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ciphermask/app/scripts/controllers/transactions/tx-state-manager.js

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import EventEmitter from 'safe-event-emitter';
import { ObservableStore } from '@metamask/obs-store';
import log from 'loglevel';
import { keyBy, mapValues, omitBy, pickBy, sortBy } from 'lodash';
import createId from '../../../../shared/modules/random-id';
import { TRANSACTION_STATUSES } from '../../../../shared/constants/transaction';
import { METAMASK_CONTROLLER_EVENTS } from '../../metamask-controller';
import { transactionMatchesNetwork } from '../../../../shared/modules/transaction.utils';
import {
generateHistoryEntry,
replayHistory,
snapshotFromTxMeta,
} from './lib/tx-state-history-helpers';
import { getFinalStates, normalizeAndValidateTxParams } from './lib/util';
/**
* TransactionStatuses reimported from the shared transaction constants file
* @typedef {import(
* '../../../../shared/constants/transaction'
* ).TransactionStatusString} TransactionStatusString
*/
/**
* @typedef {import('../../../../shared/constants/transaction').TxParams} TxParams
*/
/**
* @typedef {import(
* '../../../../shared/constants/transaction'
* ).TransactionMeta} TransactionMeta
*/
/**
* @typedef {Object} TransactionState
* @property {Record<string, TransactionMeta>} transactions - TransactionMeta
* keyed by the transaction's id.
*/
/**
* TransactionStateManager is responsible for the state of a transaction and
* storing the transaction. It also has some convenience methods for finding
* subsets of transactions.
* @param {Object} opts
* @param {TransactionState} [opts.initState={ transactions: {} }] - initial
* transactions list keyed by id
* @param {number} [opts.txHistoryLimit] - limit for how many finished
* transactions can hang around in state
* @param {Function} opts.getNetwork - return network number
* @class
*/
export default class TransactionStateManager extends EventEmitter {
constructor({ initState, txHistoryLimit, getNetwork, getCurrentChainId }) {
super();
this.store = new ObservableStore({
transactions: {},
...initState,
});
this.txHistoryLimit = txHistoryLimit;
this.getNetwork = getNetwork;
this.getCurrentChainId = getCurrentChainId;
}
/**
* Generates a TransactionMeta object consisting of the fields required for
* use throughout the extension. The argument here will override everything
* in the resulting transaction meta.
*
* TODO: Don't overwrite everything?
*
* @param {Partial<TransactionMeta>} opts - the object to use when
* overwriting default keys of the TransactionMeta
* @returns {TransactionMeta} the default txMeta object
*/
generateTxMeta(opts = {}) {
const netId = this.getNetwork();
const chainId = this.getCurrentChainId();
if (netId === 'loading') {
throw new Error('MetaMask is having trouble connecting to the network');
}
let dappSuggestedGasFees = null;
// If we are dealing with a transaction suggested by a dapp and not
// an internally created metamask transaction, we need to keep record of
// the originally submitted gasParams.
if (
opts.txParams &&
typeof opts.origin === 'string' &&
opts.origin !== 'metamask'
) {
if (typeof opts.txParams.gasPrice !== 'undefined') {
dappSuggestedGasFees = {
gasPrice: opts.txParams.gasPrice,
};
} else if (
typeof opts.txParams.maxFeePerGas !== 'undefined' ||
typeof opts.txParams.maxPriorityFeePerGas !== 'undefined'
) {
dappSuggestedGasFees = {
maxPriorityFeePerGas: opts.txParams.maxPriorityFeePerGas,
maxFeePerGas: opts.txParams.maxFeePerGas,
};
}
if (typeof opts.txParams.gas !== 'undefined') {
dappSuggestedGasFees = {
...dappSuggestedGasFees,
gas: opts.txParams.gas,
};
}
}
return {
id: createId(),
time: new Date().getTime(),
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: netId,
chainId,
loadingDefaults: true,
dappSuggestedGasFees,
...opts,
};
}
/**
* Get an object containing all unapproved transactions for the current
* network. This is the only transaction fetching method that returns an
* object, so it doesn't use getTransactions like everything else.
