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mirror of https://github.com/kremalicious/metamask-extension.git synced 2024-11-30 08:09:15 +01:00
metamask-extension/app/scripts/controllers/transactions/tx-state-manager.test.js
Alex Donesky 2a9fbffb6c
Replace hardcoded sent ether label on confirm screen (#11802)
* Replace hardcoded sent ether label on confirm screen

* replace transaction type SENT_ETHER with network agnostic SENDING_NATIVE_ASSET

* remove sentEther translation base

* make backwards compatible with lingering transaction of legacy sentEther type

* update localalization files

* fixup legacy sentEther transaction type

* changing new transaction type away from localization string

* revert migration tests

* update fixtures and test data

* update name of new transaction type

* add migration

* remove legacy SENT_ETHER from transaction types enum object
2021-09-15 16:54:51 -05:00

1249 lines
39 KiB
JavaScript

import { strict as assert } from 'assert';
import sinon from 'sinon';
import {
TRANSACTION_STATUSES,
TRANSACTION_TYPES,
} from '../../../../shared/constants/transaction';
import {
KOVAN_CHAIN_ID,
MAINNET_CHAIN_ID,
RINKEBY_CHAIN_ID,
KOVAN_NETWORK_ID,
} from '../../../../shared/constants/network';
import { GAS_LIMITS } from '../../../../shared/constants/gas';
import TxStateManager from './tx-state-manager';
import { snapshotFromTxMeta } from './lib/tx-state-history-helpers';
const VALID_ADDRESS = '0x0000000000000000000000000000000000000000';
const VALID_ADDRESS_TWO = '0x0000000000000000000000000000000000000001';
function generateTransactions(
numToGen,
{
chainId,
to,
from,
status,
type = TRANSACTION_TYPES.SIMPLE_SEND,
nonce = (i) => `${i}`,
},
) {
const txs = [];
for (let i = 0; i < numToGen; i++) {
const tx = {
id: i,
time: new Date() * i,
status: typeof status === 'function' ? status(i) : status,
chainId: typeof chainId === 'function' ? chainId(i) : chainId,
txParams: {
nonce: nonce(i),
to,
from,
},
type: typeof type === 'function' ? type(i) : type,
};
txs.push(tx);
}
return txs;
}
describe('TransactionStateManager', function () {
let txStateManager;
const currentNetworkId = KOVAN_NETWORK_ID;
const currentChainId = KOVAN_CHAIN_ID;
const otherNetworkId = '2';
beforeEach(function () {
txStateManager = new TxStateManager({
initState: {
transactions: {},
},
txHistoryLimit: 10,
getNetwork: () => currentNetworkId,
getCurrentChainId: () => currentChainId,
});
});
describe('#setTxStatusSigned', function () {
it('sets the tx status to signed', function () {
const tx = {
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
};
txStateManager.addTransaction(tx);
txStateManager.setTxStatusSigned(1);
const result = txStateManager.getTransactions();
assert.ok(Array.isArray(result));
assert.equal(result.length, 1);
assert.equal(result[0].status, TRANSACTION_STATUSES.SIGNED);
});
it('should emit a signed event to signal the execution of callback', function () {
const tx = {
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
};
const clock = sinon.useFakeTimers();
const onSigned = sinon.spy();
txStateManager.addTransaction(tx);
txStateManager.on('1:signed', onSigned);
txStateManager.setTxStatusSigned(1);
clock.runAll();
clock.restore();
assert.ok(onSigned.calledOnce);
});
});
describe('#setTxStatusRejected', function () {
it('sets the tx status to rejected and removes it from history', function () {
const tx = {
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
};
txStateManager.addTransaction(tx);
txStateManager.setTxStatusRejected(1);
const result = txStateManager.getTransactions();
assert.ok(Array.isArray(result));
assert.equal(result.length, 0);
});
it('should emit a rejected event to signal the execution of callback', function () {
const tx = {
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
};
const clock = sinon.useFakeTimers();
const onSigned = sinon.spy();
txStateManager.addTransaction(tx);
txStateManager.on('1:rejected', onSigned);
