2018-12-12 01:52:42 +00:00
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## Nim-Libp2p
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## Copyright (c) 2018 Status Research & Development GmbH
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## Licensed under either of
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## * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
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## * MIT license ([LICENSE-MIT](LICENSE-MIT))
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## at your option.
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## This file may not be copied, modified, or distributed except according to
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## those terms.
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## This module implements MultiBase.
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##
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## TODO:
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2019-03-06 00:36:09 +00:00
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## 1. base32z
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2020-06-01 07:25:16 +00:00
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##
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2020-05-31 14:22:49 +00:00
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{.push raises: [Defect].}
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2019-10-29 18:51:48 +00:00
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import tables
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2020-05-31 14:22:49 +00:00
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import stew/[base32, base58, base64, results]
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2018-12-12 01:52:42 +00:00
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type
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MultiBaseStatus* {.pure.} = enum
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Error, Success, Overrun, Incorrect, BadCodec, NotSupported
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MultiBase* = object
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2020-06-01 07:25:16 +00:00
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MBCodeSize = proc(length: int): int {.nimcall, gcsafe, noSideEffect, raises: [Defect].}
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2019-03-06 00:36:09 +00:00
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2018-12-12 01:52:42 +00:00
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MBCodec = object
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code: char
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name: string
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encr: proc(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus {.nimcall, gcsafe, noSideEffect, raises: [Defect].}
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decr: proc(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus {.nimcall, gcsafe, noSideEffect, raises: [Defect].}
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encl: MBCodeSize
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decl: MBCodeSize
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proc idd(inbytes: openArray[char], outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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let length = len(inbytes)
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if length > len(outbytes):
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outlen = length
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result = MultiBaseStatus.Overrun
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else:
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copyMem(addr outbytes[0], unsafeAddr inbytes[0], length)
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outlen = length
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result = MultiBaseStatus.Success
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proc ide(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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let length = len(inbytes)
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if length > len(outbytes):
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outlen = length
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result = MultiBaseStatus.Overrun
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else:
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copyMem(addr outbytes[0], unsafeAddr inbytes[0], length)
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outlen = length
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result = MultiBaseStatus.Success
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proc idel(length: int): int = length
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proc iddl(length: int): int = length
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proc b16d(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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discard
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proc b16e(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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discard
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proc b16ud(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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discard
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proc b16ue(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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discard
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proc b16el(length: int): int = length shl 1
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proc b16dl(length: int): int = (length + 1) div 2
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proc b32ce(r: Base32Status): MultiBaseStatus {.inline.} =
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result = MultiBaseStatus.Error
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if r == Base32Status.Incorrect:
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result = MultiBaseStatus.Incorrect
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elif r == Base32Status.Overrun:
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result = MultiBaseStatus.Overrun
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elif r == Base32Status.Success:
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result = MultiBaseStatus.Success
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proc b58ce(r: Base58Status): MultiBaseStatus {.inline.} =
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result = MultiBaseStatus.Error
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if r == Base58Status.Incorrect:
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result = MultiBaseStatus.Incorrect
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elif r == Base58Status.Overrun:
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result = MultiBaseStatus.Overrun
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elif r == Base58Status.Success:
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result = MultiBaseStatus.Success
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proc b64ce(r: Base64Status): MultiBaseStatus {.inline.} =
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result = MultiBaseStatus.Error
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if r == Base64Status.Incorrect:
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result = MultiBaseStatus.Incorrect
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elif r == Base64Status.Overrun:
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result = MultiBaseStatus.Overrun
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elif r == Base64Status.Success:
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result = MultiBaseStatus.Success
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proc b32hd(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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result = b32ce(HexBase32Lower.decode(inbytes, outbytes, outlen))