Limit number of transactions passed outside of TransactionController (#9010) Refs #8572 Refs #8991 This change limits the number of transactions (`txMeta`s) that are passed outside of the `TransactionController`, resulting in shorter serialization and deserialization times when state is moved between the background and UI contexts. `TransactionController#_updateMemstore` --------------------------------------- The `currentNetworkTxList` state of the `TransactionController` is used externally (i.e. outside of the controller) as the canonical source for the full transaction history. Prior to this change, the method would iterate the full transaction history and possibly return all of it. This change limits it to `MAX_MEMSTORE_TX_LIST_SIZE` to make sure that: 1. Calls to `_updateMemstore` are fast(er) 2. Passing `currentNetworkTxList` around is fast(er) (Shown in #8377, `_updateMemstore`, is called _frequently_ when a transaction is pending.) The list is iterated backwards because it is possible that new transactions are at the end of the list. [1] Results ------- In profiles before this change, with ~3k transactions locally, `PortDuplexStream._onMessage` took up to ~4.5s to complete when the set of transactions is included. [2] In profiles after this change, `PortDuplexStream._onMessage` took ~90ms to complete. [3] Before vs. after profile screenshots: ![Profile 1][2] ![Profile 2][3] [1]:https://github.com/MetaMask/metamask-extension/blob/5a3ae85b728096cb45c8cc6822249eed5555ee25/app/scripts/controllers/transactions/tx-state-manager.js#L172-L174 [2]:https://user-images.githubusercontent.com/1623628/87613203-36f51d80-c6e7-11ea-89bc-11a1cc2f3b1e.png [3]:https://user-images.githubusercontent.com/1623628/87613215-3bb9d180-c6e7-11ea-8d85-aff3acbd0374.png [8337]:https://github.com/MetaMask/metamask-extension/issues/8377 [8572]:https://github.com/MetaMask/metamask-extension/issues/8572 [8991]:https://github.com/MetaMask/metamask-extension/issues/8991
4 years ago
*
* @returns {Record<string, TransactionMeta>} Unapproved transactions keyed
* by id
*/
getUnapprovedTxList() {
const chainId = this.getCurrentChainId();
const network = this.getNetwork();
return pickBy(
this.store.getState().transactions,
(transaction) =>
transaction.status === TRANSACTION_STATUSES.UNAPPROVED &&
transactionMatchesNetwork(transaction, chainId, network),
);
}
/**
* Get all approved transactions for the current network. If an address is
* provided, the list will be further refined to only those transactions
* originating from the supplied address.
*
* @param {string} [address] - hex prefixed address to find transactions for.
* @returns {TransactionMeta[]} the filtered list of transactions
*/
getApprovedTransactions(address) {
const searchCriteria = { status: TRANSACTION_STATUSES.APPROVED };
if (address) {
searchCriteria.from = address;
}
return this.getTransactions({ searchCriteria });
}
/**
* Get all pending transactions for the current network. If an address is
* provided, the list will be further refined to only those transactions
* originating from the supplied address.
*
* @param {string} [address] - hex prefixed address to find transactions for.
* @returns {TransactionMeta[]} the filtered list of transactions
*/
getPendingTransactions(address) {
const searchCriteria = { status: TRANSACTION_STATUSES.SUBMITTED };
if (address) {
searchCriteria.from = address;
}
return this.getTransactions({ searchCriteria });
}
/**
* Get all confirmed transactions for the current network. If an address is
* provided, the list will be further refined to only those transactions
* originating from the supplied address.
*
* @param {string} [address] - hex prefixed address to find transactions for.
