// crypt.java
// -------------------------------------
// (C) by Michael Peter Christen; mc@anomic.de
// first published on http://www.anomic.de
// Frankfurt, Germany, 2004
// last major change: 13.05.2004
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation; either version 2 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
//
// Using this software in any meaning (reading, learning, copying, compiling,
// running) means that you agree that the Author(s) is (are) not responsible
// for cost, loss of data or any harm that may be caused directly or indirectly
// by usage of this softare or this documentation. The usage of this software
// is on your own risk. The installation and usage (starting/running) of this
// software may allow other people or application to access your computer and
// any attached devices and is highly dependent on the configuration of the
// software which must be done by the user of the software; the author(s) is
// (are) also not responsible for proper configuration and usage of the
// software, even if provoked by documentation provided together with
// the software.
//
// Any changes to this file according to the GPL as documented in the file
// gpl.txt aside this file in the shipment you received can be done to the
// lines that follows this copyright notice here, but changes must not be
// done inside the copyright notive above. A re-distribution must contain
// the intact and unchanged copyright notice.
// Contributions and changes to the program code must be marked as such.
package de.anomic.tools ;
import java.io.BufferedInputStream ;
import java.io.BufferedOutputStream ;
import java.io.File ;
import java.io.FileInputStream ;
import java.io.FileNotFoundException ;
import java.io.FileOutputStream ;
import java.io.IOException ;
import java.io.InputStream ;
import java.io.OutputStream ;
import java.io.UnsupportedEncodingException ;
import java.security.Provider ;
import java.security.Security ;
import java.text.ParsePosition ;
import java.text.SimpleDateFormat ;
import java.util.Date ;
import java.util.HashSet ;
import java.util.Iterator ;
import java.util.Locale ;
import java.util.Random ;
import java.util.Set ;
import javax.crypto.BadPaddingException ;
import javax.crypto.Cipher ;
import javax.crypto.CipherInputStream ;
import javax.crypto.CipherOutputStream ;
import javax.crypto.IllegalBlockSizeException ;
import javax.crypto.SecretKey ;
import javax.crypto.SecretKeyFactory ;
import javax.crypto.spec.PBEKeySpec ;
import javax.crypto.spec.PBEParameterSpec ;
import de.anomic.kelondro.kelondroBase64Order ;
import de.anomic.server.serverCodings ;
public class cryptbig {
// --------------------------------------------------------
// Section: random salt generation
// --------------------------------------------------------
private static long saltcounter = 0 ;
private static Random saltrandom = new Random ( System . currentTimeMillis ( ) ) ;
public static String randomSalt ( ) {
// generate robust 48-bit random number
long salt = ( saltrandom . nextLong ( ) & 0XffffffffffffL ) + ( System . currentTimeMillis ( ) & 0XffffffffffffL ) + ( ( 1001 * saltcounter ) & 0XffffffffffffL ) ;
saltcounter + + ;
// we generate 48-bit salt values, that are represented as 8-character
// b64-encoded strings
return kelondroBase64Order . standardCoder . encodeLong ( salt & 0XffffffffffffL , 8 ) ;
}
// --------------------------------------------------------
