open-keychain/OpenKeychain/src/test/java/org/sufficientlysecure/keychain/pgp/PgpEncryptDecryptTest.java

/*
 * Copyright (C) 2014-2017 Vincent Breitmoser <v.breitmoser@mugenguild.com>
 *
 * This program is free software: you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */

package org.sufficientlysecure.keychain.pgp;


import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.InputStream;
import java.io.PrintStream;
import java.security.Security;
import java.util.ArrayList;
import java.util.Date;
import java.util.Iterator;

import org.apache.tools.ant.util.StringUtils;
import org.bouncycastle.bcpg.BCPGInputStream;
import org.bouncycastle.bcpg.Packet;
import org.bouncycastle.bcpg.PacketTags;
import org.bouncycastle.bcpg.PublicKeyAlgorithmTags;
import org.bouncycastle.bcpg.PublicKeyEncSessionPacket;
import org.bouncycastle.bcpg.SymmetricKeyAlgorithmTags;
import org.bouncycastle.bcpg.sig.KeyFlags;
import org.bouncycastle.jce.provider.BouncyCastleProvider;
import org.junit.Assert;
import org.junit.Before;
import org.junit.BeforeClass;
import org.junit.Test;
import org.junit.runner.RunWith;
import org.openintents.openpgp.OpenPgpDecryptionResult;
import org.openintents.openpgp.OpenPgpMetadata;
import org.openintents.openpgp.OpenPgpSignatureResult;
import org.robolectric.RuntimeEnvironment;
import org.robolectric.shadows.ShadowLog;
import org.sufficientlysecure.keychain.KeychainTestRunner;
import org.sufficientlysecure.keychain.operations.results.DecryptVerifyResult;
import org.sufficientlysecure.keychain.operations.results.OperationResult.LogType;
import org.sufficientlysecure.keychain.operations.results.PgpSignEncryptResult;
import org.sufficientlysecure.keychain.pgp.SecurityProblem.InsecureBitStrength;
import org.sufficientlysecure.keychain.pgp.SecurityProblem.InsecureEncryptionAlgorithm;
import org.sufficientlysecure.keychain.pgp.SecurityProblem.MissingMdc;
import org.sufficientlysecure.keychain.daos.KeyWritableRepository;
import org.sufficientlysecure.keychain.service.SaveKeyringParcel;
import org.sufficientlysecure.keychain.service.SaveKeyringParcel.SubkeyChange;
import org.sufficientlysecure.keychain.service.input.CryptoInputParcel;
import org.sufficientlysecure.keychain.service.input.RequiredInputParcel;
import org.sufficientlysecure.keychain.service.input.RequiredInputParcel.RequiredInputType;
import org.sufficientlysecure.keychain.support.KeyringTestingHelper;
import org.sufficientlysecure.keychain.support.KeyringTestingHelper.RawPacket;
import org.sufficientlysecure.keychain.util.InputData;
import org.sufficientlysecure.keychain.util.Passphrase;
import org.sufficientlysecure.keychain.util.TestingUtils;

import static org.hamcrest.core.AnyOf.anyOf;
import static org.hamcrest.core.Is.is;


@SuppressWarnings("WeakerAccess")
@RunWith(KeychainTestRunner.class)
public class PgpEncryptDecryptTest {

    static Passphrase mSymmetricPassphrase = TestingUtils.testPassphrase0;

    static UncachedKeyRing mStaticRing1, mStaticRing2, mStaticRingInsecure;
    static Passphrase mKeyPhrase1, mKeyPhrase2;

    static PrintStream oldShadowStream;

    @BeforeClass
    public static void setUpOnce() throws Exception {
        Security.insertProviderAt(new BouncyCastleProvider(), 1);
        oldShadowStream = ShadowLog.stream;
        // ShadowLog.stream = System.out;

        /* generation parameters:

        SaveKeyringParcel parcel = new SaveKeyringParcel();
        parcel.mAddSubKeys.add(new SaveKeyringParcel.SubkeyAdd(
                Algorithm.ECDSA, 0, SaveKeyringParcel.Curve.NIST_P256, KeyFlags.CERTIFY_OTHER, 0L));
        parcel.mAddSubKeys.add(new SaveKeyringParcel.SubkeyAdd(
                Algorithm.ECDSA, 0, SaveKeyringParcel.Curve.NIST_P256, KeyFlags.SIGN_DATA, 0L));
        parcel.mAddSubKeys.add(new SaveKeyringParcel.SubkeyAdd(
                Algorithm.ECDH, 0, SaveKeyringParcel.Curve.NIST_P256, KeyFlags.ENCRYPT_COMMS, 0L));
        parcel.mAddSubKeys.add(new SaveKeyringParcel.SubkeyAdd(
                Algorithm.ECDH, 0, SaveKeyringParcel.Curve.NIST_P256, KeyFlags.ENCRYPT_COMMS, 0L));
        parcel.mAddUserIds.add("bloom");
        parcel.setNewUnlock(new ChangeUnlockParcel(new Passphrase("RsKrW^raOPcnQ=ZJr-pP")));

        PgpEditKeyResult result = op.createSecretKeyRing(parcel);
        */

        mKeyPhrase1 = new Passphrase("RsKrW^raOPcnQ=ZJr-pP");
        mStaticRing1 = KeyringTestingHelper.readRingFromResource("/test-keys/encrypt_decrypt_key_1.sec");

        /* generation:
        SaveKeyringParcel parcel = new SaveKeyringParcel();
        parcel.mAddSubKeys.add(new SaveKeyringParcel.SubkeyAdd(
                Algorithm.ECDSA, 0, SaveKeyringParcel.Curve.NIST_P256, KeyFlags.CERTIFY_OTHER, 0L));
        parcel.mAddSubKeys.add(new SaveKeyringParcel.SubkeyAdd(
                Algorithm.ECDSA, 0, SaveKeyringParcel.Curve.NIST_P256, KeyFlags.SIGN_DATA, 0L));
        parcel.mAddSubKeys.add(new SaveKeyringParcel.SubkeyAdd(
                Algorithm.ECDH, 0, SaveKeyringParcel.Curve.NIST_P256, KeyFlags.ENCRYPT_COMMS, 0L));
        parcel.mAddUserIds.add("belle");
        parcel.setNewUnlock(new ChangeUnlockParcel(new Passphrase("x")));

