nimbus-eth1/stateless/tree_from_witness.nim

import
  faststreams/input_stream, eth/[common, rlp], stint, stew/endians2,
  eth/trie/[db, trie_defs], nimcrypto/[keccak, hash],
  ./witness_types, stew/byteutils

type
  DB = TrieDatabaseRef

  NodeKey = object
    usedBytes: int
    data*: array[32, byte]

  TreeBuilder = object
    input: InputStream
    db: DB
    root: KeccakHash

proc initTreeBuilder*(input: InputStream, db: DB): TreeBuilder =
  result.input = input
  result.db = db
  result.root = emptyRlpHash

proc initTreeBuilder*(input: openArray[byte], db: DB): TreeBuilder =
  result.input = memoryInput(input)
  result.db = db
  result.root = emptyRlpHash
  
func rootHash*(t: TreeBuilder): KeccakHash {.inline.} =
  t.root

proc writeNode(t: var TreeBuilder, n: openArray[byte]): KeccakHash =
  result = keccak(n)
  t.db.put(result.data, n)

template readByte(t: var TreeBuilder): byte =
  t.input.read

template len(t: TreeBuilder): int =
  t.input.len

template peek(t: TreeBuilder): byte =
  t.input.peek

template read(t: var TreeBuilder, len: int): auto =
  t.input.read(len)

proc readU32(t: var TreeBuilder): uint32 =
  result = fromBytesBE(uint32, t.read(4))

proc toAddress(r: var EthAddress, x: openArray[byte]) {.inline.} =
  r[0..19] = x[0..19]

proc toKeccak(r: var NodeKey, x: openArray[byte]) {.inline.} =
  r.data[0..31] = x[0..31]
  r.usedBytes = 32

proc toKeccak(x: openArray[byte]): NodeKey {.inline.} =
  result.data[0..31] = x[0..31]
  result.usedBytes = 32

proc append(r: var RlpWriter, n: NodeKey) =
  if n.usedBytes < 32:
    r.append rlpFromBytes(n.data.toOpenArray(0, n.usedBytes-1))
  else:
    r.append n.data.toOpenArray(0, n.usedBytes-1)

proc toNodeKey(z: openArray[byte]): NodeKey =
  if z.len < 32:
    result.usedBytes = z.len
    result.data[0..z.len-1] = z[0..z.len-1]
  else:
    result.data = keccak(z).data
    result.usedBytes = 32

proc branchNode(t: var TreeBuilder, depth: int, has16Elem: bool = true): NodeKey
proc extensionNode(t: var TreeBuilder, depth: int): NodeKey
proc accountNode(t: var TreeBuilder, depth: int): NodeKey
proc accountStorageLeafNode(t: var TreeBuilder, depth: int): NodeKey
proc hashNode(t: var TreeBuilder): NodeKey

proc treeNode*(t: var TreeBuilder, depth: int = 0, accountMode = false): NodeKey =
  assert(depth < 64)
  let nodeType = TrieNodeType(t.readByte)

  case nodeType
  of BranchNodeType: result = t.branchNode(depth)
  of Branch17NodeType: result = t.branchNode(depth, false)
  of ExtensionNodeType: result = t.extensionNode(depth)
  of AccountNodeType:
    if accountMode:
      # parse account storage leaf node
      result = t.accountStorageLeafNode(depth)
    else:
      result = t.accountNode(depth)
  of HashNodeType: result = t.hashNode()

  if depth == 0 and result.usedBytes < 32:
    result.data = keccak(result.data.toOpenArray(0, result.usedBytes-1)).data
    result.usedBytes = 32

proc branchNode(t: var TreeBuilder, depth: int, has16Elem: bool): NodeKey =
  assert(depth < 64)
  let mask = constructBranchMask(t.readByte, t.readByte)

  when defined(debugDepth):
    let readDepth = t.readByte.int
    doAssert(readDepth == depth, "branchNode " & $readDepth & " vs. " & $depth)

  when defined(debugHash):
    let hash = toKeccak(t.read(32))

  var r = initRlpList(17)

  for i in 0 ..< 16:
    if mask.branchMaskBitIsSet(i):
      r.append t.treeNode(depth+1)
    else:
      r.append ""

  template safePeek(t: var TreeBuilder): int =
    if t.len == 0 or has16Elem:
      -1
    else:
      t.peek().int

