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Assuming that I'm trying to pull from a RESTful api that uses basic authentication / basic certificates, what would be the best way to store that user name and password in my program? Right now it's just sitting there in plaintext.

UsernamePasswordCredentials creds = new UsernamePasswordCredentials("myName@myserver","myPassword1234");

Is there some way of doing this that is more security minded?


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The answer depends on the following things: Do you want to distribute the app? Is the user/password based on the user of the application, or is it some kind of API key? Do you want to protect the user/password from the local user (some kind of DRM) ? –  parasietje Oct 23 '12 at 15:00
It's actually a program running on a backend, but it's really more about style. I shouldn't have the Username / Password to an account that houses classified-level information in plaintext. –  A_Elric Oct 23 '12 at 15:19
take a look at this thread stackoverflow.com/questions/12198228/… and you'll get the general idea. –  Shark Oct 24 '12 at 12:10

5 Answers 5

up vote 39 down vote accepted

With an inner-to-outer mindset, here are some steps to protect your process:

First step, you should change your password-handling from String to character array.

The reason for this is that a String object's data will not be cleansed immediately even if the object is set to null; The data is set for garbage-collection instead, and this poses security problems because malicious programs might gain access to that String (password) data before it is cleaned.

This is the main reason why Swing's JPasswordField's getText() method is deprecated, and why getPassword() uses character arrays.

The second step is to encrypt your credentials, only decrypting them temporarily during the authentication process.

This, similarly to the first step, makes sure your vulnerability-time is as small as possible.

It is recommended that your credentials are not hard-coded, and that instead, you store them in a centralized, configurable and easily-maintainable manner, such as a configuration or properties file.

You should encrypt your credentials before saving the file, and additionally, you can apply a second encryption to the file itself (2-layer encryption to the credentials, and 1-layer to other file contents).

Note that each of the two encryption processes mentioned above can be multiple-layered themselves. Each encryption can be an individual application of Triple Data Encryption Standard (AKA TDES and 3DES), as a conceptual example.

After your local environment is properly protected (but remember, it's never ever "safe"!), the third step is apply basic protection to your transmission process, by using TLS (Transport Layer Security) or SSL (Secure Sockets Layer).

The forth step is to apply other protection methods.

For example, applying obfuscation techniques to your "to-use" compile, to avoid (even if shortly) the exposure of your security measures in case your program is obtained by Ms. Eve, Mr. Mallory, or someone else (the bad-guys) and decompiled.


By @Damien.Bell 's request, here is an example that covers the first and second steps:

    //These will be used as the source of the configuration file's stored attributes.
    private static final Map<String, String> COMMON_ATTRIBUTES = new HashMap<String, String>();
    private static final Map<String, char[]> SECURE_ATTRIBUTES = new HashMap<String, char[]>();
    //Ciphering (encryption and decryption) password/key.
    private static final char[] PASSWORD = "Unauthorized_Personel_Is_Unauthorized".toCharArray();
    //Cipher salt.
    private static final byte[] SALT = {
        (byte) 0xde, (byte) 0x33, (byte) 0x10, (byte) 0x12,
        (byte) 0xde, (byte) 0x33, (byte) 0x10, (byte) 0x12,};
    //Desktop dir:
    private static final File DESKTOP = new File(System.getProperty("user.home") + "/Desktop");
    //File names:
    private static final String NO_ENCRYPTION = "no_layers.txt";
    private static final String SINGLE_LAYER = "single_layer.txt";
    private static final String DOUBLE_LAYER = "double_layer.txt";

     * @param args the command line arguments
    public static void main(String[] args) throws GeneralSecurityException, FileNotFoundException, IOException {
        //Set common attributes.
        COMMON_ATTRIBUTES.put("Gender", "Male");
        COMMON_ATTRIBUTES.put("Age", "21");
        COMMON_ATTRIBUTES.put("Name", "Hypot Hetical");
        COMMON_ATTRIBUTES.put("Nickname", "HH");

         * Set secure attributes.
         * NOTE: Ignore the use of Strings here, it's being used for convenience only.
         * In real implementations, JPasswordField.getPassword() would send the arrays directly.
        SECURE_ATTRIBUTES.put("Username", "Hypothetical".toCharArray());
        SECURE_ATTRIBUTES.put("Password", "LetMePass_Word".toCharArray());

         * For demosntration purposes, I make the three encryption layer-levels I mention.
         * To leave no doubt the code works, I use real file IO.
        //File without encryption.
        //File with encryption to secure attributes only.
        //File completely encrypted, including re-encryption of secure attributes.