        PgpKeyOperation op = new PgpKeyOperation(new ProgressScaler());
        PgpEditKeyResult result = op.createSecretKeyRing(parcel);
        new FileOutputStream("/tmp/key.sec").write(result.getRing().getEncoded());
        */

        mKeyPhrase2 = new Passphrase("x");
        mStaticRing2 = KeyringTestingHelper.readRingFromResource("/test-keys/encrypt_decrypt_key_2.sec");

        /* generation parameters (insecure key, requires removal of of security checks!):

        SaveKeyringParcel parcel = new SaveKeyringParcel();
        parcel.mAddSubKeys.add(new SaveKeyringParcel.SubkeyAdd(
                Algorithm.RSA, 1024, null, KeyFlags.CERTIFY_OTHER, 0L));
        parcel.mAddSubKeys.add(new SaveKeyringParcel.SubkeyAdd(
                Algorithm.RSA, 1024, null, KeyFlags.SIGN_DATA, 0L));
        parcel.mAddSubKeys.add(new SaveKeyringParcel.SubkeyAdd(
                Algorithm.RSA, 1024, null, KeyFlags.ENCRYPT_COMMS, 0L));
        parcel.mAddUserIds.add("eve");
        parcel.setNewUnlock(new ChangeUnlockParcel(new Passphrase("")));

        PgpEditKeyResult result = new PgpKeyOperation(new ProgressScaler()).createSecretKeyRing(parcel);
        Assert.assertTrue("initial test key creation must succeed", result.success());
        Assert.assertNotNull("initial test key creation must succeed", result.getRing());
        new FileOutputStream("/tmp/key.sec").write(result.getRing().getEncoded());
        */

        mStaticRingInsecure = KeyringTestingHelper.readRingFromResource("/test-keys/encrypt_decrypt_key_insecure.sec");
    }

    @Before
    public void setUp() {
        KeyWritableRepository databaseInteractor =
                KeyWritableRepository.create(RuntimeEnvironment.application);

        // don't log verbosely here, we're not here to test imports
        ShadowLog.stream = oldShadowStream;

        databaseInteractor.saveSecretKeyRing(mStaticRing1);
        databaseInteractor.saveSecretKeyRing(mStaticRing2);
        databaseInteractor.saveSecretKeyRing(mStaticRingInsecure);

        // ok NOW log verbosely!
        ShadowLog.stream = System.out;
    }

    @Test
    public void testSymmetricEncryptDecrypt() {

        String plaintext = "dies ist ein plaintext ☭";
        byte[] ciphertext;

        { // encrypt data with a given passphrase
            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(plaintext.getBytes());

            PgpSignEncryptOperation op = new PgpSignEncryptOperation(RuntimeEnvironment.application,
                    KeyWritableRepository.create(RuntimeEnvironment.application), null);

            InputData data = new InputData(in, in.available());

            PgpSignEncryptData.Builder pgpData = PgpSignEncryptData.builder();
            pgpData.setSymmetricPassphrase(mSymmetricPassphrase);
            pgpData.setSymmetricEncryptionAlgorithm(
                    PgpSecurityConstants.OpenKeychainSymmetricKeyAlgorithmTags.AES_128);

            PgpSignEncryptResult result = op.execute(pgpData.build(),
                    CryptoInputParcel.createCryptoInputParcel(new Date()), data, out);

            Assert.assertTrue("encryption must succeed", result.success());

            ciphertext = out.toByteArray();
        }

        { // decryption with same passphrase should yield the same plaintext

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(ciphertext);
            InputData data = new InputData(in, in.available());

            PgpDecryptVerifyOperation op = new PgpDecryptVerifyOperation(RuntimeEnvironment.application,
                    KeyWritableRepository.create(RuntimeEnvironment.application), null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder()
                    .setAllowSymmetricDecryption(true)
                    .build();
            DecryptVerifyResult result = op.execute(
                    input, CryptoInputParcel.createCryptoInputParcel(mSymmetricPassphrase), data, out);

            Assert.assertTrue("decryption must succeed", result.success());
            Assert.assertArrayEquals("decrypted ciphertext should equal plaintext",
                    out.toByteArray(), plaintext.getBytes());
            Assert.assertEquals("decryptionResult should be RESULT_ENCRYPTED",
                    OpenPgpDecryptionResult.RESULT_ENCRYPTED, result.getDecryptionResult().getResult());
            Assert.assertEquals("signatureResult should be RESULT_NO_SIGNATURE",
                    OpenPgpSignatureResult.RESULT_NO_SIGNATURE, result.getSignatureResult().getResult());

            CryptoInputParcel cryptoInput = result.getCachedCryptoInputParcel();
            Assert.assertEquals("cached session keys must be empty",
                    0, cryptoInput.getCryptoData().size());

            OpenPgpMetadata metadata = result.getDecryptionMetadata();
            Assert.assertEquals("filesize must be correct",
                    out.toByteArray().length, metadata.getOriginalSize());
        }

        { // decryption with a bad passphrase should fail

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(ciphertext);
            InputData data = new InputData(in, in.available());

            PgpDecryptVerifyOperation op = new PgpDecryptVerifyOperation(RuntimeEnvironment.application,
                    KeyWritableRepository.create(RuntimeEnvironment.application), null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder()
                    .setAllowSymmetricDecryption(true)
                    .build();
            DecryptVerifyResult result = op.execute(input,
                    CryptoInputParcel.createCryptoInputParcel(new Passphrase(new String(mSymmetricPassphrase.getCharArray()) + "x")),
                    data, out);

            Assert.assertFalse("decryption must fail", result.success());
            Assert.assertEquals("decrypted plaintext should be empty", 0, out.size());
            Assert.assertNull("decryptionResult should be null",
                    result.getDecryptionResult());
            Assert.assertNull("signatureResult should be null",
                    result.getSignatureResult());
        }

        { // decryption with an unset passphrase should fail

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(ciphertext);
            InputData data = new InputData(in, in.available());

            PgpDecryptVerifyOperation op = new PgpDecryptVerifyOperation(RuntimeEnvironment.application,
                    KeyWritableRepository.create(RuntimeEnvironment.application), null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder()
                    .setAllowSymmetricDecryption(true)
                    .build();
            DecryptVerifyResult result = op.execute(input,
                    CryptoInputParcel.createCryptoInputParcel(), data, out);

