tunnelkit/TunnelKit/Sources/Core/Data+Manipulation.swift

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2018-08-23 08:19:25 +00:00
//
// Data+Manipulation.swift
// TunnelKit
2018-08-23 08:19:25 +00:00
//
// Created by Davide De Rosa on 2/3/17.
// Copyright © 2018 London Trust Media. All rights reserved.
//
import Foundation
// hex -> Data conversion code from: http://stackoverflow.com/questions/32231926/nsdata-from-hex-string
// Data -> hex conversion code from: http://stackoverflow.com/questions/39075043/how-to-convert-data-to-hex-string-in-swift
extension UnicodeScalar {
var hexNibble: UInt8 {
let value = self.value
if 48 <= value && value <= 57 {
return UInt8(value - 48)
}
else if 65 <= value && value <= 70 {
return UInt8(value - 55)
}
else if 97 <= value && value <= 102 {
return UInt8(value - 87)
}
fatalError("\(self) not a legal hex nibble")
}
}
extension Data {
init(hex: String) {
let scalars = hex.unicodeScalars
var bytes = Array<UInt8>(repeating: 0, count: (scalars.count + 1) >> 1)
for (index, scalar) in scalars.enumerated() {
var nibble = scalar.hexNibble
if index & 1 == 0 {
nibble <<= 4
}
bytes[index >> 1] |= nibble
}
self = Data(bytes: bytes)
}
func toHex() -> String {
return map { String(format: "%02hhx", $0) }.joined()
}
mutating func zero() {
resetBytes(in: 0..<count)
}
mutating func zero(from: Int, to: Int) {
resetBytes(in: from..<to)
}
}
extension Data {
mutating func append(_ value: UInt16) {
var localValue = value
let buffer = UnsafeBufferPointer(start: &localValue, count: 1)
append(buffer)
}
mutating func append(_ value: UInt32) {
var localValue = value
let buffer = UnsafeBufferPointer(start: &localValue, count: 1)
append(buffer)
}
mutating func append(_ value: UInt64) {
var localValue = value
let buffer = UnsafeBufferPointer(start: &localValue, count: 1)
append(buffer)
}
mutating func append(nullTerminatedString: String) {
append(nullTerminatedString.data(using: .ascii)!)
append(UInt8(0))
}
func nullTerminatedString(from: Int) -> String? {
var nullOffset: Int?
for i in from..<count {
if (self[i] == 0) {
nullOffset = i
break
}
}
guard let to = nullOffset else {
return nil
}
return String(data: subdata(in: from..<to), encoding: .ascii)
}
// best
func UInt16Value(from: Int) -> UInt16 {
var value: UInt16 = 0
for i in 0..<2 {
let byte = self[from + i]
// print("byte: \(String(format: "%x", byte))")
value |= (UInt16(byte) << UInt16(8 * i))
}
// print("value: \(String(format: "%x", value))")
return value
}
@available(*, deprecated)
func UInt16ValueFromPointers(from: Int) -> UInt16 {
return subdata(in: from..<(from + 2)).withUnsafeBytes { $0.pointee }
}
@available(*, deprecated)
func UInt16ValueFromReboundPointers(from: Int) -> UInt16 {
let data = subdata(in: from..<(from + 2))
// print("data: \(data.toHex())")
let value = data.withUnsafeBytes { (bytes: UnsafePointer<UInt8>) -> UInt16 in
bytes.withMemoryRebound(to: UInt16.self, capacity: 1) {
$0.pointee
}
}
// print("value: \(String(format: "%x", value))")
return value
}
@available(*, deprecated)
func UInt32ValueFromBuffer(from: Int) -> UInt32 {
var value: UInt32 = 0
for i in 0..<4 {
let byte = self[from + i]
// print("byte: \(String(format: "%x", byte))")
value |= (UInt32(byte) << UInt32(8 * i))
}
// print("value: \(String(format: "%x", value))")
return value
}
// best
func UInt32Value(from: Int) -> UInt32 {
return subdata(in: from..<(from + 4)).withUnsafeBytes { $0.pointee }
}
@available(*, deprecated)
func UInt32ValueFromReboundPointers(from: Int) -> UInt32 {
let data = subdata(in: from..<(from + 4))
// print("data: \(data.toHex())")
let value = data.withUnsafeBytes { (bytes: UnsafePointer<UInt8>) -> UInt32 in
bytes.withMemoryRebound(to: UInt32.self, capacity: 1) {
$0.pointee
}
}
// print("value: \(String(format: "%x", value))")
return value
}
func networkUInt16Value(from: Int) -> UInt16 {
return UInt16(bigEndian: subdata(in: from..<(from + 2)).withUnsafeBytes {
$0.pointee
})
}
func networkUInt32Value(from: Int) -> UInt32 {
return UInt32(bigEndian: subdata(in: from..<(from + 4)).withUnsafeBytes {
$0.pointee
})
}
}
extension Data {
func subdata(offset: Int, count: Int) -> Data {
return subdata(in: offset..<(offset + count))
}
}
extension Array where Element == Data {
var flatCount: Int {
return map { $0.count }.reduce(0) { $0 + $1 }
}
}