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metamask-extension/app/scripts/controllers/transactions/index.test.js

2249 lines
70 KiB
JavaScript

import { strict as assert } from 'assert';
import EventEmitter from 'events';
import { toBuffer } from 'ethereumjs-util';
import { TransactionFactory } from '@ethereumjs/tx';
import { ObservableStore } from '@metamask/obs-store';
import sinon from 'sinon';
import {
createTestProviderTools,
getTestAccounts,
} from '../../../../test/stub/provider';
import mockEstimates from '../../../../test/data/mock-estimates.json';
import { EVENT } from '../../../../shared/constants/metametrics';
import {
TRANSACTION_STATUSES,
TRANSACTION_TYPES,
TRANSACTION_ENVELOPE_TYPES,
TRANSACTION_EVENTS,
ASSET_TYPES,
} from '../../../../shared/constants/transaction';
import { SECOND } from '../../../../shared/constants/time';
import {
GAS_ESTIMATE_TYPES,
GAS_RECOMMENDATIONS,
} from '../../../../shared/constants/gas';
import { TRANSACTION_ENVELOPE_TYPE_NAMES } from '../../../../ui/helpers/constants/transactions';
import { METAMASK_CONTROLLER_EVENTS } from '../../metamask-controller';
import { TOKEN_STANDARDS } from '../../../../ui/helpers/constants/common';
import { ORIGIN_METAMASK } from '../../../../shared/constants/app';
import TransactionController from '.';
const noop = () => true;
const currentNetworkId = '42';
const currentChainId = '0x2a';
const providerConfig = {
type: 'kovan',
};
const VALID_ADDRESS = '0x0000000000000000000000000000000000000000';
const VALID_ADDRESS_TWO = '0x0000000000000000000000000000000000000001';
describe('Transaction Controller', function () {
let txController, provider, providerResultStub, fromAccount, fragmentExists;
beforeEach(function () {
fragmentExists = false;
providerResultStub = {
// 1 gwei
eth_gasPrice: '0x0de0b6b3a7640000',
// by default, all accounts are external accounts (not contracts)
eth_getCode: '0x',
};
provider = createTestProviderTools({
scaffold: providerResultStub,
networkId: currentNetworkId,
chainId: currentNetworkId,
}).provider;
fromAccount = getTestAccounts()[0];
const blockTrackerStub = new EventEmitter();
blockTrackerStub.getCurrentBlock = noop;
blockTrackerStub.getLatestBlock = noop;
txController = new TransactionController({
provider,
getGasPrice() {
return '0xee6b2800';
},
networkStore: new ObservableStore(currentNetworkId),
getCurrentNetworkEIP1559Compatibility: () => Promise.resolve(false),
getCurrentAccountEIP1559Compatibility: () => false,
txHistoryLimit: 10,
blockTracker: blockTrackerStub,
signTransaction: (ethTx) =>
new Promise((resolve) => {
resolve(ethTx.sign(fromAccount.key));
}),
getProviderConfig: () => providerConfig,
getPermittedAccounts: () => undefined,
getCurrentChainId: () => currentChainId,
getParticipateInMetrics: () => false,
trackMetaMetricsEvent: () => undefined,
createEventFragment: () => undefined,
updateEventFragment: () => undefined,
finalizeEventFragment: () => undefined,
getEventFragmentById: () =>
fragmentExists === false ? undefined : { id: 0 },
getEIP1559GasFeeEstimates: () => undefined,
getAccountType: () => 'MetaMask',
getDeviceModel: () => 'N/A',
});
txController.nonceTracker.getNonceLock = () =>
Promise.resolve({ nextNonce: 0, releaseLock: noop });
});
describe('#getState', function () {
it('should return a state object with the right keys and data types', function () {
const exposedState = txController.getState();
assert.ok(
'unapprovedTxs' in exposedState,
'state should have the key unapprovedTxs',
);
assert.ok(
'currentNetworkTxList' in exposedState,
'state should have the key currentNetworkTxList',
);
assert.ok(
typeof exposedState?.unapprovedTxs === 'object',
'should be an object',
);
assert.ok(
Array.isArray(exposedState.currentNetworkTxList),
'should be an array',
);
});
});
describe('#getUnapprovedTxCount', function () {
it('should return the number of unapproved txs', function () {
txController.txStateManager._addTransactionsToState([
{
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
history: [{}],
},
{
id: 2,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
history: [{}],
},
{
id: 3,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
history: [{}],
},
]);
const unapprovedTxCount = txController.getUnapprovedTxCount();
assert.equal(unapprovedTxCount, 3, 'should be 3');
});
});
describe('#getPendingTxCount', function () {
it('should return the number of pending txs', function () {
txController.txStateManager._addTransactionsToState([
{
id: 1,
status: TRANSACTION_STATUSES.SUBMITTED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
history: [{}],
},
{
id: 2,
status: TRANSACTION_STATUSES.SUBMITTED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
history: [{}],
},
{
id: 3,
status: TRANSACTION_STATUSES.SUBMITTED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
history: [{}],
},
]);
const pendingTxCount = txController.getPendingTxCount();
assert.equal(pendingTxCount, 3, 'should be 3');
});
});
describe('#getConfirmedTransactions', function () {
it('should return the number of confirmed txs', function () {
const address = '0xc684832530fcbddae4b4230a47e991ddcec2831d';
const txParams = {
from: address,
to: '0xc684832530fcbddae4b4230a47e991ddcec2831d',
};
txController.txStateManager._addTransactionsToState([
{
id: 0,
status: TRANSACTION_STATUSES.CONFIRMED,
metamaskNetworkId: currentNetworkId,
txParams,
history: [{}],
},
{
id: 1,
status: TRANSACTION_STATUSES.CONFIRMED,
metamaskNetworkId: currentNetworkId,
txParams,
history: [{}],
},
{
id: 2,
status: TRANSACTION_STATUSES.CONFIRMED,
metamaskNetworkId: currentNetworkId,
txParams,
history: [{}],
},
{
id: 3,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams,
history: [{}],
},
{
id: 4,
status: TRANSACTION_STATUSES.REJECTED,
metamaskNetworkId: currentNetworkId,
txParams,
history: [{}],
},
{
id: 5,
status: TRANSACTION_STATUSES.APPROVED,
metamaskNetworkId: currentNetworkId,
txParams,
history: [{}],
},
{
id: 6,
status: TRANSACTION_STATUSES.SIGNED,
metamaskNetworkId: currentNetworkId,
txParams,
history: [{}],
},
{
id: 7,
status: TRANSACTION_STATUSES.SUBMITTED,
metamaskNetworkId: currentNetworkId,
txParams,
history: [{}],
},
{
id: 8,
status: TRANSACTION_STATUSES.FAILED,
metamaskNetworkId: currentNetworkId,
txParams,
history: [{}],
},
]);
assert.equal(
txController.nonceTracker.getConfirmedTransactions(address).length,
3,
);
});
});
describe('#newUnapprovedTransaction', function () {
let stub, txMeta, txParams;
beforeEach(function () {
txParams = {
from: '0xc684832530fcbddae4b4230a47e991ddcec2831d',
to: '0xc684832530fcbddae4b4230a47e991ddcec2831d',
};
txMeta = {
status: TRANSACTION_STATUSES.UNAPPROVED,
id: 1,
metamaskNetworkId: currentNetworkId,
txParams,
history: [{}],
};
txController.txStateManager._addTransactionsToState([txMeta]);
