nim-eth/eth/rlp.nim

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## This module implements RLP encoding and decoding as
## defined in Appendix B of the Ethereum Yellow Paper:
## https://ethereum.github.io/yellowpaper/paper.pdf
import
std/[strutils, options],
stew/[byteutils, shims/macros, results],
./rlp/[writer, object_serialization],
./rlp/priv/defs
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from stew/objects import checkedEnumAssign
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export
writer, object_serialization
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type
Rlp* = object
bytes: seq[byte]
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position*: int
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RlpNodeType* = enum
rlpBlob
rlpList
RlpNode* = object
case kind*: RlpNodeType
of rlpBlob:
bytes*: seq[byte]
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of rlpList:
elems*: seq[RlpNode]
RlpError* = object of CatchableError
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MalformedRlpError* = object of RlpError
UnsupportedRlpError* = object of RlpError
RlpTypeMismatch* = object of RlpError
proc rlpFromBytes*(data: seq[byte]): Rlp =
Rlp(bytes: data, position: 0)
proc rlpFromBytes*(data: openArray[byte]): Rlp =
rlpFromBytes(@data)
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const zeroBytesRlp* = Rlp()
proc rlpFromHex*(input: string): Rlp =
rlpFromBytes(hexToSeqByte(input))
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proc hasData*(self: Rlp): bool =
self.position < self.bytes.len
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proc currentElemEnd*(self: Rlp): int {.gcsafe.}
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template rawData*(self: Rlp): openArray[byte] =
self.bytes.toOpenArray(self.position, self.currentElemEnd - 1)
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template remainingBytes*(self: Rlp): openArray[byte] =
self.bytes.toOpenArray(self.position, self.bytes.len - 1)
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proc isBlob*(self: Rlp): bool =
self.hasData() and self.bytes[self.position] < LIST_START_MARKER
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proc isEmpty*(self: Rlp): bool =
### Contains a blob or a list of zero length
self.hasData() and (self.bytes[self.position] == BLOB_START_MARKER or
self.bytes[self.position] == LIST_START_MARKER)
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proc isList*(self: Rlp): bool =
self.hasData() and self.bytes[self.position] >= LIST_START_MARKER
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template eosError =
raise newException(MalformedRlpError, "Read past the end of the RLP stream")
template requireData {.dirty.} =
if not self.hasData():
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raise newException(MalformedRlpError, "Illegal operation over an empty RLP stream")
proc getType*(self: Rlp): RlpNodeType =
requireData()
return if self.isBlob(): rlpBlob else: rlpList
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proc lengthBytesCount(self: Rlp): int =
var marker = self.bytes[self.position]
if self.isBlob() and marker > LEN_PREFIXED_BLOB_MARKER:
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return int(marker - LEN_PREFIXED_BLOB_MARKER)
if self.isList() and marker > LEN_PREFIXED_LIST_MARKER:
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return int(marker - LEN_PREFIXED_LIST_MARKER)
return 0
proc isSingleByte*(self: Rlp): bool =
self.hasData() and self.bytes[self.position] < BLOB_START_MARKER
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proc getByteValue*(self: Rlp): byte =
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doAssert self.isSingleByte()
return self.bytes[self.position]
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proc payloadOffset(self: Rlp): int =
if self.isSingleByte(): 0 else: 1 + self.lengthBytesCount()
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template readAheadCheck(numberOfBytes: int) =
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# important to add nothing to the left side of the equation as `numberOfBytes`
# can in theory be at max size of its type already
if numberOfBytes > self.bytes.len - self.position - self.payloadOffset():
eosError()
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template nonCanonicalNumberError =
raise newException(MalformedRlpError, "Small number encoded in a non-canonical way")
proc payloadBytesCount(self: Rlp): int =
if not self.hasData():
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return 0
var marker = self.bytes[self.position]
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if marker < BLOB_START_MARKER:
return 1
if marker <= LEN_PREFIXED_BLOB_MARKER:
result = int(marker - BLOB_START_MARKER)
readAheadCheck(result)
if result == 1:
if self.bytes[self.position + 1] < BLOB_START_MARKER:
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nonCanonicalNumberError()
return
template readInt(output, startMarker, lenPrefixMarker: untyped) =
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var
lengthBytes = int(marker - lenPrefixMarker)
remainingBytes = self.bytes.len - self.position
if remainingBytes <= lengthBytes:
eosError()
if remainingBytes > 1 and self.bytes[self.position + 1] == 0:
raise newException(MalformedRlpError, "Number encoded with a leading zero")
# check if the size is not bigger than the max that output can hold
if lengthBytes > sizeof(output) or
(lengthBytes == sizeof(output) and self.bytes[self.position + 1].int > 127):
