Add LibP2P varint and tests.

Generalize Varint.
2018-11-20 23:39:35 +02:00 · 2018-11-20 23:39:35 +02:00 · 3b554d0f51
parent d45f35d295
commit 3b554d0f51
6 changed files with 321 additions and 217 deletions
--- a/libp2p.nimble
+++ b/libp2p.nimble
@ -11,5 +11,5 @@ requires "nim > 0.18.0",
         "https://github.com/status-im/nim-asyncdispatch2"

 task test, "Runs the test suite":
-  exec "nim c -r tests/testpbvarint"
+  exec "nim c -r tests/testvarint"
  exec "nim c -r tests/testdaemon"
--- a/libp2p/daemon/daemonapi.nim
+++ b/libp2p/daemon/daemonapi.nim
@ -10,7 +10,7 @@
 ## This module implementes API for `go-libp2p-daemon`.
 import os, osproc, strutils, tables, streams
 import asyncdispatch2
-import ../protobuf/varint, ../protobuf/minprotobuf, transpool
+import ../varint, ../protobuf/minprotobuf, transpool

 when not defined(windows):
  import posix
@ -367,7 +367,7 @@ proc recvMessage(conn: StreamTransport): Future[seq[byte]] {.async.} =
  var buffer = newSeq[byte](10)
  for i in 0..<len(buffer):
    await conn.readExactly(addr buffer[i], 1)
-    res = getUVarint(buffer.toOpenArray(0, i), length, size)
+    res = PB.getUVarint(buffer.toOpenArray(0, i), length, size)
    if res == VarintStatus.Success:
      break
  if res != VarintStatus.Success or size > MaxMessageSize:
@ -852,15 +852,3 @@ proc dhtSearchValue*(api: DaemonAPI, key: string,
      result = list
  finally:
    api.pool.release(transp)
-
-when isMainModule:
-  proc test() {.async.} =
-    var api1 = await newDaemonApi(sockpath = "/tmp/p2pd-1.sock")
-    var api2 = await newDaemonApi(sockpath = "/tmp/p2pd-2.sock")
-    echo await api1.identity()
-    echo await api2.identity()
-    await sleepAsync(1000)
-    await api1.close()
-    await api2.close()
-
-  waitFor test()
--- a/libp2p/protobuf/minprotobuf.nim
+++ b/libp2p/protobuf/minprotobuf.nim
@ -8,7 +8,7 @@
 ## those terms.

 ## This module implements minimal Google's ProtoBuf primitives.
-import varint
+import ../varint

 const
  MaxMessageSize* = 1'u shl 22
@ -134,12 +134,12 @@ proc write*(pb: var ProtoBuffer, field: ProtoField) =
  var length = 0
  var res: VarintStatus
  pb.buffer.setLen(len(pb.buffer) + vsizeof(field))
-  res = putUVarint(pb.toOpenArray(), length, protoHeader(field))
+  res = PB.putUVarint(pb.toOpenArray(), length, protoHeader(field))
  assert(res == VarintStatus.Success)
  pb.offset += length
  case field.kind
  of ProtoFieldKind.Varint:
-    res = putUVarint(pb.toOpenArray(), length, field.vint)
+    res = PB.putUVarint(pb.toOpenArray(), length, field.vint)
    assert(res == VarintStatus.Success)
    pb.offset += length
  of ProtoFieldKind.Fixed64:
@ -163,7 +163,7 @@ proc write*(pb: var ProtoBuffer, field: ProtoField) =
    pb.buffer[pb.offset + 3] = byte((value shr 24) and 0xFF'u32)
    pb.offset += 4
  of ProtoFieldKind.Length:
-    res = putUVarint(pb.toOpenArray(), length, uint(len(field.vbuffer)))
+    res = PB.putUVarint(pb.toOpenArray(), length, uint(len(field.vbuffer)))
    assert(res == VarintStatus.Success)
    pb.offset += length
    assert(pb.isEnough(len(field.vbuffer)))
@ -180,7 +180,7 @@ proc finish*(pb: var ProtoBuffer) =
  if WithVarintLength in pb.options:
    let size = uint(len(pb.buffer) - 10)
    let pos = 10 - vsizeof(length)
-    let res = putUVarint(pb.buffer.toOpenArray(pos, 9), length, size)
+    let res = PB.putUVarint(pb.buffer.toOpenArray(pos, 9), length, size)
    assert(res == VarintStatus.Success)
    pb.offset = pos
  else:
@ -194,14 +194,14 @@ proc getVarintValue*(data: var ProtoBuffer, field: int,
  var soffset = data.offset