            Assert.assertFalse("decryption must fail", result.success());
            Assert.assertEquals("decrypted plaintext should be empty", 0, out.size());
            Assert.assertNull("decryptionResult should be null",
                    result.getDecryptionResult());
            Assert.assertNull("signatureResult should be null",
                    result.getSignatureResult());
        }

        { // decryption if symmetric decryption isn't allowed should fail

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(ciphertext);
            InputData data = new InputData(in, in.available());

            PgpDecryptVerifyOperation op = new PgpDecryptVerifyOperation(RuntimeEnvironment.application,
                    KeyWritableRepository.create(RuntimeEnvironment.application), null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder().build();
            DecryptVerifyResult result = op.execute(input,
                    CryptoInputParcel.createCryptoInputParcel(), data, out);

            Assert.assertFalse("decryption must fail", result.success());
            Assert.assertEquals("decrypted plaintext should be empty", 0, out.size());
            Assert.assertNull("decryptionResult should be null",
                    result.getDecryptionResult());
            Assert.assertNull("signatureResult should be null",
                    result.getSignatureResult());
        }

    }

    @Test
    public void testAsymmetricSignLiteral() {

        String plaintext = "dies ist ein plaintext ☭";
        byte[] ciphertext;

        { // encrypt data with key
            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(plaintext.getBytes());

            PgpSignEncryptOperation op = new PgpSignEncryptOperation(RuntimeEnvironment.application,
                    KeyWritableRepository.create(RuntimeEnvironment.application), null);

            InputData data = new InputData(in, in.available());

            PgpSignEncryptData.Builder pgpData = PgpSignEncryptData.builder();
            // only sign, and not as cleartext
            pgpData.setSignatureMasterKeyId(mStaticRing1.getMasterKeyId());
            pgpData.setSignatureSubKeyId(KeyringTestingHelper.getSubkeyId(mStaticRing1, 1));
            pgpData.setCleartextSignature(false);
            pgpData.setDetachedSignature(false);

            PgpSignEncryptResult result = op.execute(pgpData.build(),
                    CryptoInputParcel.createCryptoInputParcel(mKeyPhrase1), data, out);
            Assert.assertTrue("signing must succeed", result.success());

            ciphertext = out.toByteArray();
        }

        { // verification should succeed

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(ciphertext);
            InputData data = new InputData(in, in.available());

            PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(null, null, null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder().build();
            DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(), data, out);

            Assert.assertTrue("verification must succeed", result.success());
            Assert.assertArrayEquals("verification text should equal plaintext",
                    out.toByteArray(), plaintext.getBytes());
            Assert.assertEquals("decryptionResult should be RESULT_NOT_ENCRYPTED",
                    OpenPgpDecryptionResult.RESULT_NOT_ENCRYPTED, result.getDecryptionResult().getResult());
            Assert.assertEquals("signatureResult should be RESULT_VALID_CONFIRMED",
                    OpenPgpSignatureResult.RESULT_VALID_KEY_CONFIRMED, result.getSignatureResult().getResult());

            OpenPgpMetadata metadata = result.getDecryptionMetadata();
            Assert.assertEquals("filesize must be correct",
                    out.toByteArray().length, metadata.getOriginalSize());

        }

    }

    @Test
    public void testAsymmetricSignCleartext() {

        String plaintext = "dies ist ein\r\nplaintext\n ☭";
        byte[] ciphertext;

        { // encrypt data with key
            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(plaintext.getBytes());

            PgpSignEncryptOperation op = new PgpSignEncryptOperation(RuntimeEnvironment.application,
                    KeyWritableRepository.create(RuntimeEnvironment.application), null);

            InputData data = new InputData(in, in.available());

            PgpSignEncryptData.Builder pgpData = PgpSignEncryptData.builder();
            // only sign, as cleartext
            pgpData.setSignatureMasterKeyId(mStaticRing1.getMasterKeyId());
            pgpData.setSignatureSubKeyId(KeyringTestingHelper.getSubkeyId(mStaticRing1, 1));
            pgpData.setCleartextSignature(true);
            pgpData.setEnableAsciiArmorOutput(true);
            pgpData.setDetachedSignature(false);

            PgpSignEncryptResult result = op.execute(pgpData.build(),
                    CryptoInputParcel.createCryptoInputParcel(mKeyPhrase1), data, out);
            Assert.assertTrue("signing must succeed", result.success());

            ciphertext = out.toByteArray();
        }

        Assert.assertTrue("clearsigned text must contain plaintext (ignoring newlines)",
                new String(ciphertext).replace("\r\n", "").contains(plaintext.replace("\r", "").replace("\n", "")));

        { // verification should succeed

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(ciphertext);
            InputData data = new InputData(in, in.available());

            PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(null, null, null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder().build();
            DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(), data, out);

            Assert.assertTrue("verification must succeed", result.success());

            Assert.assertTrue("verification text should equal plaintext (ignoring newlines)",
                    new String(out.toByteArray()).replace(StringUtils.LINE_SEP, "")
                            .equals(plaintext.replace("\r", "").replace("\n", "")));
            Assert.assertEquals("decryptionResult should be RESULT_NOT_ENCRYPTED",
                    OpenPgpDecryptionResult.RESULT_NOT_ENCRYPTED, result.getDecryptionResult().getResult());
            Assert.assertEquals("signatureResult should be RESULT_VALID_CONFIRMED",
                    OpenPgpSignatureResult.RESULT_VALID_KEY_CONFIRMED, result.getSignatureResult().getResult());

            OpenPgpMetadata metadata = result.getDecryptionMetadata();
            Assert.assertEquals("filesize must be correct",
                    out.toByteArray().length, metadata.getOriginalSize());

        }

    }

    @Test
    public void testAsymmetricSignDetached() {

        String plaintext = "dies ist ein plaintext ☭";
        byte[] detachedSignature;

        { // encrypt data with key
            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(plaintext.getBytes());

            PgpSignEncryptOperation op = new PgpSignEncryptOperation(RuntimeEnvironment.application,
                    KeyWritableRepository.create(RuntimeEnvironment.application), null);

            InputData data = new InputData(in, in.available());

            PgpSignEncryptData.Builder pgpData = PgpSignEncryptData.builder();
            // only sign, as cleartext
            pgpData.setSignatureMasterKeyId(mStaticRing1.getMasterKeyId());
            pgpData.setSignatureSubKeyId(KeyringTestingHelper.getSubkeyId(mStaticRing1, 1));
            pgpData.setDetachedSignature(true);