stub = sinon
.stub(txController, 'addUnapprovedTransaction')
.callsFake(() => {
txController.emit('newUnapprovedTx', txMeta);
return Promise.resolve(
txController.txStateManager.addTransaction(txMeta),
);
});
});
afterEach(function () {
txController.txStateManager._addTransactionsToState([]);
stub.restore();
});
it('should resolve when finished and status is submitted and resolve with the hash', async function () {
txController.once('newUnapprovedTx', (txMetaFromEmit) => {
setTimeout(() => {
txController.setTxHash(txMetaFromEmit.id, '0x0');
txController.txStateManager.setTxStatusSubmitted(txMetaFromEmit.id);
});
});
const hash = await txController.newUnapprovedTransaction(txParams);
assert.ok(hash, 'newUnapprovedTransaction needs to return the hash');
});
it('should reject when finished and status is rejected', async function () {
txController.once('newUnapprovedTx', (txMetaFromEmit) => {
setTimeout(() => {
txController.txStateManager.setTxStatusRejected(txMetaFromEmit.id);
});
});
await assert.rejects(
() => txController.newUnapprovedTransaction(txParams),
{
message: 'MetaMask Tx Signature: User denied transaction signature.',
},
);
});
});
describe('#addUnapprovedTransaction', function () {
const selectedAddress = '0x1678a085c290ebd122dc42cba69373b5953b831d';
const recipientAddress = '0xc42edfcc21ed14dda456aa0756c153f7985d8813';
let getSelectedAddress, getPermittedAccounts;
beforeEach(function () {
getSelectedAddress = sinon
.stub(txController, 'getSelectedAddress')
.returns(selectedAddress);
getPermittedAccounts = sinon
.stub(txController, 'getPermittedAccounts')
.returns([selectedAddress]);
});
afterEach(function () {
getSelectedAddress.restore();
getPermittedAccounts.restore();
});
it('should add an unapproved transaction and return a valid txMeta', async function () {
const txMeta = await txController.addUnapprovedTransaction({
from: selectedAddress,
to: recipientAddress,
});
assert.ok('id' in txMeta, 'should have a id');
assert.ok('time' in txMeta, 'should have a time stamp');
assert.ok(
'metamaskNetworkId' in txMeta,
'should have a metamaskNetworkId',
);
assert.ok('txParams' in txMeta, 'should have a txParams');
assert.ok('history' in txMeta, 'should have a history');
assert.equal(
txMeta.txParams.value,
'0x0',
'should have added 0x0 as the value',
);
const memTxMeta = txController.txStateManager.getTransaction(txMeta.id);
assert.deepEqual(txMeta, memTxMeta);
});
it('should emit newUnapprovedTx event and pass txMeta as the first argument', function (done) {
providerResultStub.eth_gasPrice = '4a817c800';
txController.once('newUnapprovedTx', (txMetaFromEmit) => {
assert.ok(txMetaFromEmit, 'txMeta is falsy');
done();
});
txController
.addUnapprovedTransaction({
from: selectedAddress,
to: recipientAddress,
})
.catch(done);
});
it("should fail if the from address isn't the selected address", async function () {
await assert.rejects(() =>
txController.addUnapprovedTransaction({
from: '0x0d1d4e623D10F9FBA5Db95830F7d3839406C6AF2',
}),
);
});
it('should fail if netId is loading', async function () {
txController.networkStore = new ObservableStore('loading');
await assert.rejects(
() =>
txController.addUnapprovedTransaction({
from: selectedAddress,
to: '0x0d1d4e623D10F9FBA5Db95830F7d3839406C6AF2',
}),
{ message: 'MetaMask is having trouble connecting to the network' },
);
});
});
describe('#addTxGasDefaults', function () {
it('should add the tx defaults if their are none', async function () {
txController.txStateManager._addTransactionsToState([
{
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
history: [{}],
},
]);
const txMeta = {
id: 1,
txParams: {
from: '0xc684832530fcbddae4b4230a47e991ddcec2831d',
to: '0xc684832530fcbddae4b4230a47e991ddcec2831d',
},
history: [{}],
};
providerResultStub.eth_gasPrice = '4a817c800';
providerResultStub.eth_getBlockByNumber = { gasLimit: '47b784' };
providerResultStub.eth_estimateGas = '5209';
const txMetaWithDefaults = await txController.addTxGasDefaults(txMeta);
assert.ok(
txMetaWithDefaults.txParams.gasPrice,
'should have added the gas price',
);
assert.ok(
txMetaWithDefaults.txParams.gas,
'should have added the gas field',
);
});
it('should add EIP1559 tx defaults', async function () {
const TEST_MAX_FEE_PER_GAS = '0x12a05f200';
const TEST_MAX_PRIORITY_FEE_PER_GAS = '0x77359400';
const stub1 = sinon
.stub(txController, 'getEIP1559Compatibility')
.returns(true);
const stub2 = sinon
.stub(txController, '_getDefaultGasFees')
.callsFake(() => ({
maxFeePerGas: TEST_MAX_FEE_PER_GAS,
maxPriorityFeePerGas: TEST_MAX_PRIORITY_FEE_PER_GAS,
}));
txController.txStateManager._addTransactionsToState([
{
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
history: [{}],
},
]);
const txMeta = {
id: 1,
txParams: {
from: '0xc684832530fcbddae4b4230a47e991ddcec2831d',
to: '0xc684832530fcbddae4b4230a47e991ddcec2831d',
},
history: [{}],
};
providerResultStub.eth_getBlockByNumber = { gasLimit: '47b784' };
providerResultStub.eth_estimateGas = '5209';
const txMetaWithDefaults = await txController.addTxGasDefaults(txMeta);
assert.equal(
txMetaWithDefaults.txParams.maxFeePerGas,
TEST_MAX_FEE_PER_GAS,
'should have added the correct max fee per gas',
);
assert.equal(
txMetaWithDefaults.txParams.maxPriorityFeePerGas,
TEST_MAX_PRIORITY_FEE_PER_GAS,
'should have added the correct max priority fee per gas',
);
stub1.restore();
stub2.restore();
});
it('should add gasPrice as maxFeePerGas and maxPriorityFeePerGas if there are no sources of other fee data available', async function () {
const TEST_GASPRICE = '0x12a05f200';
const stub1 = sinon
.stub(txController, 'getEIP1559Compatibility')
.returns(true);
const stub2 = sinon
.stub(txController, '_getDefaultGasFees')
.callsFake(() => ({ gasPrice: TEST_GASPRICE }));
txController.txStateManager._addTransactionsToState([
{
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
history: [{}],
},
]);
const txMeta = {
id: 1,
txParams: {
from: '0xc684832530fcbddae4b4230a47e991ddcec2831d',
to: '0xc684832530fcbddae4b4230a47e991ddcec2831d',
},
history: [{}],
};
providerResultStub.eth_getBlockByNumber = { gasLimit: '47b784' };
providerResultStub.eth_estimateGas = '5209';
const txMetaWithDefaults = await txController.addTxGasDefaults(txMeta);
assert.equal(
txMetaWithDefaults.txParams.maxFeePerGas,
TEST_GASPRICE,
'should have added the correct max fee per gas',
);
assert.equal(
txMetaWithDefaults.txParams.maxPriorityFeePerGas,
TEST_GASPRICE,
'should have added the correct max priority fee per gas',
);
stub1.restore();
stub2.restore();
});
it('should not add maxFeePerGas and maxPriorityFeePerGas to type-0 transactions', async function () {
const TEST_GASPRICE = '0x12a05f200';
const stub1 = sinon
.stub(txController, 'getEIP1559Compatibility')
.returns(true);
