nimbus-eth1/tests/test_aristo/test_short_keys.nim

# Nimbus
# Copyright (c) 2023-2024 Status Research & Development GmbH
# Licensed under either of
#  * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or
#    http://www.apache.org/licenses/LICENSE-2.0)
#  * MIT license ([LICENSE-MIT](LICENSE-MIT) or
#    http://opensource.org/licenses/MIT)
# at your option. This file may not be copied, modified, or
# distributed except according to those terms.

{.used.}

import
  std/[algorithm, sets],
  eth/common,
  results,
  stew/byteutils,
  unittest2,
  ../../nimbus/db/aristo,
  ../../nimbus/db/aristo/[
    aristo_check, aristo_get, aristo_debug, aristo_desc, aristo_serialise,
    aristo_utils],
  ../replay/xcheck,
  ./test_helpers

func x(s: string): Blob = s.hexToSeqByte
func k(s: string): HashKey = HashKey.fromBytes(s.x).value

let samples = [

  # From InvalidBlocks/bc4895-withdrawals/twoIdenticalIndex.json
  @[("80".x,
    "da808094c94f5374fce5edbc8e2a8697c15331677e6ebf0b822710".x,
    "27f166f1d7c789251299535cb176ba34116e44894476a7886fe5d73d9be5c973".k,
    VOID_HASH_KEY),
   ("01".x,
    "da028094c94f5374fce5edbc8e2a8697c15331677e6ebf0b822710".x,
    "81eac5f476f48feb289af40ee764015f6b49036760438ea45df90d5342b6ae61".k,
    VOID_HASH_KEY),
   ("02".x,
    "da018094c94f5374fce5edbc8e2a8697c15331677e6ebf0b822710".x,
    "463769ae507fcc6d6231c8888425191c5622f330fdd4b78a7b24c4521137b573".k,
    VOID_HASH_KEY),
   ("03".x,
    "da028094c94f5374fce5edbc8e2a8697c15331677e6ebf0b822710".x,
    "a95b9a7b58a6b3cb4001eb0be67951c5517141cb0183a255b5cae027a7b10b36".k,
    VOID_HASH_KEY)],

  # Somew on-the-fly provided stuff
  @[("0000".x, "0000".x,
     "69a4785bd4f5a1590e329138d4248b6f887fa37e41bfc510a55f21b44f98be61".k,
     "c783200000820000".k),
    ("0000".x, "0001".x,
     "910fa1155b667666abe7b4b1cb4864c1dc91c57c9528e1c5f5f9f95e003afece".k,
     "c783200000820001".k),
    ("0001".x, "0001".x,
     "d082d2bfe8586142d6f40df0245e56365043819e51e2c9799c660558eeea0db5".k,
     "dd821000d9c420820001c420820001808080808080808080808080808080".k),
    ("0002".x, "0000".x,
     "d56ea5154fbad18e0ff1eaeafa2310d0879b59adf189c12ff1b2701e54db07b2".k,
     VOID_HASH_KEY),
    ("0100".x, "0100".x,
     "d1c0699fe7928a536e0183c6400ae34eb1174ce6b21f9d117b061385034743ad".k,
     VOID_HASH_KEY),
    ("0101".x, "0101".x,
     "74ddb98cb56e2dd7e8fa090b9ce740c3de589b72403b20136af75fb6168b1d19".k,
     VOID_HASH_KEY),
    ("0200".x, "0200".x,
     "2e777f06ab2de1a460a8412b8691f10fdcb162077ab5cbb1865636668bcb6471".k,
     VOID_HASH_KEY)]]

let
  noisy = true
  gossip = false # or noisy

# ------------------------------------------------------------------------------
# Public test function
# ------------------------------------------------------------------------------

suite "Aristo short keys":
  test "Add and delete entries":

    # Check for some pathological cases
    for n,sample in samples:
      let
        sig = merkleSignBegin()
        root = (sig.root,sig.root)
        db = sig.db

      for inx,(k,v,r,s) in sample:

        sig.merkleSignAdd(k,v)
        gossip.say "*** testShortkeys (1)", "n=", n, " inx=", inx,
          "\n    k=", k.toHex, " v=", v.toHex,
          "\n    r=", r.pp(sig),
          "\n    ", sig.pp(),
          "\n"

