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70 lines
2.8 KiB
Markdown
70 lines
2.8 KiB
Markdown
# Passwords
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In Java based applications, passing passwords as `String` objects has the
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[disadvantage](https://stackoverflow.com/a/8881376/11150851) that you have to rely on garbage collection to clean up
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once they are no longer used.
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For that reason, `char[]` is the preferred method for dealing with passwords.
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Once a password is no longer used, the character array can simply be overwritten to remove the sensitive data from
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memory.
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## Passphrase
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PGPainless uses a wrapper class `Passphrase`, which takes care for the wiping of unused passwords:
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```java
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Passphrase passphrase = new Passphrase(new char[] {'h', 'e', 'l', 'l', 'o'});
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assertTrue(passphrase.isValid());
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assertArrayEquals(new char[] {'h', 'e', 'l', 'l', 'o'}, passphrase.getChars()):
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// Once we are done, we can clean the data
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passphrase.clear();
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assertFalse(passphrase.isValid());
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assertNull(passphrase.getChars());
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```
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Furthermore, `Passphrase` can also wrap empty passphrases, which increases null-safety of the API:
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```java
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Passphrase empty = Passphrase.emptyPassphrase();
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assertTrue(empty.isValid());
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assertTrue(empty.isEmpty());
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assertNull(empty.getChars());
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empty.clear();
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assertFalse(empty.isValid());
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```
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## SecretKeyRingProtector
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There are certain operations that require you to provide the passphrase for a key.
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Examples are decryption of messages, or creating signatures / certifications.
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The primary way of telling PGPainless, which password to use for a certain key is the `SecretKeyRingProtector`
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interface.
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There are multiple implementations of this interface, which may or may not suite your needs:
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```java
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// If your key is not password protected, this implementation is for you:
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SecretKeyRingProtector unprotected = SecretKeyRingProtector
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.unprotectedKeys();
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// If you use a single passphrase for all (sub-) keys, take this:
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SecretKeyRingProtector singlePassphrase = SecretKeyRingProtector
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.unlockAnyKeyWith(passphrase);
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// If you want to be flexible, use this:
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CachingSecretKeyRingProtector flexible = SecretKeyRingProtector
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.defaultSecretKeyRingProtector(passphraseCallback);
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```
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The last example shows how to instantiate the `CachingSecretKeyRingProtector` with a `SecretKeyPassphraseProvider`.
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As the name suggests, the `CachingSecretKeyRingProtector` caches passphrases in a map.
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If you try to unlock a protected secret key for which no passphrase is cached, the `getPassphraseFor()` method of
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the `SecretKeyPassphraseProvider` will be called to interactively ask for the missing passphrase. Afterwards, the
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acquired passphrase will be cached for future use.
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Most `SecretKeyRingProtector` implementations can be instantiated with custom `KeyRingProtectionSettings`.
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By default, most implementations use `KeyRingProtectionSettings.secureDefaultSettings()` which corresponds to iterated
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and salted S2K using AES256 and SHA256 with an iteration count of 65536.
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