const stub2 = sinon
.stub(txController, '_getDefaultGasFees')
.callsFake(() => ({ gasPrice: TEST_GASPRICE }));
txController.txStateManager._addTransactionsToState([
{
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
type: TRANSACTION_ENVELOPE_TYPES.LEGACY,
},
history: [{}],
},
]);
const txMeta = {
id: 1,
txParams: {
from: '0xc684832530fcbddae4b4230a47e991ddcec2831d',
to: '0xc684832530fcbddae4b4230a47e991ddcec2831d',
type: TRANSACTION_ENVELOPE_TYPES.LEGACY,
},
history: [{}],
};
providerResultStub.eth_getBlockByNumber = { gasLimit: '47b784' };
providerResultStub.eth_estimateGas = '5209';
const txMetaWithDefaults = await txController.addTxGasDefaults(txMeta);
assert.equal(
txMetaWithDefaults.txParams.maxFeePerGas,
undefined,
'should not have maxFeePerGas',
);
assert.equal(
txMetaWithDefaults.txParams.maxPriorityFeePerGas,
undefined,
'should not have max priority fee per gas',
);
stub1.restore();
stub2.restore();
});
it('should not add gasPrice if the fee data is available from the dapp', async function () {
const TEST_GASPRICE = '0x12a05f200';
const TEST_MAX_FEE_PER_GAS = '0x12a05f200';
const TEST_MAX_PRIORITY_FEE_PER_GAS = '0x77359400';
const stub1 = sinon
.stub(txController, 'getEIP1559Compatibility')
.returns(true);
const stub2 = sinon
.stub(txController, '_getDefaultGasFees')
.callsFake(() => ({ gasPrice: TEST_GASPRICE }));
txController.txStateManager._addTransactionsToState([
{
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
maxFeePerGas: TEST_MAX_FEE_PER_GAS,
maxPriorityFeePerGas: TEST_MAX_PRIORITY_FEE_PER_GAS,
},
history: [{}],
},
]);
const txMeta = {
id: 1,
txParams: {
from: '0xc684832530fcbddae4b4230a47e991ddcec2831d',
to: '0xc684832530fcbddae4b4230a47e991ddcec2831d',
},
history: [{}],
};
providerResultStub.eth_getBlockByNumber = { gasLimit: '47b784' };
providerResultStub.eth_estimateGas = '5209';
const txMetaWithDefaults = await txController.addTxGasDefaults(txMeta);
assert.equal(
txMetaWithDefaults.txParams.maxFeePerGas,
TEST_MAX_FEE_PER_GAS,
'should have added the correct max fee per gas',
);
assert.equal(
txMetaWithDefaults.txParams.maxPriorityFeePerGas,
TEST_MAX_PRIORITY_FEE_PER_GAS,
'should have added the correct max priority fee per gas',
);
stub1.restore();
stub2.restore();
});
});
describe('_getDefaultGasFees', function () {
let getGasFeeStub;
beforeEach(function () {
getGasFeeStub = sinon.stub(txController, '_getEIP1559GasFeeEstimates');
});
afterEach(function () {
getGasFeeStub.restore();
});
it('should return the correct fee data when the gas estimate type is FEE_MARKET', async function () {
const EXPECTED_MAX_FEE_PER_GAS = '12a05f200';
const EXPECTED_MAX_PRIORITY_FEE_PER_GAS = '77359400';
getGasFeeStub.callsFake(() => ({
gasFeeEstimates: {
medium: {
suggestedMaxPriorityFeePerGas: '2',
suggestedMaxFeePerGas: '5',
},
},
gasEstimateType: GAS_ESTIMATE_TYPES.FEE_MARKET,
}));
const defaultGasFees = await txController._getDefaultGasFees(
{ txParams: {} },
true,
);
assert.deepEqual(defaultGasFees, {
maxPriorityFeePerGas: EXPECTED_MAX_PRIORITY_FEE_PER_GAS,
maxFeePerGas: EXPECTED_MAX_FEE_PER_GAS,
});
});
it('should return the correct fee data when the gas estimate type is LEGACY', async function () {
const EXPECTED_GAS_PRICE = '77359400';
getGasFeeStub.callsFake(() => ({
gasFeeEstimates: { medium: '2' },
gasEstimateType: GAS_ESTIMATE_TYPES.LEGACY,
}));
const defaultGasFees = await txController._getDefaultGasFees(
{ txParams: {} },
false,
);
assert.deepEqual(defaultGasFees, {
gasPrice: EXPECTED_GAS_PRICE,
});
});
it('should return the correct fee data when the gas estimate type is ETH_GASPRICE', async function () {
const EXPECTED_GAS_PRICE = '77359400';
getGasFeeStub.callsFake(() => ({
gasFeeEstimates: { gasPrice: '2' },
gasEstimateType: GAS_ESTIMATE_TYPES.ETH_GASPRICE,
}));
const defaultGasFees = await txController._getDefaultGasFees(
{ txParams: {} },
false,
);
assert.deepEqual(defaultGasFees, {
gasPrice: EXPECTED_GAS_PRICE,
});
});
});
describe('#addTransaction', function () {
let trackTransactionMetricsEventSpy;
beforeEach(function () {
trackTransactionMetricsEventSpy = sinon.spy(
txController,
'_trackTransactionMetricsEvent',
);
});
afterEach(function () {
trackTransactionMetricsEventSpy.restore();
});
it('should emit updates', function (done) {
const txMeta = {
id: '1',
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
};
const eventNames = [
METAMASK_CONTROLLER_EVENTS.UPDATE_BADGE,
'1:unapproved',
];
const listeners = [];
eventNames.forEach((eventName) => {
listeners.push(
new Promise((resolve) => {
txController.once(eventName, (arg) => {
resolve(arg);
});
}),
);
});
Promise.all(listeners)
.then((returnValues) => {
assert.deepEqual(
returnValues.pop(),
txMeta,
'last event 1:unapproved should return txMeta',
);
done();
})
.catch(done);
txController.addTransaction(txMeta);
});
it('should call _trackTransactionMetricsEvent with the correct params', function () {
const txMeta = {
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: {
from: fromAccount.address,
to: '0x1678a085c290ebd122dc42cba69373b5953b831d',
gasPrice: '0x77359400',
gas: '0x7b0d',
nonce: '0x4b',
},
type: TRANSACTION_TYPES.SIMPLE_SEND,
transaction_envelope_type: TRANSACTION_ENVELOPE_TYPE_NAMES.LEGACY,
origin: ORIGIN_METAMASK,
chainId: currentChainId,
time: 1624408066355,
metamaskNetworkId: currentNetworkId,
};
txController.addTransaction(txMeta);
assert.equal(trackTransactionMetricsEventSpy.callCount, 1);
assert.deepEqual(
trackTransactionMetricsEventSpy.getCall(0).args[0],
txMeta,
);
assert.equal(
trackTransactionMetricsEventSpy.getCall(0).args[1],
TRANSACTION_EVENTS.ADDED,
);
});
});
describe('#approveTransaction', function () {
it('does not overwrite set values', async function () {
const originalValue = '0x01';
const txMeta = {
id: '1',
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS_TWO,
from: VALID_ADDRESS,
nonce: originalValue,
gas: originalValue,
gasPrice: originalValue,
},
};
// eslint-disable-next-line @babel/no-invalid-this
this.timeout(SECOND * 15);
const wrongValue = '0x05';
txController.addTransaction(txMeta);
providerResultStub.eth_gasPrice = wrongValue;
providerResultStub.eth_estimateGas = '0x5209';
const signStub = sinon
.stub(txController, 'signTransaction')
.callsFake(() => Promise.resolve());
const pubStub = sinon
.stub(txController, 'publishTransaction')
.callsFake(() => {
txController.setTxHash('1', originalValue);
txController.txStateManager.setTxStatusSubmitted('1');
});
await txController.approveTransaction(txMeta.id);
const result = txController.txStateManager.getTransaction(txMeta.id);
const params = result.txParams;
assert.equal(params.gas, originalValue, 'gas unmodified');
assert.equal(params.gasPrice, originalValue, 'gas price unmodified');
assert.equal(result.hash, originalValue);