         * Show contents of all three encryption levels, from file.
        System.out.println("NO ENCRYPTION: \n" + readFile_NoDecryption(NO_ENCRYPTION) + "\n\n\n");
        System.out.println("SINGLE LAYER ENCRYPTION: \n" + readFile_NoDecryption(SINGLE_LAYER) + "\n\n\n");
        System.out.println("DOUBLE LAYER ENCRYPTION: \n" + readFile_NoDecryption(DOUBLE_LAYER) + "\n\n\n");

         * Decryption is demonstrated with the Double-Layer encryption file.
        //Descrypt first layer. (file content) (REMEMBER: Layers are in reverse order from writing).
        String decryptedContent = readFile_ApplyDecryption(DOUBLE_LAYER);
        System.out.println("READ: [first layer decrypted]\n" + decryptedContent + "\n\n\n");
        //Decrypt second layer (secure data).
        for (String line : decryptedContent.split("\n")) {
            String[] pair = line.split(": ", 2);
            if (pair[0].equalsIgnoreCase("Username") || pair[0].equalsIgnoreCase("Password")) {
                System.out.println("Decrypted: " + pair[0] + ": " + decrypt(pair[1]));

    private static String encrypt(byte[] property) throws GeneralSecurityException {
        SecretKeyFactory keyFactory = SecretKeyFactory.getInstance("PBEWithMD5AndDES");
        SecretKey key = keyFactory.generateSecret(new PBEKeySpec(PASSWORD));
        Cipher pbeCipher = Cipher.getInstance("PBEWithMD5AndDES");
        pbeCipher.init(Cipher.ENCRYPT_MODE, key, new PBEParameterSpec(SALT, 20));

        //Encrypt and save to temporary storage.
        String encrypted = Base64.encodeBytes(pbeCipher.doFinal(property));

        //Cleanup data-sources - Leave no traces behind.
        for (int i = 0; i < property.length; i++) {
            property[i] = 0;
        property = null;

        //Return encryption result.
        return encrypted;

    private static String encrypt(char[] property) throws GeneralSecurityException {
        //Prepare and encrypt.
        byte[] bytes = new byte[property.length];
        for (int i = 0; i < property.length; i++) {
            bytes[i] = (byte) property[i];
        String encrypted = encrypt(bytes);

         * Cleanup property here. (child data-source 'bytes' is cleaned inside 'encrypt(byte[])').
         * It's not being done because the sources are being used multiple times for the different layer samples.
//      for (int i = 0; i < property.length; i++) { //cleanup allocated data.
//          property[i] = 0;
//      }
//      property = null; //de-allocate data (set for GC).
//      System.gc(); //Attempt triggering garbage-collection.

        return encrypted;

    private static String encrypt(String property) throws GeneralSecurityException {
        String encrypted = encrypt(property.getBytes());
         * Strings can't really have their allocated data cleaned before CG,
         * that's why secure data should be handled with char[] or byte[].
         * Still, don't forget to set for GC, even for data of sesser importancy;
         * You are making everything safer still, and freeing up memory as bonus.
        property = null;
        return encrypted;

    private static String decrypt(String property) throws GeneralSecurityException, IOException {
        SecretKeyFactory keyFactory = SecretKeyFactory.getInstance("PBEWithMD5AndDES");
        SecretKey key = keyFactory.generateSecret(new PBEKeySpec(PASSWORD));
        Cipher pbeCipher = Cipher.getInstance("PBEWithMD5AndDES");
        pbeCipher.init(Cipher.DECRYPT_MODE, key, new PBEParameterSpec(SALT, 20));
        return new String(pbeCipher.doFinal(Base64.decode(property)));