// Section: PBE + PublicKey based on passwords encryption
// --------------------------------------------------------
public static final String vDATE = "20030925" ;
public static final String copyright = "[ 'crypt' v" + vDATE + " by Michael Christen / www.anomic.de ]" ;
public static final String magicString = "crypt|anomic.de|0" ; // magic identifier inside every '.crypt' - file
public static final SimpleDateFormat dateFormatter = new SimpleDateFormat ( "yyyyMMddHHmmssSSS" , Locale . ENGLISH ) ;
String cryptMethod ; // one of ["TripleDES", "Blowfish", "DESede", "DES"]
private static final String defaultMethod = "PBEWithMD5AndDES" ; //"DES";
Cipher ecipher ;
Cipher dcipher ;
public cryptbig ( String pbe ) {
// this is possible, but not recommended
this ( pbe , ( pbe + "XXXXXXXX" ) . substring ( 0 , 8 ) ) ;
}
public cryptbig ( String pbe , String salt ) {
this ( pbe , salt , defaultMethod ) ;
}
private cryptbig ( String pbe , String salt , String method ) {
// a Password-Based Encryption. The SecretKey is created on the fly
PBEKeySpec keySpec = new PBEKeySpec ( pbe . toCharArray ( ) ) ;
try {
if ( salt . length ( ) > 8 ) salt = salt . substring ( 0 , 8 ) ;
if ( salt . length ( ) < 8 ) salt = ( salt + "XXXXXXXX" ) . substring ( 0 , 8 ) ;
// create the PBE key
SecretKeyFactory keyFactory = SecretKeyFactory . getInstance ( method ) ;
SecretKey key = keyFactory . generateSecret ( keySpec ) ;
// create parameter spec for PBE
PBEParameterSpec paramSpec = new PBEParameterSpec ( salt . getBytes ( ) , 1000 /*ITERATIONS*/ ) ;
// Create a cipher and initialize it for encrypting end decrypting
cryptMethod = method ;
ecipher = Cipher . getInstance ( cryptMethod ) ;
dcipher = Cipher . getInstance ( cryptMethod ) ;
ecipher . init ( Cipher . ENCRYPT_MODE , key , paramSpec ) ; // paramSpec only for PBE!
dcipher . init ( Cipher . DECRYPT_MODE , key , paramSpec ) ;
} catch ( javax . crypto . NoSuchPaddingException e ) {
} catch ( java . security . InvalidKeyException e ) {
} catch ( java . security . NoSuchAlgorithmException e ) {
} catch ( java . security . spec . InvalidKeySpecException e ) {
} catch ( java . security . InvalidAlgorithmParameterException e ) {
}
}
// Encode a string into a new string using utf-8, crypt and b64
public String encryptString ( String str ) {
try {
byte [ ] utf = str . getBytes ( "UTF8" ) ;
byte [ ] enc = encryptArray ( utf ) ;
if ( enc = = null ) return null ;
return kelondroBase64Order . standardCoder . encode ( enc ) ;
} catch ( UnsupportedEncodingException e ) {
}
return null ;
}
// Decode a string into a new string using b64, crypt and utf-8
public String decryptString ( String str ) {
try {
byte [ ] b64dec = kelondroBase64Order . standardCoder . decode ( str ) ;
if ( b64dec = = null ) return null ; // error in input string (inconsistency)
byte [ ] dec = decryptArray ( b64dec ) ;
if ( dec = = null ) return null ;
return new String ( dec , "UTF8" ) ;
} catch ( UnsupportedEncodingException e ) {
}
return null ;
}
// Encode a byte array into a new byte array
public byte [ ] encryptArray ( byte [ ] b ) {
if ( b = = null ) return null ;
try {
return ecipher . doFinal ( b ) ;
} catch ( javax . crypto . BadPaddingException e ) {
} catch ( IllegalBlockSizeException e ) {
}
return null ;
}
// Decode a string into a new string using b64, crypt and utf-8
public byte [ ] decryptArray ( byte [ ] b ) {
if ( b = = null ) return null ;
try {
return dcipher . doFinal ( b ) ;
