package de.pixart.messenger.crypto.axolotl; import android.os.Bundle; import android.security.KeyChain; import android.support.annotation.NonNull; import android.support.annotation.Nullable; import android.util.Log; import android.util.Pair; import org.bouncycastle.jce.provider.BouncyCastleProvider; import org.whispersystems.libsignal.IdentityKey; import org.whispersystems.libsignal.IdentityKeyPair; import org.whispersystems.libsignal.InvalidKeyException; import org.whispersystems.libsignal.InvalidKeyIdException; import org.whispersystems.libsignal.SessionBuilder; import org.whispersystems.libsignal.SignalProtocolAddress; import org.whispersystems.libsignal.UntrustedIdentityException; import org.whispersystems.libsignal.ecc.ECPublicKey; import org.whispersystems.libsignal.state.PreKeyBundle; import org.whispersystems.libsignal.state.PreKeyRecord; import org.whispersystems.libsignal.state.SignedPreKeyRecord; import org.whispersystems.libsignal.util.KeyHelper; import java.security.PrivateKey; import java.security.Security; import java.security.Signature; import java.security.cert.X509Certificate; import java.util.ArrayList; import java.util.Arrays; import java.util.Collection; import java.util.Collections; import java.util.HashMap; import java.util.HashSet; import java.util.Iterator; import java.util.List; import java.util.Map; import java.util.Random; import java.util.Set; import java.util.concurrent.atomic.AtomicBoolean; import de.pixart.messenger.Config; import de.pixart.messenger.entities.Account; import de.pixart.messenger.entities.Contact; import de.pixart.messenger.entities.Conversation; import de.pixart.messenger.entities.Message; import de.pixart.messenger.parser.IqParser; import de.pixart.messenger.services.XmppConnectionService; import de.pixart.messenger.utils.CryptoHelper; import de.pixart.messenger.utils.Namespace; import de.pixart.messenger.utils.SerialSingleThreadExecutor; import de.pixart.messenger.xml.Element; import de.pixart.messenger.xmpp.OnAdvancedStreamFeaturesLoaded; import de.pixart.messenger.xmpp.OnIqPacketReceived; import de.pixart.messenger.xmpp.pep.PublishOptions; import de.pixart.messenger.xmpp.stanzas.IqPacket; import de.pixart.messenger.xmpp.stanzas.MessagePacket; import rocks.xmpp.addr.Jid; public class AxolotlService implements OnAdvancedStreamFeaturesLoaded { public static final String PEP_PREFIX = "eu.siacs.conversations.axolotl"; public static final String PEP_DEVICE_LIST = PEP_PREFIX + ".devicelist"; public static final String PEP_DEVICE_LIST_NOTIFY = PEP_DEVICE_LIST + "+notify"; public static final String PEP_BUNDLES = PEP_PREFIX + ".bundles"; public static final String PEP_VERIFICATION = PEP_PREFIX + ".verification"; public static final String PEP_OMEMO_WHITELISTED = PEP_PREFIX + ".whitelisted"; public static final String LOGPREFIX = "AxolotlService"; public static final int NUM_KEYS_TO_PUBLISH = 100; public static final int publishTriesThreshold = 3; private final Account account; private final XmppConnectionService mXmppConnectionService; private final SQLiteAxolotlStore axolotlStore; private final SessionMap sessions; private final Map> deviceIds; private final Map messageCache; private final FetchStatusMap fetchStatusMap; private final Map fetchDeviceListStatus = new HashMap<>(); private final HashMap> fetchDeviceIdsMap = new HashMap<>(); private final SerialSingleThreadExecutor executor; private final HashSet cleanedOwnDeviceIds = new HashSet<>(); private int numPublishTriesOnEmptyPep = 0; private boolean pepBroken = false; private int lastDeviceListNotificationHash = 0; private Set postponedSessions = new HashSet<>(); //sessions stored here will receive after mam catchup treatment private AtomicBoolean changeAccessMode = new AtomicBoolean(false); @Override public void onAdvancedStreamFeaturesAvailable(Account account) { if (Config.supportOmemo() && account.getXmppConnection() != null && account.getXmppConnection().getFeatures().pep()) { publishBundlesIfNeeded(true, false); } else { Log.d(Config.LOGTAG, account.getJid().asBareJid() + ": skipping OMEMO initialization"); } } private boolean hasErrorFetchingDeviceList(Jid jid) { Boolean status = fetchDeviceListStatus.get(jid); return status != null && !status; } public boolean hasErrorFetchingDeviceList(List jids) { for (Jid jid : jids) { if (hasErrorFetchingDeviceList(jid)) { return true; } } return false; } public boolean fetchMapHasErrors(List jids) { for (Jid jid : jids) { if (deviceIds.get(jid) != null) { for (Integer foreignId : this.deviceIds.get(jid)) { SignalProtocolAddress address = new SignalProtocolAddress(jid.toString(), foreignId); if (fetchStatusMap.getAll(address.getName()).containsValue(FetchStatus.ERROR)) { return true; } } } } return false; } public void preVerifyFingerprint(Contact contact, String fingerprint) { axolotlStore.preVerifyFingerprint(contact.getAccount(), contact.getJid().asBareJid().toString(), fingerprint); } public void preVerifyFingerprint(Account account, String fingerprint) { axolotlStore.preVerifyFingerprint(account, account.getJid().asBareJid().toString(), fingerprint); } public boolean hasVerifiedKeys(String name) { for (XmppAxolotlSession session : this.sessions.getAll(name).values()) { if (session.getTrust().isVerified()) { return true; } } return false; } private static class AxolotlAddressMap { protected final Object MAP_LOCK = new Object(); protected Map> map; public AxolotlAddressMap() { this.map = new HashMap<>(); } public void put(SignalProtocolAddress address, T value) { synchronized (MAP_LOCK) { Map devices = map.get(address.getName()); if (devices == null) { devices = new HashMap<>(); map.put(address.getName(), devices); } devices.put(address.getDeviceId(), value); } } public T get(SignalProtocolAddress address) { synchronized (MAP_LOCK) { Map devices = map.get(address.getName()); if (devices == null) { return null; } return devices.get(address.getDeviceId()); } } public Map getAll(String name) { synchronized (MAP_LOCK) { Map devices = map.get(name); if (devices == null) { return new HashMap<>(); } return devices; } } public boolean hasAny(SignalProtocolAddress address) { synchronized (MAP_LOCK) { Map devices = map.get(address.getName()); return devices != null && !devices.isEmpty(); } } public void clear() { map.clear(); } } private static class SessionMap extends AxolotlAddressMap { private final XmppConnectionService xmppConnectionService; private final Account account; public SessionMap(XmppConnectionService service, SQLiteAxolotlStore store, Account account) { super(); this.xmppConnectionService = service; this.account = account; this.fillMap(store); } public Set findCounterpartsForSourceId(Integer sid) { Set candidates = new HashSet<>(); synchronized (MAP_LOCK) { for (Map.Entry> entry : map.entrySet()) { String key = entry.getKey(); if (entry.getValue().containsKey(sid)) { candidates.add(Jid.of(key)); } } } return candidates; } private void putDevicesForJid(String bareJid, List deviceIds, SQLiteAxolotlStore store) { for (Integer deviceId : deviceIds) { SignalProtocolAddress axolotlAddress = new SignalProtocolAddress(bareJid, deviceId); IdentityKey identityKey = store.loadSession(axolotlAddress).getSessionState().getRemoteIdentityKey(); if (Config.X509_VERIFICATION) { X509Certificate certificate = store.getFingerprintCertificate(CryptoHelper.bytesToHex(identityKey.getPublicKey().serialize())); if (certificate != null) { Bundle information = CryptoHelper.extractCertificateInformation(certificate); try { final String cn = information.getString("subject_cn"); final Jid jid = Jid.of(bareJid); Log.d(Config.LOGTAG, "setting common name for " + jid + " to " + cn); account.getRoster().getContact(jid).setCommonName(cn); } catch (final IllegalArgumentException ignored) { //ignored } } } this.put(axolotlAddress, new XmppAxolotlSession(account, store, axolotlAddress, identityKey)); } } private void fillMap(SQLiteAxolotlStore store) { List deviceIds = store.getSubDeviceSessions(account.getJid().asBareJid().toString()); putDevicesForJid(account.getJid().asBareJid().toString(), deviceIds, store); for (String address : store.getKnownAddresses()) { deviceIds = store.getSubDeviceSessions(address); putDevicesForJid(address, deviceIds, store); } } @Override public void put(SignalProtocolAddress address, XmppAxolotlSession value) { super.put(address, value); value.setNotFresh(); } public void put(XmppAxolotlSession session) { this.put(session.getRemoteAddress(), session); } } public enum FetchStatus { PENDING, SUCCESS, SUCCESS_VERIFIED, TIMEOUT, SUCCESS_TRUSTED, ERROR } private static class FetchStatusMap extends AxolotlAddressMap { public void clearErrorFor(Jid jid) { synchronized (MAP_LOCK) { Map devices = this.map.get(jid.asBareJid().toString()); if (devices == null) { return; } for (Map.Entry entry : devices.entrySet()) { if (entry.getValue() == FetchStatus.ERROR) { Log.d(Config.LOGTAG, "resetting error for " + jid.asBareJid() + "(" + entry.getKey() + ")"); entry.setValue(FetchStatus.TIMEOUT); } } } } } public static String getLogprefix(Account account) { return LOGPREFIX + " (" + account.getJid().asBareJid().toString() + "): "; } public AxolotlService(Account account, XmppConnectionService connectionService) { if (account == null || connectionService == null) { throw new IllegalArgumentException("account and service cannot be null"); } if (Security.getProvider("BC") == null) { Security.addProvider(new BouncyCastleProvider()); } this.mXmppConnectionService = connectionService; this.account = account; this.axolotlStore = new SQLiteAxolotlStore(this.account, this.mXmppConnectionService); this.deviceIds = new HashMap<>(); this.messageCache = new HashMap<>(); this.sessions = new SessionMap(mXmppConnectionService, axolotlStore, account); this.fetchStatusMap = new FetchStatusMap(); this.executor = new SerialSingleThreadExecutor("Axolotl"); } public String getOwnFingerprint() { return CryptoHelper.bytesToHex(axolotlStore.getIdentityKeyPair().getPublicKey().serialize()); } public Set getKeysWithTrust(FingerprintStatus status) { return axolotlStore.getContactKeysWithTrust(account.getJid().asBareJid().toString(), status); } public Set getKeysWithTrust(FingerprintStatus status, Jid jid) { return axolotlStore.getContactKeysWithTrust(jid.asBareJid().toString(), status); } public Set getKeysWithTrust(FingerprintStatus status, List jids) { Set keys = new HashSet<>(); for (Jid jid : jids) { keys.addAll(axolotlStore.getContactKeysWithTrust(jid.toString(), status)); } return keys; } public Set findCounterpartsBySourceId(int sid) { return sessions.findCounterpartsForSourceId(sid); } public long getNumTrustedKeys(Jid jid) { return axolotlStore.getContactNumTrustedKeys(jid.asBareJid().toString()); } public boolean anyTargetHasNoTrustedKeys(List jids) { for (Jid jid : jids) { if (axolotlStore.getContactNumTrustedKeys(jid.asBareJid().toString()) == 0) { return true; } } return false; } private SignalProtocolAddress getAddressForJid(Jid jid) { return new SignalProtocolAddress(jid.toString(), 0); } public Collection findOwnSessions() { SignalProtocolAddress ownAddress = getAddressForJid(account.getJid().asBareJid()); ArrayList s = new ArrayList<>(this.sessions.getAll(ownAddress.getName()).values()); Collections.sort(s); return s; } public Collection findSessionsForContact(Contact contact) { SignalProtocolAddress contactAddress = getAddressForJid(contact.getJid()); ArrayList s = new ArrayList<>(this.sessions.getAll(contactAddress.getName()).values()); Collections.sort(s); return s; } private Set findSessionsForConversation(Conversation conversation) { if (conversation.getContact().isSelf()) { //will be added in findOwnSessions() return Collections.emptySet(); } HashSet sessions = new HashSet<>(); for (Jid jid : conversation.getAcceptedCryptoTargets()) { sessions.addAll(this.sessions.getAll(getAddressForJid(jid).getName()).values()); } return sessions; } private boolean hasAny(Jid jid) { return sessions.hasAny(getAddressForJid(jid)); } public boolean isPepBroken() { return this.pepBroken; } public void resetBrokenness() { this.pepBroken = false; this.numPublishTriesOnEmptyPep = 0; this.lastDeviceListNotificationHash = 0; } public void clearErrorsInFetchStatusMap(Jid jid) { fetchStatusMap.clearErrorFor(jid); fetchDeviceListStatus.remove(jid); } public void regenerateKeys(boolean wipeOther) { axolotlStore.regenerate(); sessions.clear(); fetchStatusMap.clear(); fetchDeviceIdsMap.clear(); fetchDeviceListStatus.clear(); publishBundlesIfNeeded(true, wipeOther); } public void destroy() { Log.d(Config.LOGTAG, account.getJid().asBareJid() + ": destroying old axolotl service. no longer in use"); mXmppConnectionService.databaseBackend.wipeAxolotlDb(account); } public AxolotlService makeNew() { Log.d(Config.LOGTAG, account.getJid().asBareJid() + ": make new axolotl service"); return new AxolotlService(this.account, this.mXmppConnectionService); } public int getOwnDeviceId() { return axolotlStore.getLocalRegistrationId(); } public SignalProtocolAddress getOwnAxolotlAddress() { return new SignalProtocolAddress(account.getJid().asBareJid().toString(), getOwnDeviceId()); } public Set getOwnDeviceIds() { return this.deviceIds.get(account.getJid().asBareJid()); } public void registerDevices(final Jid jid, @NonNull final Set deviceIds) { final int hash = deviceIds.hashCode(); final boolean me = jid.asBareJid().equals(account.getJid().asBareJid()); if (me) { if (hash != 0 && hash == this.lastDeviceListNotificationHash) { Log.d(Config.LOGTAG, account.getJid().asBareJid() + ": ignoring duplicate own device id list"); return; } this.lastDeviceListNotificationHash = hash; } boolean needsPublishing = me && !deviceIds.contains(getOwnDeviceId()); if (me) { deviceIds.remove(getOwnDeviceId()); } Set expiredDevices = new HashSet<>(axolotlStore.getSubDeviceSessions(jid.asBareJid().toString())); expiredDevices.removeAll(deviceIds); for (Integer deviceId : expiredDevices) { SignalProtocolAddress address = new SignalProtocolAddress(jid.asBareJid().toString(), deviceId); XmppAxolotlSession session = sessions.get(address); if (session != null && session.getFingerprint() != null) { if (session.getTrust().isActive()) { session.setTrust(session.getTrust().toInactive()); } } } Set newDevices = new HashSet<>(deviceIds); for (Integer deviceId : newDevices) { SignalProtocolAddress address = new SignalProtocolAddress(jid.asBareJid().toString(), deviceId); XmppAxolotlSession session = sessions.get(address); if (session != null && session.getFingerprint() != null) { if (!session.getTrust().isActive()) { Log.d(Config.LOGTAG, "reactivating device with fingerprint " + session.getFingerprint()); session.setTrust(session.getTrust().toActive()); } } } if (me) { if (Config.OMEMO_AUTO_EXPIRY != 0) { needsPublishing |= deviceIds.removeAll(getExpiredDevices()); } needsPublishing |= this.changeAccessMode.get(); for (Integer deviceId : deviceIds) { SignalProtocolAddress ownDeviceAddress = new SignalProtocolAddress(jid.asBareJid().toString(), deviceId); if (sessions.get(ownDeviceAddress) == null) { FetchStatus status = fetchStatusMap.get(ownDeviceAddress); if (status == null || status == FetchStatus.TIMEOUT) { fetchStatusMap.put(ownDeviceAddress, FetchStatus.PENDING); this.buildSessionFromPEP(ownDeviceAddress); } } } if (needsPublishing) { publishOwnDeviceId(deviceIds); } } final Set oldSet = this.deviceIds.get(jid); final boolean changed = oldSet == null || oldSet.hashCode() != hash; this.deviceIds.put(jid, deviceIds); if (changed) { mXmppConnectionService.updateConversationUi(); //update the lock icon mXmppConnectionService.keyStatusUpdated(null); if (me) { mXmppConnectionService.updateAccountUi(); } } else { Log.d(Config.LOGTAG, "skipped device list update because it hasn't changed"); } } public void wipeOtherPepDevices() { if (pepBroken) { Log.d(Config.LOGTAG, getLogprefix(account) + "wipeOtherPepDevices called, but PEP is broken. Ignoring... "); return; } Set deviceIds = new HashSet<>(); deviceIds.add(getOwnDeviceId()); publishDeviceIdsAndRefineAccessModel(deviceIds); } public void distrustFingerprint(final String fingerprint) { final String fp = fingerprint.replaceAll("\\s", ""); final FingerprintStatus fingerprintStatus = axolotlStore.getFingerprintStatus(fp); axolotlStore.setFingerprintStatus(fp, fingerprintStatus.toUntrusted()); } private void publishOwnDeviceIdIfNeeded() { if (pepBroken) { Log.d(Config.LOGTAG, getLogprefix(account) + "publishOwnDeviceIdIfNeeded called, but PEP is broken. Ignoring... "); return; } IqPacket packet = mXmppConnectionService.getIqGenerator().retrieveDeviceIds(account.getJid().asBareJid()); mXmppConnectionService.sendIqPacket(account, packet, new OnIqPacketReceived() { @Override public void onIqPacketReceived(Account account, IqPacket packet) { if (packet.getType() == IqPacket.TYPE.TIMEOUT) { Log.d(Config.LOGTAG, getLogprefix(account) + "Timeout received while retrieving own Device Ids."); } else { //TODO consider calling registerDevices only after item-not-found to account for broken PEPs Element item = mXmppConnectionService.getIqParser().getItem(packet); Set deviceIds = mXmppConnectionService.getIqParser().deviceIds(item); Log.d(Config.LOGTAG, account.getJid().asBareJid() + ": retrieved own device list: " + deviceIds); registerDevices(account.getJid().asBareJid(), deviceIds); } } }); } private Set getExpiredDevices() { Set devices = new HashSet<>(); for (XmppAxolotlSession session : findOwnSessions()) { if (session.getTrust().isActive()) { long diff = System.currentTimeMillis() - session.getTrust().getLastActivation(); if (diff > Config.OMEMO_AUTO_EXPIRY) { long lastMessageDiff = System.currentTimeMillis() - mXmppConnectionService.databaseBackend.getLastTimeFingerprintUsed(account, session.getFingerprint()); long hours = Math.round(lastMessageDiff / (1000 * 60.0 * 60.0)); if (lastMessageDiff > Config.OMEMO_AUTO_EXPIRY) { devices.add(session.getRemoteAddress().getDeviceId()); session.setTrust(session.getTrust().toInactive()); Log.d(Config.LOGTAG, account.getJid().asBareJid() + ": added own device " + session.getFingerprint() + " to list of expired devices. Last message received " + hours + " hours ago"); } else { Log.d(Config.LOGTAG, account.getJid().asBareJid() + ": own device " + session.getFingerprint() + " was active " + hours + " hours ago"); } } //TODO print last activation diff } } return devices; } private void publishOwnDeviceId(Set deviceIds) { Set deviceIdsCopy = new HashSet<>(deviceIds); Log.d(Config.LOGTAG, AxolotlService.getLogprefix(account) + "publishing own device ids"); if (deviceIdsCopy.isEmpty()) { if (numPublishTriesOnEmptyPep >= publishTriesThreshold) { Log.w(Config.LOGTAG, getLogprefix(account) + "Own device publish attempt threshold exceeded, aborting..."); pepBroken = true; return; } else { numPublishTriesOnEmptyPep++; Log.w(Config.LOGTAG, getLogprefix(account) + "Own device list empty, attempting to publish (try " + numPublishTriesOnEmptyPep + ")"); } } else { numPublishTriesOnEmptyPep = 0; } deviceIdsCopy.add(getOwnDeviceId()); publishDeviceIdsAndRefineAccessModel(deviceIdsCopy); } private void publishDeviceIdsAndRefineAccessModel(Set ids) { publishDeviceIdsAndRefineAccessModel(ids, true); } private void publishDeviceIdsAndRefineAccessModel(final Set ids, final boolean firstAttempt) { final Bundle publishOptions = account.getXmppConnection().getFeatures().pepPublishOptions() ? PublishOptions.openAccess() : null; IqPacket publish = mXmppConnectionService.getIqGenerator().publishDeviceIds(ids, publishOptions); mXmppConnectionService.sendIqPacket(account, publish, new OnIqPacketReceived() { @Override public void onIqPacketReceived(Account account, IqPacket packet) { final Element error = packet.getType() == IqPacket.TYPE.ERROR ? packet.findChild("error") : null; final boolean preConditionNotMet = error != null && error.hasChild("precondition-not-met", Namespace.PUBSUB_ERROR); if (firstAttempt && preConditionNotMet) { Log.d(Config.LOGTAG, account.getJid().asBareJid() + ": precondition wasn't met for device list. pushing node configuration"); mXmppConnectionService.pushNodeConfiguration(account, AxolotlService.PEP_DEVICE_LIST, publishOptions, new XmppConnectionService.OnConfigurationPushed() { @Override public void onPushSucceeded() { publishDeviceIdsAndRefineAccessModel(ids, false); } @Override public void onPushFailed() { publishDeviceIdsAndRefineAccessModel(ids, false); } }); } else { if (AxolotlService.this.changeAccessMode.compareAndSet(true, false)) { Log.d(Config.LOGTAG, account.getJid().asBareJid() + ": done