  # add the 17th elem
  let nodeType = t.safePeek()
  if nodeType == AccountNodeType.int:
    r.append accountNode(t, depth+1)
  elif nodeType == HashNodeType.int:
    r.append hashNode(t)
  else:
    # anything else is empty
    r.append ""

  result = toNodeKey(r.finish)

  when defined(debugHash):
    if result != hash:
      debugEcho "DEPTH: ", depth
      debugEcho "result: ", result.data.toHex, " vs. ", hash.data.toHex

func hexPrefix(r: var RlpWriter, x: openArray[byte], nibblesLen: int) =
  var bytes: array[33, byte]
  if (nibblesLen mod 2) == 0:
    bytes[0] = 0.byte
    var i = 1
    for y in x:
      bytes[i] = y
      inc i
  else:
    bytes[0] = 0b0001_0000.byte or (x[0] shr 4)
    var last = nibblesLen div 2
    for i in 1..last:
      bytes[i] = (x[i-1] shl 4) or (x[i] shr 4)

  r.append toOpenArray(bytes, 0, nibblesLen div 2)

proc extensionNode(t: var TreeBuilder, depth: int): NodeKey =
  assert(depth < 63)
  let nibblesLen = int(t.readByte)
  assert(nibblesLen < 65)
  var r = initRlpList(2)
  r.hexPrefix(t.read(nibblesLen div 2 + nibblesLen mod 2), nibblesLen)

  when defined(debugDepth):
    let readDepth = t.readByte.int
    doAssert(readDepth == depth, "extensionNode " & $readDepth & " vs. " & $depth)

  when defined(debugHash):
    let hash = toKeccak(t.read(32))

  assert(depth + nibblesLen < 65)
  let nodeType = TrieNodeType(t.readByte)

  case nodeType
  of BranchNodeType: r.append t.branchNode(depth + nibblesLen)
  of Branch17NodeType: r.append t.branchNode(depth + nibblesLen, false)
  of HashNodeType: r.append t.hashNode()
  else: raise newException(ValueError, "wrong type during parsing child of extension node")

  result = toNodeKey(r.finish)

  when defined(debugHash):
    if result != hash:
      debugEcho "DEPTH: ", depth
    doAssert(result == hash, "EXT HASH DIFF " & result.data.toHex & " vs. " & hash.data.toHex)

proc accountNode(t: var TreeBuilder, depth: int): NodeKey =
  assert(depth < 65)
  let len = t.readU32().int
  result = toNodeKey(t.read(len))

  when defined(debugDepth):
    let readDepth = t.readByte.int
    doAssert(readDepth == depth, "accountNode " & $readDepth & " vs. " & $depth)

  #[let nodeType = AccountType(t.readByte)
  let nibblesLen = 64 - depth
  let pathNibbles = @(t.read(nibblesLen div 2 + nibblesLen mod 2))
  let address = toAddress(t.read(20))
  let balance = UInt256.fromBytesBE(t.read(32), false)
  # TODO: why nonce must be 32 bytes, isn't 64 bit uint  enough?
  let nonce = UInt256.fromBytesBE(t.read(32), false)
  if nodeType == ExtendedAccountType:
    let codeLen = t.readU32()
    let code = @(t.read(codeLen))
    # switch to account storage parsing mode
    # and reset the depth
    t.treeNode(0, accountMode = true)]#

proc accountStorageLeafNode(t: var TreeBuilder, depth: int): NodeKey =
  assert(depth < 65)
  let nibblesLen = 64 - depth
  let pathNibbles = @(t.read(nibblesLen div 2 + nibblesLen mod 2))
  let key = @(t.read(32))
  let val = @(t.read(32))

