mirror of https://github.com/status-im/nim-eth.git
In the incomplete-db node-existence check, don't use contains. (#603)
* In the incomplete-db node-existence check, don't use contains. (Using contains led to a problem with CaptureDB.) * In the incomplete-db check, just checking len > 0 isn't right. * Oh, I needed the AssertionDefect thing too. * Need this when compiling under older versions of Nim. * Sometimes we want missing nodes to be errors, sometimes not.
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@ -15,6 +15,7 @@ type
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db*: DB
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root: TrieNodeKey
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isPruning: bool
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shouldMissingNodesBeErrors: bool
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SecureHexaryTrie* = distinct HexaryTrie
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@ -31,14 +32,15 @@ proc expectHash(r: Rlp): seq[byte] =
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raise newException(RlpTypeMismatch,
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"RLP expected to be a Keccak hash value, but has an incorrect length")
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type MissingNodeError* = ref object of Defect
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when (NimMajor, NimMinor, NimPatch) < (1, 4, 0):
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type AssertionDefect = AssertionError
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type MissingNodeError* = ref object of AssertionDefect
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path*: NibblesSeq
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nodeHashBytes*: seq[byte]
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proc dbGet(db: DB, data: openArray[byte]): seq[byte]
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{.gcsafe, raises: [Defect].} =
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# Useful for debugging:
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# doAssert(db.contains(data), "dbGet, db must contain the data")
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db.get(data)
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proc dbGet(db: DB, key: Rlp): seq[byte] =
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@ -52,41 +54,39 @@ proc dbPut(db: DB, data: openArray[byte]): TrieNodeKey
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# the missing node. So here we need the path to be passed in, and if the
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# node is missing we'll raise an exception to get that information up to
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# where it's needed.
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proc getPossiblyMissingNode(db: DB, data: openArray[byte], fullPath: NibblesSeq, pathIndex: int): seq[byte]
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proc getPossiblyMissingNode(db: DB, data: openArray[byte], fullPath: NibblesSeq, pathIndex: int, errorIfMissing: bool): seq[byte]
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{.gcsafe, raises: [Defect].} =
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# FIXME-Adam: This causes some tests to fail in nimbus-eth1; I'm not
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# sure why. I need to figure it out, though, because we need this
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# behaviour.
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#
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# if db.contains(data):
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# db.get(data)
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# else:
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# raise MissingNodeError(path: fullPath.slice(0, pathIndex), nodeHashBytes: @data)
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db.get(data)
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let nodeBytes = db.get(data) # need to call this before the call to contains, otherwise CaptureDB complains
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if nodeBytes.len > 0 or not errorIfMissing:
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nodeBytes
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else:
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raise MissingNodeError(path: fullPath.slice(0, pathIndex), nodeHashBytes: @data)
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proc getPossiblyMissingNode(db: DB, key: Rlp, fullPath: NibblesSeq, pathIndex: int): seq[byte] =
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getPossiblyMissingNode(db, key.expectHash, fullPath, pathIndex)
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proc getPossiblyMissingNode(db: DB, key: Rlp, fullPath: NibblesSeq, pathIndex: int, errorIfMissing: bool): seq[byte] =
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getPossiblyMissingNode(db, key.expectHash, fullPath, pathIndex, errorIfMissing)
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converter toTrieNodeKey(hash: KeccakHash): TrieNodeKey =
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result.hash = hash
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result.usedBytes = 32
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proc initHexaryTrie*(db: DB, rootHash: KeccakHash, isPruning = true): HexaryTrie =
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proc initHexaryTrie*(db: DB, rootHash: KeccakHash, isPruning = true, shouldMissingNodesBeErrors = false): HexaryTrie =
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result.db = db
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result.root = rootHash
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result.isPruning = isPruning
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result.shouldMissingNodesBeErrors = shouldMissingNodesBeErrors
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template initSecureHexaryTrie*(db: DB, rootHash: KeccakHash, isPruning = true): SecureHexaryTrie =
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SecureHexaryTrie initHexaryTrie(db, rootHash, isPruning)
