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package cz.crcs.ectester.reader.test;
import cz.crcs.ectester.applet.ECTesterApplet;
import cz.crcs.ectester.applet.EC_Consts;
import cz.crcs.ectester.common.ec.*;
import cz.crcs.ectester.common.output.TestWriter;
import cz.crcs.ectester.common.test.CompoundTest;
import cz.crcs.ectester.common.test.Result;
import cz.crcs.ectester.common.test.Test;
import cz.crcs.ectester.common.test.TestCallback;
import cz.crcs.ectester.common.util.ByteUtil;
import cz.crcs.ectester.common.util.CardUtil;
import cz.crcs.ectester.common.util.ECUtil;
import cz.crcs.ectester.data.EC_Store;
import cz.crcs.ectester.reader.CardMngr;
import cz.crcs.ectester.reader.ECTesterReader;
import cz.crcs.ectester.reader.command.Command;
import cz.crcs.ectester.reader.response.Response;
import javacard.security.KeyPair;
import javax.crypto.KeyAgreement;
import java.io.IOException;
import java.math.BigInteger;
import java.security.*;
import java.security.spec.ECParameterSpec;
import java.security.spec.ECPrivateKeySpec;
import java.security.spec.ECPublicKeySpec;
import java.security.spec.InvalidKeySpecException;
import java.util.ArrayList;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.function.BiFunction;
import java.util.function.Function;
import java.util.stream.Collectors;
import static cz.crcs.ectester.common.test.Result.ExpectedValue;
import static cz.crcs.ectester.common.test.Result.Value;
/**
* @author Jan Jancar johny@neuromancer.sk
*/
public class CardTestVectorSuite extends CardTestSuite {
public CardTestVectorSuite(TestWriter writer, ECTesterReader.Config cfg, CardMngr cardManager) {
super(writer, cfg, cardManager, "test", "The test-vectors suite contains a collection of test vectors which test basic ECDH correctness.");
}
@Override
protected void runTests() throws Exception {
/* Set original curves (secg/nist/brainpool). Set keypairs from test vectors.
* Do ECDH both ways, export and verify that the result is correct.
*/
Map<String, EC_KAResult> results = EC_Store.getInstance().getObjects(EC_KAResult.class, "test");
for (EC_KAResult result : results.values()) {
EC_Curve curve = EC_Store.getInstance().getObject(EC_Curve.class, result.getCurve());
EC_Params onekey = EC_Store.getInstance().getObject(EC_Keypair.class, result.getOneKey());
if (onekey == null) {
onekey = EC_Store.getInstance().getObject(EC_Key.Private.class, result.getOneKey());
}
EC_Params otherkey = EC_Store.getInstance().getObject(EC_Keypair.class, result.getOtherKey());
if (otherkey == null) {
otherkey = EC_Store.getInstance().getObject(EC_Key.Public.class, result.getOtherKey());
}
if (onekey == null || otherkey == null) {
throw new IOException("Test vector keys couldn't be located.");
}
List<Test> testVector = new LinkedList<>();
Test allocate = runTest(CommandTest.expect(new Command.Allocate(this.card, ECTesterApplet.KEYPAIR_BOTH, curve.getBits(), curve.getField()), ExpectedValue.SUCCESS));
if (!allocate.ok()) {
doTest(CompoundTest.all(ExpectedValue.SUCCESS, "No support for " + curve.getBits() + "b " + CardUtil.getKeyTypeString(curve.getField()) + ".", allocate));
continue;
}
testVector.add(allocate);
testVector.add(CommandTest.expect(new Command.Set(this.card, ECTesterApplet.KEYPAIR_BOTH, EC_Consts.CURVE_external, curve.getParams(), curve.flatten()), ExpectedValue.SUCCESS));
testVector.add(CommandTest.expect(new Command.Set(this.card, ECTesterApplet.KEYPAIR_LOCAL, EC_Consts.CURVE_external, EC_Consts.PARAMETER_S, onekey.flatten(EC_Consts.PARAMETER_S)), ExpectedValue.SUCCESS));
testVector.add(CommandTest.expect(new Command.Set(this.card, ECTesterApplet.KEYPAIR_REMOTE, EC_Consts.CURVE_external, EC_Consts.PARAMETER_W, otherkey.flatten(EC_Consts.PARAMETER_W)), ExpectedValue.SUCCESS));