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raise newException(UnsupportedRlpError, "Message too large to fit in memory")
for i in 1 .. lengthBytes:
output = (output shl 8) or int(self.bytes[self.position + i])
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# must be greater than the short-list size list
if output < THRESHOLD_LIST_LEN:
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nonCanonicalNumberError()
if marker < LIST_START_MARKER:
result.readInt(BLOB_START_MARKER, LEN_PREFIXED_BLOB_MARKER)
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elif marker <= LEN_PREFIXED_LIST_MARKER:
result = int(marker - LIST_START_MARKER)
else:
result.readInt(LIST_START_MARKER, LEN_PREFIXED_LIST_MARKER)
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readAheadCheck(result)
proc blobLen*(self: Rlp): int =
if self.isBlob(): self.payloadBytesCount() else: 0
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proc isInt*(self: Rlp): bool =
if not self.hasData():
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return false
var marker = self.bytes[self.position]
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if marker < BLOB_START_MARKER:
return marker != 0
if marker == BLOB_START_MARKER:
return true
if marker <= LEN_PREFIXED_BLOB_MARKER:
return self.bytes[self.position + 1] != 0
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if marker < LIST_START_MARKER:
let offset = self.position + int(marker + 1 - LEN_PREFIXED_BLOB_MARKER)
if offset >= self.bytes.len: eosError()
return self.bytes[offset] != 0
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return false
template maxBytes*(o: type[Ordinal | uint64 | uint]): int = sizeof(o)
proc toInt*(self: Rlp, IntType: type): IntType =
# XXX: work-around a Nim issue with type parameters
type OutputType = IntType
mixin maxBytes, to
# XXX: self insertions are not working in generic procs
# https://github.com/nim-lang/Nim/issues/5053
if not self.hasData():
raise newException(RlpTypeMismatch, "Attempt to read an Int value past the RLP end")
if self.isList():
raise newException(RlpTypeMismatch, "Int expected, but found a List")
let
payloadStart = self.payloadOffset()
payloadSize = self.payloadBytesCount()
if payloadSize > maxBytes(IntType):
raise newException(RlpTypeMismatch, "The RLP contains a larger than expected Int value")
for i in payloadStart ..< (payloadStart + payloadSize):
result = (result shl 8) or OutputType(self.bytes[self.position + i])
template getPtr(x: untyped): auto =
when (NimMajor, NimMinor) <= (1,6):
unsafeAddr(x)
else:
addr(x)
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proc toString*(self: Rlp): string =
if not self.isBlob():
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raise newException(RlpTypeMismatch, "String expected, but the source RLP is not a blob")
let payloadLen = self.payloadBytesCount()
if payloadLen > 0:
let
payloadOffset = self.payloadOffset()
begin = self.position + payloadOffset
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result = newString(payloadLen)
copyMem(result[0].getPtr,
self.bytes[begin].getPtr,
payloadLen)
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proc toBytes*(self: Rlp): seq[byte] =
if not self.isBlob():
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raise newException(RlpTypeMismatch,
"Bytes expected, but the source RLP in not a blob")
let payloadLen = self.payloadBytesCount()
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if payloadLen > 0:
let
payloadOffset = self.payloadOffset()
ibegin = self.position + payloadOffset
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iend = ibegin + payloadLen - 1
result = self.bytes[ibegin..iend]
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proc currentElemEnd*(self: Rlp): int =
doAssert self.hasData()
result = self.position
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if self.isSingleByte():
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result += 1
elif self.isBlob() or self.isList():
result += self.payloadOffset() + self.payloadBytesCount()
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proc enterList*(self: var Rlp): bool =
if not self.isList():
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return false
self.position += self.payloadOffset()
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return true
proc tryEnterList*(self: var Rlp) =
if not self.enterList():
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raise newException(RlpTypeMismatch, "List expected, but source RLP is not a list")
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proc skipElem*(rlp: var Rlp) =
rlp.position = rlp.currentElemEnd
iterator items*(self: var Rlp): var Rlp =
doAssert self.isList()
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var
payloadOffset = self.payloadOffset()
payloadEnd = self.position + payloadOffset + self.payloadBytesCount()
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if payloadEnd > self.bytes.len:
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raise newException(MalformedRlpError, "List length extends past the end of the stream")
self.position += payloadOffset
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while self.position < payloadEnd:
let elemEnd = self.currentElemEnd()
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yield self
self.position = elemEnd
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proc listElem*(self: Rlp, i: int): Rlp =
doAssert self.isList()
let
payloadOffset = self.payloadOffset()