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proc b32he(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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result = b32ce(HexBase32Lower.encode(inbytes, outbytes, outlen))
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proc b32hud(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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result = b32ce(HexBase32Upper.decode(inbytes, outbytes, outlen))
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proc b32hue(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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result = b32ce(HexBase32Upper.encode(inbytes, outbytes, outlen))
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proc b32hpd(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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result = b32ce(HexBase32LowerPad.decode(inbytes, outbytes, outlen))
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proc b32hpe(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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result = b32ce(HexBase32LowerPad.encode(inbytes, outbytes, outlen))
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proc b32hpud(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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result = b32ce(HexBase32UpperPad.decode(inbytes, outbytes, outlen))
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2021-12-16 10:05:20 +00:00
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proc b32hpue(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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result = b32ce(HexBase32UpperPad.encode(inbytes, outbytes, outlen))
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proc b32d(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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result = b32ce(Base32Lower.decode(inbytes, outbytes, outlen))
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proc b32e(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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result = b32ce(Base32Lower.encode(inbytes, outbytes, outlen))
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2021-12-16 10:05:20 +00:00
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proc b32ud(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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result = b32ce(Base32Upper.decode(inbytes, outbytes, outlen))
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proc b32ue(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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result = b32ce(Base32Upper.encode(inbytes, outbytes, outlen))
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2021-12-16 10:05:20 +00:00
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proc b32pd(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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result = b32ce(Base32LowerPad.decode(inbytes, outbytes, outlen))
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proc b32pe(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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result = b32ce(Base32LowerPad.encode(inbytes, outbytes, outlen))
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proc b32pud(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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result = b32ce(Base32UpperPad.decode(inbytes, outbytes, outlen))
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2021-12-16 10:05:20 +00:00
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proc b32pue(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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2018-12-12 01:52:42 +00:00
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result = b32ce(Base32UpperPad.encode(inbytes, outbytes, outlen))
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proc b32el(length: int): int = Base32Lower.encodedLength(length)
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proc b32dl(length: int): int = Base32Lower.decodedLength(length)
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proc b32pel(length: int): int = Base32LowerPad.encodedLength(length)
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proc b32pdl(length: int): int = Base32LowerPad.decodedLength(length)
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proc b58fd(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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result = b58ce(FLCBase58.decode(inbytes, outbytes, outlen))
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proc b58fe(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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result = b58ce(FLCBase58.encode(inbytes, outbytes, outlen))
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proc b58bd(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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result = b58ce(BTCBase58.decode(inbytes, outbytes, outlen))
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2021-12-16 10:05:20 +00:00
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proc b58be(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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2018-12-12 01:52:42 +00:00
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result = b58ce(BTCBase58.encode(inbytes, outbytes, outlen))
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proc b58el(length: int): int = Base58.encodedLength(length)
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proc b58dl(length: int): int = Base58.decodedLength(length)
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2019-03-06 00:36:09 +00:00
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proc b64el(length: int): int = Base64.encodedLength(length)
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proc b64dl(length: int): int = Base64.decodedLength(length)
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proc b64pel(length: int): int = Base64Pad.encodedLength(length)
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proc b64pdl(length: int): int = Base64Pad.decodedLength(length)
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proc b64e(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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result = b64ce(Base64.encode(inbytes, outbytes, outlen))
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2021-12-16 10:05:20 +00:00
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proc b64d(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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2019-03-06 00:36:09 +00:00
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result = b64ce(Base64.decode(inbytes, outbytes, outlen))
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2021-12-16 10:05:20 +00:00
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proc b64pe(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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2019-03-06 00:36:09 +00:00
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result = b64ce(Base64Pad.encode(inbytes, outbytes, outlen))
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2021-12-16 10:05:20 +00:00
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proc b64pd(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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2019-03-06 00:36:09 +00:00
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result = b64ce(Base64Pad.decode(inbytes, outbytes, outlen))
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2021-12-16 10:05:20 +00:00
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proc b64ue(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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2019-03-06 00:36:09 +00:00
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result = b64ce(Base64Url.encode(inbytes, outbytes, outlen))
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2021-12-16 10:05:20 +00:00
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proc b64ud(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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2019-03-06 00:36:09 +00:00