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template initSecureHexaryTrie*(db: DB, rootHash: KeccakHash, isPruning = true, shouldMissingNodesBeErrors = false): SecureHexaryTrie =
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SecureHexaryTrie initHexaryTrie(db, rootHash, isPruning, shouldMissingNodesBeErrors)
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proc initHexaryTrie*(db: DB, isPruning = true): HexaryTrie
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proc initHexaryTrie*(db: DB, isPruning = true, shouldMissingNodesBeErrors = false): HexaryTrie
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{.raises: [Defect].} =
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result.db = db
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result.root = result.db.dbPut(emptyRlp)
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result.isPruning = isPruning
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result.shouldMissingNodesBeErrors = shouldMissingNodesBeErrors
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template initSecureHexaryTrie*(db: DB, isPruning = true): SecureHexaryTrie =
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SecureHexaryTrie initHexaryTrie(db, isPruning)
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template initSecureHexaryTrie*(db: DB, isPruning = true, shouldMissingNodesBeErrors = false): SecureHexaryTrie =
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SecureHexaryTrie initHexaryTrie(db, isPruning, shouldMissingNodesBeErrors)
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proc rootHash*(t: HexaryTrie): KeccakHash =
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t.root.hash
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@ -113,11 +113,11 @@ template keyToLocalBytes(db: DB, k: TrieNodeKey): seq[byte] =
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template extensionNodeKey(r: Rlp): auto =
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hexPrefixDecode r.listElem(0).toBytes
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proc getLookup(db: DB, elem: Rlp, fullPath: NibblesSeq, pathIndex: int): Rlp =
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proc getLookup(db: DB, elem: Rlp, fullPath: NibblesSeq, pathIndex: int, errorIfMissing: bool): Rlp =
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if elem.isList: elem
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else: rlpFromBytes(getPossiblyMissingNode(db, elem.expectHash, fullPath, pathIndex))
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else: rlpFromBytes(getPossiblyMissingNode(db, elem.expectHash, fullPath, pathIndex, errorIfMissing))
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proc getAux(db: DB, nodeRlp: Rlp, fullPath: NibblesSeq, pathIndex: int): seq[byte]
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proc getAux(db: DB, nodeRlp: Rlp, fullPath: NibblesSeq, pathIndex: int, errorIfMissing: bool): seq[byte]
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{.gcsafe, raises: [RlpError, Defect].} =
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if not nodeRlp.hasData or nodeRlp.isEmpty:
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return
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@ -133,8 +133,8 @@ proc getAux(db: DB, nodeRlp: Rlp, fullPath: NibblesSeq, pathIndex: int): seq[byt
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if sharedNibbles == path.len and isLeaf:
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return value.toBytes
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elif not isLeaf:
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let nextLookup = getLookup(db, value, fullPath, pathIndex + sharedNibbles)
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return getAux(db, nextLookup, fullPath, pathIndex + sharedNibbles)
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let nextLookup = getLookup(db, value, fullPath, pathIndex + sharedNibbles, errorIfMissing)
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return getAux(db, nextLookup, fullPath, pathIndex + sharedNibbles, errorIfMissing)
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return
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of 17:
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@ -144,20 +144,17 @@ proc getAux(db: DB, nodeRlp: Rlp, fullPath: NibblesSeq, pathIndex: int): seq[byt
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if branch.isEmpty:
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return
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else:
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let nextLookup = getLookup(db, branch, fullPath, pathIndex + 1)
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return getAux(db, nextLookup, fullPath, pathIndex + 1)
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let nextLookup = getLookup(db, branch, fullPath, pathIndex + 1, errorIfMissing)
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return getAux(db, nextLookup, fullPath, pathIndex + 1, errorIfMissing)
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else:
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raise newException(CorruptedTrieDatabase,
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"HexaryTrie node with an unexpected number of children")
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proc getAuxByHash(db: DB, node: TrieNodeKey, fullPath: NibblesSeq, pathIndex: int): seq[byte] =
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var nodeRlp = rlpFromBytes keyToLocalBytes(db, node)
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return getAux(db, nodeRlp, fullPath, pathIndex)
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proc get*(self: HexaryTrie; key: openArray[byte]): seq[byte] =
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return getAuxByHash(self.db, self.root, initNibbleRange(key), 0)
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var nodeRlp = rlpFromBytes keyToLocalBytes(self.db, self.root)
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return getAux(self.db, nodeRlp, initNibbleRange(key), 0, self.shouldMissingNodesBeErrors)
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proc getKeysAux(db: DB, stack: var seq[tuple[nodeRlp: Rlp, path: NibblesSeq]]): seq[byte] =