* @returns {TransactionMeta[]} the filtered list of transactions
*/
getConfirmedTransactions(address) {
const searchCriteria = { status: TRANSACTION_STATUSES.CONFIRMED };
if (address) {
searchCriteria.from = address;
}
return this.getTransactions({ searchCriteria });
}
/**
* Adds the txMeta to the list of transactions in the store.
* if the list is over txHistoryLimit it will remove a transaction that
* is in its final state.
* it will also add the key `history` to the txMeta with the snap shot of
* the original object
* @param {TransactionMeta} txMeta - The TransactionMeta object to add.
* @returns {TransactionMeta} The same TransactionMeta, but with validated
* txParams and transaction history.
*/
addTransaction(txMeta) {
// normalize and validate txParams if present
if (txMeta.txParams) {
txMeta.txParams = normalizeAndValidateTxParams(txMeta.txParams, false);
}
this.once(`${txMeta.id}:signed`, () => {
this.removeAllListeners(`${txMeta.id}:rejected`);
});
this.once(`${txMeta.id}:rejected`, () => {
this.removeAllListeners(`${txMeta.id}:signed`);
});
// initialize history
txMeta.history = [];
// capture initial snapshot of txMeta for history
const snapshot = snapshotFromTxMeta(txMeta);
txMeta.history.push(snapshot);
const transactions = this.getTransactions({
filterToCurrentNetwork: false,
});
const { txHistoryLimit } = this;
// checks if the length of the tx history is longer then desired persistence
// limit and then if it is removes the oldest confirmed or rejected tx.
// Pending or unapproved transactions will not be removed by this
// operation. For safety of presenting a fully functional transaction UI
// representation, this function will not break apart transactions with the
// same nonce, per network. Not accounting for transactions of the same
// nonce and network combo can result in confusing or broken experiences
// in the UI.
//
// TODO: we are already limiting what we send to the UI, and in the future
// we will send UI only collected groups of transactions *per page* so at
// some point in the future, this persistence limit can be adjusted. When
// we do that I think we should figure out a better storage solution for
// transaction history entries.
const nonceNetworkSet = new Set();
const txsToDelete = transactions
.reverse()
.filter((tx) => {
const { nonce } = tx.txParams;
const { chainId, metamaskNetworkId, status } = tx;
const key = `${nonce}-${chainId ?? metamaskNetworkId}`;
if (nonceNetworkSet.has(key)) {
return false;
} else if (
nonceNetworkSet.size < txHistoryLimit - 1 ||
getFinalStates().includes(status) === false
) {
nonceNetworkSet.add(key);
return false;
}
return true;
})
.map((tx) => tx.id);
this._deleteTransactions(txsToDelete);
this._addTransactionsToState([txMeta]);
return txMeta;
}
/**
* @param {number} txId
* @returns {TransactionMeta} the txMeta who matches the given id if none found
* for the network returns undefined
*/
getTransaction(txId) {
const { transactions } = this.store.getState();
return transactions[txId];
}
/**
* updates the txMeta in the list and adds a history entry
* @param {Object} txMeta - the txMeta to update
* @param {string} [note] - a note about the update for history
*/
updateTransaction(txMeta, note) {
// normalize and validate txParams if present
if (txMeta.txParams) {
txMeta.txParams = normalizeAndValidateTxParams(txMeta.txParams, false);
}
// create txMeta snapshot for history
const currentState = snapshotFromTxMeta(txMeta);
// recover previous tx state obj
const previousState = replayHistory(txMeta.history);
// generate history entry and add to history
const entry = generateHistoryEntry(previousState, currentState, note);
if (entry.length) {
txMeta.history.push(entry);
}
// commit txMeta to state
const txId = txMeta.id;
this.store.updateState({
transactions: {
...this.store.getState().transactions,
[txId]: txMeta,
},
});
}
/**
* SearchCriteria can search in any key in TxParams or the base
* TransactionMeta. This type represents any key on either of those two
* types.
