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In Swing, the password field has a getPassword() (returns char[]) method instead of the usual getText() (returns String) method. Similarly, I have come across a suggestion not to use String to handle passwords.

Why does String pose a threat to security when it comes to passwords? It feels inconvenient to use char[].

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Can you cite the source of the suggestion? I can't really think of a reason for char[] being more secure except maybe the most amateurish of threats. – Viruzzo Jan 16 '12 at 14:23
@Viruzzo take a look at the javadocs. The getText() method of JPasswordField is deprecated in favour of getPassword() "for security reasons". – dogbane Jan 16 '12 at 14:32
char[]? Why not byte[]? In any thread dump/heap analyzer you can see Strings, and it's easy to notice if one contains password. For char[] it's harder, but still, if your heap analyzer will display chars one by one it'll be same as String. For byte[] it's unlikely. – mvmn Jan 17 '12 at 22:38
Just to provide a valid scenario where this might matter, it's a common practice in forensics to ensure that no computers requiring investigation are turned off before their memory is dumped, in case they are utilizing software encryption. Even the best encryption system needs to maintain a state capable of decryption. – Zenexer Jun 15 '13 at 11:23
@scottlafoy Both char[] and String objects are going to be passed by reference; individual char values will not be. It's when objects are passed by value, not reference, that multiple copies are created. Generally, this is not an issue, as such objects are usually designed to be small. – Zenexer Jun 15 '13 at 11:25

13 Answers 13

up vote 2619 down vote accepted

Strings are immutable. That means once you've created the string, if another process can dump memory, there's no way (aside from reflection) you can get rid of the data before garbage collection kicks in.

With an array, you can explicitly wipe the data after you're done with it. You can overwrite the array with anything you like, and the password won't be present anywhere in the system, even before garbage collection.

So yes, this is a security concern - but even using char[] only reduces the window of opportunity for an attacker, and it's only for this specific type of attack.

As noted in comments, it's possible that arrays being moved by the garbage collector will leave stray copies of the data in memory. I believe this is implementation-specific - the garbage collector may clear all memory as it goes, to avoid this sort of thing. Even if it does, there's still the time during which the char[] contains the actual characters as an attack window.

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My understanding is that with the amount of memory reorganizing that can be done with the runtime, copies of even a char[] might be left in memory and never be cleared until that memory is reused. I don't know a source that validates that though. Either way I doubt the String would get cleared at GC time but rather at the time an Object is reallocated over that memory. – Mark Peters Jan 16 '12 at 14:30
@Mark Peters: If the GC kicks in, before you empty the char-array, you have another copy. But this copy is at least in a heavy used area of the memory, so the chances are high it gets overwritten fast. – Mnementh Jan 16 '12 at 14:32
@Xeon06: In .NET there's SecureString which is better yet - but relatively painful to use. – Jon Skeet Jan 16 '12 at 20:42
If a GC causes a char[] to get relocated, the old one might exist for a little while, but would generally be in a place that would 'naturally' get overwritten before the next GC. A problem with String is references to things can sometimes stick around a lot longer than intended (e.g. clearing some implementations of List<T> might reset the count without erasing the backing store). Such things might cause a reference to a string to stick around a long time after all "useful" references have been abandoned. – supercat Nov 29 '14 at 0:39
@Andy: One issue there is that the values can get copied transparently if you're not careful - so it's still hard to really wipe things out. But I should emphasise that I'm not a security expert. – Jon Skeet Jan 5 '15 at 21:32

While other suggestions here seem valid, there is one other good reason. With plain String you have much higher chances of accidentally printing the password to logs, monitors or some other insecure place. char[] is less vulnerable.