} catch ( javax . crypto . BadPaddingException e ) {
} catch ( IllegalBlockSizeException e ) {
}
return null ;
}
// This method returns the available implementations for a service type
public static Set listCryptoMethods ( String serviceType ) {
Set result = new HashSet ( ) ;
// All providers
Provider [ ] providers = Security . getProviders ( ) ;
for ( int i = 0 ; i < providers . length ; i + + ) {
// Get services provided by each provider
Set keys = providers [ i ] . keySet ( ) ;
for ( Iterator it = keys . iterator ( ) ; it . hasNext ( ) ; ) {
String key = ( String ) it . next ( ) ;
key = key . split ( " " ) [ 0 ] ;
if ( key . startsWith ( serviceType + "." ) ) {
result . add ( key . substring ( serviceType . length ( ) + 1 ) ) ;
} else if ( key . startsWith ( "Alg.Alias." + serviceType + "." ) ) {
// This is an alias
result . add ( key . substring ( serviceType . length ( ) + 11 ) ) ;
}
}
}
return result ;
}
public static void testCryptMethods ( Set methods ) {
String method ;
Iterator i = methods . iterator ( ) ;
while ( i . hasNext ( ) ) {
method = ( String ) i . next ( ) ;
System . out . print ( method + " : " ) ;
try {
cryptbig crypter = new cryptbig ( "abrakadabra" , method ) ;
String encrypted = crypter . encryptString ( "nicht verraten abc 1234567890" ) ;
System . out . print ( encrypted + "/" ) ;
String decrypted = crypter . decryptString ( encrypted ) ;
System . out . println ( decrypted ) ;
} catch ( Exception e ) {
System . out . println ( "Exception: " + e . getMessage ( ) ) ;
e . printStackTrace ( ) ;
}
}
}
public void encryptFile ( String inFileName , String outFileName , boolean compress ) {
/ *
File - Format of encrypted file :
Filename : b64 - of - encryption - of - < encryption - date : YYYYMMddHHmmSSsss > plus extension ".crypt"
File Content :
< original file name >
< original file date >
< original file size >
< compressed - before - encryption - flag >
< compressed - after - encryption - flag >
< binary >
* /
try {
File inFile = new File ( inFileName ) ;
String inFileDate = dateFormatter . format ( new Date ( inFile . lastModified ( ) ) ) ; // 17 byte
String encryptionDate = dateFormatter . format ( new Date ( ) ) ; // 17 byte
String inFileSize = kelondroBase64Order . standardCoder . encodeLong ( inFile . length ( ) , 11 ) ; // 64 / 6 = 11; 11 byte
String flag = "1" ; // 1 byte
//int inFileNameLength = inFileName.length(); // 256
String X = inFileDate + encryptionDate + inFileSize + flag + inFileName ;
System . out . println ( "TEST: preserving inFileDate : " + dateFormatter . parse ( inFileDate , new ParsePosition ( 0 ) ) ) ;
System . out . println ( "TEST: preserving encryptionDate: " + dateFormatter . parse ( encryptionDate , new ParsePosition ( 0 ) ) ) ;
System . out . println ( "TEST: preserving inFileLength : " + inFile . length ( ) ) ;
System . out . println ( "TEST: preserving flag : " + flag ) ;
System . out . println ( "TEST: preserving inFileName : " + inFileName ) ;
System . out . println ( "TEST: preserving X-String : " + X ) ;
// start encryption
InputStream fin = new CipherInputStream ( new FileInputStream ( inFile ) , ecipher ) ;
OutputStream fout = new FileOutputStream ( outFileName ) ;
// write magic and properties of original file
// - we encrypt the original date, the encryption date, the file size, the flag
// and file name together to the string A and calculate the length AL of that string
// - the length of the file name is therefore equal to AL-(17+17+11+1) = AL-46