* @typedef {TxParams[keyof TxParams] | TransactionMeta[keyof TransactionMeta]} SearchableKeys
*/
/**
* Predicates can either be strict values, which is shorthand for using
* strict equality, or a method that receives he value of the specified key
* and returns a boolean.
* @typedef {(v: unknown) => boolean | unknown} FilterPredicate
*/
/**
* Retrieve a list of transactions from state. By default this will return
* the full list of Transactions for the currently selected chain/network.
* Additional options can be provided to change what is included in the final
* list.
*
* @param opts - options to change filter behavior
* @param {Record<SearchableKeys, FilterPredicate>} [opts.searchCriteria] -
* an object with keys that match keys in TransactionMeta or TxParams, and
* values that are predicates. Predicates can either be strict values,
* which is shorthand for using strict equality, or a method that receives
* the value of the specified key and returns a boolean. The transaction
* list will be filtered to only those items that the predicate returns
* truthy for. **HINT**: `err: undefined` is like looking for a tx with no
* err. so you can also search txs that don't have something as well by
* setting the value as undefined.
* @param {TransactionMeta[]} [opts.initialList] - If provided the filtering
* will occur on the provided list. By default this will be the full list
* from state sorted by time ASC.
* @param {boolean} [opts.filterToCurrentNetwork=true] - Filter transaction
* list to only those that occurred on the current chain or network.
* Defaults to true.
* @param {number} [opts.limit] - limit the number of transactions returned
* to N unique nonces.
* @returns {TransactionMeta[]} The TransactionMeta objects that all provided
* predicates return truthy for.
*/
getTransactions({
searchCriteria = {},
initialList,
filterToCurrentNetwork = true,
limit,
} = {}) {
const chainId = this.getCurrentChainId();
const network = this.getNetwork();
// searchCriteria is an object that might have values that aren't predicate
// methods. When providing any other value type (string, number, etc), we
// consider this shorthand for "check the value at key for strict equality
// with the provided value". To conform this object to be only methods, we
// mapValues (lodash) such that every value on the object is a method that
// returns a boolean.
const predicateMethods = mapValues(searchCriteria, (predicate) => {
return typeof predicate === 'function'
? predicate
: (v) => v === predicate;
});
// If an initial list is provided we need to change it back into an object
// first, so that it matches the shape of our state. This is done by the
// lodash keyBy method. This is the edge case for this method, typically
// initialList will be undefined.
const transactionsToFilter = initialList
? keyBy(initialList, 'id')
: this.store.getState().transactions;
// Combine sortBy and pickBy to transform our state object into an array of
// matching transactions that are sorted by time.
const filteredTransactions = sortBy(
pickBy(transactionsToFilter, (transaction) => {
// default matchesCriteria to the value of transactionMatchesNetwork
// when filterToCurrentNetwork is true.
if (
filterToCurrentNetwork &&
transactionMatchesNetwork(transaction, chainId, network) === false
) {
return false;
}
// iterate over the predicateMethods keys to check if the transaction
// matches the searchCriteria
for (const [key, predicate] of Object.entries(predicateMethods)) {
// We return false early as soon as we know that one of the specified
// search criteria do not match the transaction. This prevents
// needlessly checking all criteria when we already know the criteria
// are not fully satisfied. We check both txParams and the base
// object as predicate keys can be either.
if (key in transaction.txParams) {
if (predicate(transaction.txParams[key]) === false) {
return false;
}
} else if (predicate(transaction[key]) === false) {
return false;
}
}
return true;
}),
'time',
);
if (limit !== undefined) {
// We need to have all transactions of a given nonce in order to display
// necessary details in the UI. We use the size of this set to determine
// whether we have reached the limit provided, thus ensuring that all
// transactions of nonces we include will be sent to the UI.
const nonces = new Set();
const txs = [];
// By default, the transaction list we filter from is sorted by time ASC.
