implement account serializer and deserializer

stateless/tree_from_witness.nim

@@ -1,7 +1,7 @@
 import
   faststreams/input_stream, eth/[common, rlp], stint, stew/endians2,
   eth/trie/[db, trie_defs], nimcrypto/[keccak, hash],
-  ./witness_types, stew/byteutils
+  ./witness_types, stew/byteutils, ../nimbus/constants
 
 type
   DB = TrieDatabaseRef
@@ -102,6 +102,10 @@ proc toNodeKey(z: openArray[byte]): NodeKey =
     result.data = keccak(z).data
     result.usedBytes = 32
 
+proc writeCode(t: var TreeBuilder, code: openArray[byte]): Hash256 =
+  result = keccak(code)
+  put(t.db, result.data, code)
+
 proc branchNode(t: var TreeBuilder, depth: int): NodeKey
 proc extensionNode(t: var TreeBuilder, depth: int): NodeKey
 proc accountNode(t: var TreeBuilder, depth: int): NodeKey
@@ -156,14 +160,20 @@ proc branchNode(t: var TreeBuilder, depth: int): NodeKey =
       debugEcho "DEPTH: ", depth
       debugEcho "result: ", result.data.toHex, " vs. ", hash.data.toHex
 
-func hexPrefix(r: var RlpWriter, x: openArray[byte], nibblesLen: int) =
+func hexPrefix(r: var RlpWriter, x: openArray[byte], nibblesLen: int, isLeaf: static[bool] = false) =
   var bytes: array[33, byte]
-  if (nibblesLen mod 2) == 0:
+  if (nibblesLen mod 2) == 0: # even
+    when isLeaf:
+      bytes[0] = 0b0010_0000.byte
+    else:
       bytes[0] = 0.byte
     var i = 1
     for y in x:
       bytes[i] = y
       inc i
+  else: # odd
+    when isLeaf:
+      bytes[0] = 0b0011_0000.byte or (x[0] shr 4)
     else:
       bytes[0] = 0b0001_0000.byte or (x[0] shr 4)
     var last = nibblesLen div 2
@@ -210,19 +220,32 @@ proc accountNode(t: var TreeBuilder, depth: int): NodeKey =
     let readDepth = t.readByte.int
     doAssert(readDepth == depth, "accountNode " & $readDepth & " vs. " & $depth)
 
-  #[let nodeType = AccountType(t.readByte)
+  let accountType = 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)
+  var r = initRlpList(2)
+  r.hexPrefix(t.read(nibblesLen div 2 + nibblesLen mod 2), nibblesLen, true)
+
+  #let address = toAddress(t.read(20))
+  var acc = Account(
+    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:
+    nonce: UInt256.fromBytesBE(t.read(32), false).truncate(AccountNonce)
+  )
+
+  if accountType == SimpleAccountType:
+    acc.codeHash = blankStringHash
+    acc.storageRoot = emptyRlpHash
+  else:
     let codeLen = t.readU32()
-    let code = @(t.read(codeLen))
+    if codeLen > EIP170_CODE_SIZE_LIMIT:
+      raise newException(ValueError, "code len exceed EIP170 code size limit")
+    acc.codeHash = t.writeCode(t.read(codeLen.int))
+    
     # switch to account storage parsing mode
     # and reset the depth
-    t.treeNode(0, accountMode = true)]#
+    let storageRoot = t.treeNode(0, accountMode = true)
+    doAssert(storageRoot.usedBytes == 32)
+    acc.storageRoot.data = storageRoot.data
 
 proc accountStorageLeafNode(t: var TreeBuilder, depth: int): NodeKey =
   assert(depth < 65)

stateless/witness_from_tree.nim

@@ -87,6 +87,11 @@ proc writeBranchNode(wb: var WitnessBuilder, mask: uint, depth: int, node: openA
   when defined(debugHash):
     wb.output.append(keccak(node).data)
 
+proc writeHashNode(wb: var WitnessBuilder, node: openArray[byte]) =
+  # write type
+  wb.output.append(HashNodeType.byte)
+  wb.output.append(node)
+
 proc writeAccountNode(wb: var WitnessBuilder, acc: Account, nibbles: NibblesSeq, node: openArray[byte], depth: int) =
   # write type
   wb.output.append(AccountNodeType.byte)
@@ -96,30 +101,34 @@ proc writeAccountNode(wb: var WitnessBuilder, acc: Account, nibbles: NibblesSeq,
   when defined(debugDepth):
     wb.output.append(depth.byte)
 
-  #EIP170_CODE_SIZE_LIMIT
-
   doAssert(nibbles.len == 64 - depth)
-  let accountType = if acc.codeHash == blankStringHash or acc.storageRoot == emptyRlpHash: SimpleAccountType
+  let accountType = if acc.codeHash == blankStringHash and acc.storageRoot == emptyRlpHash: SimpleAccountType
                     else: ExtendedAccountType
 
-  #wb.output.append(accountType.byte)
-  #wb.writeNibbles(nibbles, false)
+  wb.output.append(accountType.byte)
+  wb.writeNibbles(nibbles, false)
   #wb.output.append(acc.address)
-  #wb.output.append(acc.balance.toBytesBE)
-  #wb.output.append(acc.nonce.u256.toBytesBE)
+  wb.output.append(acc.balance.toBytesBE)
+  wb.output.append(acc.nonce.u256.toBytesBE)
 
-  #if accountType == ExtendedAccountType:
+  if accountType == ExtendedAccountType:
+    if acc.codeHash != blankStringHash:
+      let code = get(wb.db, acc.codeHash.data)
+      if code.len > EIP170_CODE_SIZE_LIMIT:
+        raise newException(ValueError, "code len exceed EIP170 code size limit")
+      wb.writeU32(code.len.uint32)
+      wb.output.append(code)
+    else:
+      wb.writeU32(0'u32)
+
+    if acc.storageRoot != emptyRlpHash:
+      wb.writeHashNode(acc.storageRoot.data)
+    else:
+      wb.writeHashNode(emptyRlpHash.data)
 
   #0x00 pathnibbles:<Nibbles(64-d)> address:<Address> balance:<Bytes32> nonce:<Bytes32>
   #0x01 pathnibbles:<Nibbles(64-d)> address:<Address> balance:<Bytes32> nonce:<Bytes32> bytecode:<Bytecode> storage:<Tree_Node(0,1)>
 
-  #<Bytecode> := len:<U32> b:<Byte>^len
-
-proc writeHashNode(wb: var WitnessBuilder, node: openArray[byte]) =
-  # write type
-  wb.output.append(HashNodeType.byte)
-  wb.output.append(node)
-
 proc writeShortNode(wb: var WitnessBuilder, node: openArray[byte], depth: int) =
   var nodeRlp = rlpFromBytes node
   if not nodeRlp.hasData or nodeRlp.isEmpty: return