assert.equal(
result.status,
TRANSACTION_STATUSES.SUBMITTED,
'should have reached the submitted status.',
);
signStub.restore();
pubStub.restore();
});
});
describe('#sign replay-protected tx', function () {
it('prepares a tx with the chainId set', async function () {
txController.addTransaction(
{
id: '1',
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
},
noop,
);
const rawTx = await txController.signTransaction('1');
const ethTx = TransactionFactory.fromSerializedData(toBuffer(rawTx));
assert.equal(ethTx.common.chainIdBN().toNumber(), 42);
});
});
describe('#updateAndApproveTransaction', function () {
it('should update and approve transactions', async function () {
const txMeta = {
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: {
from: fromAccount.address,
to: '0x1678a085c290ebd122dc42cba69373b5953b831d',
gasPrice: '0x77359400',
gas: '0x7b0d',
nonce: '0x4b',
},
metamaskNetworkId: currentNetworkId,
};
txController.txStateManager.addTransaction(txMeta);
const approvalPromise = txController.updateAndApproveTransaction(txMeta);
const tx = txController.txStateManager.getTransaction(1);
assert.equal(tx.status, TRANSACTION_STATUSES.APPROVED);
await approvalPromise;
});
});
describe('#getChainId', function () {
it('returns 0 when the chainId is NaN', function () {
txController.networkStore = new ObservableStore('loading');
assert.equal(txController.getChainId(), 0);
});
});
describe('#cancelTransaction', function () {
it('should emit a status change to rejected', function (done) {
txController.txStateManager._addTransactionsToState([
{
id: 0,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
metamaskNetworkId: currentNetworkId,
history: [{}],
},
{
id: 1,
status: TRANSACTION_STATUSES.REJECTED,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
metamaskNetworkId: currentNetworkId,
history: [{}],
},
{
id: 2,
status: TRANSACTION_STATUSES.APPROVED,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
metamaskNetworkId: currentNetworkId,
history: [{}],
},
{
id: 3,
status: TRANSACTION_STATUSES.SIGNED,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
metamaskNetworkId: currentNetworkId,
history: [{}],
},
{
id: 4,
status: TRANSACTION_STATUSES.SUBMITTED,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
metamaskNetworkId: currentNetworkId,
history: [{}],
},
{
id: 5,
status: TRANSACTION_STATUSES.CONFIRMED,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
metamaskNetworkId: currentNetworkId,
history: [{}],
},
{
id: 6,
status: TRANSACTION_STATUSES.FAILED,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
metamaskNetworkId: currentNetworkId,
history: [{}],
},
]);
txController.once('tx:status-update', (txId, status) => {
try {
assert.equal(
status,
TRANSACTION_STATUSES.REJECTED,
'status should be rejected',
);
assert.equal(txId, 0, 'id should e 0');
done();
} catch (e) {
done(e);
}
});
txController.cancelTransaction(0);
});
});
describe('#createSpeedUpTransaction', function () {
let addTransactionSpy;
let approveTransactionSpy;
let txParams;
let expectedTxParams;
beforeEach(function () {
addTransactionSpy = sinon.spy(txController, 'addTransaction');
approveTransactionSpy = sinon.spy(txController, 'approveTransaction');
txParams = {
nonce: '0x00',
from: '0xB09d8505E1F4EF1CeA089D47094f5DD3464083d4',
to: '0xB09d8505E1F4EF1CeA089D47094f5DD3464083d4',
gas: '0x5209',
gasPrice: '0xa',
estimateSuggested: GAS_RECOMMENDATIONS.MEDIUM,
estimateUsed: GAS_RECOMMENDATIONS.HIGH,
};
txController.txStateManager._addTransactionsToState([
{
id: 1,
status: TRANSACTION_STATUSES.SUBMITTED,
metamaskNetworkId: currentNetworkId,
txParams,
history: [{}],
},
]);
expectedTxParams = { ...txParams, gasPrice: '0xb' };
});
afterEach(function () {
addTransactionSpy.restore();
approveTransactionSpy.restore();
});
it('should call this.addTransaction and this.approveTransaction with the expected args', async function () {
await txController.createSpeedUpTransaction(1);
assert.equal(addTransactionSpy.callCount, 1);
const addTransactionArgs = addTransactionSpy.getCall(0).args[0];
assert.deepEqual(addTransactionArgs.txParams, expectedTxParams);
const { previousGasParams, type } = addTransactionArgs;
assert.deepEqual(
{ gasPrice: previousGasParams.gasPrice, type },
{
gasPrice: '0xa',
type: TRANSACTION_TYPES.RETRY,
},
);
});
it('should call this.approveTransaction with the id of the returned tx', async function () {
const result = await txController.createSpeedUpTransaction(1);
assert.equal(approveTransactionSpy.callCount, 1);
const approveTransactionArg = approveTransactionSpy.getCall(0).args[0];
assert.equal(result.id, approveTransactionArg);
});
it('should return the expected txMeta', async function () {
const result = await txController.createSpeedUpTransaction(1);
assert.deepEqual(result.txParams, expectedTxParams);
const { previousGasParams, type } = result;
assert.deepEqual(
{ gasPrice: previousGasParams.gasPrice, type },
{
gasPrice: '0xa',
type: TRANSACTION_TYPES.RETRY,
},
);
});
});
describe('#signTransaction', function () {
let fromTxDataSpy;
beforeEach(function () {
fromTxDataSpy = sinon.spy(TransactionFactory, 'fromTxData');
});
afterEach(function () {
fromTxDataSpy.restore();
});
it('sets txParams.type to 0x0 (non-EIP-1559)', async function () {
txController.txStateManager._addTransactionsToState([
{
status: TRANSACTION_STATUSES.UNAPPROVED,
id: 1,
metamaskNetworkId: currentNetworkId,
history: [{}],
txParams: {
from: VALID_ADDRESS_TWO,
to: VALID_ADDRESS,
gasPrice: '0x77359400',
gas: '0x7b0d',
nonce: '0x4b',
},
},
]);
await txController.signTransaction('1');
assert.equal(fromTxDataSpy.getCall(0).args[0].type, '0x0');
});
it('sets txParams.type to 0x2 (EIP-1559)', async function () {
const eip1559CompatibilityStub = sinon
.stub(txController, 'getEIP1559Compatibility')
.returns(true);
txController.txStateManager._addTransactionsToState([
{
status: TRANSACTION_STATUSES.UNAPPROVED,
id: 2,
metamaskNetworkId: currentNetworkId,
history: [{}],
txParams: {
from: VALID_ADDRESS_TWO,
to: VALID_ADDRESS,
maxFeePerGas: '0x77359400',
maxPriorityFeePerGas: '0x77359400',
gas: '0x7b0d',
nonce: '0x4b',
},
},
]);
await txController.signTransaction('2');
assert.equal(fromTxDataSpy.getCall(0).args[0].type, '0x2');
eip1559CompatibilityStub.restore();
});
});
describe('#publishTransaction', function () {
let hash, txMeta, trackTransactionMetricsEventSpy;
beforeEach(function () {
hash =
'0x2a5523c6fa98b47b7d9b6c8320179785150b42a16bcff36b398c5062b65657e8';
txMeta = {
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: {
gas: '0x7b0d',
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
metamaskNetworkId: currentNetworkId,
};
providerResultStub.eth_sendRawTransaction = hash;
trackTransactionMetricsEventSpy = sinon.spy(
txController,