            PgpSignEncryptResult result = op.execute(pgpData.build(),
                    CryptoInputParcel.createCryptoInputParcel(mKeyPhrase1), data, out);
            Assert.assertTrue("signing must succeed", result.success());

            detachedSignature = result.getDetachedSignature();
        }

        { // verification should succeed

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(plaintext.getBytes());
            InputData data = new InputData(in, in.available());

            PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(null, null, null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder()
                    .setDetachedSignature(detachedSignature)
                    .build();
            DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(), data, out);

            Assert.assertTrue("verification must succeed", result.success());
            Assert.assertArrayEquals("verification text should equal plaintext (save for a newline)",
                    plaintext.getBytes(), out.toByteArray());
            Assert.assertEquals("decryptionResult should be RESULT_NOT_ENCRYPTED",
                    OpenPgpDecryptionResult.RESULT_NOT_ENCRYPTED, result.getDecryptionResult().getResult());
            Assert.assertEquals("signatureResult should be RESULT_VALID_CONFIRMED",
                    OpenPgpSignatureResult.RESULT_VALID_KEY_CONFIRMED, result.getSignatureResult().getResult());

            // TODO should detached verify return any metadata?
            // OpenPgpMetadata metadata = result.getDecryptionMetadata();
            // Assert.assertEquals("filesize must be correct",
                    // out.toByteArray().length, metadata.getOriginalSize());

        }

    }

    @Test
    public void testAsymmetricEncryptDecrypt() {

        String plaintext = "dies ist ein plaintext ☭";
        byte[] ciphertext;

        { // encrypt data with key
            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(plaintext.getBytes());

            PgpSignEncryptOperation op = new PgpSignEncryptOperation(RuntimeEnvironment.application,
                    KeyWritableRepository.create(RuntimeEnvironment.application), null);

            InputData data = new InputData(in, in.available());

            PgpSignEncryptData.Builder pgpData = PgpSignEncryptData.builder();
            pgpData.setEncryptionMasterKeyIds(new long[] { mStaticRing1.getMasterKeyId() });
            pgpData.setSymmetricEncryptionAlgorithm(
                    PgpSecurityConstants.OpenKeychainSymmetricKeyAlgorithmTags.AES_128);

            PgpSignEncryptResult result = op.execute(pgpData.build(),
                    CryptoInputParcel.createCryptoInputParcel(new Date()),
                    data, out);
            Assert.assertTrue("encryption must succeed", result.success());

            ciphertext = out.toByteArray();
        }

        { // decryption with provided passphrase should yield the same result

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(ciphertext);
            InputData data = new InputData(in, in.available());

            PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(null, null, null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder().build();
            DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(mKeyPhrase1), data, out);

            Assert.assertTrue("decryption with provided passphrase must succeed", result.success());
            Assert.assertArrayEquals("decrypted ciphertext with provided passphrase should equal plaintext",
                    out.toByteArray(), plaintext.getBytes());
            Assert.assertEquals("decryptionResult should be RESULT_ENCRYPTED",
                    OpenPgpDecryptionResult.RESULT_ENCRYPTED, result.getDecryptionResult().getResult());
            Assert.assertEquals("signatureResult should be RESULT_NO_SIGNATURE",
                    OpenPgpSignatureResult.RESULT_NO_SIGNATURE, result.getSignatureResult().getResult());

            CryptoInputParcel cryptoInput = result.getCachedCryptoInputParcel();
            Assert.assertEquals("must have one cached session key",
                    1, cryptoInput.getCryptoData().size());

            OpenPgpMetadata metadata = result.getDecryptionMetadata();
            Assert.assertEquals("filesize must be correct",
                    out.toByteArray().length, metadata.getOriginalSize());

        }

        { // decryption with passphrase cached should succeed

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(ciphertext);
            InputData data = new InputData(in, in.available());

            PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(
                    mKeyPhrase1, mStaticRing1.getMasterKeyId(), null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder().build();
            DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(), data, out);

            CryptoInputParcel cryptoInput = result.getCachedCryptoInputParcel();
            Assert.assertEquals("must have one cached session key",
                    1, cryptoInput.getCryptoData().size());

            Assert.assertTrue("decryption with cached passphrase must succeed", result.success());
            Assert.assertArrayEquals("decrypted ciphertext with cached passphrase  should equal plaintext",
                    out.toByteArray(), plaintext.getBytes());
            Assert.assertEquals("decryptionResult should be RESULT_ENCRYPTED",
                    OpenPgpDecryptionResult.RESULT_ENCRYPTED, result.getDecryptionResult().getResult());
            Assert.assertEquals("signatureResult should be RESULT_NO_SIGNATURE",
                    OpenPgpSignatureResult.RESULT_NO_SIGNATURE, result.getSignatureResult().getResult());
        }

        { // decryption with no passphrase provided should return status pending

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(ciphertext);
            InputData data = new InputData(in, in.available());

            PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(
                    null, mStaticRing1.getMasterKeyId(), null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder().build();
            DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(), data, out);

            Assert.assertFalse("decryption with no passphrase must return pending", result.success());
            Assert.assertTrue("decryption with no passphrase should return pending", result.isPending());
            Assert.assertEquals("decryption with no passphrase should return pending passphrase",
                    RequiredInputType.PASSPHRASE, result.getRequiredInputParcel().mType);
        }

    }

    @Test
    public void testMultiSubkeyEncryptSkipStripOrBadFlag() throws Exception {

        String plaintext = "dies ist ein plaintext ☭";

        byte[] ciphertext;
        long encKeyId1;

        { // encrypt data with key

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(plaintext.getBytes());

            PgpSignEncryptOperation op = new PgpSignEncryptOperation(RuntimeEnvironment.application,
                    KeyWritableRepository.create(RuntimeEnvironment.application), null);

            InputData data = new InputData(in, in.available());

            PgpSignEncryptData.Builder pgpData = PgpSignEncryptData.builder();
            pgpData.setEncryptionMasterKeyIds(new long[] { mStaticRing1.getMasterKeyId() });
            pgpData.setSymmetricEncryptionAlgorithm(
                    PgpSecurityConstants.OpenKeychainSymmetricKeyAlgorithmTags.AES_128);

