/* * Copyright © 2017-2019 WireGuard LLC. All Rights Reserved. * SPDX-License-Identifier: Apache-2.0 */ package com.wireguard.crypto; import com.wireguard.crypto.KeyFormatException.Type; import java.security.SecureRandom; import java.util.Arrays; /** * Represents a WireGuard public or private key. This class uses specialized constant-time base64 * and hexadecimal codec implementations that resist side-channel attacks. *
* Instances of this class are immutable. */ @SuppressWarnings("MagicNumber") public final class Key { private final byte[] key; /** * Constructs an object encapsulating the supplied key. * * @param key an array of bytes containing a binary key. Callers of this constructor are * responsible for ensuring that the array is of the correct length. */ private Key(final byte[] key) { // Defensively copy to ensure immutability. this.key = Arrays.copyOf(key, key.length); } /** * Decodes a single 4-character base64 chunk to an integer in constant time. * * @param src an array of at least 4 characters in base64 format * @param srcOffset the offset of the beginning of the chunk in {@code src} * @return the decoded 3-byte integer, or some arbitrary integer value if the input was not * valid base64 */ private static int decodeBase64(final char[] src, final int srcOffset) { int val = 0; for (int i = 0; i < 4; ++i) { final char c = src[i + srcOffset]; val |= (-1 + ((((('A' - 1) - c) & (c - ('Z' + 1))) >>> 8) & (c - 64)) + ((((('a' - 1) - c) & (c - ('z' + 1))) >>> 8) & (c - 70)) + ((((('0' - 1) - c) & (c - ('9' + 1))) >>> 8) & (c + 5)) + ((((('+' - 1) - c) & (c - ('+' + 1))) >>> 8) & 63) + ((((('/' - 1) - c) & (c - ('/' + 1))) >>> 8) & 64) ) << (18 - 6 * i); } return val; } /** * Encodes a single 4-character base64 chunk from 3 consecutive bytes in constant time. * * @param src an array of at least 3 bytes * @param srcOffset the offset of the beginning of the chunk in {@code src} * @param dest an array of at least 4 characters * @param destOffset the offset of the beginning of the chunk in {@code dest} */ private static void encodeBase64(final byte[] src, final int srcOffset, final char[] dest, final int destOffset) { final byte[] input = { (byte) ((src[srcOffset] >>> 2) & 63), (byte) ((src[srcOffset] << 4 | ((src[1 + srcOffset] & 0xff) >>> 4)) & 63), (byte) ((src[1 + srcOffset] << 2 | ((src[2 + srcOffset] & 0xff) >>> 6)) & 63), (byte) ((src[2 + srcOffset]) & 63), }; for (int i = 0; i < 4; ++i) { dest[i + destOffset] = (char) (input[i] + 'A' + (((25 - input[i]) >>> 8) & 6) - (((51 - input[i]) >>> 8) & 75) - (((61 - input[i]) >>> 8) & 15) + (((62 - input[i]) >>> 8) & 3)); } } /** * Decodes a WireGuard public or private key from its base64 string representation. This * function throws a {@link KeyFormatException} if the source string is not well-formed. * * @param str the base64 string representation of a WireGuard key * @return the decoded key encapsulated in an immutable container */ public static Key fromBase64(final String str) throws KeyFormatException { final char[] input = str.toCharArray(); if (input.length != Format.BASE64.length || input[Format.BASE64.length - 1] != '=') throw new KeyFormatException(Format.BASE64, Type.LENGTH); final byte[] key = new byte[Format.BINARY.length]; int i; int ret = 0; for (i = 0; i < key.length / 3; ++i) { final int val = decodeBase64(input, i * 4); ret |= val >>> 31; key[i * 3] = (byte) ((val >>> 16) & 0xff); key[i * 3 + 1] = (byte) ((val >>> 8) & 0xff); key[i * 3 + 2] = (byte) (val & 0xff); } final char[] endSegment = { input[i * 4], input[i * 4 + 1], input[i * 4 + 2], 'A', }; final int val = decodeBase64(endSegment, 0); ret |= (val >>> 31) | (val & 0xff); key[i * 3] = (byte) ((val >>> 16) & 0xff); key[i * 3 + 1] = (byte) ((val >>> 8) & 0xff); if (ret != 0) throw new KeyFormatException(Format.BASE64, Type.CONTENTS); return new Key(key); } /** * Wraps a WireGuard public or private key in an