diff --git a/native/cpp/CommonCpp/NativeModules/CommCoreModule.cpp b/native/cpp/CommonCpp/NativeModules/CommCoreModule.cpp index a5853460e..46a74820f 100644 --- a/native/cpp/CommonCpp/NativeModules/CommCoreModule.cpp +++ b/native/cpp/CommonCpp/NativeModules/CommCoreModule.cpp @@ -1,3211 +1,3217 @@ #include "CommCoreModule.h" #include "../Notifications/BackgroundDataStorage/NotificationsCryptoModule.h" #include "BaseDataStore.h" #include "CommServicesAuthMetadataEmitter.h" #include "DatabaseManager.h" #include "InternalModules/GlobalDBSingleton.h" #include "InternalModules/RustPromiseManager.h" #include "NativeModuleUtils.h" #include "TerminateApp.h" #include #include #include #include #include "JSIRust.h" #include "lib.rs.h" #include #include namespace comm { using namespace facebook::react; jsi::Value CommCoreModule::getDraft(jsi::Runtime &rt, jsi::String key) { std::string keyStr = key.utf8(rt); return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::string draftStr; try { draftStr = DatabaseManager::getQueryExecutor().getDraft(keyStr); } catch (std::system_error &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } jsi::String draft = jsi::String::createFromUtf8(innerRt, draftStr); promise->resolve(std::move(draft)); }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::updateDraft( jsi::Runtime &rt, jsi::String key, jsi::String text) { std::string keyStr = key.utf8(rt); std::string textStr = text.utf8(rt); return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=]() { std::string error; try { DatabaseManager::getQueryExecutor().updateDraft(keyStr, textStr); } catch (std::system_error &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=]() { if (error.size()) { promise->reject(error); } else { promise->resolve(true); } }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::moveDraft( jsi::Runtime &rt, jsi::String oldKey, jsi::String newKey) { std::string oldKeyStr = oldKey.utf8(rt); std::string newKeyStr = newKey.utf8(rt); return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=]() { std::string error; bool result = false; try { result = DatabaseManager::getQueryExecutor().moveDraft( oldKeyStr, newKeyStr); } catch (std::system_error &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=]() { if (error.size()) { promise->reject(error); } else { promise->resolve(result); } }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::getClientDBStore(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::vector draftsVector; std::vector threadsVector; std::vector messagesVector; std::vector messageStoreThreadsVector; std::vector reportStoreVector; std::vector userStoreVector; std::vector keyserverStoreVector; std::vector communityStoreVector; std::vector integrityStoreVector; std::vector syncedMetadataStoreVector; std::vector auxUserStoreVector; std::vector threadActivityStoreVector; std::vector entryStoreVector; std::vector messageStoreLocalMessageInfosVector; try { draftsVector = DatabaseManager::getQueryExecutor().getAllDrafts(); messagesVector = DatabaseManager::getQueryExecutor().getInitialMessages(); threadsVector = DatabaseManager::getQueryExecutor().getAllThreads(); messageStoreThreadsVector = DatabaseManager::getQueryExecutor().getAllMessageStoreThreads(); reportStoreVector = DatabaseManager::getQueryExecutor().getAllReports(); userStoreVector = DatabaseManager::getQueryExecutor().getAllUsers(); keyserverStoreVector = DatabaseManager::getQueryExecutor().getAllKeyservers(); communityStoreVector = DatabaseManager::getQueryExecutor().getAllCommunities(); integrityStoreVector = DatabaseManager::getQueryExecutor() .getAllIntegrityThreadHashes(); syncedMetadataStoreVector = DatabaseManager::getQueryExecutor().getAllSyncedMetadata(); auxUserStoreVector = DatabaseManager::getQueryExecutor().getAllAuxUserInfos(); threadActivityStoreVector = DatabaseManager::getQueryExecutor() .getAllThreadActivityEntries(); entryStoreVector = DatabaseManager::getQueryExecutor().getAllEntries(); messageStoreLocalMessageInfosVector = DatabaseManager::getQueryExecutor() .getAllMessageStoreLocalMessageInfos(); } catch (std::system_error &e) { error = e.what(); } auto draftsVectorPtr = std::make_shared>(std::move(draftsVector)); auto messagesVectorPtr = std::make_shared>( std::move(messagesVector)); auto threadsVectorPtr = std::make_shared>(std::move(threadsVector)); auto messageStoreThreadsVectorPtr = std::make_shared>( std::move(messageStoreThreadsVector)); auto reportStoreVectorPtr = std::make_shared>( std::move(reportStoreVector)); auto userStoreVectorPtr = std::make_shared>( std::move(userStoreVector)); auto keyserveStoreVectorPtr = std::make_shared>( std::move(keyserverStoreVector)); auto communityStoreVectorPtr = std::make_shared>( std::move(communityStoreVector)); auto integrityStoreVectorPtr = std::make_shared>( std::move(integrityStoreVector)); auto syncedMetadataStoreVectorPtr = std::make_shared>( std::move(syncedMetadataStoreVector)); auto auxUserStoreVectorPtr = std::make_shared>( std::move(auxUserStoreVector)); auto threadActivityStoreVectorPtr = std::make_shared>( std::move(threadActivityStoreVector)); auto entryStoreVectorPtr = std::make_shared>( std::move(entryStoreVector)); auto messageStoreLocalMessageInfosVectorPtr = std::make_shared>( std::move(messageStoreLocalMessageInfosVector)); this->jsInvoker_->invokeAsync([&innerRt, draftsVectorPtr, messagesVectorPtr, threadsVectorPtr, messageStoreThreadsVectorPtr, reportStoreVectorPtr, userStoreVectorPtr, keyserveStoreVectorPtr, communityStoreVectorPtr, integrityStoreVectorPtr, syncedMetadataStoreVectorPtr, auxUserStoreVectorPtr, threadActivityStoreVectorPtr, entryStoreVectorPtr, messageStoreLocalMessageInfosVectorPtr, error, promise, draftStore = this->draftStore, threadStore = this->threadStore, messageStore = this->messageStore, reportStore = this->reportStore, userStore = this->userStore, keyserverStore = this->keyserverStore, communityStore = this->communityStore, integrityStore = this->integrityStore, syncedMetadataStore = this->syncedMetadataStore, auxUserStore = this->auxUserStore, threadActivityStore = this->threadActivityStore, entryStore = this->entryStore]() { if (error.size()) { promise->reject(error); return; } jsi::Array jsiDrafts = draftStore.parseDBDataStore(innerRt, draftsVectorPtr); jsi::Array jsiMessages = messageStore.parseDBDataStore(innerRt, messagesVectorPtr); jsi::Array jsiThreads = threadStore.parseDBDataStore(innerRt, threadsVectorPtr); jsi::Array jsiMessageStoreThreads = messageStore.parseDBMessageStoreThreads( innerRt, messageStoreThreadsVectorPtr); jsi::Array jsiReportStore = reportStore.parseDBDataStore(innerRt, reportStoreVectorPtr); jsi::Array jsiUserStore = userStore.parseDBDataStore(innerRt, userStoreVectorPtr); jsi::Array jsiKeyserverStore = keyserverStore.parseDBDataStore( innerRt, keyserveStoreVectorPtr); jsi::Array jsiCommunityStore = communityStore.parseDBDataStore( innerRt, communityStoreVectorPtr); jsi::Array jsiIntegrityStore = integrityStore.parseDBDataStore( innerRt, integrityStoreVectorPtr); jsi::Array jsiSyncedMetadataStore = syncedMetadataStore.parseDBDataStore( innerRt, syncedMetadataStoreVectorPtr); jsi::Array jsiAuxUserStore = auxUserStore.parseDBDataStore(innerRt, auxUserStoreVectorPtr); jsi::Array jsiThreadActivityStore = threadActivityStore.parseDBDataStore( innerRt, threadActivityStoreVectorPtr); jsi::Array jsiEntryStore = entryStore.parseDBDataStore(innerRt, entryStoreVectorPtr); jsi::Array jsiMessageStoreLocalMessageInfos = messageStore.parseDBMessageStoreLocalMessageInfos( innerRt, messageStoreLocalMessageInfosVectorPtr); auto jsiClientDBStore = jsi::Object(innerRt); jsiClientDBStore.setProperty(innerRt, "messages", jsiMessages); jsiClientDBStore.setProperty(innerRt, "threads", jsiThreads); jsiClientDBStore.setProperty(innerRt, "drafts", jsiDrafts); jsiClientDBStore.setProperty( innerRt, "messageStoreThreads", jsiMessageStoreThreads); jsiClientDBStore.setProperty(innerRt, "reports", jsiReportStore); jsiClientDBStore.setProperty(innerRt, "users", jsiUserStore); jsiClientDBStore.setProperty( innerRt, "keyservers", jsiKeyserverStore); jsiClientDBStore.setProperty( innerRt, "communities", jsiCommunityStore); jsiClientDBStore.setProperty( innerRt, "integrityThreadHashes", jsiIntegrityStore); jsiClientDBStore.setProperty( innerRt, "syncedMetadata", jsiSyncedMetadataStore); jsiClientDBStore.setProperty( innerRt, "auxUserInfos", jsiAuxUserStore); jsiClientDBStore.setProperty( innerRt, "threadActivityEntries", jsiThreadActivityStore); jsiClientDBStore.setProperty(innerRt, "entries", jsiEntryStore); jsiClientDBStore.setProperty( innerRt, "messageStoreLocalMessageInfos", jsiMessageStoreLocalMessageInfos); promise->resolve(std::move(jsiClientDBStore)); }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::removeAllDrafts(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=]() { std::string error; try { DatabaseManager::getQueryExecutor().removeAllDrafts(); } catch (std::system_error &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=]() { if (error.size()) { promise->reject(error); return; } promise->resolve(jsi::Value::undefined()); }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Array CommCoreModule::getInitialMessagesSync(jsi::Runtime &rt) { auto messagesVector = NativeModuleUtils::runSyncOrThrowJSError>( rt, []() { return DatabaseManager::getQueryExecutor().getInitialMessages(); }); auto messagesVectorPtr = std::make_shared>(std::move(messagesVector)); jsi::Array jsiMessages = this->messageStore.parseDBDataStore(rt, messagesVectorPtr); return jsiMessages; } void CommCoreModule::processMessageStoreOperationsSync( jsi::Runtime &rt, jsi::Array operations) { return this->messageStore.processStoreOperationsSync( rt, std::move(operations)); } jsi::Array CommCoreModule::getAllThreadsSync(jsi::Runtime &rt) { auto threadsVector = NativeModuleUtils::runSyncOrThrowJSError>(rt, []() { return DatabaseManager::getQueryExecutor().getAllThreads(); }); auto threadsVectorPtr = std::make_shared>(std::move(threadsVector)); jsi::Array jsiThreads = this->threadStore.parseDBDataStore(rt, threadsVectorPtr); return jsiThreads; } void CommCoreModule::processThreadStoreOperationsSync( jsi::Runtime &rt, jsi::Array operations) { this->threadStore.processStoreOperationsSync(rt, std::move(operations)); } void CommCoreModule::processReportStoreOperationsSync( jsi::Runtime &rt, jsi::Array operations) { this->reportStore.processStoreOperationsSync(rt, std::move(operations)); } template void CommCoreModule::appendDBStoreOps( jsi::Runtime &rt, jsi::Object &operations, const char *key, T &store, std::shared_ptr>> &destination) { auto opsObject = operations.getProperty(rt, key); if (opsObject.isObject()) { auto ops = store.createOperations(rt, opsObject.asObject(rt).asArray(rt)); std::move( std::make_move_iterator(ops.begin()), std::make_move_iterator(ops.end()), std::back_inserter(*destination)); } } jsi::Value CommCoreModule::processDBStoreOperations( jsi::Runtime &rt, jsi::Object operations) { std::string createOperationsError; auto storeOpsPtr = std::make_shared>>(); try { this->appendDBStoreOps( rt, operations, "draftStoreOperations", this->draftStore, storeOpsPtr); this->appendDBStoreOps( rt, operations, "threadStoreOperations", this->threadStore, storeOpsPtr); this->appendDBStoreOps( rt, operations, "messageStoreOperations", this->messageStore, storeOpsPtr); this->appendDBStoreOps( rt, operations, "reportStoreOperations", this->reportStore, storeOpsPtr); this->appendDBStoreOps( rt, operations, "userStoreOperations", this->userStore, storeOpsPtr); this->appendDBStoreOps( rt, operations, "keyserverStoreOperations", this->keyserverStore, storeOpsPtr); this->appendDBStoreOps( rt, operations, "communityStoreOperations", this->communityStore, storeOpsPtr); this->appendDBStoreOps( rt, operations, "integrityStoreOperations", this->integrityStore, storeOpsPtr); this->appendDBStoreOps( rt, operations, "syncedMetadataStoreOperations", this->syncedMetadataStore, storeOpsPtr); this->appendDBStoreOps( rt, operations, "auxUserStoreOperations", this->auxUserStore, storeOpsPtr); this->appendDBStoreOps( rt, operations, "threadActivityStoreOperations", this->threadActivityStore, storeOpsPtr); this->appendDBStoreOps( rt, operations, "entryStoreOperations", this->entryStore, storeOpsPtr); this->appendDBStoreOps( rt, operations, "messageSearchStoreOperations", this->messageSearchStore, storeOpsPtr); } catch (std::runtime_error &e) { createOperationsError = e.what(); } std::vector messages; try { auto messagesJSIObj = operations.getProperty(rt, "outboundP2PMessages"); if (messagesJSIObj.isObject()) { auto messagesJSI = messagesJSIObj.asObject(rt).asArray(rt); for (size_t idx = 0; idx < messagesJSI.size(rt); idx++) { jsi::Object msgObj = messagesJSI.getValueAtIndex(rt, idx).asObject(rt); std::string messageID = msgObj.getProperty(rt, "messageID").asString(rt).utf8(rt); std::string deviceID = msgObj.getProperty(rt, "deviceID").asString(rt).utf8(rt); std::string userID = msgObj.getProperty(rt, "userID").asString(rt).utf8(rt); std::string timestamp = msgObj.getProperty(rt, "timestamp").asString(rt).utf8(rt); std::string plaintext = msgObj.getProperty(rt, "plaintext").asString(rt).utf8(rt); std::string ciphertext = msgObj.getProperty(rt, "ciphertext").asString(rt).utf8(rt); std::string status = msgObj.getProperty(rt, "status").asString(rt).utf8(rt); bool supports_auto_retry = msgObj.getProperty(rt, "supportsAutoRetry").asBool(); OutboundP2PMessage outboundMessage{ messageID, deviceID, userID, timestamp, plaintext, ciphertext, status, supports_auto_retry}; messages.push_back(outboundMessage); } } } catch (std::runtime_error &e) { createOperationsError = e.what(); } return facebook::react::createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=]() { std::string error = createOperationsError; if (!error.size()) { try { DatabaseManager::getQueryExecutor().beginTransaction(); for (const auto &operation : *storeOpsPtr) { operation->execute(); } if (messages.size() > 0) { DatabaseManager::getQueryExecutor().addOutboundP2PMessages( messages); } DatabaseManager::getQueryExecutor().captureBackupLogs(); DatabaseManager::getQueryExecutor().commitTransaction(); } catch (std::system_error &e) { error = e.what(); DatabaseManager::getQueryExecutor().rollbackTransaction(); } } if (!error.size()) { ::triggerBackupFileUpload(); } this->jsInvoker_->invokeAsync([=]() { if (error.size()) { promise->reject(error); } else { promise->resolve(jsi::Value::undefined()); } }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } void CommCoreModule::terminate(jsi::Runtime &rt) { TerminateApp::terminate(); } const std::string getAccountDataKey(const std::string secureStoreAccountDataKey) { folly::Optional storedSecretKey = CommSecureStore::get(secureStoreAccountDataKey); if (!storedSecretKey.hasValue()) { storedSecretKey = crypto::Tools::generateRandomString(64); CommSecureStore::set(secureStoreAccountDataKey, storedSecretKey.value()); } return storedSecretKey.value(); } void CommCoreModule::persistCryptoModules( bool persistContentModule, std::optional, std::string>> maybeUpdatedNotifsCryptoModule) { std::string storedSecretKey = getAccountDataKey(secureStoreAccountDataKey); if (!persistContentModule && !maybeUpdatedNotifsCryptoModule.has_value()) { return; } crypto::Persist newContentPersist; if (persistContentModule) { newContentPersist = this->contentCryptoModule->storeAsB64(storedSecretKey); } std::promise persistencePromise; std::future persistenceFuture = persistencePromise.get_future(); GlobalDBSingleton::instance.scheduleOrRunCancellable( [=, &persistencePromise]() { try { DatabaseManager::getQueryExecutor().beginTransaction(); if (persistContentModule) { DatabaseManager::getQueryExecutor().storeOlmPersistData( DatabaseManager::getQueryExecutor().getContentAccountID(), newContentPersist); } if (maybeUpdatedNotifsCryptoModule.has_value()) { NotificationsCryptoModule::persistNotificationsAccount( maybeUpdatedNotifsCryptoModule.value().first, maybeUpdatedNotifsCryptoModule.value().second, true); } DatabaseManager::getQueryExecutor().commitTransaction(); persistencePromise.set_value(); } catch (std::system_error &e) { DatabaseManager::getQueryExecutor().rollbackTransaction(); persistencePromise.set_exception(std::make_exception_ptr(e)); } }); persistenceFuture.get(); } jsi::Value CommCoreModule::initializeCryptoAccount(jsi::Runtime &rt) { folly::Optional storedSecretKey = CommSecureStore::get(this->secureStoreAccountDataKey); if (!storedSecretKey.hasValue()) { storedSecretKey = crypto::Tools::generateRandomString(64); CommSecureStore::set( this->secureStoreAccountDataKey, storedSecretKey.value()); } return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=]() { crypto::Persist contentPersist; crypto::Persist notifsPersist; std::string error; try { std::optional contentAccountData = DatabaseManager::getQueryExecutor().getOlmPersistAccountData( DatabaseManager::getQueryExecutor().getContentAccountID()); if (contentAccountData.has_value()) { contentPersist.account = crypto::OlmBuffer( contentAccountData->begin(), contentAccountData->end()); // handle sessions data std::vector sessionsData = DatabaseManager::getQueryExecutor() .getOlmPersistSessionsData(); for (OlmPersistSession &sessionsDataItem : sessionsData) { crypto::OlmBuffer sessionDataBuffer( sessionsDataItem.session_data.begin(), sessionsDataItem.session_data.end()); crypto::SessionPersist sessionPersist{ sessionDataBuffer, sessionsDataItem.version}; contentPersist.sessions.insert(std::make_pair( sessionsDataItem.target_device_id, sessionPersist)); } } std::optional notifsAccountData = DatabaseManager::getQueryExecutor().getOlmPersistAccountData( DatabaseManager::getQueryExecutor().getNotifsAccountID()); if (notifsAccountData.has_value()) { notifsPersist.account = crypto::OlmBuffer( notifsAccountData->begin(), notifsAccountData->end()); } } catch (std::system_error &e) { error = e.what(); } - this->cryptoThread->scheduleTask([=]() { + taskType cryptoJob = [=]() { std::string error; this->contentCryptoModule.reset(new crypto::CryptoModule( this->publicCryptoAccountID, storedSecretKey.value(), contentPersist)); std::optional< std::pair, std::string>> maybeNotifsCryptoAccountToPersist; if (!NotificationsCryptoModule:: isNotificationsAccountInitialized()) { maybeNotifsCryptoAccountToPersist = { std::make_shared( this->notifsCryptoAccountID, storedSecretKey.value(), notifsPersist), storedSecretKey.value()}; } try { this->persistCryptoModules( contentPersist.isEmpty(), maybeNotifsCryptoAccountToPersist); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=]() { if (error.size()) { promise->reject(error); return; } }); this->jsInvoker_->invokeAsync( [=]() { promise->resolve(jsi::Value::undefined()); }); - }); + }; + try { + this->cryptoThread->scheduleTask(cryptoJob); + } catch (const std::exception &e) { + error = e.what(); + this->jsInvoker_->invokeAsync([=]() { promise->reject(error); }); + } }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::getUserPublicKey(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::string primaryKeysResult; std::string notificationsKeysResult; if (this->contentCryptoModule == nullptr || !NotificationsCryptoModule::isNotificationsAccountInitialized()) { error = "user has not been initialized"; } else { primaryKeysResult = this->contentCryptoModule->getIdentityKeys(); notificationsKeysResult = NotificationsCryptoModule::getIdentityKeys(); } std::string notificationsCurve25519Cpp, notificationsEd25519Cpp, blobPayloadCpp, signatureCpp, primaryCurve25519Cpp, primaryEd25519Cpp; if (!error.size()) { folly::dynamic parsedPrimary; try { parsedPrimary = folly::parseJson(primaryKeysResult); } catch (const folly::json::parse_error &e) { error = "parsing identity keys failed with: " + std::string(e.what()); } if (!error.size()) { primaryCurve25519Cpp = parsedPrimary["curve25519"].asString(); primaryEd25519Cpp = parsedPrimary["ed25519"].asString(); folly::dynamic parsedNotifications; try { parsedNotifications = folly::parseJson(notificationsKeysResult); } catch (const folly::json::parse_error &e) { error = "parsing notifications keys failed with: " + std::string(e.what()); } if (!error.size()) { notificationsCurve25519Cpp = parsedNotifications["curve25519"].asString(); notificationsEd25519Cpp = parsedNotifications["ed25519"].asString(); folly::dynamic blobPayloadJSON = folly::dynamic::object( "primaryIdentityPublicKeys", folly::dynamic::object("ed25519", primaryEd25519Cpp)( "curve25519", primaryCurve25519Cpp))( "notificationIdentityPublicKeys", folly::dynamic::object("ed25519", notificationsEd25519Cpp)( "curve25519", notificationsCurve25519Cpp)); blobPayloadCpp = folly::toJson(blobPayloadJSON); signatureCpp = this->contentCryptoModule->signMessage(blobPayloadCpp); } } } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } auto primaryCurve25519{ jsi::String::createFromUtf8(innerRt, primaryCurve25519Cpp)}; auto primaryEd25519{ jsi::String::createFromUtf8(innerRt, primaryEd25519Cpp)}; auto jsiPrimaryIdentityPublicKeys = jsi::Object(innerRt); jsiPrimaryIdentityPublicKeys.setProperty( innerRt, "ed25519", primaryEd25519); jsiPrimaryIdentityPublicKeys.setProperty( innerRt, "curve25519", primaryCurve25519); auto notificationsCurve25519{jsi::String::createFromUtf8( innerRt, notificationsCurve25519Cpp)}; auto notificationsEd25519{ jsi::String::createFromUtf8(innerRt, notificationsEd25519Cpp)}; auto jsiNotificationIdentityPublicKeys = jsi::Object(innerRt); jsiNotificationIdentityPublicKeys.setProperty( innerRt, "ed25519", notificationsEd25519); jsiNotificationIdentityPublicKeys.setProperty( innerRt, "curve25519", notificationsCurve25519); auto blobPayload{ jsi::String::createFromUtf8(innerRt, blobPayloadCpp)}; auto signature{jsi::String::createFromUtf8(innerRt, signatureCpp)}; auto jsiClientPublicKeys = jsi::Object(innerRt); jsiClientPublicKeys.setProperty( innerRt, "primaryIdentityPublicKeys", jsiPrimaryIdentityPublicKeys); jsiClientPublicKeys.setProperty( innerRt, "notificationIdentityPublicKeys", jsiNotificationIdentityPublicKeys); jsiClientPublicKeys.setProperty( innerRt, "blobPayload", blobPayload); jsiClientPublicKeys.setProperty(innerRt, "signature", signature); promise->resolve(std::move(jsiClientPublicKeys)); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Object parseOLMOneTimeKeys(jsi::Runtime &rt, std::string oneTimeKeysBlob) { folly::dynamic parsedOneTimeKeys = folly::parseJson(oneTimeKeysBlob); auto jsiOneTimeKeysInner = jsi::Object(rt); for (auto &kvPair : parsedOneTimeKeys["curve25519"].items()) { jsiOneTimeKeysInner.setProperty( rt, kvPair.first.asString().c_str(), jsi::String::createFromUtf8(rt, kvPair.second.asString())); } auto jsiOneTimeKeys = jsi::Object(rt); jsiOneTimeKeys.setProperty(rt, "curve25519", jsiOneTimeKeysInner); return jsiOneTimeKeys; } std::string parseOLMPrekey(std::string prekeyBlob) { folly::dynamic parsedPrekey; try { parsedPrekey = folly::parseJson(prekeyBlob); } catch (const folly::json::parse_error &e) { throw std::runtime_error( "parsing prekey failed with: " + std::string(e.what())); } folly::dynamic innerObject = parsedPrekey["curve25519"]; if (!innerObject.isObject()) { throw std::runtime_error("parsing prekey failed: inner object malformed"); } if (innerObject.values().begin() == innerObject.values().end()) { throw std::runtime_error("parsing prekey failed: prekey missing"); } return parsedPrekey["curve25519"].values().begin()->asString(); } jsi::Object parseOneTimeKeysResult( jsi::Runtime &rt, std::string contentOneTimeKeysBlob, std::string notifOneTimeKeysBlob) { auto contentOneTimeKeys = parseOLMOneTimeKeys(rt, contentOneTimeKeysBlob); auto notifOneTimeKeys = parseOLMOneTimeKeys(rt, notifOneTimeKeysBlob); auto jsiOneTimeKeysResult = jsi::Object(rt); jsiOneTimeKeysResult.setProperty( rt, "contentOneTimeKeys", contentOneTimeKeys); jsiOneTimeKeysResult.setProperty( rt, "notificationsOneTimeKeys", notifOneTimeKeys); return jsiOneTimeKeysResult; } jsi::Object parseEncryptedData( jsi::Runtime &rt, const crypto::EncryptedData &encryptedData) { auto encryptedDataJSI = jsi::Object(rt); auto message = std::string{encryptedData.message.begin(), encryptedData.message.end()}; auto messageJSI = jsi::String::createFromUtf8(rt, message); encryptedDataJSI.setProperty(rt, "message", messageJSI); encryptedDataJSI.setProperty( rt, "messageType", static_cast(encryptedData.messageType)); if (encryptedData.sessionVersion.has_value()) { encryptedDataJSI.setProperty( rt, "sessionVersion", static_cast(encryptedData.sessionVersion.value())); } return encryptedDataJSI; } jsi::Value CommCoreModule::getOneTimeKeys(jsi::Runtime &rt, double oneTimeKeysAmount) { return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::string contentResult; std::string notifResult; if (this->contentCryptoModule == nullptr || !NotificationsCryptoModule::isNotificationsAccountInitialized()) { this->jsInvoker_->invokeAsync([=, &innerRt]() { promise->reject("user has not been initialized"); }); return; } try { contentResult = this->contentCryptoModule->getOneTimeKeysForPublishing( oneTimeKeysAmount); std::pair, std::string> notifsCryptoModuleWithPicklingKey = NotificationsCryptoModule::fetchNotificationsAccount() .value(); notifResult = notifsCryptoModuleWithPicklingKey.first ->getOneTimeKeysForPublishing(oneTimeKeysAmount); this->persistCryptoModules(true, notifsCryptoModuleWithPicklingKey); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } promise->resolve( parseOneTimeKeysResult(innerRt, contentResult, notifResult)); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::validateAndUploadPrekeys( jsi::Runtime &rt, jsi::String authUserID, jsi::String authDeviceID, jsi::String authAccessToken) { auto authUserIDRust = jsiStringToRustString(authUserID, rt); auto authDeviceIDRust = jsiStringToRustString(authDeviceID, rt); auto authAccessTokenRust = jsiStringToRustString(authAccessToken, rt); return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::optional maybeContentPrekeyToUpload; std::optional maybeNotifsPrekeyToUpload; if (this->contentCryptoModule == nullptr || !NotificationsCryptoModule::isNotificationsAccountInitialized()) { this->jsInvoker_->invokeAsync([=, &innerRt]() { promise->reject("user has not been initialized"); }); return; } std::optional< std::pair, std::string>> notifsCryptoModuleWithPicklingKey; try { notifsCryptoModuleWithPicklingKey = NotificationsCryptoModule::fetchNotificationsAccount(); maybeContentPrekeyToUpload = this->contentCryptoModule->validatePrekey(); maybeNotifsPrekeyToUpload = notifsCryptoModuleWithPicklingKey.value() .first->validatePrekey(); this->persistCryptoModules(true, notifsCryptoModuleWithPicklingKey); if (!maybeContentPrekeyToUpload.has_value()) { maybeContentPrekeyToUpload = this->contentCryptoModule->getUnpublishedPrekey(); } if (!maybeNotifsPrekeyToUpload.has_value()) { maybeNotifsPrekeyToUpload = notifsCryptoModuleWithPicklingKey.value() .first->getUnpublishedPrekey(); } } catch (const std::exception &e) { error = e.what(); } if (error.size()) { this->jsInvoker_->invokeAsync( [=, &innerRt]() { promise->reject(error); }); return; } if (!maybeContentPrekeyToUpload.has_value() && !maybeNotifsPrekeyToUpload.has_value()) { this->jsInvoker_->invokeAsync( [=]() { promise->resolve(jsi::Value::undefined()); }); return; } std::string contentPrekeyToUpload; if (maybeContentPrekeyToUpload.has_value()) { contentPrekeyToUpload = maybeContentPrekeyToUpload.value(); } else { contentPrekeyToUpload = this->contentCryptoModule->getPrekey(); } std::string notifsPrekeyToUpload; if (maybeNotifsPrekeyToUpload.has_value()) { notifsPrekeyToUpload = maybeNotifsPrekeyToUpload.value(); } else { notifsPrekeyToUpload = notifsCryptoModuleWithPicklingKey.value().first->getPrekey(); } std::string prekeyUploadError; try { std::string contentPrekeySignature = this->contentCryptoModule->getPrekeySignature(); std::string notifsPrekeySignature = notifsCryptoModuleWithPicklingKey.value() .first->getPrekeySignature(); try { std::promise prekeyPromise; std::future prekeyFuture = prekeyPromise.get_future(); RustPromiseManager::CPPPromiseInfo promiseInfo = { std::move(prekeyPromise)}; auto currentID = RustPromiseManager::instance.addPromise( std::move(promiseInfo)); auto contentPrekeyToUploadRust = rust::String(parseOLMPrekey(contentPrekeyToUpload)); auto prekeySignatureRust = rust::string(contentPrekeySignature); auto notifsPrekeyToUploadRust = rust::String(parseOLMPrekey(notifsPrekeyToUpload)); auto notificationsPrekeySignatureRust = rust::string(notifsPrekeySignature); ::identityRefreshUserPrekeys( authUserIDRust, authDeviceIDRust, authAccessTokenRust, contentPrekeyToUploadRust, prekeySignatureRust, notifsPrekeyToUploadRust, notificationsPrekeySignatureRust, currentID); prekeyFuture.get(); } catch (const std::exception &e) { prekeyUploadError = e.what(); } if (!prekeyUploadError.size()) { this->contentCryptoModule->markPrekeyAsPublished(); notifsCryptoModuleWithPicklingKey.value() .first->markPrekeyAsPublished(); this->persistCryptoModules( true, notifsCryptoModuleWithPicklingKey); } } catch (std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=]() { if (error.size()) { promise->reject(error); return; } if (prekeyUploadError.size()) { promise->reject(prekeyUploadError); return; } promise->resolve(jsi::Value::undefined()); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::validateAndGetPrekeys(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::string contentPrekey, notifPrekey, contentPrekeySignature, notifPrekeySignature; std::optional contentPrekeyBlob; std::optional notifPrekeyBlob; if (this->contentCryptoModule == nullptr || !NotificationsCryptoModule::isNotificationsAccountInitialized()) { this->jsInvoker_->invokeAsync([=, &innerRt]() { promise->reject("user has not been initialized"); }); return; } std::optional< std::pair, std::string>> notifsCryptoModuleWithPicklingKey; try { notifsCryptoModuleWithPicklingKey = NotificationsCryptoModule::fetchNotificationsAccount(); contentPrekeyBlob = this->contentCryptoModule->validatePrekey(); if (!contentPrekeyBlob) { contentPrekeyBlob = this->contentCryptoModule->getUnpublishedPrekey(); } if (!contentPrekeyBlob) { contentPrekeyBlob = this->contentCryptoModule->getPrekey(); } notifPrekeyBlob = notifsCryptoModuleWithPicklingKey.value() .first->validatePrekey(); if (!notifPrekeyBlob) { notifPrekeyBlob = notifsCryptoModuleWithPicklingKey.value() .first->getUnpublishedPrekey(); } if (!notifPrekeyBlob) { notifPrekeyBlob = notifsCryptoModuleWithPicklingKey.value().first->getPrekey(); } this->persistCryptoModules(true, notifsCryptoModuleWithPicklingKey); contentPrekeySignature = this->contentCryptoModule->getPrekeySignature(); notifPrekeySignature = notifsCryptoModuleWithPicklingKey.value() .first->getPrekeySignature(); contentPrekey = parseOLMPrekey(contentPrekeyBlob.value()); notifPrekey = parseOLMPrekey(notifPrekeyBlob.value()); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } auto contentPrekeyJSI = jsi::String::createFromUtf8(innerRt, contentPrekey); auto contentPrekeySignatureJSI = jsi::String::createFromUtf8(innerRt, contentPrekeySignature); auto notifPrekeyJSI = jsi::String::createFromUtf8(innerRt, notifPrekey); auto notifPrekeySignatureJSI = jsi::String::createFromUtf8(innerRt, notifPrekeySignature); auto signedPrekeysJSI = jsi::Object(innerRt); signedPrekeysJSI.setProperty( innerRt, "contentPrekey", contentPrekeyJSI); signedPrekeysJSI.setProperty( innerRt, "contentPrekeySignature", contentPrekeySignatureJSI); signedPrekeysJSI.setProperty( innerRt, "notifPrekey", notifPrekeyJSI); signedPrekeysJSI.setProperty( innerRt, "notifPrekeySignature", notifPrekeySignatureJSI); promise->resolve(std::move(signedPrekeysJSI)); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::initializeNotificationsSession( jsi::Runtime &rt, jsi::String identityKeys, jsi::String prekey, jsi::String prekeySignature, std::optional oneTimeKey, jsi::String keyserverID) { auto identityKeysCpp{identityKeys.utf8(rt)}; auto prekeyCpp{prekey.utf8(rt)}; auto prekeySignatureCpp{prekeySignature.utf8(rt)}; auto keyserverIDCpp{keyserverID.utf8(rt)}; std::optional oneTimeKeyCpp; if (oneTimeKey) { oneTimeKeyCpp = oneTimeKey->utf8(rt); } return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; crypto::EncryptedData result; std::optional< std::pair, std::string>> notifsCryptoModuleWithPicklingKey; try { notifsCryptoModuleWithPicklingKey = NotificationsCryptoModule::fetchNotificationsAccount(); std::optional oneTimeKeyBuffer; if (oneTimeKeyCpp) { oneTimeKeyBuffer = crypto::OlmBuffer( oneTimeKeyCpp->begin(), oneTimeKeyCpp->end()); } notifsCryptoModuleWithPicklingKey.value() .first->initializeOutboundForSendingSession( keyserverIDCpp, std::vector( identityKeysCpp.begin(), identityKeysCpp.end()), std::vector(prekeyCpp.begin(), prekeyCpp.end()), std::vector( prekeySignatureCpp.begin(), prekeySignatureCpp.end()), oneTimeKeyBuffer); result = notifsCryptoModuleWithPicklingKey.value().first->encrypt( keyserverIDCpp, NotificationsCryptoModule::initialEncryptedMessageContent); std::shared_ptr keyserverNotificationsSession = notifsCryptoModuleWithPicklingKey.value() .first->getSessionByDeviceId(keyserverIDCpp); NotificationsCryptoModule::persistNotificationsSession( keyserverIDCpp, keyserverNotificationsSession); // Session is removed from the account since it is persisted // at different location that the account after serialization notifsCryptoModuleWithPicklingKey.value() .first->removeSessionByDeviceId(keyserverIDCpp); this->persistCryptoModules( false, notifsCryptoModuleWithPicklingKey); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } promise->resolve(jsi::String::createFromUtf8( innerRt, std::string{result.message.begin(), result.message.end()})); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::isNotificationsSessionInitialized(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; bool result; try { result = NotificationsCryptoModule::isNotificationsSessionInitialized( "Comm"); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } promise->resolve(result); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::isDeviceNotificationsSessionInitialized( jsi::Runtime &rt, jsi::String deviceID) { auto deviceIDCpp{deviceID.utf8(rt)}; return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { if (this->contentCryptoModule == nullptr || !NotificationsCryptoModule::isNotificationsAccountInitialized()) { this->jsInvoker_->invokeAsync([=, &innerRt]() { promise->reject("user has not been initialized"); }); return; } std::string error; bool result; try { result = NotificationsCryptoModule:: isDeviceNotificationsSessionInitialized(deviceIDCpp); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } promise->resolve(result); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::isNotificationsSessionInitializedWithDevices( jsi::Runtime &rt, jsi::Array deviceIDs) { std::vector deviceIDsCpp; for (auto idx = 0; idx < deviceIDs.size(rt); idx++) { std::string deviceIDCpp = deviceIDs.getValueAtIndex(rt, idx).asString(rt).utf8(rt); deviceIDsCpp.push_back(deviceIDCpp); } return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { if (this->contentCryptoModule == nullptr || !NotificationsCryptoModule::isNotificationsAccountInitialized()) { this->jsInvoker_->invokeAsync([=, &innerRt]() { promise->reject("user has not been initialized"); }); return; } std::string error; std::vector> result; try { result = NotificationsCryptoModule:: isNotificationsSessionInitializedWithDevices(deviceIDsCpp); } catch (const std::exception &e) { error = e.what(); } auto resultPtr = std::make_shared>>( std::move(result)); this->jsInvoker_->invokeAsync( [&innerRt, resultPtr, error, promise]() { if (error.size()) { promise->reject(error); return; } jsi::Object jsiResult = jsi::Object(innerRt); for (const auto &deviceResult : *resultPtr) { jsiResult.setProperty( innerRt, deviceResult.first.c_str(), deviceResult.second); } promise->resolve(std::move(jsiResult)); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::updateKeyserverDataInNotifStorage( jsi::Runtime &rt, jsi::Array keyserversData) { std::vector> keyserversDataCpp; for (auto idx = 0; idx < keyserversData.size(rt); idx++) { auto data = keyserversData.getValueAtIndex(rt, idx).asObject(rt); std::string keyserverID = data.getProperty(rt, "id").asString(rt).utf8(rt); std::string keyserverUnreadCountKey = "KEYSERVER." + keyserverID + ".UNREAD_COUNT"; int unreadCount = data.getProperty(rt, "unreadCount").asNumber(); keyserversDataCpp.push_back({keyserverUnreadCountKey, unreadCount}); } return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { std::string error; try { for (const auto &keyserverData : keyserversDataCpp) { CommMMKV::setInt(keyserverData.first, keyserverData.second); } } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } promise->resolve(jsi::Value::undefined()); }); }); } jsi::Value CommCoreModule::removeKeyserverDataFromNotifStorage( jsi::Runtime &rt, jsi::Array keyserverIDsToDelete) { std::vector keyserverIDsToDeleteCpp{}; for (auto idx = 0; idx < keyserverIDsToDelete.size(rt); idx++) { std::string keyserverID = keyserverIDsToDelete.getValueAtIndex(rt, idx).asString(rt).utf8(rt); std::string keyserverUnreadCountKey = "KEYSERVER." + keyserverID + ".UNREAD_COUNT"; keyserverIDsToDeleteCpp.push_back(keyserverUnreadCountKey); } return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { std::string error; try { CommMMKV::removeKeys(keyserverIDsToDeleteCpp); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } promise->resolve(jsi::Value::undefined()); }); }); } jsi::Value CommCoreModule::getKeyserverDataFromNotifStorage( jsi::Runtime &rt, jsi::Array keyserverIDs) { std::vector keyserverIDsCpp{}; for (auto idx = 0; idx < keyserverIDs.size(rt); idx++) { std::string keyserverID = keyserverIDs.getValueAtIndex(rt, idx).asString(rt).utf8(rt); keyserverIDsCpp.push_back(keyserverID); } return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { std::string error; std::vector> keyserversDataVector{}; try { for (const auto &keyserverID : keyserverIDsCpp) { std::string keyserverUnreadCountKey = "KEYSERVER." + keyserverID + ".UNREAD_COUNT"; std::optional unreadCount = CommMMKV::getInt(keyserverUnreadCountKey, -1); if (!unreadCount.has_value()) { continue; } keyserversDataVector.push_back({keyserverID, unreadCount.value()}); } } catch (const std::exception &e) { error = e.what(); } auto keyserversDataVectorPtr = std::make_shared>>( std::move(keyserversDataVector)); this->jsInvoker_->invokeAsync( [&innerRt, keyserversDataVectorPtr, error, promise]() { if (error.size()) { promise->reject(error); return; } size_t numKeyserversData = keyserversDataVectorPtr->size(); jsi::Array jsiKeyserversData = jsi::Array(innerRt, numKeyserversData); size_t writeIdx = 0; for (const auto &keyserverData : *keyserversDataVectorPtr) { jsi::Object jsiKeyserverData = jsi::Object(innerRt); jsiKeyserverData.setProperty( innerRt, "id", keyserverData.first); jsiKeyserverData.setProperty( innerRt, "unreadCount", keyserverData.second); jsiKeyserversData.setValueAtIndex( innerRt, writeIdx++, jsiKeyserverData); } promise->resolve(std::move(jsiKeyserversData)); }); }); } jsi::Value CommCoreModule::updateUnreadThickThreadsInNotifsStorage( jsi::Runtime &rt, jsi::Array unreadThickThreadIDs) { std::vector unreadThickThreadIDsCpp{}; for (auto idx = 0; idx < unreadThickThreadIDs.size(rt); idx++) { std::string thickThreadID = unreadThickThreadIDs.getValueAtIndex(rt, idx).asString(rt).utf8(rt); unreadThickThreadIDsCpp.push_back(thickThreadID); } return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { std::string error; try { CommMMKV::setStringSet( CommMMKV::notifsStorageUnreadThickThreadsKey, unreadThickThreadIDsCpp); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } promise->resolve(jsi::Value::undefined()); }); }); } jsi::Value CommCoreModule::getUnreadThickThreadIDsFromNotifsStorage(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { std::string error; std::vector unreadThickThreadIDs{}; try { unreadThickThreadIDs = CommMMKV::getStringSet( CommMMKV::notifsStorageUnreadThickThreadsKey); } catch (const