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result = b64ce(Base64Url.decode(inbytes, outbytes, outlen))
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2021-12-16 10:05:20 +00:00
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proc b64upe(inbytes: openArray[byte],
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outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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2019-03-06 00:36:09 +00:00
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result = b64ce(Base64UrlPad.encode(inbytes, outbytes, outlen))
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2021-12-16 10:05:20 +00:00
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proc b64upd(inbytes: openArray[char],
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outbytes: var openArray[byte],
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outlen: var int): MultiBaseStatus =
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2019-03-06 00:36:09 +00:00
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result = b64ce(Base64UrlPad.decode(inbytes, outbytes, outlen))
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2018-12-12 01:52:42 +00:00
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const
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2021-12-16 10:05:20 +00:00
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MultiBaseCodecs = [
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2018-12-12 01:52:42 +00:00
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MBCodec(name: "identity", code: chr(0x00),
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decr: idd, encr: ide, decl: iddl, encl: idel
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),
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MBCodec(name: "base1", code: '1'),
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MBCodec(name: "base2", code: '0'),
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MBCodec(name: "base8", code: '7'),
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MBCodec(name: "base10", code: '9'),
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MBCodec(name: "base16", code: 'f',
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decr: b16d, encr: b16e, decl: b16dl, encl: b16el
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),
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MBCodec(name: "base16upper", code: 'F',
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decr: b16ud, encr: b16ue, decl: b16dl, encl: b16el
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),
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MBCodec(name: "base32hex", code: 'v',
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decr: b32hd, encr: b32he, decl: b32dl, encl: b32el
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),
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MBCodec(name: "base32hexupper", code: 'V',
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decr: b32hud, encr: b32hue, decl: b32dl, encl: b32el
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),
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MBCodec(name: "base32hexpad", code: 't',
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decr: b32hpd, encr: b32hpe, decl: b32pdl, encl: b32pel
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),
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MBCodec(name: "base32hexpadupper", code: 'T',
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decr: b32hpud, encr: b32hpue, decl: b32pdl, encl: b32pel
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),
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MBCodec(name: "base32", code: 'b',
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decr: b32d, encr: b32e, decl: b32dl, encl: b32el
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),
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MBCodec(name: "base32upper", code: 'B',
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decr: b32ud, encr: b32ue, decl: b32dl, encl: b32el
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),
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MBCodec(name: "base32pad", code: 'c',
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decr: b32pd, encr: b32pe, decl: b32pdl, encl: b32pel
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),
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MBCodec(name: "base32padupper", code: 'C',
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decr: b32pud, encr: b32pue, decl: b32pdl, encl: b32pel
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),
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MBCodec(name: "base32z", code: 'h'),
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MBCodec(name: "base58flickr", code: 'Z',
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decr: b58fd, encr: b58fe, decl: b58dl, encl: b58el
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),
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MBCodec(name: "base58btc", code: 'z',
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decr: b58bd, encr: b58be, decl: b58dl, encl: b58el
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),
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2019-03-06 00:36:09 +00:00
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MBCodec(name: "base64", code: 'm',
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decr: b64d, encr: b64e, decl: b64dl, encl: b64el
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),
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MBCodec(name: "base64pad", code: 'M',
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decr: b64pd, encr: b64pe, decl: b64pdl, encl: b64pel
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),
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MBCodec(name: "base64url", code: 'u',
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decr: b64ud, encr: b64ue, decl: b64dl, encl: b64el
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),
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MBCodec(name: "base64urlpad", code: 'U',
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decr: b64upd, encr: b64upe, decl: b64pdl, encl: b64pel
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)
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2018-12-12 01:52:42 +00:00
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]
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proc initMultiBaseCodeTable(): Table[char, MBCodec] {.compileTime.} =
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2021-12-16 10:05:20 +00:00
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for item in MultiBaseCodecs:
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2018-12-12 01:52:42 +00:00
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result[item.code] = item
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proc initMultiBaseNameTable(): Table[string, MBCodec] {.compileTime.} =
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2021-12-16 10:05:20 +00:00
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for item in MultiBaseCodecs:
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2018-12-12 01:52:42 +00:00
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result[item.name] = item
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const
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2021-12-16 10:05:20 +00:00
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CodeMultiBases = initMultiBaseCodeTable()
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NameMultiBases = initMultiBaseNameTable()
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2018-12-12 01:52:42 +00:00
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proc encodedLength*(mbtype: typedesc[MultiBase], encoding: string,
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length: int): int =
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## Return estimated size of buffer to store MultiBase encoded value with
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## encoding ``encoding`` of length ``length``.