        # Check state against expected value
        let w = sig.merkleSignCommit().value
        gossip.say "*** testShortkeys (2)", "n=", n, " inx=", inx,
          "\n    k=", k.toHex, " v=", v.toHex,
          "\n    r=", r.pp(sig),
          "\n    R=", w.pp(sig),
          "\n    ", sig.pp(),
          "\n    ----------------",
          "\n"
        xCheck r == w.to(HashKey):
          noisy.say "*** testShortkeys (2.1)", "n=", n, " inx=", inx,
            "\n    k=", k.toHex, " v=", v.toHex,
            "\n    r=", r.pp(sig),
            "\n    R=", w.pp(sig),
            "\n    ", sig.pp(),
            "\n"

        # Check raw node if given, check nor ref against expected value
        if s.isValid:
          let z = db.getVtx(root).toNode(root[0],db).value.digestTo(HashKey)
          xCheck s == z:
            noisy.say "*** testShortkeys (2.2)", "n=", n, " inx=", inx,
              "\n    k=", k.toHex, " v=", v.toHex,
              "\n    r=", r.pp(sig),
              "\n    R=", w.pp(sig),
              "\n    ", sig.pp(),
              "\n"

        let rc = sig.db.check
        xCheckRc rc.error == (0,0):
          noisy.say "*** testShortkeys (2.3)", "n=", n, " inx=", inx,
            "\n    k=", k.toHex, " v=", v.toHex, " rc=", rc.error,
            "\n    r=", r.pp(sig),
            "\n    R=", w.pp(sig),
            "\n    ", sig.pp(),
            "\n"

      # Reverse run deleting entries
      var deletedKeys: HashSet[Blob]
      for iny,(k,v,r,s) in sample.reversed:
        let inx = sample.len - 1 - iny

        # Check whether key was already deleted
        if k in deletedKeys:
          continue
        deletedKeys.incl k

        # Check state against expected value
        let w = sig.merkleSignCommit().value
        gossip.say "*** testShortkeys, pre-del (5)", "n=", n, " inx=", inx,
          "\n    k", k.toHex, " v=", v.toHex,
          "\n    r=", r.pp(sig),
          "\n    R=", w.pp(sig),
          "\n    ", sig.pp(),
          "\n"
        xCheck r == w.to(HashKey)

        # Check raw node if given, check nor ref against expected value
        if s.isValid:
          let z = db.getVtx(root).toNode(root[0],db).value.digestTo(HashKey)
          xCheck s == z

        sig.merkleSignDelete(k)
        gossip.say "*** testShortkeys, post-del (6)", "n=", n, " inx=", inx,
          "\n    k", k.toHex, " v=", v.toHex,
          "\n    ", sig.pp(),
          "\n"

        let rc = sig.db.check
        xCheckRc rc.error == (0,0)

# ------------------------------------------------------------------------------
# End
# ------------------------------------------------------------------------------
No ext update (#2494) * Imported/rebase from `no-ext`, PR #2485 Store extension nodes together with the branch Extension nodes must be followed by a branch - as such, it makes sense to store the two together both in the database and in memory: * fewer reads, writes and updates to traverse the tree * simpler logic for maintaining the node structure * less space used, both memory and storage, because there are fewer nodes overall There is also a downside: hashes can no longer be cached for an extension - instead, only the extension+branch hash can be cached - this seems like a fine tradeoff since computing it should be fast. TODO: fix commented code * Fix merge functions and `toNode()` * Update `merkleSignCommit()` prototype why: Result is always a 32bit hash * Update short Merkle hash key generation details: Ethereum reference MPTs use Keccak hashes as node links if the size of an RLP encoded node is at least 32 bytes. Otherwise, the RLP encoded node value is used as a pseudo node link (rather than a hash.) This is specified in the yellow paper, appendix D. Different to the `Aristo` implementation, the reference MPT would not store such a node on the key-value database. Rather the RLP encoded node value is stored instead of a node link in a parent node is stored as a node link on the parent database. Only for the root hash, the top level node is always referred to by the hash. * Fix/update `Extension` sections why: Were commented out after removal of a dedicated `Extension` type which left the system disfunctional. * Clean up unused error codes * Update unit tests * Update docu --------- Co-authored-by: Jacek Sieka <jacek@status.im> 2024-07-16 19:47:59 +00:00			`# Nimbus`
			`# Copyright (c) 2023-2024 Status Research & Development GmbH`
			`# Licensed under either of`
			`# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or`
			`# http://www.apache.org/licenses/LICENSE-2.0)`
			`# * MIT license ([LICENSE-MIT](LICENSE-MIT) or`
			`# http://opensource.org/licenses/MIT)`
			`# at your option. This file may not be copied, modified, or`
			`# distributed except according to those terms.`

