gecko/mobile/android/base/sync/CryptoRecord.java

/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

package org.mozilla.gecko.sync;

import java.io.IOException;
import java.io.UnsupportedEncodingException;

import org.json.simple.JSONObject;
import org.json.simple.parser.ParseException;
import org.mozilla.apache.commons.codec.binary.Base64;
import org.mozilla.gecko.sync.crypto.CryptoException;
import org.mozilla.gecko.sync.crypto.CryptoInfo;
import org.mozilla.gecko.sync.crypto.KeyBundle;
import org.mozilla.gecko.sync.crypto.MissingCryptoInputException;
import org.mozilla.gecko.sync.crypto.NoKeyBundleException;
import org.mozilla.gecko.sync.repositories.domain.Record;
import org.mozilla.gecko.sync.repositories.domain.RecordParseException;

/**
 * A Sync crypto record has:
 *
 * <ul>
 * <li>a collection of fields which are not encrypted (id and collection);</il>
 * <li>a set of metadata fields (index, modified, ttl);</il>
 * <li>a payload, which is encrypted and decrypted on request.</il>
 * </ul>
 *
 * The payload flips between being a blob of JSON with hmac/IV/ciphertext
 * attributes and the cleartext itself.
 *
 * Until there's some benefit to the abstraction, we're simply going to call
 * this <code>CryptoRecord</code>.
 *
 * <code>CryptoRecord</code> uses <code>CryptoInfo</code> to do the actual
 * encryption and decryption.
 */
public class CryptoRecord extends Record {

  // JSON related constants.
  private static final String KEY_ID         = "id";
  private static final String KEY_COLLECTION = "collection";
  private static final String KEY_PAYLOAD    = "payload";
  private static final String KEY_MODIFIED   = "modified";
  private static final String KEY_SORTINDEX  = "sortindex";
  private static final String KEY_TTL        = "ttl";
  private static final String KEY_CIPHERTEXT = "ciphertext";
  private static final String KEY_HMAC       = "hmac";
  private static final String KEY_IV         = "IV";

  /**
   * Helper method for doing actual decryption.
   *
   * Input: JSONObject containing a valid payload (cipherText, IV, HMAC),
   * KeyBundle with keys for decryption. Output: byte[] clearText
   * @throws CryptoException
   * @throws UnsupportedEncodingException
   */
  private static byte[] decryptPayload(ExtendedJSONObject payload, KeyBundle keybundle) throws CryptoException, UnsupportedEncodingException {
    byte[] ciphertext = Base64.decodeBase64(((String) payload.get(KEY_CIPHERTEXT)).getBytes("UTF-8"));
    byte[] iv         = Base64.decodeBase64(((String) payload.get(KEY_IV)).getBytes("UTF-8"));
    byte[] hmac       = Utils.hex2Byte((String) payload.get(KEY_HMAC));

    return CryptoInfo.decrypt(ciphertext, iv, hmac, keybundle).getMessage();
  }

  // The encrypted JSON body object.
  // The decrypted JSON body object. Fields are copied from `body`.

  public ExtendedJSONObject payload;
  public KeyBundle   keyBundle;

  /**
   * Don't forget to set cleartext or body!
   */
  public CryptoRecord() {
    super(null, null, 0, false);
  }

  public CryptoRecord(ExtendedJSONObject payload) {
    super(null, null, 0, false);
    if (payload == null) {
      throw new IllegalArgumentException(
          "No payload provided to CryptoRecord constructor.");
    }
    this.payload = payload;
  }

  public CryptoRecord(String jsonString) throws IOException, ParseException, NonObjectJSONException {
    this(ExtendedJSONObject.parseJSONObject(jsonString));
  }

  /**
   * Create a new CryptoRecord with the same metadata as an existing record.
   *
   * @param source
   */
  public CryptoRecord(Record source) {
    super(source.guid, source.collection, source.lastModified, source.deleted);
    this.ttl = source.ttl;
  }

  @Override
  public Record copyWithIDs(String guid, long androidID) {
    CryptoRecord out = new CryptoRecord(this);
    out.guid         = guid;
    out.androidID    = androidID;
    out.sortIndex    = this.sortIndex;
    out.ttl          = this.ttl;
    out.payload      = (this.payload == null) ? null : new ExtendedJSONObject(this.payload.object);
    out.keyBundle    = this.keyBundle;    // TODO: copy me?
    return out;
  }