std::exception &e) { error = e.what(); } auto unreadThreadThickThreadIDsPtr = std::make_shared>( std::move(unreadThickThreadIDs)); this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } jsi::Array jsiUnreadThickThreadIDs = jsi::Array(innerRt, unreadThreadThickThreadIDsPtr->size()); size_t writeIdx = 0; for (const auto &thickThreadID : *unreadThreadThickThreadIDsPtr) { jsi::String jsiThickThreadID = jsi::String::createFromUtf8(innerRt, thickThreadID); jsiUnreadThickThreadIDs.setValueAtIndex( innerRt, writeIdx++, jsiThickThreadID); } promise->resolve(std::move(jsiUnreadThickThreadIDs)); }); }); } jsi::Value CommCoreModule::initializeContentOutboundSession( jsi::Runtime &rt, jsi::String identityKeys, jsi::String prekey, jsi::String prekeySignature, std::optional oneTimeKey, jsi::String deviceID) { auto identityKeysCpp{identityKeys.utf8(rt)}; auto prekeyCpp{prekey.utf8(rt)}; auto prekeySignatureCpp{prekeySignature.utf8(rt)}; auto deviceIDCpp{deviceID.utf8(rt)}; std::optional oneTimeKeyCpp; if (oneTimeKey) { oneTimeKeyCpp = oneTimeKey->utf8(rt); } return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; crypto::EncryptedData initialEncryptedData; int sessionVersion; try { std::optional oneTimeKeyBuffer; if (oneTimeKeyCpp) { oneTimeKeyBuffer = crypto::OlmBuffer( oneTimeKeyCpp->begin(), oneTimeKeyCpp->end()); } sessionVersion = this->contentCryptoModule->initializeOutboundForSendingSession( deviceIDCpp, std::vector( identityKeysCpp.begin(), identityKeysCpp.end()), std::vector(prekeyCpp.begin(), prekeyCpp.end()), std::vector( prekeySignatureCpp.begin(), prekeySignatureCpp.end()), oneTimeKeyBuffer); const std::string initMessage = "{\"type\": \"init\"}"; initialEncryptedData = contentCryptoModule->encrypt(deviceIDCpp, initMessage); this->persistCryptoModules(true, std::nullopt); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } auto initialEncryptedDataJSI = parseEncryptedData(innerRt, initialEncryptedData); auto outboundSessionCreationResultJSI = jsi::Object(innerRt); outboundSessionCreationResultJSI.setProperty( innerRt, "encryptedData", initialEncryptedDataJSI); outboundSessionCreationResultJSI.setProperty( innerRt, "sessionVersion", sessionVersion); promise->resolve(std::move(outboundSessionCreationResultJSI)); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::initializeContentInboundSession( jsi::Runtime &rt, jsi::String identityKeys, jsi::Object encryptedDataJSI, jsi::String deviceID, double sessionVersion, bool overwrite) { auto identityKeysCpp{identityKeys.utf8(rt)}; size_t messageType = std::lround(encryptedDataJSI.getProperty(rt, "messageType").asNumber()); std::string encryptedMessageCpp = encryptedDataJSI.getProperty(rt, "message").asString(rt).utf8(rt); auto deviceIDCpp{deviceID.utf8(rt)}; return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::string decryptedMessage; try { this->contentCryptoModule->initializeInboundForReceivingSession( deviceIDCpp, std::vector( encryptedMessageCpp.begin(), encryptedMessageCpp.end()), std::vector( identityKeysCpp.begin(), identityKeysCpp.end()), static_cast(sessionVersion), overwrite); crypto::EncryptedData encryptedData{ std::vector( encryptedMessageCpp.begin(), encryptedMessageCpp.end()), messageType}; decryptedMessage = this->contentCryptoModule->decrypt(deviceIDCpp, encryptedData); this->persistCryptoModules(true, std::nullopt); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } promise->resolve( jsi::String::createFromUtf8(innerRt, decryptedMessage)); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::isContentSessionInitialized( jsi::Runtime &rt, jsi::String deviceID) { auto deviceIDCpp{deviceID.utf8(rt)}; return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; bool result; if (this->contentCryptoModule == nullptr || !NotificationsCryptoModule::isNotificationsAccountInitialized()) { this->jsInvoker_->invokeAsync([=, &innerRt]() { promise->reject("user has not been initialized"); }); return; } try { result = this->contentCryptoModule->hasSessionFor(deviceIDCpp); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } promise->resolve(result); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::initializeNotificationsOutboundSession( jsi::Runtime &rt, jsi::String identityKeys, jsi::String prekey, jsi::String prekeySignature, std::optional oneTimeKey, jsi::String deviceID) { auto identityKeysCpp{identityKeys.utf8(rt)}; auto prekeyCpp{prekey.utf8(rt)}; auto prekeySignatureCpp{prekeySignature.utf8(rt)}; auto deviceIDCpp{deviceID.utf8(rt)}; std::optional oneTimeKeyCpp; if (oneTimeKey) { oneTimeKeyCpp = oneTimeKey->utf8(rt); } return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; crypto::EncryptedData result; std::optional< std::pair, std::string>> notifsCryptoModuleWithPicklingKey; try { notifsCryptoModuleWithPicklingKey = NotificationsCryptoModule::fetchNotificationsAccount(); std::optional oneTimeKeyBuffer; if (oneTimeKeyCpp) { oneTimeKeyBuffer = crypto::OlmBuffer( oneTimeKeyCpp->begin(), oneTimeKeyCpp->end()); } notifsCryptoModuleWithPicklingKey.value() .first->initializeOutboundForSendingSession( deviceIDCpp, std::vector( identityKeysCpp.begin(), identityKeysCpp.end()), std::vector(prekeyCpp.begin(), prekeyCpp.end()), std::vector( prekeySignatureCpp.begin(), prekeySignatureCpp.end()), oneTimeKeyBuffer); result = notifsCryptoModuleWithPicklingKey.value().first->encrypt( deviceIDCpp, NotificationsCryptoModule::initialEncryptedMessageContent); std::shared_ptr peerNotificationsSession = notifsCryptoModuleWithPicklingKey.value() .first->getSessionByDeviceId(deviceIDCpp); NotificationsCryptoModule::persistDeviceNotificationsSession( deviceIDCpp, peerNotificationsSession); // Session is removed from the account since it is persisted // at different location that the account after serialization notifsCryptoModuleWithPicklingKey.value() .first->removeSessionByDeviceId(deviceIDCpp); this->persistCryptoModules( false, notifsCryptoModuleWithPicklingKey); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } auto initialEncryptedDataJSI = parseEncryptedData(innerRt, result); promise->resolve(std::move(initialEncryptedDataJSI)); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::encrypt( jsi::Runtime &rt, jsi::String message, jsi::String deviceID) { auto messageCpp{message.utf8(rt)}; auto deviceIDCpp{deviceID.utf8(rt)}; return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; crypto::EncryptedData encryptedMessage; try { encryptedMessage = contentCryptoModule->encrypt(deviceIDCpp, messageCpp); this->persistCryptoModules(true, std::nullopt); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } auto encryptedDataJSI = parseEncryptedData(innerRt, encryptedMessage); promise->resolve(std::move(encryptedDataJSI)); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::encryptNotification( jsi::Runtime &rt, jsi::String payload, jsi::String deviceID) { auto payloadCpp{payload.utf8(rt)}; auto deviceIDCpp{deviceID.utf8(rt)}; return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; crypto::EncryptedData result; try { result = NotificationsCryptoModule::encrypt(deviceIDCpp, payloadCpp); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } auto encryptedDataJSI = parseEncryptedData(innerRt, result); promise->resolve(std::move(encryptedDataJSI)); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::encryptAndPersist( jsi::Runtime &rt, jsi::String message, jsi::String deviceID, jsi::String messageID) { auto messageCpp{message.utf8(rt)}; auto deviceIDCpp{deviceID.utf8(rt)}; auto messageIDCpp{messageID.utf8(rt)}; return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; crypto::EncryptedData encryptedMessage; try { encryptedMessage = contentCryptoModule->encrypt(deviceIDCpp, messageCpp); std::string storedSecretKey = getAccountDataKey(secureStoreAccountDataKey); crypto::Persist newContentPersist = this->contentCryptoModule->storeAsB64(storedSecretKey); std::promise persistencePromise; std::future persistenceFuture = persistencePromise.get_future(); GlobalDBSingleton::instance.scheduleOrRunCancellable( [=, &persistencePromise]() { try { folly::dynamic jsonObject = folly::dynamic::object; std::string messageStr( encryptedMessage.message.begin(), encryptedMessage.message.end()); jsonObject["message"] = messageStr; jsonObject["messageType"] = encryptedMessage.messageType; std::string ciphertext = folly::toJson(jsonObject); DatabaseManager::getQueryExecutor().beginTransaction(); DatabaseManager::getQueryExecutor() .setCiphertextForOutboundP2PMessage( messageIDCpp, deviceIDCpp, ciphertext); DatabaseManager::getQueryExecutor().storeOlmPersistData( DatabaseManager::getQueryExecutor() .getContentAccountID(), newContentPersist); DatabaseManager::getQueryExecutor().commitTransaction(); persistencePromise.set_value(); } catch (std::system_error &e) { DatabaseManager::getQueryExecutor().rollbackTransaction(); persistencePromise.set_exception( std::make_exception_ptr(e)); } }); persistenceFuture.get(); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } auto encryptedDataJSI = parseEncryptedData(innerRt, encryptedMessage); promise->resolve(std::move(encryptedDataJSI)); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::decrypt( jsi::Runtime &rt, jsi::Object encryptedDataJSI, jsi::String deviceID) { size_t messageType = std::lround(encryptedDataJSI.getProperty(rt, "messageType").asNumber()); std::string message = encryptedDataJSI.getProperty(rt, "message").asString(rt).utf8(rt); auto deviceIDCpp{deviceID.utf8(rt)}; std::optional sessionVersion; if (encryptedDataJSI.hasProperty(rt, "sessionVersion")) { sessionVersion = std::lround( encryptedDataJSI.getProperty(rt, "sessionVersion").asNumber()); } return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::string decryptedMessage; try { crypto::EncryptedData encryptedData{ std::vector(message.begin(), message.end()), messageType, sessionVersion}; decryptedMessage = this->contentCryptoModule->decrypt(deviceIDCpp, encryptedData); this->persistCryptoModules(true, std::nullopt); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } promise->resolve( jsi::String::createFromUtf8(innerRt, decryptedMessage)); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::decryptAndPersist( jsi::Runtime &rt, jsi::Object encryptedDataJSI, jsi::String deviceID, jsi::String userID, jsi::String messageID) { size_t messageType = std::lround(encryptedDataJSI.getProperty(rt, "messageType").asNumber()); std::string message = encryptedDataJSI.getProperty(rt, "message").asString(rt).utf8(rt); std::optional sessionVersion; if (encryptedDataJSI.hasProperty(rt, "sessionVersion")) { sessionVersion = std::lround( encryptedDataJSI.getProperty(rt, "sessionVersion").asNumber()); } auto deviceIDCpp{deviceID.utf8(rt)}; auto messageIDCpp{messageID.utf8(rt)}; auto userIDCpp{userID.utf8(rt)}; return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::string decryptedMessage; try { crypto::EncryptedData encryptedData{ std::vector(message.begin(), message.end()), messageType, sessionVersion}; decryptedMessage = this->contentCryptoModule->decrypt(deviceIDCpp, encryptedData); std::string storedSecretKey = getAccountDataKey(secureStoreAccountDataKey); crypto::Persist newContentPersist = this->contentCryptoModule->storeAsB64(storedSecretKey); std::promise persistencePromise; std::future persistenceFuture = persistencePromise.get_future(); GlobalDBSingleton::instance.scheduleOrRunCancellable( [=, &persistencePromise]() { try { InboundP2PMessage message{ messageIDCpp, deviceIDCpp, decryptedMessage, "decrypted", userIDCpp}; DatabaseManager::getQueryExecutor().beginTransaction(); DatabaseManager::getQueryExecutor().addInboundP2PMessage( message); DatabaseManager::getQueryExecutor().storeOlmPersistData( DatabaseManager::getQueryExecutor() .getContentAccountID(), newContentPersist); DatabaseManager::getQueryExecutor().commitTransaction(); persistencePromise.set_value(); } catch (std::system_error &e) { DatabaseManager::getQueryExecutor().rollbackTransaction(); persistencePromise.set_exception( std::make_exception_ptr(e)); } }); persistenceFuture.get(); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } promise->resolve( jsi::String::createFromUtf8(innerRt, decryptedMessage)); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::signMessage(jsi::Runtime &rt, jsi::String message) { std::string messageStr = message.utf8(rt); return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::string signature; try { signature = this->contentCryptoModule->signMessage(messageStr); } catch (const std::exception &e) { error = "signing message failed with: " + std::string(e.what()); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } auto jsiSignature{jsi::String::createFromUtf8(innerRt, signature)}; promise->resolve(std::move(jsiSignature)); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::verifySignature( jsi::Runtime &rt, jsi::String publicKey, jsi::String message, jsi::String signature) { std::string keyStr = publicKey.utf8(rt); std::string messageStr = message.utf8(rt); std::string signatureStr = signature.utf8(rt); return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; try { crypto::CryptoModule::verifySignature( keyStr, messageStr, signatureStr); } catch (const std::exception &e) { error = "verifying signature failed with: " + std::string(e.what()); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } promise->resolve(jsi::Value::undefined()); }); }; this->cryptoThread->scheduleTask(job); }); } CommCoreModule::CommCoreModule( std::shared_ptr jsInvoker) : facebook::react::CommCoreModuleSchemaCxxSpecJSI(jsInvoker), cryptoThread(std::make_unique("crypto")), draftStore(jsInvoker), threadStore(jsInvoker), messageStore(jsInvoker), reportStore(jsInvoker), userStore(jsInvoker), keyserverStore(jsInvoker), communityStore(jsInvoker), integrityStore(jsInvoker), syncedMetadataStore(jsInvoker), auxUserStore(jsInvoker), threadActivityStore(jsInvoker), entryStore(jsInvoker), messageSearchStore(jsInvoker) { GlobalDBSingleton::instance.enableMultithreading(); } double CommCoreModule::getCodeVersion(jsi::Runtime &rt) { return this->codeVersion; } jsi::Value CommCoreModule::setNotifyToken(jsi::Runtime &rt, jsi::String token) { auto notifyToken{token.utf8(rt)}; return createPromiseAsJSIValue( rt, [this, notifyToken](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [this, notifyToken, promise]() { std::string error; try { DatabaseManager::getQueryExecutor().setNotifyToken(notifyToken); } catch (std::system_error &e) { error = e.what(); } this->jsInvoker_->invokeAsync([error, promise]() { if (error.size()) { promise->reject(error); } else { promise->resolve(jsi::Value::undefined()); } }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::clearNotifyToken(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [this](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [this, promise]() { std::string error; try { DatabaseManager::getQueryExecutor().clearNotifyToken(); } catch (std::system_error &e) { error = e.what(); } this->jsInvoker_->invokeAsync([error, promise]() { if (error.size()) { promise->reject(error); } else { promise->resolve(jsi::Value::undefined()); } }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); }; jsi::Value CommCoreModule::stampSQLiteDBUserID(jsi::Runtime &rt, jsi::String userID) { auto currentUserID{userID.utf8(rt)}; return createPromiseAsJSIValue( rt, [this, currentUserID](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [this, promise, currentUserID]() { std::string error; try { DatabaseManager::getQueryExecutor().stampSQLiteDBUserID( currentUserID); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([error, promise]() { if (error.size()) { promise->reject(error); } else { promise->resolve(jsi::Value::undefined()); } }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::getSQLiteStampedUserID(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [this](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [this, &innerRt, promise]() { std::string error; std::string result; try { result = DatabaseManager::getQueryExecutor().getSQLiteStampedUserID(); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([&innerRt, error, result, promise]() { if (error.size()) { promise->reject(error); } else { promise->resolve(jsi::String::createFromUtf8(innerRt, result)); } }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::clearSensitiveData(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [this](jsi::Runtime &innerRt, std::shared_ptr promise) { GlobalDBSingleton::instance.setTasksCancelled(true); taskType job = [this, promise]() { std::string error; try { this->innerClearCommServicesAuthMetadata(); DatabaseManager::clearSensitiveData(); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([error, promise]() { if (error.size()) { promise->reject(error); } else { promise->resolve(jsi::Value::undefined()); } }); GlobalDBSingleton::instance.scheduleOrRun( []() { GlobalDBSingleton::instance.setTasksCancelled(false); }); }; GlobalDBSingleton::instance.scheduleOrRun(job); }); } bool CommCoreModule::checkIfDatabaseNeedsDeletion(jsi::Runtime &rt) { return DatabaseManager::checkIfDatabaseNeedsDeletion(); } void CommCoreModule::reportDBOperationsFailure(jsi::Runtime &rt) { DatabaseManager::reportDBOperationsFailure(); } jsi::Value CommCoreModule::computeBackupKey( jsi::Runtime &rt, jsi::String password, jsi::String backupID) { std::string passwordStr = password.utf8(rt); std::string backupIDStr = backupID.utf8(rt); return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::array<::std::uint8_t, 32> backupKey; try { backupKey = compute_backup_key(passwordStr, backupIDStr); } catch (const std::exception &e) { error = std::string{"Failed to compute backup key: "} + e.what(); } this->jsInvoker_->invokeAsync([=, &innerRt]() { if (error.size()) { promise->reject(error); return; } auto size = backupKey.size(); auto arrayBuffer = innerRt.global() .getPropertyAsFunction(innerRt, "ArrayBuffer") .callAsConstructor(innerRt, {static_cast(size)}) .asObject(innerRt) .getArrayBuffer(innerRt); auto bufferPtr = arrayBuffer.data(innerRt); memcpy(bufferPtr, backupKey.data(), size); promise->resolve(std::move(arrayBuffer)); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::generateRandomString(jsi::Runtime &rt, double size) { return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::string randomString; try { randomString = crypto::Tools::generateRandomString(static_cast(size)); } catch (const std::exception &e) { error = "Failed to generate random string for size " + std::to_string(size) + ": " + e.what(); } this->jsInvoker_->invokeAsync( [&innerRt, error, randomString, promise]() { if (error.size()) { promise->reject(error); } else { jsi::String jsiRandomString = jsi::String::createFromUtf8(innerRt, randomString); promise->resolve(std::move(jsiRandomString)); } }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::setCommServicesAuthMetadata( jsi::Runtime &rt, jsi::String userID, jsi::String deviceID, jsi::String accessToken) { auto userIDStr{userID.utf8(rt)}; auto deviceIDStr{deviceID.utf8(rt)}; auto accessTokenStr{accessToken.utf8(rt)}; return createPromiseAsJSIValue( rt, [this, userIDStr, deviceIDStr, accessTokenStr]( jsi::Runtime &innerRt, std::shared_ptr promise) { std::string error; try { this->innerSetCommServicesAuthMetadata( userIDStr, deviceIDStr, accessTokenStr); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([error, promise]() { if (error.size()) { promise->reject(error); } else { promise->resolve(jsi::Value::undefined()); } }); }); } void CommCoreModule::innerSetCommServicesAuthMetadata( std::string userID, std::string deviceID, std::string accessToken) { CommSecureStore::set(CommSecureStore::userID, userID); CommSecureStore::set(CommSecureStore::deviceID, deviceID); CommSecureStore::set(CommSecureStore::commServicesAccessToken, accessToken); CommServicesAuthMetadataEmitter::sendAuthMetadataToJS(accessToken, userID); } jsi::Value CommCoreModule::getCommServicesAuthMetadata(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [this](jsi::Runtime &innerRt, std::shared_ptr promise) { std::string