'_trackTransactionMetricsEvent',
);
});
afterEach(function () {
trackTransactionMetricsEventSpy.restore();
});
it('should publish a tx, updates the rawTx when provided a one', async function () {
const rawTx =
'0x477b2e6553c917af0db0388ae3da62965ff1a184558f61b749d1266b2e6d024c';
txController.txStateManager.addTransaction(txMeta);
await txController.publishTransaction(txMeta.id, rawTx);
const publishedTx = txController.txStateManager.getTransaction(1);
assert.equal(publishedTx.hash, hash);
assert.equal(publishedTx.status, TRANSACTION_STATUSES.SUBMITTED);
});
it('should ignore the error "Transaction Failed: known transaction" and be as usual', async function () {
providerResultStub.eth_sendRawTransaction = async (_, __, ___, end) => {
end('Transaction Failed: known transaction');
};
const rawTx =
'0xf86204831e848082520894f231d46dd78806e1dd93442cf33c7671f853874880802ca05f973e540f2d3c2f06d3725a626b75247593cb36477187ae07ecfe0a4db3cf57a00259b52ee8c58baaa385fb05c3f96116e58de89bcc165cb3bfdfc708672fed8a';
txController.txStateManager.addTransaction(txMeta);
await txController.publishTransaction(txMeta.id, rawTx);
const publishedTx = txController.txStateManager.getTransaction(1);
assert.equal(
publishedTx.hash,
'0x2cc5a25744486f7383edebbf32003e5a66e18135799593d6b5cdd2bb43674f09',
);
assert.equal(publishedTx.status, TRANSACTION_STATUSES.SUBMITTED);
});
it('should call _trackTransactionMetricsEvent with the correct params', async function () {
const rawTx =
'0x477b2e6553c917af0db0388ae3da62965ff1a184558f61b749d1266b2e6d024c';
txController.txStateManager.addTransaction(txMeta);
await txController.publishTransaction(txMeta.id, rawTx);
assert.equal(trackTransactionMetricsEventSpy.callCount, 1);
assert.deepEqual(
trackTransactionMetricsEventSpy.getCall(0).args[0],
txMeta,
);
assert.equal(
trackTransactionMetricsEventSpy.getCall(0).args[1],
TRANSACTION_EVENTS.SUBMITTED,
);
});
});
describe('#_markNonceDuplicatesDropped', function () {
it('should mark all nonce duplicates as dropped without marking the confirmed transaction as dropped', function () {
txController.txStateManager._addTransactionsToState([
{
id: 1,
status: TRANSACTION_STATUSES.CONFIRMED,
metamaskNetworkId: currentNetworkId,
history: [{}],
txParams: {
to: VALID_ADDRESS_TWO,
from: VALID_ADDRESS,
nonce: '0x01',
},
},
{
id: 2,
status: TRANSACTION_STATUSES.SUBMITTED,
metamaskNetworkId: currentNetworkId,
history: [{}],
txParams: {
to: VALID_ADDRESS_TWO,
from: VALID_ADDRESS,
nonce: '0x01',
},
},
{
id: 3,
status: TRANSACTION_STATUSES.SUBMITTED,
metamaskNetworkId: currentNetworkId,
history: [{}],
txParams: {
to: VALID_ADDRESS_TWO,
from: VALID_ADDRESS,
nonce: '0x01',
},
},
{
id: 4,
status: TRANSACTION_STATUSES.SUBMITTED,
metamaskNetworkId: currentNetworkId,
history: [{}],
txParams: {
to: VALID_ADDRESS_TWO,
from: VALID_ADDRESS,
nonce: '0x01',
},
},
{
id: 5,
status: TRANSACTION_STATUSES.SUBMITTED,
metamaskNetworkId: currentNetworkId,
history: [{}],
txParams: {
to: VALID_ADDRESS_TWO,
from: VALID_ADDRESS,
nonce: '0x01',
},
},
{
id: 6,
status: TRANSACTION_STATUSES.SUBMITTED,
metamaskNetworkId: currentNetworkId,
history: [{}],
txParams: {
to: VALID_ADDRESS_TWO,
from: VALID_ADDRESS,
nonce: '0x01',
},
},
{
id: 7,
status: TRANSACTION_STATUSES.SUBMITTED,
metamaskNetworkId: currentNetworkId,
history: [{}],
txParams: {
to: VALID_ADDRESS_TWO,
from: VALID_ADDRESS,
nonce: '0x01',
},
},
]);
txController._markNonceDuplicatesDropped(1);
const confirmedTx = txController.txStateManager.getTransaction(1);
const droppedTxs = txController.txStateManager.getTransactions({
searchCriteria: {
nonce: '0x01',
status: TRANSACTION_STATUSES.DROPPED,
},
});
assert.equal(
confirmedTx.status,
TRANSACTION_STATUSES.CONFIRMED,
'the confirmedTx should remain confirmed',
);
assert.equal(droppedTxs.length, 6, 'their should be 6 dropped txs');
});
});
describe('#getPendingTransactions', function () {
it('should show only submitted and approved transactions as pending transaction', function () {
txController.txStateManager._addTransactionsToState([
{
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
},
{
id: 2,
status: TRANSACTION_STATUSES.REJECTED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
history: [{}],
},
{
id: 3,
status: TRANSACTION_STATUSES.APPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
history: [{}],
},
{
id: 4,
status: TRANSACTION_STATUSES.SIGNED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
history: [{}],
},
{
id: 5,
status: TRANSACTION_STATUSES.SUBMITTED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
history: [{}],
},
{
id: 6,
status: TRANSACTION_STATUSES.CONFIRMED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
history: [{}],
},
{
id: 7,
status: TRANSACTION_STATUSES.FAILED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
},
history: [{}],
},
]);
assert.equal(
txController.pendingTxTracker.getPendingTransactions().length,
2,
);
const states = txController.pendingTxTracker
.getPendingTransactions()
.map((tx) => tx.status);
assert.ok(
states.includes(TRANSACTION_STATUSES.APPROVED),
'includes approved',
);
assert.ok(
states.includes(TRANSACTION_STATUSES.SUBMITTED),
'includes submitted',
);
});
});
describe('#_trackTransactionMetricsEvent', function () {
let trackMetaMetricsEventSpy;
let createEventFragmentSpy;
let finalizeEventFragmentSpy;
beforeEach(function () {
trackMetaMetricsEventSpy = sinon.spy(
txController,
'_trackMetaMetricsEvent',
);
createEventFragmentSpy = sinon.spy(txController, 'createEventFragment');
finalizeEventFragmentSpy = sinon.spy(
txController,
'finalizeEventFragment',
);
sinon
.stub(txController, '_getEIP1559GasFeeEstimates')
.resolves(mockEstimates['fee-market']);
});
afterEach(function () {
trackMetaMetricsEventSpy.restore();
createEventFragmentSpy.restore();
finalizeEventFragmentSpy.restore();
});
describe('On transaction created by the user', function () {
let txMeta;
before(function () {
txMeta = {
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: {
from: fromAccount.address,
to: '0x1678a085c290ebd122dc42cba69373b5953b831d',
gasPrice: '0x77359400',
gas: '0x7b0d',
nonce: '0x4b',
},
type: TRANSACTION_TYPES.SIMPLE_SEND,
origin: ORIGIN_METAMASK,
chainId: currentChainId,
time: 1624408066355,
metamaskNetworkId: currentNetworkId,
defaultGasEstimates: {
gas: '0x7b0d',
gasPrice: '0x77359400',
},
};
});
it('should create an event fragment when transaction added', async function () {
const expectedPayload = {
initialEvent: 'Transaction Added',
successEvent: 'Transaction Approved',
failureEvent: 'Transaction Rejected',
uniqueIdentifier: 'transaction-added-1',
category: EVENT.CATEGORIES.TRANSACTIONS,
persist: true,
properties: {
chain_id: '0x2a',
eip_1559_version: '0',
gas_edit_attempted: 'none',
gas_edit_type: 'none',
network: '42',
referrer: ORIGIN_METAMASK,
