400 lines
14 KiB
Swift
400 lines
14 KiB
Swift
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//
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// Base32.swift
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// TOTP
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//
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// Created by 野村 憲男 on 1/24/15.
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//
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// Copyright (c) 2015 Norio Nomura
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//
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// Permission is hereby granted, free of charge, to any person obtaining a copy
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// of this software and associated documentation files (the "Software"), to deal
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// in the Software without restriction, including without limitation the rights
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// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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// copies of the Software, and to permit persons to whom the Software is
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// furnished to do so, subject to the following conditions:
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//
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// The above copyright notice and this permission notice shall be included in
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// all copies or substantial portions of the Software.
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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// THE SOFTWARE.
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import Foundation
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// https://tools.ietf.org/html/rfc4648
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// MARK: - Base32 Data <-> String
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public func base32Encode(_ data: Data) -> String {
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return data.withUnsafeBytes {
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base32encode($0.baseAddress!, $0.count, alphabetEncodeTable)
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}
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}
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public func base32HexEncode(_ data: Data) -> String {
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return data.withUnsafeBytes {
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base32encode($0.baseAddress!, $0.count, extendedHexAlphabetEncodeTable)
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}
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}
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public func base32DecodeToData(_ string: String) -> Data? {
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return base32decode(string, alphabetDecodeTable).flatMap(Data.init(_:))
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}
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public func base32HexDecodeToData(_ string: String) -> Data? {
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return base32decode(string, extendedHexAlphabetDecodeTable).flatMap(Data.init(_:))
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}
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// MARK: - Base32 [UInt8] <-> String
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public func base32Encode(_ array: [UInt8]) -> String {
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return base32encode(array, array.count, alphabetEncodeTable)
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}
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public func base32HexEncode(_ array: [UInt8]) -> String {
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return base32encode(array, array.count, extendedHexAlphabetEncodeTable)
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}
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public func base32Decode(_ string: String) -> [UInt8]? {
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return base32decode(string, alphabetDecodeTable)
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}
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public func base32HexDecode(_ string: String) -> [UInt8]? {
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return base32decode(string, extendedHexAlphabetDecodeTable)
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}
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// MARK: extensions
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extension String {
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// base32
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public var base32DecodedData: Data? {
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return base32DecodeToData(self)
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}
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public var base32EncodedString: String {
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return utf8CString.withUnsafeBufferPointer {
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base32encode($0.baseAddress!, $0.count - 1, alphabetEncodeTable)
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}
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}
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public func base32DecodedString(_ encoding: String.Encoding = .utf8) -> String? {
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return base32DecodedData.flatMap {
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String(data: $0, encoding: .utf8)
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}
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}
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// base32Hex
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public var base32HexDecodedData: Data? {
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return base32HexDecodeToData(self)
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}
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public var base32HexEncodedString: String {
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return utf8CString.withUnsafeBufferPointer {
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base32encode($0.baseAddress!, $0.count - 1, extendedHexAlphabetEncodeTable)
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}
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}
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public func base32HexDecodedString(_ encoding: String.Encoding = .utf8) -> String? {
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return base32HexDecodedData.flatMap {
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String(data: $0, encoding: .utf8)
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}
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}
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}
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extension Data {
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// base32
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public var base32EncodedString: String {
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return base32Encode(self)
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}
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public var base32EncodedData: Data {
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return base32EncodedString.dataUsingUTF8StringEncoding
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}
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public var base32DecodedData: Data? {
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return String(data: self, encoding: .utf8).flatMap(base32DecodeToData)
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}
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// base32Hex
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public var base32HexEncodedString: String {
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return base32HexEncode(self)
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}
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public var base32HexEncodedData: Data {
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return base32HexEncodedString.dataUsingUTF8StringEncoding
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}
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public var base32HexDecodedData: Data? {
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return String(data: self, encoding: .utf8).flatMap(base32HexDecodeToData)
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}
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}
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// MARK: - private
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private extension String {
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var dataUsingUTF8StringEncoding: Data {
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return utf8CString.withUnsafeBufferPointer {
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Data($0.dropLast().map(UInt8.init))
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}
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}
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}
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// MARK: encode
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private let alphabetEncodeTable: [Int8] = ["A","B","C","D","E","F","G","H","I","J","K","L","M","N","O","P","Q","R","S","T","U","V","W","X","Y","Z","2","3","4","5","6","7"].map { (c: UnicodeScalar) -> Int8 in Int8(c.value) }
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private let extendedHexAlphabetEncodeTable: [Int8] = ["0","1","2","3","4","5","6","7","8","9","A","B","C","D","E","F","G","H","I","J","K","L","M","N","O","P","Q","R","S","T","U","V"].map { (c: UnicodeScalar) -> Int8 in Int8(c.value) }
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private func base32encode(_ data: UnsafeRawPointer, _ length: Int, _ table: [Int8]) -> String {
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if length == 0 {
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return ""
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}
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var length = length
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var bytes = data.assumingMemoryBound(to: UInt8.self)
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let resultBufferSize = Int(ceil(Double(length) / 5)) * 8 + 1 // need null termination