Consider this:

public static void main(String[] args) {
    Object pw = "Password";
    System.out.println("String: " + pw);

    pw = "Password".toCharArray();
    System.out.println("Array: " + pw);


String: Password
Array: [C@5829428e
share|improve this answer
That's.. actually not SUCH a bad idea. Sure it's bad to rely on it, but we all know how easy something like this can slip through. I'd like to give at least +2 for the clever idea ;) – Voo Jan 16 '12 at 19:45
@voo, but i doubt you'd log via direct writing to stream and concatenation. logging framework would transform the char[] into good output – bestsss Jan 18 '12 at 1:14
@Thr4wn Default implementation of toString is classname@hashcode. [C represents char[], the rest is hexadecimal hash code. – Konrad Garus Jan 20 '12 at 12:39
Interesting idea. I would like to point out that this does not transpose to Scala which has a meaningful toString for arrays. – mauhiz Jul 9 '15 at 8:36
I'd write a Password class type for this. It's less obscure, and harder to accidentally pass somewhere. – rightfold Aug 31 '15 at 17:32

To quote an official document, the Java Cryptography Architecture guide says this about char[] vs. String passwords (about password-based encryption, but this is more generally about passwords of course):

It would seem logical to collect and store the password in an object of type java.lang.String. However, here's the caveat: Objects of type String are immutable, i.e., there are no methods defined that allow you to change (overwrite) or zero out the contents of a String after usage. This feature makes String objects unsuitable for storing security sensitive information such as user passwords. You should always collect and store security sensitive information in a char array instead.

Guideline 2-2 of the Secure Coding Guidelines for the Java Programming Language, Version 4.0 also says something similar (although it is originally in the context of logging):

Guideline 2-2: Do not log highly sensitive information

Some information, such as Social Security numbers (SSNs) and passwords, is highly sensitive. This information should not be kept for longer than necessary nor where it may be seen, even by administrators. For instance, it should not be sent to log files and its presence should not be detectable through searches. Some transient data may be kept in mutable data structures, such as char arrays, and cleared immediately after use. Clearing data structures has reduced effectiveness on typical Java runtime systems as objects are moved in memory transparently to the programmer.

This guideline also has implications for implementation and use of lower-level libraries that do not have semantic knowledge of the data they are dealing with. As an example, a low-level string parsing library may log the text it works on. An application may parse an SSN with the library. This creates a situation where the SSNs are available to administrators with access to the log files.

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this is exactly the flawed/bogus reference I talk about below Jon's answer, it's a well known source w/ a lot of criticism. – bestsss Jan 22 '12 at 20:45
@bestass can you please also cite a reference? – user961954 Aug 11 '12 at 11:27
@bestass sorry, but String is pretty well understood and how it behaves in the JVM... there are good reasons to use char[] in place of String when dealing with passwords in a secure manner. – SnakeDoc Jun 27 '14 at 0:50
up vote 200 down vote

Character arrays (char[]) can be cleared after use by setting each character to zero and Strings not. If someone can somehow see the memory image, they can see a password in plain text if Strings are used, but if char[] is used, after purging data with 0's, the password is secure.

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Not secure by default. If we're talking a web application, most web containers will pass the password into the HttpServletRequest object in plaintext. If the JVM version is 1.6 or lower, it'll be in permgen space. If it's in 1.7, it'll still be readable until it gets collected. (Whenever that is.) – avgvstvs Feb 5 at 15:19

Some people believe that you have to overwrite the memory used to store the password once you no longer need it. This reduces the time window an attacker has to read the password from your system and completely ignores the fact that the attacker already needs enough access to hijack the JVM memory to do this. An attacker with that much access can catch your key events making this completely useless (AFAIK, so please correct me if I am wrong).


Thanks to the comments I have to update my answer. Apparently there are two cases where this can add a (very) minor security improvement as it reduces the time a password could land on the hard drive. Still I think it's overkill for most use cases.

  • Your target system may be badly configured or you have to assume it is and you have to be paranoid about core dumps (can be valid if the systems are not managed by an administrator).
  • Your software has to be overly paranoid to prevent data leaks with the attacker gaining access to the hardware - using things like TrueCrypt (discontinued), VeraCrypt, or CipherShed.

If possible, disabling core dumps and the swap file would take care of both problems. However, they would require administrator rights and may reduce functionality (less memory to use) and pulling RAM from a running system would still be a valid concern.