    private static void create_EncryptedFile(
                    String fileName,
                    Map<String, String> commonAttributes,
                    Map<String, char[]> secureAttributes,
                    int layers)
                    throws GeneralSecurityException, FileNotFoundException, IOException {
        StringBuilder sb = new StringBuilder();
        for (String k : commonAttributes.keySet()) {
            sb.append(k).append(": ").append(commonAttributes.get(k)).append(System.lineSeparator());
        //First encryption layer. Encrypts secure attribute values only.
        for (String k : secureAttributes.keySet()) {
            String encryptedValue;
            if (layers >= 1) {
                encryptedValue = encrypt(secureAttributes.get(k));
            } else {
                encryptedValue = new String(secureAttributes.get(k));
            sb.append(k).append(": ").append(encryptedValue).append(System.lineSeparator());

        //Prepare file and file-writing process.
        File f = new File(DESKTOP, fileName);
        if (!f.getParentFile().exists()) {
        } else if (f.exists()) {
        BufferedWriter bw = new BufferedWriter(new FileWriter(f));
        //Second encryption layer. Encrypts whole file content including previously encrypted stuff.
        if (layers >= 2) {
        } else {

    private static String readFile_NoDecryption(String fileName) throws FileNotFoundException, IOException, GeneralSecurityException {
        File f = new File(DESKTOP, fileName);
        BufferedReader br = new BufferedReader(new FileReader(f));
        StringBuilder sb = new StringBuilder();
        while (br.ready()) {
        return sb.toString();

    private static String readFile_ApplyDecryption(String fileName) throws FileNotFoundException, IOException, GeneralSecurityException {
        File f = new File(DESKTOP, fileName);
        BufferedReader br = new BufferedReader(new FileReader(f));
        StringBuilder sb = new StringBuilder();
        while (br.ready()) {
        return decrypt(sb.toString());

A full example, addressing every protection step, would far exceed what I think is reasonable for this question, since it's about "what are the steps", not "how to apply them".

It would far over-size my answer (at last the sampling), while other questions here on S.O. are already directed on the "How to" of those steps, being far more appropriate, and offering far better explanation and sampling on the implementation of each individual step.

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Nice response. There is definitely a common theme here. +1 for the char[] recommendation. –  Athens Holloway Oct 19 '12 at 20:00
I love this answer, but at the risk of it becoming too verbose, I'd love to see an example of each step's source code implemented. –  A_Elric Oct 21 '12 at 15:24
[*] - @Damien.Bell For the sake of not leaving your request unattended, I've included an example that covers the first (~) and second steps. --- As for why not all steps, well, as you can see, it is not something you can sample with a tiny little snippet of code; And an example for network protection would require even more than that of the local scope, even if to be partially pseudo-coded. Obfuscation, also, has a very wide range of methods of implementation, and although it's simple in concept, the fact it is applied to the source-code itself means it's hard to explain in samples. –  TheLima Oct 22 '12 at 20:17
Finally, run an obfuscation tool like ProGuard on your source. Java byte code is notoriously easy to disassemble and analyse. Obfuscation is the icing on your security cake, and makes it much more difficult for someone to reverse engineer your code and potentially hack your security measures. See: proguard.sourceforge.net/index.html#manual/introduction.html –  Jarrod Smith Oct 24 '12 at 14:40
@JarrodSmith - That is exactly what I mean with the obfuscation part. +1 for the nice way of explanation and for pointing to a good tool. –  TheLima Oct 24 '12 at 16:27

If you are using basic auth, you should couple that with SSL to avoid passing your credentials in base64 encoded plain text. You don't want to make it easy for someone sniffing your packets to get your credentials. Also, don't hard code your credentials in your source code. Make them configurable. read them from a config file. You should encrypt the credentials before storing them in a config file and your app should decrypt the credentials once it reads them from the config file.

