Cryptage 3DES & stockage SQLite

Hello! :)

J'ai répondu à ce post pour essayer de filer un coup de main:

http://www.developpez.net/forums/d83...n/#post6948666

Pour moi codage/décodage fonctionnent.

Par contre, maintenant se pose le problème du stockage dans une base sqlite android:

-> quel doit être le type du champs de la table?

Une idée peut être?

J'ai déjà essayer de passer ma table de (string param, string valeur) à (string param, integer valeur) vu que le but est de stocker un byte, mais j'ai tjs la même exception....... :?

Et rien trouvé en ligne non plus, mais il faut dire que les critères de recherches sont super génériques et ramène 12M de pages.

Merci. ;)

passer par des méthodes encrypt/decrypt c'est facilement piratable avec le pwd.

Il y a le projet sqlcipher mais ne suis pas encore parvenu à le faire fonctionner :(

Je ne connais pas ton programme mais un byte c'est un entier => INTEGER

Edit: mais pour en stocker plusieurs, ça ne va pas le faire (hum) :oops: => TEXT du style 50 51 66 32 ... ou en hexa.

Si le but est de stocker un tableau de byte, il y a les BLOB, mais pour plus de simplicité il vaut parfois mieux passer par un VARCHAR avec les données encodées (base64, UU, ...)

C'est effectivement ce que j'ai fini par faire oui. :bravo:

J'ai posté "ma" solution sur l'autre post, tu peux y jeter un oeil et me dire ce que tu en penses STP?

Bon là je nage en plein *****!!
Y a-t-il plusieurs algo 3DES?

Coté Android, aucun problème codage/décodage..... mais quand j'envoie des tests au serveur Php, ça me donne n'importe quoi! 8O

Je poste mes fct Android & Java parce que je n'ai plus la moindre idée!

ANDROID 3DES

Code:

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import java.security.MessageDigest; import java.util.Arrays;   import javax.crypto.Cipher; import javax.crypto.SecretKey; import javax.crypto.spec.IvParameterSpec; import javax.crypto.spec.SecretKeySpec;   public class Cryptage3DES { private static final String CONST_PASSWORD = "toto";     public static byte[] encrypt(String message) throws Exception { final MessageDigest md = MessageDigest.getInstance("md5"); final byte[] digestOfPassword = md.digest(CONST_PASSWORD.getBytes("utf-8")); final byte[] keyBytes = Arrays.copyOf(digestOfPassword, 24);   for (int j = 0, k = 16; j < 8;) { keyBytes[k++] = keyBytes[j++]; }   final SecretKey key = new SecretKeySpec(keyBytes, "DESede"); final IvParameterSpec iv = new IvParameterSpec(new byte[8]); final Cipher cipher = Cipher.getInstance("DESede/CBC/PKCS5Padding");   cipher.init(Cipher.ENCRYPT_MODE, key, iv);   final byte[] plainTextBytes = message.getBytes("utf-8"); final byte[] cipherText = cipher.doFinal(plainTextBytes);   return cipherText; }   public static String decrypt(byte[] message) throws Exception { final MessageDigest md = MessageDigest.getInstance("md5"); final byte[] digestOfPassword = md.digest(CONST_PASSWORD.getBytes("utf-8")); final byte[] keyBytes = Arrays.copyOf(digestOfPassword, 24);   for (int j = 0, k = 16; j < 8;) { keyBytes[k++] = keyBytes[j++]; }   final SecretKey key = new SecretKeySpec(keyBytes, "DESede"); final IvParameterSpec iv = new IvParameterSpec(new byte[8]); final Cipher decipher = Cipher.getInstance("DESede/CBC/PKCS5Padding");   decipher.init(Cipher.DECRYPT_MODE, key, iv);   final byte[] plainText = decipher.doFinal(message);   return new String(plainText, "UTF-8"); }   }

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ANDROID BASE64

Code:

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public class Base64 { private static final char[] CA = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/".toCharArray(); private static final int[] IA = new int[256]; static { Arrays.fill(IA, -1); for (int i = 0, iS = CA.length; i < iS; i++) IA[CA[i]] = i; IA['='] = 0; }   // **************************************************************************************** // * char[] version // ****************************************************************************************   /** Encodes a raw byte array into a BASE64 <code>char[]</code> representation i accordance with RFC 2045.          * @param sArr The bytes to convert. If <code>null</code> or length 0 an empty array will be returned.          * @param lineSep Optional "\r\n" after 76 characters, unless end of file.<br>          * No line separator will be in breach of RFC 2045 which specifies max 76 per line but will be a          * little faster.          * @return A BASE64 encoded array. Never <code>null</code>.          */ public final static char[] encodeToChar(byte[] sArr, boolean lineSep) { // Check special case int sLen = sArr != null ? sArr.length : 0; if (sLen == 0) return new char[0];   int eLen = (sLen / 3) * 3; // Length of even 24-bits. int cCnt = ((sLen - 1) / 3 + 1) << 2; // Returned character count int dLen = cCnt + (lineSep ? (cCnt - 1) / 76 << 1 : 0); // Length of returned array char[] dArr = new char[dLen];   // Encode even 24-bits for (int s = 0, d = 0, cc = 0; s < eLen;) { // Copy next three bytes into lower 24 bits of int, paying attension to sign. int i = (sArr[s++] & 0xff) << 16 | (sArr[s++] & 0xff) << 8 | (sArr[s++] & 0xff);   // Encode the int into four chars dArr[d++] = CA[(i >>> 18) & 0x3f]; dArr[d++] = CA[(i >>> 12) & 0x3f]; dArr[d++] = CA[(i >>> 6) & 0x3f]; dArr[d++] = CA[i & 0x3f];   // Add optional line separator if (lineSep && ++cc == 19 && d < dLen - 2) { dArr[d++] = '\r'; dArr[d++] = '\n'; cc = 0; } }   // Pad and encode last bits if source isn't even 24 bits. int left = sLen - eLen; // 0 - 2. if (left > 0) { // Prepare the int int i = ((sArr[eLen] & 0xff) << 10) | (left == 2 ? ((sArr[sLen - 1] & 0xff) << 2) : 0);   // Set last four chars dArr[dLen - 4] = CA[i >> 12]; dArr[dLen - 3] = CA[(i >>> 6) & 0x3f]; dArr[dLen - 2] = left == 2 ? CA[i & 0x3f] : '='; dArr[dLen - 1] = '='; } return dArr; }   /** Decodes a BASE64 encoded char array. All illegal characters will be ignored and can handle both arrays with          * and without line separators.          * @param sArr The source array. <code>null</code> or length 0 will return an empty array.          * @return The decoded array of bytes. May be of length 0. Will be <code>null</code> if the legal characters          * (including '=') isn't divideable by 4.  (I.e. definitely corrupted).          */ public final static byte[] decode(char[] sArr) { // Check special case int sLen = sArr != null ? sArr.length : 0; if (sLen == 0) return new byte[0];   // Count illegal characters (including '\r', '\n') to know what size the returned array will be, // so we don't have to reallocate & copy it later. int sepCnt = 0; // Number of separator characters. (Actually illegal characters, but that's a bonus...) for (int i = 0; i < sLen; i++) // If input is "pure" (I.e. no line separators or illegal chars) base64 this loop can be commented out. if (IA[sArr[i]] < 0) sepCnt++;   // Check so that legal chars (including '=') are evenly divideable by 4 as specified in RFC 2045. if ((sLen - sepCnt) % 4 != 0) return null;   int pad = 0; for (int i = sLen; i > 1 && IA[sArr[--i]] <= 0;) if (sArr[i] == '=') pad++;   int len = ((sLen - sepCnt) * 6 >> 3) - pad;   byte[] dArr = new byte[len]; // Preallocate byte[] of exact length   for (int s = 0, d = 0; d < len;) { // Assemble three bytes into an int from four "valid" characters. int i = 0; for (int j = 0; j < 4; j++) { // j only increased if a valid char was found. int c = IA[sArr[s++]]; if (c >= 0) i |= c << (18 - j * 6); else j--; } // Add the bytes dArr[d++] = (byte) (i >> 16); if (d < len) { dArr[d++]= (byte) (i >> 8); if (d < len) dArr[d++] = (byte) i; } } return dArr; }   /** Decodes a BASE64 encoded char array that is known to be resonably well formatted. The method is about twice as          * fast as {@link #decode(char[])}. The preconditions are:<br>          * + The array must have a line length of 76 chars OR no line separators at all (one line).