txStateManager.setTxStatusRejected(1);
clock.runAll();
clock.restore();
assert.ok(onSigned.calledOnce);
});
});
describe('#getTransactions', function () {
it('when new should return empty array', function () {
const result = txStateManager.getTransactions();
assert.ok(Array.isArray(result));
assert.equal(result.length, 0);
});
it('should return a full list of transactions', function () {
const submittedTx = {
id: 0,
metamaskNetworkId: currentNetworkId,
time: 0,
txParams: {
from: '0xAddress',
to: '0xRecipient',
nonce: '0x0',
},
status: TRANSACTION_STATUSES.SUBMITTED,
};
const confirmedTx = {
id: 3,
metamaskNetworkId: currentNetworkId,
time: 3,
txParams: {
from: '0xAddress',
to: '0xRecipient',
nonce: '0x3',
},
status: TRANSACTION_STATUSES.CONFIRMED,
};
const txm = new TxStateManager({
initState: {
transactions: {
[submittedTx.id]: submittedTx,
[confirmedTx.id]: confirmedTx,
},
},
getNetwork: () => currentNetworkId,
getCurrentChainId: () => currentChainId,
});
assert.deepEqual(txm.getTransactions(), [submittedTx, confirmedTx]);
});
it('should return a list of transactions, limited by N unique nonces when there are NO duplicates', function () {
const submittedTx0 = {
id: 0,
metamaskNetworkId: currentNetworkId,
time: 0,
txParams: {
from: '0xAddress',
to: '0xRecipient',
nonce: '0x0',
},
status: TRANSACTION_STATUSES.SUBMITTED,
};
const unapprovedTx1 = {
id: 1,
metamaskNetworkId: currentNetworkId,
time: 1,
txParams: {
from: '0xAddress',
to: '0xRecipient',
nonce: '0x1',
},
status: TRANSACTION_STATUSES.UNAPPROVED,
};
const approvedTx2 = {
id: 2,
metamaskNetworkId: currentNetworkId,
time: 2,
txParams: {
from: '0xAddress',
to: '0xRecipient',
nonce: '0x2',
},
status: TRANSACTION_STATUSES.APPROVED,
};
const confirmedTx3 = {
id: 3,
metamaskNetworkId: currentNetworkId,
time: 3,
txParams: {
from: '0xAddress',
to: '0xRecipient',
nonce: '0x3',
},
status: TRANSACTION_STATUSES.CONFIRMED,
};
const txm = new TxStateManager({
initState: {
transactions: {
[submittedTx0.id]: submittedTx0,
[unapprovedTx1.id]: unapprovedTx1,
[approvedTx2.id]: approvedTx2,
[confirmedTx3.id]: confirmedTx3,
},
},
getNetwork: () => currentNetworkId,
getCurrentChainId: () => currentChainId,
});
assert.deepEqual(txm.getTransactions({ limit: 2 }), [
approvedTx2,
confirmedTx3,
]);
});
it('should return a list of transactions, limited by N unique nonces when there ARE duplicates', function () {
const submittedTx0 = {
id: 0,
metamaskNetworkId: currentNetworkId,
time: 0,
txParams: {
from: '0xAddress',
to: '0xRecipient',
nonce: '0x0',
},
status: TRANSACTION_STATUSES.SUBMITTED,
};
const submittedTx0Dupe = {
id: 1,
metamaskNetworkId: currentNetworkId,
time: 0,
txParams: {
from: '0xAddress',
to: '0xRecipient',
nonce: '0x0',
},
status: TRANSACTION_STATUSES.SUBMITTED,
};
const unapprovedTx1 = {
id: 2,
metamaskNetworkId: currentNetworkId,
chainId: currentChainId,
time: 1,
txParams: {
from: '0xAddress',
to: '0xRecipient',
nonce: '0x1',
},
status: TRANSACTION_STATUSES.UNAPPROVED,
};
const approvedTx2 = {
id: 3,
metamaskNetworkId: currentNetworkId,
time: 2,
txParams: {
from: '0xAddress',
to: '0xRecipient',
nonce: '0x2',
},
status: TRANSACTION_STATUSES.APPROVED,
};
const approvedTx2Dupe = {
id: 4,
metamaskNetworkId: currentNetworkId,
chainId: currentChainId,
time: 2,
txParams: {
from: '0xAddress',
to: '0xRecipient',
nonce: '0x2',
},
status: TRANSACTION_STATUSES.APPROVED,
};
const failedTx3 = {
id: 5,
metamaskNetworkId: currentNetworkId,
time: 3,
txParams: {
from: '0xAddress',
to: '0xRecipient',
nonce: '0x3',
},
status: TRANSACTION_STATUSES.FAILED,
};
const failedTx3Dupe = {
id: 6,
metamaskNetworkId: currentNetworkId,
chainId: currentChainId,
time: 3,
txParams: {
from: '0xAddress',
to: '0xRecipient',
nonce: '0x3',
},
status: TRANSACTION_STATUSES.FAILED,
};
const txm = new TxStateManager({
initState: {
transactions: {
[submittedTx0.id]: submittedTx0,
[submittedTx0Dupe.id]: submittedTx0Dupe,
[unapprovedTx1.id]: unapprovedTx1,
[approvedTx2.id]: approvedTx2,
