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The Bouncy Castle Crypto package is a Java implementation of cryptographic algorithms. This jar contains JCE provider and lightweight API for the Bouncy Castle Cryptography APIs for JDK 1.5 and up.
package org.bouncycastle.crypto.test;
import org.bouncycastle.crypto.Digest;
import org.bouncycastle.crypto.digests.SHA1Digest;
import org.bouncycastle.crypto.digests.SHA256Digest;
import org.bouncycastle.crypto.generators.HKDFBytesGenerator;
import org.bouncycastle.crypto.params.HKDFParameters;
import org.bouncycastle.util.encoders.Hex;
import org.bouncycastle.util.test.SimpleTest;
/**
* HKDF tests - vectors from RFC 5869, + 2 more, 101 and 102
*/
public class HKDFGeneratorTest
extends SimpleTest
{
public HKDFGeneratorTest()
{
}
private void compareOKM(int test, byte[] calculatedOKM, byte[] testOKM)
{
if (!areEqual(calculatedOKM, testOKM))
{
fail("HKDF failed generator test " + test);
}
}
public void performTest()
{
{
// === A.1. Test Case 1 - Basic test case with SHA-256 ===
Digest hash = new SHA256Digest();
byte[] ikm = Hex
.decode("0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b");
byte[] salt = Hex.decode("000102030405060708090a0b0c");
byte[] info = Hex.decode("f0f1f2f3f4f5f6f7f8f9");
int l = 42;
byte[] okm = new byte[l];
HKDFParameters params = new HKDFParameters(ikm, salt, info);
HKDFBytesGenerator hkdf = new HKDFBytesGenerator(hash);
hkdf.init(params);
hkdf.generateBytes(okm, 0, l);
compareOKM(1, okm, Hex.decode(
"3cb25f25faacd57a90434f64d0362f2a" +
"2d2d0a90cf1a5a4c5db02d56ecc4c5bf" +
"34007208d5b887185865"));
}
// === A.2. Test Case 2 - Test with SHA-256 and longer inputs/outputs
// ===
{
Digest hash = new SHA256Digest();
byte[] ikm = Hex.decode("000102030405060708090a0b0c0d0e0f"
+ "101112131415161718191a1b1c1d1e1f"
+ "202122232425262728292a2b2c2d2e2f"
+ "303132333435363738393a3b3c3d3e3f"
+ "404142434445464748494a4b4c4d4e4f");
byte[] salt = Hex.decode("606162636465666768696a6b6c6d6e6f"
+ "707172737475767778797a7b7c7d7e7f"
+ "808182838485868788898a8b8c8d8e8f"
+ "909192939495969798999a9b9c9d9e9f"
+ "a0a1a2a3a4a5a6a7a8a9aaabacadaeaf");
byte[] info = Hex.decode("b0b1b2b3b4b5b6b7b8b9babbbcbdbebf"
+ "c0c1c2c3c4c5c6c7c8c9cacbcccdcecf"
+ "d0d1d2d3d4d5d6d7d8d9dadbdcdddedf"
+ "e0e1e2e3e4e5e6e7e8e9eaebecedeeef"
+ "f0f1f2f3f4f5f6f7f8f9fafbfcfdfeff");
int l = 82;
byte[] okm = new byte[l];
HKDFParameters params = new HKDFParameters(ikm, salt, info);
HKDFBytesGenerator hkdf = new HKDFBytesGenerator(hash);
hkdf.init(params);
hkdf.generateBytes(okm, 0, l);
compareOKM(2, okm, Hex.decode(
"b11e398dc80327a1c8e7f78c596a4934" +
"4f012eda2d4efad8a050cc4c19afa97c" +
"59045a99cac7827271cb41c65e590e09" +
"da3275600c2f09b8367793a9aca3db71" +
"cc30c58179ec3e87c14c01d5c1f3434f" +
"1d87"));
}
{
// === A.3. Test Case 3 - Test with SHA-256 and zero-length
// salt/info ===
// setting salt to an empty byte array means that the salt is set to
// HashLen zero valued bytes
// setting info to null generates an empty byte array as info
// structure
Digest hash = new SHA256Digest();
byte[] ikm = Hex
.decode("0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b");
byte[] salt = new byte[0];
byte[] info = null;
int l = 42;
byte[] okm = new byte[l];
HKDFParameters params = new HKDFParameters(ikm, salt, info);
HKDFBytesGenerator hkdf = new HKDFBytesGenerator(hash);
hkdf.init(params);
hkdf.generateBytes(okm, 0, l);
compareOKM(3, okm, Hex.decode(
"8da4e775a563c18f715f802a063c5a31" +
"b8a11f5c5ee1879ec3454e5f3c738d2d" +
"9d201395faa4b61a96c8"));
}
{
// === A.4. Test Case 4 - Basic test case with SHA-1 ===
Digest hash = new SHA1Digest();
byte[] ikm = Hex.decode("0b0b0b0b0b0b0b0b0b0b0b");
byte[] salt = Hex.decode("000102030405060708090a0b0c");
byte[] info = Hex.decode("f0f1f2f3f4f5f6f7f8f9");
int l = 42;
byte[] okm = new byte[l];
HKDFParameters params = new HKDFParameters(ikm, salt, info);
HKDFBytesGenerator hkdf = new HKDFBytesGenerator(hash);
hkdf.init(params);
hkdf.generateBytes(okm, 0, l);
compareOKM(4, okm, Hex.decode(
"085a01ea1b10f36933068b56efa5ad81" +
"a4f14b822f5b091568a9cdd4f155fda2" +
