/* This file is part of GNU Taler (C) 2021-2022 Taler Systems S.A. GNU Taler is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GNU Taler is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GNU Taler; see the file COPYING. If not, see */ /** * Imports. */ import { Event, IDBDatabase, IDBFactory, IDBObjectStore, IDBTransaction, } from "@gnu-taler/idb-bridge"; import { AgeCommitmentProof, AmountJson, AmountString, CoinEnvelope, CoinRefreshRequest, CoinStatus, MerchantContractTerms, DenominationInfo, DenominationPubKey, DenomSelectionState, EddsaPublicKeyString, EddsaSignatureString, ExchangeAuditor, ExchangeGlobalFees, InternationalizedString, Location, MerchantInfo, PayCoinSelection, PeerContractTerms, Product, RefreshReason, TalerErrorDetail, TalerProtocolDuration, TalerProtocolTimestamp, TransactionIdStr, UnblindedSignature, WireInfo, HashCodeString, Amounts, AttentionInfo, Logger, CoinPublicKeyString, TalerPreciseTimestamp, } from "@gnu-taler/taler-util"; import { DbAccess, describeContents, describeIndex, describeStore, GetReadWriteAccess, IndexDescriptor, openDatabase, StoreDescriptor, StoreWithIndexes, } from "./util/query.js"; import { RetryInfo, TaskIdentifiers } from "./util/retries.js"; /** * This file contains the database schema of the Taler wallet together * with some helper functions. * * Some design considerations: * - By convention, each object store must have a corresponding "Record" * interface defined for it. * - For records that represent operations, there should be exactly * one top-level enum field that indicates the status of the operation. * This field should be present even if redundant, because the field * will have an index. * - Amounts are stored as strings, except when they are needed for * indexing. * - Every record that has a corresponding transaction item must have * an index for a mandatory timestamp field. * - Optional fields should be avoided, use "T | undefined" instead. * - Do all records have some obvious, indexed field that can * be used for range queries? * * @author Florian Dold */ /** * Name of the Taler database. This is effectively the major * version of the DB schema. Whenever it changes, custom import logic * for all previous versions must be written, which should be * avoided. */ export const TALER_DB_NAME = "taler-wallet-main-v9"; /** * Name of the metadata database. This database is used * to track major migrations of the main Taler database. * * (Minor migrations are handled via upgrade transactions.) */ export const TALER_META_DB_NAME = "taler-wallet-meta"; export const CURRENT_DB_CONFIG_KEY = "currentMainDbName"; /** * Current database minor version, should be incremented * each time we do minor schema changes on the database. * A change is considered minor when fields are added in a * backwards-compatible way or object stores and indices * are added. */ export const WALLET_DB_MINOR_VERSION = 7; /** * Ranges for operation status fields. * * All individual enums should make sure that the values they * defined are in the right range. */ export enum OperationStatusRange { // Operations that need to be actively processed. ACTIVE_START = 10, ACTIVE_END = 29, // Operations that are suspended and might // expire, but nothing else can be done. SUSPENDED_START = 30, SUSPENDED_END = 49, // Operations that don't need any attention or processing. DORMANT_START = 50, DORMANT_END = 69, } /** * Status of a withdrawal. */ export enum WithdrawalGroupStatus { /** * Reserve must be registered with the bank. */ PendingRegisteringBank = 10, /** * We've registered reserve's information with the bank * and are now waiting for the user to confirm the withdraw * with the bank (typically 2nd factor auth). */ PendingWaitConfirmBank = 11, /** * Querying reserve status with the exchange. */ PendingQueryingStatus = 12, /** * Ready for withdrawal. */ PendingReady = 13, /** * We are telling the bank that we don't want to complete * the withdrawal! */ AbortingBank = 14, /** * Exchange wants KYC info from the user. */ PendingKyc = 16, /** * Exchange is doing AML checks. */ PendingAml = 17, SuspendedRegisteringBank = 30, SuspendedWaitConfirmBank = 31, SuspendedQueryingStatus = 32, SuspendedReady = 33, SuspendedAbortingBank = 34, SuspendedKyc = 35, SuspendedAml = 36, /** * The corresponding withdraw record has been created. * No further processing is done, unless explicitly requested * by the user. */ Finished = 50, /** * The bank aborted the withdrawal. */ FailedBankAborted = 51, FailedAbortingBank = 59, /** * Aborted in a state where we were supposed to * talk to the exchange. Money might have been * wired or not. */ AbortedExchange = 60, } /** * Extra info about a withdrawal that is used * with a bank-integrated withdrawal. */ export interface ReserveBankInfo { talerWithdrawUri: string; /** * URL that the user can be redirected to, and allows * them to confirm (or abort) the bank-integrated withdrawal. */ confirmUrl: string | undefined; /** * Exchange payto URI that the bank will use to fund the reserve. */ exchangePaytoUri: string; /** * Time when the information about this reserve was posted to the bank. * * Only applies if bankWithdrawStatusUrl is defined. * * Set to undefined if that hasn't happened yet. */ timestampReserveInfoPosted: TalerPreciseTimestamp | undefined; /** * Time when the reserve was confirmed by the bank. * * Set to undefined if not confirmed yet. */ timestampBankConfirmed: TalerPreciseTimestamp | undefined; } /** * Record that indicates the wallet trusts * a particular auditor. */ export interface AuditorTrustRecord { /** * Currency that we trust this auditor for. */ currency: string; /** * Base URL of the auditor. */ auditorBaseUrl: string; /** * Public key of the auditor. */ auditorPub: string; /** * UIDs for the operation of adding this auditor * as a trusted auditor. * * (Used for backup/sync merging and tombstones.) */ uids: string[]; } /** * Record to indicate trust for a particular exchange. */ export interface ExchangeTrustRecord { /** * Currency that we trust this exchange for. */ currency: string; /** * Canonicalized exchange base URL. */ exchangeBaseUrl: string; /** * Master public key of the exchange. */ exchangeMasterPub: string; /** * UIDs for the operation of adding this exchange * as trusted. */ uids: string[]; } /** * Status of a denomination. */ export enum DenominationVerificationStatus { /** * Verification was delayed. */ Unverified = OperationStatusRange.ACTIVE_START, /** * Verified as valid. */ VerifiedGood = OperationStatusRange.DORMANT_START, /** * Verified as invalid. */ VerifiedBad = OperationStatusRange.DORMANT_START + 1, } export interface DenomFees { /** * Fee for withdrawing. */ feeWithdraw: AmountString; /** * Fee for depositing. */ feeDeposit: AmountString; /** * Fee for refreshing. */ feeRefresh: AmountString; /** * Fee for refunding. */ feeRefund: AmountString; } /** * Denomination record as stored in the wallet's database. */ export interface DenominationRecord { currency: string; amountVal: number; amountFrac: number; /** * The denomination public key. */ denomPub: DenominationPubKey; /** * Hash of the denomination public key. * Stored in the database for faster lookups. */ denomPubHash: string; fees: DenomFees; /** * Validity start date of the denomination. */ stampStart: TalerProtocolTimestamp; /** * Date after which the currency can't be withdrawn anymore. */ stampExpireWithdraw: TalerProtocolTimestamp; /** * Date after the denomination officially doesn't exist anymore. */ stampExpireLegal: TalerProtocolTimestamp; /** * Data after which coins of this denomination can't be deposited anymore. */ stampExpireDeposit: TalerProtocolTimestamp; /** * Signature by the exchange's master key over the denomination * information. */ masterSig: string; /** * Did we verify the signature on the denomination? */ verificationStatus: DenominationVerificationStatus; /** * Was