// - AL is then b64-ed and also encrypted which results into string B
// - the length of B is BL; BL is then b64-ed to a string C of fixed length 1
// - after the magic String we write C, B and A
try {
String A = new String ( ecipher . doFinal ( X . getBytes ( "UTF8" ) ) ) ;
String B = new String ( ecipher . doFinal ( kelondroBase64Order . standardCoder . encodeLong ( A . length ( ) , 2 ) . getBytes ( "UTF8" ) ) ) ; // most probable not longer than 4
String C = kelondroBase64Order . standardCoder . encodeLong ( B . length ( ) , 1 ) ; // fixed length 1 (6 bits, that should be enough)
fout . write ( magicString . getBytes ( ) ) ; // the magic string, used to identify a 'crypt'-file
fout . write ( C . getBytes ( ) ) ;
fout . write ( B . getBytes ( ) ) ;
fout . write ( A . getBytes ( ) ) ;
// write content of file
copy ( fout , fin , 512 ) ;
}
catch ( javax . crypto . IllegalBlockSizeException e ) { System . err . println ( "ERROR:" + e . getMessage ( ) ) ; }
catch ( javax . crypto . BadPaddingException e ) { System . err . println ( "ERROR:" + e . getMessage ( ) ) ; }
// finished files
fin . close ( ) ;
fout . close ( ) ;
} catch ( FileNotFoundException e ) {
System . err . println ( "ERROR: file '" + inFileName + "' not found" ) ;
} catch ( IOException e ) {
System . err . println ( "ERROR: IO trouble" ) ;
}
}
public void decryptFile ( String inFileName , String outFileName ) {
InputStream fin = null ;
OutputStream fout = null ;
try {
// Start opening the files
fin = new BufferedInputStream ( new FileInputStream ( inFileName ) , 4096 ) ;
// read the file properties
byte [ ] thisMagic = new byte [ magicString . length ( ) ] ; fin . read ( thisMagic ) ;
if ( ! ( ( new String ( thisMagic ) ) . equals ( magicString ) ) ) {
// this is not an crypt file, so dont do anything
fin . close ( ) ;
return ;
}
byte [ ] C = new byte [ 1 ] ; fin . read ( C ) ; // the length of the following String, encoded as b64
byte [ ] B = new byte [ ( int ) kelondroBase64Order . standardCoder . decodeLong ( new String ( C ) ) ] ; fin . read ( B ) ; // this is again the length of the following string, as encrypted b64-ed integer
byte [ ] A = new byte [ ( int ) kelondroBase64Order . standardCoder . decodeLong ( new String ( dcipher . doFinal ( B ) , "UTF8" ) ) ] ; fin . read ( A ) ;
String X = new String ( dcipher . doFinal ( A ) , "UTF8" ) ;
System . out . println ( "TEST: detecting X-String : " + X ) ;
// reconstruct the properties
Date inFileDate = dateFormatter . parse ( X . substring ( 0 , 17 ) , new ParsePosition ( 0 ) ) ;
Date encryptionDate = dateFormatter . parse ( X . substring ( 17 , 34 ) , new ParsePosition ( 0 ) ) ;
long inFileSize = kelondroBase64Order . standardCoder . decodeLong ( X . substring ( 34 , 45 ) ) ;
String flag = X . substring ( 45 , 46 ) ;
String origFileName = X . substring ( 46 ) ;
System . out . println ( "TEST: detecting inFileDate : " + inFileDate ) ;
System . out . println ( "TEST: detecting encryptionDate: " + encryptionDate ) ;
System . out . println ( "TEST: detecting inFileLength : " + inFileSize ) ;
System . out . println ( "TEST: detecting flag : " + flag ) ;
System . out . println ( "TEST: detecting inFileName : " + origFileName ) ;
// open the output file
fout = new BufferedOutputStream ( new CipherOutputStream ( new FileOutputStream ( outFileName ) , dcipher ) , 4096 ) ;
// read and decrypt the file
copy ( fout , fin , 512 ) ;
// close the files
fin . close ( ) ;