proc hashNode(t: var TreeBuilder): NodeKey =
  result.toKeccak(t.read(32))
move witness types from tree_from_witness.nim to witness_types.nim 2020-04-21 11:04:18 +00:00			`import`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`faststreams/input_stream, eth/[common, rlp], stint, stew/endians2,`
			`eth/trie/[db, trie_defs], nimcrypto/[keccak, hash],`
			`./witness_types, stew/byteutils`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00
			`type`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`DB = TrieDatabaseRef`

deals with short node len < 32 2020-04-22 11:04:19 +00:00			`NodeKey = object`
			`usedBytes: int`
			`data*: array[32, byte]`

implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`TreeBuilder = object`
switch back to InputStream 2020-04-23 02:56:35 +00:00			`input: InputStream`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`db: DB`
			`root: KeccakHash`

switch back to InputStream 2020-04-23 02:56:35 +00:00			`proc initTreeBuilder*(input: InputStream, db: DB): TreeBuilder =`
			`result.input = input`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`result.db = db`
			`result.root = emptyRlpHash`

cleanup unused code 2020-04-24 08:58:36 +00:00			`proc initTreeBuilder*(input: openArray[byte], db: DB): TreeBuilder =`
			`result.input = memoryInput(input)`
			`result.db = db`
			`result.root = emptyRlpHash`

block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`func rootHash*(t: TreeBuilder): KeccakHash {.inline.} =`
			`t.root`

			`proc writeNode(t: var TreeBuilder, n: openArray[byte]): KeccakHash =`
			`result = keccak(n)`
			`t.db.put(result.data, n)`

switch back to InputStream 2020-04-23 02:56:35 +00:00			`template readByte(t: var TreeBuilder): byte =`
			`t.input.read`

			`template len(t: TreeBuilder): int =`
			`t.input.len`

			`template peek(t: TreeBuilder): byte =`
			`t.input.peek`

			`template read(t: var TreeBuilder, len: int): auto =`
			`t.input.read(len)`

readU32 new spec, change LE to BE 2020-04-24 08:56:03 +00:00			`proc readU32(t: var TreeBuilder): uint32 =`
			`result = fromBytesBE(uint32, t.read(4))`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`proc toAddress(r: var EthAddress, x: openArray[byte]) {.inline.} =`
			`r[0..19] = x[0..19]`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00
deals with short node len < 32 2020-04-22 11:04:19 +00:00			`proc toKeccak(r: var NodeKey, x: openArray[byte]) {.inline.} =`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`r.data[0..31] = x[0..31]`
deals with short node len < 32 2020-04-22 11:04:19 +00:00			`r.usedBytes = 32`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00
deals with short node len < 32 2020-04-22 11:04:19 +00:00			`proc toKeccak(x: openArray[byte]): NodeKey {.inline.} =`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`result.data[0..31] = x[0..31]`
deals with short node len < 32 2020-04-22 11:04:19 +00:00			`result.usedBytes = 32`

			`proc append(r: var RlpWriter, n: NodeKey) =`
			`if n.usedBytes < 32:`
			`r.append rlpFromBytes(n.data.toOpenArray(0, n.usedBytes-1))`
			`else:`
			`r.append n.data.toOpenArray(0, n.usedBytes-1)`