source: 'user',
type: TRANSACTION_TYPES.SIMPLE_SEND,
account_type: 'MetaMask',
asset_type: ASSET_TYPES.NATIVE,
token_standard: TOKEN_STANDARDS.NONE,
device_model: 'N/A',
},
sensitiveProperties: {
default_gas: '0.000031501',
default_gas_price: '2',
gas_price: '2',
gas_limit: '0x7b0d',
first_seen: 1624408066355,
transaction_envelope_type: TRANSACTION_ENVELOPE_TYPE_NAMES.LEGACY,
status: 'unapproved',
},
};
await txController._trackTransactionMetricsEvent(
txMeta,
TRANSACTION_EVENTS.ADDED,
);
assert.equal(createEventFragmentSpy.callCount, 1);
assert.equal(finalizeEventFragmentSpy.callCount, 0);
assert.deepEqual(
createEventFragmentSpy.getCall(0).args[0],
expectedPayload,
);
});
it('Should finalize the transaction added fragment as abandoned if user rejects transaction', async function () {
fragmentExists = true;
await txController._trackTransactionMetricsEvent(
txMeta,
TRANSACTION_EVENTS.REJECTED,
);
assert.equal(createEventFragmentSpy.callCount, 0);
assert.equal(finalizeEventFragmentSpy.callCount, 1);
assert.deepEqual(
finalizeEventFragmentSpy.getCall(0).args[0],
'transaction-added-1',
);
assert.deepEqual(finalizeEventFragmentSpy.getCall(0).args[1], {
abandoned: true,
});
});
it('Should finalize the transaction added fragment if user approves transaction', async function () {
fragmentExists = true;
await txController._trackTransactionMetricsEvent(
txMeta,
TRANSACTION_EVENTS.APPROVED,
);
assert.equal(createEventFragmentSpy.callCount, 0);
assert.equal(finalizeEventFragmentSpy.callCount, 1);
assert.deepEqual(
finalizeEventFragmentSpy.getCall(0).args[0],
'transaction-added-1',
);
assert.deepEqual(
finalizeEventFragmentSpy.getCall(0).args[1],
undefined,
);
});
it('should create an event fragment when transaction is submitted', async function () {
const expectedPayload = {
initialEvent: 'Transaction Submitted',
successEvent: 'Transaction Finalized',
uniqueIdentifier: 'transaction-submitted-1',
category: EVENT.CATEGORIES.TRANSACTIONS,
persist: true,
properties: {
chain_id: '0x2a',
eip_1559_version: '0',
gas_edit_attempted: 'none',
gas_edit_type: 'none',
network: '42',
referrer: ORIGIN_METAMASK,
source: 'user',
type: TRANSACTION_TYPES.SIMPLE_SEND,
account_type: 'MetaMask',
asset_type: ASSET_TYPES.NATIVE,
token_standard: TOKEN_STANDARDS.NONE,
device_model: 'N/A',
},
sensitiveProperties: {
default_gas: '0.000031501',
default_gas_price: '2',
gas_price: '2',
gas_limit: '0x7b0d',
first_seen: 1624408066355,
transaction_envelope_type: TRANSACTION_ENVELOPE_TYPE_NAMES.LEGACY,
status: 'unapproved',
},
};
await txController._trackTransactionMetricsEvent(
txMeta,
TRANSACTION_EVENTS.SUBMITTED,
);
assert.equal(createEventFragmentSpy.callCount, 1);
assert.equal(finalizeEventFragmentSpy.callCount, 0);
assert.deepEqual(
createEventFragmentSpy.getCall(0).args[0],
expectedPayload,
);
});
it('Should finalize the transaction submitted fragment when transaction finalizes', async function () {
fragmentExists = true;
await txController._trackTransactionMetricsEvent(
txMeta,
TRANSACTION_EVENTS.FINALIZED,
);
assert.equal(createEventFragmentSpy.callCount, 0);
assert.equal(finalizeEventFragmentSpy.callCount, 1);
assert.deepEqual(
finalizeEventFragmentSpy.getCall(0).args[0],
'transaction-submitted-1',
);
assert.deepEqual(
finalizeEventFragmentSpy.getCall(0).args[1],
undefined,
);
});
});
describe('On transaction suggested by dapp', function () {
let txMeta;
before(function () {
txMeta = {
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: {
from: fromAccount.address,
to: '0x1678a085c290ebd122dc42cba69373b5953b831d',
gasPrice: '0x77359400',
gas: '0x7b0d',
nonce: '0x4b',
},
type: TRANSACTION_TYPES.SIMPLE_SEND,
origin: 'other',
chainId: currentChainId,
time: 1624408066355,
metamaskNetworkId: currentNetworkId,
defaultGasEstimates: {
gas: '0x7b0d',
gasPrice: '0x77359400',
},
};
});
it('should create an event fragment when transaction added', async function () {
const expectedPayload = {
initialEvent: 'Transaction Added',
successEvent: 'Transaction Approved',
failureEvent: 'Transaction Rejected',
uniqueIdentifier: 'transaction-added-1',
category: EVENT.CATEGORIES.TRANSACTIONS,
persist: true,
properties: {
chain_id: '0x2a',
eip_1559_version: '0',
gas_edit_attempted: 'none',
gas_edit_type: 'none',
network: '42',
referrer: 'other',
source: 'dapp',
type: TRANSACTION_TYPES.SIMPLE_SEND,
account_type: 'MetaMask',
asset_type: ASSET_TYPES.NATIVE,
token_standard: TOKEN_STANDARDS.NONE,
device_model: 'N/A',
},
sensitiveProperties: {
default_gas: '0.000031501',
default_gas_price: '2',
gas_price: '2',
gas_limit: '0x7b0d',
first_seen: 1624408066355,
transaction_envelope_type: TRANSACTION_ENVELOPE_TYPE_NAMES.LEGACY,
status: 'unapproved',
},
};
await txController._trackTransactionMetricsEvent(
txMeta,
TRANSACTION_EVENTS.ADDED,
);
assert.equal(createEventFragmentSpy.callCount, 1);
assert.equal(finalizeEventFragmentSpy.callCount, 0);
assert.deepEqual(
createEventFragmentSpy.getCall(0).args[0],
expectedPayload,
);
});
it('Should finalize the transaction added fragment as abandoned if user rejects transaction', async function () {
fragmentExists = true;
await txController._trackTransactionMetricsEvent(
txMeta,
TRANSACTION_EVENTS.REJECTED,
);
assert.equal(createEventFragmentSpy.callCount, 0);
assert.equal(finalizeEventFragmentSpy.callCount, 1);
assert.deepEqual(
finalizeEventFragmentSpy.getCall(0).args[0],
'transaction-added-1',
);
assert.deepEqual(finalizeEventFragmentSpy.getCall(0).args[1], {
abandoned: true,
});
});
it('Should finalize the transaction added fragment if user approves transaction', async function () {
fragmentExists = true;
await txController._trackTransactionMetricsEvent(
txMeta,
TRANSACTION_EVENTS.APPROVED,
);
assert.equal(createEventFragmentSpy.callCount, 0);
assert.equal(finalizeEventFragmentSpy.callCount, 1);
assert.deepEqual(
finalizeEventFragmentSpy.getCall(0).args[0],
'transaction-added-1',
);
assert.deepEqual(
finalizeEventFragmentSpy.getCall(0).args[1],
undefined,
);
});
it('should create an event fragment when transaction is submitted', async function () {
const expectedPayload = {
initialEvent: 'Transaction Submitted',
successEvent: 'Transaction Finalized',
uniqueIdentifier: 'transaction-submitted-1',
category: EVENT.CATEGORIES.TRANSACTIONS,
persist: true,
properties: {
chain_id: '0x2a',
eip_1559_version: '0',
gas_edit_attempted: 'none',
gas_edit_type: 'none',
network: '42',
referrer: 'other',
source: 'dapp',
type: TRANSACTION_TYPES.SIMPLE_SEND,
account_type: 'MetaMask',
asset_type: ASSET_TYPES.NATIVE,
token_standard: TOKEN_STANDARDS.NONE,
device_model: 'N/A',
},
sensitiveProperties: {
default_gas: '0.000031501',
default_gas_price: '2',
gas_price: '2',
gas_limit: '0x7b0d',
first_seen: 1624408066355,
transaction_envelope_type: TRANSACTION_ENVELOPE_TYPE_NAMES.LEGACY,