            PgpSignEncryptResult result = op.execute(pgpData.build(),
                    CryptoInputParcel.createCryptoInputParcel(new Date()),
                    data, out);
            Assert.assertTrue("encryption must succeed", result.success());

            ciphertext = out.toByteArray();

            Iterator<RawPacket> packets = KeyringTestingHelper.parseKeyring(ciphertext);

            RawPacket enc1 = packets.next(), enc2 = packets.next();
            Assert.assertEquals("last packet must be encrypted data packet",
                    PacketTags.SYM_ENC_INTEGRITY_PRO, packets.next().tag);
            Assert.assertFalse("no further packets", packets.hasNext());

            Packet p;
            p = new BCPGInputStream(new ByteArrayInputStream(enc1.buf)).readPacket();
            Assert.assertTrue("first packet must be session packet", p instanceof PublicKeyEncSessionPacket);
            encKeyId1 = ((PublicKeyEncSessionPacket) p).getKeyID();

            p = new BCPGInputStream(new ByteArrayInputStream(enc2.buf)).readPacket();
            Assert.assertTrue("second packet must be session packet", p instanceof PublicKeyEncSessionPacket);
            long encKeyId2 = ((PublicKeyEncSessionPacket) p).getKeyID();

            Assert.assertNotEquals("encrypted-to subkey ids must not be equal",
                    encKeyId1, encKeyId2);
            Assert.assertThat("first packet must be encrypted to one of the subkeys",
                    KeyringTestingHelper.getSubkeyId(mStaticRing1, 2), anyOf(is(encKeyId1), is(encKeyId2)));
            Assert.assertThat("second packet must be encrypted to one of the subkeys",
                    KeyringTestingHelper.getSubkeyId(mStaticRing1, 3), anyOf(is(encKeyId1), is(encKeyId2)));

        }

        { // strip first encrypted subkey, decryption should skip it

            SaveKeyringParcel.Builder builder = SaveKeyringParcel.buildChangeKeyringParcel(
                    mStaticRing1.getMasterKeyId(), mStaticRing1.getFingerprint());
            builder.addOrReplaceSubkeyChange(SubkeyChange.createStripChange(encKeyId1));
            UncachedKeyRing modified = PgpKeyOperationTest.applyModificationWithChecks(builder.build(), mStaticRing1,
                    new ArrayList<RawPacket>(), new ArrayList<RawPacket>(),
                    CryptoInputParcel.createCryptoInputParcel(new Date(), mKeyPhrase1));

            KeyWritableRepository databaseInteractor =
                    KeyWritableRepository.create(RuntimeEnvironment.application);
            databaseInteractor.saveSecretKeyRing(modified);

            PgpDecryptVerifyOperation op = new PgpDecryptVerifyOperation(RuntimeEnvironment.application,
                    KeyWritableRepository.create(RuntimeEnvironment.application), null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder()
                    .setInputBytes(ciphertext)
                    .build();
            DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(mKeyPhrase1));

            Assert.assertTrue("decryption must succeed", result.success());
            Assert.assertTrue("decryption must have skipped first key",
                    result.getLog().containsType(LogType.MSG_DC_ASKIP_UNAVAILABLE));
        }

        { // change flags of second encrypted subkey, decryption should skip it

            SaveKeyringParcel.Builder builder = SaveKeyringParcel.buildChangeKeyringParcel(
                    mStaticRing1.getMasterKeyId(), mStaticRing1.getFingerprint());
            builder.addOrReplaceSubkeyChange(SubkeyChange.createFlagsOrExpiryChange(encKeyId1, KeyFlags.CERTIFY_OTHER, null));
            UncachedKeyRing modified = PgpKeyOperationTest.applyModificationWithChecks(builder.build(), mStaticRing1,
                    new ArrayList<RawPacket>(), new ArrayList<RawPacket>(),
                    CryptoInputParcel.createCryptoInputParcel(new Date(), mKeyPhrase1));

            KeyWritableRepository databaseInteractor =
                    KeyWritableRepository.create(RuntimeEnvironment.application);
            databaseInteractor.saveSecretKeyRing(modified);

            PgpDecryptVerifyOperation op = new PgpDecryptVerifyOperation(RuntimeEnvironment.application,
                    KeyWritableRepository.create(RuntimeEnvironment.application), null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder()
                    .setInputBytes(ciphertext)
                    .build();
            DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(mKeyPhrase1));

            Assert.assertTrue("decryption must succeed", result.success());
            Assert.assertTrue("decryption must have skipped first key",
                    result.getLog().containsType(LogType.MSG_DC_ASKIP_BAD_FLAGS));
        }

    }

    @Test
    public void testMultiSubkeyEncryptSkipRevoked() throws Exception {

        String plaintext = "dies ist ein plaintext ☭";

        { // revoke first encryption subkey of keyring in database
            SaveKeyringParcel.Builder builder = SaveKeyringParcel.buildChangeKeyringParcel(
                    mStaticRing1.getMasterKeyId(), mStaticRing1.getFingerprint());
            builder.addRevokeSubkey(KeyringTestingHelper.getSubkeyId(mStaticRing1, 2));
            UncachedKeyRing modified = PgpKeyOperationTest.applyModificationWithChecks(builder.build(), mStaticRing1,
                    new ArrayList<RawPacket>(), new ArrayList<RawPacket>(),
                    CryptoInputParcel.createCryptoInputParcel(new Date(), mKeyPhrase1));

            KeyWritableRepository databaseInteractor =
                    KeyWritableRepository.create(RuntimeEnvironment.application);
            databaseInteractor.saveSecretKeyRing(modified);
        }

        { // encrypt to this keyring, make sure it's not encrypted to the revoked subkey

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(plaintext.getBytes());

            PgpSignEncryptOperation op = new PgpSignEncryptOperation(RuntimeEnvironment.application,
                    KeyWritableRepository.create(RuntimeEnvironment.application), null);

            InputData data = new InputData(in, in.available());

            PgpSignEncryptData.Builder pgpData = PgpSignEncryptData.builder();
            pgpData.setEncryptionMasterKeyIds(new long[] { mStaticRing1.getMasterKeyId() });
            pgpData.setSymmetricEncryptionAlgorithm(
                    PgpSecurityConstants.OpenKeychainSymmetricKeyAlgorithmTags.AES_128);