<br>          * + Line separator must be "\r\n", as specified in RFC 2045          * + The array must not contain illegal characters within the encoded string<br>          * + The array CAN have illegal characters at the beginning and end, those will be dealt with appropriately.<br>          * @param sArr The source array. Length 0 will return an empty array. <code>null</code> will throw an exception.          * @return The decoded array of bytes. May be of length 0.          */ public final static byte[] decodeFast(char[] sArr) { // Check special case int sLen = sArr.length; if (sLen == 0) return new byte[0];   int sIx = 0, eIx = sLen - 1; // Start and end index after trimming.   // Trim illegal chars from start while (sIx < eIx && IA[sArr[sIx]] < 0) sIx++;   // Trim illegal chars from end while (eIx > 0 && IA[sArr[eIx]] < 0) eIx--;   // get the padding count (=) (0, 1 or 2) int pad = sArr[eIx] == '=' ? (sArr[eIx - 1] == '=' ? 2 : 1) : 0; // Count '=' at end. int cCnt = eIx - sIx + 1; // Content count including possible separators int sepCnt = sLen > 76 ? (sArr[76] == '\r' ? cCnt / 78 : 0) << 1 : 0;   int len = ((cCnt - sepCnt) * 6 >> 3) - pad; // The number of decoded bytes byte[] dArr = new byte[len]; // Preallocate byte[] of exact length   // Decode all but the last 0 - 2 bytes. int d = 0; for (int cc = 0, eLen = (len / 3) * 3; d < eLen;) { // Assemble three bytes into an int from four "valid" characters. int i = IA[sArr[sIx++]] << 18 | IA[sArr[sIx++]] << 12 | IA[sArr[sIx++]] << 6 | IA[sArr[sIx++]];   // Add the bytes dArr[d++] = (byte) (i >> 16); dArr[d++] = (byte) (i >> 8); dArr[d++] = (byte) i;   // If line separator, jump over it. if (sepCnt > 0 && ++cc == 19) { sIx += 2; cc = 0; } }   if (d < len) { // Decode last 1-3 bytes (incl '=') into 1-3 bytes int i = 0; for (int j = 0; sIx <= eIx - pad; j++) i |= IA[sArr[sIx++]] << (18 - j * 6);   for (int r = 16; d < len; r -= 8) dArr[d++] = (byte) (i >> r); }   return dArr; }   // **************************************************************************************** // * byte[] version // ****************************************************************************************   /** Encodes a raw byte array into a BASE64 <code>byte[]</code> representation i accordance with RFC 2045.          * @param sArr The bytes to convert. If <code>null</code> or length 0 an empty array will be returned.          * @param lineSep Optional "\r\n" after 76 characters, unless end of file.<br>          * No line separator will be in breach of RFC 2045 which specifies max 76 per line but will be a          * little faster.          * @return A BASE64 encoded array. Never <code>null</code>.          */ public final static byte[] encodeToByte(byte[] sArr, boolean lineSep) { // Check special case int sLen = sArr != null ? sArr.length : 0; if (sLen == 0) return new byte[0];   int eLen = (sLen / 3) * 3; // Length of even 24-bits. int cCnt = ((sLen - 1) / 3 + 1) << 2; // Returned character count int dLen = cCnt + (lineSep ? (cCnt - 1) / 76 << 1 : 0); // Length of returned array byte[] dArr = new byte[dLen];   // Encode even 24-bits for (int s = 0, d = 0, cc = 0; s < eLen;) { // Copy next three bytes into lower 24 bits of int, paying attension to sign. int i = (sArr[s++] & 0xff) << 16 | (sArr[s++] & 0xff) << 8 | (sArr[s++] & 0xff);   // Encode the int into four chars dArr[d++] = (byte) CA[(i >>> 18) & 0x3f]; dArr[d++] = (byte) CA[(i >>> 12) & 0x3f]; dArr[d++] = (byte) CA[(i >>> 6) & 0x3f]; dArr[d++] = (byte) CA[i & 0x3f];   // Add optional line separator if (lineSep && ++cc == 19 && d < dLen - 2) { dArr[d++] = '\r'; dArr[d++] = '\n'; cc = 0; } }   // Pad and encode last bits if source isn't an even 24 bits. int left = sLen - eLen; // 0 - 2. if (left > 0) { // Prepare the int int i = ((sArr[eLen] & 0xff) << 10) | (left == 2 ? ((sArr[sLen - 1] & 0xff) << 2) : 0);   // Set last four chars dArr[dLen - 4] = (byte) CA[i >> 12]; dArr[dLen - 3] = (byte) CA[(i >>> 6) & 0x3f]; dArr[dLen - 2] = left == 2 ? (byte) CA[i & 0x3f] : (byte) '='; dArr[dLen - 1] = '='; } return dArr; }   /** Decodes a BASE64 encoded byte array. All illegal characters will be ignored and can handle both arrays with          * and without line separators.          * @param sArr The source array. Length 0 will return an empty array. <code>null</code> will throw an exception.          * @return The decoded array of bytes. May be of length 0. Will be <code>null</code> if the legal characters          * (including '=') isn't divideable by 4. (I.e. definitely corrupted).          */ public final static byte[] decode(byte[] sArr) { // Check special case int sLen = sArr.length;   // Count illegal characters (including '\r', '\n') to know what size the returned array will be, // so we don't have to reallocate & copy it later. int sepCnt = 0; // Number of separator characters. (Actually illegal characters, but that's a bonus...) for (int i = 0; i < sLen; i++) // If input is "pure" (I.e. no line separators or illegal chars) base64 this loop can be commented out. if (IA[sArr[i] & 0xff] < 0) sepCnt++;   // Check so that legal chars (including '=') are evenly divideable by 4 as specified in RFC 2045. if ((sLen - sepCnt) % 4 != 0) return null;   int pad = 0; for (int i = sLen; i > 1 && IA[sArr[--i] & 0xff] <= 0;) if (sArr[i] == '=') pad++;   int len = ((sLen - sepCnt) * 6 >> 3) - pad;   byte[] dArr = new byte[len]; // Preallocate byte[] of exact length   for (int s = 0, d = 0; d < len;) { // Assemble three bytes into an int from four "valid" characters. int i = 0; for (int j = 0; j < 4; j++) { // j only increased if a valid char was found. int c = IA[sArr[s++] & 0xff]; if (c >= 0) i |= c << (18 - j * 6); else j--; }   // Add the bytes dArr[d++] = (byte) (i >> 16); if (d < len) { dArr[d++]= (byte) (i >> 8); if (d < len) dArr[d++] = (byte) i; } }   return dArr; }     /** Decodes a BASE64 encoded byte array that is known to be resonably well formatted. The method is about twice as          * fast as {@link #decode(byte[])}. The preconditions are:<br>          * + The array must have a line length of 76 chars OR no line separators at all (one line).<br>          * + Line separator must be "\r\n", as specified in RFC 2045          * + The array must not contain illegal characters within the encoded string<br>          * + The array CAN have illegal characters at the beginning and end, those will be dealt with appropriately.<br>          * @param sArr The source array. Length 0 will return an empty array. <code>null</code> will throw an exception.          * @return The decoded array of bytes. May be of length 0.          */ public final static byte[] decodeFast(byte[] sArr) { // Check special case int sLen = sArr.length; if (sLen == 0) return new byte[0];   int sIx = 0, eIx = sLen - 1; // Start and end index after trimming.   // Trim illegal chars from start while (sIx < eIx && IA[sArr[sIx] & 0xff] < 0) sIx++;   // Trim illegal chars from end while (eIx > 0 && IA[sArr[eIx] & 0xff] < 0) eIx--;   // get the padding count (=) (0, 1 or 2) int pad = sArr[eIx] == '=' ? (sArr[eIx - 1] == '=' ? 2 : 1) : 0; // Count '=' at end. int cCnt = eIx - sIx + 1; // Content count including possible separators int sepCnt = sLen > 76 ? (sArr[76] == '\r' ? cCnt / 78 : 0) << 1 : 0;   int len = ((cCnt - sepCnt) * 6 >> 3) - pad; // The number of decoded bytes byte[] dArr = new byte[len]; // Preallocate byte[] of exact length   // Decode all but the last 0 - 2 bytes. int d = 0; for (int cc = 0, eLen = (len / 3) * 3; d < eLen;) { // Assemble three bytes into an int from four "valid" characters. int i = IA[sArr[sIx++]] << 18 | IA[sArr[sIx++]] << 12 | IA[sArr[sIx++]] << 6 | IA[sArr[sIx++]];   // Add the bytes dArr[d++] = (byte) (i >> 16); dArr[d++] = (byte) (i >> 8); dArr[d++] = (byte) i;   // If line separator, jump over it. if (sepCnt > 0 && ++cc == 19) { sIx += 2; cc = 0; } }   if (d < len) { // Decode last 1-3 bytes (incl '=') into 1-3 bytes int i = 0; for (int j = 0; sIx <= eIx - pad; j++) i |= IA[sArr[sIx++]] << (18 - j * 6);   for (int r = 16; d < len; r -= 8) dArr[d++] = (byte) (i >> r); }   return dArr; }   // **************************************************************************************** // * String version // ****************************************************************************************   /** Encodes a raw byte array into a BASE64 <code>String</code> representation i accordance with RFC 2045.          * @param sArr The bytes to convert. If <code>null</code> or length 0 an empty array will be returned.          * @param lineSep Optional "\r\n" after 76 characters, unless end of file.<br>          * No line separator will be in breach of RFC 2045 which specifies max 76 per line but will be a          * little faster.          * @return A BASE64 encoded array. Never <code>null</code>.          */ public final static String encodeToString(byte[] sArr, boolean lineSep) { // Reuse char[] since we can't create a String incrementally anyway and StringBuffer/Builder would be slower. return new String(encodeToChar(sArr, lineSep)); }   /** Decodes a BASE64 encoded <code>String</code>. All illegal characters will be ignored and can handle both strings with          * and without line separators.<br>          * <b>Note!</b> It can be up to about 2x the speed to call <code>decode(str.toCharArray())</code> instead. That          * will create a temporary array though. This version will use <code>str.charAt(i)</code> to iterate the string.          * @param str The source string. <code>null</code> or length 0 will return an empty array.          * @return The decoded array of bytes. May be of length 0. Will be <code>null</code> if the legal characters          * (including '=') isn't divideable by 4.  (I.e. definitely corrupted).          */ public final static byte[] decode(String str) { // Check special case int sLen = str != null ? str.length() : 0; if (sLen == 0) return new byte[0];   // Count illegal characters (including '\r', '\n') to know what size the returned array will be, // so we don't have to reallocate & copy it later. int sepCnt = 0; // Number of separator characters. (Actually illegal characters, but that's a bonus...) for (int i = 0; i < sLen; i++) // If input is "pure" (I.e. no line separators or illegal chars) base64 this loop can be commented out. if (IA[str.charAt(i)] < 0) sepCnt++;   // Check so that legal chars (including '=') are evenly divideable by 4 as specified in RFC 2045. if ((sLen - sepCnt) % 4 != 0) return null;   // Count '=' at end int pad = 0; for (int i = sLen; i > 1 && IA[str.charAt(--i)] <= 0;) if (str.charAt(i) == '=') pad++;   int len = ((sLen - sepCnt) * 6 >> 3) - pad;   byte[] dArr = new byte[len]; // Preallocate byte[] of exact length   for (int s = 0, d = 0; d < len;) { // Assemble three bytes into an int from four "valid" characters. int i = 0; for (int j = 0; j < 4; j++) { // j only increased if a valid char was found. int c = IA[str.charAt(s++)]; if (c >= 0) i |= c << (18 - j * 6); else j--; } // Add the bytes dArr[d++] = (byte) (i >> 16); if (d < len) { dArr[d++]= (byte) (i >> 8); if (d < len) dArr[d++] = (byte) i; } } return dArr; }   /** Decodes a BASE64 encoded string that is known to be resonably well formatted. The method is about twice as          * fast as {@link #decode(String)}. The preconditions are:<br>          * + The array must have a line length of 76 chars OR no line separators at all (one line).<br>          * + Line separator must be "\r\n", as specified in RFC 2045          * + The array must not contain illegal characters within the encoded string<br>          * + The array CAN have illegal characters at the beginning and end, those will be dealt with appropriately.<br>          * @param s The source string. Length 0 will return an empty array. <code>null</code> will throw an exception.          * @return The decoded array of bytes. May be of length 0.          */ public final static byte[] decodeFast(String s) { // Check special case int sLen = s.length(); if (sLen == 0) return new byte[0];   int sIx = 0, eIx = sLen - 1; // Start and end index after trimming.   // Trim illegal chars from start while (sIx < eIx && IA[s.charAt(sIx) & 0xff] < 0) sIx++;   // Trim illegal chars from end while (eIx > 0 && IA[s.charAt(eIx) & 0xff] < 0) eIx--;   // get the padding count (=) (0, 1 or 2) int pad = s.charAt(eIx) == '=' ? (s.charAt(eIx - 1) == '=' ? 2 : 1) : 0; // Count '=' at end. int cCnt = eIx - sIx + 1; // Content count including possible separators int sepCnt = sLen > 76 ? (s.charAt(76) == '\r' ? cCnt / 78 : 0) << 1 : 0;   int len = ((cCnt - sepCnt) * 6 >> 3) - pad; // The number of decoded bytes byte[] dArr = new byte[len]; // Preallocate byte[] of exact length   // Decode all but the last 0 - 2 bytes. int d = 0; for (int cc = 0, eLen = (len / 3) * 3; d < eLen;) { // Assemble three bytes into an int from four "valid" characters. int i = IA[s.charAt(sIx++)] << 18 | IA[s.charAt(sIx++)] << 12 | IA[s.charAt(sIx++)] << 6 | IA[s.charAt(sIx++)];   // Add the bytes dArr[d++] = (byte) (i >> 16); dArr[d++] = (byte) (i >> 8); dArr[d++] = (byte) i;   // If line separator, jump over it. if (sepCnt > 0 && ++cc == 19) { sIx += 2; cc = 0; } }   if (d < len) { // Decode last 1-3 bytes (incl '=') into 1-3 bytes int i = 0; for (int j = 0; sIx <= eIx - pad; j++) i |= IA[s.charAt(sIx++)] << (18 - j * 6);   for (int r = 16; d < len; r -= 8) dArr[d++] = (byte) (i >> r); }   return dArr; } }