[approvedTx2Dupe.id]: approvedTx2Dupe,
[failedTx3.id]: failedTx3,
[failedTx3Dupe.id]: failedTx3Dupe,
},
},
getNetwork: () => currentNetworkId,
getCurrentChainId: () => currentChainId,
});
assert.deepEqual(txm.getTransactions({ limit: 2 }), [
approvedTx2,
approvedTx2Dupe,
failedTx3,
failedTx3Dupe,
]);
});
it('returns a tx with the requested data', function () {
const txMetas = [
{
id: 0,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: { from: VALID_ADDRESS, to: VALID_ADDRESS_TWO },
metamaskNetworkId: currentNetworkId,
},
{
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: { from: VALID_ADDRESS, to: VALID_ADDRESS_TWO },
metamaskNetworkId: currentNetworkId,
},
{
id: 2,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: { from: VALID_ADDRESS, to: VALID_ADDRESS_TWO },
metamaskNetworkId: currentNetworkId,
},
{
id: 3,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: { from: VALID_ADDRESS_TWO, to: VALID_ADDRESS },
metamaskNetworkId: currentNetworkId,
},
{
id: 4,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: { from: VALID_ADDRESS_TWO, to: VALID_ADDRESS },
metamaskNetworkId: currentNetworkId,
},
{
id: 5,
status: TRANSACTION_STATUSES.CONFIRMED,
txParams: { from: VALID_ADDRESS, to: VALID_ADDRESS_TWO },
metamaskNetworkId: currentNetworkId,
},
{
id: 6,
status: TRANSACTION_STATUSES.CONFIRMED,
txParams: { from: VALID_ADDRESS, to: VALID_ADDRESS_TWO },
metamaskNetworkId: currentNetworkId,
},
{
id: 7,
status: TRANSACTION_STATUSES.CONFIRMED,
txParams: { from: VALID_ADDRESS_TWO, to: VALID_ADDRESS },
metamaskNetworkId: currentNetworkId,
},
{
id: 8,
status: TRANSACTION_STATUSES.CONFIRMED,
txParams: { from: VALID_ADDRESS_TWO, to: VALID_ADDRESS },
metamaskNetworkId: currentNetworkId,
},
{
id: 9,
status: TRANSACTION_STATUSES.CONFIRMED,
txParams: { from: VALID_ADDRESS_TWO, to: VALID_ADDRESS },
metamaskNetworkId: currentNetworkId,
},
];
txMetas.forEach((txMeta) => txStateManager.addTransaction(txMeta));
let searchCriteria;
searchCriteria = {
status: TRANSACTION_STATUSES.UNAPPROVED,
from: VALID_ADDRESS,
};
assert.equal(
txStateManager.getTransactions({ searchCriteria }).length,
3,
`getTransactions - ${JSON.stringify(searchCriteria)}`,
);
searchCriteria = {
status: TRANSACTION_STATUSES.UNAPPROVED,
to: VALID_ADDRESS,
};
assert.equal(
txStateManager.getTransactions({ searchCriteria }).length,
2,
`getTransactions - ${JSON.stringify(searchCriteria)}`,
);
searchCriteria = {
status: TRANSACTION_STATUSES.CONFIRMED,
from: VALID_ADDRESS_TWO,
};
assert.equal(
txStateManager.getTransactions({ searchCriteria }).length,
3,
`getTransactions - ${JSON.stringify(searchCriteria)}`,
);
searchCriteria = { status: TRANSACTION_STATUSES.CONFIRMED };
assert.equal(
txStateManager.getTransactions({ searchCriteria }).length,
5,
`getTransactions - ${JSON.stringify(searchCriteria)}`,
);
searchCriteria = { from: VALID_ADDRESS };
assert.equal(
txStateManager.getTransactions({ searchCriteria }).length,
5,
`getTransactions - ${JSON.stringify(searchCriteria)}`,
);
searchCriteria = { to: VALID_ADDRESS };
assert.equal(
txStateManager.getTransactions({ searchCriteria }).length,
5,
`getTransactions - ${JSON.stringify(searchCriteria)}`,
);
searchCriteria = {
status: (status) => status !== TRANSACTION_STATUSES.CONFIRMED,
};
assert.equal(
txStateManager.getTransactions({ searchCriteria }).length,
5,
`getTransactions - ${JSON.stringify(searchCriteria)}`,
);
});
});
describe('#addTransaction', function () {
it('adds a tx returned in getTransactions', function () {
const tx = {
id: 1,
status: TRANSACTION_STATUSES.CONFIRMED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
};
txStateManager.addTransaction(tx);
const result = txStateManager.getTransactions();
assert.ok(Array.isArray(result));
assert.equal(result.length, 1);
assert.equal(result[0].id, 1);
});
it('throws error and does not add tx if txParams are invalid', function () {
const validTxParams = {
from: '0x0dcd5d886577d5081b0c52e242ef29e70be3e7bc',
to: '0x0039f22efb07a647557c7c5d17854cfd6d489ef3',