this denomination still offered by the exchange the last time * we checked? * Only false when the exchange redacts a previously published denomination. */ isOffered: boolean; /** * Did the exchange revoke the denomination? * When this field is set to true in the database, the same transaction * should also mark all affected coins as revoked. */ isRevoked: boolean; /** * Base URL of the exchange. */ exchangeBaseUrl: string; /** * Master public key of the exchange that made the signature * on the denomination. */ exchangeMasterPub: string; /** * Latest list issue date of the "/keys" response * that includes this denomination. */ listIssueDate: TalerProtocolTimestamp; } export namespace DenominationRecord { export function getValue(d: DenominationRecord): AmountJson { return { currency: d.currency, fraction: d.amountFrac, value: d.amountVal, }; } export function toDenomInfo(d: DenominationRecord): DenominationInfo { return { denomPub: d.denomPub, denomPubHash: d.denomPubHash, feeDeposit: Amounts.stringify(d.fees.feeDeposit), feeRefresh: Amounts.stringify(d.fees.feeRefresh), feeRefund: Amounts.stringify(d.fees.feeRefund), feeWithdraw: Amounts.stringify(d.fees.feeWithdraw), stampExpireDeposit: d.stampExpireDeposit, stampExpireLegal: d.stampExpireLegal, stampExpireWithdraw: d.stampExpireWithdraw, stampStart: d.stampStart, value: Amounts.stringify(DenominationRecord.getValue(d)), exchangeBaseUrl: d.exchangeBaseUrl, }; } } export interface ExchangeSignkeysRecord { stampStart: TalerProtocolTimestamp; stampExpire: TalerProtocolTimestamp; stampEnd: TalerProtocolTimestamp; signkeyPub: EddsaPublicKeyString; masterSig: EddsaSignatureString; /** * Exchange details that thiis signkeys record belongs to. */ exchangeDetailsRowId: number; } /** * Exchange details for a particular * (exchangeBaseUrl, masterPublicKey, currency) tuple. */ export interface ExchangeDetailsRecord { rowId?: number; /** * Master public key of the exchange. */ masterPublicKey: string; exchangeBaseUrl: string; /** * Currency that the exchange offers. */ currency: string; /** * Auditors (partially) auditing the exchange. */ auditors: ExchangeAuditor[]; /** * Last observed protocol version. */ protocolVersionRange: string; reserveClosingDelay: TalerProtocolDuration; /** * Fees for exchange services */ globalFees: ExchangeGlobalFees[]; /** * Etag of the current ToS of the exchange. */ tosCurrentEtag: string; /** * Information about ToS acceptance from the user. */ tosAccepted: | { etag: string; timestamp: TalerPreciseTimestamp; } | undefined; wireInfo: WireInfo; /** * Age restrictions supported by the exchange (bitmask). */ ageMask?: number; } export interface ExchangeTosRecord { exchangeBaseUrl: string; etag: string; /** * Terms of service text or undefined if not downloaded yet. * * This is just used as a cache of the last downloaded ToS. * */ termsOfServiceText: string | undefined; /** * Content-type of the last downloaded termsOfServiceText. */ termsOfServiceContentType: string | undefined; } export interface ExchangeDetailsPointer { masterPublicKey: string; currency: string; /** * Timestamp when the (masterPublicKey, currency) pointer * has been updated. */ updateClock: TalerPreciseTimestamp; } /** * Exchange record as stored in the wallet's database. */ export interface ExchangeRecord { /** * Base url of the exchange. */ baseUrl: string; /** * When did we confirm the last withdrawal from this exchange? * * Used mostly in the UI to suggest exchanges. */ lastWithdrawal?: TalerPreciseTimestamp; /** * Pointer to the current exchange details. * * Should usually not change. Only changes when the * exchange advertises a different master public key and/or * currency. * * We could use a rowID here, but having the currency in the * details pointer lets us do fewer DB queries */ detailsPointer: ExchangeDetailsPointer | undefined; /** * Is this a permanent or temporary exchange record? */ permanent: boolean; /** * Last time when the exchange was updated (both /keys and /wire). */ lastUpdate: TalerPreciseTimestamp | undefined; /** * Next scheduled update for the exchange. * * (This field must always be present, so we can index on the timestamp.) */ nextUpdate: TalerPreciseTimestamp; lastKeysEtag: string | undefined; lastWireEtag: string | undefined; /** * Next time that we should check if coins need to be refreshed. * * Updated whenever the exchange's denominations are updated or when * the refresh check has been done. */ nextRefreshCheck: TalerPreciseTimestamp; /** * Public key of the reserve that we're currently using for * receiving P2P payments. */ currentMergeReserveRowId?: number; } export enum PlanchetStatus { Pending = 10 /* ACTIVE_START */, KycRequired = 11 /* ACTIVE_START + 1 */, WithdrawalDone = 50 /* DORMANT_START */, } /** * A coin that isn't yet signed by an exchange. */ export interface PlanchetRecord { /** * Public key of the coin. */ coinPub: string; /** * Private key of the coin. */ coinPriv: string; /** * Withdrawal group that this planchet belongs to * (or the empty string). */ withdrawalGroupId: string; /** * Index within the withdrawal group (or -1). */ coinIdx: number; planchetStatus: PlanchetStatus; lastError: TalerErrorDetail | undefined; denomPubHash: string; blindingKey: string; withdrawSig: string; coinEv: CoinEnvelope; coinEvHash: string; ageCommitmentProof?: AgeCommitmentProof; } export enum CoinSourceType { Withdraw = "withdraw", Refresh = "refresh", Tip = "tip", } export interface WithdrawCoinSource { type: CoinSourceType.Withdraw; /** * Can be the empty string for orphaned coins. */ withdrawalGroupId: string; /** * Index of the coin in the withdrawal session. */ coinIndex: number; /** * Reserve public key for the reserve we got this coin from. */ reservePub: string; } export interface RefreshCoinSource { type: CoinSourceType.Refresh; refreshGroupId: string; oldCoinPub: string; } export interface TipCoinSource { type: CoinSourceType.Tip; walletTipId: string; coinIndex: number; } export type CoinSource = WithdrawCoinSource | RefreshCoinSource | TipCoinSource; /** * CoinRecord as stored in the "coins" data store * of the wallet database. */ export interface CoinRecord { /** * Where did the coin come from? Used for recouping coins. */ coinSource: CoinSource; /** * Public key of the coin. */ coinPub: string; /** * Private key to authorize operations on the coin. */ coinPriv: string; /** * Hash of the public key that signs the coin. */ denomPubHash: string; /** * Unblinded signature by the exchange. */ denomSig: UnblindedSignature; /** * Base URL that identifies the exchange from which we got the * coin. */ exchangeBaseUrl: string; /** * Blinding key used when withdrawing the coin. * Potentionally used again during payback. */ blindingKey: string; /** * Hash of the coin envelope. * * Stored here for indexing purposes, so that when looking at a * reserve history, we can quickly find the coin for a withdrawal transaction. */ coinEvHash: string; /** * Status of the coin. */ status: CoinStatus; /** * Information about what the coin has been allocated for. * * Used for: * - Diagnostics * - Idempotency of applying a coin selection (e.g. after re-selection) */ spendAllocation: CoinAllocation | undefined; /** * Maximum age of purchases that can be made with this coin. * * (Used for indexing, redundant with {@link ageCommitmentProof}). */ maxAge: number; ageCommitmentProof: AgeCommitmentProof | undefined; } /** * Coin allocation, i.e. what a coin has been used for. */ export interface CoinAllocation { /** * ID of the allocation, should be the ID of the transaction that */ id: TransactionIdStr; amount: AmountString; } /** * Status of a tip we got from a merchant. */ export interface TipRecord { /** * Has the user accepted the tip? Only after the tip has been accepted coins * withdrawn from the tip may be used. */ acceptedTimestamp: TalerPreciseTimestamp | undefined; /** * The