session-android/src/org/thoughtcrime/securesms/loki/MultiDeviceUtilities.kt

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Kotlin
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package org.thoughtcrime.securesms.loki
import android.content.Context
import nl.komponents.kovenant.Promise
import nl.komponents.kovenant.deferred
import nl.komponents.kovenant.functional.bind
import nl.komponents.kovenant.functional.map
import org.thoughtcrime.securesms.ApplicationContext
import org.thoughtcrime.securesms.crypto.IdentityKeyUtil
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import org.thoughtcrime.securesms.database.Address
import org.thoughtcrime.securesms.database.DatabaseFactory
import org.thoughtcrime.securesms.logging.Log
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import org.thoughtcrime.securesms.recipients.Recipient
import org.thoughtcrime.securesms.util.TextSecurePreferences
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import org.thoughtcrime.securesms.util.concurrent.SettableFuture
import org.whispersystems.libsignal.util.guava.Optional
import org.whispersystems.signalservice.api.crypto.UnidentifiedAccessPair
import org.whispersystems.signalservice.api.messages.SignalServiceDataMessage
import org.whispersystems.signalservice.api.push.SignalServiceAddress
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import org.whispersystems.signalservice.loki.api.LokiStorageAPI
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import org.whispersystems.signalservice.loki.api.PairingAuthorisation
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import org.whispersystems.signalservice.loki.messaging.LokiThreadFriendRequestStatus
import org.whispersystems.signalservice.loki.utilities.retryIfNeeded
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fun getAllDeviceFriendRequestStatus(context: Context, hexEncodedPublicKey: String, storageAPI: LokiStorageAPI): Promise<Map<String, LokiThreadFriendRequestStatus>, Exception> {
val lokiThreadDatabase = DatabaseFactory.getLokiThreadDatabase(context)
return storageAPI.getAllDevicePublicKeys(hexEncodedPublicKey).map { keys ->
val map = mutableMapOf<String, LokiThreadFriendRequestStatus>()
for (devicePublicKey in keys) {
val device = Recipient.from(context, Address.fromSerialized(devicePublicKey), false)
val threadID = DatabaseFactory.getThreadDatabase(context).getThreadIdIfExistsFor(device)
val friendRequestStatus = if (threadID < 0) LokiThreadFriendRequestStatus.NONE else lokiThreadDatabase.getFriendRequestStatus(threadID)
map.put(devicePublicKey, friendRequestStatus);
}
map
}
}
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fun getAllDevicePublicKeys(context: Context, hexEncodedPublicKey: String, storageAPI: LokiStorageAPI, block: (devicePublicKey: String, isFriend: Boolean, friendCount: Int) -> Unit) {
val userHexEncodedPublicKey = TextSecurePreferences.getLocalNumber(context)
storageAPI.getAllDevicePublicKeys(hexEncodedPublicKey).success { items ->
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val devices = items.toMutableSet()
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if (hexEncodedPublicKey != userHexEncodedPublicKey) {
devices.remove(userHexEncodedPublicKey)
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}
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val friends = getFriendPublicKeys(context, devices)
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for (device in devices) {
block(device, friends.contains(device), friends.count())
}
}
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}
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fun shouldAutomaticallyBecomeFriendsWithDevice(publicKey: String, context: Context): Boolean {
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val lokiThreadDatabase = DatabaseFactory.getLokiThreadDatabase(context)
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val storageAPI = LokiStorageAPI.shared
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val future = SettableFuture<Boolean>()
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storageAPI.getPrimaryDevicePublicKey(publicKey).success { primaryDevicePublicKey ->
if (primaryDevicePublicKey == null) {
// If the public key doesn't have any other devices then go through regular friend request logic
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future.set(false)
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return@success
}
// If we are the primary device and the public key is our secondary device then we should become friends
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val userHexEncodedPublicKey = TextSecurePreferences.getLocalNumber(context)
if (primaryDevicePublicKey == userHexEncodedPublicKey) {
storageAPI.getSecondaryDevicePublicKeys(userHexEncodedPublicKey).success { secondaryDevices ->
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future.set(secondaryDevices.contains(publicKey))
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}.fail {
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future.set(false)
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}
return@success
}
// If we share the same primary device then we should become friends
val ourPrimaryDevice = TextSecurePreferences.getMasterHexEncodedPublicKey(context)
if (ourPrimaryDevice != null && ourPrimaryDevice == primaryDevicePublicKey) {
future.set(true)
return@success
}
// If we are friends with the primary device then we should become friends
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val primaryDevice = Recipient.from(context, Address.fromSerialized(primaryDevicePublicKey), false)
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val threadID = DatabaseFactory.getThreadDatabase(context).getThreadIdIfExistsFor(primaryDevice)
if (threadID < 0) {
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future.set(false)
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return@success
}
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future.set(lokiThreadDatabase.getFriendRequestStatus(threadID) == LokiThreadFriendRequestStatus.FRIENDS)
}
return try {
future.get()
} catch (e: Exception) {
false
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}
}
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fun sendPairingAuthorisationMessage(context: Context, contactHexEncodedPublicKey: String, authorisation: PairingAuthorisation): Promise<Unit, Exception> {
val messageSender = ApplicationContext.getInstance(context).communicationModule.provideSignalMessageSender()
val address = SignalServiceAddress(contactHexEncodedPublicKey)
val message = SignalServiceDataMessage.newBuilder().withBody("").withPairingAuthorisation(authorisation)
// A REQUEST should always act as a friend request. A GRANT should always be replying back as a normal message.