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Can you provide some examples on how you would do this programmatically? –  A_Elric Oct 17 '12 at 15:36
check out stackoverflow.com/questions/20227/… –  Athens Holloway Oct 17 '12 at 15:45
  1. secure computer that initializes the request (your computer). if that machine is insecure, nothing will protect you. that's completely separate topic (up-to-date software, properly configured, strong passwords, encrypted swap, hardware sniffers, physical security etc)
  2. secure your storage the medium you use for storing your credentials should be encrypted. decrypted credentials should be stored only in ram of your secured machine
  3. people that maintain that hardware must be trusted (probably the weakest link)
  4. they also should know as few as possible. that's a protection from rubber-hose cryptanalysis
  5. your credentials should fulfil all the security recommendation (proper length, randomness, single purpose etc)
  6. your connection to remote service must be secured (SSL etc)
  7. your remote service must be trusted (see points 1-4). plus it should be hacking prone (if your data/service is insecure then securing your credentials is pointless). plus it should not store your credentials

plus probably thousand things i forgot about :)

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Your answer covers both client' and server-side protection steps in a summarized, yet very clear and "followable" way. I liked it very much! [+1] --- There are a few things I think should be explained just a tiny little further, and since there were a few spelling and formatting issues present too, I took the liberty to edit. --- The general structure, as well as most of the text, is unchanged. I just added what I thought was lacking, and reorganized the existing text to fit with it. I hope you don't mind. –  TheLima Nov 18 '12 at 17:00
i don't mind spelling, links, grammar, etc. thank you for that. however, if you want to add something plz don't change my answer. if you feel something is missing add a comment or create your own answer. i prefer to sign only under my own words –  piotrek Nov 18 '12 at 19:49
I understand. --- Well, my edit didn't really change your answer's meaning in any way. Most of it was fixing spelling and format, and the formatting that needs fixing requires slight text changes anyways. The few additional explanations were just extensions of what was already being said. --- In any case, please fix the spelling (uppercase at phrase-starts is the main problem) and format (separate "topic" from "content" correctly), applying the necessary to-fit adjustments to the text. Also, see #7's "prone". --- And, of course, taking the additional into account when doing it would be nice. –  TheLima Nov 19 '12 at 0:48

It's generally not good advice to encrypt credentials. Something that is encrypted can be decrypted. Common best practice is to store passwords as a salted hash.A hash cannot be decrypted. The salt is added to defeat brute force guessing with Rainbow Tables. As long as every userId has its own random salt, an attacker would have to generate a set of tables for every possible value of the salt, quickly making this attack impossible within the lifespan of the universe. This is the reason why websites generally can't send you your password if you have forgotten it, but they can only 'reset' it. They don't have your password stored, only a hash of it.

Password hashing is not very difficult to implement yourself, but it's such a common problem to solve that countless others have done it for you. I've found jBcrypt easy to use.

As an extra protection against brute force guessing of passwords, it is common best practice to force a userId or remote IP to wait a few seconds after a certain number of login attempts with the wrong password. Without this, a brute force attacker can guess as many passwords per second as your server can handle. There is a huge difference between being able to guess 100 passwords per 10 second period or a million.

I get the impression that you have included the username/password combination in your source code. This means that if you ever want to change the password, you'll have to recompile, stop and restart your service, and it also means that anyone who gets a hold of your source code, also has your passwords. Common best practice is never to do this, but to store the credentials (username, password hash, password salt) in your datastore