  if not data.isEmpty() and
-     getUVarint(data.toOpenArray(), length, header) == VarintStatus.Success:
+     PB.getUVarint(data.toOpenArray(), length, header) == VarintStatus.Success:
    data.offset += length
    if header == protoHeader(field, Varint):
      if not data.isEmpty():
        when type(value) is int32 or type(value) is int64 or type(value) is int:
          let res = getSVarint(data.toOpenArray(), length, value)
        else:
-          let res = getUVarint(data.toOpenArray(), length, value)
+          let res = PB.getUVarint(data.toOpenArray(), length, value)
        data.offset += length
        result = length
        return
@ -218,11 +218,11 @@ proc getLengthValue*[T: string|seq[byte]](data: var ProtoBuffer, field: int,
  result = -1
  buffer.setLen(0)
  if not data.isEmpty() and
-     getUVarint(data.toOpenArray(), length, header) == VarintStatus.Success:
+     PB.getUVarint(data.toOpenArray(), length, header) == VarintStatus.Success:
    data.offset += length
    if header == protoHeader(field, Length):
      if not data.isEmpty() and
-         getUVarint(data.toOpenArray(), length, ssize) == VarintStatus.Success:
+         PB.getUVarint(data.toOpenArray(), length, ssize) == VarintStatus.Success:
        data.offset += length
        if ssize <= MaxMessageSize and data.isEnough(int(ssize)):
          buffer.setLen(ssize)
@ -255,11 +255,11 @@ proc enterSubmessage*(pb: var ProtoBuffer): int =
  var soffset = pb.offset

  if not pb.isEmpty() and
-     getUVarint(pb.toOpenArray(), length, header) == VarintStatus.Success:
+     PB.getUVarint(pb.toOpenArray(), length, header) == VarintStatus.Success:
    pb.offset += length
    if (header and 0x07'u64) == cast[uint64](ProtoFieldKind.Length):
      if not pb.isEmpty() and
-         getUVarint(pb.toOpenArray(), length, msize) == VarintStatus.Success:
+         PB.getUVarint(pb.toOpenArray(), length, msize) == VarintStatus.Success:
        pb.offset += length
        if msize <= MaxMessageSize and pb.isEnough(int(msize)):
          pb.length = int(msize)
--- a/libp2p/protobuf/varint.nim
+++ b/libp2p/protobuf/varint.nim
@ -7,7 +7,12 @@
 ## This file may not be copied, modified, or distributed except according to
 ## those terms.

-## This module implements Google ProtoBuf's variable integer `VARINT`.
+## This module implements Variable Integer `VARINT`.
+## This module supports two variants of variable integer
+## - Google ProtoBuf varint, which is able to encode full uint64 number and
+##   maximum size of encoded value is 10 octets (bytes).
+## - LibP2P varint, which is able to encode only 63bits of uint64 number and
+##   maximum size of encoded value is 9 octets (bytes).
 import bitops

 type
@ -18,20 +23,31 @@ type
    Incomplete,
    Overrun

-  SomeUVarint* = uint | uint64 | uint32
-  SomeSVarint* = int | int64 | int32
-  SomeVarint* = SomeUVarint | SomeSVarint
+  PB* = object
+    ## Use this type to specify Google ProtoBuf's varint encoding
+  LP* = object
+    ## Use this type to specify LibP2P varint encoding
+
+  PBSomeUVarint* = uint | uint64 | uint32
+  PBSomeSVarint* = int | int64 | int32
+  PBSomeVarint* = PBSomeUVarint | PBSomeSVarint
+  LPSomeUVarint* = uint | uint64 | uint32 | uint16 | uint8
+  LPSomeVarint* = LPSomeUVarint
+  SomeVarint* = PBSomeVarint | LPSomeVarint
+  SomeUVarint* = PBSomeUVarint | LPSomeUVarint
  VarintError* = object of Exception