            PgpSignEncryptResult result = op.execute(pgpData.build(),
                    CryptoInputParcel.createCryptoInputParcel(new Date()),
                    data, out);
            Assert.assertTrue("encryption must succeed", result.success());

            byte[] ciphertext = out.toByteArray();

            Iterator<RawPacket> packets = KeyringTestingHelper.parseKeyring(ciphertext);

            RawPacket enc1 = packets.next();
            Assert.assertEquals("last packet must be encrypted data packet",
                    PacketTags.SYM_ENC_INTEGRITY_PRO, packets.next().tag);
            Assert.assertFalse("no further packets", packets.hasNext());

            Packet p;
            p = new BCPGInputStream(new ByteArrayInputStream(enc1.buf)).readPacket();
            Assert.assertTrue("first packet must be session packet", p instanceof PublicKeyEncSessionPacket);
            Assert.assertEquals("first packet must be encrypted to second enc subkey",
                    KeyringTestingHelper.getSubkeyId(mStaticRing1, 3), ((PublicKeyEncSessionPacket) p).getKeyID());

        }

    }

    @Test
    public void testMultiAsymmetricEncryptDecrypt() {

        String plaintext = "dies ist ein plaintext ☭";
        byte[] ciphertext;

        { // encrypt data with a given passphrase
            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(plaintext.getBytes());

            PgpSignEncryptOperation op = new PgpSignEncryptOperation(RuntimeEnvironment.application,
                    KeyWritableRepository.create(RuntimeEnvironment.application), null);

            InputData data = new InputData(in, in.available());

            PgpSignEncryptData.Builder pgpData = PgpSignEncryptData.builder();
            pgpData.setEncryptionMasterKeyIds(new long[] {
                    mStaticRing1.getMasterKeyId(),
                    mStaticRing2.getMasterKeyId()
            });
            pgpData.setSymmetricEncryptionAlgorithm(
                    PgpSecurityConstants.OpenKeychainSymmetricKeyAlgorithmTags.AES_128);

            PgpSignEncryptResult result = op.execute(pgpData.build(),
                    CryptoInputParcel.createCryptoInputParcel(new Date()),
                    data, out);
            Assert.assertTrue("encryption must succeed", result.success());

            ciphertext = out.toByteArray();
        }

        { // decryption with passphrase cached should succeed for the first key

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(ciphertext);
            InputData data = new InputData(in, in.available());

            PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(
                    mKeyPhrase1, mStaticRing1.getMasterKeyId(), null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder().build();
            DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(), data, out);

            Assert.assertTrue("decryption with cached passphrase must succeed for the first key", result.success());
            Assert.assertArrayEquals("decrypted ciphertext with cached passphrase  should equal plaintext",
                    out.toByteArray(), plaintext.getBytes());
            Assert.assertEquals("decryptionResult should be RESULT_ENCRYPTED",
                    OpenPgpDecryptionResult.RESULT_ENCRYPTED, result.getDecryptionResult().getResult());
            Assert.assertEquals("signatureResult should be RESULT_NO_SIGNATURE",
                    OpenPgpSignatureResult.RESULT_NO_SIGNATURE, result.getSignatureResult().getResult());

            OpenPgpMetadata metadata = result.getDecryptionMetadata();
            Assert.assertEquals("filesize must be correct",
                    out.toByteArray().length, metadata.getOriginalSize());
        }

        { // decryption should succeed if key is allowed

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(ciphertext);
            InputData data = new InputData(in, in.available());

            // allow only the second to decrypt
            ArrayList<Long> allowed = new ArrayList<>();
            allowed.add(mStaticRing2.getMasterKeyId());

            // provide passphrase for the second, and check that the first is never asked for!
            PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(
                    mKeyPhrase2, mStaticRing2.getMasterKeyId(), null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder()
                    .setAllowedKeyIds(allowed)
                    .build();
            DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(), data, out);

            Assert.assertTrue("decryption with cached passphrase must succeed for allowed key", result.success());
            Assert.assertArrayEquals("decrypted ciphertext with cached passphrase  should equal plaintext",
                    out.toByteArray(), plaintext.getBytes());
            Assert.assertTrue("other key was skipped", result.getLog().containsType(LogType.MSG_DC_ASKIP_NOT_ALLOWED));
            Assert.assertEquals("decryptionResult should be RESULT_ENCRYPTED",
                    OpenPgpDecryptionResult.RESULT_ENCRYPTED, result.getDecryptionResult().getResult());
            Assert.assertEquals("signatureResult should be RESULT_NO_SIGNATURE",
                    OpenPgpSignatureResult.RESULT_NO_SIGNATURE, result.getSignatureResult().getResult());
        }

        { // decryption should fail if no key is allowed

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(ciphertext);
            InputData data = new InputData(in, in.available());

            // provide passphrase for the second, and check that the first is never asked for!
            PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(
                    mKeyPhrase2, mStaticRing2.getMasterKeyId(), null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder()
                    .setAllowedKeyIds(new ArrayList<Long>())
                    .build();
            DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(), data, out);

            Assert.assertFalse("decryption must fail if no key allowed", result.success());
            Assert.assertEquals("decryption must fail with key disllowed status",
                    DecryptVerifyResult.RESULT_KEY_DISALLOWED, result.getResult());

        }

        { // decryption with passphrase cached should succeed for the other key if first is gone

            // delete first key from database
            KeyWritableRepository.create(RuntimeEnvironment.application).deleteKeyRing(mStaticRing1.getMasterKeyId());

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(ciphertext);
            InputData data = new InputData(in, in.available());

            PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(
                    mKeyPhrase2, mStaticRing2.getMasterKeyId(), null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder().build();
            DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(), data, out);

            Assert.assertTrue("decryption with cached passphrase must succeed", result.success());
            Assert.assertArrayEquals("decrypted ciphertext with cached passphrase  should equal plaintext",
                    out.toByteArray(), plaintext.getBytes());
            Assert.assertEquals("decryptionResult should be RESULT_ENCRYPTED",
                    OpenPgpDecryptionResult.RESULT_ENCRYPTED, result.getDecryptionResult().getResult());
            Assert.assertEquals("signatureResult should be RESULT_NO_SIGNATURE",
                    OpenPgpSignatureResult.RESULT_NO_SIGNATURE, result.getSignatureResult().getResult());
        }

    }

    @Test
    public void testMultiAsymmetricSignEncryptDecryptVerify() {

        String plaintext = "dies ist ein plaintext ☭";
        byte[] ciphertext;