tipped amount. */ tipAmountRaw: AmountString; /** * Effect on the balance (including fees etc). */ tipAmountEffective: AmountString; /** * Timestamp, the tip can't be picked up anymore after this deadline. */ tipExpiration: TalerProtocolTimestamp; /** * The exchange that will sign our coins, chosen by the merchant. */ exchangeBaseUrl: string; /** * Base URL of the merchant that is giving us the tip. */ merchantBaseUrl: string; /** * Denomination selection made by the wallet for picking up * this tip. * * FIXME: Put this into some DenomSelectionCacheRecord instead of * storing it here! */ denomsSel: DenomSelectionState; denomSelUid: string; /** * Tip ID chosen by the wallet. */ walletTipId: string; /** * Secret seed used to derive planchets for this tip. */ secretSeed: string; /** * The merchant's identifier for this tip. */ merchantTipId: string; createdTimestamp: TalerPreciseTimestamp; /** * The url to be redirected after the tip is accepted. */ next_url: string | undefined; /** * Timestamp for when the wallet finished picking up the tip * from the merchant. */ pickedUpTimestamp: TalerPreciseTimestamp | undefined; status: TipRecordStatus; } export enum TipRecordStatus { PendingPickup = 10, SuspendidPickup = 21, Done = 50, } export enum RefreshCoinStatus { Pending = OperationStatusRange.ACTIVE_START, Finished = OperationStatusRange.DORMANT_START, /** * The refresh for this coin has been frozen, because of a permanent error. * More info in lastErrorPerCoin. */ Frozen = OperationStatusRange.DORMANT_START + 1, } export enum OperationStatus { Finished = OperationStatusRange.DORMANT_START, Pending = OperationStatusRange.ACTIVE_START, } export enum RefreshOperationStatus { Pending = 10 /* ACTIVE_START */, Finished = 50 /* DORMANT_START */, FinishedWithError = 51 /* DORMANT_START + 1 */, Suspended = 52 /* DORMANT_START + 2 */, } export enum DepositGroupOperationStatus { Finished = 50 /* DORMANT_START */, Failed = 51 /* DORMANT_START + 1 */, Pending = 10 /* ACTIVE_START */, AbortingWithRefresh = 11 /* ACTIVE_START + 1 */, } /** * Status of a single element of a deposit group. */ export enum DepositElementStatus { Unknown = 10, Accepted = 20, KycRequired = 30, Wired = 40, RefundSuccess = 50, RefundFailed = 51, } /** * Additional information about the reason of a refresh. */ export interface RefreshReasonDetails { originatingTransactionId?: string; proposalId?: string; } /** * Group of refresh operations. The refreshed coins do not * have to belong to the same exchange, but must have the same * currency. * * FIXME: Should include the currency as a top-level field, * but we need to write a migration for that. */ export interface RefreshGroupRecord { operationStatus: RefreshOperationStatus; // FIXME: Put this into a different object store? lastErrorPerCoin: { [coinIndex: number]: TalerErrorDetail }; /** * Unique, randomly generated identifier for this group of * refresh operations. */ refreshGroupId: string; /** * Currency of this refresh group. * * FIXME: Write a migration to add this to earlier DB versions. */ currency: string; /** * Reason why this refresh group has been created. */ reason: RefreshReason; /** * Extra information depending on the reason. */ reasonDetails?: RefreshReasonDetails; oldCoinPubs: string[]; // FIXME: Should this go into a separate // object store for faster updates? refreshSessionPerCoin: (RefreshSessionRecord | undefined)[]; inputPerCoin: AmountString[]; estimatedOutputPerCoin: AmountString[]; /** * Flag for each coin whether refreshing finished. * If a coin can't be refreshed (remaining value too small), * it will be marked as finished, but no refresh session will * be created. */ statusPerCoin: RefreshCoinStatus[]; timestampCreated: TalerPreciseTimestamp; /** * Timestamp when the refresh session finished. */ timestampFinished: TalerPreciseTimestamp | undefined; } /** * Ongoing refresh */ export interface RefreshSessionRecord { /** * 512-bit secret that can be used to derive * the other cryptographic material for the refresh session. */ sessionSecretSeed: string; /** * Sum of the value of denominations we want * to withdraw in this session, without fees. */ amountRefreshOutput: AmountString; /** * Hashed denominations of the newly requested coins. */ newDenoms: { denomPubHash: string; count: number; }[]; /** * The no-reveal-index after we've done the melting. */ norevealIndex?: number; } export enum RefundReason { /** * Normal refund given by the merchant. */ NormalRefund = "normal-refund", /** * Refund from an aborted payment. */ AbortRefund = "abort-pay-refund", } export interface AllowedAuditorInfo { auditorBaseUrl: string; auditorPub: string; } export interface AllowedExchangeInfo { exchangeBaseUrl: string; exchangePub: string; } /** * Data extracted from the contract terms that is relevant for payment * processing in the wallet. */ export interface WalletContractData { products?: Product[]; summaryI18n: { [lang_tag: string]: string } | undefined; /** * Fulfillment URL, or the empty string if the order has no fulfillment URL. * * Stored as a non-nullable string as we use this field for IndexedDB indexing. */ fulfillmentUrl: string; contractTermsHash: string; fulfillmentMessage?: string; fulfillmentMessageI18n?: InternationalizedString; merchantSig: string; merchantPub: string; merchant: MerchantInfo; amount: AmountString; orderId: string; merchantBaseUrl: string; summary: string; autoRefund: TalerProtocolDuration | undefined; maxWireFee: AmountString; wireFeeAmortization: number; payDeadline: TalerProtocolTimestamp; refundDeadline: TalerProtocolTimestamp; allowedExchanges: AllowedExchangeInfo[]; timestamp: TalerProtocolTimestamp; wireMethod: string; wireInfoHash: string; maxDepositFee: AmountString; minimumAge?: number; deliveryDate: TalerProtocolTimestamp | undefined; deliveryLocation: Location | undefined; } export enum PurchaseStatus { /** * Not downloaded yet. */ PendingDownloadingProposal = 10, /** * The user has accepted the proposal. */ PendingPaying = 11, /** * Currently in the process of aborting with a refund. */ AbortingWithRefund = 12, /** * Paying a second time, likely with different session ID */ PendingPayingReplay = 13, /** * Query for refunds (until query succeeds). */ PendingQueryingRefund = 14, /** * Query for refund (until auto-refund deadline is reached). */ PendingQueryingAutoRefund = 15, PendingAcceptRefund = 16, SuspendedDownloadingProposal = 20, SuspendedPaying = 21, SuspendedAbortingWithRefund = 22, SuspendedPayingReplay = 23, SuspendedQueryingRefund = 24, SuspendedQueryingAutoRefund = 25, SuspendedPendingAcceptRefund = 26, /** * Proposal downloaded, but the user needs to accept/reject it. */ Proposed = 30, /** * The user has rejected the proposal. */ AbortedProposalRefused = 50, /** * Downloading or processing the proposal has failed permanently. */ FailedClaim = 51, /** * Downloaded proposal was detected as a re-purchase. */ RepurchaseDetected = 52, /** * The payment has been aborted. */ AbortedIncompletePayment = 53, /** * Payment was successful. */ Done = 54, } /** * Partial information about the downloaded proposal. * Only contains data that is relevant for indexing on the * "purchases" object stores. */ export interface ProposalDownloadInfo { contractTermsHash: string; fulfillmentUrl?: string; currency: string; contractTermsMerchantSig: string; } export interface PurchasePayInfo { payCoinSelection: PayCoinSelection; totalPayCost: AmountString; payCoinSelectionUid: string; } /** * Record that stores status information about one purchase, starting from when * the customer accepts a proposal. Includes refund status if applicable. * * Key: {@link proposalId} * Operation status: {@link purchaseStatus} */ export interface PurchaseRecord { /** * Proposal ID for this purchase. Uniquely identifies the * purchase and the proposal. * Assigned by the wallet. */ proposalId: string; /** * Order