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I'd replace "completely useless" with "just a minor security improvement". For example you could get access to a memory dump if you happen to have read access to a tmp directory, a badly configured machine and a crash in your application. In that case you wouldn't be able to install a keylogger, but you could analyze the core dump. – Joachim Sauer Jan 16 '12 at 16:23
Wiping unencrypted data from memory as soon as you're done with it is considered a best practice not because it's foolproof (it's not); but because it reduces your threat exposure level. Real time attacks aren't prevented by doing this; but because it serves a a damage mitigation tool by significantly reduces the amount of data that is exposed in a retroactive attack on a memory snapshot (eg a copy of your apps memory that was written to a swap file, or that was read out of memory yanked from a running server and moved to a different one before its state failed). – Dan Neely Jan 16 '12 at 16:26
I tend to agree with the attitude of this response. I'd venture to propose most security breaches of consequence occur at a much higher level of abstraction than the bits in memory. Sure, there are probably scenarios in hyper-secure defense systems where this may be of considerable concern but seriously thinking at this level is overkill for 99% of the applications where .NET or Java are being leveraged (as it related to garbage collection). – kingdango Jan 17 '12 at 18:18
After the Heartbleed penetration of server memory, revealing passwords, I would replace the string "just a minor security improvement" with "absolutely essential to not use String for passwords, but use a char [] instead." – Peter vdL Jul 24 '14 at 5:15
@PetervdL heartbleed only allowed reading of a specific reused collection of buffers (used for both security critical data and network I/O without clearing in between - for performance reasons), you cannot combine this with a Java String since they are by design not reuseable. Nor can you read into random memory using Java to get at the contents of a String. The language and design problems that lead to heartbleed are just not possible with Java Strings. – josefx Jul 30 '14 at 17:39
  1. Strings are immutable in Java if you store password as plain text it will be available in memory until Garbage collector clears it and since Strings are used in String pool for re-usability there is pretty high chance that it will be remain in memory for long duration, which pose a security threat. Since any one who has access to memory dump can find the password in clear text
  2. Java recommendation using getPassword() method of JPasswordField which returns a char[] and deprecated getText() method which returns password in clear text stating security reason.
  3. toString() there is always a risk of printing plain text in log file or console but if use Array you won't print contents of array instead its memory location get printed.

    String strPwd = "passwd";
    char[] charPwd = new char[]{'p','a','s','s','w','d'};
    System.out.println("String password: " + strPwd );
    System.out.println("Character password: " + charPwd );

    String password: passwd

    Character password: [C@110b2345

Final thoughts: Though using char[] is not just enough you need to erase content to be more secure. I also suggest working with hash'd or encrypted password instead of plaintext and clearing it from memory as soon as authentication is completed.

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Re 3): That is the first time ever anyone has brought up an upside of the "unusual" way Java prints arrays. :-) – Thilo Jul 29 '14 at 3:35
"Since any one who has access to memory dump can find the password in clear text" How can I get an access to memory dump and find a password there? – Mohit Kanwar Jul 1 '15 at 5:44

I don't think this is a valid suggestion, but, I can at least guess at the reason.

I think the motivation is wanting to make sure that you can erase all trace of the password in memory promptly and with certainty after it is used. With a char[] you could overwrite each element of the array with a blank or something for sure. You can't edit the internal value of a String that way.

But that alone isn't a good answer; why not just make sure a reference to the char[] or String doesn't escape? Then there's no security issue. But the thing is that String objects can be intern()ed in theory and kept alive inside the constant pool. I suppose using char[] forbids this possibility.

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I wouldn't say that the problem is that your references will or will not "escape". It's just that strings will remain unmodified in memory for some additional time, while char[] can be modified, and then it's irrelevant whether it's collected or not. And since string interning needs to be done explicitly for non-literals, it's the same like telling that a char[] can be referenced by a static field. – Groo Jan 16 '12 at 17:26

The answer has already been given, but I'd like to share an issue that I discovered lately with Java standard libraries. While they take great care now of replacing password strings with char[] everywhere (which of course is a good thing), other security-critical data seems to be overlooked when it comes to clearing it from memory.

