I am sign and encrypt a text file of 12 GB using (bcpg-jdk16-145.jar , bcprov-jdk16-145.jar) jar files. File will be encrypted and signed approximately 18 minutes in Windows Vista , jdk 1.6. But when I try to encrypt it on LINUX/UNIX system process will become very slow I takes 1 to 1:30 hours. Kindly suggest.

Code for signing file is as below :

private static void signFile(String fileName, InputStream keyIn,
        OutputStream out, char[] pass, boolean armor, int bufferSize)
        throws IOException, NoSuchAlgorithmException,
        NoSuchProviderException, PGPException, SignatureException {
    if (armor) {
        out = new ArmoredOutputStream(out);
    PGPSecretKey pgpSec = readSecretKey(keyIn);
    PGPPrivateKey pgpPrivKey = pgpSec.extractPrivateKey(pass, "BC");
    PGPSignatureGenerator sGen = new PGPSignatureGenerator(pgpSec
            .getPublicKey().getAlgorithm(), PGPUtil.SHA1, "BC");
    sGen.initSign(PGPSignature.BINARY_DOCUMENT, pgpPrivKey);
    Iterator it = pgpSec.getPublicKey().getUserIDs();
    if (it.hasNext()) {
        PGPSignatureSubpacketGenerator spGen = new PGPSignatureSubpacketGenerator();
        spGen.setSignerUserID(false, (String) it.next());
    PGPCompressedDataGenerator cGen = new PGPCompressedDataGenerator(
    BCPGOutputStream bOut = new BCPGOutputStream(cGen.open(out));
    File file = new File(fileName);
    PGPLiteralDataGenerator lGen = new PGPLiteralDataGenerator();
    OutputStream lOut = lGen.open(bOut, PGPLiteralData.BINARY, file);
    FileInputStream fIn = new FileInputStream(file);
    byte[] byteArray = new byte[bufferSize];
    while (fIn.read(byteArray) >= 0) {



  • Please post the -jmx etc. flags / settings you are using. Are both systems equal in IO/CPU/memory performance? – ooxi May 10 '14 at 15:39
  • both machines having default VM settings. Buffer size which i was going to pass is 2000 bytes. When I increased buffer size performance is even down of Windows 7 system – Sharjeel Afzal May 10 '14 at 15:43
  • 1
    And what about the performance of the systems per se? Have you run a performance test in order to compare both systems (or better boot first windows than linux on the same machine)? – ooxi May 11 '14 at 9:27
  • 1
    You are ignoring the return value of fIn.read(byteArray). Disregarding the speed issue, with the very high probability the result of that code is complete garbage because the call to fIn.read(byteArray) is not guaranteed to read exactly byteArray.length bytes, but you pass the whole array to the lOut.write() and sGen.update(). – Oleg Estekhin May 12 '14 at 15:37
  • Beside the comments from @OlegEstekhin try to use a BufferedInputStream instead of FileInputStream. – SubOptimal May 14 '14 at 12:02

This is an educated guess, maybe you're having a problem with /dev/random?

PGP is going to use a secure hash, which in Java will probably rely on SecureRandom. The default source for SecureRandom in Linux (but not Windows) is /dev/random.

The problem is that SecureRandom will block waiting for /dev/random to gather more entropy if it currently can't satisfy the number of bits requested.

Try installing a utility called "haveged" (apt-get install or whatever). It will gather more entropy for your linux system and prevent this behavior.

  • Can you please recommend some open source API which will not use /dev/random – Sharjeel Afzal May 20 '14 at 10:35
  • With SecureRandom you can set a provider and seed (ex: stackoverflow.com/questions/13923247/…). However, any serious cryptographic library will not do that as it is not a reliable way to generate randomness. Installing haveged is your simplest option. – spudone May 20 '14 at 17:15
  • Thank you spudone. Unfortunately haveged does not support Sun sparc architecture. Is there any other option – Sharjeel Afzal May 21 '14 at 10:37
  • There may be a way to configure BouncyCastle to use /dev/urandom but I'm not very familiar with it. Another option is rngd, which can feed /dev/random with data from a hardware device. If you don't have such a hardware device you could try abusing it to use urandom (something like "rngd -r /dev/urandom"). This will increase your entropy in /dev/random even though it's now a pseudoRNG. – spudone May 21 '14 at 18:52

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