fout . close ( ) ;
// do postprocessing
} catch ( BadPaddingException e ) {
System . err . println ( "ERROR: decryption of '" + inFileName + "' not possible: " + e . getMessage ( ) ) ;
} catch ( IllegalBlockSizeException e ) {
System . err . println ( "ERROR: decryption of '" + inFileName + "' not possible: " + e . getMessage ( ) ) ;
} catch ( FileNotFoundException e ) {
System . err . println ( "ERROR: file '" + inFileName + "' not found" ) ;
} catch ( IOException e ) {
System . err . println ( "ERROR: IO trouble" ) ;
try { fin . close ( ) ; fout . close ( ) ; } catch ( Exception ee ) { }
}
}
private static void copy ( OutputStream out , InputStream in , int bufferSize ) throws IOException {
InputStream bIn = new BufferedInputStream ( in , bufferSize ) ;
OutputStream bOut = new BufferedOutputStream ( out , bufferSize ) ;
byte [ ] buf = new byte [ bufferSize ] ;
int n ;
while ( ( n = bIn . read ( buf ) ) > 0 ) bOut . write ( buf , 0 , n ) ;
bIn . close ( ) ;
bOut . close ( ) ;
}
public static String scrambleString ( String key , String s ) {
// we perform several operations
// - generate salt
// - gzip string
// - crypt string with key and salt
// - base64-encode result
// - attach salt and return
String salt = randomSalt ( ) ;
//System.out.println("Salt=" + salt);
cryptbig c = new cryptbig ( key , salt ) ;
boolean gzFlag = true ;
byte [ ] gz = gzip . gzipString ( s ) ;
if ( gz . length > s . length ( ) ) {
// revert compression
try {
gz = s . getBytes ( "UTF8" ) ;
gzFlag = false ;
} catch ( UnsupportedEncodingException e ) {
return null ;
}
}
//System.out.println("GZIP length=" + gz.length);
if ( gz = = null ) return null ;
byte [ ] enc = c . encryptArray ( gz ) ;
if ( enc = = null ) return null ;
return salt + ( ( gzFlag ) ? "1" : "0" ) + kelondroBase64Order . enhancedCoder . encode ( enc ) ;
}
public static String descrambleString ( String key , String s ) {
String salt = s . substring ( 0 , 8 ) ;
boolean gzFlag = ( s . charAt ( 8 ) = = '1' ) ;
s = s . substring ( 9 ) ;
cryptbig c = new cryptbig ( key , salt ) ;
byte [ ] b64dec = kelondroBase64Order . enhancedCoder . decode ( s ) ;
if ( b64dec = = null ) return null ; // error in input string (inconsistency)
byte [ ] dec = c . decryptArray ( b64dec ) ;
if ( dec = = null ) return null ;
if ( gzFlag )
return gzip . gunzipString ( dec ) ;
else
try { return new String ( dec , "UTF8" ) ; } catch ( UnsupportedEncodingException e ) { return null ; }
}
// --------------------------------------------------------
// Section: simple Codings
// --------------------------------------------------------
public static String simpleEncode ( String content ) {
return simpleEncode ( content , null , 'b' ) ;
}
public static String simpleEncode ( String content , String key ) {
return simpleEncode ( content , key , 'b' ) ;
}
public static String simpleEncode ( String content , String key , char method ) {
if ( key = = null ) key = "NULL" ;
if ( method = = 'p' ) return "p|" + content ;
if ( method = = 'b' ) return "b|" + kelondroBase64Order . enhancedCoder . encodeString ( content ) ;
if ( method = = 'z' ) return "z|" + kelondroBase64Order . enhancedCoder . encode ( gzip . gzipString ( content ) ) ;
if ( method = = 'c' ) return "c|" + scrambleString ( key , content ) ;
return null ;
}
public static String simpleDecode ( String encoded , String key ) {
if ( ( encoded = = null ) | | ( encoded . length ( ) < 3 ) ) return null ;
