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metamask-extension/ui/ducks/send/send.js

2727 lines
96 KiB
JavaScript

import { createAsyncThunk, createSlice } from '@reduxjs/toolkit';
import BigNumber from 'bignumber.js';
import { addHexPrefix } from 'ethereumjs-util';
import { cloneDeep, debounce } from 'lodash';
import { v4 as uuidv4 } from 'uuid';
import {
decimalToHex,
getValueFromWeiHex,
} from '../../../shared/modules/conversion.utils';
import { GasEstimateTypes, GAS_LIMITS } from '../../../shared/constants/gas';
import {
CONTRACT_ADDRESS_ERROR,
INSUFFICIENT_FUNDS_ERROR,
INSUFFICIENT_FUNDS_FOR_GAS_ERROR,
INSUFFICIENT_TOKENS_ERROR,
INVALID_RECIPIENT_ADDRESS_ERROR,
INVALID_RECIPIENT_ADDRESS_NOT_ETH_NETWORK_ERROR,
KNOWN_RECIPIENT_ADDRESS_WARNING,
NEGATIVE_ETH_ERROR,
RECIPIENT_TYPES,
} from '../../pages/send/send.constants';
import {
isBalanceSufficient,
isTokenBalanceSufficient,
} from '../../pages/send/send.utils';
import {
getAdvancedInlineGasShown,
getCurrentChainId,
getGasPriceInHexWei,
getIsMainnet,
getTargetAccount,
getIsNonStandardEthChain,
checkNetworkAndAccountSupports1559,
getUseTokenDetection,
getTokenList,
getAddressBookEntryOrAccountName,
getIsMultiLayerFeeNetwork,
getEnsResolutionByAddress,
getSelectedAccount,
getSelectedAddress,
} from '../../selectors';
import {
disconnectGasFeeEstimatePoller,
displayWarning,
getGasFeeEstimatesAndStartPolling,
hideLoadingIndication,
showLoadingIndication,
updateEditableParams,
updateTransactionGasFees,
addPollingTokenToAppState,
removePollingTokenFromAppState,
isNftOwner,
getTokenStandardAndDetails,
showModal,
addTransactionAndRouteToConfirmationPage,
updateTransactionSendFlowHistory,
getCurrentNetworkEIP1559Compatibility,
} from '../../store/actions';
import { setCustomGasLimit } from '../gas/gas.duck';
import {
QR_CODE_DETECTED,
SELECTED_ACCOUNT_CHANGED,
ACCOUNT_CHANGED,
ADDRESS_BOOK_UPDATED,
GAS_FEE_ESTIMATES_UPDATED,
} from '../../store/actionConstants';
import {
getTokenAddressParam,
getTokenMetadata,
getTokenIdParam,
} from '../../helpers/utils/token-util';
import {
checkExistingAddresses,
isDefaultMetaMaskChain,
isOriginContractAddress,
isValidDomainName,
} from '../../helpers/utils/util';
import {
getGasEstimateType,
getProviderConfig,
getTokens,
getUnapprovedTxs,
} from '../metamask/metamask';
import { resetDomainResolution } from '../domains';
import {
isBurnAddress,
isValidHexAddress,
toChecksumHexAddress,
} from '../../../shared/modules/hexstring-utils';
import { isSmartContractAddress } from '../../helpers/utils/transactions.util';
import fetchEstimatedL1Fee from '../../helpers/utils/optimism/fetchEstimatedL1Fee';
import {
AssetType,
TokenStandard,
TransactionEnvelopeType,
TransactionType,
} from '../../../shared/constants/transaction';
import { INVALID_ASSET_TYPE } from '../../helpers/constants/error-keys';
import { isEqualCaseInsensitive } from '../../../shared/modules/string-utils';
import { parseStandardTokenTransactionData } from '../../../shared/modules/transaction.utils';
import { getTokenValueParam } from '../../../shared/lib/metamask-controller-utils';
import {
calcGasTotal,
calcTokenAmount,
} from '../../../shared/lib/transactions-controller-utils';
import { Numeric } from '../../../shared/modules/Numeric';
import { EtherDenomination } from '../../../shared/constants/common';
import {
estimateGasLimitForSend,
generateTransactionParams,
getRoundedGasPrice,
} from './helpers';
// typedef import statements
/**
* @typedef {(
* import('immer/dist/internal').WritableDraft<SendState>
* )} SendStateDraft
* @typedef {(
* import( '../../helpers/constants/common').TokenStandardStrings
* )} TokenStandardStrings
* @typedef {(
* import( '../../../shared/constants/tokens').TokenDetails
* )} TokenDetails
* @typedef {(
* import('@metamask/gas-fee-controller').LegacyGasPriceEstimate
* )} LegacyGasPriceEstimate
* @typedef {(
* import('@metamask/gas-fee-controller').GasFeeEstimates
* )} GasFeeEstimates
* @typedef {(
* import('@metamask/gas-fee-controller').EthGasPriceEstimate
* )} EthGasPriceEstimate
* @typedef {(
* import('@metamask/gas-fee-controller').GasEstimateType
* )} GasEstimateType
* @typedef {(
* import('redux').AnyAction
* )} AnyAction
*/
/**
* @template R - Return type of the async function
* @typedef {(
* import('redux-thunk').ThunkAction<R, MetaMaskState, unknown, AnyAction>
* )} ThunkAction<R>
*/
/**
* This type will take a typical constant string mapped object and turn it into
* a union type of the values.
*
* @template O - The object to make strings out of
* @typedef {O[keyof O]} MapValuesToUnion<O>
*/
/**
* @typedef {object} SendStateStages
* @property {'ADD_RECIPIENT'} ADD_RECIPIENT - The user is selecting which
* address to send an asset to.
* @property {'DRAFT'} DRAFT - The send form is shown for a transaction yet to
* be sent to the Transaction Controller.
* @property {'EDIT'} EDIT - The send form is shown for a transaction already
* submitted to the Transaction Controller but not yet confirmed. This happens
* when a confirmation is shown for a transaction and the 'edit' button in the
* header is clicked.
* @property {'INACTIVE'} INACTIVE - The send state is idle, and hasn't yet
* fetched required data for gasPrice and gasLimit estimations, etc.
*/
/**
* The Stages that the send slice can be in
*
* @type {SendStateStages}
*/
export const SEND_STAGES = {
ADD_RECIPIENT: 'ADD_RECIPIENT',
DRAFT: 'DRAFT',
EDIT: 'EDIT',
INACTIVE: 'INACTIVE',
};
/**
* @typedef {object} DraftTxStatus
* @property {'INVALID'} INVALID - The transaction is invalid and cannot be
* submitted. There are a number of cases that would result in an invalid
* send state:
* 1. The recipient is not yet defined
* 2. The amount + gasTotal is greater than the user's balance when sending
* native currency
* 3. The gasTotal is greater than the user's *native* balance
* 4. The amount of sent asset is greater than the user's *asset* balance
* 5. Gas price estimates failed to load entirely
* 6. The gasLimit is less than 21000 (0x5208)
* @property {'VALID'} VALID - The transaction is valid and can be submitted.
*/
/**
* The status of the send slice
*
* @type {DraftTxStatus}
*/
export const SEND_STATUSES = {
INVALID: 'INVALID',
VALID: 'VALID',
};
/**
* @typedef {object} SendStateGasModes
* @property {'BASIC'} BASIC - Shows the basic estimate slow/avg/fast buttons
* when on mainnet and the metaswaps API request is successful.
* @property {'CUSTOM'} CUSTOM - Shows GasFeeDisplay component that is a read
* only display of the values the user has set in the advanced gas modal
* (stored in the gas duck under the customData key).
* @property {'INLINE'} INLINE - Shows inline gasLimit/gasPrice fields when on
* any other network or metaswaps API fails and we use eth_gasPrice.
*/
/**
* Controls what is displayed in the send-gas-row component.
*
* @type {SendStateGasModes}
*/
export const GAS_INPUT_MODES = {
BASIC: 'BASIC',
CUSTOM: 'CUSTOM',
INLINE: 'INLINE',
};
/**
* @typedef {object} SendStateAmountModes
* @property {'INPUT'} INPUT - the user provides the amount by typing in the
* field.
* @property {'MAX'} MAX - The user selects the MAX button and amount is
* calculated based on balance - (amount + gasTotal).
*/
/**
* The modes that the amount field can be set by
*
* @type {SendStateAmountModes}
*/
export const AMOUNT_MODES = {
INPUT: 'INPUT',
MAX: 'MAX',
};
/**
* @typedef {object} SendStateRecipientModes
* @property {'CONTACT_LIST'} CONTACT_LIST - The user is displayed a list of
* their contacts and addresses they have recently send to.
* @property {'MY_ACCOUNTS'} MY_ACCOUNTS - the user is displayed a list of
* their own accounts to send to.
*/
/**
* The type of recipient list that is displayed to user
*
* @type {SendStateRecipientModes}
*/
export const RECIPIENT_SEARCH_MODES = {
CONTACT_LIST: 'CONTACT_LIST',
MY_ACCOUNTS: 'MY_ACCOUNTS',
};
/**
* @typedef {object} Account
* @property {string} address - The hex address of the account.
* @property {string} balance - Hex string representing the native asset
* balance of the account the transaction will be sent from.
*/
/**
* @typedef {object} Amount
* @property {string} [error] - Error to display for the amount field.
* @property {string} value - A hex string representing the amount of the
* selected currency to send.
*/
/**
* @typedef {object} Asset
* @property {string} balance - A hex string representing the balance
* that the user holds of the asset that they are attempting to send.
* @property {TokenDetails} [details] - An object that describes the
* selected asset in the case that the user is sending a token or collectibe.
* Will be null when asset.type is 'NATIVE'.
* @property {string} [error] - Error to display when there is an issue
* with the asset.
* @property {AssetType} type - The type of asset that the user
* is attempting to send. Defaults to 'NATIVE' which represents the native
* asset of the chain. Can also be 'TOKEN' or 'NFT'.
*/
/**
* @typedef {object} GasFees
* @property {string} [error] - error to display for gas fields.
* @property {string} gasLimit - maximum gas needed for tx.
* @property {string} gasPrice - price in wei to pay per gas.
* @property {string} gasTotal - maximum total price in wei to pay.
* @property {string} maxFeePerGas - Maximum price in wei to pay per gas.
* @property {string} maxPriorityFeePerGas - Maximum priority fee in wei to pay
* per gas.
*/
/**
* An object that describes the intended recipient of a transaction.