changing access mode"); account.setOption(Account.OPTION_REQUIRES_ACCESS_MODE_CHANGE, false); mXmppConnectionService.databaseBackend.updateAccount(account); } if (packet.getType() == IqPacket.TYPE.ERROR) { if (preConditionNotMet) { Log.d(Config.LOGTAG,account.getJid().asBareJid()+": device list pre condition still not met on second attempt"); } else if (error != null) { pepBroken = true; Log.d(Config.LOGTAG, getLogprefix(account) + "Error received while publishing own device id" + packet.findChild("error")); } } } } }); } public void publishDeviceVerificationAndBundle(final SignedPreKeyRecord signedPreKeyRecord, final Set preKeyRecords, final boolean announceAfter, final boolean wipe) { try { IdentityKey axolotlPublicKey = axolotlStore.getIdentityKeyPair().getPublicKey(); PrivateKey x509PrivateKey = KeyChain.getPrivateKey(mXmppConnectionService, account.getPrivateKeyAlias()); X509Certificate[] chain = KeyChain.getCertificateChain(mXmppConnectionService, account.getPrivateKeyAlias()); Signature verifier = Signature.getInstance("sha256WithRSA"); verifier.initSign(x509PrivateKey, mXmppConnectionService.getRNG()); verifier.update(axolotlPublicKey.serialize()); byte[] signature = verifier.sign(); IqPacket packet = mXmppConnectionService.getIqGenerator().publishVerification(signature, chain, getOwnDeviceId()); Log.d(Config.LOGTAG, AxolotlService.getLogprefix(account) + ": publish verification for device " + getOwnDeviceId()); mXmppConnectionService.sendIqPacket(account, packet, new OnIqPacketReceived() { @Override public void onIqPacketReceived(final Account account, IqPacket packet) { String node = AxolotlService.PEP_VERIFICATION + ":" + getOwnDeviceId(); mXmppConnectionService.pushNodeConfiguration(account, node, PublishOptions.openAccess(), new XmppConnectionService.OnConfigurationPushed() { @Override public void onPushSucceeded() { Log.d(Config.LOGTAG, getLogprefix(account) + "configured verification node to be world readable"); publishDeviceBundle(signedPreKeyRecord, preKeyRecords, announceAfter, wipe); } @Override public void onPushFailed() { Log.d(Config.LOGTAG, getLogprefix(account) + "unable to set access model on verification node"); publishDeviceBundle(signedPreKeyRecord, preKeyRecords, announceAfter, wipe); } }); } }); } catch (Exception e) { e.printStackTrace(); } } public void publishBundlesIfNeeded(final boolean announce, final boolean wipe) { if (pepBroken) { Log.d(Config.LOGTAG, getLogprefix(account) + "publishBundlesIfNeeded called, but PEP is broken. Ignoring... "); return; } if (account.getXmppConnection().getFeatures().pepPublishOptions()) { this.changeAccessMode.set(account.isOptionSet(Account.OPTION_REQUIRES_ACCESS_MODE_CHANGE)); } else { if (account.setOption(Account.OPTION_REQUIRES_ACCESS_MODE_CHANGE, true)) { Log.d(Config.LOGTAG, account.getJid().asBareJid() + ": server doesn’t support publish-options. setting for later access mode change"); mXmppConnectionService.databaseBackend.updateAccount(account); } } if (this.changeAccessMode.get()) { Log.d(Config.LOGTAG, account.getJid().asBareJid() + ": server gained publish-options capabilities. changing access model"); } IqPacket packet = mXmppConnectionService.getIqGenerator().retrieveBundlesForDevice(account.getJid().asBareJid(), getOwnDeviceId()); mXmppConnectionService.sendIqPacket(account, packet, new OnIqPacketReceived() { @Override public void onIqPacketReceived(Account account, IqPacket packet) { if (packet.getType() == IqPacket.TYPE.TIMEOUT) { return; //ignore timeout. do nothing } if (packet.getType() == IqPacket.TYPE.ERROR) { Element error = packet.findChild("error"); if (error == null || !error.hasChild("item-not-found")) { pepBroken = true; Log.w(Config.LOGTAG, AxolotlService.getLogprefix(account) + "request for device bundles came back with something other than item-not-found" + packet); return; } } PreKeyBundle bundle = mXmppConnectionService.getIqParser().bundle(packet); Map keys = mXmppConnectionService.getIqParser().preKeyPublics(packet); boolean flush = false; if (bundle == null) { Log.w(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Received invalid bundle:" + packet); bundle = new PreKeyBundle(-1, -1, -1, null, -1, null, null, null); flush = true; } if (keys == null) { Log.w(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Received invalid prekeys:" + packet); } try { boolean changed = false; // Validate IdentityKey IdentityKeyPair identityKeyPair = axolotlStore.getIdentityKeyPair(); if (flush || !identityKeyPair.getPublicKey().equals(bundle.getIdentityKey())) { Log.i(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Adding own IdentityKey " + identityKeyPair.getPublicKey() + " to PEP."); changed = true; } // Validate signedPreKeyRecord + ID SignedPreKeyRecord signedPreKeyRecord; int numSignedPreKeys = axolotlStore.getSignedPreKeysCount(); try { signedPreKeyRecord = axolotlStore.loadSignedPreKey(bundle.getSignedPreKeyId()); if (flush || !bundle.getSignedPreKey().equals(signedPreKeyRecord.getKeyPair().getPublicKey()) || !Arrays.equals(bundle.getSignedPreKeySignature(), signedPreKeyRecord.getSignature())) { Log.i(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Adding new signedPreKey with ID " + (numSignedPreKeys + 1) + " to PEP."); signedPreKeyRecord = KeyHelper.generateSignedPreKey(identityKeyPair, numSignedPreKeys + 1); axolotlStore.storeSignedPreKey(signedPreKeyRecord.getId(), signedPreKeyRecord); changed = true; } } catch (InvalidKeyIdException e) { Log.i(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Adding new signedPreKey with ID " + (numSignedPreKeys + 1) + " to PEP."); signedPreKeyRecord = KeyHelper.generateSignedPreKey(identityKeyPair, numSignedPreKeys + 1); axolotlStore.storeSignedPreKey(signedPreKeyRecord.getId(), signedPreKeyRecord); changed = true; } // Validate PreKeys Set preKeyRecords = new HashSet<>(); if (keys != null) { for (Integer id : keys.keySet()) { try { PreKeyRecord preKeyRecord = axolotlStore.loadPreKey(id); if (preKeyRecord.getKeyPair().getPublicKey().equals(keys.get(id))) { preKeyRecords.add(preKeyRecord); } } catch (InvalidKeyIdException ignored) { } } } int newKeys = NUM_KEYS_TO_PUBLISH - preKeyRecords.size(); if (newKeys > 0) { List newRecords = KeyHelper.generatePreKeys( axolotlStore.getCurrentPreKeyId() + 1, newKeys); preKeyRecords.addAll(newRecords); for (PreKeyRecord record : newRecords) { axolotlStore.storePreKey(record.getId(), record); } changed = true; Log.i(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Adding " + newKeys + " new preKeys to PEP."); } if (changed || changeAccessMode.get()) { if (account.getPrivateKeyAlias() != null && Config.X509_VERIFICATION) { mXmppConnectionService.publishDisplayName(account); publishDeviceVerificationAndBundle(signedPreKeyRecord, preKeyRecords, announce, wipe); } else { publishDeviceBundle(signedPreKeyRecord, preKeyRecords, announce, wipe); } } else { Log.d(Config.LOGTAG, getLogprefix(account) + "Bundle " + getOwnDeviceId() + " in PEP was current"); if (wipe) { wipeOtherPepDevices(); } else if (announce) { Log.d(Config.LOGTAG, getLogprefix(account) + "Announcing device " + getOwnDeviceId()); publishOwnDeviceIdIfNeeded(); } } } catch (InvalidKeyException e) { Log.e(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Failed to publish bundle " + getOwnDeviceId() + ", reason: " + e.getMessage()); } } }); } private void publishDeviceBundle(SignedPreKeyRecord signedPreKeyRecord, Set preKeyRecords, final boolean announceAfter, final boolean wipe) { publishDeviceBundle(signedPreKeyRecord, preKeyRecords, announceAfter, wipe, true); } private void publishDeviceBundle(final SignedPreKeyRecord signedPreKeyRecord, final Set preKeyRecords, final boolean announceAfter, final boolean wipe, final boolean firstAttempt) { final Bundle publishOptions = account.getXmppConnection().getFeatures().pepPublishOptions() ? PublishOptions.openAccess() : null; IqPacket publish = mXmppConnectionService.getIqGenerator().publishBundles( signedPreKeyRecord, axolotlStore.getIdentityKeyPair().getPublicKey(), preKeyRecords, getOwnDeviceId(), publishOptions); Log.d(Config.LOGTAG, AxolotlService.getLogprefix(account) + ": Bundle " + getOwnDeviceId() + " in PEP not current. Publishing..."); mXmppConnectionService.sendIqPacket(account, publish, new OnIqPacketReceived() { @Override public void onIqPacketReceived(final Account account, IqPacket packet) { final Element error = packet.getType() == IqPacket.TYPE.ERROR ? packet.findChild("error") : null; final boolean preconditionNotMet = error != null && error.hasChild("precondition-not-met", Namespace.PUBSUB_ERROR); if (firstAttempt && preconditionNotMet) { Log.d(Config.LOGTAG, account.getJid().asBareJid() + ": precondition wasn't met for bundle. pushing node configuration"); final String node = AxolotlService.PEP_BUNDLES + ":" + getOwnDeviceId(); mXmppConnectionService.pushNodeConfiguration(account, node, publishOptions, new XmppConnectionService.OnConfigurationPushed() { @Override public void onPushSucceeded() { publishDeviceBundle(signedPreKeyRecord, preKeyRecords, announceAfter, wipe, false); } @Override public void onPushFailed() { publishDeviceBundle(signedPreKeyRecord, preKeyRecords, announceAfter, wipe, false); } }); } else if (packet.getType() == IqPacket.TYPE.RESULT) { Log.d(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Successfully published bundle. "); if (wipe) { wipeOtherPepDevices(); } else if (announceAfter) { Log.d(Config.LOGTAG, getLogprefix(account) + "Announcing device " + getOwnDeviceId()); publishOwnDeviceIdIfNeeded(); } } else if (packet.getType() == IqPacket.TYPE.ERROR) { if (preconditionNotMet) { Log.d(Config.LOGTAG,getLogprefix(account) + "bundle precondition still not met after second attempt"); } else { Log.d(Config.LOGTAG, getLogprefix(account) + "Error received while publishing bundle: " + error); } pepBroken = true; } } }); } public enum AxolotlCapability { FULL, MISSING_PRESENCE, MISSING_KEYS, WRONG_CONFIGURATION, NO_MEMBERS } public boolean isConversationAxolotlCapable(Conversation conversation) { return conversation.isSingleOrPrivateAndNonAnonymous(); } public Pair isConversationAxolotlCapableDetailed(Conversation conversation) { if (conversation.isSingleOrPrivateAndNonAnonymous()) { final List jids = getCryptoTargets(conversation); for (Jid jid : jids) { if (!hasAny(jid) && (!deviceIds.containsKey(jid) || deviceIds.get(jid).isEmpty())) { if (conversation.getAccount().getRoster().getContact(jid).mutualPresenceSubscription()) { return new Pair<>(AxolotlCapability.MISSING_KEYS, jid); } else { return new Pair<>(AxolotlCapability.MISSING_PRESENCE, jid); } } } if (jids.size() > 0) { return new Pair<>(AxolotlCapability.FULL, null); } else { return new Pair<>(AxolotlCapability.NO_MEMBERS, null); } } else { return new Pair<>(AxolotlCapability.WRONG_CONFIGURATION, null); } } public List getCryptoTargets(Conversation conversation) { final List jids; if (conversation.getMode() == Conversation.MODE_SINGLE) { jids = new ArrayList<>(); jids.add(conversation.getJid().asBareJid()); } else { jids = conversation.getMucOptions().getMembers(false); } return jids; } public FingerprintStatus getFingerprintTrust(String fingerprint) { return axolotlStore.getFingerprintStatus(fingerprint); } public X509Certificate getFingerprintCertificate(String fingerprint) { return axolotlStore.getFingerprintCertificate(fingerprint); } public void setFingerprintTrust(String fingerprint, FingerprintStatus status) { axolotlStore.setFingerprintStatus(fingerprint, status); } private void verifySessionWithPEP(final XmppAxolotlSession session) { Log.d(Config.LOGTAG, "trying to verify fresh session (" + session.getRemoteAddress().getName() + ") with pep"); final SignalProtocolAddress address = session.getRemoteAddress(); final IdentityKey identityKey = session.getIdentityKey(); try { IqPacket packet = mXmppConnectionService.getIqGenerator().retrieveVerificationForDevice(Jid.of(address.getName()), address.getDeviceId()); mXmppConnectionService.sendIqPacket(account, packet, new OnIqPacketReceived() { @Override public void onIqPacketReceived(Account account, IqPacket packet) { Pair verification = mXmppConnectionService.getIqParser().verification(packet); if (verification != null) { try { Signature verifier = Signature.getInstance("sha256WithRSA"); verifier.initVerify(verification.first[0]); verifier.update(identityKey.serialize()); if (verifier.verify(verification.second)) { try { mXmppConnectionService.getMemorizingTrustManager().getNonInteractive().checkClientTrusted(verification.first, "RSA"); String fingerprint = session.getFingerprint(); Log.d(Config.LOGTAG, "verified session with x.509 signature. fingerprint was: " + fingerprint); setFingerprintTrust(fingerprint, FingerprintStatus.createActiveVerified(true)); axolotlStore.setFingerprintCertificate(fingerprint, verification.first[0]); fetchStatusMap.put(address, FetchStatus.SUCCESS_VERIFIED); Bundle information = CryptoHelper.extractCertificateInformation(verification.first[0]); try { final String cn = information.getString("subject_cn"); final Jid jid = Jid.of(address.getName()); Log.d(Config.LOGTAG, "setting common name for " + jid + " to " + cn); account.getRoster().getContact(jid).setCommonName(cn); } catch (final IllegalArgumentException ignored) { //ignored } finishBuildingSessionsFromPEP(address); return; } catch (Exception e) { Log.d(Config.LOGTAG, "could not verify certificate"); } } } catch (Exception e) { Log.d(Config.LOGTAG, "error during verification " + e.getMessage()); } } else { Log.d(Config.LOGTAG, "no verification