2022-08-15 15:51:50 +00:00
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# 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/[sequtils, sets, strutils, tables],
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2022-09-03 18:15:35 +00:00
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eth/[common/eth_types_rlp, trie/nibbles],
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stew/results,
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../../range_desc,
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2022-09-30 08:22:14 +00:00
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"."/[hexary_desc, hexary_error]
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{.push raises: [Defect].}
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# ------------------------------------------------------------------------------
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# Private debugging helpers
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# ------------------------------------------------------------------------------
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proc pp(q: openArray[byte]): string =
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q.toSeq.mapIt(it.toHex(2)).join.toLowerAscii.pp(hex = true)
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# ------------------------------------------------------------------------------
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# Public
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# ------------------------------------------------------------------------------
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proc hexaryImport*(
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db: HexaryTreeDbRef; ## Contains node table
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recData: Blob; ## Node to add
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unrefNodes: var HashSet[RepairKey]; ## Keep track of freestanding nodes
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nodeRefs: var HashSet[RepairKey]; ## Ditto
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): Result[void,HexaryDbError]
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{.gcsafe, raises: [Defect, RlpError, KeyError].} =
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## Decode a single trie item for adding to the table and add it to the
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## database. Branch and exrension record links are collected.
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let
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nodeKey = recData.digestTo(NodeKey)
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repairKey = nodeKey.to(RepairKey) # for repair table
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var
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rlp = recData.rlpFromBytes
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blobs = newSeq[Blob](2) # temporary, cache
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links: array[16,RepairKey] # reconstruct branch node
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blob16: Blob # reconstruct branch node
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top = 0 # count entries
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rNode: RNodeRef # repair tree node
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# Collect lists of either 2 or 17 blob entries.
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for w in rlp.items:
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case top
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of 0, 1:
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if not w.isBlob:
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return err(RlpBlobExpected)
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blobs[top] = rlp.read(Blob)
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of 2 .. 15:
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var key: NodeKey
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if not key.init(rlp.read(Blob)):
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return err(RlpBranchLinkExpected)
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# Update ref pool
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links[top] = key.to(RepairKey)
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unrefNodes.excl links[top] # is referenced, now (if any)
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nodeRefs.incl links[top]
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of 16:
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if not w.isBlob:
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return err(RlpBlobExpected)
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blob16 = rlp.read(Blob)
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else:
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return err(Rlp2Or17ListEntries)
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top.inc
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# Verify extension data
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case top
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of 2:
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if blobs[0].len == 0:
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return err(RlpNonEmptyBlobExpected)
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let (isLeaf, pathSegment) = hexPrefixDecode blobs[0]
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if isLeaf:
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rNode = RNodeRef(
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kind: Leaf,
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lPfx: pathSegment,
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lData: blobs[1])
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else:
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var key: NodeKey
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if not key.init(blobs[1]):
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return err(RlpExtPathEncoding)
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# Update ref pool
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rNode = RNodeRef(
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kind: Extension,
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ePfx: pathSegment,
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eLink: key.to(RepairKey))
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unrefNodes.excl rNode.eLink # is referenced, now (if any)
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nodeRefs.incl rNode.eLink
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of 17:
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for n in [0,1]:
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var key: NodeKey
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if not key.init(blobs[n]):
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return err(RlpBranchLinkExpected)
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# Update ref pool
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links[n] = key.to(RepairKey)
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unrefNodes.excl links[n] # is referenced, now (if any)
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nodeRefs.incl links[n]
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rNode = RNodeRef(
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kind: Branch,
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bLink: links,
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bData: blob16)
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else:
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discard
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# Add to database
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if not db.tab.hasKey(repairKey):
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db.tab[repairKey] = rNode
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# Update unreferenced nodes list
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if repairKey notin nodeRefs:
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unrefNodes.incl repairKey # keep track of stray nodes
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elif db.tab[repairKey].convertTo(Blob) != recData:
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return err(DifferentNodeValueExists)
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ok()
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proc hexaryImport*(
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db: HexaryTreeDbRef; ## Contains node table
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recData: Blob; ## Node to add
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): Result[void,HexaryDbError]
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{.gcsafe, raises: [Defect, RlpError, KeyError].} =
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## Ditto without referece checks
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let
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nodeKey = recData.digestTo(NodeKey)
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repairKey = nodeKey.to(RepairKey) # for repair table
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var
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rlp = recData.rlpFromBytes
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blobs = newSeq[Blob](2) # temporary, cache
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links: array[16,RepairKey] # reconstruct branch node
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blob16: Blob # reconstruct branch node
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top = 0 # count entries
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rNode: RNodeRef # repair tree node
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# Collect lists of either 2 or 17 blob entries.
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for w in rlp.items:
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case top
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of 0, 1:
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if not w.isBlob:
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return err(RlpBlobExpected)
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blobs[top] = rlp.read(Blob)
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of 2 .. 15:
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var key: NodeKey
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if not key.init(rlp.read(Blob)):
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return err(RlpBranchLinkExpected)
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# Update ref pool
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links[top] = key.to(RepairKey)
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of 16:
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if not w.isBlob:
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return err(RlpBlobExpected)
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blob16 = rlp.read(Blob)
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else:
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return err(Rlp2Or17ListEntries)
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top.inc
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# Verify extension data
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case top
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of 2:
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if blobs[0].len == 0:
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return err(RlpNonEmptyBlobExpected)
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let (isLeaf, pathSegment) = hexPrefixDecode blobs[0]
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if isLeaf:
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rNode = RNodeRef(
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kind: Leaf,
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lPfx: pathSegment,
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lData: blobs[1])
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else:
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var key: NodeKey
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if not key.init(blobs[1]):
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return err(RlpExtPathEncoding)
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# Update ref pool
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rNode = RNodeRef(
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kind: Extension,
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ePfx: pathSegment,
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eLink: key.to(RepairKey))
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of 17:
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for n in [0,1]:
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var key: NodeKey
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if not key.init(blobs[n]):
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return err(RlpBranchLinkExpected)
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# Update ref pool
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links[n] = key.to(RepairKey)
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rNode = RNodeRef(
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kind: Branch,
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bLink: links,
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bData: blob16)
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else:
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discard
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# Add to database
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if not db.tab.hasKey(repairKey):
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db.tab[repairKey] = rNode
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elif db.tab[repairKey].convertTo(Blob) != recData:
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return err(DifferentNodeValueExists)
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ok()
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# ------------------------------------------------------------------------------
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# End
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# ------------------------------------------------------------------------------
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