I'm thinking of e.g. the PrivateKey class. Consider a scenario where you would load a private RSA key from a PKCS#12 file, using it to perform some operation. Now in this case, sniffing the password alone wouldn't help you much as long as physical access to the key file is properly restricted. As an attacker, you would be much better off if you obtained the key directly instead of the password. The desired information can be leaked manifold, core dumps, a debugger session or swap files are just some examples.

And as it turns out, there is nothing that lets you clear the private information of a PrivateKey from memory, because there's no API that lets you wipe the bytes that form the corresponding information.

This is a bad situation, as this paper describes how this circumstance could be potentially exploited.

The OpenSSL library for example overwrites critical memory sections before private keys are freed. Since Java is garbage-collected, we would need explicit methods to wipe and invalidate private information for Java keys, which are to be applied immediately after using the key.

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One way around this is to use an implementation of PrivateKey that doesn't actually load its private content in memory: via a PKCS#11 hardware token for example. Perhaps a software implementation of PKCS#11 could take care of cleaning up the memory manually. Perhaps using something like the NSS store (which shares most of its implementation with the PKCS11 store type in Java) is better. The KeychainStore (OSX keystore) loads the full content of the private key into its PrivateKey instances, but it should not need to. (Not sure what the WINDOWS-MY KeyStore does on Windows.) – Bruno Jan 21 '12 at 13:31
@Bruno Sure, hardware-based tokens do not suffer from this, but what about situations where you are more or less forced to use a software key? Not every deployment has the budget to afford an HSM. Software key stores will at some point have to load the key into memory, so IMO we should at least be given the option to clear the memory at will again. – emboss Jan 21 '12 at 14:18
Absolutely, I was just wondering whether some software implementations equivalent to an HSM might behave better in terms of cleaning up the memory. For example, when using client-auth with Safari/OSX, the Safari process never actually sees the private key, the underlying SSL library provided by the OS talks directly to the security daemon which prompts the user for using the key from the keychain. While this is all done in software, a similar separation like this may help if signing is delegated to a different entity (even software based) that would unload or clear the memory better. – Bruno Jan 21 '12 at 14:29
@Bruno: Interesting idea, an additional indirection layer that takes care of clearing the memory would indeed solve this transparently. Writing a PKCS#11 wrapper for the software key store could already do the trick? – emboss Jan 21 '12 at 14:45

As Jon Skeet states, there is no way except by using reflection.

However, if reflection is an option for you, you can do this.

public static void main(String[] args) {
    System.out.println("please enter a password");
    // don't actually do this, this is an example only.
    Scanner in = new Scanner(System.in);
    String password = in.nextLine();


    System.out.println("password: '" + password + "'");

private static void usePassword(String password) {


private static void clearString(String password) {
    try {
        Field value = String.class.getDeclaredField("value");
        char[] chars = (char[]) value.get(password);
        Arrays.fill(chars, '*');
    } catch (Exception e) {
        throw new AssertionError(e);

when run

please enter a password
hello world
password: '***********'

Note: if the String's char[] has been copied as a part of a GC cycle, there is a chance the previous copy is somewhere in memory.

This old copy wouldn't appear in a heap dump, but if you have direct access to the raw memory of the process you could see it. In general you should avoid anyone having such access.

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Better to do also something to prevent printing the password's length which we get from '***********'. – chux Aug 27 '15 at 19:21
@chux you can use a zero width character, though this might be more confusing than useful. Its not possible to change the length of a char array without using Unsafe. ;) – Peter Lawrey Aug 27 '15 at 20:16
Because of Java 8's String Deduplication, I think doing something like that can be pretty destructive... you may end up clearing other strings in your program that by chance had the same value of the password String. Unlikely, but possible... – jamp Feb 8 at 14:48
@jamp Java 9 is expected to have this feature as well as compact string (i.e. using a byte[]]). I don't believe this happens in Java 8. – Peter Lawrey Feb 8 at 15:33
@PeterLawrey It must be enabled with a JVM argument, but it is there. Can read about it here: blog.codecentric.de/en/2014/08/… – jamp Feb 8 at 16:20

These are all the reasons , one should choose char[] array instead of String for password.