// To ensure that filtered results prefers the newest transactions we
// iterate from right to left, inserting transactions into front of a new
// array. The original order is preserved, but we ensure that newest txs
// are preferred.
for (let i = filteredTransactions.length - 1; i > -1; i--) {
const txMeta = filteredTransactions[i];
const { nonce } = txMeta.txParams;
if (!nonces.has(nonce)) {
if (nonces.size < limit) {
nonces.add(nonce);
} else {
continue;
}
}
// Push transaction into the beginning of our array to ensure the
// original order is preserved.
txs.unshift(txMeta);
}
return txs;
}
return filteredTransactions;
}
/**
* Update status of the TransactionMeta with provided id to 'rejected'.
* After setting the status, the TransactionMeta is deleted from state.
*
* TODO: Should we show historically rejected transactions somewhere in the
* UI? Seems like it could be valuable for information purposes. Of course
* only after limit issues are reduced.
*
* @param {number} txId - the target TransactionMeta's Id
*/
setTxStatusRejected(txId) {
this._setTransactionStatus(txId, TRANSACTION_STATUSES.REJECTED);
this._deleteTransaction(txId);
}
/**
* Update status of the TransactionMeta with provided id to 'unapproved'
*
* @param {number} txId - the target TransactionMeta's Id
*/
setTxStatusUnapproved(txId) {
this._setTransactionStatus(txId, TRANSACTION_STATUSES.UNAPPROVED);
}
/**
* Update status of the TransactionMeta with provided id to 'approved'
*
* @param {number} txId - the target TransactionMeta's Id
*/
setTxStatusApproved(txId) {
this._setTransactionStatus(txId, TRANSACTION_STATUSES.APPROVED);
}
/**
* Update status of the TransactionMeta with provided id to 'signed'
*
* @param {number} txId - the target TransactionMeta's Id
*/
setTxStatusSigned(txId) {
this._setTransactionStatus(txId, TRANSACTION_STATUSES.SIGNED);
}
/**
* Update status of the TransactionMeta with provided id to 'submitted'
* and sets the 'submittedTime' property with the current Unix epoch time.
*
* @param {number} txId - the target TransactionMeta's Id
*/
setTxStatusSubmitted(txId) {
const txMeta = this.getTransaction(txId);
txMeta.submittedTime = new Date().getTime();
this.updateTransaction(txMeta, 'txStateManager - add submitted time stamp');
this._setTransactionStatus(txId, TRANSACTION_STATUSES.SUBMITTED);
}
/**
* Update status of the TransactionMeta with provided id to 'confirmed'
*
* @param {number} txId - the target TransactionMeta's Id
*/
setTxStatusConfirmed(txId) {
this._setTransactionStatus(txId, TRANSACTION_STATUSES.CONFIRMED);
}
/**
* Update status of the TransactionMeta with provided id to 'dropped'
*
* @param {number} txId - the target TransactionMeta's Id
*/
setTxStatusDropped(txId) {
this._setTransactionStatus(txId, TRANSACTION_STATUSES.DROPPED);
}
/**
* Update status of the TransactionMeta with provided id to 'failed' and put
* the error on the TransactionMeta object.
*
* @param {number} txId - the target TransactionMeta's Id
* @param {Error} err - error object
*/
setTxStatusFailed(txId, err) {
const error = err || new Error('Internal metamask failure');
const txMeta = this.getTransaction(txId);
txMeta.err = {
message: error.message?.toString() || error.toString(),
rpc: error.value,
stack: error.stack,
};
this.updateTransaction(
txMeta,
'transactions:tx-state-manager#fail - add error',
);
this._setTransactionStatus(txId, TRANSACTION_STATUSES.FAILED);
}
/**
* Removes all transactions for the given address on the current network,
* preferring chainId for comparison over networkId.