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##
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## Procedure returns ``-1`` if ``encoding`` scheme is not supported or
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## not present.
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2021-12-16 10:05:20 +00:00
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let mb = NameMultiBases.getOrDefault(encoding)
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2018-12-12 01:52:42 +00:00
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if len(mb.name) == 0 or isNil(mb.encl):
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result = -1
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else:
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if length == 0:
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result = 1
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else:
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result = mb.encl(length) + 1
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proc decodedLength*(mbtype: typedesc[MultiBase], encoding: char,
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length: int): int =
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## Return estimated size of buffer to store MultiBase decoded value with
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## encoding character ``encoding`` of length ``length``.
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2021-12-16 10:05:20 +00:00
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let mb = CodeMultiBases.getOrDefault(encoding)
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2018-12-12 01:52:42 +00:00
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if len(mb.name) == 0 or isNil(mb.decl) or length == 0:
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result = -1
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else:
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if length == 1:
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result = 0
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else:
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result = mb.decl(length - 1)
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proc encode*(mbtype: typedesc[MultiBase], encoding: string,
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2021-12-16 10:05:20 +00:00
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inbytes: openArray[byte], outbytes: var openArray[char],
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outlen: var int): MultiBaseStatus =
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2018-12-12 01:52:42 +00:00
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## Encode array ``inbytes`` using MultiBase encoding scheme ``encoding`` and
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## store encoded value to ``outbytes``.
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##
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## If ``encoding`` is not supported ``MultiBaseStatus.NotSupported`` will be
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## returned.
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##
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## If ``encoding`` is not correct string, then ``MultBaseStatus.BadCodec``
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## will be returned.
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##
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## If length of ``outbytes`` is not enough to store encoded result, then
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## ``MultiBaseStatus.Overrun`` error will be returned and ``outlen`` will be
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## set to length required.
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##
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## On successfull encoding ``MultiBaseStatus.Success`` will be returned and
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## ``outlen`` will be set to number of encoded octets (bytes).
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2021-12-16 10:05:20 +00:00
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let mb = NameMultiBases.getOrDefault(encoding)
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2018-12-12 01:52:42 +00:00
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if len(mb.name) == 0:
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2021-12-16 10:05:20 +00:00
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return MultiBaseStatus.BadCodec
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2018-12-12 01:52:42 +00:00
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if isNil(mb.encr) or isNil(mb.encl):
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2021-12-16 10:05:20 +00:00
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return MultiBaseStatus.NotSupported
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2018-12-12 01:52:42 +00:00
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if len(outbytes) > 1:
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2020-05-18 05:25:55 +00:00
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result = mb.encr(inbytes, outbytes.toOpenArray(1, outbytes.high),
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2018-12-12 01:52:42 +00:00
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outlen)
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if result == MultiBaseStatus.Overrun:
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outlen += 1
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elif result == MultiBaseStatus.Success:
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outlen += 1
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outbytes[0] = mb.code
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else:
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if len(inbytes) == 0 and len(outbytes) == 1:
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result = MultiBaseStatus.Success
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outlen = 1
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outbytes[0] = mb.code
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else:
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result = MultiBaseStatus.Overrun
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outlen = mb.encl(len(inbytes)) + 1
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2021-12-16 10:05:20 +00:00
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proc decode*(mbtype: typedesc[MultiBase], inbytes: openArray[char],
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outbytes: var openArray[byte], outlen: var int): MultiBaseStatus =
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2018-12-12 01:52:42 +00:00
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## Decode array ``inbytes`` using MultiBase encoding and store decoded value
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## to ``outbytes``.
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##
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## If ``inbytes`` is not correct MultiBase string, then
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## ``MultiBaseStatus.BadCodec`` if first character is wrong, or
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## ``MultiBaseStatus.Incorrect`` if string has incorrect characters for
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## such encoding.
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##
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## If length of ``outbytes`` is not enough to store decoded result, then
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## ``MultiBaseStatus.Overrun`` error will be returned and ``outlen`` will be
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## set to length required.
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##
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## On successfull decoding ``MultiBaseStatus.Success`` will be returned and
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## ``outlen`` will be set to number of encoded octets (bytes).