nonce: '0x3',
gas: '0x77359400',
gasPrice: '0x77359400',
value: '0x0',
data: '0x0',
};
const invalidValues = [1, true, {}, Symbol('1')];
Object.keys(validTxParams).forEach((key) => {
for (const value of invalidValues) {
const tx = {
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
...validTxParams,
[key]: value,
},
};
assert.throws(
txStateManager.addTransaction.bind(txStateManager, tx),
'addTransaction should throw error',
);
const result = txStateManager.getTransactions();
assert.ok(Array.isArray(result), 'txList should be an array');
assert.equal(result.length, 0, 'txList should be empty');
}
});
});
it('does not override txs from other networks', function () {
const tx = {
id: 1,
status: TRANSACTION_STATUSES.CONFIRMED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
};
const tx2 = {
id: 2,
status: TRANSACTION_STATUSES.CONFIRMED,
metamaskNetworkId: otherNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
};
txStateManager.addTransaction(tx);
txStateManager.addTransaction(tx2);
const result = txStateManager.getTransactions({
filterToCurrentNetwork: false,
});
const result2 = txStateManager.getTransactions();
assert.equal(result.length, 2, 'txs were deleted');
assert.equal(result2.length, 1, 'incorrect number of txs on network.');
});
it('cuts off early txs beyond a limit', function () {
const limit = txStateManager.txHistoryLimit;
const txs = generateTransactions(limit + 1, {
chainId: currentChainId,
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
status: TRANSACTION_STATUSES.CONFIRMED,
});
txs.forEach((tx) => txStateManager.addTransaction(tx));
const result = txStateManager.getTransactions();
assert.equal(result.length, limit, `limit of ${limit} txs enforced`);
assert.equal(result[0].id, 1, 'early txs truncated');
});
it('cuts off early txs beyond a limit whether or not it is confirmed or rejected', function () {
const limit = txStateManager.txHistoryLimit;
const txs = generateTransactions(limit + 1, {
chainId: currentChainId,
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
status: TRANSACTION_STATUSES.REJECTED,
});
txs.forEach((tx) => txStateManager.addTransaction(tx));
const result = txStateManager.getTransactions();
assert.equal(result.length, limit, `limit of ${limit} txs enforced`);
assert.equal(result[0].id, 1, 'early txs truncated');
});
it('cuts off early txs beyond a limit but does not cut unapproved txs', function () {
const limit = txStateManager.txHistoryLimit;
const txs = generateTransactions(
// we add two transactions over limit here to first insert the must be always present
// unapproved tx, then another to force the original logic of adding
// one more beyond the first additional.
limit + 2,
{
chainId: currentChainId,
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
status: (i) =>
i === 0
? TRANSACTION_STATUSES.UNAPPROVED
: TRANSACTION_STATUSES.CONFIRMED,
},
);
txs.forEach((tx) => txStateManager.addTransaction(tx));
const result = txStateManager.getTransactions();
assert.equal(
result.length,
limit + 1,
`limit of ${limit} + 1 for the unapproved tx is enforced`,
);
assert.equal(result[0].id, 0, 'first tx should still be there');
assert.equal(
result[0].status,
TRANSACTION_STATUSES.UNAPPROVED,
'first tx should be unapproved',
);
assert.equal(result[1].id, 2, 'early txs truncated');
});
it('cuts off entire groups of transactions by nonce when adding new transaction', function () {
const limit = txStateManager.txHistoryLimit;
// In this test case the earliest two transactions are a dropped attempted ether send and a
// following cancel transaction with the same nonce. these two transactions should be dropped
// together as soon as the 11th unique nonce is attempted to be added. We use limit + 2 to
// first get into the state where we are over the "limit" of transactions because of a set
// of transactions with a unique nonce/network combo, then add an additional new transaction
// to trigger the removal of one group of nonces.