*
* @typedef {object} Recipient
* @property {string} address - The fully qualified address of the recipient.
* This is set after the recipient.userInput is validated, the userInput field
* is quickly updated to avoid delay between keystrokes and seeing the input
* field updated. After a debounce the address typed is validated and then the
* address field is updated. The address field is also set when the user
* selects a contact or account from the list, or an ENS resolution when
* typing ENS names.
* @property {string} [error] - Error to display on the address field.
* @property {string} nickname - The nickname that the user has added to their
* address book for the recipient.address.
* @property {string} [warning] - Warning to display on the address field.
*/
/**
* @typedef {object} DraftTransaction
* @property {Amount} amount - An object containing information about the
* amount of currency to send.
* @property {Asset} asset - An object that describes the asset that the user
* has selected to send.
* @property {Account} [fromAccount] - The send flow is usually only relative to
* the currently selected account. When editing a transaction, however, the
* account may differ. In that case, the details of that account will be
* stored in this object within the draftTransaction.
* @property {GasFees} gas - Details about the current gas settings
* @property {Array<{event: string, timestamp: number}>} history - An array of
* entries that describe the user's journey through the send flow. This is
* sent to the controller for attaching to state logs for troubleshooting and
* support.
* @property {string} [id] - If the transaction has already been added to the
* TransactionController this field will be populated with its id from the
* TransactionController state. This is required to be able to update the
* transaction in the controller.
* @property {Recipient} recipient - An object that describes the intended
* recipient of the transaction.
* @property {MapValuesToUnion<DraftTxStatus>} status - Describes the
* validity of the draft transaction, which will be either 'VALID' or
* 'INVALID', depending on our ability to generate a valid txParams object for
* submission.
* @property {string} transactionType - Determines type of transaction being
* sent, defaulted to 0x0 (legacy).
* @property {string} [userInputHexData] - When a user has enabled custom hex
* data field in advanced options, they can supply data to the field which is
* stored under this key.
*/
/**
* @type {DraftTransaction}
*/
export const draftTransactionInitialState = {
amount: {
error: null,
value: '0x0',
},
asset: {
balance: '0x0',
details: null,
error: null,
type: AssetType.native,
},
fromAccount: null,
gas: {
error: null,
gasLimit: '0x0',
gasPrice: '0x0',
gasTotal: '0x0',
maxFeePerGas: '0x0',
maxPriorityFeePerGas: '0x0',
wasManuallyEdited: false,
},
history: [],
id: null,
recipient: {
address: '',
error: null,
nickname: '',
warning: null,
type: '',
recipientWarningAcknowledged: false,
},
status: SEND_STATUSES.VALID,
transactionType: TransactionEnvelopeType.legacy,
userInputHexData: null,
};
/**
* Describes the state tree of the send slice
*
* @typedef {object} SendState
* @property {MapValuesToUnion<SendStateAmountModes>} amountMode - Describe
* whether the user has manually input an amount or if they have selected max
* to send the maximum amount of the selected currency.
* @property {string} currentTransactionUUID - The UUID of the transaction
* currently being modified by the send flow. This UUID is generated upon
* initialization of the send flow, any previous UUIDs are discarded at
* clean up AND during initialization. When a transaction is edited a new UUID
* is generated for it and the state of that transaction is copied into a new
* entry in the draftTransactions object.
* @property {Object<string, DraftTransaction>} draftTransactions - An object keyed
* by UUID with draftTransactions as the values.
* @property {boolean} eip1559support - tracks whether the current network
* supports EIP 1559 transactions.
* @property {boolean} gasEstimateIsLoading - Indicates whether the gas
* estimate is loading.
* @property {string} [gasEstimatePollToken] - String token identifying a
* listener for polling on the gasFeeController
* @property {boolean} gasIsSetInModal - true if the user set custom gas in the
* custom gas modal
* @property {string} gasLimitMinimum - minimum supported gasLimit.
* @property {string} gasPriceEstimate - Expected price in wei necessary to
* pay per gas used for a transaction to be included in a reasonable timeframe.
* Comes from the GasFeeController.
* @property {string} gasTotalForLayer1 - Layer 1 gas fee total on multi-layer
* fee networks
* @property {string} recipientInput - The user input of the recipient
* which is updated quickly to avoid delays in the UI reflecting manual entry
* of addresses.
* @property {MapValuesToUnion<SendStateRecipientModes>} recipientMode -
* Describes which list of recipients the user is shown on the add recipient
* screen. When this key is set to 'MY_ACCOUNTS' the user is shown the list of
* accounts they own. When it is 'CONTACT_LIST' the user is shown the list of
* contacts they have saved in MetaMask and any addresses they have recently
* sent to.
* @property {Account} selectedAccount - The currently selected account in
* MetaMask. Native balance and address will be pulled from this account if a
* fromAccount is not specified in the draftTransaction object. During an edit
* the fromAccount is specified.
* @property {MapValuesToUnion<SendStateStages>} stage - The stage of the
* send flow that the user has progressed to. Defaults to 'INACTIVE' which
* results in the send screen not being shown.
*/
/**
* @type {SendState}
*/
export const initialState = {
amountMode: AMOUNT_MODES.INPUT,
currentTransactionUUID: null,
draftTransactions: {},
eip1559support: false,
gasEstimateIsLoading: true,
gasEstimatePollToken: null,
gasIsSetInModal: false,
gasPriceEstimate: '0x0',
gasLimitMinimum: GAS_LIMITS.SIMPLE,
gasTotalForLayer1: '0x0',
recipientMode: RECIPIENT_SEARCH_MODES.CONTACT_LIST,
recipientInput: '',
selectedAccount: {
address: null,
balance: '0x0',
},
stage: SEND_STAGES.INACTIVE,
};
/**
* TODO: We really need to start creating the metamask state type, and the
* entire state tree of redux. Would be *extremely* valuable in future
* typescript conversions. The metamask key is typed as an object on purpose
* here because I cannot go so far in this work as to type that entire object.
*
* @typedef {object} MetaMaskState
* @property {SendState} send - The state of the send flow.
* @property {object} metamask - The state of the metamask store.
*/
const name = 'send';
// After modification of specific fields in specific circumstances we must
// recompute the gasLimit estimate to be as accurate as possible. the cases
// that necessitate this logic are listed below:
// 1. when the amount sent changes when sending a token due to the amount being
// part of the hex encoded data property of the transaction.
// 2. when updating the data property while sending NATIVE currency (ex: ETH)
// because the data parameter defines function calls that the EVM will have
// to execute which is where a large chunk of gas is potentially consumed.
// 3. when the recipient changes while sending a token due to the recipient's
// address being included in the hex encoded data property of the
// transaction
// 4. when the asset being sent changes due to the contract address and details
// of the token being included in the hex encoded data property of the
// transaction. If switching to NATIVE currency (ex: ETH), the gasLimit will
// change due to hex data being removed (unless supplied by user).
// This method computes the gasLimit estimate which is written to state in an
// action handler in extraReducers.
export const computeEstimatedGasLimit = createAsyncThunk(
'send/computeEstimatedGasLimit',
async (_, thunkApi) => {
const state = thunkApi.getState();
const { send, metamask } = state;
const draftTransaction =
send.draftTransactions[send.currentTransactionUUID];
const unapprovedTxs = getUnapprovedTxs(state);
const isMultiLayerFeeNetwork = getIsMultiLayerFeeNetwork(state);
const transaction = unapprovedTxs[draftTransaction.id];
const isNonStandardEthChain = getIsNonStandardEthChain(state);
const chainId = getCurrentChainId(state);
let gasTotalForLayer1;
if (isMultiLayerFeeNetwork) {
gasTotalForLayer1 = await fetchEstimatedL1Fee(chainId, {
txParams: {
gasPrice: draftTransaction.gas.gasPrice,
gas: draftTransaction.gas.gasLimit,
to: draftTransaction.recipient.address?.toLowerCase(),
value:
send.amountMode === AMOUNT_MODES.MAX
? send.selectedAccount.balance
: draftTransaction.amount.value,
from: send.selectedAccount.address,
data: draftTransaction.userInputHexData,
type: '0x0',
},
});
}
if (
send.stage !== SEND_STAGES.EDIT ||
!transaction.dappSuggestedGasFees?.gas ||
!transaction.userEditedGasLimit
) {
const gasLimit = await estimateGasLimitForSend({
gasPrice: draftTransaction.gas.gasPrice,
blockGasLimit: metamask.currentBlockGasLimit,
selectedAddress: metamask.selectedAddress,
sendToken: draftTransaction.asset.details,
to: draftTransaction.recipient.address?.toLowerCase(),
value: draftTransaction.amount.value,
data: draftTransaction.userInputHexData,
isNonStandardEthChain,
chainId,
gasLimit: draftTransaction.gas.gasLimit,
});
await thunkApi.dispatch(setCustomGasLimit(gasLimit));
return {
gasLimit,
gasTotalForLayer1,
};
}
return null;
},
);
/**
* @typedef {object} Asset
* @property {AssetType} type - The type of asset that the user
* is attempting to send. Defaults to 'NATIVE' which represents the native
* asset of the chain. Can also be 'TOKEN' or 'NFT'.
* @property {string} balance - A hex string representing the balance
* that the user holds of the asset that they are attempting to send.
* @property {TokenDetails} [details] - An object that describes the
* selected asset in the case that the user is sending a token or collectibe.
* Will be null when asset.type is 'NATIVE'.
* @property {string} [error] - Error to display when there is an issue
* with the asset.
*/
/**
* Responsible for initializing required state for the send slice.
* This method is dispatched from the send page in the componentDidMount
* method. It is also dispatched anytime the network changes to ensure that
* the slice remains valid with changing token and account balances. To do so
* it keys into state to get necessary values and computes a starting point for
* the send slice. It returns the values that might change from this action and
* those values are written to the slice in the `initializeSendState.fulfilled`
* action handler.
*
* @type {import('@reduxjs/toolkit').AsyncThunk<any, { chainHasChanged: boolean }, {}>}
*/
export const initializeSendState = createAsyncThunk(
'send/initializeSendState',
async ({ chainHasChanged = false } = {}, thunkApi) => {
/**
* @typedef {object} ReduxState
* @property {object} metamask - Half baked type for the MetaMask object
* @property {SendState} send - the send state
*/
/**
* @type {ReduxState}
*/
const state = thunkApi.getState();
const isNonStandardEthChain = getIsNonStandardEthChain(state);
const chainId = getCurrentChainId(state);
let eip1559support = checkNetworkAndAccountSupports1559(state);
if (eip1559support === undefined) {
eip1559support = await getCurrentNetworkEIP1559Compatibility();
}
const account = getSelectedAccount(state);
const { send: sendState, metamask } = state;
const draftTransaction =
sendState.draftTransactions[sendState.currentTransactionUUID];
// If the draft transaction is not present, then this action has been
// dispatched out of sync with the intended flow. This is not always a bug.
