Public Repository for the Magicbane Shadowbane Emulator
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package engine.util;
import java.util.*;
/*
* Author: https://github.com/peet/hashids.java
*/
public class Hasher {
private static final String DEFAULT_ALPHABET = "xcS4F6h89aUbideAI7tkynuopqrXCgTE5GBKHLMjfRsz";
private static final int[] PRIMES = {2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43};
private static final int[] SEPS_INDICES = {0, 4, 8, 12};
private String salt_ = "";
private String alphabet_ = "";
private int minHashLength_;
private ArrayList<Character> seps_ = new ArrayList<>();
private ArrayList<Character> guards_ = new ArrayList<>();
public Hasher() {
this("");
}
public Hasher(String salt) {
this(salt, 0);
}
public Hasher(String salt, int minHashLength) {
this(salt, minHashLength, DEFAULT_ALPHABET);
}
public Hasher(String salt, int minHashLength, String alphabet) {
if (alphabet == null || alphabet.trim().isEmpty()) {
throw new IllegalArgumentException("alphabet must not be empty");
}
if (salt != null) {
salt_ = salt;
}
if (minHashLength > 0) {
minHashLength_ = minHashLength;
}
alphabet_ = join(new LinkedHashSet<>(Arrays.asList(alphabet.split(""))), "");
if (alphabet_.length() < 4) {
throw new IllegalArgumentException("Alphabet must contain at least 4 unique characters.");
}
for (int prime : PRIMES) {
if (prime < alphabet_.length()) {
char c = alphabet_.charAt(prime - 1);
seps_.add(c);
alphabet_ = alphabet_.replace(c, ' ');
}
}
for (int index : SEPS_INDICES) {
if (index < seps_.size()) {
guards_.add(seps_.get(index));
seps_.remove(index);
}
}
alphabet_ = consistentShuffle(alphabet_.replaceAll(" ", ""), salt_);
}
private static String hash(long number, String alphabet) {
String hash = "";
while (number > 0) {
hash = alphabet.charAt((int) (number % alphabet.length())) + hash;
number /= alphabet.length();
}
return hash;
}
private static long unhash(String hash, String alphabet) {
int number = 0;
for (int i = 0; i < hash.length(); i++) {
int pos = alphabet.indexOf(hash.charAt(i));
number += pos * (int) Math.pow(alphabet.length(), hash.length() - i - 1);
}
return number;
}
private static String consistentShuffle(String alphabet, String salt) {
String ret = "";
if (!alphabet.isEmpty()) {
List<String> alphabetArray = charArrayToStringList(alphabet.toCharArray());
if (salt == null || salt.isEmpty()) {
salt = new String(new char[]{'\0'});
}
int[] sortingArray = new int[salt.length()];
for (int i = 0; i < salt.length(); i++) {
sortingArray[i] = salt.charAt(i);
}
for (int i = 0; i < sortingArray.length; i++) {
boolean add = true;
for (int k = i; k != sortingArray.length + i - 1; k++) {
int nextIndex = (k + 1) % sortingArray.length;
if (add) {
sortingArray[i] += sortingArray[nextIndex] + (k * i);
} else {
sortingArray[i] -= sortingArray[nextIndex];
}
add = !add;
}
sortingArray[i] = Math.abs(sortingArray[i]);
}
int i = 0;
while (alphabetArray.size() > 0) {
int pos = sortingArray[i];
if (pos >= alphabetArray.size()) {
pos %= alphabetArray.size();
}
ret += alphabetArray.get(pos);
alphabetArray.remove(pos);
i = ++i % sortingArray.length;
}
}
return ret;
}
public static String getVersion() {
return "0.1.4";
}
private static long[] longListToPrimitiveArray(List<Long> longs) {
long[] longArr = new long[longs.size()];
int i = 0;
for (long l : longs) {
longArr[i++] = l;
}
return longArr;
}
private static List<String> charArrayToStringList(char[] chars) {
ArrayList<String> list = new ArrayList<>(chars.length);
for (char c : chars) {
list.add(String.valueOf(c));
}
return list;
}
private static String join(long[] a, String delimiter) {
ArrayList<String> strList = new ArrayList<>(a.length);
for (long l : a) {
strList.add(String.valueOf(l));
}
return join(strList, delimiter);
}
private static String join(Collection<?> s, String delimiter) {
Iterator<?> iter = s.iterator();
if (iter.hasNext()) {
StringBuilder builder = new StringBuilder(s.size());
builder.append(iter.next());
while (iter.hasNext()) {
builder.append(delimiter);
builder.append(iter.next());
}
return builder.toString();
}
return "";
}
public static int SBStringHash(String toHash) {