# This will only check if there is some data, not if it is correct according
# to list length. Could also run here payloadBytesCount() instead.
if self.position + payloadOffset + 1 > self.bytes.len: eosError()
let payload = self.bytes[self.position + payloadOffset..^1]
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result = rlpFromBytes payload
var pos = 0
while pos < i and result.hasData:
result.position = result.currentElemEnd()
inc pos
proc listLen*(self: Rlp): int =
if not self.isList():
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return 0
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var rlp = self
for elem in rlp:
inc result
proc readImpl(rlp: var Rlp, T: type string): string =
result = rlp.toString
rlp.skipElem
proc readImpl(rlp: var Rlp, T: type Integer): Integer =
result = rlp.toInt(T)
rlp.skipElem
proc readImpl(rlp: var Rlp, T: type[enum]): T =
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let value = rlp.toInt(int)
var res: T
if not checkedEnumAssign(res, value):
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raise newException(RlpTypeMismatch,
"Enum value expected, but the source RLP is not in valid range.")
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rlp.skipElem
res
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proc readImpl(rlp: var Rlp, T: type bool): T =
result = rlp.toInt(int) != 0
rlp.skipElem
proc readImpl(rlp: var Rlp, T: type float64): T =
# This is not covered in the RLP spec, but Geth uses Go's
# `math.Float64bits`, which is defined here:
# https://github.com/gopherjs/gopherjs/blob/master/compiler/natives/src/math/math.go
let uint64bits = rlp.toInt(uint64)
var uint32parts = [uint32(uint64bits), uint32(uint64bits shr 32)]
copyMem(addr result, unsafeAddr uint32parts, sizeof(result))
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proc readImpl[R, E](rlp: var Rlp, T: type array[R, E]): T =
mixin read
when E is (byte or char):
if not rlp.isBlob:
raise newException(RlpTypeMismatch, "Bytes array expected, but the source RLP is not a blob.")
var bytes = rlp.toBytes
if result.len != bytes.len:
raise newException(RlpTypeMismatch, "Fixed-size array expected, but the source RLP contains a blob of different length")
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copyMem(addr result[0], unsafeAddr bytes[0], bytes.len)
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rlp.skipElem
else:
if not rlp.isList:
raise newException(RlpTypeMismatch, "List expected, but the source RLP is not a list.")
if result.len != rlp.listLen:
raise newException(RlpTypeMismatch, "Fixed-size array expected, but the source RLP contains a list of different length")
var i = 0
for elem in rlp:
result[i] = rlp.read(E)
inc i
proc readImpl[E](rlp: var Rlp, T: type seq[E]): T =
mixin read
when E is (byte or char):
result = rlp.toBytes
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rlp.skipElem
else:
if not rlp.isList:
raise newException(RlpTypeMismatch, "Sequence expected, but the source RLP is not a list.")
result = newSeqOfCap[E](rlp.listLen)
for elem in rlp:
result.add rlp.read(E)
proc readImpl[E](rlp: var Rlp, T: type openArray[E]): seq[E] =
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result = readImpl(rlp, seq[E])
proc readImpl(rlp: var Rlp, T: type[object|tuple],
wrappedInList = wrapObjsInList): T =
mixin enumerateRlpFields, read
var payloadEnd = rlp.bytes.len
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if wrappedInList:
if not rlp.isList:
raise newException(RlpTypeMismatch,
"List expected, but the source RLP is not a list.")
