## Nim-Libp2p ## Copyright (c) 2018 Status Research & Development GmbH ## Licensed under either of ## * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE)) ## * MIT license ([LICENSE-MIT](LICENSE-MIT)) ## at your option. ## This file may not be copied, modified, or distributed except according to ## those terms. ## This module implements BASE32 encoding and decoding procedures. ## This module supports RFC4648's BASE32. type Base32Status* {.pure.} = enum Error, Success, Incorrect, Overrun Base32Alphabet* = object decode*: array[128, int8] encode*: array[32, uint8] Base32Upper* = object ## Type to use RFC4868 alphabet in uppercase without padding Base32Lower* = object ## Type to use RFC4868 alphabet in lowercase without padding Base32UpperPad* = object ## Type to use RFC4868 alphabet in uppercase with padding Base32LowerPad* = object ## Type to use RFC4868 alphabet in lowercase with padding HexBase32Upper* = object ## Type to use RFC4868-HEX alphabet in uppercase without padding HexBase32Lower* = object ## Type to use RFC4868-HEX alphabet in lowercase without padding HexBase32UpperPad* = object ## Type to use RFC4868-HEX alphabet in uppercase with padding HexBase32LowerPad* = object ## Type to use RFC4868-HEX alphabet in lowercase with padding Base32* = Base32Upper ## By default we are using RFC4868 alphabet in uppercase without padding Base32PadTypes* = Base32UpperPad | Base32LowerPad | HexBase32UpperPad | HexBase32LowerPad ## All types with padding support Base32NoPadTypes* = Base32Upper | Base32Lower | HexBase32Upper | HexBase32Lower ## All types without padding Base32Types* = Base32NoPadTypes | Base32PadTypes ## Supported types Base32Error* = object of Exception ## Base32 specific exception type proc newAlphabet32*(s: string): Base32Alphabet = doAssert(len(s) == 32) for i in 0..= 1: outbytes[0] = chr(inbytes[0] shr 3) outbytes[1] = chr((inbytes[0] and 7'u8) shl 2) if length >= 2: outbytes[1] = chr(cast[byte](outbytes[1]) or cast[byte](inbytes[1] shr 6)) outbytes[2] = chr((inbytes[1] shr 1) and 31'u8) outbytes[3] = chr((inbytes[1] and 1'u8) shl 4) if length >= 3: outbytes[3] = chr(cast[byte](outbytes[3]) or (inbytes[2] shr 4)) outbytes[4] = chr((inbytes[2] and 15'u8) shl 1) if length >= 4: outbytes[4] = chr(cast[byte](outbytes[4]) or (inbytes[3] shr 7)) outbytes[5] = chr((inbytes[3] shr 2) and 31'u8) outbytes[6] = chr((inbytes[3] and 3'u8) shl 3) if length >= 5: outbytes[6] = chr(cast[byte](outbytes[6]) or (inbytes[4] shr 5)) outbytes[7] = chr(inbytes[4] and 31'u8) proc convert8to5(inbytes: openarray[byte], outbytes: var openarray[byte], length: int) {.inline.} = if length >= 2: outbytes[0] = inbytes[0] shl 3 outbytes[0] = outbytes[0] or (inbytes[1] shr 2) if length >= 4: outbytes[1] = (inbytes[1] and 3'u8) shl 6 outbytes[1] = outbytes[1] or (inbytes[2] shl 1) outbytes[1] = outbytes[1] or (inbytes[3] shr 4) if length >= 5: outbytes[2] = (inbytes[3] and 15'u8) shl 4 outbytes[2] = outbytes[2] or (inbytes[4] shr 1) if length >= 7: outbytes[3] = (inbytes[4] and 1'u8) shl 7 outbytes[3] = outbytes[3] or (inbytes[5] shl 2) outbytes[3] = outbytes[3] or (inbytes[6] shr 3) if length >= 8: outbytes[4] = (inbytes[6] and 7'u8) shl 5 outbytes[4] = outbytes[4] or (inbytes[7] and 31'u8) proc encode*(btype: typedesc[Base32Types], inbytes: openarray[byte], outstr: var openarray[char], outlen: var int): Base32Status = ## Encode array of bytes ``inbytes`` using BASE32 encoding and store ## result to ``outstr``. On success ``Base32Status.Success`` will be returned ## and ``outlen`` will be set to number of characters stored inside of ## ``outstr``. If length of ``outstr`` is not enough then ## ``Base32Status.Overrun`` will be returned and ``outlen`` will be set to ## number