			`{.used.}`

			`import`
			`std/[algorithm, sets],`
			`eth/common,`
			`results,`
			`stew/byteutils,`
			`unittest2,`
			`../../nimbus/db/aristo,`
			`../../nimbus/db/aristo/[`
			`aristo_check, aristo_get, aristo_debug, aristo_desc, aristo_serialise,`
			`aristo_utils],`
			`../replay/xcheck,`
			`./test_helpers`

			`func x(s: string): Blob = s.hexToSeqByte`
			`func k(s: string): HashKey = HashKey.fromBytes(s.x).value`

			`let samples = [`

			`# From InvalidBlocks/bc4895-withdrawals/twoIdenticalIndex.json`
			`@[("80".x,`
			`"da808094c94f5374fce5edbc8e2a8697c15331677e6ebf0b822710".x,`
			`"27f166f1d7c789251299535cb176ba34116e44894476a7886fe5d73d9be5c973".k,`
			`VOID_HASH_KEY),`
			`("01".x,`
			`"da028094c94f5374fce5edbc8e2a8697c15331677e6ebf0b822710".x,`
			`"81eac5f476f48feb289af40ee764015f6b49036760438ea45df90d5342b6ae61".k,`
			`VOID_HASH_KEY),`
			`("02".x,`
			`"da018094c94f5374fce5edbc8e2a8697c15331677e6ebf0b822710".x,`
			`"463769ae507fcc6d6231c8888425191c5622f330fdd4b78a7b24c4521137b573".k,`
			`VOID_HASH_KEY),`
			`("03".x,`
			`"da028094c94f5374fce5edbc8e2a8697c15331677e6ebf0b822710".x,`
			`"a95b9a7b58a6b3cb4001eb0be67951c5517141cb0183a255b5cae027a7b10b36".k,`
			`VOID_HASH_KEY)],`

			`# Somew on-the-fly provided stuff`
			`@[("0000".x, "0000".x,`
			`"69a4785bd4f5a1590e329138d4248b6f887fa37e41bfc510a55f21b44f98be61".k,`
			`"c783200000820000".k),`
			`("0000".x, "0001".x,`
			`"910fa1155b667666abe7b4b1cb4864c1dc91c57c9528e1c5f5f9f95e003afece".k,`
			`"c783200000820001".k),`
			`("0001".x, "0001".x,`
			`"d082d2bfe8586142d6f40df0245e56365043819e51e2c9799c660558eeea0db5".k,`
			`"dd821000d9c420820001c420820001808080808080808080808080808080".k),`
			`("0002".x, "0000".x,`
			`"d56ea5154fbad18e0ff1eaeafa2310d0879b59adf189c12ff1b2701e54db07b2".k,`
			`VOID_HASH_KEY),`
			`("0100".x, "0100".x,`
			`"d1c0699fe7928a536e0183c6400ae34eb1174ce6b21f9d117b061385034743ad".k,`
			`VOID_HASH_KEY),`
			`("0101".x, "0101".x,`
			`"74ddb98cb56e2dd7e8fa090b9ce740c3de589b72403b20136af75fb6168b1d19".k,`
			`VOID_HASH_KEY),`
			`("0200".x, "0200".x,`
			`"2e777f06ab2de1a460a8412b8691f10fdcb162077ab5cbb1865636668bcb6471".k,`
			`VOID_HASH_KEY)]]`