// For instance, in the actions.js file we dispatch this action anytime the
// chain changes.
if (!draftTransaction) {
return thunkApi.rejectWithValue(
'draftTransaction not found, possibly not on send flow',
);
}
// Default gasPrice to 1 gwei if all estimation fails, this is only used
// for gasLimit estimation and won't be set directly in state. Instead, we
// will return the gasFeeEstimates and gasEstimateType so that the reducer
// can set the appropriate gas fees in state.
let gasPrice =
sendState.stage === SEND_STAGES.EDIT
? draftTransaction.gas.gasPrice
: '0x1';
let gasEstimatePollToken = null;
// Instruct the background process that polling for gas prices should begin
gasEstimatePollToken = await getGasFeeEstimatesAndStartPolling();
addPollingTokenToAppState(gasEstimatePollToken);
const {
metamask: { gasFeeEstimates, gasEstimateType },
} = thunkApi.getState();
if (sendState.stage !== SEND_STAGES.EDIT) {
// Because we are only interested in getting a gasLimit estimation we only
// need to worry about gasPrice. So we use maxFeePerGas as gasPrice if we
// have a fee market estimation.
if (gasEstimateType === GasEstimateTypes.legacy) {
gasPrice = getGasPriceInHexWei(gasFeeEstimates.medium);
} else if (gasEstimateType === GasEstimateTypes.ethGasPrice) {
gasPrice = getRoundedGasPrice(gasFeeEstimates.gasPrice);
} else if (gasEstimateType === GasEstimateTypes.feeMarket) {
gasPrice = getGasPriceInHexWei(
gasFeeEstimates.medium.suggestedMaxFeePerGas,
);
} else {
gasPrice = gasFeeEstimates.gasPrice
? getRoundedGasPrice(gasFeeEstimates.gasPrice)
: '0x0';
}
}
// Set a basic gasLimit in the event that other estimation fails
let { gasLimit } = draftTransaction.gas;
if (
gasEstimateType !== GasEstimateTypes.none &&
sendState.stage !== SEND_STAGES.EDIT &&
draftTransaction.recipient.address
) {
gasLimit =
draftTransaction.asset.type === AssetType.token ||
draftTransaction.asset.type === AssetType.NFT
? GAS_LIMITS.BASE_TOKEN_ESTIMATE
: GAS_LIMITS.SIMPLE;
// Run our estimateGasLimit logic to get a more accurate estimation of
// required gas. If this value isn't nullish, set it as the new gasLimit
const estimatedGasLimit = await estimateGasLimitForSend({
gasPrice,
blockGasLimit: metamask.currentBlockGasLimit,
selectedAddress:
draftTransaction.fromAccount?.address ??
sendState.selectedAccount.address,
sendToken: draftTransaction.asset.details,
to: draftTransaction.recipient.address.toLowerCase(),
value: draftTransaction.amount.value,
data: draftTransaction.userInputHexData,
isNonStandardEthChain,
chainId,
});
gasLimit = estimatedGasLimit || gasLimit;
}
// We have to keep the gas slice in sync with the send slice state
// so that it'll be initialized correctly if the gas modal is opened.
await thunkApi.dispatch(setCustomGasLimit(gasLimit));
// There may be a case where the send has been canceled by the user while
// the gas estimate is being computed. So we check again to make sure that
// a currentTransactionUUID exists and matches the previous tx.
const newState = thunkApi.getState();
if (
newState.send.currentTransactionUUID !== sendState.currentTransactionUUID
) {
return thunkApi.rejectWithValue(
`draftTransaction changed during initialization.
A new initializeSendState action must be dispatched.`,
);
}
return {
account,
chainId: getCurrentChainId(state),
tokens: getTokens(state),
chainHasChanged,
gasFeeEstimates,
gasEstimateType,
gasLimit,
gasTotal: addHexPrefix(calcGasTotal(gasLimit, gasPrice)),
gasEstimatePollToken,
eip1559support,
useTokenDetection: getUseTokenDetection(state),
tokenAddressList: Object.keys(getTokenList(state)),
};
},
);
// Action Payload Typedefs
/**
* @typedef {(
* import('@reduxjs/toolkit').PayloadAction<string>
* )} SimpleStringPayload
* @typedef {(
* import('@reduxjs/toolkit').PayloadAction<MapValuesToUnion<SendStateAmountModes>>
* )} SendStateAmountModePayload
* @typedef {(
* import('@reduxjs/toolkit').PayloadAction<DraftTransaction['asset']>
* )} UpdateAssetPayload
* @typedef {(
* import('@reduxjs/toolkit').PayloadAction<Partial<
* Pick<DraftTransaction['recipient'], 'address' | 'nickname'>>
* >
* )} updateRecipientPayload
* @typedef {(
* import('@reduxjs/toolkit').PayloadAction<SendState['recipientMode']>
* )} UpdateRecipientModePayload
*/
/**
* @typedef {object} GasFeeUpdateParams
* @property {TransactionType} transactionType - The transaction type
* @property {string} [maxFeePerGas] - The maximum amount in hex wei to pay
* per gas on a FEE_MARKET transaction.
* @property {string} [maxPriorityFeePerGas] - The maximum amount in hex
* wei to pay per gas as an incentive to miners on a FEE_MARKET
* transaction.
* @property {string} [gasPrice] - The amount in hex wei to pay per gas on
* a LEGACY transaction.
* @property {boolean} [isAutomaticUpdate] - true if the update is the
* result of a gas estimate update from the controller.
* @typedef {(
* import('@reduxjs/toolkit').PayloadAction<GasFeeUpdateParams>
* )} GasFeeUpdatePayload
*/
/**
* @typedef {object} GasEstimateUpdateParams
* @property {GasEstimateType} gasEstimateType - The type of gas estimation
* provided by the controller.
* @property {(
* EthGasPriceEstimate | LegacyGasPriceEstimate | GasFeeEstimates
* )} gasFeeEstimates - The gas fee estimates provided by the controller.
* @typedef {(
* import('@reduxjs/toolkit').PayloadAction<GasEstimateUpdateParams>
* )} GasEstimateUpdatePayload
*/
/**
* @typedef {(
* import('@reduxjs/toolkit').PayloadAction<DraftTransaction['asset']>
* )} UpdateAssetPayload
* @typedef {(
* import('@reduxjs/toolkit').PayloadAction<DraftTransaction>
* )} DraftTransactionPayload
*/
const slice = createSlice({
name,
initialState,
reducers: {
/**
* Adds a new draft transaction to state, first generating a new UUID for
* the transaction and setting that as the currentTransactionUUID. If the
* draft has an id property set, the stage is set to EDIT.
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @param {DraftTransactionPayload} action - An action with payload that is
* a new draft transaction that will be added to state.
* @returns {void}
*/
addNewDraft: (state, action) => {
state.currentTransactionUUID = uuidv4();
state.draftTransactions[state.currentTransactionUUID] = action.payload;
if (action.payload.id) {
state.stage = SEND_STAGES.EDIT;
} else {
state.stage = SEND_STAGES.ADD_RECIPIENT;
}
},
/**
* Adds an entry, with timestamp, to the draftTransaction history.
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @param {SimpleStringPayload} action - An action with payload that is
* a string to be added to the history of the draftTransaction
* @returns {void}
*/
addHistoryEntry: (state, action) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
if (draftTransaction) {
draftTransaction.history.push({
entry: action.payload,
timestamp: Date.now(),
});
}
},
/**
* gasTotal is computed based on gasPrice and gasLimit and set in state
* recomputes the maximum amount if the current amount mode is 'MAX' and
* sending the native token. ERC20 assets max amount is unaffected by
* gasTotal so does not need to be recomputed. Finally, validates the gas
* field and send state.
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @returns {void}
*/
calculateGasTotal: (state) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
// use maxFeePerGas as the multiplier if working with a FEE_MARKET transaction
// otherwise use gasPrice
if (
draftTransaction.transactionType === TransactionEnvelopeType.feeMarket
) {
draftTransaction.gas.gasTotal = addHexPrefix(
calcGasTotal(
draftTransaction.gas.gasLimit,
draftTransaction.gas.maxFeePerGas,
),
);
} else {
draftTransaction.gas.gasTotal = addHexPrefix(
calcGasTotal(
draftTransaction.gas.gasLimit,
draftTransaction.gas.gasPrice,
),
);
}
if (
state.amountMode === AMOUNT_MODES.MAX &&
draftTransaction.asset.type === AssetType.native
) {
slice.caseReducers.updateAmountToMax(state);
}
slice.caseReducers.validateAmountField(state);
slice.caseReducers.validateGasField(state);
// validate send state
slice.caseReducers.validateSendState(state);
},
/**
* Clears all drafts from send state and drops the currentTransactionUUID.
* This is an important first step before adding a new draft transaction to
* avoid possible collision.
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @returns {void}
*/
clearPreviousDrafts: (state) => {
state.currentTransactionUUID = null;
state.draftTransactions = {};
},
/**
* Clears the send state by setting it to the initial value
*
* @returns {SendState}
*/
resetSendState: () => initialState,
/**
* sets the amount mode to the provided value as long as it is one of the
* supported modes (MAX|INPUT)
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @param {SendStateAmountModePayload} action - The amount mode
* to set the state to.
* @returns {void}
*/
updateAmountMode: (state, action) => {
if (Object.values(AMOUNT_MODES).includes(action.payload)) {
state.amountMode = action.payload;
}
},
/**
* computes the maximum amount of asset that can be sent and then calls
* the updateSendAmount action above with the computed value, which will
* revalidate the field and form.
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @returns {void}
*/
updateAmountToMax: (state) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
let amount = '0x0';
if (draftTransaction.asset.type === AssetType.token) {
const decimals = draftTransaction.asset.details?.decimals ?? 0;
const multiplier = Math.pow(10, Number(decimals));
amount = new Numeric(draftTransaction.asset.balance, 16)
.times(multiplier, 10)
.toString();
} else {
const _gasTotal = new Numeric(
draftTransaction.gas.gasTotal || '0x0',
16,
).add(new Numeric(state.gasTotalForLayer1 || '0x0', 16));
amount = new Numeric(draftTransaction.asset.balance, 16)
.minus(_gasTotal)
.toString();
}
slice.caseReducers.updateSendAmount(state, {
payload: amount,
});
},
/**
* Updates the currently selected asset
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @param {UpdateAssetPayload} action - The asset to set in the
* draftTransaction.