const txs = generateTransactions(limit + 2, {
chainId: currentChainId,
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
nonce: (i) => (i === 1 ? `0` : `${i}`),
status: (i) =>
i === 0
? TRANSACTION_STATUSES.DROPPED
: TRANSACTION_STATUSES.CONFIRMED,
type: (i) =>
i === 1 ? TRANSACTION_TYPES.CANCEL : TRANSACTION_TYPES.SIMPLE_SEND,
});
txs.forEach((tx) => txStateManager.addTransaction(tx));
const result = txStateManager.getTransactions();
assert.equal(result.length, limit, `limit of ${limit} is enforced`);
assert.notEqual(result[0].id, 0, 'first tx should be removed');
assert.equal(
result.some(
(tx) =>
tx.status === TRANSACTION_STATUSES.DROPPED ||
tx.status === TRANSACTION_TYPES.CANCEL,
),
false,
'the cancel and dropped transactions should not be present in the result',
);
});
it('cuts off entire groups of transactions by nonce + network when adding new transaction', function () {
const limit = txStateManager.txHistoryLimit;
// In this test case the earliest two transactions are a dropped attempted ether send and a
// following cancel transaction with the same nonce. Then, a bit later the same scenario on a
// different network. The first two transactions should be dropped after adding even another
// single transaction but the other shouldn't be dropped until adding the fifth additional
// transaction
const txs = generateTransactions(limit + 5, {
chainId: (i) => {
if (i === 0 || i === 1) return MAINNET_CHAIN_ID;
else if (i === 4 || i === 5) return RINKEBY_CHAIN_ID;
return currentChainId;
},
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
nonce: (i) => ([0, 1, 4, 5].includes(i) ? '0' : `${i}`),
status: (i) =>
i === 0 || i === 4
? TRANSACTION_STATUSES.DROPPED
: TRANSACTION_STATUSES.CONFIRMED,
type: (i) =>
i === 1 || i === 5
? TRANSACTION_TYPES.CANCEL
: TRANSACTION_TYPES.SIMPLE_SEND,
});
txs.forEach((tx) => txStateManager.addTransaction(tx));
const result = txStateManager.getTransactions({
filterToCurrentNetwork: false,
});
assert.equal(
result.length,
limit + 1,
`limit of ${limit} + 1 for the grouped transactions is enforced`,
);
// The first group of transactions on mainnet should be removed
assert.equal(
result.some(
(tx) =>
tx.chainId === MAINNET_CHAIN_ID && tx.txParams.nonce === '0x0',
),
false,
'the mainnet transactions with nonce 0x0 should not be present in the result',
);
});
it('does not cut off entire groups of transactions when adding new transaction when under limit', function () {
// In this test case the earliest two transactions are a dropped attempted ether send and a
// following cancel transaction with the same nonce. Then, a bit later the same scenario on a
// different network. None of these should be dropped because we haven't yet reached the limit
const limit = txStateManager.txHistoryLimit;
const txs = generateTransactions(limit - 1, {
chainId: (i) => ([0, 1, 4, 5].includes(i) ? currentChainId : '0x1'),
to: VALID_ADDRESS,
from: VALID_ADDRESS_TWO,
nonce: (i) => {
if (i === 1) return '0';
else if (i === 5) return '4';
return `${i}`;
},
status: (i) =>
i === 0 || i === 4
? TRANSACTION_STATUSES.DROPPED
: TRANSACTION_STATUSES.CONFIRMED,
type: (i) =>
i === 1 || i === 5
? TRANSACTION_TYPES.CANCEL
: TRANSACTION_TYPES.SIMPLE_SEND,
});
txs.forEach((tx) => txStateManager.addTransaction(tx));
const result = txStateManager.getTransactions({
filterToCurrentNetwork: false,
});
assert.equal(result.length, 9, `all nine transactions should be present`);
assert.equal(result[0].id, 0, 'first tx should be present');
});
});
describe('#updateTransaction', function () {
it('replaces the tx with the same id', function () {
txStateManager.addTransaction({
id: '1',
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
});
txStateManager.addTransaction({
id: '2',
status: TRANSACTION_STATUSES.CONFIRMED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
});