			`let`
			`noisy = true`
			`gossip = false # or noisy`

			`# ------------------------------------------------------------------------------`
			`# Public test function`
			`# ------------------------------------------------------------------------------`

			`suite "Aristo short keys":`
			`test "Add and delete entries":`

			`# Check for some pathological cases`
			`for n,sample in samples:`
			`let`
			`sig = merkleSignBegin()`
			`root = (sig.root,sig.root)`
			`db = sig.db`

			`for inx,(k,v,r,s) in sample:`

			`sig.merkleSignAdd(k,v)`
			`gossip.say "*** testShortkeys (1)", "n=", n, " inx=", inx,`
			`"\n k=", k.toHex, " v=", v.toHex,`
			`"\n r=", r.pp(sig),`
			`"\n ", sig.pp(),`
			`"\n"`

			`# Check state against expected value`
			`let w = sig.merkleSignCommit().value`
			`gossip.say "*** testShortkeys (2)", "n=", n, " inx=", inx,`
			`"\n k=", k.toHex, " v=", v.toHex,`
			`"\n r=", r.pp(sig),`
			`"\n R=", w.pp(sig),`
			`"\n ", sig.pp(),`
			`"\n ----------------",`
			`"\n"`
			`xCheck r == w.to(HashKey):`
			`noisy.say "*** testShortkeys (2.1)", "n=", n, " inx=", inx,`
			`"\n k=", k.toHex, " v=", v.toHex,`
			`"\n r=", r.pp(sig),`
			`"\n R=", w.pp(sig),`
			`"\n ", sig.pp(),`
			`"\n"`

			`# Check raw node if given, check nor ref against expected value`
			`if s.isValid:`
			`let z = db.getVtx(root).toNode(root[0],db).value.digestTo(HashKey)`
			`xCheck s == z:`
			`noisy.say "*** testShortkeys (2.2)", "n=", n, " inx=", inx,`
			`"\n k=", k.toHex, " v=", v.toHex,`
			`"\n r=", r.pp(sig),`
			`"\n R=", w.pp(sig),`
			`"\n ", sig.pp(),`
			`"\n"`

			`let rc = sig.db.check`
			`xCheckRc rc.error == (0,0):`
			`noisy.say "*** testShortkeys (2.3)", "n=", n, " inx=", inx,`
			`"\n k=", k.toHex, " v=", v.toHex, " rc=", rc.error,`
			`"\n r=", r.pp(sig),`
			`"\n R=", w.pp(sig),`
			`"\n ", sig.pp(),`
			`"\n"`

			`# Reverse run deleting entries`
			`var deletedKeys: HashSet[Blob]`
			`for iny,(k,v,r,s) in sample.reversed:`
			`let inx = sample.len - 1 - iny`

			`# Check whether key was already deleted`
			`if k in deletedKeys:`
			`continue`
			`deletedKeys.incl k`

			`# Check state against expected value`
			`let w = sig.merkleSignCommit().value`
			`gossip.say "*** testShortkeys, pre-del (5)", "n=", n, " inx=", inx,`
			`"\n k", k.toHex, " v=", v.toHex,`
			`"\n r=", r.pp(sig),`
			`"\n R=", w.pp(sig),`
			`"\n ", sig.pp(),`
			`"\n"`
			`xCheck r == w.to(HashKey)`

			`# Check raw node if given, check nor ref against expected value`
			`if s.isValid:`
			`let z = db.getVtx(root).toNode(root[0],db).value.digestTo(HashKey)`
			`xCheck s == z`

			`sig.merkleSignDelete(k)`
			`gossip.say "*** testShortkeys, post-del (6)", "n=", n, " inx=", inx,`
			`"\n k", k.toHex, " v=", v.toHex,`
			`"\n ", sig.pp(),`
			`"\n"`

			`let rc = sig.db.check`
			`xCheckRc rc.error == (0,0)`

			`# ------------------------------------------------------------------------------`
			`# End`
			`# ------------------------------------------------------------------------------`