ID, assigned by the merchant. */ orderId: string; merchantBaseUrl: string; /** * Claim token used when downloading the contract terms. */ claimToken: string | undefined; /** * Session ID we got when downloading the contract. */ downloadSessionId: string | undefined; /** * If this purchase is a repurchase, this field identifies the original purchase. */ repurchaseProposalId: string | undefined; purchaseStatus: PurchaseStatus; /** * Private key for the nonce. */ noncePriv: string; /** * Public key for the nonce. */ noncePub: string; /** * Downloaded and parsed proposal data. */ download: ProposalDownloadInfo | undefined; payInfo: PurchasePayInfo | undefined; /** * Pending removals from pay coin selection. * * Used when a the pay coin selection needs to be changed * because a coin became known as double-spent or invalid, * but a new coin selection can't immediately be done, as * there is not enough balance (e.g. when waiting for a refresh). */ pendingRemovedCoinPubs?: string[]; /** * Timestamp of the first time that sending a payment to the merchant * for this purchase was successful. */ timestampFirstSuccessfulPay: TalerPreciseTimestamp | undefined; merchantPaySig: string | undefined; posConfirmation: string | undefined; /** * When was the purchase record created? */ timestamp: TalerPreciseTimestamp; /** * When was the purchase made? * Refers to the time that the user accepted. */ timestampAccept: TalerPreciseTimestamp | undefined; /** * Pending refunds for the purchase. A refund is pending * when the merchant reports a transient error from the exchange. * * FIXME: Put this into a separate object store? */ // refunds: { [refundKey: string]: WalletRefundItem }; /** * When was the last refund made? * Set to 0 if no refund was made on the purchase. */ timestampLastRefundStatus: TalerPreciseTimestamp | undefined; /** * Last session signature that we submitted to /pay (if any). */ lastSessionId: string | undefined; /** * Continue querying the refund status until this deadline has expired. */ autoRefundDeadline: TalerProtocolTimestamp | undefined; /** * How much merchant has refund to be taken but the wallet * did not picked up yet */ refundAmountAwaiting: AmountString | undefined; } export enum ConfigRecordKey { WalletBackupState = "walletBackupState", CurrencyDefaultsApplied = "currencyDefaultsApplied", DevMode = "devMode", } /** * Configuration key/value entries to configure * the wallet. */ export type ConfigRecord = | { key: ConfigRecordKey.WalletBackupState; value: WalletBackupConfState; } | { key: ConfigRecordKey.CurrencyDefaultsApplied; value: boolean } | { key: ConfigRecordKey.DevMode; value: boolean }; export interface WalletBackupConfState { deviceId: string; walletRootPub: string; walletRootPriv: string; /** * Last hash of the canonicalized plain-text backup. */ lastBackupPlainHash?: string; /** * Timestamp stored in the last backup. */ lastBackupTimestamp?: TalerPreciseTimestamp; /** * Last time we tried to do a backup. */ lastBackupCheckTimestamp?: TalerPreciseTimestamp; lastBackupNonce?: string; } export const enum WithdrawalRecordType { BankManual = "bank-manual", BankIntegrated = "bank-integrated", PeerPullCredit = "peer-pull-credit", PeerPushCredit = "peer-push-credit", Recoup = "recoup", } export interface WgInfoBankIntegrated { withdrawalType: WithdrawalRecordType.BankIntegrated; /** * Extra state for when this is a withdrawal involving * a Taler-integrated bank. */ bankInfo: ReserveBankInfo; } export interface WgInfoBankManual { withdrawalType: WithdrawalRecordType.BankManual; } export interface WgInfoBankPeerPull { withdrawalType: WithdrawalRecordType.PeerPullCredit; contractTerms: any; /** * Needed to quickly construct the taler:// URI for the counterparty * without a join. */ contractPriv: string; } export interface WgInfoBankPeerPush { withdrawalType: WithdrawalRecordType.PeerPushCredit; contractTerms: any; } export interface WgInfoBankRecoup { withdrawalType: WithdrawalRecordType.Recoup; } export type WgInfo = | WgInfoBankIntegrated | WgInfoBankManual | WgInfoBankPeerPull | WgInfoBankPeerPush | WgInfoBankRecoup; export type KycUserType = "individual" | "business"; export interface KycPendingInfo { paytoHash: string; requirementRow: number; } /** * Group of withdrawal operations that need to be executed. * (Either for a normal withdrawal or from a tip.) * * The withdrawal group record is only created after we know * the coin selection we want to withdraw. */ export interface WithdrawalGroupRecord { /** * Unique identifier for the withdrawal group. */ withdrawalGroupId: string; wgInfo: WgInfo; kycPending?: KycPendingInfo; /** * Secret seed used to derive planchets. * Stored since planchets are created lazily. */ secretSeed: string; /** * Public key of the reserve that we're withdrawing from. */ reservePub: string; /** * The reserve private key. * * FIXME: Already in the reserves object store, redundant! */ reservePriv: string; /** * The exchange base URL that we're withdrawing from. * (Redundantly stored, as the reserve record also has this info.) */ exchangeBaseUrl: string; /** * When was the withdrawal operation started started? * Timestamp in milliseconds. */ timestampStart: TalerPreciseTimestamp; /** * When was the withdrawal operation completed? */ timestampFinish?: TalerPreciseTimestamp; /** * Current status of the reserve. */ status: WithdrawalGroupStatus; /** * Wire information (as payto URI) for the bank account that * transferred funds for this reserve. * * FIXME: Doesn't this belong to the bankAccounts object store? */ senderWire?: string; /** * Restrict withdrawals from this reserve to this age. */ restrictAge?: number; /** * Amount that was sent by the user to fund the reserve. */ instructedAmount: AmountString; /** * Amount that was observed when querying the reserve that * we are withdrawing from. * * Useful for diagnostics. */ reserveBalanceAmount?: AmountString; /** * Amount including fees (i.e. the amount subtracted from the * reserve to withdraw all coins in this withdrawal session). * * (Initial amount confirmed by the user, might differ with denomSel * on reselection.) */ rawWithdrawalAmount: AmountString; /** * Amount that will be added to the balance when the withdrawal succeeds. * * (Initial amount confirmed by the user, might differ with denomSel * on reselection.) */ effectiveWithdrawalAmount: AmountString; /** * Denominations selected for withdrawal. */ denomsSel: DenomSelectionState; /** * UID of the denomination selection. * * Used for merging backups. * * FIXME: Should this not also include a timestamp for more logical merging? */ denomSelUid: string; } export interface BankWithdrawUriRecord { /** * The withdraw URI we got from the bank. */ talerWithdrawUri: string; /** * Reserve that was created for the withdraw URI. */ reservePub: string; } /** * Status of recoup operations that were grouped together. * * The remaining amount of involved coins should be set to zero * in the same transaction that inserts the RecoupGroupRecord. */ export interface RecoupGroupRecord { /** * Unique identifier for the recoup group record. */ recoupGroupId: string; exchangeBaseUrl: string; timestampStarted: TalerPreciseTimestamp; timestampFinished: TalerPreciseTimestamp | undefined; /** * Public keys that identify the coins being recouped * as part of this session. * * (Structured like this to enable multiEntry indexing in IndexedDB.) */ coinPubs: string[]; /** * Array of flags to indicate whether the recoup finished on each individual coin. */ recoupFinishedPerCoin: boolean[]; /** * Public keys of coins that should be scheduled for refreshing * after all individual recoups are done. */ scheduleRefreshCoins: CoinRefreshRequest[]; } export enum BackupProviderStateTag { Provisional = "provisional", Ready = "ready", Retrying = "retrying", } export type BackupProviderState = | { tag: BackupProviderStateTag.Provisional; } | { tag: BackupProviderStateTag.Ready; nextBackupTimestamp: TalerPreciseTimestamp; } | { tag: BackupProviderStateTag.Retrying; }; export interface BackupProviderTerms { supportedProtocolVersion: string; annualFee: AmountString; storageLimitInMegabytes: number; } export interface BackupProviderRecord { /** * Base URL of the provider. * * Primary key for the record. */ baseUrl: string; /** * Name of the provider */ name: string; /** * Terms of service of the provider. * Might be unavailable in the DB in certain situations * (such as loading a recovery document). */ terms?: BackupProviderTerms; /** * Hash of the last encrypted backup that we already merged * or successfully uploaded ourselves. */ lastBackupHash?: string; /** * Last time that we successfully uploaded a backup (or * the uploaded backup was already current). * * Does NOT correspond to the timestamp of the backup, * which only changes when the backup content changes. */ lastBackupCycleTimestamp?: TalerPreciseTimestamp; /** * Proposal that we're currently trying to pay for. * * (Also included in paymentProposalIds.) * * FIXME: Make this part of a proper BackupProviderState? */ currentPaymentProposalId?: string; shouldRetryFreshProposal: boolean; /** * Proposals that were used to pay (or attempt to pay) the provider. * * Stored to display a history of payments to the provider, and * to make sure that the wallet isn't overpaying. */ paymentProposalIds: string[]; state: BackupProviderState; /** * UIDs for the operation that added the backup provider. */ uids: string[]; } export enum DepositOperationStatus { Pending = 10, Aborting = 11, Suspended = 20, SuspendedAborting = 21, Finished = 50, Failed = 51, Aborted = 52, } export interface DepositTrackingInfo { // Raw wire transfer identifier of the deposit. wireTransferId: string; // When was the wire transfer given to the bank. timestampExecuted: TalerProtocolTimestamp; // Total amount transfer for this wtid (including fees) amountRaw: AmountString; // Wire fee amount for this exchange wireFee: AmountString; exchangePub: string; } /** * Group of deposits made by the wallet. */ export interface DepositGroupRecord { depositGroupId: string; merchantPub: string; merchantPriv: string; noncePriv: string; noncePub: string; /** * Wire information used by all deposits in this * deposit group. */ wire: { payto_uri: string; salt: string; }; /** * Verbatim contract terms. */ contractTermsRaw: MerchantContractTerms; contractTermsHash: string; payCoinSelection: PayCoinSelection; payCoinSelectionUid: string; totalPayCost: AmountString; /** * The counterparty effective deposit amount. * * FIXME: If possible, rename to counterpartyEffectiveDepositAmount. */ effectiveDepositAmount: AmountString; timestampCreated: TalerPreciseTimestamp; timestampFinished: TalerPreciseTimestamp | undefined; operationStatus: DepositOperationStatus; // FIXME: Duplication between this and transactionPerCoin! depositedPerCoin: boolean[]; // FIXME: Improve name! transactionPerCoin: DepositElementStatus[]; /** * When the deposit transaction was aborted and * refreshes were tried, we create a refresh * group and store the ID here. */ abortRefreshGroupId?: string; // FIXME: Do we need this and should it be in this object store? trackingState?: { [signature: string]: DepositTrackingInfo; }; } /** * Record for a deposits that the wallet observed * as a result of double spending, but which is not * present in the wallet's own database otherwise. */ export interface GhostDepositGroupRecord { /** * When multiple deposits for the same contract terms hash * have a different timestamp, we choose the earliest one. */ timestamp: TalerPreciseTimestamp; contractTermsHash: string; deposits: { coinPub: string; amount: AmountString; timestamp: TalerProtocolTimestamp; depositFee: AmountString; merchantPub: string; coinSig: string; wireHash: string; }[]; } export interface TombstoneRecord { /** * Tombstone ID, with the syntax "tmb::". */ id: string; } export enum PeerPushPaymentInitiationStatus { /** * Initiated, but no purse created yet. */ PendingCreatePurse = 10 /* ACTIVE_START */, PendingReady = 11, AbortingDeletePurse = 12, AbortingRefresh = 13, SuspendedCreatePurse = 30, SuspendedReady = 31, SuspendedAbortingDeletePurse = 32, SuspendedAbortingRefresh = 33, Done = 50 /* DORMANT_START */, Aborted = 51, } export interface PeerPushPaymentCoinSelection { contributions: AmountString[]; coinPubs: CoinPublicKeyString[]; } /** * Record for a push P2P payment that this wallet initiated. */ export interface PeerPushPaymentInitiationRecord { /** * What exchange are funds coming from? */ exchangeBaseUrl: string; /** * Instructed amount. */ amount: AmountString; totalCost: AmountString; coinSel: PeerPushPaymentCoinSelection; contractTermsHash: HashCodeString; /** * Purse public key. Used as the primary key to look * up this record. */ pursePub: string; /** * Purse private key. */ pursePriv: string; /** * Public key of the merge capability of the purse. */ mergePub: string; /** * Private key of the merge capability of the purse. */ mergePriv: string; contractPriv: string; contractPub: string; contractTerms: PeerContractTerms; purseExpiration: TalerProtocolTimestamp; timestampCreated: TalerPreciseTimestamp; /** * Status of the peer push payment initiation. */ status: PeerPushPaymentInitiationStatus; } export enum PeerPullPaymentInitiationStatus { PendingCreatePurse = 10 /* ACTIVE_START */, /** * Purse created, waiting for the other party to accept the * invoice and deposit money into it. */ PendingReady = 11 /* ACTIVE_START + 1 */, PendingMergeKycRequired = 12 /* ACTIVE_START + 2 */, PendingWithdrawing = 13, SuspendedCreatePurse = 30, SuspendedReady = 31, SuspendedMergeKycRequired = 32, SuspendedWithdrawing = 33, DonePurseDeposited = 50 /* DORMANT_START */, } export interface PeerPullPaymentInitiationRecord { /** * What exchange are we using for the payment request? */ exchangeBaseUrl: string; /** * Amount requested. */ amount: AmountString; estimatedAmountEffective: AmountString; /** * Purse public key. Used as the primary key to look * up this record. */ pursePub: string; /** * Purse private key. */ pursePriv: string; /** * Hash of the contract terms. Also * used to look up the contract terms in the DB. */ contractTermsHash: string; mergePub: string; mergePriv: string; contractPub: string; contractPriv: string; contractTerms: PeerContractTerms; mergeTimestamp: TalerPreciseTimestamp; mergeReserveRowId: number; /** * Status of the peer pull payment initiation. */ status: PeerPullPaymentInitiationStatus; kycInfo?: KycPendingInfo; withdrawalGroupId: string | undefined; } export enum PeerPushPaymentIncomingStatus { PendingMerge = 10 /* ACTIVE_START */, PendingMergeKycRequired = 11 /* ACTIVE_START + 1 */, /** * Merge was successful and withdrawal group has been created, now * everything is in the hand of the withdrawal group. */ PendingWithdrawing = 12, SuspendedMerge = 20, SuspendedMergeKycRequired = 21, SuspendedWithdrawing = 22, DialogProposed = 30 /* USER_ATTENTION_START */, Done = 50 /* DORMANT_START */, } /** * Record for a push P2P payment that this wallet was offered. * * Unique: (exchangeBaseUrl, pursePub) */ export interface PeerPushPaymentIncomingRecord { peerPushPaymentIncomingId: string; exchangeBaseUrl: string; pursePub: string; mergePriv: string; contractPriv: string; timestamp: TalerPreciseTimestamp; estimatedAmountEffective: AmountString; /** * Hash of the contract terms. Also * used to look up the contract terms in the DB. */ contractTermsHash: string; /** * Status of the peer push payment incoming initiation. */ status: PeerPushPaymentIncomingStatus; /** * Associated withdrawal group. */ withdrawalGroupId: string | undefined; /** * Currency of the peer push payment credit transaction. * * Mandatory in current schema version, optional for compatibility * with older (ver_minor<4) DB