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ANDROID fcts cryptage/décryptage

Code:

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//RETOURNE la chaine cryptée / NULL si erreur //********************************* public static String cryptage3DES(String s) { byte[] codedtext = null;   //Log.d("**** CRYPTAGE entrée","("+s+")");   //crypter la chaine en 3DES try { codedtext = Cryptage3DES.encrypt(s); Log.d("**** CRYPTAGE valeur 3DES","("+codedtext+")"); } catch (Exception e) { e.printStackTrace(); return null; }   //l'encoder en B64 return Base64.encodeToString(codedtext, true); //Log.d("**** CRYPTAGE valeur B64","("+svaleur64+")"); }   //RETOURNE la chaine décryptée / NULL si erreur //*********************************** public static String decryptage3DES(String s) { String decodedtext = null; byte [] valeur64 = null;   //Log.d("**** DECRYPTAGE entrée","("+s+")");   //décoder B64 pour avoir du 3DES valeur64 = Base64.decode(s); //Log.d("**** DECRYPTAGE valeur B64 décodée","("+valeur64+")");   //décrypter la valeur 3DES try { decodedtext = Cryptage3DES.decrypt(valeur64); //Log.d("**** DECRYPTAGE valeur 3DES décodée","("+decodedtext+")"); return decodedtext.toString(); } catch (Exception e) { e.printStackTrace(); return null; } }