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I am still unsure, but I think "... I'm trying to pull from a RESTful api ..." indicates the OP is not talking about the server-side environment. It is my belief he is talking about a client-side application that authenticates with a server. __ As such, the client-side should only protect the credentials in-storage (encryption) and securely send them to the server (TSL / SSL - Which inherently apply encryption and message-digesting) ___ The message-digest (for register or comparison) should be done server-side only, as otherwise it would be insecure. ___ It's all on my answer's comments. –  TheLima Oct 26 '12 at 17:37
Also, your answer is indicating the use of an possibly outdated API (jBcrypt - It's on beta v0.3, and last updated in January 2010, which is a possible indication that the project has died out). Java already has it's own standard message-digesting classes, and I don't think there is any essential need for 3rd party APIs. –  TheLima Oct 26 '12 at 17:49
It looks like you're right about the client vs server side confusion. I'd still recommend putting the credentials in a data store, not in the source code, but you're right about needing encryption rather than hashing in that case. –  Mzzl Oct 29 '12 at 10:57
Bcrypt is not a message digest, but a blowfish based key generation scheme. I use it as part of SpringSecurity, which is very much alive. Plain message digest algorithms such as SHA-1 or MD5, are not intended for password hashing, but for fast hashing. If you need to hash a chunk of video or text as fast as possible, you can use these, or their more modern replacements. If you're interested in hashing passwords, speed is your enemy. The faster the hashing algorithm used, the faster a brute force attack can succeed. –  Mzzl Oct 29 '12 at 11:01
Hmm. Some google-searching suggests me Blowfish is an encryption (decryptable) while jBcrypt's page indicates it uses a blowfish-based message-diggest (a cryptographic hash function) ... I'm confused. ___ SpringSecurity is alive, Bcrypt might not be; they are separate projects. ___ Anyway, Java 1.7 already incorporates the blowfish cipher, and the modular structure of the Security class allows for it's easy-enough implementation as a security.Provider even in older versions, so I still don't see the need for 3rd-party APIs. –  TheLima Oct 29 '12 at 19:22

If you cannot trust the environment your program is running in, but need to authenticate via plain passwords or certificates, there is nothing you can do to secure your credentials. The most you can do is obfuscate them with the methods described in the other answers.

As a workaround, I'd run all requests to the RESTful api through a proxy that you can trust and do the cleartext password authentication from there.

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"If you cannot trust the environment your program is running in, ..., there is nothing you can do to secure your credentials." - If that was true, pretty much every application that has an "auto-fill" option for the credentials would be in very deep trouble. ___ Many two-ended applications (this question's?) like multiplayer games and web-based applications store the account credentials locally, and they rarely have any serious security trouble. ___ Data is never ever 100% safe, regardless of environment. A trusted environment is just another security ("safer") step. –  TheLima Oct 26 '12 at 18:46
Well, in the given scenario, you can obfuscate your credentials, but not reach 100% (cryptographic) security. The most you can hope for is to make it so complicated for the attacker to get the clear text passwords, that it is not worth their effort. All it takes to get the stored passwords of a typical web based application, is to go to your browser's options menu and select "show passwords". –  Twilite Oct 27 '12 at 13:24
You can never reach 100% security, be it in this or in any other scenario. This is because in the end, it all comes down to sequences of 0 and 1 in memory, which is achieved following an specific set of logical rules, which inherently is always somehow reversible. ___ The basis of cryptographic security is, always was, and will probably always be, "to make it so difficult it isn't worth the effort." ___ Lastly, you are mistaking browser's auto-fill/login (which is for websites), with application's auto-auth/login (which is saved to encrypted files and there only). –  TheLima Oct 28 '12 at 2:02
You should read up on cryptography. There are various methods to irreversibly encrypt data, just have a look at "one way hashes" (md5) or public key cryptography, where it's not possible to decrypt encrypted data, even if you have both the encrypted data and the encryption key. With these methods you gain factual 100% security. –  Twilite Oct 28 '12 at 10:22
Actually, no. - Like I said, the methods follow an specific set of logical rules, and those have a way to reverse. ___ In the case of cryptographic hash functions, if the hacker knows the set of rules that generated the hash, he can RE a few bits of the original data and get a fair general idea of what the original's length might be. --- It's a lot of brute-forcing and guesswork, but it's not 100% unbreakable. And it's far from the infinite number of attempts of 100% security ___ I don't think any hacker would bother trying tough; It's way far from worth the effort, no matter the reward. –  TheLima Oct 28 '12 at 21:31

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