if ( encoded . charAt ( 1 ) ! = '|' ) return encoded ; // not encoded
char method = encoded . charAt ( 0 ) ;
encoded = encoded . substring ( 2 ) ;
if ( method = = 'p' ) return encoded ;
if ( method = = 'b' ) return kelondroBase64Order . enhancedCoder . decodeString ( encoded ) ;
if ( method = = 'z' ) return gzip . gunzipString ( kelondroBase64Order . enhancedCoder . decode ( encoded ) ) ;
if ( method = = 'c' ) return descrambleString ( key , encoded ) ;
return null ;
}
// --------------------------------------------------------
// Section: one-way encryption
// --------------------------------------------------------
public static String oneWayEncryption ( String key ) {
cryptbig crypter = new cryptbig ( key ) ;
String e = crypter . encryptString ( key ) ;
if ( e . length ( ) = = 0 ) e = "0XXXX" ;
if ( e . length ( ) % 2 = = 1 ) e + = "X" ;
while ( e . length ( ) < 32 ) e = e + e ;
char [ ] r = new char [ 16 ] ;
for ( int i = 0 ; i < 16 ; i + + ) r [ i ] = e . charAt ( 2 * i + 1 ) ;
return new String ( r ) ;
}
// --------------------------------------------------------
// Section: command interface
// --------------------------------------------------------
private static void help ( ) {
System . out . println ( "AnomicCrypt (2003) by Michael Christen" ) ;
System . out . println ( "Password-based encryption using the " + defaultMethod + "-method in standard java" ) ;
System . out . println ( "usage: crypt -h | -help" ) ;
System . out . println ( " crypt -1 <passwd>" ) ;
System . out . println ( " crypt -md5 <file>" ) ;
System . out . println ( " crypt ( -es64 | -ds64 | -ec64 | -dc64 ) <string>" ) ;
System . out . println ( " crypt ( -e | -d ) <key> <string>" ) ;
System . out . println ( " crypt -enc <key> <file> \\" ) ;
System . out . println ( " [-o <target-file> | -preserveFilename] \\" ) ;
System . out . println ( " [-d <YYYYMMddHHmmSSsss> | -preserveDate] [-noZip]" ) ;
System . out . println ( " crypt -dec <key> <file> \\" ) ;
System . out . println ( " [-o <target-file> | -preserveFilename] \\" ) ;
System . out . println ( " [-d <YYYYMMddHHmmSSsss> | -preserveDate]" ) ;
System . out . println ( " crypt ( -info | -name | -size | -date | -edate ) \\" ) ;
System . out . println ( " <key> <encrypted-file>" ) ;
}
private static void longhelp ( ) {
// --line-help-- *---------------------------------------------------------------
System . out . println ( "AnomicCrypt (2003) by Michael Christen" ) ;
System . out . println ( "" ) ;
System . out . println ( "" ) ;
System . out . println ( "crypt -1 <passwd>" ) ;
System . out . println ( "" ) ;
System . out . println ( " One-way encryption of the given password." ) ;
System . out . println ( " The result is computed by encoding the word with the word as" ) ;
System . out . println ( " the password and repeating it until the length is greater" ) ;
System . out . println ( " than 32. Then every second character is taken to compose the" ) ;
System . out . println ( " result which has always the length of 16 characters." ) ;
System . out . println ( "" ) ;
System . out . println ( "" ) ;
System . out . println ( "crypt -md5 <file>" ) ;
System . out . println ( "" ) ;
System . out . println ( " MD5 digest according to RFC 1321. The resulting bytes are" ) ;
System . out . println ( " encoded as two-digit hex and concatenated to a single string." ) ;
System . out . println ( "" ) ;
System . out . println ( "" ) ;
System . out . println ( "crypt -ec64 <cardinal>" ) ;