* @returns {void}
*/
updateAsset: (state, action) => {
const { asset, initialAssetSet } = action.payload;
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
draftTransaction.asset.type = asset.type;
draftTransaction.asset.balance = asset.balance;
draftTransaction.asset.error = asset.error;
if (
draftTransaction.asset.type === AssetType.token ||
draftTransaction.asset.type === AssetType.NFT
) {
draftTransaction.asset.details = asset.details;
} else {
// clear the details object when sending native currency
draftTransaction.asset.details = null;
if (draftTransaction.recipient.error === CONTRACT_ADDRESS_ERROR) {
// Errors related to sending tokens to their own contract address
// are no longer valid when sending native currency.
draftTransaction.recipient.error = null;
}
}
// if amount mode is MAX update amount to max of new asset, otherwise set
// to zero. This will revalidate the send amount field.
if (state.amountMode === AMOUNT_MODES.MAX) {
slice.caseReducers.updateAmountToMax(state);
} else if (initialAssetSet === false) {
slice.caseReducers.updateSendAmount(state, { payload: '0x0' });
}
// validate send state
slice.caseReducers.validateSendState(state);
},
/**
* Sets the appropriate gas fees in state after receiving new estimates.
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @param {GasEstimateUpdatePayload)} action - The gas fee update payload
* @returns {void}
*/
updateGasFeeEstimates: (state, action) => {
const { gasFeeEstimates, gasEstimateType } = action.payload;
let gasPriceEstimate = '0x0';
switch (gasEstimateType) {
case GasEstimateTypes.feeMarket:
slice.caseReducers.updateGasFees(state, {
payload: {
transactionType: TransactionEnvelopeType.feeMarket,
maxFeePerGas: getGasPriceInHexWei(
gasFeeEstimates.medium.suggestedMaxFeePerGas,
),
maxPriorityFeePerGas: getGasPriceInHexWei(
gasFeeEstimates.medium.suggestedMaxPriorityFeePerGas,
),
},
});
break;
case GasEstimateTypes.legacy:
gasPriceEstimate = getRoundedGasPrice(gasFeeEstimates.medium);
slice.caseReducers.updateGasFees(state, {
payload: {
gasPrice: gasPriceEstimate,
type: TransactionEnvelopeType.legacy,
isAutomaticUpdate: true,
},
});
break;
case GasEstimateTypes.ethGasPrice:
gasPriceEstimate = getRoundedGasPrice(gasFeeEstimates.gasPrice);
slice.caseReducers.updateGasFees(state, {
payload: {
gasPrice: getRoundedGasPrice(gasFeeEstimates.gasPrice),
type: TransactionEnvelopeType.legacy,
isAutomaticUpdate: true,
},
});
break;
case GasEstimateTypes.none:
default:
break;
}
// Record the latest gasPriceEstimate for future comparisons
state.gasPriceEstimate = addHexPrefix(gasPriceEstimate);
},
/**
* Sets the appropriate gas fees in state and determines and sets the
* appropriate transactionType based on gas fee fields received.
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @param {GasFeeUpdatePayload} action - The gas fees to update with
* @returns {void}
*/
updateGasFees: (state, action) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
if (draftTransaction) {
if (
action.payload.transactionType === TransactionEnvelopeType.feeMarket
) {
draftTransaction.gas.maxFeePerGas = addHexPrefix(
action.payload.maxFeePerGas,
);
draftTransaction.gas.maxPriorityFeePerGas = addHexPrefix(
action.payload.maxPriorityFeePerGas,
);
draftTransaction.transactionType = TransactionEnvelopeType.feeMarket;
} else {
if (action.payload.manuallyEdited) {
draftTransaction.gas.wasManuallyEdited = true;
}
// Update the gas price if it has not been manually edited,
// or if this current action is a manual edit.
if (
!draftTransaction.gas.wasManuallyEdited ||
action.payload.manuallyEdited
) {
draftTransaction.gas.gasPrice = addHexPrefix(
action.payload.gasPrice,
);
}
draftTransaction.transactionType = TransactionEnvelopeType.legacy;
}
slice.caseReducers.calculateGasTotal(state);
}
},
/**
* sets the provided gasLimit in state and then recomputes the gasTotal.
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @param {SimpleStringPayload} action - The
* gasLimit in hex to set in state.
* @returns {void}
*/
updateGasLimit: (state, action) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
if (draftTransaction) {
draftTransaction.gas.gasLimit = addHexPrefix(action.payload);
slice.caseReducers.calculateGasTotal(state);
}
},
/**
* sets the layer 1 fees total (for a multi-layer fee network)
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @param {SimpleStringPayload} action - the
* gasTotalForLayer1 to set in hex wei.
* @returns {void}
*/
updateLayer1Fees: (state, action) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
state.gasTotalForLayer1 = action.payload;
if (
state.amountMode === AMOUNT_MODES.MAX &&
draftTransaction.asset.type === AssetType.native
) {
slice.caseReducers.updateAmountToMax(state);
}
},
/**
* Updates the recipient of the draftTransaction
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @param {updateRecipientPayload} action - The recipient to set in the
* draftTransaction.
* @returns {void}
*/
updateRecipient: (state, action) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
draftTransaction.recipient.error = null;
state.recipientInput = '';
draftTransaction.recipient.address = action.payload.address ?? '';
draftTransaction.recipient.nickname = action.payload.nickname ?? '';
if (draftTransaction.recipient.address === '') {
// If address is null we are clearing the recipient and must return
// to the ADD_RECIPIENT stage.
state.stage = SEND_STAGES.ADD_RECIPIENT;
} else {
// if an address is provided and an id exists, we progress to the EDIT
// stage, otherwise we progress to the DRAFT stage. We also reset the
// search mode for recipient search.
state.stage =
draftTransaction.id === null ? SEND_STAGES.DRAFT : SEND_STAGES.EDIT;
state.recipientMode = RECIPIENT_SEARCH_MODES.CONTACT_LIST;
}
// validate send state
slice.caseReducers.validateSendState(state);
},
/**
* Clears the user input and changes the recipient search mode to the
* specified value
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @param {UpdateRecipientModePayload} action - The mode to set the
* recipient search to
* @returns {void}
*/
updateRecipientSearchMode: (state, action) => {
state.recipientInput = '';
state.recipientMode = action.payload;
},
updateRecipientWarning: (state, action) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
draftTransaction.recipient.warning = action.payload;
},
updateRecipientType: (state, action) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
draftTransaction.recipient.type = action.payload;
},
updateDraftTransactionStatus: (state, action) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
draftTransaction.status = action.payload;
},
acknowledgeRecipientWarning: (state) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
draftTransaction.recipient.recipientWarningAcknowledged = true;
slice.caseReducers.validateSendState(state);
},
/**
* Updates the value of the recipientInput key with what the user has
* typed into the recipient input field in the UI.
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @param {SimpleStringPayload} action - the value the user has typed into
* the recipient field.
* @returns {void}
*/
updateRecipientUserInput: (state, action) => {
// Update the value in state to match what the user is typing into the
// input field
state.recipientInput = action.payload;
},
/**
* update current amount.value in state and run post update validation of
* the amount field and the send state.
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @param {SimpleStringPayload} action - The hex string to be set as the
* amount value.
* @returns {void}
*/
updateSendAmount: (state, action) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
draftTransaction.amount.value = addHexPrefix(action.payload);
// Once amount has changed, validate the field
slice.caseReducers.validateAmountField(state);
if (draftTransaction.asset.type === AssetType.native) {
// if sending the native asset the amount being sent will impact the
// gas field as well because the gas validation takes into
// consideration the available balance minus amount sent before
// checking if there is enough left to cover the gas fee.
slice.caseReducers.validateGasField(state);
}
// validate send state
slice.caseReducers.validateSendState(state);
},
/**
* updates the userInputHexData state key
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @param {SimpleStringPayload} action - The hex string to be set as the
* userInputHexData value.
* @returns {void}
*/
updateUserInputHexData: (state, action) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
draftTransaction.userInputHexData = action.payload;
},
/**
* Updates the gasIsSetInModal property to true which results in showing
* the gas fees from the custom gas modal in the send page.
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @returns {void}
*/
useCustomGas: (state) => {
state.gasIsSetInModal = true;
},
/**
* Updates the gasIsSetInModal property to false which results in showing
* the default gas price/limit fields in the send page.
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @returns {void}
*/
useDefaultGas: (state) => {
state.gasIsSetInModal = false;
},
/**
* Checks for the validity of the draftTransactions selected amount to send
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @returns {void}
*/
validateAmountField: (state) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
const amountValue = new Numeric(draftTransaction.amount.value, 16);
switch (true) {
// set error to INSUFFICIENT_FUNDS_FOR_GAS_ERROR if the account balance is lower
// than the total price of the transaction inclusive of gas fees.
case draftTransaction.asset.type === AssetType.native &&
!isBalanceSufficient({
amount: draftTransaction.amount.value,
balance: draftTransaction.asset.balance,
gasTotal: draftTransaction.gas.gasTotal ?? '0x0',
}):
draftTransaction.amount.error = INSUFFICIENT_FUNDS_FOR_GAS_ERROR;
break;
// set error to INSUFFICIENT_TOKENS_ERROR if the token balance is lower
// than the amount of token the user is attempting to send.
case draftTransaction.asset.type === AssetType.token &&
!isTokenBalanceSufficient({
tokenBalance: draftTransaction.asset.balance ?? '0x0',
amount: draftTransaction.amount.value,
decimals: draftTransaction.asset.details.decimals,
}):
draftTransaction.amount.error = INSUFFICIENT_TOKENS_ERROR;
break;
// if the amount is negative, set error to NEGATIVE_ETH_ERROR
// TODO: change this to NEGATIVE_ERROR and remove the currency bias.
case amountValue.isNegative():
draftTransaction.amount.error = NEGATIVE_ETH_ERROR;
break;
// If none of the above are true, set error to null
default:
draftTransaction.amount.error = null;
}
},
/**
* Checks if the user has enough funds to cover the cost of gas, always
* uses the native currency and does not take into account the amount
* being sent. If the user has enough to cover cost of gas but not gas
* + amount then the error will be displayed on the amount field.
