import math, unittest, strutils, eth/rlp, util/json_testing proc q(s: string): string = "\"" & s & "\"" proc i(s: string): string = s.replace(" ").replace("\n") proc inspectMatch(r: Rlp, s: string): bool = r.inspect.i == s.i test "empty bytes are not a proper RLP": var rlp = rlpFromBytes Bytes(@[]).toRange check: not rlp.hasData not rlp.isBlob not rlp.isList not rlp.isEmpty expect Exception: rlp.skipElem expect Exception: discard rlp.getType expect Exception: for e in rlp: discard e.getType test "you cannot finish a list without appending enough elements": var writer = initRlpList(3) writer.append "foo" writer.append "bar" expect PrematureFinalizationError: let result = writer.finish proc withNewLines(x: string): string = x & "\n" test "encode/decode object": type MyEnum = enum foo, bar MyObj = object a: array[3, char] b: int c: MyEnum var input: MyObj input.a = ['e', 't', 'h'] input.b = 63 input.c = bar var writer = initRlpWriter() writer.append(input) let bytes = writer.finish() var rlp = rlpFromBytes(bytes.toRange) var output = rlp.read(MyObj) check: input == output test "encode and decode lists": var writer = initRlpList(3) writer.append "foo" writer.append ["bar", "baz"] writer.append [30, 40, 50] var bytes = writer.finish rlp = rlpFromBytes bytes.toRange check: bytes.hexRepr == "d183666f6fc8836261728362617ac31e2832" rlp.inspectMatch """ { "foo" { "bar" "baz" } { byte 30 byte 40 byte 50 } } """ bytes = encodeList(6000, "Lorem ipsum dolor sit amet", "Donec ligula tortor, egestas eu est vitae") rlp = rlpFromBytes bytes.toRange check: rlp.listLen == 3 rlp.listElem(0).toInt(int) == 6000 rlp.listElem(1).toString == "Lorem ipsum dolor sit amet" rlp.listElem(2).toString == "Donec ligula tortor, egestas eu est vitae" # test creating RLPs from other RLPs var list = rlpFromBytes encodeList(rlp.listELem(1), rlp.listELem(0)).toRange # test that iteration with enterList/skipElem works as expected list.enterList check list.toString == "Lorem ipsum dolor sit amet" list.skipElem check list.toInt(int32) == 6000.int32 var intVar: int list >> intVar check intVar == 6000 check(not list.hasData) expect Exception: list.skipElem test "toBytes": let rlp = rlpFromHex("f2cb847f000001827666827666a040ef02798f211da2e8173d37f255be908871ae65060dbb2f77fb29c0421447f4845ab90b50") let tok = rlp.listElem(1).toBytes() check: tok.len == 32 tok.hexRepr == "40ef02798f211da2e8173d37f255be908871ae65060dbb2f77fb29c0421447f4" test "nested lists": let listBytes = encode([[1, 2, 3], [5, 6, 7]]) let listRlp = rlpFromBytes listBytes.toRange let sublistRlp0 = listRlp.listElem(0) let sublistRlp1 = listRlp.listElem(1) check sublistRlp0.listElem(0).toInt(int) == 1 check sublistRlp0.listElem(1).toInt(int) == 2 check sublistRlp0.listElem(2).toInt(int) == 3 check sublistRlp1.listElem(0).toInt(int) == 5 check sublistRlp1.listElem(1).toInt(int) == 6 check sublistRlp1.listElem(2).toInt(int) == 7 test "encoding length": let listBytes = encode([1,2,3,4,5]) let listRlp = rlpFromBytes listBytes.toRange check listRlp.listLen == 5 let emptyListBytes = encode "" check emptyListBytes.len == 1 let emptyListRlp = rlpFromBytes emptyListBytes.toRange check emptyListRlp.blobLen == 0 test "basic decoding": var rlp1 = rlpFromHex("856d6f6f7365") var rlp2 = rlpFromHex("0x856d6f6f7365") check: rlp1.inspect == q"moose" rlp2.inspect == q"moose" test "malformed/truncated RLP": var rlp = rlpFromHex("b8056d6f6f7365") expect MalformedRlpError: discard rlp.inspect test "encode byte arrays": var b1 = [byte(1), 2, 5, 7, 8] var b2 = [byte(6), 8, 12, 123] var b3 = @[byte(122), 56, 65, 12] let rlp = rlpFromBytes(encode((b1, b2, b3)).toRange) check: rlp.listLen == 3 rlp.listElem(0).toBytes().toSeq() == @b1 rlp.listElem(1).toBytes().toSeq() == @b2 rlp.listElem(2).toBytes().toSeq() == @b3 # The first byte here is the length of the datum (132 - 128 => 4) $(rlp.listElem(1).rawData) == "R[132, 6, 8, 12, 123]" test "empty byte arrays": var rlp = rlpFromBytes rlp.encode("").toRange b = rlp.toBytes check $b == "R[]" test "encode/decode floats": for f in [high(float64), low(float64), 0.1, 122.23, 103487315.128934, 1943935743563457201.391754032785692, 0, -0, Inf, NegInf, NaN]: template isNaN(n): bool = classify(n) == fcNaN template chk(input) = let restored = decode(encode(input), float64) check restored == input or (input.isNaN and restored.isNaN) chk f chk -f