status: 'unapproved',
},
};
await txController._trackTransactionMetricsEvent(
txMeta,
TRANSACTION_EVENTS.SUBMITTED,
);
assert.equal(createEventFragmentSpy.callCount, 1);
assert.equal(finalizeEventFragmentSpy.callCount, 0);
assert.deepEqual(
createEventFragmentSpy.getCall(0).args[0],
expectedPayload,
);
});
it('Should finalize the transaction submitted fragment when transaction finalizes', async function () {
fragmentExists = true;
await txController._trackTransactionMetricsEvent(
txMeta,
TRANSACTION_EVENTS.FINALIZED,
);
assert.equal(createEventFragmentSpy.callCount, 0);
assert.equal(finalizeEventFragmentSpy.callCount, 1);
assert.deepEqual(
finalizeEventFragmentSpy.getCall(0).args[0],
'transaction-submitted-1',
);
assert.deepEqual(
finalizeEventFragmentSpy.getCall(0).args[1],
undefined,
);
});
});
it('should create missing fragments when events happen out of order or are missing', async function () {
const txMeta = {
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: {
from: fromAccount.address,
to: '0x1678a085c290ebd122dc42cba69373b5953b831d',
gasPrice: '0x77359400',
gas: '0x7b0d',
nonce: '0x4b',
},
type: TRANSACTION_TYPES.SIMPLE_SEND,
origin: 'other',
chainId: currentChainId,
time: 1624408066355,
metamaskNetworkId: currentNetworkId,
};
const expectedPayload = {
successEvent: 'Transaction Approved',
failureEvent: 'Transaction Rejected',
uniqueIdentifier: 'transaction-added-1',
category: EVENT.CATEGORIES.TRANSACTIONS,
persist: true,
properties: {
chain_id: '0x2a',
eip_1559_version: '0',
gas_edit_attempted: 'none',
gas_edit_type: 'none',
network: '42',
referrer: 'other',
source: 'dapp',
type: TRANSACTION_TYPES.SIMPLE_SEND,
account_type: 'MetaMask',
asset_type: ASSET_TYPES.NATIVE,
token_standard: TOKEN_STANDARDS.NONE,
device_model: 'N/A',
},
sensitiveProperties: {
gas_price: '2',
gas_limit: '0x7b0d',
first_seen: 1624408066355,
transaction_envelope_type: TRANSACTION_ENVELOPE_TYPE_NAMES.LEGACY,
status: 'unapproved',
},
};
await txController._trackTransactionMetricsEvent(
txMeta,
TRANSACTION_EVENTS.APPROVED,
);
assert.equal(createEventFragmentSpy.callCount, 1);
assert.deepEqual(
createEventFragmentSpy.getCall(0).args[0],
expectedPayload,
);
assert.equal(finalizeEventFragmentSpy.callCount, 1);
assert.deepEqual(
finalizeEventFragmentSpy.getCall(0).args[0],
'transaction-added-1',
);
assert.deepEqual(finalizeEventFragmentSpy.getCall(0).args[1], undefined);
});
it('should call _trackMetaMetricsEvent with the correct payload (extra params)', async function () {
const txMeta = {
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: {
from: fromAccount.address,
to: '0x1678a085c290ebd122dc42cba69373b5953b831d',
gasPrice: '0x77359400',
gas: '0x7b0d',
nonce: '0x4b',
},
type: TRANSACTION_TYPES.SIMPLE_SEND,
origin: 'other',
chainId: currentChainId,
time: 1624408066355,
metamaskNetworkId: currentNetworkId,
};
const expectedPayload = {
initialEvent: 'Transaction Added',
successEvent: 'Transaction Approved',
failureEvent: 'Transaction Rejected',
uniqueIdentifier: 'transaction-added-1',
persist: true,
category: EVENT.CATEGORIES.TRANSACTIONS,
properties: {
network: '42',
referrer: 'other',
source: 'dapp',
type: TRANSACTION_TYPES.SIMPLE_SEND,
chain_id: '0x2a',
eip_1559_version: '0',
gas_edit_attempted: 'none',
gas_edit_type: 'none',
account_type: 'MetaMask',
asset_type: ASSET_TYPES.NATIVE,
token_standard: TOKEN_STANDARDS.NONE,
device_model: 'N/A',
},
sensitiveProperties: {
baz: 3.0,
foo: 'bar',
gas_price: '2',
gas_limit: '0x7b0d',
first_seen: 1624408066355,
transaction_envelope_type: TRANSACTION_ENVELOPE_TYPE_NAMES.LEGACY,
status: 'unapproved',
},
};
await txController._trackTransactionMetricsEvent(
txMeta,
TRANSACTION_EVENTS.ADDED,
{
baz: 3.0,
foo: 'bar',
},
);
assert.equal(createEventFragmentSpy.callCount, 1);
assert.equal(finalizeEventFragmentSpy.callCount, 0);
assert.deepEqual(
createEventFragmentSpy.getCall(0).args[0],
expectedPayload,
);
});
it('should call _trackMetaMetricsEvent with the correct payload (EIP-1559)', async function () {
const txMeta = {
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: {
from: fromAccount.address,
to: '0x1678a085c290ebd122dc42cba69373b5953b831d',
maxFeePerGas: '0x77359400',
maxPriorityFeePerGas: '0x77359400',
gas: '0x7b0d',
nonce: '0x4b',
estimateSuggested: GAS_RECOMMENDATIONS.MEDIUM,
estimateUsed: GAS_RECOMMENDATIONS.HIGH,
},
type: TRANSACTION_TYPES.SIMPLE_SEND,
origin: 'other',
chainId: currentChainId,
time: 1624408066355,
metamaskNetworkId: currentNetworkId,
defaultGasEstimates: {
estimateType: 'medium',
maxFeePerGas: '0x77359400',
maxPriorityFeePerGas: '0x77359400',
},
};
const expectedPayload = {
initialEvent: 'Transaction Added',
successEvent: 'Transaction Approved',
failureEvent: 'Transaction Rejected',
uniqueIdentifier: 'transaction-added-1',
persist: true,
category: EVENT.CATEGORIES.TRANSACTIONS,
properties: {
chain_id: '0x2a',
eip_1559_version: '1',
gas_edit_attempted: 'none',
gas_edit_type: 'none',
network: '42',
referrer: 'other',
source: 'dapp',
type: TRANSACTION_TYPES.SIMPLE_SEND,
account_type: 'MetaMask',
asset_type: ASSET_TYPES.NATIVE,
token_standard: TOKEN_STANDARDS.NONE,
device_model: 'N/A',
},
sensitiveProperties: {
baz: 3.0,
foo: 'bar',
max_fee_per_gas: '2',
max_priority_fee_per_gas: '2',
gas_limit: '0x7b0d',
first_seen: 1624408066355,
transaction_envelope_type: TRANSACTION_ENVELOPE_TYPE_NAMES.FEE_MARKET,
status: 'unapproved',
estimate_suggested: GAS_RECOMMENDATIONS.MEDIUM,
estimate_used: GAS_RECOMMENDATIONS.HIGH,
default_estimate: 'medium',
default_max_fee_per_gas: '70',
default_max_priority_fee_per_gas: '7',
},
};
await txController._trackTransactionMetricsEvent(
txMeta,
TRANSACTION_EVENTS.ADDED,
{
baz: 3.0,
foo: 'bar',
},
);
assert.equal(createEventFragmentSpy.callCount, 1);
assert.equal(finalizeEventFragmentSpy.callCount, 0);
assert.deepEqual(
createEventFragmentSpy.getCall(0).args[0],
expectedPayload,
);
});
});
describe('#_getTransactionCompletionTime', function () {
let nowStub;
beforeEach(function () {
nowStub = sinon.stub(Date, 'now').returns(1625782016341);
});
afterEach(function () {
nowStub.restore();
});
it('calculates completion time (one)', function () {
const submittedTime = 1625781997397;
const result = txController._getTransactionCompletionTime(submittedTime);
assert.equal(result, '19');
});
it('calculates completion time (two)', function () {
const submittedTime = 1625781995397;
const result = txController._getTransactionCompletionTime(submittedTime);
assert.equal(result, '21');
});
});
describe('#_getGasValuesInGWEI', function () {
it('converts gas values in hex GWEi to dec GWEI (EIP-1559)', function () {
const params = {
max_fee_per_gas: '0x77359400',
max_priority_fee_per_gas: '0x77359400',
};
const expectedParams = {