of characters required. when (btype is Base32Upper) or (btype is Base32UpperPad): const alphabet = RFCUpperCaseAlphabet elif (btype is Base32Lower) or (btype is Base32LowerPad): const alphabet = RFCLowerCaseAlphabet elif (btype is HexBase32Upper) or (btype is HexBase32UpperPad): const alphabet = HEXUpperCaseAlphabet elif (btype is HexBase32Lower) or (btype is HexBase32LowerPad): const alphabet = HEXLowerCaseAlphabet if len(inbytes) == 0: outlen = 0 return Base32Status.Success let length = btype.encodedLength(len(inbytes)) if length > len(outstr): outlen = length return Base32Status.Overrun let reminder = len(inbytes) mod 5 let limit = len(inbytes) - reminder var i, k: int while i < limit: convert5to8(inbytes.toOpenArray(i, i + 4), outstr.toOpenArray(k, k + 7), 5) for j in 0..7: outstr[k + j] = chr(alphabet.encode[ord(outstr[k + j])]) k += 8 i += 5 if reminder != 0: convert5to8(inbytes.toOpenArray(i, i + reminder - 1), outstr.toOpenArray(k, length - 1), reminder) outstr[k] = chr(alphabet.encode[ord(outstr[k])]) inc(k) while k < len(outstr): if ord(outstr[k]) != 0: outstr[k] = chr(alphabet.encode[ord(outstr[k])]) inc(k) else: when (btype is Base32UpperPad) or (btype is Base32LowerPad) or (btype is HexBase32UpperPad) or (btype is HexBase32LowerPad): outstr[k] = '=' inc(k) else: discard outlen = k result = Base32Status.Success proc encode*(btype: typedesc[Base32Types], inbytes: openarray[byte]): string {.inline.} = ## Encode array of bytes ``inbytes`` using BASE32 encoding and return ## encoded string. if len(inbytes) == 0: result = "" else: var length = 0 result = newString(btype.encodedLength(len(inbytes))) if btype.encode(inbytes, result, length) == Base32Status.Success: result.setLen(length) else: result = "" proc decode*[T: byte|char](btype: typedesc[Base32Types], instr: openarray[T], outbytes: var openarray[byte], outlen: var int): Base32Status = ## Decode BASE32 string and store array of bytes to ``outbytes``. On success ## ``Base32Status.Success`` will be returned and ``outlen`` will be set ## to number of bytes stored. ## ## ## If length of ``outbytes`` is not enough to store decoded bytes, then ## ``Base32Status.Overrun`` will be returned and ``outlen`` will be set to ## number of bytes required. when (btype is Base32Upper) or (btype is Base32UpperPad): const alphabet = RFCUpperCaseAlphabet elif (btype is Base32Lower) or (btype is Base32LowerPad): const alphabet = RFCLowerCaseAlphabet elif (btype is HexBase32Upper) or (btype is HexBase32UpperPad): const alphabet = HEXUpperCaseAlphabet elif (btype is HexBase32Lower) or (btype is HexBase32LowerPad): const alphabet = HEXLowerCaseAlphabet if len(instr) == 0: outlen = 0 return Base32Status.Success let length = btype.decodedLength(len(instr)) if length > len(outbytes): outlen = length return Base32Status.Overrun var inlen = len(instr) when (btype is Base32PadTypes): for i in countdown(inlen - 1, 0): if instr[i] != '=': break dec(inlen) let reminder = inlen mod 8 let limit = inlen - reminder var buffer: array[8, byte] var i, k: int while i < limit: for j in 0..<8: if (cast[byte](instr[i + j]) and 0x80'u8) != 0: outlen = 0 zeroMem(addr outbytes[0], i + 8) return Base32Status.Incorrect let ch = alphabet.decode[int8(instr[i + j])] if ch == -1: outlen = 0 zeroMem(addr outbytes[0], i + 8) return Base32Status.Incorrect buffer[j] = cast[byte](ch) convert8to5(buffer, outbytes.toOpenArray(k, k + 4), 8) k += 5 i += 8 var incsize = 0 if reminder != 0: if reminder == 1 or reminder == 3 or reminder == 6: outlen = 0 zeroMem(addr outbytes[0], i + 8) return Base32Status.Incorrect elif reminder == 2: incsize = 1 elif reminder == 4: incsize = 2 elif reminder == 5: incsize = 3 elif reminder == 7: incsize = 4 for j in 0..