			`proc toNodeKey(z: openArray[byte]): NodeKey =`
			`if z.len < 32:`
			`result.usedBytes = z.len`
			`result.data[0..z.len-1] = z[0..z.len-1]`
			`else:`
			`result.data = keccak(z).data`
			`result.usedBytes = 32`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00
deals with short node len < 32 2020-04-22 11:04:19 +00:00			`proc branchNode(t: var TreeBuilder, depth: int, has16Elem: bool = true): NodeKey`
			`proc extensionNode(t: var TreeBuilder, depth: int): NodeKey`
			`proc accountNode(t: var TreeBuilder, depth: int): NodeKey`
			`proc accountStorageLeafNode(t: var TreeBuilder, depth: int): NodeKey`
			`proc hashNode(t: var TreeBuilder): NodeKey`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00
deals with short node len < 32 2020-04-22 11:04:19 +00:00			`proc treeNode*(t: var TreeBuilder, depth: int = 0, accountMode = false): NodeKey =`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`assert(depth < 64)`
			`let nodeType = TrieNodeType(t.readByte)`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`case nodeType`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`of BranchNodeType: result = t.branchNode(depth)`
			`of Branch17NodeType: result = t.branchNode(depth, false)`
			`of ExtensionNodeType: result = t.extensionNode(depth)`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`of AccountNodeType:`
			`if accountMode:`
			`# parse account storage leaf node`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`result = t.accountStorageLeafNode(depth)`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`else:`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`result = t.accountNode(depth)`
			`of HashNodeType: result = t.hashNode()`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00
deals with short node len < 32 2020-04-22 11:04:19 +00:00			`if depth == 0 and result.usedBytes < 32:`
			`result.data = keccak(result.data.toOpenArray(0, result.usedBytes-1)).data`
			`result.usedBytes = 32`

			`proc branchNode(t: var TreeBuilder, depth: int, has16Elem: bool): NodeKey =`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`assert(depth < 64)`
			`let mask = constructBranchMask(t.readByte, t.readByte)`
deals with short node len < 32 2020-04-22 11:04:19 +00:00
			`when defined(debugDepth):`
			`let readDepth = t.readByte.int`
			`doAssert(readDepth == depth, "branchNode " & $readDepth & " vs. " & $depth)`

			`when defined(debugHash):`
			`let hash = toKeccak(t.read(32))`

block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`var r = initRlpList(17)`

implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`for i in 0 ..< 16:`
			`if mask.branchMaskBitIsSet(i):`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`r.append t.treeNode(depth+1)`
			`else:`
			`r.append ""`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`template safePeek(t: var TreeBuilder): int =`
			`if t.len == 0 or has16Elem:`
			`-1`
			`else:`
			`t.peek().int`

			`# add the 17th elem`
			`let nodeType = t.safePeek()`
			`if nodeType == AccountNodeType.int:`
			`r.append accountNode(t, depth+1)`
			`elif nodeType == HashNodeType.int:`
			`r.append hashNode(t)`
			`else:`
			`# anything else is empty`
			`r.append ""`

deals with short node len < 32 2020-04-22 11:04:19 +00:00			`result = toNodeKey(r.finish)`

			`when defined(debugHash):`
			`if result != hash:`
			`debugEcho "DEPTH: ", depth`
			`debugEcho "result: ", result.data.toHex, " vs. ", hash.data.toHex`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00
hex prefix encoding minor optimization 2020-04-22 04:43:37 +00:00			`func hexPrefix(r: var RlpWriter, x: openArray[byte], nibblesLen: int) =`
			`var bytes: array[33, byte]`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`if (nibblesLen mod 2) == 0:`
hex prefix encoding minor optimization 2020-04-22 04:43:37 +00:00			`bytes[0] = 0.byte`
			`var i = 1`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`for y in x:`
hex prefix encoding minor optimization 2020-04-22 04:43:37 +00:00			`bytes[i] = y`
			`inc i`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`else:`
hex prefix encoding minor optimization 2020-04-22 04:43:37 +00:00			`bytes[0] = 0b0001_0000.byte or (x[0] shr 4)`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`var last = nibblesLen div 2`
			`for i in 1..last:`
hex prefix encoding minor optimization 2020-04-22 04:43:37 +00:00			`bytes[i] = (x[i-1] shl 4) or (x[i] shr 4)`
deals with short node len < 32 2020-04-22 11:04:19 +00:00
hex prefix encoding minor optimization 2020-04-22 04:43:37 +00:00			`r.append toOpenArray(bytes, 0, nibblesLen div 2)`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00
deals with short node len < 32 2020-04-22 11:04:19 +00:00			`proc extensionNode(t: var TreeBuilder, depth: int): NodeKey =`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`assert(depth < 63)`
			`let nibblesLen = int(t.readByte)`
			`assert(nibblesLen < 65)`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`var r = initRlpList(2)`
hex prefix encoding minor optimization 2020-04-22 04:43:37 +00:00			`r.hexPrefix(t.read(nibblesLen div 2 + nibblesLen mod 2), nibblesLen)`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00
deals with short node len < 32 2020-04-22 11:04:19 +00:00			`when defined(debugDepth):`
			`let readDepth = t.readByte.int`
			`doAssert(readDepth == depth, "extensionNode " & $readDepth & " vs. " & $depth)`