*
* @param {string} address - hex string of the from address on the txParams
* to remove
*/
wipeTransactions(address) {
// network only tx
const { transactions } = this.store.getState();
const network = this.getNetwork();
const chainId = this.getCurrentChainId();
// Update state
this.store.updateState({
transactions: omitBy(
transactions,
(transaction) =>
transaction.txParams.from === address &&
transactionMatchesNetwork(transaction, chainId, network),
),
});
}
/**
* Filters out the unapproved transactions from state
*/
clearUnapprovedTxs() {
this.store.updateState({
transactions: omitBy(
this.store.getState().transactions,
(transaction) => transaction.status === TRANSACTION_STATUSES.UNAPPROVED,
),
});
}
//
// PRIVATE METHODS
//
/**
* Updates a transaction's status in state, and then emits events that are
* subscribed to elsewhere. See below for best guesses on where and how these
* events are received.
* @param {number} txId - the TransactionMeta Id
* @param {TransactionStatusString} status - the status to set on the
* TransactionMeta
* @emits txMeta.id:txMeta.status - every time a transaction's status changes
* we emit the change passing along the id. This does not appear to be used
* outside of this file, which only listens to this to unsubscribe listeners
* of :rejected and :signed statuses when the inverse status changes. Likely
* safe to drop.
* @emits tx:status-update - every time a transaction's status changes we
* emit this event and pass txId and status. This event is subscribed to in
* the TransactionController and re-broadcast by the TransactionController.
* It is used internally within the TransactionController to try and update
* pending transactions on each new block (from blockTracker). It's also
* subscribed to in metamask-controller to display a browser notification on
* confirmed or failed transactions.
* @emits txMeta.id:finished - When a transaction moves to a finished state
* this event is emitted, which is used in the TransactionController to pass
* along details of the transaction to the dapp that suggested them. This
* pattern is replicated across all of the message managers and can likely
* be supplemented or replaced by the ApprovalController.
* @emits updateBadge - When the number of transactions changes in state,
* the badge in the browser extension bar should be updated to reflect the
* number of pending transactions. This particular emit doesn't appear to
* bubble up anywhere that is actually used. TransactionController emits
* this *anytime the state changes*, so this is probably superfluous.
*/
_setTransactionStatus(txId, status) {
const txMeta = this.getTransaction(txId);
if (!txMeta) {
return;
}
txMeta.status = status;
try {
this.updateTransaction(
txMeta,
`txStateManager: setting status to ${status}`,
);
this.emit(`${txMeta.id}:${status}`, txId);
this.emit(`tx:status-update`, txId, status);
if (
[
TRANSACTION_STATUSES.SUBMITTED,
TRANSACTION_STATUSES.REJECTED,
TRANSACTION_STATUSES.FAILED,
].includes(status)
) {
this.emit(`${txMeta.id}:finished`, txMeta);
}
this.emit(METAMASK_CONTROLLER_EVENTS.UPDATE_BADGE);
} catch (error) {
log.error(error);
}
}
/**
* Adds one or more transactions into state. This is not intended for
* external use.
*
* @private
* @param {TransactionMeta[]} transactions - the list of transactions to save
*/
_addTransactionsToState(transactions) {
this.store.updateState({
transactions: transactions.reduce((result, newTx) => {
result[newTx.id] = newTx;
return result;
}, this.store.getState().transactions),
});
}
/**
* removes one transaction from state. This is not intended for external use.
*
* @private
* @param {number} targetTransactionId - the transaction to delete
*/
_deleteTransaction(targetTransactionId) {
const { transactions } = this.store.getState();
delete transactions[targetTransactionId];
this.store.updateState({
transactions,
});
}
/**
* removes multiple transaction from state. This is not intended for external use.
*
* @private
* @param {number[]} targetTransactionIds - the transactions to delete
*/
_deleteTransactions(targetTransactionIds) {
const { transactions } = this.store.getState();
targetTransactionIds.forEach((transactionId) => {
delete transactions[transactionId];
});
this.store.updateState({
transactions,
});
}
}