testVector.add(CommandTest.function(new Command.ECDH(this.card, ECTesterApplet.KEYPAIR_REMOTE, ECTesterApplet.KEYPAIR_LOCAL, ECTesterApplet.EXPORT_TRUE, EC_Consts.TRANSFORMATION_NONE, result.getJavaCardKA()), new TestCallback<CommandTestable>() {
@Override
public Result apply(CommandTestable testable) {
Response.ECDH dh = (Response.ECDH) testable.getResponse();
if (!dh.successful())
return new Result(Value.FAILURE, "ECDH was unsuccessful.");
if (!dh.hasSecret())
return new Result(Value.FAILURE, "ECDH response did not contain the derived secret.");
if (!ByteUtil.compareBytes(dh.getSecret(), 0, result.getData(0), 0, dh.secretLength())) {
int firstDiff = ByteUtil.diffBytes(dh.getSecret(), 0, result.getData(0), 0, dh.secretLength());
return new Result(Value.FAILURE, "ECDH derived secret does not match the test-vector, first difference was at byte " + String.valueOf(firstDiff) + ".");
}
return new Result(Value.SUCCESS);
}
}));
if (cfg.cleanup) {
testVector.add(CommandTest.expect(new Command.Cleanup(this.card), ExpectedValue.ANY));
}
doTest(CompoundTest.greedyAll(ExpectedValue.SUCCESS, "Test vector " + result.getId() + ".", testVector.toArray(new Test[0])));
}
KeyAgreement ka;
Signature sig;
KeyFactory kf;
MessageDigest md;
try {
ka = KeyAgreement.getInstance("ECDH", "BC");
sig = Signature.getInstance("ECDSAwithSHA1", "BC");
kf = KeyFactory.getInstance("ECDH", "BC");
md = MessageDigest.getInstance("SHA1", "BC");
} catch (NoSuchAlgorithmException | NoSuchProviderException ex) {
return;
}
List<EC_Curve> testCurves = new ArrayList<>();
testCurves.addAll(EC_Store.getInstance().getObjects(EC_Curve.class, "secg").values().stream().filter((curve) -> curve.getField() == KeyPair.ALG_EC_FP).collect(Collectors.toList()));
testCurves.addAll(EC_Store.getInstance().getObjects(EC_Curve.class, "brainpool").values().stream().filter((curve) -> curve.getField() == KeyPair.ALG_EC_FP).collect(Collectors.toList()));
for (EC_Curve curve : testCurves) {
List<Test> testVector = new LinkedList<>();
Test allocate = runTest(CommandTest.expect(new Command.Allocate(this.card, ECTesterApplet.KEYPAIR_BOTH, curve.getBits(), curve.getField()), ExpectedValue.SUCCESS));
if (!allocate.ok()) {
doTest(CompoundTest.all(ExpectedValue.SUCCESS, "No support for " + curve.getBits() + "b " + CardUtil.getKeyTypeString(curve.getField()) + ".", allocate));
continue;
}
testVector.add(allocate);
testVector.add(CommandTest.expect(new Command.Set(this.card, ECTesterApplet.KEYPAIR_BOTH, EC_Consts.CURVE_external, curve.getParams(), curve.flatten()), ExpectedValue.SUCCESS));
testVector.add(CommandTest.expect(new Command.Generate(this.card, ECTesterApplet.KEYPAIR_BOTH), ExpectedValue.SUCCESS));
CommandTest exportLocal = CommandTest.expect(new Command.Export(this.card, ECTesterApplet.KEYPAIR_LOCAL, EC_Consts.KEY_PUBLIC, EC_Consts.PARAMETER_W), ExpectedValue.ANY);
CommandTest exportRemote = CommandTest.expect(new Command.Export(this.card, ECTesterApplet.KEYPAIR_REMOTE, EC_Consts.KEY_PRIVATE, EC_Consts.PARAMETER_S), ExpectedValue.ANY);
testVector.add(exportLocal);
testVector.add(exportRemote);
BiFunction<Response.Export, Response.Export, Key[]> getKeys = (localData, remoteData) -> {
byte[] pkey = localData.getParameter(ECTesterApplet.KEYPAIR_LOCAL, EC_Consts.PARAMETER_W);
byte[] skey = remoteData.getParameter(ECTesterApplet.KEYPAIR_REMOTE, EC_Consts.PARAMETER_S);
ECParameterSpec spec = curve.toSpec();
ECPrivateKeySpec privKeySpec = new ECPrivateKeySpec(new BigInteger(1, skey), spec);
ECPublicKeySpec pubKeySpec = new ECPublicKeySpec(ECUtil.fromX962(pkey, curve.toCurve()), spec);
PrivateKey privKey;
PublicKey pubKey;
try {
privKey = kf.generatePrivate(privKeySpec);
pubKey = kf.generatePublic(pubKeySpec);
} catch (InvalidKeySpecException ex) {
return null;
}
return new Key[]{privKey, pubKey};
};
TestCallback<CommandTestable> kaCallback = new TestCallback<CommandTestable>() {
@Override
public Result apply(CommandTestable testable) {
Response.ECDH ecdhData = (Response.ECDH) testable.getResponse();