"c22e422478d305f3f896"));
}
// === A.5. Test Case 5 - Test with SHA-1 and longer inputs/outputs ===
{
Digest hash = new SHA1Digest();
byte[] ikm = Hex.decode("000102030405060708090a0b0c0d0e0f"
+ "101112131415161718191a1b1c1d1e1f"
+ "202122232425262728292a2b2c2d2e2f"
+ "303132333435363738393a3b3c3d3e3f"
+ "404142434445464748494a4b4c4d4e4f");
byte[] salt = Hex.decode("606162636465666768696a6b6c6d6e6f"
+ "707172737475767778797a7b7c7d7e7f"
+ "808182838485868788898a8b8c8d8e8f"
+ "909192939495969798999a9b9c9d9e9f"
+ "a0a1a2a3a4a5a6a7a8a9aaabacadaeaf");
byte[] info = Hex.decode("b0b1b2b3b4b5b6b7b8b9babbbcbdbebf"
+ "c0c1c2c3c4c5c6c7c8c9cacbcccdcecf"
+ "d0d1d2d3d4d5d6d7d8d9dadbdcdddedf"
+ "e0e1e2e3e4e5e6e7e8e9eaebecedeeef"
+ "f0f1f2f3f4f5f6f7f8f9fafbfcfdfeff");
int l = 82;
byte[] okm = new byte[l];
HKDFParameters params = new HKDFParameters(ikm, salt, info);
HKDFBytesGenerator hkdf = new HKDFBytesGenerator(hash);
hkdf.init(params);
hkdf.generateBytes(okm, 0, l);
compareOKM(5, okm, Hex.decode(
"0bd770a74d1160f7c9f12cd5912a06eb" +
"ff6adcae899d92191fe4305673ba2ffe" +
"8fa3f1a4e5ad79f3f334b3b202b2173c" +
"486ea37ce3d397ed034c7f9dfeb15c5e" +
"927336d0441f4c4300e2cff0d0900b52" +
"d3b4"));
}
{
// === A.6. Test Case 6 - Test with SHA-1 and zero-length salt/info
// ===
// setting salt to null should generate a new salt of HashLen zero
// valued bytes
Digest hash = new SHA1Digest();
byte[] ikm = Hex
.decode("0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b");
byte[] salt = null;
byte[] info = new byte[0];
int l = 42;
byte[] okm = new byte[l];
HKDFParameters params = new HKDFParameters(ikm, salt, info);
HKDFBytesGenerator hkdf = new HKDFBytesGenerator(hash);
hkdf.init(params);
hkdf.generateBytes(okm, 0, l);
compareOKM(6, okm, Hex.decode(
"0ac1af7002b3d761d1e55298da9d0506" +
"b9ae52057220a306e07b6b87e8df21d0" +
"ea00033de03984d34918"));
}
{
// === A.7. Test Case 7 - Test with SHA-1, salt not provided,
// zero-length info ===
// (salt defaults to HashLen zero octets)
// this test is identical to test 6 in all ways bar the IKM value
Digest hash = new SHA1Digest();
byte[] ikm = Hex
.decode("0c0c0c0c0c0c0c0c0c0c0c0c0c0c0c0c0c0c0c0c0c0c");
byte[] salt = null;
byte[] info = new byte[0];
int l = 42;
byte[] okm = new byte[l];
HKDFParameters params = new HKDFParameters(ikm, salt, info);
HKDFBytesGenerator hkdf = new HKDFBytesGenerator(hash);
hkdf.init(params);
hkdf.generateBytes(okm, 0, l);
compareOKM(7, okm, Hex.decode(
"2c91117204d745f3500d636a62f64f0a" +
"b3bae548aa53d423b0d1f27ebba6f5e5" +
"673a081d70cce7acfc48"));
}
{
// === A.101. Additional Test Case - Test with SHA-1, skipping extract
// zero-length info ===
// (salt defaults to HashLen zero octets)
// this test is identical to test 7 in all ways bar the IKM value
// which is set to the PRK value
Digest hash = new SHA1Digest();
byte[] ikm = Hex
.decode("2adccada18779e7c2077ad2eb19d3f3e731385dd");
byte[] info = new byte[0];
int l = 42;
byte[] okm = new byte[l];
HKDFParameters params = HKDFParameters.skipExtractParameters(ikm, info);
HKDFBytesGenerator hkdf = new HKDFBytesGenerator(hash);
hkdf.init(params);
hkdf.generateBytes(okm, 0, l);
compareOKM(101, okm, Hex.decode(
"2c91117204d745f3500d636a62f64f0a" +
"b3bae548aa53d423b0d1f27ebba6f5e5" +
"673a081d70cce7acfc48"));
}
// === A.102. Additional Test Case - Test with SHA-1, maximum output ===
// (salt defaults to HashLen zero octets)
// this test is identical to test 7 in all ways bar the IKM value
Digest hash = new SHA1Digest();
byte[] ikm = Hex
.decode("2adccada18779e7c2077ad2eb19d3f3e731385dd");
byte[] info = new byte[0];
int l = 255 * hash.getDigestSize();
byte[] okm = new byte[l];
HKDFParameters params = HKDFParameters.skipExtractParameters(ikm, info);
HKDFBytesGenerator hkdf = new HKDFBytesGenerator(hash);
hkdf.init(params);
hkdf.generateBytes(okm, 0, l);
int zeros = 0;
for (int i = 0; i < hash.getDigestSize(); i++)
{
if (okm[i] == 0)
{
zeros++;
}
}
if (zeros == hash.getDigestSize())
{
fail("HKDF failed generator test " + 102);
}
}
public String getName()
{
return "HKDF";
}
public static void main(
String[] args)
{
runTest(new HKDFGeneratorTest());
}
}