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @returns {void}
*/
validateGasField: (state) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
const insufficientFunds = !isBalanceSufficient({
amount:
draftTransaction.asset.type === AssetType.native
? draftTransaction.amount.value
: '0x0',
balance:
draftTransaction.fromAccount?.balance ??
state.selectedAccount.balance,
gasTotal: draftTransaction.gas.gasTotal ?? '0x0',
});
draftTransaction.gas.error = insufficientFunds
? INSUFFICIENT_FUNDS_ERROR
: null;
},
validateRecipientUserInput: (state, action) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
if (draftTransaction) {
if (
state.recipientMode === RECIPIENT_SEARCH_MODES.MY_ACCOUNTS ||
state.recipientInput === '' ||
state.recipientInput === null
) {
draftTransaction.recipient.error = null;
draftTransaction.recipient.warning = null;
} else {
const {
chainId,
tokens,
tokenAddressList,
isProbablyAnAssetContract,
} = action.payload;
if (
isBurnAddress(state.recipientInput) ||
(!isValidHexAddress(state.recipientInput, {
mixedCaseUseChecksum: true,
}) &&
!isValidDomainName(state.recipientInput))
) {
draftTransaction.recipient.error = isDefaultMetaMaskChain(chainId)
? INVALID_RECIPIENT_ADDRESS_ERROR
: INVALID_RECIPIENT_ADDRESS_NOT_ETH_NETWORK_ERROR;
} else if (
isOriginContractAddress(
state.recipientInput,
draftTransaction.asset?.details?.address,
)
) {
draftTransaction.recipient.error = CONTRACT_ADDRESS_ERROR;
} else {
draftTransaction.recipient.error = null;
}
if (
(isValidHexAddress(state.recipientInput) &&
(tokenAddressList.find((address) =>
isEqualCaseInsensitive(address, state.recipientInput),
) ||
checkExistingAddresses(state.recipientInput, tokens))) ||
isProbablyAnAssetContract
) {
draftTransaction.recipient.warning =
KNOWN_RECIPIENT_ADDRESS_WARNING;
} else {
draftTransaction.recipient.warning = null;
}
}
}
slice.caseReducers.validateSendState(state);
},
/**
* Checks if the draftTransaction is currently valid. The following list of
* cases from the switch statement in this function describe when the
* transaction is invalid. Please keep this comment updated.
*
* case 1: State is invalid when amount field has an error.
* case 2: State is invalid when gas field has an error.
* case 3: State is invalid when asset field has an error.
* case 4: State is invalid if asset type is a token and the token details
* are unknown.
* case 5: State is invalid if no recipient has been added.
* case 6: State is invalid if the send state is uninitialized.
* case 7: State is invalid if gas estimates are loading.
* case 8: State is invalid if gasLimit is less than the gasLimitMinimum.
*
* @param {SendStateDraft} state - A writable draft of the send state to be
* updated.
* @returns {void}
*/
validateSendState: (state) => {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
slice.caseReducers.addHistoryEntry(state, {
payload: 'Begin validating send state',
});
if (draftTransaction) {
switch (true) {
case Boolean(draftTransaction.amount.error):
slice.caseReducers.addHistoryEntry(state, {
payload: `Amount is in error ${draftTransaction.amount.error}`,
});
draftTransaction.status = SEND_STATUSES.INVALID;
break;
case Boolean(draftTransaction.gas.error):
slice.caseReducers.addHistoryEntry(state, {
payload: `Gas is in error ${draftTransaction.gas.error}`,
});
draftTransaction.status = SEND_STATUSES.INVALID;
break;
case Boolean(draftTransaction.asset.error):
slice.caseReducers.addHistoryEntry(state, {
payload: `Asset is in error ${draftTransaction.asset.error}`,
});
draftTransaction.status = SEND_STATUSES.INVALID;
break;
case draftTransaction.asset.type === AssetType.token &&
draftTransaction.asset.details === null:
slice.caseReducers.addHistoryEntry(state, {
payload: `Asset is TOKEN and token details is null`,
});
draftTransaction.status = SEND_STATUSES.INVALID;
break;
case state.stage === SEND_STAGES.ADD_RECIPIENT:
slice.caseReducers.addHistoryEntry(state, {
payload: `Form is invalid because stage is ADD_RECIPIENT`,
});
draftTransaction.status = SEND_STATUSES.INVALID;
break;
case state.stage === SEND_STAGES.INACTIVE:
slice.caseReducers.addHistoryEntry(state, {
payload: `Form is invalid because stage is INACTIVE`,
});
draftTransaction.status = SEND_STATUSES.INVALID;
break;
case state.gasEstimateIsLoading:
slice.caseReducers.addHistoryEntry(state, {
payload: `Form is invalid because gasEstimateIsLoading`,
});
draftTransaction.status = SEND_STATUSES.INVALID;
break;
case new BigNumber(draftTransaction.gas.gasLimit, 16).lessThan(
new BigNumber(state.gasLimitMinimum),
):
slice.caseReducers.addHistoryEntry(state, {
payload: `Form is invalid because ${draftTransaction.gas.gasLimit} is lessThan ${state.gasLimitMinimum}`,
});
draftTransaction.status = SEND_STATUSES.INVALID;
break;
case draftTransaction.recipient.warning === 'loading':
slice.caseReducers.addHistoryEntry(state, {
payload: `Form is invalid because recipient warning is loading`,
});
draftTransaction.status = SEND_STATUSES.INVALID;
break;
case draftTransaction.recipient.warning ===
KNOWN_RECIPIENT_ADDRESS_WARNING &&
draftTransaction.recipient.recipientWarningAcknowledged === false:
slice.caseReducers.addHistoryEntry(state, {
payload: `Form is invalid because recipient warning not acknolwedged`,
});
draftTransaction.status = SEND_STATUSES.INVALID;
break;
default:
slice.caseReducers.addHistoryEntry(state, {
payload: `Form is valid`,
});
draftTransaction.status = SEND_STATUSES.VALID;
}
}
},
},
extraReducers: (builder) => {
builder
.addCase(ACCOUNT_CHANGED, (state, action) => {
// This event occurs when the user's account details update due to
// background state changes. If the account that is being updated is
// the current from account on the edit flow we need to update
// the balance for the account and revalidate the send state.
if (state.stage === SEND_STAGES.EDIT && action.payload.account) {
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
if (
draftTransaction &&
draftTransaction.fromAccount &&
draftTransaction.fromAccount.address ===
action.payload.account.address
) {
draftTransaction.fromAccount.balance =
action.payload.account.balance;
// We need to update the asset balance if the asset is the native
// network asset. Once we update the balance we recompute error state.
if (draftTransaction.asset.type === AssetType.native) {
draftTransaction.asset.balance = action.payload.account.balance;
}
slice.caseReducers.validateAmountField(state);
slice.caseReducers.validateGasField(state);
slice.caseReducers.validateSendState(state);
}
}
})
.addCase(ADDRESS_BOOK_UPDATED, (state, action) => {
// When the address book updates from background state changes we need
// to check to see if an entry exists for the current address or if the
// entry changed.
const { addressBook } = action.payload;
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
if (
draftTransaction &&
addressBook[draftTransaction.recipient.address]?.name
) {
draftTransaction.recipient.nickname =
addressBook[draftTransaction.recipient.address].name;
}
})
.addCase(computeEstimatedGasLimit.pending, (state) => {
// When we begin to fetch gasLimit we should indicate we are loading
// a gas estimate.
state.gasEstimateIsLoading = true;
})
.addCase(computeEstimatedGasLimit.fulfilled, (state, action) => {
// When we receive a new gasLimit from the computeEstimatedGasLimit
// thunk we need to update our gasLimit in the slice. We call into the
// caseReducer updateGasLimit to tap into the appropriate follow up
// checks and gasTotal calculation. First set gasEstimateIsLoading to
// false.
state.gasEstimateIsLoading = false;
if (action.payload?.gasLimit) {
slice.caseReducers.updateGasLimit(state, {
payload: action.payload.gasLimit,
});
}
if (action.payload?.gasTotalForLayer1) {
slice.caseReducers.updateLayer1Fees(state, {
payload: action.payload.gasTotalForLayer1,
});
}
})
.addCase(computeEstimatedGasLimit.rejected, (state) => {
// If gas estimation fails, we should set the loading state to false,
// because it is no longer loading
state.gasEstimateIsLoading = false;
})
.addCase(GAS_FEE_ESTIMATES_UPDATED, (state, action) => {
// When the gasFeeController updates its gas fee estimates we need to
// update and validate state based on those new values
slice.caseReducers.updateGasFeeEstimates(state, {
payload: action.payload,
});
})
.addCase(initializeSendState.pending, (state) => {
// when we begin initializing state, which can happen when switching
// chains even after loading the send flow, we set gasEstimateIsLoading
// as initialization will trigger a fetch for gasPrice estimates.
state.gasEstimateIsLoading = true;
})
.addCase(initializeSendState.fulfilled, (state, action) => {
// writes the computed initialized state values into the slice and then
// calculates slice validity using the caseReducers.
state.eip1559support = action.payload.eip1559support;
state.selectedAccount.address = action.payload.account.address;
state.selectedAccount.balance = action.payload.account.balance;
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
if (draftTransaction) {
draftTransaction.gas.gasLimit = action.payload.gasLimit;
draftTransaction.gas.gasTotal = action.payload.gasTotal;
if (action.payload.chainHasChanged) {
// If the state was reinitialized as a result of the user changing
// the network from the network dropdown, then the selected asset is
// no longer valid and should be set to the native asset for the
// network.
draftTransaction.asset.type = AssetType.native;
draftTransaction.asset.balance =
draftTransaction.fromAccount?.balance ??
state.selectedAccount.balance;
draftTransaction.asset.details = null;
}
}
slice.caseReducers.updateGasFeeEstimates(state, {
payload: {
gasFeeEstimates: action.payload.gasFeeEstimates,
gasEstimateType: action.payload.gasEstimateType,
},
});
state.gasEstimatePollToken = action.payload.gasEstimatePollToken;
if (action.payload.gasEstimatePollToken) {
state.gasEstimateIsLoading = false;
}
if (state.stage !== SEND_STAGES.INACTIVE) {
slice.caseReducers.validateRecipientUserInput(state, {
payload: {
chainId: action.payload.chainId,
tokens: action.payload.tokens,
useTokenDetection: action.payload.useTokenDetection,
tokenAddressList: action.payload.tokenAddressList,
},
});
}
if (state.amountMode === AMOUNT_MODES.MAX) {
slice.caseReducers.updateAmountToMax(state);
}
slice.caseReducers.validateAmountField(state);
slice.caseReducers.validateGasField(state);
slice.caseReducers.validateSendState(state);
})
.addCase(SELECTED_ACCOUNT_CHANGED, (state, action) => {
// This event occurs when the user selects a new account from the
// account menu, or the currently active account's balance updates.