-proc vsizeof*(x: SomeUVarint|SomeSVarint): int {.inline.} =
+proc vsizeof*(x: SomeVarint): int {.inline.} =
  ## Returns number of bytes required to encode integer ``x`` as varint.
  if x == cast[type(x)](0):
    result = 1
  else:
    result = (fastLog2(x) + 1 + 7 - 1) div 7

-proc getUVarint*(pbytes: openarray[byte], outlen: var int,
-                 outval: var SomeUVarint): VarintStatus =
+proc getUVarint*[T: PB|LP](vtype: typedesc[T],
+                           pbytes: openarray[byte],
+                           outlen: var int,
+                           outval: var SomeUVarint): VarintStatus =
  ## Decode `unsigned varint` from buffer ``pbytes`` and store it to ``outval``.
  ## On success ``outlen`` will be set to number of bytes processed while
  ## decoding `unsigned varint`.
@ -44,11 +60,23 @@ proc getUVarint*(pbytes: openarray[byte], outlen: var int,
  ## If encoded value can produce integer overflow, ``Overflow`` error will be
  ## returned.
  ##
-  ## Note, when decoding 10th byte of 64bit integer only 1 bit from byte will be
-  ## decoded, all other bits will be ignored. When decoding 5th byte of 32bit
-  ## integer only 4 bits from byte will be decoded, all other bits will be
-  ## ignored.
-  const MaxBits = byte(sizeof(outval) * 8)
+  ## Google ProtoBuf
+  ## When decoding 10th byte of Google Protobuf's 64bit integer only 1 bit from
+  ## byte will be decoded, all other bits will be ignored. When decoding 5th
+  ## byte of 32bit integer only 4 bits from byte will be decoded, all other bits
+  ## will be ignored.
+  ## 
+  ## LibP2P
+  ## When decoding 5th byte of 32bit integer only 4 bits from byte will be
+  ## decoded, all other bits will be ignored.
+  when vtype is PB:
+    const MaxBits = byte(sizeof(outval) * 8)
+  else:
+    when sizeof(outval) == 8:
+      const MaxBits = 63'u8
+    else:
+      const MaxBits = byte(sizeof(outval) * 8)
+
  var shift = 0'u8
  result = VarintStatus.Incomplete
  outlen = 0
@ -67,13 +95,14 @@ proc getUVarint*(pbytes: openarray[byte], outlen: var int,
    if (b and 0x80'u8) == 0'u8:
      result = VarintStatus.Success
      break
-
  if result == VarintStatus.Incomplete:
    outlen = 0
    outval = cast[type(outval)](0)

-proc putUVarint*(pbytes: var openarray[byte], outlen: var int,
-                 outval: SomeUVarint): VarintStatus =
+proc putUVarint*[T: PB|LP](vtype: typedesc[T],
+                           pbytes: var openarray[byte],
+                           outlen: var int,
+                           outval: SomeUVarint): VarintStatus =
  ## Encode `unsigned varint` ``outval`` and store it to array ``pbytes``.
  ##
  ## On success ``outlen`` will hold number of bytes (octets) used to encode
@ -83,12 +112,23 @@ proc putUVarint*(pbytes: var openarray[byte], outlen: var int,
  ## error will be returned and ``outlen`` will be set to number of bytes
  ## required.
  ##
+  ## Google ProtoBuf
  ## Maximum encoded length of 64bit integer is 10 octets.
  ## Maximum encoded length of 32bit integer is 5 octets.
+  ## 
+  ## LibP2P
+  ## Maximum encoded length of 63bit integer is 9 octets.
+  ## Maximum encoded length of 32bit integer is 5 octets.
  var buffer: array[10, byte]
  var value = outval
  var k = 0

+  when vtype is LP:
+    if sizeof(outval) == 8:
+      if (cast[uint64](outval) and 0x8000_0000_0000_0000'u64) != 0'u64:
+        result = Overflow
+        return
+
  if value <= cast[type(outval)](0x7F):
    buffer[0] = cast[byte](outval and 0xFF)
    inc(k)
@ -107,10 +147,10 @@ proc putUVarint*(pbytes: var openarray[byte], outlen: var int,
    result = VarintStatus.Overrun