found"); } fetchStatusMap.put(address, FetchStatus.SUCCESS); finishBuildingSessionsFromPEP(address); } }); } catch (IllegalArgumentException e) { fetchStatusMap.put(address, FetchStatus.SUCCESS); finishBuildingSessionsFromPEP(address); } } private final Set PREVIOUSLY_REMOVED_FROM_ANNOUNCEMENT = new HashSet<>(); private void finishBuildingSessionsFromPEP(final SignalProtocolAddress address) { SignalProtocolAddress ownAddress = new SignalProtocolAddress(account.getJid().asBareJid().toString(), 0); Map own = fetchStatusMap.getAll(ownAddress.getName()); Map remote = fetchStatusMap.getAll(address.getName()); if (!own.containsValue(FetchStatus.PENDING) && !remote.containsValue(FetchStatus.PENDING)) { FetchStatus report = null; if (own.containsValue(FetchStatus.SUCCESS) || remote.containsValue(FetchStatus.SUCCESS)) { report = FetchStatus.SUCCESS; } else if (own.containsValue(FetchStatus.SUCCESS_VERIFIED) || remote.containsValue(FetchStatus.SUCCESS_VERIFIED)) { report = FetchStatus.SUCCESS_VERIFIED; } else if (own.containsValue(FetchStatus.SUCCESS_TRUSTED) || remote.containsValue(FetchStatus.SUCCESS_TRUSTED)) { report = FetchStatus.SUCCESS_TRUSTED; } else if (own.containsValue(FetchStatus.ERROR) || remote.containsValue(FetchStatus.ERROR)) { report = FetchStatus.ERROR; } mXmppConnectionService.keyStatusUpdated(report); } if (Config.REMOVE_BROKEN_DEVICES) { Set ownDeviceIds = new HashSet<>(getOwnDeviceIds()); boolean publish = false; for (Map.Entry entry : own.entrySet()) { int id = entry.getKey(); if (entry.getValue() == FetchStatus.ERROR && PREVIOUSLY_REMOVED_FROM_ANNOUNCEMENT.add(id) && ownDeviceIds.remove(id)) { publish = true; Log.d(Config.LOGTAG, account.getJid().asBareJid() + ": error fetching own device with id " + id + ". removing from announcement"); } } if (publish) { publishOwnDeviceId(ownDeviceIds); } } } public boolean hasEmptyDeviceList(Jid jid) { return !hasAny(jid) && (!deviceIds.containsKey(jid) || deviceIds.get(jid).isEmpty()); } public interface OnDeviceIdsFetched { void fetched(Jid jid, Set deviceIds); } public interface OnMultipleDeviceIdFetched { void fetched(); } public void fetchDeviceIds(final Jid jid) { fetchDeviceIds(jid, null); } private void fetchDeviceIds(final Jid jid, OnDeviceIdsFetched callback) { IqPacket packet; synchronized (this.fetchDeviceIdsMap) { List callbacks = this.fetchDeviceIdsMap.get(jid); if (callbacks != null) { if (callback != null) { callbacks.add(callback); } Log.d(Config.LOGTAG, account.getJid().asBareJid() + ": fetching device ids for " + jid + " already running. adding callback"); packet = null; } else { callbacks = new ArrayList<>(); if (callback != null) { callbacks.add(callback); } this.fetchDeviceIdsMap.put(jid, callbacks); Log.d(Config.LOGTAG, account.getJid().asBareJid() + ": fetching device ids for " + jid); packet = mXmppConnectionService.getIqGenerator().retrieveDeviceIds(jid); } } if (packet != null) { mXmppConnectionService.sendIqPacket(account, packet, (account, response) -> { if (response.getType() == IqPacket.TYPE.RESULT) { fetchDeviceListStatus.put(jid, true); Element item = mXmppConnectionService.getIqParser().getItem(response); Set deviceIds = mXmppConnectionService.getIqParser().deviceIds(item); registerDevices(jid, deviceIds); final List callbacks; synchronized (fetchDeviceIdsMap) { callbacks = fetchDeviceIdsMap.remove(jid); } if (callbacks != null) { for (OnDeviceIdsFetched c : callbacks) { c.fetched(jid, deviceIds); } } } else { if (response.getType() == IqPacket.TYPE.TIMEOUT) { fetchDeviceListStatus.remove(jid); } else { fetchDeviceListStatus.put(jid, false); } final List callbacks; synchronized (fetchDeviceIdsMap) { callbacks = fetchDeviceIdsMap.remove(jid); } if (callbacks != null) { for (OnDeviceIdsFetched c : callbacks) { c.fetched(jid, null); } } } }); } } private void fetchDeviceIds(List jids, final OnMultipleDeviceIdFetched callback) { final ArrayList unfinishedJids = new ArrayList<>(jids); synchronized (unfinishedJids) { for (Jid jid : unfinishedJids) { fetchDeviceIds(jid, (j, deviceIds) -> { synchronized (unfinishedJids) { unfinishedJids.remove(j); if (unfinishedJids.size() == 0 && callback != null) { callback.fetched(); } } }); } } } private void buildSessionFromPEP(final SignalProtocolAddress address) { Log.i(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Building new session for " + address.toString()); if (address.equals(getOwnAxolotlAddress())) { throw new AssertionError("We should NEVER build a session with ourselves. What happened here?!"); } final Jid jid = Jid.of(address.getName()); final boolean oneOfOurs = jid.asBareJid().equals(account.getJid().asBareJid()); IqPacket bundlesPacket = mXmppConnectionService.getIqGenerator().retrieveBundlesForDevice(jid, address.getDeviceId()); mXmppConnectionService.sendIqPacket(account, bundlesPacket, (account, packet) -> { if (packet.getType() == IqPacket.TYPE.TIMEOUT) { fetchStatusMap.put(address, FetchStatus.TIMEOUT); } else if (packet.getType() == IqPacket.TYPE.RESULT) { Log.d(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Received preKey IQ packet, processing..."); final IqParser parser = mXmppConnectionService.getIqParser(); final List preKeyBundleList = parser.preKeys(packet); final PreKeyBundle bundle = parser.bundle(packet); if (preKeyBundleList.isEmpty() || bundle == null) { Log.e(Config.LOGTAG, AxolotlService.getLogprefix(account) + "preKey IQ packet invalid: " + packet); fetchStatusMap.put(address, FetchStatus.ERROR); finishBuildingSessionsFromPEP(address); return; } Random random = new Random(); final PreKeyBundle preKey = preKeyBundleList.get(random.nextInt(preKeyBundleList.size())); if (preKey == null) { //should never happen fetchStatusMap.put(address, FetchStatus.ERROR); finishBuildingSessionsFromPEP(address); return; } final PreKeyBundle preKeyBundle = new PreKeyBundle(0, address.getDeviceId(), preKey.getPreKeyId(), preKey.getPreKey(), bundle.getSignedPreKeyId(), bundle.getSignedPreKey(), bundle.getSignedPreKeySignature(), bundle.getIdentityKey()); try { SessionBuilder builder = new SessionBuilder(axolotlStore, address); builder.process(preKeyBundle); XmppAxolotlSession session = new XmppAxolotlSession(account, axolotlStore, address, bundle.getIdentityKey()); sessions.put(address, session); if (Config.X509_VERIFICATION) { verifySessionWithPEP(session); } else { FingerprintStatus status = getFingerprintTrust(CryptoHelper.bytesToHex(bundle.getIdentityKey().getPublicKey().serialize())); FetchStatus fetchStatus; if (status != null && status.isVerified()) { fetchStatus = FetchStatus.SUCCESS_VERIFIED; } else if (status != null && status.isTrusted()) { fetchStatus = FetchStatus.SUCCESS_TRUSTED; } else { fetchStatus = FetchStatus.SUCCESS; } fetchStatusMap.put(address, fetchStatus); finishBuildingSessionsFromPEP(address); } } catch (UntrustedIdentityException | InvalidKeyException