        { // encrypt data with a given passphrase
            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(plaintext.getBytes());

            PgpSignEncryptOperation op = new PgpSignEncryptOperation(RuntimeEnvironment.application,
                    KeyWritableRepository.create(RuntimeEnvironment.application), null);

            InputData data = new InputData(in, in.available());

            PgpSignEncryptData.Builder pgpData = PgpSignEncryptData.builder();
            pgpData.setEncryptionMasterKeyIds(new long[] {
                    mStaticRing1.getMasterKeyId(),
                    mStaticRing2.getMasterKeyId()
            });
            pgpData.setSignatureMasterKeyId(mStaticRing1.getMasterKeyId());
            pgpData.setSignatureSubKeyId(KeyringTestingHelper.getSubkeyId(mStaticRing1, 1));
            pgpData.setSymmetricEncryptionAlgorithm(
                    PgpSecurityConstants.OpenKeychainSymmetricKeyAlgorithmTags.AES_128);

            PgpSignEncryptResult result = op.execute(pgpData.build(),
                    CryptoInputParcel.createCryptoInputParcel(new Date(), mKeyPhrase1), data, out);
            Assert.assertTrue("encryption must succeed", result.success());

            ciphertext = out.toByteArray();
        }

        { // decryption with passphrase cached should succeed for the first key

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(ciphertext);
            InputData data = new InputData(in, in.available());

            PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(
                    mKeyPhrase1, mStaticRing1.getMasterKeyId(), null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder().build();
            DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(), data, out);

            Assert.assertTrue("decryption with cached passphrase must succeed for the first key", result.success());
            Assert.assertArrayEquals("decrypted ciphertext with cached passphrase  should equal plaintext",
                    out.toByteArray(), plaintext.getBytes());
            Assert.assertEquals("signature should be verified and certified",
                    OpenPgpSignatureResult.RESULT_VALID_KEY_CONFIRMED, result.getSignatureResult().getResult());

            OpenPgpMetadata metadata = result.getDecryptionMetadata();
            Assert.assertEquals("filesize must be correct",
                    out.toByteArray().length, metadata.getOriginalSize());
        }

        { // decryption with passphrase cached should succeed for the other key if first is gone

            // delete first key from database
            KeyWritableRepository.create(RuntimeEnvironment.application).deleteKeyRing(mStaticRing1.getMasterKeyId());

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(ciphertext);
            InputData data = new InputData(in, in.available());

            PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(
                    mKeyPhrase2, mStaticRing2.getMasterKeyId(), null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder().build();
            DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(), data, out);

            Assert.assertTrue("decryption with cached passphrase must succeed", result.success());
            Assert.assertArrayEquals("decrypted ciphertext with cached passphrase  should equal plaintext",
                    out.toByteArray(), plaintext.getBytes());
            Assert.assertEquals("signature key should be missing",
                    OpenPgpSignatureResult.RESULT_KEY_MISSING,
                    result.getSignatureResult().getResult());
        }

    }

    @Test
    public void testForeignEncoding() throws Exception {
        String plaintext = "ウィキペディア";
        byte[] plaindata = plaintext.getBytes("iso-2022-jp");

        { // some quick sanity checks
            Assert.assertEquals(plaintext, new String(plaindata, "iso-2022-jp"));
            Assert.assertNotEquals(plaintext, new String(plaindata, "utf-8"));
        }

        byte[] ciphertext;
        { // encrypt data with a given passphrase
            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(plaindata);

            PgpSignEncryptOperation op = new PgpSignEncryptOperation(RuntimeEnvironment.application,
                    KeyWritableRepository.create(RuntimeEnvironment.application), null);

            InputData data = new InputData(in, in.available());

            PgpSignEncryptData.Builder pgpData = PgpSignEncryptData.builder();
            pgpData.setEncryptionMasterKeyIds(new long[] { mStaticRing1.getMasterKeyId() });
            pgpData.setSymmetricEncryptionAlgorithm(
                    PgpSecurityConstants.OpenKeychainSymmetricKeyAlgorithmTags.AES_128);
            // this only works with ascii armored output!
            pgpData.setEnableAsciiArmorOutput(true);
            pgpData.setCharset("iso-2022-jp");

            PgpSignEncryptResult result = op.execute(pgpData.build(),
                    CryptoInputParcel.createCryptoInputParcel(new Date()), data, out);
            Assert.assertTrue("encryption must succeed", result.success());

            ciphertext = out.toByteArray();
        }

        { // decryption with provided passphrase should yield the same result

            ByteArrayOutputStream out = new ByteArrayOutputStream();
            ByteArrayInputStream in = new ByteArrayInputStream(ciphertext);
            InputData data = new InputData(in, in.available());

            PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(null, null, null);
            PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder().build();
            DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(mKeyPhrase1), data, out);

            Assert.assertTrue("decryption with provided passphrase must succeed", result.success());
            Assert.assertArrayEquals("decrypted ciphertext should equal plaintext bytes",
                    out.toByteArray(), plaindata);
            Assert.assertEquals("charset should be read correctly",
                    "iso-2022-jp", result.getDecryptionMetadata().getCharset());
            Assert.assertEquals("decrypted ciphertext should equal plaintext",
                    new String(out.toByteArray(), result.getDecryptionMetadata().getCharset()), plaintext);
            Assert.assertEquals("decryptionResult should be RESULT_ENCRYPTED",
                    OpenPgpDecryptionResult.RESULT_ENCRYPTED, result.getDecryptionResult().getResult());
            Assert.assertEquals("signatureResult should be RESULT_NO_SIGNATURE",
                    OpenPgpSignatureResult.RESULT_NO_SIGNATURE, result.getSignatureResult().getResult());
        }

    }

    @Test
    public void testAsymmetricSymmetricDesDecrypt() throws Exception {
        InputStream in = getResourceAsStream("/test-ciphertexts/algo_des.pgp.asc");
        String plaintext = "dies ist ein plaintext ☭";


        ByteArrayOutputStream out = new ByteArrayOutputStream();
        InputData data = new InputData(in, in.available());

        PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(null, null, null);
        PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder().build();
        DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(mKeyPhrase1), data, out);