error; std::string userID; std::string deviceID; std::string accessToken; try { folly::Optional userIDOpt = CommSecureStore::get(CommSecureStore::userID); if (userIDOpt.hasValue()) { userID = userIDOpt.value(); } folly::Optional deviceIDOpt = CommSecureStore::get(CommSecureStore::deviceID); if (deviceIDOpt.hasValue()) { deviceID = deviceIDOpt.value(); } folly::Optional accessTokenOpt = CommSecureStore::get(CommSecureStore::commServicesAccessToken); if (accessTokenOpt.hasValue()) { accessToken = accessTokenOpt.value(); } } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync( [&innerRt, error, userID, deviceID, accessToken, promise]() { if (error.size()) { promise->reject(error); } else { auto authMetadata = jsi::Object(innerRt); if (!userID.empty()) { authMetadata.setProperty( innerRt, "userID", jsi::String::createFromUtf8(innerRt, userID)); } if (!deviceID.empty()) { authMetadata.setProperty( innerRt, "deviceID", jsi::String::createFromUtf8(innerRt, deviceID)); } if (!accessToken.empty()) { authMetadata.setProperty( innerRt, "accessToken", jsi::String::createFromUtf8(innerRt, accessToken)); } promise->resolve(std::move(authMetadata)); } }); }); } jsi::Value CommCoreModule::clearCommServicesAuthMetadata(jsi::Runtime &rt) { return this->setCommServicesAuthMetadata( rt, jsi::String::createFromUtf8(rt, ""), jsi::String::createFromUtf8(rt, ""), jsi::String::createFromUtf8(rt, "")); } void CommCoreModule::innerClearCommServicesAuthMetadata() { return this->innerSetCommServicesAuthMetadata("", "", ""); } jsi::Value CommCoreModule::setCommServicesAccessToken( jsi::Runtime &rt, jsi::String accessToken) { auto accessTokenStr{accessToken.utf8(rt)}; return createPromiseAsJSIValue( rt, [this, accessTokenStr]( jsi::Runtime &innerRt, std::shared_ptr promise) { std::string error; try { CommSecureStore::set( CommSecureStore::commServicesAccessToken, accessTokenStr); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([error, promise]() { if (error.size()) { promise->reject(error); } else { promise->resolve(jsi::Value::undefined()); } }); }); } jsi::Value CommCoreModule::clearCommServicesAccessToken(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [this](jsi::Runtime &innerRt, std::shared_ptr promise) { std::string error; try { CommSecureStore::set(CommSecureStore::commServicesAccessToken, ""); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([error, promise]() { if (error.size()) { promise->reject(error); } else { promise->resolve(jsi::Value::undefined()); } }); }); } void CommCoreModule::startBackupHandler(jsi::Runtime &rt) { try { ::startBackupHandler(); } catch (const std::exception &e) { throw jsi::JSError(rt, e.what()); } } void CommCoreModule::stopBackupHandler(jsi::Runtime &rt) { try { ::stopBackupHandler(); } catch (const std::exception &e) { throw jsi::JSError(rt, e.what()); } } jsi::Value CommCoreModule::createNewBackupInternal( jsi::Runtime &rt, std::string backupSecret, std::string backupMessage) { return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { this->cryptoThread->scheduleTask([=, &innerRt]() { std::string error; std::string backupID; try { backupID = crypto::Tools::generateRandomString(32); } catch (const std::exception &e) { error = "Failed to generate backupID"; } std::string pickleKey; std::string pickledAccount; if (!error.size()) { try { pickleKey = crypto::Tools::generateRandomString(64); crypto::Persist persist = this->contentCryptoModule->storeAsB64(pickleKey); pickledAccount = std::string(persist.account.begin(), persist.account.end()); } catch (const std::exception &e) { error = "Failed to pickle crypto account"; } } if (!error.size()) { auto currentID = RustPromiseManager::instance.addPromise( {promise, this->jsInvoker_, innerRt}); ::createBackup( rust::string(backupID), rust::string(backupSecret), rust::string(pickleKey), rust::string(pickledAccount), rust::string(backupMessage), currentID); } else { this->jsInvoker_->invokeAsync( [=, &innerRt]() { promise->reject(error); }); } }); }); } jsi::Value CommCoreModule::createNewBackup(jsi::Runtime &rt, jsi::String backupSecret) { std::string backupSecretStr = backupSecret.utf8(rt); return createNewBackupInternal(rt, backupSecretStr, ""); } jsi::Value CommCoreModule::createNewSIWEBackup( jsi::Runtime &rt, jsi::String backupSecret, jsi::String siweBackupMsg) { std::string backupSecretStr = backupSecret.utf8(rt); std::string siweBackupMsgStr = siweBackupMsg.utf8(rt); return createNewBackupInternal(rt, backupSecretStr, siweBackupMsgStr); } jsi::Value CommCoreModule::restoreBackupInternal( jsi::Runtime &rt, std::string backupSecret, std::string backupID, std::string maxVersion) { return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { auto currentID = RustPromiseManager::instance.addPromise( {promise, this->jsInvoker_, innerRt}); ::restoreBackup( rust::string(backupSecret), rust::string(backupID), rust::string(maxVersion), currentID); }); } jsi::Value CommCoreModule::restoreBackup( jsi::Runtime &rt, jsi::String backupSecret, jsi::String maxVersion) { std::string backupSecretStr = backupSecret.utf8(rt); std::string maxVersionStr = maxVersion.utf8(rt); return restoreBackupInternal(rt, backupSecretStr, "", maxVersionStr); } jsi::Value CommCoreModule::restoreSIWEBackup( jsi::Runtime &rt, jsi::String backupSecret, jsi::String backupID, jsi::String maxVersion) { std::string backupSecretStr = backupSecret.utf8(rt); std::string backupIDStr = backupID.utf8(rt); std::string maxVersionStr = maxVersion.utf8(rt); return restoreBackupInternal(rt, backupSecretStr, backupIDStr, maxVersionStr); } jsi::Value CommCoreModule::restoreBackupData( jsi::Runtime &rt, jsi::String backupID, jsi::String backupDataKey, jsi::String backupLogDataKey, jsi::String maxVersion) { std::string backupIDStr = backupID.utf8(rt); std::string backupDataKeyStr = backupDataKey.utf8(rt); std::string backupLogDataKeyStr = backupLogDataKey.utf8(rt); std::string maxVersionStr = maxVersion.utf8(rt); return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { auto currentID = RustPromiseManager::instance.addPromise( {promise, this->jsInvoker_, innerRt}); ::restoreBackupData( rust::string(backupIDStr), rust::string(backupDataKeyStr), rust::string(backupLogDataKeyStr), rust::string(maxVersionStr), currentID); }); } jsi::Value CommCoreModule::retrieveBackupKeys(jsi::Runtime &rt, jsi::String backupSecret) { std::string backupSecretStr = backupSecret.utf8(rt); return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { auto currentID = RustPromiseManager::instance.addPromise( {promise, this->jsInvoker_, innerRt}); ::retrieveBackupKeys(rust::string(backupSecretStr), currentID); }); } jsi::Value CommCoreModule::retrieveLatestSIWEBackupData(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { auto currentID = RustPromiseManager::instance.addPromise( {promise, this->jsInvoker_, innerRt}); ::retrieveLatestSIWEBackupData(currentID); }); } jsi::Value CommCoreModule::setSIWEBackupSecrets( jsi::Runtime &rt, jsi::Object siweBackupSecrets) { std::string message = siweBackupSecrets.getProperty(rt, "message").asString(rt).utf8(rt); std::string signature = siweBackupSecrets.getProperty(rt, "signature").asString(rt).utf8(rt); folly::dynamic backupSecretsJSON = folly::dynamic::object("message", message)("signature", signature); std::string backupSecrets = folly::toJson(backupSecretsJSON); return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [this, promise, backupSecrets]() { std::string error; try { DatabaseManager::getQueryExecutor().setMetadata( "siweBackupSecrets", backupSecrets); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([error, promise]() { if (error.size()) { promise->reject(error); } else { promise->resolve(jsi::Value::undefined()); } }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::getSIWEBackupSecrets(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [this](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [this, &innerRt, promise]() { std::string error; std::string backupSecrets; try { backupSecrets = DatabaseManager::getQueryExecutor().getMetadata( "siweBackupSecrets"); } catch (const std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync( [&innerRt, error, backupSecrets, promise]() { if (error.size()) { promise->reject(error); } else if (!backupSecrets.size()) { promise->resolve(jsi::Value::undefined()); } else { folly::dynamic backupSecretsJSON = folly::parseJson(backupSecrets); std::string message = backupSecretsJSON["message"].asString(); std::string signature = backupSecretsJSON["signature"].asString(); auto siweBackupSecrets = jsi::Object(innerRt); siweBackupSecrets.setProperty( innerRt, "message", jsi::String::createFromUtf8(innerRt, message)); siweBackupSecrets.setProperty( innerRt, "signature", jsi::String::createFromUtf8(innerRt, signature)); promise->resolve(std::move(siweBackupSecrets)); } }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::getAllInboundP2PMessages(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::vector messages; try { messages = DatabaseManager::getQueryExecutor().getAllInboundP2PMessage(); } catch (std::system_error &e) { error = e.what(); } auto messagesPtr = std::make_shared>( std::move(messages)); this->jsInvoker_->invokeAsync( [&innerRt, messagesPtr, error, promise]() { if (error.size()) { promise->reject(error); return; } jsi::Array jsiMessages = jsi::Array(innerRt, messagesPtr->size()); size_t writeIdx = 0; for (const InboundP2PMessage &msg : *messagesPtr) { jsi::Object jsiMsg = jsi::Object(innerRt); jsiMsg.setProperty(innerRt, "messageID", msg.message_id); jsiMsg.setProperty( innerRt, "senderDeviceID", msg.sender_device_id); jsiMsg.setProperty(innerRt, "plaintext", msg.plaintext); jsiMsg.setProperty(innerRt, "status", msg.status); jsiMsg.setProperty( innerRt, "senderUserID", msg.sender_user_id); jsiMessages.setValueAtIndex(innerRt, writeIdx++, jsiMsg); } promise->resolve(std::move(jsiMessages)); }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::removeInboundP2PMessages(jsi::Runtime &rt, jsi::Array ids) { std::vector msgIDsCPP{}; for (auto idx = 0; idx < ids.size(rt); idx++) { std::string msgID = ids.getValueAtIndex(rt, idx).asString(rt).utf8(rt); msgIDsCPP.push_back(msgID); } return createPromiseAsJSIValue( rt, [this, msgIDsCPP](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [this, promise, msgIDsCPP]() { std::string error; try { DatabaseManager::getQueryExecutor().removeInboundP2PMessages( msgIDsCPP); } catch (std::system_error &e) { error = e.what(); } this->jsInvoker_->invokeAsync([error, promise]() { if (error.size()) { promise->reject(error); } else { promise->resolve(jsi::Value::undefined()); } }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::getOutboundP2PMessagesByID(jsi::Runtime &rt, jsi::Array ids) { std::vector msgIDsCPP{}; for (auto idx = 0; idx < ids.size(rt); idx++) { std::string msgID = ids.getValueAtIndex(rt, idx).asString(rt).utf8(rt); msgIDsCPP.push_back(msgID); } return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::vector messages; try { messages = DatabaseManager::getQueryExecutor().getOutboundP2PMessagesByID( msgIDsCPP); } catch (std::system_error &e) { error = e.what(); } auto messagesPtr = std::make_shared>( std::move(messages)); this->jsInvoker_->invokeAsync( [&innerRt, messagesPtr, error, promise]() { if (error.size()) { promise->reject(error); return; } jsi::Array jsiMessages = jsi::Array(innerRt, messagesPtr->size()); size_t writeIdx = 0; for (const OutboundP2PMessage &msg : *messagesPtr) { jsi::Object jsiMsg = jsi::Object(innerRt); jsiMsg.setProperty(innerRt, "messageID", msg.message_id); jsiMsg.setProperty(innerRt, "deviceID", msg.device_id); jsiMsg.setProperty(innerRt, "userID", msg.user_id); jsiMsg.setProperty(innerRt, "timestamp", msg.timestamp); jsiMsg.setProperty(innerRt, "plaintext", msg.plaintext); jsiMsg.setProperty(innerRt, "ciphertext", msg.ciphertext); jsiMsg.setProperty(innerRt, "status", msg.status); jsiMsg.setProperty( innerRt, "supportsAutoRetry", msg.supports_auto_retry); jsiMessages.setValueAtIndex(innerRt, writeIdx++, jsiMsg); } promise->resolve(std::move(jsiMessages)); }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::getAllOutboundP2PMessages(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::vector messages; try { messages = DatabaseManager::getQueryExecutor().getAllOutboundP2PMessages(); } catch (std::system_error &e) { error = e.what(); } auto messagesPtr = std::make_shared>( std::move(messages)); this->jsInvoker_->invokeAsync( [&innerRt, messagesPtr, error, promise]() { if (error.size()) { promise->reject(error); return; } jsi::Array jsiMessages = jsi::Array(innerRt, messagesPtr->size()); size_t writeIdx = 0; for (const OutboundP2PMessage &msg : *messagesPtr) { jsi::Object jsiMsg = jsi::Object(innerRt); jsiMsg.setProperty(innerRt, "messageID", msg.message_id); jsiMsg.setProperty(innerRt, "deviceID", msg.device_id); jsiMsg.setProperty(innerRt, "userID", msg.user_id); jsiMsg.setProperty(innerRt, "timestamp", msg.timestamp); jsiMsg.setProperty(innerRt, "plaintext", msg.plaintext); jsiMsg.setProperty(innerRt, "ciphertext", msg.ciphertext); jsiMsg.setProperty(innerRt, "status", msg.status); jsiMsg.setProperty( innerRt, "supportsAutoRetry", msg.supports_auto_retry); jsiMessages.setValueAtIndex(innerRt, writeIdx++, jsiMsg); } promise->resolve(std::move(jsiMessages)); }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::markOutboundP2PMessageAsSent( jsi::Runtime &rt, jsi::String messageID, jsi::String deviceID) { auto messageIDCpp{messageID.utf8(rt)}; auto deviceIDCpp{deviceID.utf8(rt)}; return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=]() { std::string error; try { DatabaseManager::getQueryExecutor().markOutboundP2PMessageAsSent( messageIDCpp, deviceIDCpp); } catch (std::system_error &e) { error = e.what(); } this->jsInvoker_->invokeAsync([error, promise]() { if (error.size()) { promise->reject(error); } else { promise->resolve(jsi::Value::undefined()); } }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::removeOutboundP2PMessage( jsi::Runtime &rt, jsi::String messageID, jsi::String deviceID) { auto messageIDCpp{messageID.utf8(rt)}; auto deviceIDCpp{deviceID.utf8(rt)}; return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=]() { std::string error; try { DatabaseManager::getQueryExecutor().removeOutboundP2PMessage( messageIDCpp, deviceIDCpp); } catch (std::system_error &e) { error = e.what(); } this->jsInvoker_->invokeAsync([error, promise]() { if (error.size()) { promise->reject(error); } else { promise->resolve(jsi::Value::undefined()); } }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::resetOutboundP2PMessagesForDevice( jsi::Runtime &rt, jsi::String deviceID) { std::string deviceIDCpp{deviceID.utf8(rt)}; return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::vector messageIDs; try { DatabaseManager::getQueryExecutor().beginTransaction(); messageIDs = DatabaseManager::getQueryExecutor() .resetOutboundP2PMessagesForDevice(deviceIDCpp); DatabaseManager::getQueryExecutor().commitTransaction(); } catch (std::system_error &e) { error = e.what(); DatabaseManager::getQueryExecutor().rollbackTransaction(); } auto messageIDsPtr = std::make_shared>(std::move(messageIDs)); this->jsInvoker_->invokeAsync( [&innerRt, messageIDsPtr, error, promise]() { if (error.size()) { promise->reject(error); return; } jsi::Array jsiMessageIDs = jsi::Array(innerRt, messageIDsPtr->size()); size_t writeIdx = 0; for (const std::string &id : *messageIDsPtr) { jsi::String jsiString = jsi::String::createFromUtf8(innerRt, id); jsiMessageIDs.setValueAtIndex(innerRt, writeIdx++, jsiString); } promise->resolve(std::move(jsiMessageIDs)); }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::getSyncedDatabaseVersion(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::vector syncedMetadataStoreVector; try { syncedMetadataStoreVector = DatabaseManager::getQueryExecutor().getAllSyncedMetadata(); } catch (std::system_error &e) { error = e.what(); } std::string version; for (auto &entry : syncedMetadataStoreVector) { if (entry.name == "db_version") { version = entry.data; } } this->jsInvoker_->invokeAsync([&innerRt, error, promise, version]() { if (error.size()) { promise->reject(error); return; } jsi::String jsiVersion = jsi::String::createFromUtf8(innerRt, version); promise->resolve(std::move(jsiVersion)); }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::markPrekeysAsPublished(jsi::Runtime &rt) { return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; if (this->contentCryptoModule == nullptr || !NotificationsCryptoModule::isNotificationsAccountInitialized()) { this->jsInvoker_->invokeAsync([=, &innerRt]() { promise->reject("user has not been initialized"); }); return; } std::optional< std::pair, std::string>> notifsCryptoModuleWithPicklingKey; try { notifsCryptoModuleWithPicklingKey = NotificationsCryptoModule::fetchNotificationsAccount(); this->contentCryptoModule->markPrekeyAsPublished(); notifsCryptoModuleWithPicklingKey.value() .first->markPrekeyAsPublished(); this->persistCryptoModules(true, notifsCryptoModuleWithPicklingKey); } catch (std::exception &e) { error = e.what(); } this->jsInvoker_->invokeAsync([=]() { if (error.size()) { promise->reject(error); return; } promise->resolve(jsi::Value::undefined()); }); }; this->cryptoThread->scheduleTask(job); }); } jsi::Value CommCoreModule::getRelatedMessages(jsi::Runtime &rt, jsi::String messageID) { std::string messageIDStr = messageID.utf8(rt); return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::shared_ptr> messages; try { messages = std::make_shared>( DatabaseManager::getQueryExecutor().getRelatedMessages( messageIDStr)); } catch (std::system_error &e) { error = e.what(); } this->jsInvoker_->invokeAsync([&innerRt, error, promise, messages, messageStore = this->messageStore]() { if (error.size()) { promise->reject(error); return; } jsi::Array jsiMessages = messageStore.parseDBDataStore(innerRt, messages); promise->resolve(std::move(jsiMessages)); }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } jsi::Value CommCoreModule::searchMessages( jsi::Runtime &rt, jsi::String query, jsi::String threadID, std::optional timestampCursor, std::optional messageIDCursor) { std::string queryStr = query.utf8(rt); std::string threadIDStr = threadID.utf8(rt); std::optional timestampCursorCpp; if (timestampCursor) { timestampCursorCpp = timestampCursor->utf8(rt); } std::optional messageIDCursorCpp; if (messageIDCursor) { messageIDCursorCpp = messageIDCursor->utf8(rt); } return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::shared_ptr> messages; try { messages = std::make_shared>( DatabaseManager::getQueryExecutor().searchMessages( queryStr, threadIDStr, timestampCursorCpp, messageIDCursorCpp)); } catch (std::system_error &e) { error = e.what(); } this->jsInvoker_->invokeAsync([&innerRt, error, promise, messages, messageStore = this->messageStore]() { if (error.size()) { promise->reject(error); return; } jsi::Array jsiMessages = messageStore.parseDBDataStore(innerRt, messages); promise->resolve(std::move(jsiMessages)); }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); }; jsi::Value CommCoreModule::fetchMessages( jsi::Runtime &rt, jsi::String threadID, double limit, double offset) { std::string threadIDCpp = threadID.utf8(rt); int limitInt = std::lround(limit); int offsetInt = std::lround(offset); return createPromiseAsJSIValue( rt, [=](jsi::Runtime &innerRt, std::shared_ptr promise) { taskType job = [=, &innerRt]() { std::string error; std::shared_ptr> messages; try { messages = std::make_shared>( DatabaseManager::getQueryExecutor().fetchMessages( threadIDCpp, limitInt, offsetInt)); } catch (std::system_error &e) { error = e.what(); } this->jsInvoker_->invokeAsync([&innerRt, error, promise, messages, messageStore = this->messageStore]() { if (error.size()) { promise->reject(error); return; } jsi::Array jsiMessages = messageStore.parseDBDataStore(innerRt, messages); promise->resolve(std::move(jsiMessages)); }); }; GlobalDBSingleton::instance.scheduleOrRunCancellable( job, promise, this->jsInvoker_); }); } } // namespace comm