byte[] hashArray = toHash.getBytes();
int hash = 0;
int shift = 0;
if (toHash.equals("SafeModeA"))
return -1661750486;
if (toHash.equals("SafeModeB"))
return -1661751254;
if (toHash.equals("INVIS-D"))
return -1661751254;
if (toHash.equals("SafeMode"))
return -1661750486;
if ((hashArray.length != 8 && hashArray.length != 7) || hashArray[3] != 45) {
hash = 0;
shift = 0;
for (int i = 0; i < hashArray.length; i++) {
if (i == 0)
shift = 0;
else
shift = shift + 5;
int toShift = hashArray[i] - 0x20;
hash ^= toShift << shift;
if (shift > 24) {
int newShift = 0x20 - shift;
hash ^= toShift >> newShift;
if (shift >= 27) {
shift = shift - 0x20;
}
}
}
return hash;
} else {
int ecx = 0;
if (hashArray.length == 8) {
ecx = hashArray[7];
}
int eax = hashArray[4];
int esi = ecx * 0x8;
eax = eax ^ esi;
ecx = ecx ^ 0x5A0;
esi = hashArray[5];
eax = eax << 4;
eax = eax ^ esi;
esi = hashArray[6];
eax = eax << 4;
eax = eax ^ esi;
esi = hashArray[2];
eax = eax << 5;
eax = eax ^ esi;
esi = hashArray[1];
int edx = hashArray[0];
eax = eax << 5;
eax = eax ^ esi;
ecx = ecx / 2;
ecx = ecx / 2;
eax = eax << 5;
ecx = ecx ^ edx;
eax = eax ^ ecx;
return eax;
}
}
public String encrypt(long... numbers) {
return encode(numbers, alphabet_, salt_, minHashLength_);
}
public long[] decrypt(String hash) {
return decode(hash);
}
private String encode(long[] numbers, String alphabet, String salt, int minHashLength) {
String ret = "";
String seps = consistentShuffle(join(seps_, ""), join(numbers, ""));
char lotteryChar = 0;
for (int i = 0; i < numbers.length; i++) {
if (i == 0) {
String lotterySalt = join(numbers, "-");
for (long number : numbers) {
lotterySalt += "-" + (number + 1) * 2;
}
String lottery = consistentShuffle(alphabet, lotterySalt);
lotteryChar = lottery.charAt(0);
ret += lotteryChar;
alphabet = lotteryChar + alphabet.replaceAll(String.valueOf(lotteryChar), "");
}
alphabet = consistentShuffle(alphabet, ((int) lotteryChar & 12345) + salt);
ret += hash(numbers[i], alphabet);
if (i + 1 < numbers.length) {
ret += seps.charAt((int) ((numbers[i] + i) % seps.length()));
}
}
if (ret.length() < minHashLength) {
int firstIndex = 0;
for (int i = 0; i < numbers.length; i++) {
firstIndex += (i + 1) * numbers[i];
}
int guardIndex = firstIndex % guards_.size();
char guard = guards_.get(guardIndex);
ret = guard + ret;
if (ret.length() < minHashLength) {
guardIndex = (guardIndex + ret.length()) % guards_.size();
guard = guards_.get(guardIndex);
ret += guard;
}
}
while (ret.length() < minHashLength) {
long[] padArray = new long[]{alphabet.charAt(1), alphabet.charAt(0)};
String padLeft = encode(padArray, alphabet, salt, 0);
String padRight = encode(padArray, alphabet, join(padArray, ""), 0);
ret = padLeft + ret + padRight;
int excess = ret.length() - minHashLength;
if (excess > 0) {
ret = ret.substring(excess / 2, excess / 2 + minHashLength);
}
alphabet = consistentShuffle(alphabet, salt + ret);
}
return ret;
}
private long[] decode(String hash) {
List<Long> ret = new ArrayList<>();
String originalHash = hash;
if (hash != null && !hash.isEmpty()) {
String alphabet = "";
char lotteryChar = 0;
for (char guard : guards_) {
hash = hash.replaceAll(String.valueOf(guard), " ");
}
String[] hashSplit = hash.split(" ");
hash = hashSplit[hashSplit.length == 3 || hashSplit.length == 2 ? 1 : 0];
for (char sep : seps_) {
hash = hash.replaceAll(String.valueOf(sep), " ");
}
String[] hashArray = hash.split(" ");
for (int i = 0; i < hashArray.length; i++) {
String subHash = hashArray[i];
if (subHash != null && !subHash.isEmpty()) {
if (i == 0) {
lotteryChar = hash.charAt(0);
subHash = subHash.substring(1);
alphabet = lotteryChar + alphabet_.replaceAll(String.valueOf(lotteryChar), "");
}
}
if (alphabet.length() > 0) {
alphabet = consistentShuffle(alphabet, ((int) lotteryChar & 12345) + salt_);
ret.add(unhash(subHash, alphabet));
}
}
}
long[] numbers = longListToPrimitiveArray(ret);
if (!encrypt(numbers).equals(originalHash)) {
return new long[0];
}
return numbers;
}
public String getSalt() {
return salt_;
}
public String getAlphabet() {
return alphabet_;
}
public int getMinHashLength() {
return minHashLength_;
}
}