 proc getSVarint*(pbytes: openarray[byte], outsize: var int,
-                 outval: var SomeSVarint): VarintStatus {.inline.} =
-  ## Decode `signed varint` from buffer ``pbytes`` and store it to ``outval``.
-  ## On success ``outlen`` will be set to number of bytes processed while
-  ## decoding `signed varint`.
+                 outval: var PBSomeSVarint): VarintStatus {.inline.} =
+  ## Decode Google ProtoBuf's `signed varint` from buffer ``pbytes`` and store
+  ## it to ``outval``. On success ``outlen`` will be set to number of bytes
+  ## processed while decoding `signed varint`.
  ##
  ## If array ``pbytes`` is empty, ``Incomplete`` error will be returned.
  ##
@ -129,7 +169,7 @@ proc getSVarint*(pbytes: openarray[byte], outsize: var int,
  else:
    var value: uint32

-  result = getUVarint(pbytes, outsize, value)
+  result = PB.getUVarint(pbytes, outsize, value)
  if result == VarintStatus.Success:
    if (value and cast[type(value)](1)) != cast[type(value)](0):
      outval = cast[type(outval)](not(value shr 1))
@ -137,8 +177,9 @@ proc getSVarint*(pbytes: openarray[byte], outsize: var int,
      outval = cast[type(outval)](value shr 1)

 proc putSVarint*(pbytes: var openarray[byte], outsize: var int,
-                 outval: SomeSVarint): VarintStatus {.inline.} =
-  ## Encode `signed varint` ``outval`` and store it to array ``pbytes``.
+                 outval: PBSomeSVarint): VarintStatus {.inline.} =
+  ## Encode Google ProtoBuf's `signed varint` ``outval`` and store it to array
+  ## ``pbytes``.
  ##
  ## On success ``outlen`` will hold number of bytes (octets) used to encode
  ## unsigned integer ``v``.
@ -161,11 +202,12 @@ proc putSVarint*(pbytes: var openarray[byte], outsize: var int,
        not(cast[uint32](outval) shl 1)
      else:
        cast[uint32](outval) shl 1
-  result = putUVarint(pbytes, outsize, value)
+  result = PB.putUVarint(pbytes, outsize, value)

-proc encodeVarint*(value: SomeUVarint|SomeSVarint): seq[byte] {.inline.} =
-  ## Encode integer to `signed/unsigned varint` and returns sequence of bytes
-  ## as result.
+proc encodeVarint*(vtype: typedesc[PB],
+                   value: PBSomeVarint): seq[byte] {.inline.} =
+  ## Encode integer to Google ProtoBuf's `signed/unsigned varint` and returns
+  ## sequence of bytes as result.
  var outsize = 0
  result = newSeqOfCap[byte](10)
  when sizeof(value) == 4:
@ -181,6 +223,26 @@ proc encodeVarint*(value: SomeUVarint|SomeSVarint): seq[byte] {.inline.} =
  else:
    raise newException(VarintError, "Error '" & $res & "'")

+proc encodeVarint*(vtype: typedesc[LP],
+                   value: LPSomeVarint): seq[byte] {.inline.} =
+  ## Encode integer to LibP2P `unsigned varint` and returns sequence of bytes
+  ## as result.
+  var outsize = 0
+  result = newSeqOfCap[byte](9)
+  when sizeof(value) == 1:
+    result.setLen(2)
+  elif sizeof(value) == 2:
+    result.setLen(3)
+  elif sizeof(value) == 4:
+    result.setLen(5)
+  else:
+    result.setLen(9)
+  let res = LP.putUVarint(result, outsize, value)
+  if res == VarintStatus.Success:
+    result.setLen(outsize)
+  else:
+    raise newException(VarintError, "Error '" & $res & "'")
+
 proc decodeSVarint*(data: openarray[byte]): int {.inline.} =
  ## Decode signed integer from array ``data`` and return it as result.
  var outsize = 0
@ -188,91 +250,10 @@ proc decodeSVarint*(data: openarray[byte]): int {.inline.} =
  if res != VarintStatus.Success:
    raise newException(VarintError, "Error '" & $res & "'")

