: HexaryTreeDbRef; ## Database
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root: NodeKey; ## State root
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path: Blob; ## Starting path
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): Result[NodeKey,void]
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{.gcsafe, raises: [Defect,KeyError]} =
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## Returns the `NodeKey` for a given path if there is any.
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let (isLeaf,nibbles) = hexPrefixDecode path
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if not isLeaf:
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let rc = db.hexaryInspectPathImpl(root.to(RepairKey), nibbles)
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if rc.isOk and rc.value.isNodeKey:
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return ok(rc.value.convertTo(NodeKey))
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err()
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proc hexaryInspectPath*(
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getFn: HexaryGetFn; ## Database abstraction
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root: NodeKey; ## State root
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path: Blob; ## Partial database path
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): Result[NodeKey,void]
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{.gcsafe, raises: [Defect,RlpError]} =
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## Variant of `hexaryInspectPath()` for persistent database.
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let (isLeaf,nibbles) = hexPrefixDecode path
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if not isLeaf:
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let rc = getFn.hexaryInspectPathImpl(root, nibbles)
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if rc.isOk:
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return ok(rc.value)
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err()
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proc hexaryInspectToKeys*(
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db: HexaryTreeDbRef; ## Database
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root: NodeKey; ## State root
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paths: seq[Blob]; ## Paths segments
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): HashSet[NodeKey]
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{.gcsafe, raises: [Defect,KeyError]} =
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## Convert a set of path segments to a node key set
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paths.toSeq
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.mapIt(db.hexaryInspectPath(root,it))
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.filterIt(it.isOk)
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.mapIt(it.value)
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.toHashSet
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proc hexaryInspectTrie*(
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db: HexaryTreeDbRef; ## Database
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root: NodeKey; ## State root
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paths: seq[Blob]; ## Starting paths for search
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stopAtLevel = 32; ## Instead of loop detector
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): TrieNodeStat
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{.gcsafe, raises: [Defect,KeyError]} =
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## Starting with the argument list `paths`, find all the non-leaf nodes in
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## the hexary trie which have at least one node key reference missing in
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## the trie database. The references for these nodes are collected and
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## returned.
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## * Search list `paths` argument entries that do not refer to a hexary node
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## are ignored.
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## * For any search list `paths` argument entry, this function stops if
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## the search depth exceeds `stopAtLevel` levels of linked sub-nodes.
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## * Argument `paths` list entries and partial paths on the way that do not
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## refer to a valid extension or branch type node are silently ignored.
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##
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let rootKey = root.to(RepairKey)
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if not db.tab.hasKey(rootKey):
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return TrieNodeStat()
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# Initialise TODO list
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var reVisit = newTable[RepairKey,NibblesSeq]()
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if paths.len == 0:
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reVisit[rootKey] = EmptyNibbleRange
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else:
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for w in paths:
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let (isLeaf,nibbles) = hexPrefixDecode w
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if not isLeaf:
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let rc = db.hexaryInspectPathImpl(rootKey, nibbles)
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if rc.isOk:
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reVisit[rc.value] = nibbles
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while 0 < reVisit.len:
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if stopAtLevel < result.level:
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result.stopped = true
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break
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let again = newTable[RepairKey,NibblesSeq]()
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for rKey,parentTrail in reVisit.pairs:
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let
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node = db.tab[rKey]
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parent = rKey.convertTo(NodeKey)
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case node.kind:
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of Extension:
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let
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trail = parentTrail & node.ePfx
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child = node.eLink
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db.processLink(stats=result, inspect=again, parent, trail, child)
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of Branch:
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for n in 0 ..< 16:
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let
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trail = parentTrail & @[n.byte].initNibbleRange.slice(1)
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child = node.bLink[n]
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db.processLink(stats=result, inspect=again, parent, trail, child)
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of Leaf:
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# Ooops, forget node and key
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discard
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# End `for`
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result.level.inc
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reVisit = again
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# End while
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proc hexaryInspectTrie*(
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getFn: HexaryGetFn; ## Database abstraction
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rootKey: NodeKey; ## State root
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paths: seq[Blob]; ## Starting paths for search
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stopAtLevel = 32; ## Instead of loop detector
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): TrieNodeStat
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{.gcsafe, raises: [Defect,RlpError,KeyError]} =
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## Variant of `hexaryInspectTrie()` for persistent database.
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when extraTraceMessages:
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let nPaths = paths.len
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let root = rootKey.to(Blob)
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if root.getFn().len == 0:
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when extraTraceMessages:
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trace "Hexary inspect: missing root", nPaths, maxLeafPaths,
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rootKey=root.toHex
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return TrieNodeStat()
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# Initialise TODO list
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var reVisit = newTable[NodeKey,NibblesSeq]()
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if paths.len == 0:
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reVisit[rootKey] = EmptyNibbleRange
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else:
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for w in paths:
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let (isLeaf,nibbles) = hexPrefixDecode w
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if not isLeaf:
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let rc = getFn.hexaryInspectPathImpl(rootKey, nibbles)
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if rc.isOk:
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reVisit[rc.value] = nibbles
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while 0 < reVisit.len:
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when extraTraceMessages:
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trace "Hexary inspect processing", nPaths, maxLeafPaths,
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level=result.level, nReVisit=reVisit.len, nDangling=result.dangling.len
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if stopAtLevel < result.level:
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result.stopped = true
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break
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let again = newTable[NodeKey,NibblesSeq]()
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for parent,parentTrail in reVisit.pairs:
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let parentBlob = parent.to(Blob).getFn()
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if parentBlob.len == 0:
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# Ooops, forget node and key
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continue
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let nodeRlp = rlpFromBytes parentBlob
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case nodeRlp.listLen:
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of 2:
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let (isLeaf,xPfx) = hexPrefixDecode nodeRlp.listElem(0).toBytes
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if not isleaf:
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let
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trail = parentTrail & xPfx
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child = nodeRlp.listElem(1)
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getFn.processLink(stats=result, inspect=again, parent, trail, child)
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of 17:
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for n in 0 ..< 16:
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let
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trail = parentTrail & @[n.byte].initNibbleRange.slice(1)
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child = nodeRlp.listElem(n)
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getFn.processLink(stats=result, inspect=again, parent, trail, child)
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else:
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# Ooops, forget node and key
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discard
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# End `for`
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result.level.inc
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reVisit = again
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# End while
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when extraTraceMessages:
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trace "Hexary inspect finished", nPaths, maxLeafPaths,
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level=result.level, nReVisit=reVisit.len, nDangling=result.dangling.len,
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maxLevel=stopAtLevel, stopped=result.stopped
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# ------------------------------------------------------------------------------
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# End
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# ------------------------------------------------------------------------------
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