1. Since Strings are immutable in Java if you store password as plain text it will be available in memory until Garbage collector clears it and since String are used in String pool for reusability there is pretty high chance that it will be remain in memory for long duration, which pose a security threat. Since any one who has access to memory dump can find the password in clear text and that's another reason you should always used an encrypted password than plain text. Since Strings are immutable there is no way contents of Strings can be changed because any change will produce new String, while if you char[] you can still set all his element as blank or zero. So Storing password in character array clearly mitigates security risk of stealing password.

2. Java itself recommends using getPassword() method of JPasswordField which returns a char[] and deprecated getText() method which returns password in clear text stating security reason. Its good to follow advice from Java team and adhering to standard rather than going against it.

3. With String there is always a risk of printing plain text in log file or console but if use Array you won't print contents of array instead its memory location get printed. though not a real reason but still make sense.

    String strPassword="Unknown";
    char[] charPassword= new char[]{'U','n','k','w','o','n'};
    System.out.println("String password: " + strPassword);
    System.out.println("Character password: " + charPassword);

    String password: Unknown
    Character password: [C@110b053

Reference from: http://javarevisited.blogspot.com/2012/03/why-character-array-is-better-than.html#ixzz317MOiiUr

Hope this helps.

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Strings are immutable and cannot be altered once they have been created. Creating a password as a string will leave stray references to the password on the heap or on the String pool. Now if someone takes a heap dump of the Java process and carefully scans through he might be able to guess the passwords. Of course these non used strings will be garbage collected but that depends on when the GC kicks in.

On the other side char[] are mutable as soon as the authentication is done you can overwrite them with any character like all M's or backslashes. Now even if someone takes a heap dump he might not be able to get the passwords which are not currently in use. This gives you more control in the sense like clearing the Object content yourself vs waiting for the GC to do it.

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They'll only be GC'd if the JVM in question is > 1.6. Prior to 1.7, all strings were stored in permgen. – avgvstvs Feb 5 at 15:15

What about the fact that String.equals() uses short-circuit evaluation, and is therefore vulnerable to a timing attack? It may be unlikely, but you could theoretically time the password comparison in order to determine the correct sequence of characters.

public boolean equals(Object anObject) {
    if (this == anObject) {
        return true;
    if (anObject instanceof String) {
        String anotherString = (String)anObject;
        int n = value.length;
        // Quits here if Strings are different lengths.
        if (n == anotherString.value.length) {
            char v1[] = value;
            char v2[] = anotherString.value;
            int i = 0;
            // Quits here at first different character.
            while (n-- != 0) {
                if (v1[i] != v2[i])
                    return false;
            return true;
    return false;

Some more resources on timing attacks:

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But that could be there in char[] comparison as well, somewhere we would be doing the same in password validation too. so how is char[] better than string? – Mohit Kanwar Jul 1 '15 at 5:41
You're absolutely correct, the mistake can be made either way. Knowing about the problem is the most important thing here, considering there's no explicit password-comparison method in Java for either String-based or char[]-based passwords. I'd say the temptation to use compare() for Strings is a good reason to go with char[]. That way you at least have control over how the comparison is done (without extending String, which is a pain imo). – txteclipse Jul 2 '15 at 21:03

There is nothing that char array gives you vs String unless you clean it up manually after use, and I haven't seen anyone actually doing that. So to me the preference of char[] vs String is a little exaggerated.

Take a look at the widely used Spring Security library here and ask yourself - are Spring Security guys incompetent or char[] passwords just don't make much sense. When someone grabs memory dumps of your RAM be sure she'll get all the passwords even if you use sophisticated ways to hide them.

However, Java changes all the time, and some scary features like String Deduplication feature of Java 8 might intern String objects without your knowledge. But that's different conversation.

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protected by Bo Persson Aug 25 '12 at 12:51

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