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var
payloadOffset = rlp.payloadOffset()
# there's an exception-raising side effect in there *sigh*
payloadEnd = rlp.position + payloadOffset + rlp.payloadBytesCount()
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rlp.position += payloadOffset
template getUnderlyingType[T](_: Option[T]): untyped = T
template getUnderlyingType[T](_: Opt[T]): untyped = T
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template op(RecordType, fieldName, field) {.used.} =
type FieldType {.used.} = type field
when hasCustomPragmaFixed(RecordType, fieldName, rlpCustomSerialization):
field = rlp.read(result, FieldType)
elif field is Option:
# this works for optional fields at the end of an object/tuple
# if the optional field is followed by a mandatory field,
# custom serialization for a field or for the parent object
# will be better
type UT = getUnderlyingType(field)
if rlp.position < payloadEnd:
field = some(rlp.read(UT))
else:
field = none(UT)
elif field is Opt:
# this works for optional fields at the end of an object/tuple
# if the optional field is followed by a mandatory field,
# custom serialization for a field or for the parent object
# will be better
type UT = getUnderlyingType(field)
if rlp.position < payloadEnd:
field = Opt.some(rlp.read(UT))
else:
field = Opt.none(UT)
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else:
field = rlp.read(FieldType)
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enumerateRlpFields(result, op)
proc toNodes*(self: var Rlp): RlpNode =
requireData()
if self.isList():
result = RlpNode(kind: rlpList)
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for e in self:
result.elems.add e.toNodes
else:
doAssert self.isBlob()
result = RlpNode(
kind: rlpBlob,
bytes: self.toBytes(),
)
self.position = self.currentElemEnd()
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# We define a single `read` template with a pretty low specificity
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# score in order to facilitate easier overloading with user types:
template read*(rlp: var Rlp, T: type): auto =
readImpl(rlp, T)
proc `>>`*[T](rlp: var Rlp, location: var T) =
mixin read
location = rlp.read(T)
template readRecordType*(rlp: var Rlp, T: type, wrappedInList: bool): auto =
readImpl(rlp, T, wrappedInList)
proc decode*(bytes: openArray[byte]): RlpNode =
var rlp = rlpFromBytes(bytes)
rlp.toNodes
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template decode*(bytes: openArray[byte], T: type): untyped =
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mixin read
var rlp = rlpFromBytes(bytes)
rlp.read(T)
template decode*(bytes: seq[byte], T: type): untyped =
mixin read
var rlp = rlpFromBytes(bytes)
rlp.read(T)
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proc append*(writer: var RlpWriter; rlp: Rlp) =
appendRawBytes(writer, rlp.rawData)
proc isPrintable(s: string): bool =
for c in s:
if ord(c) < 32 or ord(c) >= 128:
return false
return true
proc renderBlob(self: var Rlp, hexOutput: bool, output: var string) =
let str = self.toString
if str.isPrintable:
output.add '"'
output.add str
output.add '"'
else:
output.add "blob(" & $str.len & ") ["
for c in str:
if hexOutput:
output.add toHex(int(c), 2)
else:
output.add $ord(c)
output.add ","
if hexOutput:
output.add ']'
else:
output[^1] = ']'
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proc inspectAux(self: var Rlp, depth: int, hexOutput: bool, output: var string) =
if not self.hasData():
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return
template indent =
for i in 0..<depth:
output.add " "
indent()
if self.isSingleByte:
output.add "byte "
output.add $self.bytes[self.position]
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elif self.isBlob:
self.renderBlob(hexOutput, output)
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else:
output.add "{\n"
for subitem in self:
inspectAux(subitem, depth + 1, hexOutput, output)
output.add "\n"
indent()
output.add "}"
proc inspect*(self: Rlp, indent = 0, hexOutput = true): string =
var rlpCopy = self
result = newStringOfCap(self.bytes.len)
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inspectAux(rlpCopy, indent, hexOutput, result)