// We only care about new transactions, not edits, here, because we use
// the fromAccount and ACCOUNT_CHANGED action for that.
if (state.stage !== SEND_STAGES.EDIT && action.payload.account) {
state.selectedAccount.balance = action.payload.account.balance;
state.selectedAccount.address = action.payload.account.address;
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
// This action will occur even when we aren't on the send flow, which
// is okay as it keeps the selectedAccount details up to date. We do
// not need to validate anything if there isn't a current draft
// transaction. If there is, we need to update the asset balance if
// the asset is set to the native network asset, and then validate
// the transaction.
if (draftTransaction) {
if (draftTransaction?.asset.type === AssetType.native) {
draftTransaction.asset.balance = action.payload.account.balance;
}
slice.caseReducers.validateAmountField(state);
slice.caseReducers.validateGasField(state);
slice.caseReducers.validateSendState(state);
}
}
})
.addCase(QR_CODE_DETECTED, (state, action) => {
// When data is received from the QR Code Scanner we set the recipient
// as long as a valid address can be pulled from the data. If an
// address is pulled but it is invalid, we display an error.
const qrCodeData = action.value;
const draftTransaction =
state.draftTransactions[state.currentTransactionUUID];
if (qrCodeData && draftTransaction) {
if (qrCodeData.type === 'address') {
const scannedAddress = qrCodeData.values.address.toLowerCase();
if (
isValidHexAddress(scannedAddress, { allowNonPrefixed: false })
) {
if (draftTransaction.recipient.address !== scannedAddress) {
slice.caseReducers.updateRecipient(state, {
payload: { address: scannedAddress },
});
}
} else {
draftTransaction.recipient.error =
INVALID_RECIPIENT_ADDRESS_ERROR;
}
}
}
});
},
});
const { actions, reducer } = slice;
export default reducer;
const {
useDefaultGas,
useCustomGas,
updateGasLimit,
validateRecipientUserInput,
updateRecipientSearchMode,
addHistoryEntry,
acknowledgeRecipientWarning,
} = actions;
export {
useDefaultGas,
useCustomGas,
updateGasLimit,
addHistoryEntry,
acknowledgeRecipientWarning,
};
// Action Creators
/**
* This method is for usage when validating user input so that validation
* is only run after a delay in typing of 300ms. Usage at callsites requires
* passing in both the dispatch method and the payload to dispatch, which makes
* it only applicable for use within action creators.
*/
const debouncedValidateRecipientUserInput = debounce(
(dispatch, payload, resolve) => {
dispatch(
addHistoryEntry(
`sendFlow - user typed ${payload.userInput} into recipient input field`,
),
);
dispatch(validateRecipientUserInput(payload));
resolve();
},
300,
);
/**
* Begins a new draft transaction, derived from the txParams of an existing
* transaction in the TransactionController. This action will first clear out
* the previous draft transactions and currentTransactionUUID from state. This
* action is one of the two entry points into the send flow. NOTE: You must
* route to the send page *after* dispatching this action resolves to ensure
* that the draftTransaction is properly created.
*
* @param {AssetType} assetType - The type of asset the transaction
* being edited was sending. The details of the asset will be retrieved from
* the transaction data in state.
* @param {string} transactionId - The id of the transaction being edited.
* @returns {ThunkAction<void>}
*/
export function editExistingTransaction(assetType, transactionId) {
return async (dispatch, getState) => {
await dispatch(actions.clearPreviousDrafts());
const state = getState();
const unapprovedTransactions = getUnapprovedTxs(state);
const transaction = unapprovedTransactions[transactionId];
const account = getTargetAccount(state, transaction.txParams.from);
if (assetType === AssetType.native) {
await dispatch(
actions.addNewDraft({
...draftTransactionInitialState,
id: transactionId,
fromAccount: account,
gas: {
...draftTransactionInitialState.gas,
gasLimit: transaction.txParams.gas,
gasPrice: transaction.txParams.gasPrice,
},
userInputHexData: transaction.txParams.data,
recipient: {
...draftTransactionInitialState.recipient,
address: transaction.txParams.to,
nickname:
getAddressBookEntryOrAccountName(
state,
transaction.txParams.to,
) ?? '',
},
amount: {
...draftTransactionInitialState.amount,
value: transaction.txParams.value,
},
history: [
`sendFlow - user clicked edit on transaction with id ${transactionId}`,
],
}),
);
await dispatch(
updateSendAsset({ type: AssetType.native }, { initialAssetSet: true }),
);
} else {
const tokenData = parseStandardTokenTransactionData(
transaction.txParams.data,
);
const tokenAmountInDec =
assetType === AssetType.token ? getTokenValueParam(tokenData) : '1';
const address = getTokenAddressParam(tokenData);
const nickname = getAddressBookEntryOrAccountName(state, address) ?? '';
const tokenAmountInHex = addHexPrefix(decimalToHex(tokenAmountInDec));
await dispatch(
actions.addNewDraft({
...draftTransactionInitialState,
id: transactionId,
fromAccount: account,
gas: {
...draftTransactionInitialState.gas,
gasLimit: transaction.txParams.gas,
gasPrice: transaction.txParams.gasPrice,
},
userInputHexData: transaction.txParams.data,
recipient: {
...draftTransactionInitialState.recipient,
address,
nickname,
},
amount: {
...draftTransactionInitialState.amount,
value: tokenAmountInHex,
},
history: [
`sendFlow - user clicked edit on transaction with id ${transactionId}`,
],
}),
);
await dispatch(
updateSendAsset(
{
type: assetType,
details: {
address: transaction.txParams.to,
...(assetType === AssetType.NFT
? {
tokenId:
getTokenIdParam(tokenData) ??
getTokenValueParam(tokenData),
}
: {}),
},
},
{ initialAssetSet: true },
),
);
}
await dispatch(initializeSendState());
};
}
/**
* This method is a temporary placeholder to support the old UI in both the
* gas modal and the send flow. Soon we won't need to modify gasPrice from the
* send flow based on user input, it'll just be a shallow copy of the current
* estimate. This method is necessary because the internal structure of this
* slice has been changed such that it is agnostic to transaction envelope
* type, and this method calls into the new structure in the appropriate way.
*
* @deprecated - don't extend the usage of this temporary method
* @param {string} gasPrice - new gas price in hex wei
* @returns {ThunkAction<void>}
*/
export function updateGasPrice(gasPrice) {
return (dispatch) => {
dispatch(
addHistoryEntry(`sendFlow - user set legacy gasPrice to ${gasPrice}`),
);
dispatch(
actions.updateGasFees({
gasPrice,
transactionType: TransactionEnvelopeType.legacy,
manuallyEdited: true,
}),
);
};
}
/**
* Updates the recipient in state based on the input provided, and then will
* recompute gas limit when sending a TOKEN asset type. Changing the recipient
* address results in hex data changing because the recipient address is
* encoded in the data instead of being in the 'to' field. The to field in a
* token send will always be the token contract address.
* If no nickname is provided, the address book state will be checked to see if
* a nickname for the passed address has already been saved. This ensures the
* (temporary) send state recipient nickname is consistent with the address book
* nickname which has already been persisted to state.
*
* @param {object} recipient - Recipient information
* @param {string} recipient.address - hex address to send the transaction to
* @param {string} [recipient.nickname] - Alias for the address to display
* to the user
* @returns {ThunkAction<void>}
*/
export function updateRecipient({ address, nickname }) {
return async (dispatch, getState) => {
// Do not addHistoryEntry here as this is called from a number of places
// each with significance to the user and transaction history.
const state = getState();
const nicknameFromAddressBookEntryOrAccountName =
getAddressBookEntryOrAccountName(state, address) ?? '';
await dispatch(
actions.updateRecipient({
address,
nickname: nickname || nicknameFromAddressBookEntryOrAccountName,
}),
);
await dispatch(computeEstimatedGasLimit());
};
}
/**
* This method is called to update the user's input into the ENS input field.
* Once the field is updated, the field will be validated using a debounced
* version of the validateRecipientUserInput action. This way validation only
* occurs once the user has stopped typing.
*
* @param {string} userInput - the value that the user is typing into the field
*/
export function updateRecipientUserInput(userInput) {
return async (dispatch, getState) => {
dispatch(actions.updateRecipientWarning('loading'));
dispatch(actions.updateDraftTransactionStatus(SEND_STATUSES.INVALID));
await dispatch(actions.updateRecipientUserInput(userInput));
const state = getState();
const draftTransaction =
state[name].draftTransactions[state[name].currentTransactionUUID];
const sendingAddress =
draftTransaction.fromAccount?.address ??
state[name].selectedAccount.address ??
getSelectedAddress(state);
const chainId = getCurrentChainId(state);
const tokens = getTokens(state);
const useTokenDetection = getUseTokenDetection(state);
const tokenMap = getTokenList(state);
const tokenAddressList = Object.keys(tokenMap);
const inputIsValidHexAddress = isValidHexAddress(userInput);
let isProbablyAnAssetContract = false;
if (inputIsValidHexAddress) {
const smartContractAddress = await isSmartContractAddress(userInput);
if (smartContractAddress) {
dispatch(actions.updateRecipientType(RECIPIENT_TYPES.SMART_CONTRACT));
const { symbol, decimals } =
getTokenMetadata(userInput, tokenMap) || {};
isProbablyAnAssetContract = symbol && decimals !== undefined;
if (!isProbablyAnAssetContract) {
try {
const { standard } = await getTokenStandardAndDetails(
userInput,
sendingAddress,
);
isProbablyAnAssetContract = Boolean(standard);
} catch (e) {
console.log(e);
}
}
}
}
return new Promise((resolve) => {
debouncedValidateRecipientUserInput(
dispatch,
{
userInput,
chainId,
tokens,
useTokenDetection,
tokenAddressList,
isProbablyAnAssetContract,
},
resolve,
);
});
};
}
/**
* Updates the amount the user intends to send and performs side effects.