        Assert.assertTrue(result.success());
        Assert.assertArrayEquals(out.toByteArray(), plaintext.getBytes());
        Assert.assertEquals(OpenPgpDecryptionResult.RESULT_INSECURE, result.getDecryptionResult().getResult());
        Assert.assertEquals(OpenPgpSignatureResult.RESULT_NO_SIGNATURE, result.getSignatureResult().getResult());

        InsecureEncryptionAlgorithm symmetricSecurityProblem =
                (InsecureEncryptionAlgorithm) result.getSecurityProblem().symmetricSecurityProblem;
        Assert.assertEquals((symmetricSecurityProblem).symmetricAlgorithm, SymmetricKeyAlgorithmTags.DES);
    }

    public void testAsymmetricNoMdcDecrypt() throws Exception {
        InputStream in = getResourceAsStream("/test-ciphertexts/no_mdc.pgp.asc");
        String plaintext = "dies ist ein plaintext ☭";


        ByteArrayOutputStream out = new ByteArrayOutputStream();
        InputData data = new InputData(in, in.available());

        PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(null, null, null);
        PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder().build();
        DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(mKeyPhrase1), data, out);


        Assert.assertTrue(result.success());
        Assert.assertArrayEquals(out.toByteArray(), plaintext.getBytes());
        Assert.assertEquals(OpenPgpDecryptionResult.RESULT_INSECURE, result.getDecryptionResult().getResult());
        Assert.assertEquals(OpenPgpSignatureResult.RESULT_NO_SIGNATURE, result.getSignatureResult().getResult());

        Assert.assertTrue(result.getSecurityProblem().symmetricSecurityProblem instanceof MissingMdc);
    }

    public void testAsymmetricRsa1024Decrypt() throws Exception {
        InputStream in = getResourceAsStream("/test-ciphertexts/rsa_1024.pgp.asc");
        String plaintext = "dies ist ein plaintext ☭";


        ByteArrayOutputStream out = new ByteArrayOutputStream();
        InputData data = new InputData(in, in.available());

        PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(null, null, null);
        PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder().build();
        DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(), data, out);


        Assert.assertTrue(result.success());
        Assert.assertArrayEquals(out.toByteArray(), plaintext.getBytes());
        Assert.assertEquals(OpenPgpDecryptionResult.RESULT_INSECURE, result.getDecryptionResult().getResult());
        Assert.assertEquals(OpenPgpSignatureResult.RESULT_NO_SIGNATURE, result.getSignatureResult().getResult());

        InsecureBitStrength encryptionKeySecurityProblem =
                (InsecureBitStrength) result.getSecurityProblem().encryptionKeySecurityProblem;
        Assert.assertEquals(mStaticRingInsecure.getMasterKeyId(), encryptionKeySecurityProblem.masterKeyId);
        Assert.assertEquals(PublicKeyAlgorithmTags.RSA_ENCRYPT, encryptionKeySecurityProblem.algorithm);
        Assert.assertEquals(1024, encryptionKeySecurityProblem.bitStrength);
    }

    @Test
    public void testDecryptForTwoKeys() throws Exception {
        InputStream in = getResourceAsStream("/test-ciphertexts/two_keys.asc");

        ByteArrayOutputStream out = new ByteArrayOutputStream();
        InputData data = new InputData(in, in.available());

        PgpDecryptVerifyOperation op = operationWithFakePassphraseCache(null, null, null);
        PgpDecryptVerifyInputParcel input = PgpDecryptVerifyInputParcel.builder().build();
        DecryptVerifyResult result = op.execute(input, CryptoInputParcel.createCryptoInputParcel(), data, out);

        RequiredInputParcel requiredInputParcel = result.getRequiredInputParcel();
        Assert.assertNotNull(requiredInputParcel);
        Assert.assertEquals(3, requiredInputParcel.getMasterKeyIds().length);
        Assert.assertEquals(mStaticRing1.getMasterKeyId(), requiredInputParcel.getMasterKeyIds()[0]);
        Assert.assertEquals(mStaticRing1.getMasterKeyId(), requiredInputParcel.getMasterKeyIds()[1]);
        Assert.assertEquals(mStaticRing2.getMasterKeyId(), requiredInputParcel.getMasterKeyIds()[2]);
    }

    private PgpDecryptVerifyOperation operationWithFakePassphraseCache(
            final Passphrase passphrase, final Long checkMasterKeyId, final Long checkSubKeyId) {

        return new PgpDecryptVerifyOperation(RuntimeEnvironment.application,
                KeyWritableRepository.create(RuntimeEnvironment.application), null) {
            @Override
            public Passphrase getCachedPassphrase(long masterKeyId, long subKeyId)
                    throws NoSecretKeyException {
                if (checkMasterKeyId != null) {
                    Assert.assertEquals("requested passphrase should be for expected master key id",
                            (long) checkMasterKeyId, masterKeyId);
                }
                if (checkSubKeyId != null) {
                    Assert.assertEquals("requested passphrase should be for expected sub key id",
                            (long) checkSubKeyId, subKeyId);
                }
                if (passphrase == null) {
                    return null;
                }
                return passphrase;
            }
        };
    }

    private static InputStream getResourceAsStream(String name) {
        return PgpEncryptDecryptTest.class.getResourceAsStream(name);
    }

    /* skeleton for generating test data
    @Test
    public void generateData() throws IOException {
        ByteArrayOutputStream out = new ByteArrayOutputStream();
        ByteArrayInputStream in = new ByteArrayInputStream("dies ist ein plaintext ☭".getBytes());

        PgpSignEncryptOperation op = new PgpSignEncryptOperation(RuntimeEnvironment.application,
                KeyWritableRepository.createDatabaseReadWriteInteractor(RuntimeEnvironment.application), null);

        InputData data = new InputData(in, in.available());

        PgpSignEncryptData.Builder pgpData = PgpSignEncryptData.builder();
        pgpData.setEncryptionMasterKeyIds(new long[]{ mStaticRingInsecure.getMasterKeyId()});

        PgpSignEncryptInputParcel input = new PgpSignEncryptInputParcel(pgpData);

        PgpSignEncryptResult result = op.execute(input, new CryptoInputParcel(new Date()),
                data, out);
        Assert.assertTrue("encryption must succeed", result.success());

        ArmoredOutputStream armoredOutputStream = new ArmoredOutputStream(new FileOutputStream("/tmp/rsa_1024.pgp.asc"));
        armoredOutputStream.write(out.toByteArray());
        armoredOutputStream.close();
    }
    */
}