versions. */ currency: string | undefined; kycInfo?: KycPendingInfo; } export enum PeerPullDebitRecordStatus { PendingDeposit = 10 /* ACTIVE_START */, SuspendedDeposit = 11, DialogProposed = 30 /* USER_ATTENTION_START */, DonePaid = 50 /* DORMANT_START */, } export interface PeerPullPaymentCoinSelection { contributions: AmountString[]; coinPubs: CoinPublicKeyString[]; /** * Total cost based on the coin selection. * Non undefined after status === "Accepted" */ totalCost: AmountString | undefined; } /** * AKA PeerPullDebit. */ export interface PeerPullPaymentIncomingRecord { peerPullPaymentIncomingId: string; pursePub: string; exchangeBaseUrl: string; contractTerms: PeerContractTerms; timestampCreated: TalerPreciseTimestamp; /** * Contract priv that we got from the other party. */ contractPriv: string; /** * Status of the peer push payment incoming initiation. */ status: PeerPullDebitRecordStatus; /** * Estimated total cost when the record was created. */ totalCostEstimated: AmountString; coinSel?: PeerPullPaymentCoinSelection; } /** * Store for extra information about a reserve. * * Mostly used to store the private key for a reserve and to allow * other records to reference the reserve key pair via a small row ID. * * In the future, we might also store KYC info about a reserve here. */ export interface ReserveRecord { rowId?: number; reservePub: string; reservePriv: string; } export interface OperationRetryRecord { /** * Unique identifier for the operation. Typically of * the format `${opType}-${opUniqueKey}` * * @see {@link TaskIdentifiers} */ id: string; lastError?: TalerErrorDetail; retryInfo: RetryInfo; } /** * Availability of coins of a given denomination (and age restriction!). * * We can't store this information with the denomination record, as one denomination * can be withdrawn with multiple age restrictions. */ export interface CoinAvailabilityRecord { currency: string; amountVal: number; amountFrac: number; denomPubHash: string; exchangeBaseUrl: string; /** * Age restriction on the coin, or 0 for no age restriction (or * denomination without age restriction support). */ maxAge: number; /** * Number of fresh coins of this denomination that are available. */ freshCoinCount: number; } export interface ContractTermsRecord { /** * Contract terms hash. */ h: string; /** * Contract terms JSON. */ contractTermsRaw: any; } export interface UserAttentionRecord { info: AttentionInfo; entityId: string; /** * When the notification was created. * FIXME: This should be a TalerPreciseTimestamp */ createdMs: number; /** * When the user mark this notification as read. */ read: TalerPreciseTimestamp | undefined; } export interface DbExchangeHandle { url: string; exchangeMasterPub: string; } export interface DbAuditorHandle { url: string; auditorPub: string; } // Work in progress for regional currencies export interface CurrencySettingsRecord { currency: string; globalScopeExchanges: DbExchangeHandle[]; globalScopeAuditors: DbAuditorHandle[]; // Used to decide which auditor to show the currency under // when multiple auditors apply. auditorPriority: string[]; // Later, we might add stuff related to how the currency is rendered. } export enum RefundGroupStatus { Pending = 10, Done = 50, Failed = 51, Aborted = 52, } /** * Metadata about a group of refunds with the merchant. */ export interface RefundGroupRecord { status: RefundGroupStatus; /** * Timestamp when the refund group was created. */ timestampCreated: TalerPreciseTimestamp; proposalId: string; refundGroupId: string; refreshGroupId?: string; amountRaw: AmountString; /** * Estimated effective amount, based on * refund fees and refresh costs. */ amountEffective: AmountString; } export enum RefundItemStatus { /** * Intermittent error that the merchant is * reporting from the exchange. * * We'll try again! */ Pending = 10, /** * Refund was obtained successfully. */ Done = 50, /** * Permanent error reported by the exchange * for the refund. */ Failed = 51, } /** * Refund for a single coin in a payment with a merchant. */ export interface RefundItemRecord { /** * Auto-increment DB record ID. */ id?: number; status: RefundItemStatus; refundGroupId: string; // Execution time as claimed by the merchant executionTime: TalerProtocolTimestamp; /** * Time when the wallet became aware of the refund. */ obtainedTime: TalerPreciseTimestamp; refundAmount: AmountString; //refundFee: AmountString; /** * Upper bound on the refresh cost incurred by * applying this refund. * * Might be lower in practice when two refunds on the same * coin are refreshed in the same refresh operation. */ //totalRefreshCostBound: AmountString; coinPub: string; rtxid: number; } /** * Schema definition for the IndexedDB * wallet database. */ export const WalletStoresV1 = { currencySettings: describeStore( "currencySettings", describeContents({ keyPath: ["currency"], versionAdded: 3, }), {}, ), coinAvailability: describeStore( "coinAvailability", describeContents({ keyPath: ["exchangeBaseUrl", "denomPubHash", "maxAge"], }), { byExchangeAgeAvailability: describeIndex("byExchangeAgeAvailability", [ "exchangeBaseUrl", "maxAge", "freshCoinCount", ]), }, ), coins: describeStore( "coins", describeContents({ keyPath: "coinPub", }), { byBaseUrl: describeIndex("byBaseUrl", "exchangeBaseUrl"), byDenomPubHash: describeIndex("byDenomPubHash", "denomPubHash"), byExchangeDenomPubHashAndAgeAndStatus: describeIndex( "byExchangeDenomPubHashAndAgeAndStatus", ["exchangeBaseUrl", "denomPubHash", "maxAge", "status"], ), byCoinEvHash: describeIndex("byCoinEvHash", "coinEvHash"), }, ), reserves: describeStore( "reserves", describeContents({ keyPath: "rowId", autoIncrement: true, }), { byReservePub: describeIndex("byReservePub", "reservePub", {}), }, ), exchangeTos: describeStore( "exchangeTos", describeContents({ keyPath: ["exchangeBaseUrl", "etag"], }), {}, ), config: describeStore( "config", describeContents({ keyPath: "key" }), {}, ), auditorTrust: describeStore( "auditorTrust", describeContents({ keyPath: ["currency", "auditorBaseUrl"], }), { byAuditorPub: describeIndex("byAuditorPub", "auditorPub"), byUid: describeIndex("byUid", "uids", { multiEntry: true, }), }, ), exchangeTrust: describeStore( "exchangeTrust", describeContents({ keyPath: ["currency", "exchangeBaseUrl"], }), { byExchangeMasterPub: describeIndex( "byExchangeMasterPub", "exchangeMasterPub", ), }, ), denominations: describeStore( "denominations", describeContents({ keyPath: ["exchangeBaseUrl", "denomPubHash"], }), { byExchangeBaseUrl: describeIndex("byExchangeBaseUrl", "exchangeBaseUrl"), }, ), exchanges: describeStore( "exchanges", describeContents({ keyPath: "baseUrl", }), {}, ), exchangeDetails: describeStore( "exchangeDetails", describeContents({ keyPath: "rowId", autoIncrement: true, }), { byPointer: describeIndex( "byDetailsPointer", ["exchangeBaseUrl", "currency", "masterPublicKey"], { unique: true, }, ), }, ), exchangeSignKeys: describeStore( "exchangeSignKeys", describeContents({ keyPath: ["exchangeDetailsRowId", "signkeyPub"], }), { byExchangeDetailsRowId: describeIndex("byExchangeDetailsRowId", [ "exchangeDetailsRowId", ]), }, ), refreshGroups: describeStore( "refreshGroups", describeContents({ keyPath: "refreshGroupId", }), { byStatus: describeIndex("byStatus", "operationStatus"), }, ), recoupGroups: describeStore( "recoupGroups", describeContents({ keyPath: "recoupGroupId", }), {}, ), purchases: describeStore( "purchases", describeContents({ keyPath: "proposalId" }), { byStatus: describeIndex("byStatus", "purchaseStatus"), byFulfillmentUrl: describeIndex( "byFulfillmentUrl", "download.fulfillmentUrl", ), byUrlAndOrderId: describeIndex("byUrlAndOrderId", [ "merchantBaseUrl", "orderId", ]), }, ), tips: describeStore( "tips", describeContents({ keyPath: "walletTipId" }), { byMerchantTipIdAndBaseUrl: describeIndex("byMerchantTipIdAndBaseUrl", [ "merchantTipId", "merchantBaseUrl", ]), }, ), withdrawalGroups: describeStore( "withdrawalGroups", describeContents({ keyPath: "withdrawalGroupId", }), { byStatus: describeIndex("byStatus", "status"), byTalerWithdrawUri: describeIndex( "byTalerWithdrawUri", "wgInfo.bankInfo.talerWithdrawUri", ), }, ), planchets: describeStore( "planchets", describeContents({ keyPath: "coinPub" }), { byGroupAndIndex: describeIndex("byGroupAndIndex", [ "withdrawalGroupId", "coinIdx", ]), byGroup: describeIndex("byGroup", "withdrawalGroupId"), byCoinEvHash: describeIndex("byCoinEv", "coinEvHash"), }, ), bankWithdrawUris: describeStore( "bankWithdrawUris", describeContents({ keyPath: "talerWithdrawUri", }), {}, ), backupProviders: describeStore( "backupProviders", describeContents({ keyPath: "baseUrl", }), { byPaymentProposalId: describeIndex( "byPaymentProposalId", "paymentProposalIds", { multiEntry: true, }, ), }, ), depositGroups: describeStore( "depositGroups", describeContents({ keyPath: "depositGroupId", }), { byStatus: describeIndex("byStatus", "operationStatus"), }, ), tombstones: describeStore( "tombstones", describeContents({ keyPath: "id" }), {}, ), operationRetries: describeStore( "operationRetries", describeContents({ keyPath: "id", }), {}, ), ghostDepositGroups: describeStore( "ghostDepositGroups", describeContents({ keyPath: "contractTermsHash", }), {}, ), peerPushPaymentIncoming: describeStore( "peerPushPaymentIncoming", describeContents({ keyPath: "peerPushPaymentIncomingId", }), { byExchangeAndPurse: describeIndex("byExchangeAndPurse", [ "exchangeBaseUrl", "pursePub", ]), byExchangeAndContractPriv: describeIndex( "byExchangeAndContractPriv", ["exchangeBaseUrl", "contractPriv"], { versionAdded: 5, unique: true, }, ), byWithdrawalGroupId: describeIndex( "byWithdrawalGroupId", "withdrawalGroupId", { versionAdded: 5, }, ), byStatus: describeIndex("byStatus", "status"), }, ), peerPullPaymentIncoming: describeStore( "peerPullPaymentIncoming", describeContents({ keyPath: "peerPullPaymentIncomingId", }), { byExchangeAndPurse: describeIndex("byExchangeAndPurse", [ "exchangeBaseUrl", "pursePub", ]), byExchangeAndContractPriv: describeIndex( "byExchangeAndContractPriv", ["exchangeBaseUrl", "contractPriv"], { versionAdded: 5, unique: true, }, ), byStatus: describeIndex("byStatus", "status"), }, ), peerPullPaymentInitiations: describeStore( "peerPullPaymentInitiations", describeContents({ keyPath: "pursePub", }), { byStatus: describeIndex("byStatus", "status"), byWithdrawalGroupId: describeIndex( "byWithdrawalGroupId", "withdrawalGroupId", { versionAdded: 5, }, ), }, ), peerPushPaymentInitiations: describeStore( "peerPushPaymentInitiations", describeContents({ keyPath: "pursePub", }), { byStatus: describeIndex("byStatus", "status"), }, ), bankAccounts: describeStore( "bankAccounts", describeContents({ keyPath: "uri", }), {}, ), contractTerms: describeStore( "contractTerms", describeContents({ keyPath: "h", }), {}, ), userAttention: describeStore( "userAttention", describeContents({ keyPath: ["entityId", "info.type"], versionAdded: 2, }), {}, ), refundGroups: describeStore( "refundGroups", describeContents({ keyPath: "refundGroupId", versionAdded: 7, }), { byProposalId: describeIndex("byProposalId", "proposalId"), }, ), refundItems: describeStore( "refundItems", describeContents({ keyPath: "id", versionAdded: 7, autoIncrement: true, }), { byCoinPubAndRtxid: describeIndex("byCoinPubAndRtxid", [ "coinPub", "rtxid", ]), byRefundGroupId: describeIndex("byRefundGroupId", ["refundGroupId"]), }, ), fixups: describeStore( "fixups", describeContents({ keyPath: "fixupName", versionAdded: 2, }), {}, ), }; /** * An applied migration. */ export interface FixupRecord { fixupName: string; } /** * User accounts */ export interface BankAccountsRecord { uri: string; currency: string; kycCompleted: boolean; alias: string; } export interface MetaConfigRecord { key: string; value: any; } export const walletMetadataStore = { metaConfig: describeStore( "metaConfig", describeContents({ keyPath: "key" }), {}, ), }; export function exportDb(db: IDBDatabase): Promise { const dump = { name: db.name, stores: {} as { [s: string]: any }, version: db.version, }; return new Promise((resolve, reject) => { const tx = db.transaction(Array.from(db.objectStoreNames)); tx.addEventListener("complete", () => { resolve(dump); }); // tslint:disable-next-line:prefer-for-of for (let i = 0; i < db.objectStoreNames.length; i++) { const name = db.objectStoreNames[i]; const storeDump = {} as { [s: string]: any }; dump.stores[name] = storeDump; tx.objectStore(name) .openCursor() .addEventListener("success", (e: Event) => { const cursor = (e.target as any).result; if (cursor) { storeDump[cursor.key] = cursor.value; cursor.continue(); } }); } }); } export interface DatabaseDump { name: string; stores: { [s: string]: any }; version: string; } async function recoverFromDump( db: IDBDatabase, dump: DatabaseDump, ): Promise { return new Promise((resolve, reject) => { const tx = db.transaction(Array.from(db.objectStoreNames), "readwrite"); tx.addEventListener("complete", () => { resolve(); }); for (let i = 0; i < db.objectStoreNames.length; i++) { const name = db.objectStoreNames[i]; const storeDump = dump.stores[name]; if (!storeDump) continue; Object.keys(storeDump).forEach(async (key) => { const value = storeDump[key]; if (!value) return; tx.objectStore(name).put(value); }); } tx.commit(); }); } export async function importDb(db: IDBDatabase, object: any): Promise { if ("name" in object && "stores" in object && "version" in object) { // looks like a database dump const dump = object as DatabaseDump; return recoverFromDump(db, dump); } if ("databases" in object && "$types" in object) { // looks like a IDBDatabase const someDatabase = object.databases; if (TALER_META_DB_NAME in someDatabase) { //looks like a taler database const currentMainDbValue = someDatabase[TALER_META_DB_NAME].objectStores.metaConfig.records[0] .value.value; if (currentMainDbValue !== TALER_DB_NAME) { console.log("not the current database version"); } const talerDb = someDatabase[currentMainDbValue]; const objectStoreNames = Object.keys(talerDb.objectStores); const dump: DatabaseDump = { name: talerDb.schema.databaseName, version: talerDb.schema.databaseVersion, stores: {}, }; for (let i = 0; i < objectStoreNames.length; i++) { const name = objectStoreNames[i]; const storeDump = {} as { [s: string]: any }; dump.stores[name] = storeDump; talerDb.objectStores[name].records.map((r: any) => { const pkey = r.primaryKey; const key = typeof pkey === "string" || typeof pkey === "number" ? pkey : pkey.join(","); storeDump[key] = r.value; }); } return recoverFromDump(db, dump); } } throw Error("could not import database"); } export interface FixupDescription { name: string; fn(tx: GetReadWriteAccess): Promise; } /** * Manual migrations between minor versions of the DB schema. */ export const walletDbFixups: FixupDescription[] = [ { name: "RefreshGroupRecord_currency", async fn(tx): Promise { await tx.refreshGroups.iter().forEachAsync(async (rg) => { if (rg.currency) { return; } // Empty refresh group without input coin, delete it! if (rg.inputPerCoin.length === 0) { await tx.refreshGroups.delete(rg.refreshGroupId); return; } rg.currency = Amounts.parseOrThrow(rg.inputPerCoin[0]).currency; await tx.refreshGroups.put(rg); }); }, }, { name: "DepositGroupRecord_transactionPerCoin", async fn(tx): Promise { await tx.depositGroups.iter().forEachAsync(async (dg) => { if (dg.transactionPerCoin) { return; } dg.transactionPerCoin = dg.depositedPerCoin.map( (c) => DepositElementStatus.Unknown, ); await tx.depositGroups.put(dg); }); }, }, { name: "PeerPullPaymentIncomingRecord_totalCostEstimated_add", async fn(tx): Promise { await tx.peerPullPaymentIncoming.iter().forEachAsync(async (pi) => { if (pi.totalCostEstimated) { return; } // Not really the cost, but a good substitute for older transactions // that don't sture the effective cost of the transaction. pi.totalCostEstimated = pi.contractTerms.amount; await tx.peerPullPaymentIncoming.put(pi); }); }, }, { name: "PeerPushPaymentIncomingRecord_totalCostEstimated_add", async fn(tx): Promise { await tx.peerPushPaymentIncoming.iter().forEachAsync(async (pi) => { if (pi.estimatedAmountEffective) { return; } const contractTerms = await tx.contractTerms.get(pi.contractTermsHash); if (!contractTerms) { // Not sure what we can do here! } else { // Not really the cost, but a good substitute for older transactions // that don't sture the effective cost of the transaction. pi.estimatedAmountEffective = contractTerms.contractTermsRaw.amount; await tx.peerPushPaymentIncoming.put(pi); } }); }, }, { name: "PeerPullPaymentInitiationRecord_estimatedAmountEffective_add", async fn(tx): Promise { await tx.peerPullPaymentInitiations.iter().forEachAsync(async (pi) => { if (pi.estimatedAmountEffective) { return; } pi.estimatedAmountEffective = pi.amount; await tx.peerPullPaymentInitiations.put(pi); }); }, }, { name: "PeerPushPaymentInitiationRecord_ALL_removeLegacyTx", async fn(tx): Promise { await tx.peerPushPaymentInitiations.iter().forEachAsync(async (pi) => { // Remove legacy transactions that don't have the totalCost field yet. if (!pi.totalCost) { await tx.peerPushPaymentInitiations.delete(pi.pursePub); } }); }, }, { name: "TipRecordRecord_status_add", async fn(tx): Promise { await tx.tips.iter().forEachAsync(async (r) => { // Remove legacy transactions that don't have the totalCost field yet. if (r.status == null) { if (r.pickedUpTimestamp) { r.status = TipRecordStatus.Done; } else { r.status = TipRecordStatus.PendingPickup; } await tx.tips.put(r); } }); }, }, ]; const logger = new Logger("db.ts"); export async function applyFixups( db: DbAccess, ): Promise { logger.trace("applying fixups"); await db.mktxAll().runReadWrite(async (tx) => { for (const fixupInstruction of walletDbFixups) { logger.trace(`checking fixup ${fixupInstruction.name}`); const fixupRecord = await tx.fixups.get(fixupInstruction.name); if (fixupRecord) { continue; } logger.info(`applying DB fixup ${fixupInstruction.name}`); await fixupInstruction.fn(tx); await tx.fixups.put({ fixupName: fixupInstruction.name, }); } }); } /** * Upgrade an IndexedDB in an upgrade transaction. * * The upgrade is made based on a store map, i.e. the metadata * structure that describes all the object stores and indexes. */ function upgradeFromStoreMap( storeMap: any, // FIXME: nail down type db: IDBDatabase, oldVersion: number, newVersion: number, upgradeTransaction: IDBTransaction, ): void { if (oldVersion === 0) { for (const n in storeMap) { const swi: StoreWithIndexes< any, StoreDescriptor, any > = storeMap[n]; const storeDesc: StoreDescriptor = swi.store; const s = db.createObjectStore(swi.storeName, { autoIncrement: storeDesc.autoIncrement, keyPath: storeDesc.keyPath, }); for (const indexName in swi.indexMap as any) { const indexDesc: IndexDescriptor = swi.indexMap[indexName]; s.createIndex(indexDesc.name, indexDesc.keyPath, { multiEntry: indexDesc.multiEntry, unique: indexDesc.unique, }); } } return; } if (oldVersion === newVersion) { return; } logger.info(`upgrading database from ${oldVersion} to ${newVersion}`); for (const n in storeMap) { const swi: StoreWithIndexes, any> = storeMap[ n ]; const storeDesc: StoreDescriptor = swi.store; const storeAddedVersion = storeDesc.versionAdded ?? 0; let s: IDBObjectStore; if (storeAddedVersion > oldVersion) { // Be tolerant if object store already exists. // Probably means somebody deployed without // adding the "addedInVersion" attribute. if (!upgradeTransaction.objectStoreNames.contains(swi.storeName)) { try { s = db.createObjectStore(swi.storeName, { autoIncrement: storeDesc.autoIncrement, keyPath: storeDesc.keyPath, }); } catch (e) { const moreInfo = e instanceof Error ? ` Reason: ${e.message}` : ""; throw Error( `Migration failed. Could not create store ${swi.storeName}.${moreInfo}`, ); } } } s = upgradeTransaction.objectStore(swi.storeName); for (const indexName in swi.indexMap as any) { const indexDesc: IndexDescriptor = swi.indexMap[indexName]; const indexAddedVersion = indexDesc.versionAdded ?? 0; if (indexAddedVersion <= oldVersion) { continue; } // Be tolerant if index already exists. // Probably means somebody deployed without // adding the "addedInVersion" attribute. if (!s.indexNames.contains(indexDesc.name)) { try { s.createIndex(indexDesc.name, indexDesc.keyPath, { multiEntry: indexDesc.multiEntry, unique: indexDesc.unique, }); } catch (e) { const moreInfo = e instanceof Error ? ` Reason: ${e.message}` : ""; throw Error( `Migration failed. Could not create index ${indexDesc.name}/${indexDesc.keyPath}. ${moreInfo}`, ); } } } } } function promiseFromTransaction(transaction: IDBTransaction): Promise { return new Promise((resolve, reject) => { transaction.oncomplete = () => { resolve(); }; transaction.onerror = () => { reject(); }; }); } /** * Purge all data in the given database. */ export function clearDatabase(db: IDBDatabase): Promise { // db.objectStoreNames is a DOMStringList, so we need to convert let stores: string[] = []; for (let i = 0; i < db.objectStoreNames.length; i++) { stores.push(db.objectStoreNames[i]); } const tx = db.transaction(stores, "readwrite"); for (const store of stores) { tx.objectStore(store).clear(); } return promiseFromTransaction(tx); } function onTalerDbUpgradeNeeded( db: IDBDatabase, oldVersion: number, newVersion: number, upgradeTransaction: IDBTransaction, ) { upgradeFromStoreMap( WalletStoresV1, db, oldVersion, newVersion, upgradeTransaction, ); } function onMetaDbUpgradeNeeded( db: IDBDatabase, oldVersion: number, newVersion: number, upgradeTransaction: IDBTransaction, ) { upgradeFromStoreMap( walletMetadataStore, db, oldVersion, newVersion, upgradeTransaction, ); } /** * Return a promise that resolves * to the taler wallet db. * * @param onVersionChange Called when another client concurrenctly connects to the database * with a higher version. */ export async function openTalerDatabase( idbFactory: IDBFactory, onVersionChange: () => void, ): Promise> { const metaDbHandle = await openDatabase( idbFactory, TALER_META_DB_NAME, 1, () => {}, onMetaDbUpgradeNeeded, ); const metaDb = new DbAccess(metaDbHandle, walletMetadataStore); let currentMainVersion: string | undefined; await metaDb .mktx((stores) => [stores.metaConfig]) .runReadWrite(async (tx) => { const dbVersionRecord = await tx.metaConfig.get(CURRENT_DB_CONFIG_KEY); if (!dbVersionRecord) { currentMainVersion = TALER_DB_NAME; await tx.metaConfig.put({ key: CURRENT_DB_CONFIG_KEY, value: TALER_DB_NAME, }); } else { currentMainVersion = dbVersionRecord.value; } }); if (currentMainVersion !== TALER_DB_NAME) { switch (currentMainVersion) { case "taler-wallet-main-v2": case "taler-wallet-main-v3": case "taler-wallet-main-v4": // temporary, we might migrate v4 later case "taler-wallet-main-v5": case "taler-wallet-main-v6": case "taler-wallet-main-v7": case "taler-wallet-main-v8": // We consider this a pre-release // development version, no migration is done. await metaDb .mktx((stores) => [stores.metaConfig]) .runReadWrite(async (tx) => { await tx.metaConfig.put({ key: CURRENT_DB_CONFIG_KEY, value: TALER_DB_NAME, }); }); break; default: throw Error( `major migration from database major=${currentMainVersion} not supported`, ); } } const mainDbHandle = await openDatabase( idbFactory, TALER_DB_NAME, WALLET_DB_MINOR_VERSION, onVersionChange, onTalerDbUpgradeNeeded, ); const handle = new DbAccess(mainDbHandle, WalletStoresV1); await applyFixups(handle); return handle; } export async function deleteTalerDatabase( idbFactory: IDBFactory, ): Promise { return new Promise((resolve, reject) => { const req = idbFactory.deleteDatabase(TALER_DB_NAME); req.onerror = () => reject(req.error); req.onsuccess = () => resolve(); }); }