-proc decodeUVarint*(data: openarray[byte]): uint {.inline.} =
+proc decodeUVarint*[T: PB|LP](vtype: typedesc[T],
+                              data: openarray[byte]): uint {.inline.} =
  ## Decode unsigned integer from array ``data`` and return it as result.
  var outsize = 0
-  let res = getUVarint(data, outsize, result)
+  let res = vtype.getUVarint(data, outsize, result)
  if res != VarintStatus.Success:
    raise newException(VarintError, "Error '" & $res & "'")
-
-when isMainModule:
-  import unittest
-
-  const edgeValues = [
-    0'u64, (1'u64 shl 7) - 1'u64,
-    (1'u64 shl 7), (1'u64 shl 14) - 1'u64,
-    (1'u64 shl 14), (1'u64 shl 21) - 1'u64,
-    (1'u64 shl 21), (1'u64 shl 28) - 1'u64,
-    (1'u64 shl 28), (1'u64 shl 35) - 1'u64,
-    (1'u64 shl 35), (1'u64 shl 42) - 1'u64,
-    (1'u64 shl 42), (1'u64 shl 49) - 1'u64,
-    (1'u64 shl 49), (1'u64 shl 56) - 1'u64,
-    (1'u64 shl 56), (1'u64 shl 63) - 1'u64,
-    (1'u64 shl 63), 0xFFFF_FFFF_FFFF_FFFF'u64
-  ]
-  const edgeSizes = [
-    1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10
-  ]
-
-  suite "Variable integer test suite":
-
-    test "vsizeof() edge cases test":
-      for i in 0..<len(edgeValues):
-        check vsizeof(edgeValues[i]) == edgeSizes[i]
-
-    test "Success edge cases test":
-      var buffer = newSeq[byte]()
-      var length = 0
-      var value = 0'u64
-      for i in 0..<len(edgeValues):
-        buffer.setLen(edgeSizes[i])
-        check:
-          putUVarint(buffer, length, edgeValues[i]) == VarintStatus.Success
-          getUVarint(buffer, length, value) == VarintStatus.Success
-          value == edgeValues[i]
-
-    test "Buffer Overrun edge cases test":
-      var buffer = newSeq[byte]()
-      var length = 0
-      for i in 0..<len(edgeValues):
-        buffer.setLen(edgeSizes[i] - 1)
-        let res = putUVarint(buffer, length, edgeValues[i])
-        check:
-          res == VarintStatus.Overrun
-          length == edgeSizes[i]
-
-    test "Buffer Incomplete edge cases test":
-      var buffer = newSeq[byte]()
-      var length = 0
-      var value = 0'u64
-      for i in 0..<len(edgeValues):
-        buffer.setLen(edgeSizes[i])
-        check putUVarint(buffer, length, edgeValues[i]) == VarintStatus.Success
-        buffer.setLen(len(buffer) - 1)
-        check:
-          getUVarint(buffer, length, value) == VarintStatus.Incomplete
-
-    test "Integer Overflow 32bit test":
-      var buffer = newSeq[byte]()
-      var length = 0
-      for i in 0..<len(edgeValues):
-        if edgeSizes[i] > 5:
-          var value = 0'u32
-          buffer.setLen(edgeSizes[i])
-          check:
-            putUVarint(buffer, length, edgeValues[i]) == VarintStatus.Success
-            getUVarint(buffer, length, value) == VarintStatus.Overflow
-
-    test "Integer Overflow 64bit test":
-      var buffer = newSeq[byte]()
-      var length = 0
-      for i in 0..<len(edgeValues):
-        if edgeSizes[i] > 9:
-          var value = 0'u64
-          buffer.setLen(edgeSizes[i] + 1)
-          check:
-            putUVarint(buffer, length, edgeValues[i]) == VarintStatus.Success
-          buffer[9] = buffer[9] or 0x80'u8
-          buffer[10] = 0x01'u8
-          check:
-            getUVarint(buffer, length, value) == VarintStatus.Overflow
--- a/tests/testpbvarint.nim