System . out . println ( "" ) ;
System . out . println ( " Encoding of a cardianal (a positive long integer) with the" ) ;
System . out . println ( " built-in non-standard base-64 algorithm." ) ;
System . out . println ( "" ) ;
System . out . println ( "" ) ;
System . out . println ( "crypt -dc64 <string>" ) ;
System . out . println ( "" ) ;
System . out . println ( " Decoding of the given b64-coded string to a cardinal number." ) ;
System . out . println ( "" ) ;
System . out . println ( "" ) ;
System . out . println ( "crypt -es64 <string>" ) ;
System . out . println ( "" ) ;
System . out . println ( " Encoding of a given String to a b64 string." ) ;
System . out . println ( "" ) ;
System . out . println ( "" ) ;
System . out . println ( "crypt -ds64 <string>" ) ;
System . out . println ( "" ) ;
System . out . println ( " Decoding of a given b64-coded string to a normal string." ) ;
System . out . println ( "" ) ;
System . out . println ( "" ) ;
System . out . println ( "crypt -e <key> <string>" ) ;
System . out . println ( "" ) ;
System . out . println ( " Encryption of a given Unicode-String." ) ;
System . out . println ( " The given string is first encoded to an UTF-8 byte stream, then" ) ;
System . out . println ( " encoded using a password based encryption and then finaly" ) ;
System . out . println ( " encoded to b64 to generate a printable form." ) ;
System . out . println ( " The PBE method is " + defaultMethod + "." ) ;
System . out . println ( "" ) ;
System . out . println ( "" ) ;
System . out . println ( "crypt -d <key> <string>" ) ;
System . out . println ( "" ) ;
System . out . println ( " Decryption of a string." ) ;
System . out . println ( " The string is b64-decoded, " + defaultMethod + "-decrypted, " ) ;
System . out . println ( " and then transformed to an unicode string." ) ;
System . out . println ( "" ) ;
System . out . println ( "" ) ;
System . out . println ( "crypt -enc <key> <file> \\" ) ;
System . out . println ( " [-o <target-file> | -preserveFilename] \\" ) ;
System . out . println ( " [-d <target-date YYYYMMddHHmmSSsss> | -preserveDate] [-noZip]" ) ;
System . out . println ( "" ) ;
System . out . println ( "" ) ;
System . out . println ( "" ) ;
System . out . println ( "" ) ;
System . out . println ( "crypt -dec <key> <file> \\" ) ;
System . out . println ( " [-o <target-file> | -preserveFilename] \\" ) ;
System . out . println ( " [-d <target-date YYYYMMddHHmmSSsss> | -preserveDate]" ) ;
System . out . println ( "" ) ;
System . out . println ( "" ) ;
System . out . println ( "crypt ( -info | -name | -size | -date | -edate ) <key> <encrypted-file>" ) ;
System . out . println ( "" ) ;
System . out . println ( "" ) ;
}
public static void main ( String [ ] s ) {
if ( s . length = = 0 ) {
help ( ) ;
System . exit ( 0 ) ;
}
if ( ( s [ 0 ] . equals ( "-h" ) ) | | ( s [ 0 ] . equals ( "-help" ) ) ) {
longhelp ( ) ;
System . exit ( 0 ) ;
}
if ( s [ 0 ] . equals ( "-tc" ) ) {
// list all available crypt mehtods:
Set methods = listCryptoMethods ( "Cipher" ) ;
System . out . println ( methods . size ( ) + " crypt methods:" + methods . toString ( ) ) ;
testCryptMethods ( methods ) ;
System . exit ( 0 ) ;
}
if ( s [ 0 ] . equals ( "-random" ) ) {
int count = ( ( s . length = = 2 ) ? ( Integer . parseInt ( s [ 1 ] ) ) : 1 ) ;
for ( int i = 0 ; i < count ; i + + ) System . out . println ( randomSalt ( ) ) ;
System . exit ( 0 ) ;
}
if ( s [ 0 ] . equals ( "-1" ) ) {