* 1. If the current mode is MAX change to INPUT
* 2. If sending a token, recompute the gasLimit estimate
*
* @param {string} amount - hex string representing value
* @returns {ThunkAction<void>}
*/
export function updateSendAmount(amount) {
return async (dispatch, getState) => {
const state = getState();
const { ticker } = getProviderConfig(state);
const draftTransaction =
state[name].draftTransactions[state[name].currentTransactionUUID];
let logAmount = amount;
if (draftTransaction.asset.type === AssetType.token) {
const multiplier = Math.pow(
10,
Number(draftTransaction.asset.details?.decimals || 0),
);
const decimalValueString = new Numeric(addHexPrefix(amount), 16)
.toBase(10)
.applyConversionRate(
draftTransaction.asset.details?.symbol ? multiplier : 1,
true,
)
.toString();
logAmount = `${Number(decimalValueString) ? decimalValueString : ''} ${
draftTransaction.asset.details?.symbol
}`;
} else {
const ethValue = getValueFromWeiHex({
value: amount,
toCurrency: EtherDenomination.ETH,
numberOfDecimals: 8,
});
logAmount = `${ethValue} ${ticker || EtherDenomination.ETH}`;
}
await dispatch(
addHistoryEntry(`sendFlow - user set amount to ${logAmount}`),
);
await dispatch(actions.updateSendAmount(amount));
if (state[name].amountMode === AMOUNT_MODES.MAX) {
await dispatch(actions.updateAmountMode(AMOUNT_MODES.INPUT));
}
await dispatch(computeEstimatedGasLimit());
};
}
/**
* updates the asset to send to one of NATIVE or TOKEN and ensures that the
* asset balance is set. If sending a TOKEN also updates the asset details
* object with the appropriate ERC20 details including address, symbol and
* decimals.
*
* @param {object} payload - action payload
* @param {string} payload.type - type of asset to send
* @param {TokenDetails} [payload.details] - ERC20 details if sending TOKEN asset
* @param payload.skipComputeEstimatedGasLimit
* @returns {ThunkAction<void>}
*/
export function updateSendAsset(
{ type, details: providedDetails, skipComputeEstimatedGasLimit },
{ initialAssetSet = false } = {},
) {
return async (dispatch, getState) => {
const state = getState();
const { ticker } = getProviderConfig(state);
const draftTransaction =
state[name].draftTransactions[state[name].currentTransactionUUID];
const sendingAddress =
draftTransaction.fromAccount?.address ??
state[name].selectedAccount.address ??
getSelectedAddress(state);
const account = getTargetAccount(state, sendingAddress);
if (type === AssetType.native) {
const unapprovedTxs = getUnapprovedTxs(state);
const unapprovedTx = unapprovedTxs?.[draftTransaction.id];
await dispatch(
addHistoryEntry(
`sendFlow - user set asset of type ${AssetType.native} with symbol ${
ticker ?? EtherDenomination.ETH
}`,
),
);
await dispatch(
actions.updateAsset({
asset: {
type,
details: null,
balance: account.balance,
error: null,
},
initialAssetSet,
}),
);
// This is meant to handle cases where we are editing an unapprovedTx from the background state
// and its type is a token method. In such a case, the hex data will be the necessary hex data
// for calling the contract transfer method.
// Now that we are updating the transaction to be a send of a native asset type, we should
// set the hex data of the transaction being editing to be empty.
// then the user will not want to send any hex data now that they have change the
if (
unapprovedTx?.type === TransactionType.tokenMethodTransferFrom ||
unapprovedTx?.type === TransactionType.tokenMethodTransfer ||
unapprovedTx?.type === TransactionType.tokenMethodSafeTransferFrom
) {
await dispatch(actions.updateUserInputHexData(''));
}
} else {
await dispatch(showLoadingIndication());
const details = {
...providedDetails,
...(await getTokenStandardAndDetails(
providedDetails.address,
sendingAddress,
providedDetails.tokenId,
)),
};
await dispatch(hideLoadingIndication());
const asset = {
type,
details,
error: null,
};
if (details.standard === TokenStandard.ERC20) {
asset.balance = addHexPrefix(
calcTokenAmount(details.balance, details.decimals).toString(16),
);
await dispatch(
addHistoryEntry(
`sendFlow - user set asset to ERC20 token with symbol ${details.symbol} and address ${details.address}`,
),
);
} else if (
details.standard === TokenStandard.ERC1155 &&
type === AssetType.NFT
) {
throw new Error('Sends of ERC1155 tokens are not currently supported');
} else if (
details.standard === TokenStandard.ERC1155 ||
details.standard === TokenStandard.ERC721
) {
if (type === AssetType.token) {
dispatch(
showModal({
name: 'CONVERT_TOKEN_TO_NFT',
tokenAddress: details.address,
}),
);
asset.error = INVALID_ASSET_TYPE;
throw new Error(INVALID_ASSET_TYPE);
} else {
let isCurrentOwner = true;
try {
isCurrentOwner = await isNftOwner(
sendingAddress,
details.address,
details.tokenId,
);
} catch (err) {
if (err.message.includes('Unable to verify ownership.')) {
// this would indicate that either our attempts to verify ownership failed because of network issues,
// or, somehow a token has been added to NFTs state with an incorrect chainId.
} else {
// Any other error is unexpected and should be surfaced.
dispatch(displayWarning(err.message));
}
}
if (isCurrentOwner) {
asset.error = null;
asset.balance = '0x1';
} else {
throw new Error(
'Send slice initialized as NFT send with an NFT not currently owned by the select account',
);
}
await dispatch(
addHistoryEntry(
`sendFlow - user set asset to NFT with tokenId ${details.tokenId} and address ${details.address}`,
),
);
}
}
await dispatch(actions.updateAsset({ asset, initialAssetSet }));
}
if (initialAssetSet === false && !skipComputeEstimatedGasLimit) {
await dispatch(computeEstimatedGasLimit());
}
};
}
/**
* When a user has enabled hex data field in advanced settings they will be
* able to supply hex data on a transaction. This method updates the user
* supplied data. Note, when sending native assets this will result in
* recomputing estimated gasLimit. When sending a ERC20 asset this is not done
* because the data sent in the transaction will be determined by the asset,
* recipient and value, NOT what the user has supplied.
*
* @param {string} hexData - hex encoded string representing transaction data.
* @returns {ThunkAction<void>}
*/
export function updateSendHexData(hexData) {
return async (dispatch, getState) => {
await dispatch(
addHistoryEntry(`sendFlow - user added custom hexData ${hexData}`),
);
await dispatch(actions.updateUserInputHexData(hexData));
const state = getState();
const draftTransaction =
state[name].draftTransactions[state[name].currentTransactionUUID];
if (draftTransaction.asset.type === AssetType.native) {
await dispatch(computeEstimatedGasLimit());
}
};
}
/**
* Sets the recipient search mode to show a list of the user's contacts and
* recently interacted with addresses.
*
* @returns {ThunkAction<void>}
*/
export function useContactListForRecipientSearch() {
return (dispatch) => {
dispatch(
addHistoryEntry(
`sendFlow - user selected back to all on recipient screen`,
),
);
dispatch(updateRecipientSearchMode(RECIPIENT_SEARCH_MODES.CONTACT_LIST));
};
}
/**
* Sets the recipient search mode to show a list of the user's own accounts.
*
* @returns {ThunkAction<void>}
*/
export function useMyAccountsForRecipientSearch() {
return (dispatch) => {
dispatch(
addHistoryEntry(
`sendFlow - user selected transfer to my accounts on recipient screen`,
),
);
dispatch(updateRecipientSearchMode(RECIPIENT_SEARCH_MODES.MY_ACCOUNTS));
};
}
/**
* Clears out the recipient user input, ENS resolution and recipient validation.
*
* @returns {ThunkAction<void>}
*/
export function resetRecipientInput() {
return async (dispatch, getState) => {
const state = getState();
const chainId = getCurrentChainId(state);
await dispatch(addHistoryEntry(`sendFlow - user cleared recipient input`));
await dispatch(updateRecipientUserInput(''));
await dispatch(updateRecipient({ address: '', nickname: '' }));
await dispatch(resetDomainResolution());
await dispatch(validateRecipientUserInput({ chainId }));
};
}
/**
* Resets the entire send state tree to the initial state. It also disconnects
* polling from the gas controller if the token is present in state.
*
* @returns {ThunkAction<void>}
*/
export function resetSendState() {
return async (dispatch, getState) => {
const state = getState();
dispatch(actions.resetSendState());
if (state[name].gasEstimatePollToken) {
await disconnectGasFeeEstimatePoller(state[name].gasEstimatePollToken);
removePollingTokenFromAppState(state[name].gasEstimatePollToken);
}
};
}
/**
* Signs a transaction or updates a transaction in state if editing.
* This method is called when a user clicks the next button in the footer of
* the send page, signaling that a transaction should be executed. This method
* will create the transaction in state (by way of the various global provider
* constructs) which will eventually (and fairly quickly from user perspective)
* result in a confirmation window being displayed for the transaction.
*
* @returns {ThunkAction<void>}
*/
export function signTransaction() {
return async (dispatch, getState) => {
const state = getState();
const { stage, eip1559support } = state[name];
const txParams = generateTransactionParams(state[name]);
const draftTransaction =
state[name].draftTransactions[state[name].currentTransactionUUID];
if (stage === SEND_STAGES.EDIT) {
// When dealing with the edit flow there is already a transaction in
// state that we must update, this branch is responsible for that logic.
// We first must grab the previous transaction object from state and then
// merge in the modified txParams. Once the transaction has been modified
// we can send that to the background to update the transaction in state.
const unapprovedTxs = getUnapprovedTxs(state);
const unapprovedTx = cloneDeep(unapprovedTxs[draftTransaction.id]);
// We only update the tx params that can be changed via the edit flow UX
const eip1559OnlyTxParamsToUpdate = {
data: txParams.data,
from: txParams.from,
to: txParams.to,
value: txParams.value,
gas: unapprovedTx.userEditedGasLimit
? unapprovedTx.txParams.gas
: txParams.gas,
};
unapprovedTx.originalGasEstimate = eip1559OnlyTxParamsToUpdate.gas;
const editingTx = {
...unapprovedTx,
txParams: Object.assign(
unapprovedTx.txParams,
eip1559support ? eip1559OnlyTxParamsToUpdate : txParams,
),
};
await dispatch(
addHistoryEntry(
`sendFlow - user clicked next and transaction should be updated in controller`,
),
);
await dispatch(
updateTransactionSendFlowHistory(
draftTransaction.id,
unapprovedTx.sendFlowHistory?.length || 0,
draftTransaction.history,
),
);
await dispatch(
updateEditableParams(draftTransaction.id, editingTx.txParams),
);
await dispatch(
updateTransactionGasFees(draftTransaction.id, editingTx.txParams),
);
} else {
let transactionType =
draftTransaction.recipient.type === RECIPIENT_TYPES.SMART_CONTRACT
? TransactionType.contractInteraction
: TransactionType.simpleSend;
if (draftTransaction.asset.type !== AssetType.native) {
transactionType =
draftTransaction.asset.type === AssetType.NFT
? TransactionType.tokenMethodTransferFrom
: TransactionType.tokenMethodTransfer;
}
await dispatch(
addHistoryEntry(
`sendFlow - user clicked next and transaction should be added to controller`,
),
);
dispatch(
addTransactionAndRouteToConfirmationPage(txParams, {
sendFlowHistory: draftTransaction.history,
type: transactionType,
}),
);
}
};
}
/**
* Toggles the amount.mode between INPUT and MAX modes.