+++ b/tests/testpbvarint.nim
@ -1,81 +0,0 @@
-import unittest
-import ../libp2p/protobuf/varint
-
-const edgeValues = [
-  0'u64, (1'u64 shl 7) - 1'u64,
-  (1'u64 shl 7), (1'u64 shl 14) - 1'u64,
-  (1'u64 shl 14), (1'u64 shl 21) - 1'u64,
-  (1'u64 shl 21), (1'u64 shl 28) - 1'u64,
-  (1'u64 shl 28), (1'u64 shl 35) - 1'u64,
-  (1'u64 shl 35), (1'u64 shl 42) - 1'u64,
-  (1'u64 shl 42), (1'u64 shl 49) - 1'u64,
-  (1'u64 shl 49), (1'u64 shl 56) - 1'u64,
-  (1'u64 shl 56), (1'u64 shl 63) - 1'u64,
-  (1'u64 shl 63), 0xFFFF_FFFF_FFFF_FFFF'u64
-]
-const edgeSizes = [
-  1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10
-]
-
-suite "ProtoBuf's variable integer test suite":
-
-  test "vsizeof() edge cases test":
-    for i in 0..<len(edgeValues):
-      check vsizeof(edgeValues[i]) == edgeSizes[i]
-
-  test "Success edge cases test":
-    var buffer = newSeq[byte]()
-    var length = 0
-    var value = 0'u64
-    for i in 0..<len(edgeValues):
-      buffer.setLen(edgeSizes[i])
-      check:
-        putUVarint(buffer, length, edgeValues[i]) == VarintStatus.Success
-        getUVarint(buffer, length, value) == VarintStatus.Success
-        value == edgeValues[i]
-
-  test "Buffer Overrun edge cases test":
-    var buffer = newSeq[byte]()
-    var length = 0
-    for i in 0..<len(edgeValues):
-      buffer.setLen(edgeSizes[i] - 1)
-      let res = putUVarint(buffer, length, edgeValues[i])
-      check:
-        res == VarintStatus.Overrun
-        length == edgeSizes[i]
-
-  test "Buffer Incomplete edge cases test":
-    var buffer = newSeq[byte]()
-    var length = 0
-    var value = 0'u64
-    for i in 0..<len(edgeValues):
-      buffer.setLen(edgeSizes[i])
-      check putUVarint(buffer, length, edgeValues[i]) == VarintStatus.Success
-      buffer.setLen(len(buffer) - 1)
-      check:
-        getUVarint(buffer, length, value) == VarintStatus.Incomplete
-
-  test "Integer Overflow 32bit test":
-    var buffer = newSeq[byte]()
-    var length = 0
-    for i in 0..<len(edgeValues):
-      if edgeSizes[i] > 5:
-        var value = 0'u32
-        buffer.setLen(edgeSizes[i])
-        check:
-          putUVarint(buffer, length, edgeValues[i]) == VarintStatus.Success
-          getUVarint(buffer, length, value) == VarintStatus.Overflow
-
-  test "Integer Overflow 64bit test":
-    var buffer = newSeq[byte]()
-    var length = 0
-    for i in 0..<len(edgeValues):
-      if edgeSizes[i] > 9:
-        var value = 0'u64
-        buffer.setLen(edgeSizes[i] + 1)
-        check:
-          putUVarint(buffer, length, edgeValues[i]) == VarintStatus.Success
-        buffer[9] = buffer[9] or 0x80'u8
-        buffer[10] = 0x01'u8
-        check:
-          getUVarint(buffer, length, value) == VarintStatus.Overflow
--- a/tests/testvarint.nim
+++ b/tests/testvarint.nim
@ -0,0 +1,216 @@
+import unittest
+import ../libp2p/varint
+
+const PBedgeValues = [
+  0'u64, (1'u64 shl 7) - 1'u64,
+  (1'u64 shl 7), (1'u64 shl 14) - 1'u64,
+  (1'u64 shl 14), (1'u64 shl 21) - 1'u64,
+  (1'u64 shl 21), (1'u64 shl 28) - 1'u64,
+  (1'u64 shl 28), (1'u64 shl 35) - 1'u64,
+  (1'u64 shl 35), (1'u64 shl 42) - 1'u64,
+  (1'u64 shl 42), (1'u64 shl 49) - 1'u64,
+  (1'u64 shl 49), (1'u64 shl 56) - 1'u64,
+  (1'u64 shl 56), (1'u64 shl 63) - 1'u64,
+  (1'u64 shl 63), 0xFFFF_FFFF_FFFF_FFFF'u64
+]
