package com.planet_ink.coffee_mud.Libraries; import java.nio.ByteBuffer; import java.util.Enumeration; import java.util.zip.Deflater; import java.util.zip.Inflater; import java.net.NetworkInterface; import com.planet_ink.coffee_mud.Libraries.interfaces.TextEncoders; import com.planet_ink.coffee_mud.core.B64Encoder; import com.planet_ink.coffee_mud.core.CMLib; import com.planet_ink.coffee_mud.core.CMProps; import com.planet_ink.coffee_mud.core.CMath; import com.planet_ink.coffee_mud.core.Log; /* Copyright 2005-2019 Bo Zimmerman Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ public class CMEncoder extends StdLibrary implements TextEncoders { @Override public String ID() { return "CMEncoder"; } private byte[] encodeBuffer = new byte[65536]; private final Deflater compresser = new Deflater(Deflater.BEST_COMPRESSION); private final Inflater decompresser = new Inflater(); protected static byte[] encrFilter = null; public CMEncoder() { super(); } @Override public synchronized String decompressString(final byte[] b) { try { if ((b == null)||(b.length==0)) return ""; decompresser.reset(); decompresser.setInput(b); synchronized (encodeBuffer) { final int len = decompresser.inflate(encodeBuffer); return new String(encodeBuffer, 0, len, CMProps.getVar(CMProps.Str.CHARSETINPUT)); } } catch (final Exception ex) { Log.errOut(Thread.currentThread().getName(), "Error occurred during decompression: "+ex.getMessage()); encodeBuffer=new byte[65536]; return ""; } } @Override public synchronized byte[] compressString(final String s) { byte[] result = null; try { compresser.reset(); compresser.setInput(s.getBytes(CMProps.getVar(CMProps.Str.CHARSETINPUT))); compresser.finish(); synchronized (encodeBuffer) { if(s.length()>encodeBuffer.length) encodeBuffer=new byte[s.length()]; encodeBuffer[0]=0; final int len = compresser.deflate(encodeBuffer); result = new byte[len]; System.arraycopy(encodeBuffer, 0, result, 0, len); } } catch (final Exception ex) { Log.errOut("MUD", "Error occurred during compression: "+ex.getMessage()); encodeBuffer=new byte[65536]; } return result; } @Override public String makeRandomHashString(final String password) { final int salt=(int)Math.round(CMath.random() * Integer.MAX_VALUE); final int passHash=(password+salt).toLowerCase().hashCode(); return "|"+B64Encoder.B64encodeBytes(ByteBuffer.allocate(4).putInt(salt).array()) +"|"+B64Encoder.B64encodeBytes(ByteBuffer.allocate(4).putInt(passHash).array()); } @Override public String makeRepeatableHashString(final String str) { final int passHash=str.toLowerCase().hashCode(); return "|"+B64Encoder.B64encodeBytes(enDeCrypt(ByteBuffer.allocate(4).putInt(passHash).array())); } @Override public boolean isARandomHashString(final String password) { return ((password.length()>2) && (password.startsWith("|")) && (password.indexOf('|',1)>1)); } @Override public boolean checkPasswordAgainstRandomHashString(final String passwordString, final String hashString) { final int hashDex=hashString.indexOf('|',1); final int salt=ByteBuffer.wrap(B64Encoder.B64decode(hashString.substring(1,hashDex))).getInt(); final int hash=ByteBuffer.wrap(B64Encoder.B64decode(hashString.substring(hashDex+1))).getInt(); return hash==(passwordString+salt).toLowerCase().hashCode(); } @Override public boolean checkHashStringPairs(final String hashString1, final String hashString2) { final int hashDex1=hashString1.indexOf('|',1); final int salt1=ByteBuffer.wrap(B64Encoder.B64decode(hashString1.substring(1,hashDex1))).getInt(); final