* As a result, the amount.value will change to either '0x0' when moving from
* MAX to INPUT, or to the maximum allowable amount based on current asset when
* moving from INPUT to MAX.
*
* @returns {ThunkAction<void>}
*/
export function toggleSendMaxMode() {
return async (dispatch, getState) => {
const state = getState();
if (state[name].amountMode === AMOUNT_MODES.MAX) {
await dispatch(actions.updateAmountMode(AMOUNT_MODES.INPUT));
await dispatch(actions.updateSendAmount('0x0'));
await dispatch(addHistoryEntry(`sendFlow - user toggled max mode off`));
} else {
await dispatch(actions.updateAmountMode(AMOUNT_MODES.MAX));
await dispatch(actions.updateAmountToMax());
await dispatch(addHistoryEntry(`sendFlow - user toggled max mode on`));
}
await dispatch(computeEstimatedGasLimit());
};
}
/**
* Begins a new draft transaction, clearing out the previous draft transactions
* from state, and clearing the currentTransactionUUID. This action is one of
* the two entry points into the send flow. NOTE: You must route to the send
* page *after* dispatching this action resolves to ensure that the
* draftTransaction is properly created.
*
* @param {Pick<Asset, 'type' | 'details'>} asset - A partial asset
* object containing at least the asset type. If specifying a non-native asset
* then the asset details must be included with at least the address.
* @returns {ThunkAction<void>}
*/
export function startNewDraftTransaction(asset) {
return async (dispatch) => {
await dispatch(actions.clearPreviousDrafts());
await dispatch(
actions.addNewDraft({
...draftTransactionInitialState,
history: [`sendFlow - User started new draft transaction`],
}),
);
await dispatch(
updateSendAsset({
type: asset.type ?? AssetType.native,
details: asset.details,
skipComputeEstimatedGasLimit: true,
}),
);
await dispatch(initializeSendState());
};
}
// Selectors
/**
* The following typedef is a shortcut for typing selectors below. It uses a
* generic type, T, so that each selector can specify it's return type.
*
* @template T
* @typedef {(state: MetaMaskState) => T} Selector
*/
/**
* Selector that returns the current draft transaction's UUID.
*
* @type {Selector<string>}
*/
export function getCurrentTransactionUUID(state) {
return state[name].currentTransactionUUID;
}
/**
* Selector that returns the current draft transaction.
*
* @type {Selector<DraftTransaction>}
*/
export function getCurrentDraftTransaction(state) {
return state[name].draftTransactions[getCurrentTransactionUUID(state)] ?? {};
}
/**
* Selector that returns true if a draft transaction exists.
*
* @type {Selector<boolean>}
*/
export function getDraftTransactionExists(state) {
const draftTransaction = getCurrentDraftTransaction(state);
if (Object.keys(draftTransaction).length === 0) {
return false;
}
return true;
}
// Gas selectors
/**
* Selector that returns the current draft transaction's gasLimit.
*
* @type {Selector<?string>}
*/
export function getGasLimit(state) {
return getCurrentDraftTransaction(state).gas?.gasLimit;
}
/**
* Selector that returns the current draft transaction's gasPrice.
*
* @type {Selector<?string>}
*/
export function getGasPrice(state) {
return getCurrentDraftTransaction(state).gas?.gasPrice;
}
/**
* Selector that returns the current draft transaction's gasTotal.
*
* @type {Selector<?string>}
*/
export function getGasTotal(state) {
return getCurrentDraftTransaction(state).gas?.gasTotal;
}
/**
* Selector that returns the error, if present, for the gas fields.
*
* @type {Selector<?string>}
*/
export function gasFeeIsInError(state) {
return Boolean(getCurrentDraftTransaction(state).gas?.error);
}
/**
* Selector that returns the minimum gasLimit for the current network.
*
* @type {Selector<string>}
*/
export function getMinimumGasLimitForSend(state) {
return state[name].gasLimitMinimum;
}
/**
* Selector that returns the current draft transaction's gasLimit.
*
* @type {Selector<MapValuesToUnion<SendStateGasModes>>}
*/
export function getGasInputMode(state) {
const isMainnet = getIsMainnet(state);
const gasEstimateType = getGasEstimateType(state);
const showAdvancedGasFields = getAdvancedInlineGasShown(state);
if (state[name].gasIsSetInModal) {
return GAS_INPUT_MODES.CUSTOM;
}
if ((!isMainnet && !process.env.IN_TEST) || showAdvancedGasFields) {
return GAS_INPUT_MODES.INLINE;
}
// We get eth_gasPrice estimation if the legacy API fails but we need to
// instruct the UI to render the INLINE inputs in this case, only on
// mainnet or IN_TEST.
if (
(isMainnet || process.env.IN_TEST) &&
gasEstimateType === GasEstimateTypes.ethGasPrice
) {
return GAS_INPUT_MODES.INLINE;
}
return GAS_INPUT_MODES.BASIC;
}
// Asset Selectors
/**
* Selector that returns the asset the current draft transaction is sending.
*
* @type {Selector<?Asset>}
*/
export function getSendAsset(state) {
return getCurrentDraftTransaction(state).asset;
}
/**
* Selector that returns the contract address of the non-native asset that
* the current transaction is sending, if it exists.
*
* @type {Selector<?string>}
*/
export function getSendAssetAddress(state) {
return getSendAsset(state)?.details?.address;
}
/**
* Selector that returns a boolean value describing whether the currently
* selected asset is sendable, based upon the standard of the token.
*
* @type {Selector<boolean>}
*/
export function getIsAssetSendable(state) {
if (getSendAsset(state)?.type === AssetType.native) {
return true;
}
return getSendAsset(state)?.details?.isERC721 === false;
}
/**
* Selector that returns the asset error if it exists.
*
* @type {Selector<?string>}
*/
export function getAssetError(state) {
return getSendAsset(state).error;
}
// Amount Selectors
/**
* Selector that returns the amount that current draft transaction is sending.
*
* @type {Selector<?string>}
*/
export function getSendAmount(state) {
return getCurrentDraftTransaction(state).amount?.value;
}
/**
* Selector that returns true if the user has enough native asset balance to
* cover the cost of the transaction.
*
* @type {Selector<boolean>}
*/
export function getIsBalanceInsufficient(state) {
return (
getCurrentDraftTransaction(state).gas?.error === INSUFFICIENT_FUNDS_ERROR
);
}
/**
* Selector that returns the amoung send mode, either MAX or INPUT.
*
* @type {Selector<boolean>}
*/
export function getSendMaxModeState(state) {
return state[name].amountMode === AMOUNT_MODES.MAX;
}
/**
* Selector that returns the current draft transaction's data field.
*
* @type {Selector<?string>}
*/
export function getSendHexData(state) {
return getCurrentDraftTransaction(state).userInputHexData;
}
/**
* Selector that returns the current draft transaction's id, if present.
*
* @type {Selector<?string>}
*/
export function getDraftTransactionID(state) {
return getCurrentDraftTransaction(state).id;
}
/**
* Selector that returns true if there is an error on the amount field.
*
* @type {Selector<boolean>}
*/
export function sendAmountIsInError(state) {
return Boolean(getCurrentDraftTransaction(state).amount?.error);
}
// Recipient Selectors
/**
* Selector that returns the current draft transaction's recipient.
*
* @type {Selector<DraftTransaction['recipient']>}
*/
export function getRecipient(state) {
const draft = getCurrentDraftTransaction(state);
if (!draft.recipient) {
return {
address: '',
nickname: '',
error: null,
warning: null,
};
}
const checksummedAddress = toChecksumHexAddress(draft.recipient.address);
if (state.metamask.ensResolutionsByAddress) {
return {
...draft.recipient,
nickname:
draft.recipient.nickname ||
getEnsResolutionByAddress(state, checksummedAddress),
};
}
return draft.recipient;
}
/**
* Selector that returns the addres of the current draft transaction's
* recipient.
*
* @type {Selector<?string>}
*/
export function getSendTo(state) {
return getRecipient(state)?.address;
}
/**
* Selector that returns true if the current recipientMode is MY_ACCOUNTS
*
* @type {Selector<boolean>}
*/
export function getIsUsingMyAccountForRecipientSearch(state) {
return state[name].recipientMode === RECIPIENT_SEARCH_MODES.MY_ACCOUNTS;
}
/**
* Selector that returns the value that the user has typed into the recipient
* input field.
*
* @type {Selector<?string>}
*/
export function getRecipientUserInput(state) {
return state[name].recipientInput;
}
export function getRecipientWarningAcknowledgement(state) {
return (
getCurrentDraftTransaction(state).recipient?.recipientWarningAcknowledged ??
false
);
}
// Overall validity and stage selectors
/**
* Selector that returns the gasFee and amount errors, if they exist.
*
* @type {Selector<{ gasFee?: string, amount?: string}>}
*/
export function getSendErrors(state) {
return {
gasFee: getCurrentDraftTransaction(state).gas?.error,
amount: getCurrentDraftTransaction(state).amount?.error,
};
}
/**
* Selector that returns true if the stage is anything except INACTIVE
*
* @type {Selector<boolean>}
*/
export function isSendStateInitialized(state) {
return state[name].stage !== SEND_STAGES.INACTIVE;
}
/**
* Selector that returns true if the current draft transaction is valid and in
* a sendable state.
*
* @type {Selector<boolean>}
*/
export function isSendFormInvalid(state) {
const draftTransaction = getCurrentDraftTransaction(state);
if (!draftTransaction) {
return true;
}
return draftTransaction.status === SEND_STATUSES.INVALID;
}
/**
* Selector that returns the current stage of the send flow
*
* @type {Selector<MapValuesToUnion<SendStateStages>>}
*/
export function getSendStage(state) {
return state[name].stage;
}