e) { Log.e(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Error building session for " + address + ": " + e.getClass().getName() + ", " + e.getMessage()); fetchStatusMap.put(address, FetchStatus.ERROR); finishBuildingSessionsFromPEP(address); if (oneOfOurs && cleanedOwnDeviceIds.add(address.getDeviceId())) { removeFromDeviceAnnouncement(address.getDeviceId()); } } } else { fetchStatusMap.put(address, FetchStatus.ERROR); Element error = packet.findChild("error"); boolean itemNotFound = error != null && error.hasChild("item-not-found"); Log.d(Config.LOGTAG, getLogprefix(account) + "Error received while building session:" + packet.findChild("error")); finishBuildingSessionsFromPEP(address); if (oneOfOurs && itemNotFound && cleanedOwnDeviceIds.add(address.getDeviceId())) { removeFromDeviceAnnouncement(address.getDeviceId()); } } }); } private void removeFromDeviceAnnouncement(Integer id) { HashSet temp = new HashSet<>(getOwnDeviceIds()); if (temp.remove(id)) { Log.d(Config.LOGTAG,account.getJid().asBareJid()+" remove own device id "+id+" from announcement. devices left:"+temp); publishOwnDeviceId(temp); } } public Set findDevicesWithoutSession(final Conversation conversation) { Set addresses = new HashSet<>(); for (Jid jid : getCryptoTargets(conversation)) { Log.d(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Finding devices without session for " + jid); final Set ids = deviceIds.get(jid); if (ids != null && !ids.isEmpty()) { for (Integer foreignId : ids) { SignalProtocolAddress address = new SignalProtocolAddress(jid.toString(), foreignId); if (sessions.get(address) == null) { IdentityKey identityKey = axolotlStore.loadSession(address).getSessionState().getRemoteIdentityKey(); if (identityKey != null) { Log.d(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Already have session for " + address.toString() + ", adding to cache..."); XmppAxolotlSession session = new XmppAxolotlSession(account, axolotlStore, address, identityKey); sessions.put(address, session); } else { Log.d(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Found device " + jid + ":" + foreignId); if (fetchStatusMap.get(address) != FetchStatus.ERROR) { addresses.add(address); } else { Log.d(Config.LOGTAG, getLogprefix(account) + "skipping over " + address + " because it's broken"); } } } } } else { mXmppConnectionService.keyStatusUpdated(FetchStatus.ERROR); Log.w(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Have no target devices in PEP!"); } } Set ownIds = this.deviceIds.get(account.getJid().asBareJid()); for (Integer ownId : (ownIds != null ? ownIds : new HashSet())) { SignalProtocolAddress address = new SignalProtocolAddress(account.getJid().asBareJid().toString(), ownId); if (sessions.get(address) == null) { IdentityKey identityKey = axolotlStore.loadSession(address).getSessionState().getRemoteIdentityKey(); if (identityKey != null) { Log.d(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Already have session for " + address.toString() + ", adding to cache..."); XmppAxolotlSession session = new XmppAxolotlSession(account, axolotlStore, address, identityKey); sessions.put(address, session); } else { Log.d(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Found device " + account.getJid().asBareJid() + ":" + ownId); if (fetchStatusMap.get(address) != FetchStatus.ERROR) { addresses.add(address); } else { Log.d(Config.LOGTAG, getLogprefix(account) + "skipping over " + address + " because it's broken"); } } } } return addresses; } public boolean createSessionsIfNeeded(final Conversation conversation) { final List jidsWithEmptyDeviceList = getCryptoTargets(conversation); for (Iterator iterator = jidsWithEmptyDeviceList.iterator(); iterator.hasNext(); ) { final Jid jid = iterator.next(); if (!hasEmptyDeviceList(jid)) { iterator.remove(); } } Log.d(Config.LOGTAG, account.getJid().asBareJid() + ": createSessionsIfNeeded() - jids with empty device list: " + jidsWithEmptyDeviceList); if (jidsWithEmptyDeviceList.size() > 0) { fetchDeviceIds(jidsWithEmptyDeviceList, () -> createSessionsIfNeededActual(conversation)); return true; } else { return createSessionsIfNeededActual(conversation); } } private boolean createSessionsIfNeededActual(final Conversation conversation) { Log.i(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Creating axolotl sessions if needed..."); boolean newSessions = false; Set addresses = findDevicesWithoutSession(conversation); for (SignalProtocolAddress address : addresses) { Log.d(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Processing device: " + address.toString()); FetchStatus status = fetchStatusMap.get(address); if (status == null || status == FetchStatus.TIMEOUT) { fetchStatusMap.put(address, FetchStatus.PENDING); this.buildSessionFromPEP(address); newSessions = true; } else if (status == FetchStatus.PENDING) { newSessions = true; } else { Log.d(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Already fetching bundle for " + address.toString()); } } return newSessions; } public boolean trustedSessionVerified(final Conversation conversation) { final Set sessions = new HashSet<>(); sessions.addAll(findSessionsForConversation(conversation)); sessions.addAll(findOwnSessions()); boolean verified = false; for (XmppAxolotlSession session : sessions) { if (session.getTrust().isTrustedAndActive()) { if (session.getTrust().getTrust() == FingerprintStatus.Trust.VERIFIED_X509) { verified = true; } else { return false; } } } return verified; } public boolean hasPendingKeyFetches(List jids) { SignalProtocolAddress ownAddress = new SignalProtocolAddress(account.getJid().asBareJid().toString(), 0); if (fetchStatusMap.getAll(ownAddress.getName()).containsValue(FetchStatus.PENDING)) { return true; } synchronized (this.fetchDeviceIdsMap) { for (Jid jid : jids) { SignalProtocolAddress foreignAddress = new SignalProtocolAddress(jid.asBareJid().toString(), 0); if (fetchStatusMap.getAll(foreignAddress.getName()).containsValue(FetchStatus.PENDING) || this.fetchDeviceIdsMap.containsKey(jid)) { return true; } } } return false; } @Nullable private boolean buildHeader(XmppAxolotlMessage axolotlMessage, Conversation c) { Set remoteSessions = findSessionsForConversation(c); final boolean acceptEmpty = (c.getMode() == Conversation.MODE_MULTI && c.getMucOptions().getUserCount() == 0) || c.getContact().isSelf(); Collection ownSessions = findOwnSessions(); if (remoteSessions.isEmpty() && !acceptEmpty) { return false; } for (XmppAxolotlSession session : remoteSessions) { axolotlMessage.addDevice(session); } for (XmppAxolotlSession session : ownSessions) { axolotlMessage.addDevice(session); } return true; } //this is being used for private muc messages only private boolean buildHeader(XmppAxolotlMessage axolotlMessage, Jid jid) { if (jid == null) { return false; } HashSet sessions = new