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let resultBuffer = UnsafeMutablePointer<Int8>.allocate(capacity: resultBufferSize)
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var encoded = resultBuffer
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// encode regular blocks
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while length >= 5 {
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encoded[0] = table[Int(bytes[0] >> 3)]
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encoded[1] = table[Int((bytes[0] & 0b00000111) << 2 | bytes[1] >> 6)]
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encoded[2] = table[Int((bytes[1] & 0b00111110) >> 1)]
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encoded[3] = table[Int((bytes[1] & 0b00000001) << 4 | bytes[2] >> 4)]
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encoded[4] = table[Int((bytes[2] & 0b00001111) << 1 | bytes[3] >> 7)]
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encoded[5] = table[Int((bytes[3] & 0b01111100) >> 2)]
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encoded[6] = table[Int((bytes[3] & 0b00000011) << 3 | bytes[4] >> 5)]
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encoded[7] = table[Int((bytes[4] & 0b00011111))]
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length -= 5
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encoded = encoded.advanced(by: 8)
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bytes = bytes.advanced(by: 5)
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}
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// encode last block
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var byte0, byte1, byte2, byte3, byte4: UInt8
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(byte0, byte1, byte2, byte3, byte4) = (0,0,0,0,0)
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switch length {
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case 4:
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byte3 = bytes[3]
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encoded[6] = table[Int((byte3 & 0b00000011) << 3 | byte4 >> 5)]
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encoded[5] = table[Int((byte3 & 0b01111100) >> 2)]
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fallthrough
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case 3:
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byte2 = bytes[2]
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encoded[4] = table[Int((byte2 & 0b00001111) << 1 | byte3 >> 7)]
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fallthrough
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case 2:
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byte1 = bytes[1]
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encoded[3] = table[Int((byte1 & 0b00000001) << 4 | byte2 >> 4)]
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encoded[2] = table[Int((byte1 & 0b00111110) >> 1)]
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fallthrough
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case 1:
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byte0 = bytes[0]
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encoded[1] = table[Int((byte0 & 0b00000111) << 2 | byte1 >> 6)]
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encoded[0] = table[Int(byte0 >> 3)]
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default: break
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}
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// padding
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let pad = Int8(UnicodeScalar("=").value)
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switch length {
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case 0:
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encoded[0] = 0
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case 1:
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encoded[2] = pad
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encoded[3] = pad
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fallthrough
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case 2:
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encoded[4] = pad
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fallthrough
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case 3:
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encoded[5] = pad
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encoded[6] = pad
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fallthrough
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case 4:
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encoded[7] = pad
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fallthrough
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default:
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encoded[8] = 0
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break
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}
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// return
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if let base32Encoded = String(validatingUTF8: resultBuffer) {
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resultBuffer.deallocate()
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return base32Encoded
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} else {
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resultBuffer.deallocate()
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fatalError("internal error")
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}
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}
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// MARK: decode
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private let __: UInt8 = 255
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private let alphabetDecodeTable: [UInt8] = [
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0x00 - 0x0F
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0x10 - 0x1F
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0x20 - 0x2F
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__,__,26,27, 28,29,30,31, __,__,__,__, __,__,__,__, // 0x30 - 0x3F
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__, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10, 11,12,13,14, // 0x40 - 0x4F
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15,16,17,18, 19,20,21,22, 23,24,25,__, __,__,__,__, // 0x50 - 0x5F
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__, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10, 11,12,13,14, // 0x60 - 0x6F
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15,16,17,18, 19,20,21,22, 23,24,25,__, __,__,__,__, // 0x70 - 0x7F
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0x80 - 0x8F
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0x90 - 0x9F
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0xA0 - 0xAF
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0xB0 - 0xBF
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0xC0 - 0xCF
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0xD0 - 0xDF
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0xE0 - 0xEF
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0xF0 - 0xFF
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]
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private let extendedHexAlphabetDecodeTable: [UInt8] = [
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0x00 - 0x0F
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0x10 - 0x1F
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0x20 - 0x2F
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0, 1, 2, 3, 4, 5, 6, 7, 8, 9,__,__, __,__,__,__, // 0x30 - 0x3F
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__,10,11,12, 13,14,15,16, 17,18,19,20, 21,22,23,24, // 0x40 - 0x4F
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25,26,27,28, 29,30,31,__, __,__,__,__, __,__,__,__, // 0x50 - 0x5F
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__,10,11,12, 13,14,15,16, 17,18,19,20, 21,22,23,24, // 0x60 - 0x6F
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25,26,27,28, 29,30,31,__, __,__,__,__, __,__,__,__, // 0x70 - 0x7F
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0x80 - 0x8F
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0x90 - 0x9F
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0xA0 - 0xAF
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0xB0 - 0xBF
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0xC0 - 0xCF
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0xD0 - 0xDF
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0xE0 - 0xEF
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__,__,__,__, __,__,__,__, __,__,__,__, __,__,__,__, // 0xF0 - 0xFF
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]
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private func base32decode(_ string: String, _ table: [UInt8]) -> [UInt8]? {
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let length = string.unicodeScalars.count
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if length == 0 {
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return []
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}
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// calc padding length
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func getLeastPaddingLength(_ string: String) -> Int {
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if string.hasSuffix("======") {
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return 6
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} else if string.hasSuffix("====") {
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return 4
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} else if string.hasSuffix("===") {
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return 3
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} else if string.hasSuffix("=") {
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return 1
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} else {
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return 0
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}
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}
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// validate string
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let leastPaddingLength = getLeastPaddingLength(string)
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if let index = string.unicodeScalars.firstIndex(where: {$0.value > 0xff || table[Int($0.value)] > 31}) {
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// index points padding "=" or invalid character that table does not contain.