max_fee_per_gas: '2',
max_priority_fee_per_gas: '2',
};
const result = txController._getGasValuesInGWEI(params);
assert.deepEqual(result, expectedParams);
});
it('converts gas values in hex GWEi to dec GWEI (non EIP-1559)', function () {
const params = {
gas_price: '0x37e11d600',
};
const expectedParams = {
gas_price: '15',
};
const result = txController._getGasValuesInGWEI(params);
assert.deepEqual(result, expectedParams);
});
it('converts gas values in hex GWEi to dec GWEI, retains estimate fields', function () {
const params = {
max_fee_per_gas: '0x77359400',
max_priority_fee_per_gas: '0x77359400',
estimate_suggested: GAS_RECOMMENDATIONS.MEDIUM,
estimate_used: GAS_RECOMMENDATIONS.HIGH,
};
const expectedParams = {
max_fee_per_gas: '2',
max_priority_fee_per_gas: '2',
estimate_suggested: GAS_RECOMMENDATIONS.MEDIUM,
estimate_used: GAS_RECOMMENDATIONS.HIGH,
};
const result = txController._getGasValuesInGWEI(params);
assert.deepEqual(result, expectedParams);
});
});
describe('update transaction methods', function () {
let txStateManager;
beforeEach(function () {
txStateManager = txController.txStateManager;
txStateManager.addTransaction({
id: '1',
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
gasLimit: '0x001',
gasPrice: '0x002',
// max fees can not be mixed with gasPrice
// maxPriorityFeePerGas: '0x003',
// maxFeePerGas: '0x004',
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
estimateUsed: '0x005',
estimatedBaseFee: '0x006',
decEstimatedBaseFee: '6',
type: 'swap',
sourceTokenSymbol: 'ETH',
destinationTokenSymbol: 'UNI',
destinationTokenDecimals: 16,
destinationTokenAddress: VALID_ADDRESS,
swapMetaData: {},
swapTokenValue: '0x007',
userEditedGasLimit: '0x008',
userFeeLevel: 'medium',
});
});
it('updates transaction gas fees', function () {
// test update gasFees
txController.updateTransactionGasFees('1', {
gasPrice: '0x0022',
gasLimit: '0x0011',
});
let result = txStateManager.getTransaction('1');
assert.equal(result.txParams.gasPrice, '0x0022');
// TODO: weird behavior here...only gasPrice gets returned.
// assert.equal(result.txParams.gasLimit, '0x0011');
// test update maxPriorityFeePerGas
txStateManager.addTransaction({
id: '2',
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
maxPriorityFeePerGas: '0x003',
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
estimateUsed: '0x005',
});
txController.updateTransactionGasFees('2', {
maxPriorityFeePerGas: '0x0033',
});
result = txStateManager.getTransaction('2');
assert.equal(result.txParams.maxPriorityFeePerGas, '0x0033');
// test update maxFeePerGas
txStateManager.addTransaction({
id: '3',
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
maxPriorityFeePerGas: '0x003',
maxFeePerGas: '0x004',
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
estimateUsed: '0x005',
});
txController.updateTransactionGasFees('3', { maxFeePerGas: '0x0044' });
result = txStateManager.getTransaction('3');
assert.equal(result.txParams.maxFeePerGas, '0x0044');
// test update estimate used
txController.updateTransactionGasFees('3', { estimateUsed: '0x0055' });
result = txStateManager.getTransaction('3');
assert.equal(result.estimateUsed, '0x0055');
});
it('updates estimated base fee', function () {
txController.updateTransactionEstimatedBaseFee('1', {
estimatedBaseFee: '0x0066',
decEstimatedBaseFee: '66',
});
const result = txStateManager.getTransaction('1');
assert.equal(result.estimatedBaseFee, '0x0066');
assert.equal(result.decEstimatedBaseFee, '66');
});
it('updates swap approval transaction', function () {
txController.updateSwapApprovalTransaction('1', {
type: 'swapApproval',
sourceTokenSymbol: 'XBN',
});
const result = txStateManager.getTransaction('1');
assert.equal(result.type, 'swapApproval');
assert.equal(result.sourceTokenSymbol, 'XBN');
});
it('updates swap transaction', function () {
txController.updateSwapTransaction('1', {
sourceTokenSymbol: 'BTCX',
destinationTokenSymbol: 'ETH',
});
const result = txStateManager.getTransaction('1');
assert.equal(result.sourceTokenSymbol, 'BTCX');
assert.equal(result.destinationTokenSymbol, 'ETH');
assert.equal(result.destinationTokenDecimals, 16);
assert.equal(result.destinationTokenAddress, VALID_ADDRESS);
assert.equal(result.swapTokenValue, '0x007');
txController.updateSwapTransaction('1', {
type: 'swapped',
destinationTokenDecimals: 8,
destinationTokenAddress: VALID_ADDRESS_TWO,
swapTokenValue: '0x0077',
});
assert.equal(result.sourceTokenSymbol, 'BTCX');
assert.equal(result.destinationTokenSymbol, 'ETH');
assert.equal(result.type, 'swapped');
assert.equal(result.destinationTokenDecimals, 8);
assert.equal(result.destinationTokenAddress, VALID_ADDRESS_TWO);
assert.equal(result.swapTokenValue, '0x0077');
});
it('updates transaction user settings', function () {
txController.updateTransactionUserSettings('1', {
userEditedGasLimit: '0x0088',
userFeeLevel: 'high',
});
const result = txStateManager.getTransaction('1');
assert.equal(result.userEditedGasLimit, '0x0088');
assert.equal(result.userFeeLevel, 'high');
});
it('should not update and should throw error if status is not type "unapproved"', function () {
txStateManager.addTransaction({
id: '4',
status: TRANSACTION_STATUSES.DROPPED,
metamaskNetworkId: currentNetworkId,
txParams: {
maxPriorityFeePerGas: '0x007',
maxFeePerGas: '0x008',
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
estimateUsed: '0x009',
});
assert.throws(
() =>
txController.updateTransactionGasFees('4', {
maxFeePerGas: '0x0088',
}),
Error,
`TransactionsController: Can only call updateTransactionGasFees on an unapproved transaction.
Current tx status: ${TRANSACTION_STATUSES.DROPPED}`,
);
const transaction = txStateManager.getTransaction('4');
assert.equal(transaction.txParams.maxFeePerGas, '0x008');
});
it('does not update unknown parameters in update method', function () {
txController.updateSwapTransaction('1', {
type: 'swapped',
destinationTokenDecimals: 8,
destinationTokenAddress: VALID_ADDRESS_TWO,
swapTokenValue: '0x011',
gasPrice: '0x12',
});
let result = txStateManager.getTransaction('1');
assert.equal(result.type, 'swapped');
assert.equal(result.destinationTokenDecimals, 8);
assert.equal(result.destinationTokenAddress, VALID_ADDRESS_TWO);
assert.equal(result.swapTokenValue, '0x011');
assert.equal(result.txParams.gasPrice, '0x002'); // not updated even though it's passed in to update
txController.updateTransactionGasFees('1', {
estimateUsed: '0x13',
gasPrice: '0x14',
destinationTokenAddress: VALID_ADDRESS,
});
result = txStateManager.getTransaction('1');
assert.equal(result.estimateUsed, '0x13');
assert.equal(result.txParams.gasPrice, '0x14');
assert.equal(result.destinationTokenAddress, VALID_ADDRESS_TWO); // not updated even though it's passed in to update
});
});
});