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if (authorisation.type == PairingAuthorisation.Type.REQUEST) {
val preKeyBundle = DatabaseFactory.getLokiPreKeyBundleDatabase(context).generatePreKeyBundle(address.number)
message.asFriendRequest(true).withPreKeyBundle(preKeyBundle)
}
return try {
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Log.d("Loki", "Sending authorisation message to: $contactHexEncodedPublicKey.")
val result = messageSender.sendMessage(0, address, Optional.absent<UnidentifiedAccessPair>(), message.build())
if (result.success == null) {
val exception = when {
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result.isNetworkFailure -> "Failed to send authorisation message due to a network error."
else -> "Failed to send authorisation message."
}
throw Exception(exception)
}
Promise.ofSuccess(Unit)
} catch (e: Exception) {
Log.d("Loki", "Failed to send authorisation message to: $contactHexEncodedPublicKey.")
Promise.ofFail(e)
}
}
fun signAndSendPairingAuthorisationMessage(context: Context, pairingAuthorisation: PairingAuthorisation) {
val userPrivateKey = IdentityKeyUtil.getIdentityKeyPair(context).privateKey.serialize()
val signedPairingAuthorisation = pairingAuthorisation.sign(PairingAuthorisation.Type.GRANT, userPrivateKey)
if (signedPairingAuthorisation == null || signedPairingAuthorisation.type != PairingAuthorisation.Type.GRANT) {
Log.d("Loki", "Failed to sign pairing authorization.")
return
}
retryIfNeeded(8) {
sendPairingAuthorisationMessage(context, pairingAuthorisation.secondaryDevicePublicKey, signedPairingAuthorisation).get()
}.fail {
Log.d("Loki", "Failed to send pairing authorization message to ${pairingAuthorisation.secondaryDevicePublicKey}.")
}
DatabaseFactory.getLokiAPIDatabase(context).insertOrUpdatePairingAuthorisation(signedPairingAuthorisation)
LokiStorageAPI.shared.updateUserDeviceMappings().fail { exception ->
Log.w("Loki", "Failed to update device mapping")
}
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}
fun shouldSendSycMessage(context: Context, address: Address): Boolean {
if (address.isGroup || address.isEmail || address.isMmsGroup) {
return false
}
// Don't send sync messages if it's our address
val publicKey = address.serialize()
if (publicKey == TextSecurePreferences.getLocalNumber(context)) {
return false
}
val storageAPI = LokiStorageAPI.shared
val future = SettableFuture<Boolean>()
storageAPI.getPrimaryDevicePublicKey(publicKey).success { primaryDevicePublicKey ->
val isOurPrimaryDevice = primaryDevicePublicKey != null && TextSecurePreferences.getMasterHexEncodedPublicKey(context) == publicKey
// Don't send sync message if the primary device is the same as ours
future.set(!isOurPrimaryDevice)
}.fail {
future.set(false)
}
return try {
future.get()
} catch (e: Exception) {
false
}
}
fun isOneOfOurDevices(context: Context, address: Address): Boolean {
if (address.isGroup || address.isEmail || address.isMmsGroup) {
return false
}
val ourPublicKey = TextSecurePreferences.getLocalNumber(context)
val storageAPI = LokiStorageAPI.shared
val future = SettableFuture<Boolean>()
storageAPI.getAllDevicePublicKeys(ourPublicKey).success {
future.set(it.contains(address.serialize()))
}.fail {
future.set(false)
}
return try {
future.get()
} catch (e: Exception) {
false
}
}
fun getPrimaryDevicePublicKey(hexEncodedPublicKey: String): String? {
val storageAPI = LokiStorageAPI.shared
val future = SettableFuture<String?>()
storageAPI.getPrimaryDevicePublicKey(hexEncodedPublicKey).success {
future.set(it)
}.fail {
future.set(null)
}
return try {
future.get()
} catch (e: Exception) {
null
}
}
fun isFriendsWithAnyLinkedDevice(context: Context, recipient: Recipient): Boolean {
if (recipient.isGroupRecipient) return true
val future = SettableFuture<Boolean>()
val storageAPI = LokiStorageAPI.shared
getAllDeviceFriendRequestStatus(context, recipient.address.serialize(), storageAPI).success { map ->
for (status in map.values) {
if (status == LokiThreadFriendRequestStatus.FRIENDS) {
future.set(true)
break
}
}
if (!future.isDone) {
future.set(false)
}
}.fail { e ->
future.set(false)
}
try {
return future.get()
} catch (e: Exception) {
return false
}
}