immutable container. This function throws a * {@link KeyFormatException} if the source data is not the correct length. * * @param bytes an array of bytes containing a WireGuard key in binary format * @return the key encapsulated in an immutable container */ public static Key fromBytes(final byte[] bytes) throws KeyFormatException { if (bytes.length != Format.BINARY.length) throw new KeyFormatException(Format.BINARY, Type.LENGTH); return new Key(bytes); } /** * Decodes a WireGuard public or private key from its hexadecimal string representation. This * function throws a {@link KeyFormatException} if the source string is not well-formed. * * @param str the hexadecimal string representation of a WireGuard key * @return the decoded key encapsulated in an immutable container */ public static Key fromHex(final String str) throws KeyFormatException { final char[] input = str.toCharArray(); if (input.length != Format.HEX.length) throw new KeyFormatException(Format.HEX, Type.LENGTH); final byte[] key = new byte[Format.BINARY.length]; int ret = 0; for (int i = 0; i < key.length; ++i) { int c; int cNum; int cNum0; int cAlpha; int cAlpha0; int cVal; final int cAcc; c = input[i * 2]; cNum = c ^ 48; cNum0 = ((cNum - 10) >>> 8) & 0xff; cAlpha = (c & ~32) - 55; cAlpha0 = (((cAlpha - 10) ^ (cAlpha - 16)) >>> 8) & 0xff; ret |= ((cNum0 | cAlpha0) - 1) >>> 8; cVal = (cNum0 & cNum) | (cAlpha0 & cAlpha); cAcc = cVal * 16; c = input[i * 2 + 1]; cNum = c ^ 48; cNum0 = ((cNum - 10) >>> 8) & 0xff; cAlpha = (c & ~32) - 55; cAlpha0 = (((cAlpha - 10) ^ (cAlpha - 16)) >>> 8) & 0xff; ret |= ((cNum0 | cAlpha0) - 1) >>> 8; cVal = (cNum0 & cNum) | (cAlpha0 & cAlpha); key[i] = (byte) (cAcc | cVal); } if (ret != 0) throw new KeyFormatException(Format.HEX, Type.CONTENTS); return new Key(key); } /** * Generates a private key using the system's {@link SecureRandom} number generator. * * @return a well-formed random private key */ static Key generatePrivateKey() { final SecureRandom secureRandom = new SecureRandom(); final byte[] privateKey = new byte[Format.BINARY.getLength()]; secureRandom.nextBytes(privateKey); privateKey[0] &= 248; privateKey[31] &= 127; privateKey[31] |= 64; return new Key(privateKey); } /** * Generates a public key from an existing private key. * * @param privateKey a private key * @return a well-formed public key that corresponds to the supplied private key */ static Key generatePublicKey(final Key privateKey) { final byte[] publicKey = new byte[Format.BINARY.getLength()]; Curve25519.eval(publicKey, 0, privateKey.getBytes(), null); return new Key(publicKey); } /** * Returns the key as an array of bytes. * * @return an array of bytes containing the raw binary key */ public byte[] getBytes() { // Defensively copy to ensure immutability. return Arrays.copyOf(key, key.length); } /** * Encodes the key to base64. * * @return a string containing the encoded key */ public String toBase64() { final char[] output = new char[Format.BASE64.length]; int i; for (i = 0; i < key.length / 3; ++i) encodeBase64(key, i * 3, output, i * 4); final byte[] endSegment = { key[i * 3], key[i * 3 + 1], 0, }; encodeBase64(endSegment, 0, output, i * 4); output[Format.BASE64.length - 1] = '='; return new String(output); } /** * Encodes the key to hexadecimal ASCII characters. * * @return a string containing the encoded key */ public String toHex() { final char[] output = new char[Format.HEX.length]; for (int i = 0; i < key.length; ++i) { output[i * 2] = (char) (87 + (key[i] >> 4 & 0xf) + ((((key[i] >> 4 & 0xf) - 10) >> 8) & ~38)); output[i * 2 + 1] = (char) (87 + (key[i] & 0xf) + ((((key[i] & 0xf) - 10) >> 8) & ~38)); } return new String(output); } /** * The supported formats for encoding a WireGuard key. */ public enum Format { BASE64(44), BINARY(32), HEX(64); private final int length; Format(final int length) { this.length = length; } public int getLength() { return length; } } }