+
+const PBedgeExpects = [
+  "00", "7F",
+  "8001", "FF7F",
+  "808001", "FFFF7F",
+  "80808001", "FFFFFF7F",
+  "8080808001", "FFFFFFFF7F",
+  "808080808001", "FFFFFFFFFF7F",
+  "80808080808001", "FFFFFFFFFFFF7F",
+  "8080808080808001", "FFFFFFFFFFFFFF7F",
+  "808080808080808001", "FFFFFFFFFFFFFFFF7F",
+  "80808080808080808001", "FFFFFFFFFFFFFFFFFF01"
+]
+
+const PBedgeSizes = [
+  1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10
+]
+
+const LPedgeValues = [
+  0'u64, (1'u64 shl 7) - 1'u64,
+  (1'u64 shl 7), (1'u64 shl 14) - 1'u64,
+  (1'u64 shl 14), (1'u64 shl 21) - 1'u64,
+  (1'u64 shl 21), (1'u64 shl 28) - 1'u64,
+  (1'u64 shl 28), (1'u64 shl 35) - 1'u64,
+  (1'u64 shl 35), (1'u64 shl 42) - 1'u64,
+  (1'u64 shl 42), (1'u64 shl 49) - 1'u64,
+  (1'u64 shl 49), (1'u64 shl 56) - 1'u64,
+  (1'u64 shl 56), (1'u64 shl 63) - 1'u64,
+]
+
+const LPedgeSizes = [
+  1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9
+]
+
+const LPedgeExpects = [
+  "00", "7F",
+  "8001", "FF7F",
+  "808001", "FFFF7F",
+  "80808001", "FFFFFF7F",
+  "8080808001", "FFFFFFFF7F",
+  "808080808001", "FFFFFFFFFF7F",
+  "80808080808001", "FFFFFFFFFFFF7F",
+  "8080808080808001", "FFFFFFFFFFFFFF7F",
+  "808080808080808001", "FFFFFFFFFFFFFFFF7F",
+]
+
+proc hexChar*(c: byte, lowercase: bool = false): string =
+  var alpha: int
+  if lowercase:
+    alpha = ord('a')
+  else:
+    alpha = ord('A')
+  result = newString(2)
+  let t1 = ord(c) shr 4
+  let t0 = ord(c) and 0x0F
+  case t1
+  of 0..9: result[0] = chr(t1 + ord('0'))
+  else: result[0] = chr(t1 - 10 + alpha)
+  case t0:
+  of 0..9: result[1] = chr(t0 + ord('0'))
+  else: result[1] = chr(t0 - 10 + alpha)
+
+proc toHex*(a: openarray[byte], lowercase: bool = false): string =
+  result = ""
+  for i in a:
+    result = result & hexChar(i, lowercase)
+
+suite "Variable integer test suite":
+
+  test "vsizeof() edge cases test":
+    for i in 0..<len(PBedgeValues):
+      check vsizeof(PBedgeValues[i]) == PBedgeSizes[i]
+
+  test "[ProtoBuf] Success edge cases test":
+    var buffer = newSeq[byte]()
+    var length = 0
+    var value = 0'u64
+    for i in 0..<len(PBedgeValues):
+      buffer.setLen(PBedgeSizes[i])
+      check:
+        PB.putUVarint(buffer, length, PBedgeValues[i]) == VarintStatus.Success
+        PB.getUVarint(buffer, length, value) == VarintStatus.Success
+        value == PBedgeValues[i]
+        toHex(buffer) == PBedgeExpects[i]
+
+  test "[ProtoBuf] Buffer Overrun edge cases test":
+    var buffer = newSeq[byte]()
+    var length = 0
+    for i in 0..<len(PBedgeValues):
+      buffer.setLen(PBedgeSizes[i] - 1)
+      let res = PB.putUVarint(buffer, length, PBedgeValues[i])
+      check:
+        res == VarintStatus.Overrun
+        length == PBedgeSizes[i]
+
+  test "[ProtoBuf] Buffer Incomplete edge cases test":
+    var buffer = newSeq[byte]()
+    var length = 0
+    var value = 0'u64
+    for i in 0..<len(PBedgeValues):
+      buffer.setLen(PBedgeSizes[i])
+      check:
+        PB.putUVarint(buffer, length, PBedgeValues[i]) == VarintStatus.Success
+      buffer.setLen(len(buffer) - 1)
+      check:
+        PB.getUVarint(buffer, length, value) == VarintStatus.Incomplete
+
+  test "[ProtoBuf] Integer Overflow 32bit test":
+    var buffer = newSeq[byte]()
+    var length = 0
+    for i in 0..<len(PBedgeValues):