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PHP fcts cryptage/décryptage faites par qq'un d'autre & utulisées

Code:

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function cryptage3DESPwd($chaine,$passwordCryptage) { $retour=""; $td = mcrypt_module_open (MCRYPT_TripleDES, "", MCRYPT_MODE_ECB, ""); $iv = mcrypt_create_iv (mcrypt_enc_get_iv_size ($td), MCRYPT_RAND); mcrypt_generic_init ($td, $passwordCryptage, $iv); $encrypted_data = mcrypt_generic ($td, $chaine); // mcrypt_generic_end ($td); $retour=base64_encode($encrypted_data); mcrypt_generic_deinit($td); mcrypt_module_close($td); return($retour); }   function decryptage3DESPwd($chaine,$passwordCryptage) { $aDecrypter=base64_decode($chaine); $td = mcrypt_module_open (MCRYPT_TripleDES, "", MCRYPT_MODE_ECB, ""); $iv = mcrypt_create_iv (mcrypt_enc_get_iv_size ($td), MCRYPT_RAND); mcrypt_generic_init ($td, $passwordCryptage, $iv); $decrypted_data = mdecrypt_generic ($td, $aDecrypter); mcrypt_generic_deinit($td); mcrypt_module_close($td); $decrypted_data=str_replace("\0","",$decrypted_data); return($decrypted_data); }

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Le décodage coté PHP me donne n'imp'...... et bien sûr le mot de passe est le même des 2 cotés! :calim2:

D'où ma question, au départ, de plusieurs alog 3DES?

:salut:

Cogitations du jour:

JAVA:
-> final Cipher cipher = Cipher.getInstance("DESede/CBC/PKCS5Padding");

PHP:
-> $td = mcrypt_module_open (MCRYPT_TripleDES, "", MCRYPT_MODE_ECB, "");

On n'est donc déjà pas sur le même mode de cryptage... normal donc que ça déconne!

J'ai donc essayé plusieurs combinaisons pour mettre le même mode des 2 cotés, sans succès:

1.) modif coté Java
final Cipher cipher = Cipher.getInstance("DESede/CBC/PKCS5Padding");
+
$td = mcrypt_module_open (MCRYPT_TripleDES, "", MCRYPT_MODE_CBC, "");
= décryptage KO

2.) modif coté Java 2
final Cipher cipher = Cipher.getInstance("DESede/CBC/NoPadding");
+
$td = mcrypt_module_open (MCRYPT_TripleDES, "", MCRYPT_MODE_CBC, "");
= valeur Java null, donc KO

3.) modif coté Php
final Cipher cipher = Cipher.getInstance("DESede/CBC/PKCS5Padding");
+
$td = mcrypt_module_open (MCRYPT_TripleDES, "", MCRYPT_MODE_CBC, "");
= KO

Donc en gros, est ce que qq'un pourrait me donner les bons paramètres à mettre des deux cotés, ou à défaut pourquoi en mettant du CBC / EBC des 2 cotés ça ne passe tjs pas?

Comment spécifier un padding coté PHP?
Et pourquoi un cryptage NoPadding coté Java me génère 1 chaine null?

Bref, comment harmoniser les 2 cotés! ;)

Merciiiiiiiiiiiiiiiiiiii!
:ccool:

PS: et comment spécifier un padding PKCS5 coté Php? 8O

Personne n'a d'idées?
Ou un petit package tout fait Java/Php qui marche bien?