int hash1=ByteBuffer.wrap(B64Encoder.B64decode(hashString1.substring(hashDex1+1))).getInt(); final int hashDex2=hashString2.indexOf('|',1); final int salt2=ByteBuffer.wrap(B64Encoder.B64decode(hashString2.substring(1,hashDex2))).getInt(); final int hash2=ByteBuffer.wrap(B64Encoder.B64decode(hashString2.substring(hashDex2+1))).getInt(); return (hash1==(hashString2+salt1).toLowerCase().hashCode()) || (hash2==(hashString1+salt2).toLowerCase().hashCode()); } @Override public String generateRandomPassword() { final StringBuilder str=new StringBuilder(""); for(int i=0;i<10;i++) { if((i%2)==0) str.append(CMLib.dice().roll(1, 10, -1)); else str.append((char)('a'+CMLib.dice().roll(1, 26, -1))); } return str.toString(); } @Override public boolean passwordCheck(final String pass1, final String pass2) { if(pass1 == null) { return (pass2==null); } else if(pass2 == null) return false; if(pass1.equalsIgnoreCase(pass2)) return true; if(isARandomHashString(pass2)) { if(isARandomHashString(pass1)) return checkHashStringPairs(pass1,pass2); else return checkPasswordAgainstRandomHashString(pass1, pass2); } else { if(isARandomHashString(pass1)) return checkPasswordAgainstRandomHashString(pass2, pass1); return pass1.equalsIgnoreCase(pass2); } } public static byte[] getFilter() { if(encrFilter==null) { // this is coffeemud's unsophisticated xor(mac address) encryption system. final byte[] filterc = new String("wrinkletellmetrueisthereanythingasnastyasyouwellmaybesothenumber7470issprettybad").getBytes(); encrFilter=new byte[256]; try { for(int i=0;i<256;i++) encrFilter[i]=filterc[i % filterc.length]; final String domain=CMProps.getVar(CMProps.Str.MUDDOMAIN); if(domain.length()>0) { for(int i=0;i<256;i++) encrFilter[i]^=domain.charAt(i % domain.length()); } final String name=CMProps.getVar(CMProps.Str.MUDNAME); if(name.length()>0) { for(int i=0;i<256;i++) encrFilter[i]^=name.charAt(i % name.length()); } final String email=CMProps.getVar(CMProps.Str.ADMINEMAIL); if(email.length()>0) { for(int i=0;i<256;i++) encrFilter[i]^=email.charAt(i % email.length()); } for(final Enumeration<NetworkInterface> nie = NetworkInterface.getNetworkInterfaces(); nie.hasMoreElements();) { final NetworkInterface ni = nie.nextElement(); if(ni != null) { final byte[] mac = ni.getHardwareAddress(); if((mac != null) && (mac.length > 0)) { for(int i=0;i<256;i++) encrFilter[i]^=Math.abs(mac[i % mac.length]); } } } } catch(final Exception e) { e.printStackTrace(); } } return encrFilter; } protected byte[] enDeCrypt(final byte[] bytes) { final byte[] encrFilter=getFilter(); for ( int i = 0, j = 0; i < bytes.length; i++, j++ ) { if ( j >= encrFilter.length ) j = 0; bytes[i]=(byte)((bytes[i] ^ encrFilter[j]) & 0xff); } return bytes; } @Override public String filterEncrypt(final String str) { try { final byte[] buf=B64Encoder.B64encodeBytes(enDeCrypt(str.getBytes()),B64Encoder.DONT_BREAK_LINES).getBytes(); final StringBuilder s=new StringBuilder(""); for(final byte b : buf) { String s2=Integer.toHexString(b); while(s2.length()<2) s2="0"+s2; s.append(s2); } return s.toString(); } catch(final Exception e) { return ""; } } @Override public String filterDecrypt(final String str) { try { final byte[] buf=new byte[str.length()/2]; for(int i=0;i<str.length();i+=2) buf[i/2]=(byte)(Integer.parseInt(str.substring(i,i+2),16) & 0xff); return new String(enDeCrypt(B64Encoder.B64decode(new String(buf)))); } catch(final Exception e) { return ""; } } }