if ( s . length ! = 2 ) { help ( ) ; System . exit ( - 1 ) ; }
System . out . println ( oneWayEncryption ( s [ 1 ] ) ) ;
System . exit ( 0 ) ;
}
if ( s [ 0 ] . equals ( "-ec64" ) ) {
// generate a b64 encoding from a given cardinal
if ( s . length ! = 2 ) { help ( ) ; System . exit ( - 1 ) ; }
System . out . println ( kelondroBase64Order . standardCoder . encodeLong ( Long . parseLong ( s [ 1 ] ) , 0 ) ) ;
System . exit ( 0 ) ;
}
if ( s [ 0 ] . equals ( "-dc64" ) ) {
// generate a b64 decoding from a given cardinal
if ( s . length ! = 2 ) { help ( ) ; System . exit ( - 1 ) ; }
System . out . println ( kelondroBase64Order . standardCoder . decodeLong ( s [ 1 ] ) ) ;
System . exit ( 0 ) ;
}
if ( s [ 0 ] . equals ( "-es64" ) ) {
// generate a b64 encoding from a given string
if ( s . length ! = 2 ) { help ( ) ; System . exit ( - 1 ) ; }
System . out . println ( kelondroBase64Order . standardCoder . encodeString ( s [ 1 ] ) ) ;
System . exit ( 0 ) ;
}
if ( s [ 0 ] . equals ( "-ds64" ) ) {
// generate a b64 decoding from a given string
if ( s . length ! = 2 ) { help ( ) ; System . exit ( - 1 ) ; }
System . out . println ( kelondroBase64Order . standardCoder . decodeString ( s [ 1 ] ) ) ;
System . exit ( 0 ) ;
}
if ( s [ 0 ] . equals ( "-ess" ) ) {
// 'scramble' string
if ( s . length ! = 3 ) { help ( ) ; System . exit ( - 1 ) ; }
long t = System . currentTimeMillis ( ) ;
System . out . println ( scrambleString ( s [ 1 ] , s [ 2 ] ) ) ;
System . out . println ( "Calculation time: " + ( System . currentTimeMillis ( ) - t ) + " milliseconds" ) ;
System . exit ( 0 ) ;
}
if ( s [ 0 ] . equals ( "-dss" ) ) {
// 'descramble' string
if ( s . length ! = 3 ) { help ( ) ; System . exit ( - 1 ) ; }
long t = System . currentTimeMillis ( ) ;
System . out . println ( descrambleString ( s [ 1 ] , s [ 2 ] ) ) ;
System . out . println ( "Calculation time: " + ( System . currentTimeMillis ( ) - t ) + " milliseconds" ) ;
System . exit ( 0 ) ;
}
if ( s [ 0 ] . equals ( "-e" ) ) {
if ( s . length ! = 3 ) { help ( ) ; System . exit ( - 1 ) ; }
System . out . println ( ( new cryptbig ( s [ 1 ] ) ) . encryptString ( s [ 2 ] ) ) ;
System . exit ( 0 ) ;
}
if ( s [ 0 ] . equals ( "-d" ) ) {
if ( s . length ! = 3 ) { help ( ) ; System . exit ( - 1 ) ; }
System . out . println ( ( new cryptbig ( s [ 1 ] ) ) . decryptString ( s [ 2 ] ) ) ;
System . exit ( 0 ) ;
}
if ( s [ 0 ] . equals ( "-md5" ) ) {
// generate a public key from a password that can be used for encryption
if ( s . length ! = 2 ) { help ( ) ; System . exit ( - 1 ) ; }
String md5s = serverCodings . encodeMD5Hex ( new File ( s [ 1 ] ) ) ;
System . out . println ( md5s ) ;
System . exit ( 0 ) ;
}
if ( s [ 0 ] . equals ( "-enc" ) ) {
if ( ( s . length < 3 ) | | ( s . length > 4 ) ) { help ( ) ; System . exit ( - 1 ) ; }
String target ;
if ( s . length = = 3 ) target = s [ 2 ] + ".crypt" ; else target = s [ 3 ] ;
( new cryptbig ( s [ 1 ] ) ) . encryptFile ( s [ 2 ] , target , true /*compress*/ ) ;
System . exit ( 0 ) ;
}
if ( s [ 0 ] . equals ( "-dec" ) ) {
if ( ( s . length < 3 ) | | ( s . length > 4 ) ) { help ( ) ; System . exit ( - 1 ) ; }
String target ;
if ( s . length = = 3 ) {
if ( s [ 2 ] . endsWith ( ".crypt" ) )
target = s [ 2 ] . substring ( 0 , s [ 2 ] . length ( ) - 7 ) ;
else
target = s [ 2 ] + ".decoded" ;
} else {
target = s [ 3 ] ;
}
( new cryptbig ( s [ 1 ] ) ) . decryptFile ( s [ 2 ] , target ) ;
System . exit ( 0 ) ;
}
help ( ) ; System . exit ( - 1 ) ;
}
}