const txMeta = txStateManager.getTransaction('1');
txMeta.hash = 'foo';
txStateManager.updateTransaction(txMeta);
const result = txStateManager.getTransaction('1');
assert.equal(result.hash, 'foo');
});
it('throws error and does not update tx if txParams are invalid', function () {
const validTxParams = {
from: '0x0dcd5d886577d5081b0c52e242ef29e70be3e7bc',
to: '0x0039f22efb07a647557c7c5d17854cfd6d489ef3',
nonce: '0x3',
gas: '0x77359400',
gasPrice: '0x77359400',
value: '0x0',
data: '0x0',
};
const invalidValues = [1, true, {}, Symbol('1')];
txStateManager.addTransaction({
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: validTxParams,
});
Object.keys(validTxParams).forEach((key) => {
for (const value of invalidValues) {
const originalTx = txStateManager.getTransaction(1);
const newTx = {
...originalTx,
txParams: {
...originalTx.txParams,
[key]: value,
},
};
assert.throws(
txStateManager.updateTransaction.bind(txStateManager, newTx),
'updateTransaction should throw an error',
);
const result = txStateManager.getTransaction(1);
assert.deepEqual(result, originalTx, 'tx should not be updated');
}
});
});
it('updates gas price and adds history items', function () {
const originalGasPrice = '0x01';
const desiredGasPrice = '0x02';
const txMeta = {
id: '1',
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
from: VALID_ADDRESS_TWO,
to: VALID_ADDRESS,
gasPrice: originalGasPrice,
},
};
txStateManager.addTransaction(txMeta);
const updatedTx = txStateManager.getTransaction('1');
// verify tx was initialized correctly
assert.equal(updatedTx.history.length, 1, 'one history item (initial)');
assert.equal(
Array.isArray(updatedTx.history[0]),
false,
'first history item is initial state',
);
assert.deepEqual(
updatedTx.history[0],
snapshotFromTxMeta(updatedTx),
'first history item is initial state',
);
// modify value and updateTransaction
updatedTx.txParams.gasPrice = desiredGasPrice;
const before = new Date().getTime();
txStateManager.updateTransaction(updatedTx);
const after = new Date().getTime();
// check updated value
const result = txStateManager.getTransaction('1');
assert.equal(
result.txParams.gasPrice,
desiredGasPrice,
'gas price updated',
);
// validate history was updated
assert.equal(
result.history.length,
2,
'two history items (initial + diff)',
);
assert.equal(
result.history[1].length,
1,
'two history state items (initial + diff)',
);
const expectedEntry = {
op: 'replace',
path: '/txParams/gasPrice',
value: desiredGasPrice,
};
assert.deepEqual(
result.history[1][0].op,
expectedEntry.op,
'two history items (initial + diff) operation',
);
assert.deepEqual(
result.history[1][0].path,
expectedEntry.path,
'two history items (initial + diff) path',
);
assert.deepEqual(
result.history[1][0].value,
expectedEntry.value,
'two history items (initial + diff) value',
);
assert.ok(
result.history[1][0].timestamp >= before &&
result.history[1][0].timestamp <= after,
);
});
it('does NOT add empty history items', function () {
const txMeta = {
id: '1',
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
from: VALID_ADDRESS_TWO,
to: VALID_ADDRESS,
gasPrice: '0x01',
},
};
txStateManager.addTransaction(txMeta);
txStateManager.updateTransaction(txMeta);
const { history } = txStateManager.getTransaction('1');
assert.equal(history.length, 1, 'two history items (initial + diff)');
});
});
describe('#getUnapprovedTxList', function () {
it('returns unapproved txs in a hash', function () {
txStateManager.addTransaction({
id: '1',
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
});
txStateManager.addTransaction({
id: '2',
status: TRANSACTION_STATUSES.CONFIRMED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
});
const result = txStateManager.getUnapprovedTxList();
assert.equal(typeof result, 'object');
assert.equal(result['1'].status, TRANSACTION_STATUSES.UNAPPROVED);
assert.equal(result['2'], undefined);