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proc getKeysAux(db: DB, stack: var seq[tuple[nodeRlp: Rlp, path: NibblesSeq]], errorIfMissing: bool): seq[byte] =
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while stack.len > 0:
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let (nodeRlp, path) = stack.pop()
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if not nodeRlp.hasData or nodeRlp.isEmpty:
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@ -175,7 +172,7 @@ proc getKeysAux(db: DB, stack: var seq[tuple[nodeRlp: Rlp, path: NibblesSeq]]):
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else:
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let
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value = nodeRlp.listElem(1)
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nextLookup = getLookup(db, value, key, key.len)
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nextLookup = getLookup(db, value, key, key.len, errorIfMissing)
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stack.add((nextLookup, key))
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of 17:
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for i in 0 ..< 16:
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@ -183,7 +180,7 @@ proc getKeysAux(db: DB, stack: var seq[tuple[nodeRlp: Rlp, path: NibblesSeq]]):
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if not branch.isEmpty:
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var key = path.cloneAndReserveNibble()
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key.replaceLastNibble(i.byte)
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let nextLookup = getLookup(db, branch, key, key.len)
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let nextLookup = getLookup(db, branch, key, key.len, errorIfMissing)
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stack.add((nextLookup, key))
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var lastElem = nodeRlp.listElem(16)
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@ -199,9 +196,9 @@ iterator keys*(self: HexaryTrie): seq[byte] =
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nodeRlp = rlpFromBytes keyToLocalBytes(self.db, self.root)
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stack = @[(nodeRlp, initNibbleRange([]))]
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while stack.len > 0:
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yield getKeysAux(self.db, stack)
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yield getKeysAux(self.db, stack, self.shouldMissingNodesBeErrors)
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proc getValuesAux(db: DB, stack: var seq[tuple[nodeRlp: Rlp, path: NibblesSeq]]): seq[byte] =
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proc getValuesAux(db: DB, stack: var seq[tuple[nodeRlp: Rlp, path: NibblesSeq]], errorIfMissing: bool): seq[byte] =
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while stack.len > 0:
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let (nodeRlp, path) = stack.pop()
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if not nodeRlp.hasData or nodeRlp.isEmpty:
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@ -218,7 +215,7 @@ proc getValuesAux(db: DB, stack: var seq[tuple[nodeRlp: Rlp, path: NibblesSeq]])
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doAssert(key.len mod 2 == 0)
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return value.toBytes
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else:
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let nextLookup = getLookup(db, value, key, key.len)
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let nextLookup = getLookup(db, value, key, key.len, errorIfMissing)
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stack.add((nextLookup, key))
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of 17:
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for i in 0 ..< 16:
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@ -226,7 +223,7 @@ proc getValuesAux(db: DB, stack: var seq[tuple[nodeRlp: Rlp, path: NibblesSeq]])
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if not branch.isEmpty:
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var key = path.cloneAndReserveNibble()
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key.replaceLastNibble(i.byte)
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let nextLookup = getLookup(db, branch, key, key.len)
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let nextLookup = getLookup(db, branch, key, key.len, errorIfMissing)
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stack.add((nextLookup, key))
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var lastElem = nodeRlp.listElem(16)
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@ -241,9 +238,9 @@ iterator values*(self: HexaryTrie): seq[byte] =
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nodeRlp = rlpFromBytes keyToLocalBytes(self.db, self.root)
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stack = @[(nodeRlp, initNibbleRange([]))]
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while stack.len > 0:
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yield getValuesAux(self.db, stack)
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yield getValuesAux(self.db, stack, self.shouldMissingNodesBeErrors)
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proc getPairsAux(db: DB, stack: var seq[tuple[nodeRlp: Rlp, path: NibblesSeq]]): (seq[byte], seq[byte]) =
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proc getPairsAux(db: DB, stack: var seq[tuple[nodeRlp: Rlp, path: NibblesSeq]], errorIfMissing: bool): (seq[byte], seq[byte]) =
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while stack.len > 0:
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let (nodeRlp, path) = stack.pop()
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if not nodeRlp.hasData or nodeRlp.isEmpty:
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@ -260,7 +257,7 @@ proc getPairsAux(db: DB, stack: var seq[tuple[nodeRlp: Rlp, path: NibblesSeq]]):
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doAssert(key.len mod 2 == 0)
