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Microsoft Windows 2000 and later versions expose the Data Protection API (DPAPI) that encrypts data for a per-user or per-system context. The caller does not provide a key with which to encrypt the data. Rather, the data is encrypted with a key derived from the user or system credentials.

This API is conveniently exposed in .NET via the ProtectedData class:

// Encrypts the data in a specified byte array and returns a byte array
// that contains the encrypted data.
public static byte[] Protect(
    byte[] userData,
    byte[] optionalEntropy,
    DataProtectionScope scope

// Decrypts the data in a specified byte array and returns a byte array
// that contains the decrypted data.
public static byte[] Unprotect(
    byte[] encryptedData,
    byte[] optionalEntropy,
    DataProtectionScope scope

Is there an equivalent API on Linux? A bonus would be that it integrates conveniently with Java.

What are my alternatives if there isn't one?

share|improve this question

It doesn't look any more (or less) advanced than PGP, or Pretty Good Privacy. There are APIs available for PGP, and the one that I recall others speaking kindly of is Bouncy Castle.

Here's an example of how someone used Bouncy Castle.

Better APIs or solutions may be available, depending on your specific needs.

share|improve this answer
Does PGP utilize user or system credentials? It was my understanding that for PGP you need to provide your own public/private key pair. – Matthew Rodatus May 17 '11 at 15:16
The credentials in DPAPI is just an RSA public/private key pair, who you consider the key to belong to (system or user) is your own perception, not a function of the key. – Edwin Buck May 17 '11 at 15:18
@EdwinBuck "Because DPAPI is focused on providing protection for users and requires a password to provide this protection, it logically uses the user's logon password for protection." The issue here is that you dont have access to the users logon password, but the function gives you encryption with which the password is the key. This lets you not worry about other users (even root) gaining access to your data (in the linux case with the additional caveat that the user is not currently logged on). – chacham15 May 11 '13 at 1:34

There are two options for user-level key stores on Linux:

This does not address the need for a system-level key store.

share|improve this answer
-1 because although these are tied to the user account, they are not Linux alternatives to DPAPI. See – Robert Christian Apr 16 '14 at 17:48
@rob, can you elaborate on why they are not "alternatives to DPAPI"? They may be different architecturally, but they achieve the same goal: allow applications to store information securely without taking care of user authentication. – deGoot Jul 21 '14 at 19:18

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