});
});
describe('#getTransaction', function () {
it('returns a tx with the requested id', function () {
txStateManager.addTransaction({
id: '1',
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
});
txStateManager.addTransaction({
id: '2',
status: TRANSACTION_STATUSES.CONFIRMED,
metamaskNetworkId: currentNetworkId,
txParams: {
to: VALID_ADDRESS,
from: VALID_ADDRESS,
},
});
assert.equal(
txStateManager.getTransaction('1').status,
TRANSACTION_STATUSES.UNAPPROVED,
);
assert.equal(
txStateManager.getTransaction('2').status,
TRANSACTION_STATUSES.CONFIRMED,
);
});
});
describe('#wipeTransactions', function () {
const specificAddress = VALID_ADDRESS;
const otherAddress = VALID_ADDRESS_TWO;
it('should remove only the transactions from a specific address', function () {
const txMetas = [
{
id: 0,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: { from: specificAddress, to: otherAddress },
metamaskNetworkId: currentNetworkId,
},
{
id: 1,
status: TRANSACTION_STATUSES.CONFIRMED,
txParams: { from: otherAddress, to: specificAddress },
metamaskNetworkId: currentNetworkId,
},
{
id: 2,
status: TRANSACTION_STATUSES.CONFIRMED,
txParams: { from: otherAddress, to: specificAddress },
metamaskNetworkId: currentNetworkId,
},
];
txMetas.forEach((txMeta) => txStateManager.addTransaction(txMeta));
txStateManager.wipeTransactions(specificAddress);
const transactionsFromCurrentAddress = txStateManager
.getTransactions()
.filter((txMeta) => txMeta.txParams.from === specificAddress);
const transactionsFromOtherAddresses = txStateManager
.getTransactions()
.filter((txMeta) => txMeta.txParams.from !== specificAddress);
assert.equal(transactionsFromCurrentAddress.length, 0);
assert.equal(transactionsFromOtherAddresses.length, 2);
});
it('should not remove the transactions from other networks', function () {
const txMetas = [
{
id: 0,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: { from: specificAddress, to: otherAddress },
metamaskNetworkId: currentNetworkId,
},
{
id: 1,
status: TRANSACTION_STATUSES.CONFIRMED,
txParams: { from: specificAddress, to: otherAddress },
metamaskNetworkId: otherNetworkId,
},
{
id: 2,
status: TRANSACTION_STATUSES.CONFIRMED,
txParams: { from: specificAddress, to: otherAddress },
metamaskNetworkId: otherNetworkId,
},
];
txMetas.forEach((txMeta) => txStateManager.addTransaction(txMeta));
txStateManager.wipeTransactions(specificAddress);
const txsFromCurrentNetworkAndAddress = txStateManager
.getTransactions()
.filter((txMeta) => txMeta.txParams.from === specificAddress);
const txFromOtherNetworks = txStateManager
.getTransactions({ filterToCurrentNetwork: false })
.filter((txMeta) => txMeta.metamaskNetworkId === otherNetworkId);
assert.equal(txsFromCurrentNetworkAndAddress.length, 0);
assert.equal(txFromOtherNetworks.length, 2);
});
});
describe('#_deleteTransaction', function () {
it('should remove the transaction from the storage', function () {
txStateManager.addTransaction({ id: 1 });
txStateManager._deleteTransaction(1);
assert.ok(
!txStateManager.getTransactions({ filterToCurrentNetwork: false })
.length,
'txList should be empty',
);
});
it('should only remove the transaction with ID 1 from the storage', function () {
txStateManager.store.updateState({
transactions: { 1: { id: 1 }, 2: { id: 2 } },
});
txStateManager._deleteTransaction(1);
assert.equal(
txStateManager.getTransactions({
filterToCurrentNetwork: false,
})[0].id,
2,
'txList should have a id of 2',
);
});
});
describe('#generateTxMeta', function () {
it('generates a txMeta object when supplied no parameters', function () {
// There are currently not safety checks for missing 'opts' but we should
// at least enforce txParams. This is done in the transaction controller
// before *calling* this method, but we should perhaps ensure that
// txParams is provided and validated in this method.