HashSet<>(); sessions.addAll(this.sessions.getAll(getAddressForJid(jid).getName()).values()); if (sessions.isEmpty()) { return false; } sessions.addAll(findOwnSessions()); for(XmppAxolotlSession session : sessions) { axolotlMessage.addDevice(session); } return true; } @Nullable public XmppAxolotlMessage encrypt(Message message) { final XmppAxolotlMessage axolotlMessage = new XmppAxolotlMessage(account.getJid().asBareJid(), getOwnDeviceId()); final String content; if (message.hasFileOnRemoteHost()) { content = message.getFileParams().url.toString(); } else { content = message.getBody(); } try { axolotlMessage.encrypt(content); } catch (CryptoFailedException e) { Log.w(Config.LOGTAG, getLogprefix(account) + "Failed to encrypt message: " + e.getMessage()); return null; } final boolean success; if (message.getType() == Message.TYPE_PRIVATE) { success = buildHeader(axolotlMessage, message.getTrueCounterpart()); } else { success = buildHeader(axolotlMessage, (Conversation) message.getConversation()); } return success ? axolotlMessage : null; } public void preparePayloadMessage(final Message message, final boolean delay) { executor.execute(new Runnable() { @Override public void run() { XmppAxolotlMessage axolotlMessage = encrypt(message); if (axolotlMessage == null) { mXmppConnectionService.markMessage(message, Message.STATUS_SEND_FAILED); //mXmppConnectionService.updateConversationUi(); } else { Log.d(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Generated message, caching: " + message.getUuid()); messageCache.put(message.getUuid(), axolotlMessage); mXmppConnectionService.resendMessage(message, delay); } } }); } public void prepareKeyTransportMessage(final Conversation conversation, final OnMessageCreatedCallback onMessageCreatedCallback) { executor.execute(new Runnable() { @Override public void run() { final XmppAxolotlMessage axolotlMessage = new XmppAxolotlMessage(account.getJid().asBareJid(), getOwnDeviceId()); if (buildHeader(axolotlMessage, conversation)) { onMessageCreatedCallback.run(axolotlMessage); } else { onMessageCreatedCallback.run(null); } } }); } public XmppAxolotlMessage fetchAxolotlMessageFromCache(Message message) { XmppAxolotlMessage axolotlMessage = messageCache.get(message.getUuid()); if (axolotlMessage != null) { Log.d(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Cache hit: " + message.getUuid()); messageCache.remove(message.getUuid()); } else { Log.d(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Cache miss: " + message.getUuid()); } return axolotlMessage; } private XmppAxolotlSession recreateUncachedSession(SignalProtocolAddress address) { IdentityKey identityKey = axolotlStore.loadSession(address).getSessionState().getRemoteIdentityKey(); return (identityKey != null) ? new XmppAxolotlSession(account, axolotlStore, address, identityKey) : null; } private XmppAxolotlSession getReceivingSession(XmppAxolotlMessage message) { SignalProtocolAddress senderAddress = new SignalProtocolAddress(message.getFrom().toString(), message.getSenderDeviceId()); XmppAxolotlSession session = sessions.get(senderAddress); if (session == null) { Log.d(Config.LOGTAG, AxolotlService.getLogprefix(account) + "Account: " + account.getJid() + " No axolotl session found while parsing received message " + message); session = recreateUncachedSession(senderAddress); if (session == null) { session = new XmppAxolotlSession(account, axolotlStore, senderAddress); } } return session; } public XmppAxolotlMessage.XmppAxolotlPlaintextMessage processReceivingPayloadMessage(XmppAxolotlMessage message, boolean postponePreKeyMessageHandling) throws NotEncryptedForThisDeviceException { XmppAxolotlMessage.XmppAxolotlPlaintextMessage plaintextMessage = null; XmppAxolotlSession session = getReceivingSession(message); int ownDeviceId = getOwnDeviceId(); try { plaintextMessage = message.decrypt(session, ownDeviceId); Integer preKeyId = session.getPreKeyIdAndReset(); if (preKeyId != null) { postPreKeyMessageHandling(session, preKeyId, postponePreKeyMessageHandling); } } catch (NotEncryptedForThisDeviceException e) { if (account.getJid().asBareJid().equals(message.getFrom().asBareJid()) && message.getSenderDeviceId() == ownDeviceId) { Log.w(Config.LOGTAG, getLogprefix(account) + "Reflected omemo message received"); } else { throw e; } } catch (CryptoFailedException e) { Log.w(Config.LOGTAG, getLogprefix(account) + "Failed to decrypt message from " + message.getFrom() + ": " + e.getMessage()); } if (session.isFresh() && plaintextMessage != null) { putFreshSession(session); } return plaintextMessage; } private void postPreKeyMessageHandling(final XmppAxolotlSession session, int preKeyId, final boolean postpone) { if (postpone) { postponedSessions.add(session); } else { //TODO: do not republish if we already removed this preKeyId publishBundlesIfNeeded(false, false); completeSession(session); } } public void processPostponed() { if (postponedSessions.size() > 0) { publishBundlesIfNeeded(false, false); } Iterator iterator = postponedSessions.iterator(); while (iterator.hasNext()) { completeSession(iterator.next()); iterator.remove(); } } private void completeSession(XmppAxolotlSession session) { final XmppAxolotlMessage axolotlMessage = new XmppAxolotlMessage(account.getJid().asBareJid(), getOwnDeviceId()); axolotlMessage.addDevice(session, true); try { Jid jid = Jid.of(session.getRemoteAddress().getName()); MessagePacket packet = mXmppConnectionService.getMessageGenerator().generateKeyTransportMessage(jid, axolotlMessage); mXmppConnectionService.sendMessagePacket(account, packet); } catch (IllegalArgumentException e) { throw new Error("Remote addresses are created from jid and should convert back to jid", e); } } public XmppAxolotlMessage.XmppAxolotlKeyTransportMessage processReceivingKeyTransportMessage(XmppAxolotlMessage message, final boolean postponePreKeyMessageHandling) { XmppAxolotlMessage.XmppAxolotlKeyTransportMessage keyTransportMessage; XmppAxolotlSession session = getReceivingSession(message); try { keyTransportMessage = message.getParameters(session, getOwnDeviceId()); Integer preKeyId = session.getPreKeyIdAndReset(); if (preKeyId != null) { postPreKeyMessageHandling(session, preKeyId, postponePreKeyMessageHandling); } } catch (CryptoFailedException e) { Log.d(Config.LOGTAG, "could not decrypt keyTransport message " + e.getMessage()); keyTransportMessage = null; } if (session.isFresh() && keyTransportMessage != null) { putFreshSession(session); } return keyTransportMessage; } private void putFreshSession(XmppAxolotlSession session) { Log.d(Config.LOGTAG, "put fresh session"); sessions.put(session); if (Config.X509_VERIFICATION) { if (session.getIdentityKey() != null) { verifySessionWithPEP(session); } else { Log.e(Config.LOGTAG, account.getJid().asBareJid() + ": identity key was empty after reloading for x509 verification"); } } } }