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let pos = string.unicodeScalars.distance(from: string.unicodeScalars.startIndex, to: index)
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// if pos points padding "=", it's valid.
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if pos != length - leastPaddingLength {
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print("string contains some invalid characters.")
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return nil
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}
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}
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var remainEncodedLength = length - leastPaddingLength
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var additionalBytes = 0
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switch remainEncodedLength % 8 {
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// valid
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case 0: break
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case 2: additionalBytes = 1
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case 4: additionalBytes = 2
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case 5: additionalBytes = 3
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case 7: additionalBytes = 4
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default:
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print("string length is invalid.")
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return nil
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}
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// validated
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let dataSize = remainEncodedLength / 8 * 5 + additionalBytes
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// Use UnsafePointer<UInt8>
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return string.utf8CString.withUnsafeBufferPointer {
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(data: UnsafeBufferPointer<CChar>) -> [UInt8] in
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var encoded = data.baseAddress!
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var result = Array<UInt8>(repeating: 0, count: dataSize)
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var decodedOffset = 0
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// decode regular blocks
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var value0, value1, value2, value3, value4, value5, value6, value7: UInt8
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(value0, value1, value2, value3, value4, value5, value6, value7) = (0,0,0,0,0,0,0,0)
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while remainEncodedLength >= 8 {
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value0 = table[Int(encoded[0])]
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value1 = table[Int(encoded[1])]
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value2 = table[Int(encoded[2])]
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value3 = table[Int(encoded[3])]
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value4 = table[Int(encoded[4])]
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value5 = table[Int(encoded[5])]
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value6 = table[Int(encoded[6])]
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value7 = table[Int(encoded[7])]
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result[decodedOffset] = value0 << 3 | value1 >> 2
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result[decodedOffset + 1] = value1 << 6 | value2 << 1 | value3 >> 4
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result[decodedOffset + 2] = value3 << 4 | value4 >> 1
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result[decodedOffset + 3] = value4 << 7 | value5 << 2 | value6 >> 3
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result[decodedOffset + 4] = value6 << 5 | value7
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remainEncodedLength -= 8
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decodedOffset += 5
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encoded = encoded.advanced(by: 8)
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}
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// decode last block
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(value0, value1, value2, value3, value4, value5, value6, value7) = (0,0,0,0,0,0,0,0)
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switch remainEncodedLength {
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case 7:
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value6 = table[Int(encoded[6])]
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value5 = table[Int(encoded[5])]
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fallthrough
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case 5:
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value4 = table[Int(encoded[4])]
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fallthrough
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case 4:
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value3 = table[Int(encoded[3])]
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value2 = table[Int(encoded[2])]
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fallthrough
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case 2:
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value1 = table[Int(encoded[1])]
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value0 = table[Int(encoded[0])]
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default: break
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}
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switch remainEncodedLength {
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case 7:
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result[decodedOffset + 3] = value4 << 7 | value5 << 2 | value6 >> 3
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fallthrough
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case 5:
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result[decodedOffset + 2] = value3 << 4 | value4 >> 1
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fallthrough
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case 4:
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result[decodedOffset + 1] = value1 << 6 | value2 << 1 | value3 >> 4
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fallthrough
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case 2:
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||
|
result[decodedOffset] = value0 << 3 | value1 >> 2
|
||
|
default: break
|
||
|
}
|
||
|
|
||
|
return result
|
||
|
}
|
||
|
}
|