// TODO: this test should fail.
const generatedTransaction = txStateManager.generateTxMeta();
assert.ok(generatedTransaction);
});
it('generates a txMeta object with txParams specified', function () {
const txParams = {
gas: GAS_LIMITS.SIMPLE,
from: '0x0000',
to: '0x000',
value: '0x0',
gasPrice: '0x0',
};
const generatedTransaction = txStateManager.generateTxMeta({
txParams,
});
assert.ok(generatedTransaction);
assert.strictEqual(generatedTransaction.txParams, txParams);
});
it('generates a txMeta object with txParams specified using EIP-1559 fields', function () {
const txParams = {
gas: GAS_LIMITS.SIMPLE,
from: '0x0000',
to: '0x000',
value: '0x0',
maxFeePerGas: '0x0',
maxPriorityFeePerGas: '0x0',
};
const generatedTransaction = txStateManager.generateTxMeta({
txParams,
});
assert.ok(generatedTransaction);
assert.strictEqual(generatedTransaction.txParams, txParams);
});
it('records dappSuggestedGasFees when origin is provided and is not "metamask"', function () {
const eip1559GasFeeFields = {
maxFeePerGas: '0x0',
maxPriorityFeePerGas: '0x0',
gas: GAS_LIMITS.SIMPLE,
};
const legacyGasFeeFields = {
gasPrice: '0x0',
gas: GAS_LIMITS.SIMPLE,
};
const eip1559TxParams = {
from: '0x0000',
to: '0x000',
value: '0x0',
...eip1559GasFeeFields,
};
const legacyTxParams = {
from: '0x0000',
to: '0x000',
value: '0x0',
...legacyGasFeeFields,
};
const eip1559GeneratedTransaction = txStateManager.generateTxMeta({
txParams: eip1559TxParams,
origin: 'adappt.com',
});
const legacyGeneratedTransaction = txStateManager.generateTxMeta({
txParams: legacyTxParams,
origin: 'adappt.com',
});
assert.ok(
eip1559GeneratedTransaction,
'generated EIP1559 transaction should be truthy',
);
assert.deepStrictEqual(
eip1559GeneratedTransaction.dappSuggestedGasFees,
eip1559GasFeeFields,
'generated EIP1559 transaction should have appropriate dappSuggestedGasFees',
);
assert.ok(
legacyGeneratedTransaction,
'generated legacy transaction should be truthy',
);
assert.deepStrictEqual(
legacyGeneratedTransaction.dappSuggestedGasFees,
legacyGasFeeFields,
'generated legacy transaction should have appropriate dappSuggestedGasFees',
);
});
it('does not record dappSuggestedGasFees when transaction origin is "metamask"', function () {
const txParams = {
gas: GAS_LIMITS.SIMPLE,
from: '0x0000',
to: '0x000',
value: '0x0',
maxFeePerGas: '0x0',
maxPriorityFeePerGas: '0x0',
};
const generatedTransaction = txStateManager.generateTxMeta({
txParams,
origin: 'metamask',
});
assert.ok(generatedTransaction);
assert.strictEqual(generatedTransaction.dappSuggestedGasFees, null);
});
it('does not record dappSuggestedGasFees when transaction origin is not provided', function () {
const txParams = {
gas: GAS_LIMITS.SIMPLE,
from: '0x0000',
to: '0x000',
value: '0x0',
maxFeePerGas: '0x0',
maxPriorityFeePerGas: '0x0',
};
const generatedTransaction = txStateManager.generateTxMeta({
txParams,
});
assert.ok(generatedTransaction);
assert.strictEqual(generatedTransaction.dappSuggestedGasFees, null);
});
});
describe('#clearUnapprovedTxs', function () {
it('removes unapproved transactions', function () {
const txMetas = [
{
id: 0,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: { from: VALID_ADDRESS, to: VALID_ADDRESS_TWO },
metamaskNetworkId: currentNetworkId,
},
{
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
txParams: { from: VALID_ADDRESS, to: VALID_ADDRESS_TWO },
metamaskNetworkId: currentNetworkId,
},
{
id: 2,
status: TRANSACTION_STATUSES.CONFIRMED,
txParams: { from: VALID_ADDRESS, to: VALID_ADDRESS_TWO },
metamaskNetworkId: otherNetworkId,
},
{
id: 3,
status: TRANSACTION_STATUSES.CONFIRMED,
txParams: { from: VALID_ADDRESS, to: VALID_ADDRESS_TWO },
metamaskNetworkId: otherNetworkId,
},
];
txMetas.forEach((txMeta) => txStateManager.addTransaction(txMeta));
txStateManager.clearUnapprovedTxs();
const unapprovedTxList = txStateManager
.getTransactions({ filterToCurrentNetwork: false })
.filter((tx) => tx.status === TRANSACTION_STATUSES.UNAPPROVED);
assert.equal(unapprovedTxList.length, 0);
});
});
});