+      if PBedgeSizes[i] > 5:
+        var value = 0'u32
+        buffer.setLen(PBedgeSizes[i])
+        check:
+          PB.putUVarint(buffer, length, PBedgeValues[i]) == VarintStatus.Success
+          PB.getUVarint(buffer, length, value) == VarintStatus.Overflow
+
+  test "[ProtoBuf] Integer Overflow 64bit test":
+    var buffer = newSeq[byte]()
+    var length = 0
+    for i in 0..<len(PBedgeValues):
+      if PBedgeSizes[i] > 9:
+        var value = 0'u64
+        buffer.setLen(PBedgeSizes[i] + 1)
+        check:
+          PB.putUVarint(buffer, length, PBedgeValues[i]) == VarintStatus.Success
+        buffer[9] = buffer[9] or 0x80'u8
+        buffer[10] = 0x01'u8
+        check:
+          PB.getUVarint(buffer, length, value) == VarintStatus.Overflow
+
+  test "[LibP2P] Success edge cases test":
+    var buffer = newSeq[byte]()
+    var length = 0
+    var value = 0'u64
+    for i in 0..<len(LPedgeValues):
+      buffer.setLen(LPedgeSizes[i])
+      check:
+        LP.putUVarint(buffer, length, LPedgeValues[i]) == VarintStatus.Success
+        LP.getUVarint(buffer, length, value) == VarintStatus.Success
+        value == LPedgeValues[i]
+        toHex(buffer) == LPedgeExpects[i]
+
+  test "[LibP2P] Buffer Overrun edge cases test":
+    var buffer = newSeq[byte]()
+    var length = 0
+    for i in 0..<len(LPedgeValues):
+      buffer.setLen(PBedgeSizes[i] - 1)
+      let res = LP.putUVarint(buffer, length, LPedgeValues[i])
+      check:
+        res == VarintStatus.Overrun
+        length == LPedgeSizes[i]
+
+  test "[LibP2P] Buffer Incomplete edge cases test":
+    var buffer = newSeq[byte]()
+    var length = 0
+    var value = 0'u64
+    for i in 0..<len(LPedgeValues):
+      buffer.setLen(LPedgeSizes[i])
+      check:
+        LP.putUVarint(buffer, length, LPedgeValues[i]) == VarintStatus.Success
+      buffer.setLen(len(buffer) - 1)
+      check:
+        LP.getUVarint(buffer, length, value) == VarintStatus.Incomplete
+
+  test "[LibP2P] Integer Overflow 32bit test":
+    var buffer = newSeq[byte]()
+    var length = 0
+    for i in 0..<len(LPedgeValues):
+      if LPedgeSizes[i] > 5:
+        var value = 0'u32
+        buffer.setLen(LPedgeSizes[i])
+        check:
+          LP.putUVarint(buffer, length, LPedgeValues[i]) == VarintStatus.Success
+          LP.getUVarint(buffer, length, value) == VarintStatus.Overflow
+
+  test "[LibP2P] Integer Overflow 64bit test":
+    var buffer = newSeq[byte]()
+    var length = 0
+    for i in 0..<len(LPedgeValues):
+      if LPedgeSizes[i] > 8:
+        var value = 0'u64
+        buffer.setLen(LPedgeSizes[i] + 1)
+        check:
+          LP.putUVarint(buffer, length, LPedgeValues[i]) == VarintStatus.Success
+        buffer[8] = buffer[8] or 0x80'u8
+        buffer[9] = 0x01'u8
+        check:
+          LP.getUVarint(buffer, length, value) == VarintStatus.Overflow
+
+  test "[LibP2P] Over 63bit test":
+    var buffer = newSeq[byte](10)
+    var length = 0
+    check:
+      LP.putUVarint(buffer, length,
+                    0x7FFF_FFFF_FFFF_FFFF'u64) == VarintStatus.Success
+      LP.putUVarint(buffer, length,
+                    0x8000_0000_0000_0000'u64) == VarintStatus.Overflow
+      LP.putUVarint(buffer, length,
+                    0xFFFF_FFFF_FFFF_FFFF'u64) == VarintStatus.Overflow