if (!ecdhData.successful())
return new Result(Value.FAILURE, "ECDH was unsuccessful.");
if (!ecdhData.hasSecret()) {
return new Result(Value.FAILURE, "ECDH response did not contain the derived secret.");
}
byte[] secret = ecdhData.getSecret();
Response.Export localData = (Response.Export) exportLocal.getResponse();
Response.Export remoteData = (Response.Export) exportRemote.getResponse();
Key[] keys = getKeys.apply(localData, remoteData);
if (keys == null) {
return new Result(Value.SUCCESS, "Result could not be verified. keyData unavailable.");
}
PrivateKey privKey = (PrivateKey) keys[0];
PublicKey pubKey = (PublicKey) keys[1];
try {
ka.init(privKey);
ka.doPhase(pubKey, true);
byte[] rawDerived = ka.generateSecret();
int fieldSize = (curve.getBits() + 7) / 8;
if (rawDerived.length < fieldSize) {
byte[] padded = new byte[fieldSize];
System.arraycopy(rawDerived, 0, padded, fieldSize - rawDerived.length, rawDerived.length);
rawDerived = padded;
}
byte[] derived = md.digest(rawDerived);
if (secret.length != derived.length) {
if (secret.length < derived.length) {
return new Result(Value.FAILURE, String.format("Derived secret was shorter than expected: %d vs %d (expected).", secret.length, derived.length));
} else {
return new Result(Value.FAILURE, String.format("Derived secret was longer than expected: %d vs %d (expected).", secret.length, derived.length));
}
}
int diff = ByteUtil.diffBytes(derived, 0, secret, 0, secret.length);
if (diff == secret.length) {
return new Result(Value.SUCCESS, "Derived secret matched expected value.");
} else {
return new Result(Value.FAILURE, "Derived secret does not match expected value, first difference was at byte " + String.valueOf(diff) + ".");
}
} catch (InvalidKeyException ex) {
return new Result(Value.SUCCESS, "Result could not be verified. " + ex.getMessage());
}
}
};
Test ecdhTest = CommandTest.function(new Command.ECDH(this.card, ECTesterApplet.KEYPAIR_LOCAL, ECTesterApplet.KEYPAIR_REMOTE, ECTesterApplet.EXPORT_TRUE, EC_Consts.TRANSFORMATION_NONE, EC_Consts.KeyAgreement_ALG_EC_SVDP_DH), kaCallback);
byte[] data = new byte[32];
TestCallback<CommandTestable> sigCallback = new TestCallback<CommandTestable>() {
@Override
public Result apply(CommandTestable testable) {
Response.ECDSA ecdsaData = (Response.ECDSA) testable.getResponse();
if (!ecdsaData.successful())
return new Result(Value.FAILURE, "ECDSA was unsuccessful.");
if (!ecdsaData.hasSignature()) {
return new Result(Value.FAILURE, "ECDSA response did not contain the signature.");
}
byte[] signature = ecdsaData.getSignature();
Response.Export localData = (Response.Export) exportLocal.getResponse();
Response.Export remoteData = (Response.Export) exportRemote.getResponse();
Key[] keys = getKeys.apply(localData, remoteData);
if (keys == null) {
return new Result(Value.SUCCESS, "Result could not be verified. keyData unavailable.");
}
PublicKey pubKey = (PublicKey) keys[1];
try {
sig.initVerify(pubKey);
sig.update(data);
if (sig.verify(signature)) {
return new Result(Value.SUCCESS, "Signature verified.");
} else {
return new Result(Value.FAILURE, "Signature failed to verify.");
}
} catch (InvalidKeyException | SignatureException ex) {
return new Result(Value.SUCCESS, "Result could not be verified. " + ex.getMessage());
}
}
};
Test ecdsaTest = CommandTest.function(new Command.ECDSA_sign(this.card, ECTesterApplet.KEYPAIR_LOCAL, EC_Consts.Signature_ALG_ECDSA_SHA, ECTesterApplet.EXPORT_TRUE, data), sigCallback);
testVector.add(CompoundTest.all(ExpectedValue.SUCCESS, "", ecdhTest, ecdsaTest));
if (cfg.cleanup) {
testVector.add(CommandTest.expect(new Command.Cleanup(this.card), ExpectedValue.ANY));
}
doTest(CompoundTest.greedyAll(ExpectedValue.SUCCESS, "Validation test on " + curve.getId() + ".", testVector.toArray(new Test[0])));
}
}
}
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