  /**
   * Take a whole record as JSON -- i.e., something like
   *
   *   {"payload": "{...}", "id":"foobarbaz"}
   *
   * and turn it into a CryptoRecord object.
   *
   * @param jsonRecord
   * @return
   *        A CryptoRecord that encapsulates the provided record.
   *
   * @throws NonObjectJSONException
   * @throws ParseException
   * @throws IOException
   */
  public static CryptoRecord fromJSONRecord(String jsonRecord)
      throws ParseException, NonObjectJSONException, IOException, RecordParseException {
    byte[] bytes = jsonRecord.getBytes("UTF-8");
    ExtendedJSONObject object = ExtendedJSONObject.parseUTF8AsJSONObject(bytes);

    return CryptoRecord.fromJSONRecord(object);
  }

  // TODO: defensive programming.
  public static CryptoRecord fromJSONRecord(ExtendedJSONObject jsonRecord)
      throws IOException, ParseException, NonObjectJSONException, RecordParseException {
    String id                  = (String) jsonRecord.get(KEY_ID);
    String collection          = (String) jsonRecord.get(KEY_COLLECTION);
    String jsonEncodedPayload  = (String) jsonRecord.get(KEY_PAYLOAD);

    ExtendedJSONObject payload = ExtendedJSONObject.parseJSONObject(jsonEncodedPayload);

    CryptoRecord record = new CryptoRecord(payload);
    record.guid         = id;
    record.collection   = collection;
    if (jsonRecord.containsKey(KEY_MODIFIED)) {
      Long timestamp = jsonRecord.getTimestamp(KEY_MODIFIED);
      if (timestamp == null) {
        throw new RecordParseException("timestamp could not be parsed");
      }
      record.lastModified = timestamp.longValue();
    }
    if (jsonRecord.containsKey(KEY_SORTINDEX)) {
      // getLong tries to cast to Long, and might return null. We catch all
      // exceptions, just to be safe.
      try {
        record.sortIndex = jsonRecord.getLong(KEY_SORTINDEX);
      } catch (Exception e) {
        throw new RecordParseException("timestamp could not be parsed");
      }
    }
    if (jsonRecord.containsKey(KEY_TTL)) {
      // TTLs are never returned by the sync server, so should never be true if
      // the record was fetched.
      try {
        record.ttl = jsonRecord.getLong(KEY_TTL);
      } catch (Exception e) {
        throw new RecordParseException("TTL could not be parsed");
      }
    }
    // TODO: deleted?
    return record;
  }

  public void setKeyBundle(KeyBundle bundle) {
    this.keyBundle = bundle;
  }

  public CryptoRecord decrypt() throws CryptoException, IOException, ParseException,
                       NonObjectJSONException {
    if (keyBundle == null) {
      throw new NoKeyBundleException();
    }

    // Check that payload contains all pieces for crypto.
    if (!payload.containsKey(KEY_CIPHERTEXT) ||
        !payload.containsKey(KEY_IV) ||
        !payload.containsKey(KEY_HMAC)) {
      throw new MissingCryptoInputException();
    }

    // There's no difference between handling the crypto/keys object and
    // anything else; we just get this.keyBundle from a different source.
    byte[] cleartext = decryptPayload(payload, keyBundle);
    payload = ExtendedJSONObject.parseUTF8AsJSONObject(cleartext);
    return this;
  }

  public CryptoRecord encrypt() throws CryptoException, UnsupportedEncodingException {
    if (this.keyBundle == null) {
      throw new NoKeyBundleException();
    }
    String cleartext = payload.toJSONString();
    byte[] cleartextBytes = cleartext.getBytes("UTF-8");
    CryptoInfo info = CryptoInfo.encrypt(cleartextBytes, keyBundle);
    String message = new String(Base64.encodeBase64(info.getMessage()));
    String iv      = new String(Base64.encodeBase64(info.getIV()));
    String hmac    = Utils.byte2Hex(info.getHMAC());
    ExtendedJSONObject ciphertext = new ExtendedJSONObject();
    ciphertext.put(KEY_CIPHERTEXT, message);
    ciphertext.put(KEY_HMAC, hmac);
    ciphertext.put(KEY_IV, iv);
    this.payload = ciphertext;
    return this;
  }

  @Override
  public void initFromEnvelope(CryptoRecord payload) {
    throw new IllegalStateException("Can't do this with a CryptoRecord.");
  }

  @Override
  public CryptoRecord getEnvelope() {
    throw new IllegalStateException("Can't do this with a CryptoRecord.");
  }

  @Override
  protected void populatePayload(ExtendedJSONObject payload) {
    throw new IllegalStateException("Can't do this with a CryptoRecord.");
  }

  @Override
  protected void initFromPayload(ExtendedJSONObject payload) {
    throw new IllegalStateException("Can't do this with a CryptoRecord.");
  }

  // TODO: this only works with encrypted object, and has other limitations.
  public JSONObject toJSONObject() {
    ExtendedJSONObject o = new ExtendedJSONObject();
    o.put(KEY_PAYLOAD, payload.toJSONString());
    o.put(KEY_ID,      this.guid);
    if (this.ttl > 0) {
      o.put(KEY_TTL, this.ttl);
    }
    return o.object;
  }

  @Override
  public String toJSONString() {
    return toJSONObject().toJSONString();
  }
}