			`when defined(debugHash):`
			`let hash = toKeccak(t.read(32))`

implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`assert(depth + nibblesLen < 65)`
			`let nodeType = TrieNodeType(t.readByte)`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`case nodeType`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`of BranchNodeType: r.append t.branchNode(depth + nibblesLen)`
			`of Branch17NodeType: r.append t.branchNode(depth + nibblesLen, false)`
			`of HashNodeType: r.append t.hashNode()`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`else: raise newException(ValueError, "wrong type during parsing child of extension node")`

deals with short node len < 32 2020-04-22 11:04:19 +00:00			`result = toNodeKey(r.finish)`

			`when defined(debugHash):`
			`if result != hash:`
			`debugEcho "DEPTH: ", depth`
			`doAssert(result == hash, "EXT HASH DIFF " & result.data.toHex & " vs. " & hash.data.toHex)`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00
deals with short node len < 32 2020-04-22 11:04:19 +00:00			`proc accountNode(t: var TreeBuilder, depth: int): NodeKey =`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`assert(depth < 65)`
readU32 new spec, change LE to BE 2020-04-24 08:56:03 +00:00			`let len = t.readU32().int`
deals with short node len < 32 2020-04-22 11:04:19 +00:00			`result = toNodeKey(t.read(len))`

			`when defined(debugDepth):`
			`let readDepth = t.readByte.int`
			`doAssert(readDepth == depth, "accountNode " & $readDepth & " vs. " & $depth)`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00
			`#[let nodeType = AccountType(t.readByte)`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`let nibblesLen = 64 - depth`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`let pathNibbles = @(t.read(nibblesLen div 2 + nibblesLen mod 2))`
			`let address = toAddress(t.read(20))`
			`let balance = UInt256.fromBytesBE(t.read(32), false)`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`# TODO: why nonce must be 32 bytes, isn't 64 bit uint enough?`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`let nonce = UInt256.fromBytesBE(t.read(32), false)`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`if nodeType == ExtendedAccountType:`
			`let codeLen = t.readU32()`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`let code = @(t.read(codeLen))`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`# switch to account storage parsing mode`
			`# and reset the depth`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`t.treeNode(0, accountMode = true)]#`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00
deals with short node len < 32 2020-04-22 11:04:19 +00:00			`proc accountStorageLeafNode(t: var TreeBuilder, depth: int): NodeKey =`
implement tree builder [skip ci] *NO_CI* 2020-04-20 11:23:22 +00:00			`assert(depth < 65)`
			`let nibblesLen = 64 - depth`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`let pathNibbles = @(t.read(nibblesLen div 2 + nibblesLen mod 2))`
			`let key = @(t.read(32))`
			`let val = @(t.read(32))`
Use the latest FastStreams API 2020-04-21 09:13:43 +00:00
deals with short node len < 32 2020-04-22 11:04:19 +00:00			`proc hashNode(t: var TreeBuilder): NodeKey =`
block witness: trie node encoding roundtrip test success using recursive functions 2020-04-22 04:21:39 +00:00			`result.toKeccak(t.read(32))`