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return (key.getBytes, value.toBytes)
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else:
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let nextLookup = getLookup(db, value, key, key.len)
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let nextLookup = getLookup(db, value, key, key.len, errorIfMissing)
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stack.add((nextLookup, key))
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of 17:
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for i in 0 ..< 16:
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@ -268,7 +265,7 @@ proc getPairsAux(db: DB, stack: var seq[tuple[nodeRlp: Rlp, path: NibblesSeq]]):
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if not branch.isEmpty:
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var key = path.cloneAndReserveNibble()
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key.replaceLastNibble(i.byte)
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let nextLookup = getLookup(db, branch, key, key.len)
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let nextLookup = getLookup(db, branch, key, key.len, errorIfMissing)
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stack.add((nextLookup, key))
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var lastElem = nodeRlp.listElem(16)
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@ -287,7 +284,7 @@ iterator pairs*(self: HexaryTrie): (seq[byte], seq[byte]) =
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# perhaps a Nim bug #9778
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# cannot yield the helper proc directly
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# it will cut the yield in half
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let res = getPairsAux(self.db, stack)
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let res = getPairsAux(self.db, stack, self.shouldMissingNodesBeErrors)
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yield res
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iterator replicate*(self: HexaryTrie): (seq[byte], seq[byte]) =
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@ -422,7 +419,7 @@ proc replaceValue(data: Rlp, key: NibblesSeq, value: openArray[byte]): seq[byte]
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proc isTwoItemNode(self: HexaryTrie; r: Rlp, fullPath: NibblesSeq, pathIndex: int): bool =
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if r.isBlob:
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let resolved = getPossiblyMissingNode(self.db, r, fullPath, pathIndex)
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let resolved = getPossiblyMissingNode(self.db, r, fullPath, pathIndex, self.shouldMissingNodesBeErrors)
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let rlp = rlpFromBytes(resolved)
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return rlp.isList and rlp.listLen == 2
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else:
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@ -456,7 +453,7 @@ proc deleteAux(self: var HexaryTrie;
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return false
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var toDelete = if origRlp.isList: origRlp
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else: rlpFromBytes getPossiblyMissingNode(self.db, origRlp, fullPath, pathIndex)
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else: rlpFromBytes getPossiblyMissingNode(self.db, origRlp, fullPath, pathIndex, self.shouldMissingNodesBeErrors)
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let b = self.deleteAt(toDelete, fullPath, pathIndex)
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@ -473,7 +470,7 @@ proc graft(self: var HexaryTrie; r: Rlp, fullPath: NibblesSeq, pathIndexToThePar
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if not value.isList:
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let nodeKey = value.expectHash
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var resolvedData = getPossiblyMissingNode(self.db, nodeKey, fullPath, pathIndexToTheParent + origPath.len)
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var resolvedData = getPossiblyMissingNode(self.db, nodeKey, fullPath, pathIndexToTheParent + origPath.len, self.shouldMissingNodesBeErrors)
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self.prune(nodeKey)
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value = rlpFromBytes resolvedData
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@ -610,7 +607,7 @@ proc mergeAtAux(self: var HexaryTrie, output: var RlpWriter, orig: Rlp,
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var resolved = orig
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var isRemovable = false
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if not (orig.isList or orig.isEmpty):
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resolved = rlpFromBytes getPossiblyMissingNode(self.db, orig, fullPath, pathIndex)
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resolved = rlpFromBytes getPossiblyMissingNode(self.db, orig, fullPath, pathIndex, self.shouldMissingNodesBeErrors)
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isRemovable = true
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let b = self.mergeAt(resolved, fullPath, pathIndex, value, not isRemovable)
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@ -706,7 +703,7 @@ proc mergeAt(self: var HexaryTrie, orig: Rlp, origHash: KeccakHash,
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proc put*(self: var HexaryTrie; key, value: openArray[byte]) =
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let root = self.root.hash
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var rootBytes = getPossiblyMissingNode(self.db, root.data, NibblesSeq(), 0)
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var rootBytes = getPossiblyMissingNode(self.db, root.data, NibblesSeq(), 0, self.shouldMissingNodesBeErrors)
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doAssert rootBytes.len > 0
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let newRootBytes = self.mergeAt(rlpFromBytes(rootBytes), root,
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