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let length = len(inbytes)
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if length == 0:
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2021-12-16 10:05:20 +00:00
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return MultiBaseStatus.Incorrect
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let mb = CodeMultiBases.getOrDefault(inbytes[0])
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2018-12-12 01:52:42 +00:00
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if len(mb.name) == 0:
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2021-12-16 10:05:20 +00:00
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return MultiBaseStatus.BadCodec
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2018-12-12 01:52:42 +00:00
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if isNil(mb.decr) or isNil(mb.decl):
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2021-12-16 10:05:20 +00:00
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return MultiBaseStatus.NotSupported
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2018-12-12 01:52:42 +00:00
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if length == 1:
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outlen = 0
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2021-12-16 10:05:20 +00:00
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result = MultiBaseStatus.Success
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2018-12-12 01:52:42 +00:00
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else:
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result = mb.decr(inbytes.toOpenArray(1, length - 1), outbytes, outlen)
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proc encode*(mbtype: typedesc[MultiBase], encoding: string,
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2021-12-16 10:05:20 +00:00
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inbytes: openArray[byte]): Result[string, string] =
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2018-12-12 01:52:42 +00:00
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## Encode array ``inbytes`` using MultiBase encoding scheme ``encoding`` and
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## return encoded string.
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let length = len(inbytes)
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2021-12-16 10:05:20 +00:00
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let mb = NameMultiBases.getOrDefault(encoding)
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2018-12-12 01:52:42 +00:00
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if len(mb.name) == 0:
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2020-05-31 14:22:49 +00:00
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return err("multibase: Encoding scheme is incorrect!")
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2018-12-12 01:52:42 +00:00
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if isNil(mb.encr) or isNil(mb.encl):
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2020-05-31 14:22:49 +00:00
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return err("multibase: Encoding scheme is not supported!")
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2018-12-12 01:52:42 +00:00
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var buffer: string
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if length > 0:
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buffer = newString(mb.encl(length) + 1)
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var outlen = 0
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2020-05-18 05:25:55 +00:00
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let res = mb.encr(inbytes, buffer.toOpenArray(1, buffer.high), outlen)
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2018-12-12 01:52:42 +00:00
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if res != MultiBaseStatus.Success:
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2020-05-31 14:22:49 +00:00
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return err("multibase: Encoding error [" & $res & "]")
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2018-12-12 01:52:42 +00:00
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buffer.setLen(outlen + 1)
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buffer[0] = mb.code
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else:
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buffer = newString(1)
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buffer[0] = mb.code
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2020-05-31 14:22:49 +00:00
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ok(buffer)
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2018-12-12 01:52:42 +00:00
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2021-12-16 10:05:20 +00:00
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proc decode*(mbtype: typedesc[MultiBase], inbytes: openArray[char]): Result[seq[byte], string] =
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2018-12-12 01:52:42 +00:00
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## Decode MultiBase encoded array ``inbytes`` and return decoded sequence of
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## bytes.
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let length = len(inbytes)
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if length == 0:
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2020-05-31 14:22:49 +00:00
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return err("multibase: Could not decode zero-length string")
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2021-12-16 10:05:20 +00:00
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let mb = CodeMultiBases.getOrDefault(inbytes[0])
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2018-12-12 01:52:42 +00:00
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if len(mb.name) == 0:
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2020-05-31 14:22:49 +00:00
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return err("multibase: MultiBase scheme is incorrect!")
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2018-12-12 01:52:42 +00:00
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if isNil(mb.decr) or isNil(mb.decl):
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2020-05-31 14:22:49 +00:00
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return err("multibase: MultiBase scheme is not supported!")
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2018-12-12 01:52:42 +00:00
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if length == 1:
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2020-05-31 14:22:49 +00:00
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let empty: seq[byte] = @[]
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ok(empty) # empty
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2018-12-12 01:52:42 +00:00
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else:
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var buffer = newSeq[byte](mb.decl(length - 1))
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var outlen = 0
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let res = mb.decr(inbytes.toOpenArray(1, length - 1),
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buffer, outlen)
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if res != MultiBaseStatus.Success:
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2020-05-31 14:22:49 +00:00
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err("multibase: Decoding error [" & $res & "]")
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else:
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buffer.setLen(outlen)
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ok(buffer)
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