import * as _ from 'lodash';
import * as BigNumber from 'bignumber.js';
import {SchemaValidator, schemas} from '0x-json-schemas';
import promisify = require('es6-promisify');
import {Web3Wrapper} from '../web3_wrapper';
import {
ECSignature,
ExchangeContract,
ExchangeContractErrCodes,
ExchangeContractErrs,
ZeroExError,
OrderValues,
OrderAddresses,
Order,
OrderFillOrKillRequest,
SignedOrder,
ContractEvent,
ExchangeEvents,
ContractEventEmitter,
SubscriptionOpts,
IndexedFilterValues,
CreateContractEvent,
ContractEventObj,
OrderCancellationRequest,
OrderFillRequest,
LogErrorContractEventArgs,
LogFillContractEventArgs,
LogCancelContractEventArgs,
LogWithDecodedArgs,
MethodOpts,
} from '../types';
import {assert} from '../utils/assert';
import {utils} from '../utils/utils';
import {eventUtils} from '../utils/event_utils';
import {OrderValidationUtils} from '../utils/order_validation_utils';
import {ContractWrapper} from './contract_wrapper';
import {constants} from '../utils/constants';
import {TokenWrapper} from './token_wrapper';
import {decorators} from '../utils/decorators';
import {artifacts} from '../artifacts';
/**
* This class includes all the functionality related to calling methods and subscribing to
* events of the 0x Exchange smart contract.
*/
export class ExchangeWrapper extends ContractWrapper {
private _exchangeContractIfExists?: ExchangeContract;
private _exchangeLogEventEmitters: ContractEventEmitter[];
private _orderValidationUtils: OrderValidationUtils;
private _tokenWrapper: TokenWrapper;
private _exchangeContractErrCodesToMsg = {
[ExchangeContractErrCodes.ERROR_FILL_EXPIRED]: ExchangeContractErrs.OrderFillExpired,
[ExchangeContractErrCodes.ERROR_CANCEL_EXPIRED]: ExchangeContractErrs.OrderFillExpired,
[ExchangeContractErrCodes.ERROR_FILL_NO_VALUE]: ExchangeContractErrs.OrderRemainingFillAmountZero,
[ExchangeContractErrCodes.ERROR_CANCEL_NO_VALUE]: ExchangeContractErrs.OrderRemainingFillAmountZero,
[ExchangeContractErrCodes.ERROR_FILL_TRUNCATION]: ExchangeContractErrs.OrderFillRoundingError,
[ExchangeContractErrCodes.ERROR_FILL_BALANCE_ALLOWANCE]: ExchangeContractErrs.FillBalanceAllowanceError,
};
private _contractAddressIfExists?: string;
private static _getOrderAddressesAndValues(order: Order): [OrderAddresses, OrderValues] {
const orderAddresses: OrderAddresses = [
order.maker,
order.taker,
order.makerTokenAddress,
order.takerTokenAddress,
order.feeRecipient,
];
const orderValues: OrderValues = [
order.makerTokenAmount,
order.takerTokenAmount,
order.makerFee,
order.takerFee,
order.expirationUnixTimestampSec,
order.salt,
];
return [orderAddresses, orderValues];
}
constructor(web3Wrapper: Web3Wrapper, tokenWrapper: TokenWrapper, contractAddressIfExists?: string) {
super(web3Wrapper);
this._tokenWrapper = tokenWrapper;
this._orderValidationUtils = new OrderValidationUtils(tokenWrapper, this);
this._exchangeLogEventEmitters = [];
this._contractAddressIfExists = contractAddressIfExists;
}
/**
* Returns the unavailable takerAmount of an order. Unavailable amount is defined as the total
* amount that has been filled or cancelled. The remaining takerAmount can be calculated by
* subtracting the unavailable amount from the total order takerAmount.
* @param orderHash The hex encoded orderHash for which you would like to retrieve the
* unavailable takerAmount.
* @param methodOpts Optional arguments this method accepts.
* @return The amount of the order (in taker tokens) that has either been filled or canceled.
*/
public async getUnavailableTakerAmountAsync(orderHash: string,
methodOpts?: MethodOpts): Promise<BigNumber.BigNumber> {
assert.doesConformToSchema('orderHash', orderHash, schemas.orderHashSchema);
const exchangeContract = await this._getExchangeContractAsync();
const defaultBlock = _.isUndefined(methodOpts) ? undefined : methodOpts.defaultBlock;
let unavailableTakerTokenAmount = await exchangeContract.getUnavailableTakerTokenAmount.callAsync(
orderHash, defaultBlock,
);
// Wrap BigNumbers returned from web3 with our own (later) version of BigNumber
unavailableTakerTokenAmount = new BigNumber(unavailableTakerTokenAmount);
return unavailableTakerTokenAmount;
}
/**
* Retrieve the takerAmount of an order that has already been filled.
* @param orderHash The hex encoded orderHash for which you would like to retrieve the filled takerAmount.
* @param methodOpts Optional arguments this method accepts.
* @return The amount of the order (in taker tokens) that has already been filled.
*/
public async getFilledTakerAmountAsync(orderHash: string, methodOpts?: MethodOpts): Promise<BigNumber.BigNumber> {
assert.doesConformToSchema('orderHash', orderHash, schemas.orderHashSchema);
const exchangeContract = await this._getExchangeContractAsync();
const defaultBlock = _.isUndefined(methodOpts) ? undefined : methodOpts.defaultBlock;
let fillAmountInBaseUnits = await exchangeContract.filled.callAsync(orderHash, defaultBlock);
// Wrap BigNumbers returned from web3 with our own (later) version of BigNumber
fillAmountInBaseUnits = new BigNumber(fillAmountInBaseUnits);
return fillAmountInBaseUnits;
}
/**
* Retrieve the takerAmount of an order that has been cancelled.
* @param orderHash The hex encoded orderHash for which you would like to retrieve the
* cancelled takerAmount.
* @param methodOpts Optional arguments this method accepts.
* @return The amount of the order (in taker tokens) that has been cancelled.
*/
public async getCanceledTakerAmountAsync(orderHash: string, methodOpts?: MethodOpts): Promise<BigNumber.BigNumber> {
assert.doesConformToSchema('orderHash', orderHash, schemas.orderHashSchema);
const exchangeContract = await this._getExchangeContractAsync();
const defaultBlock = _.isUndefined(methodOpts) ? undefined : methodOpts.defaultBlock;
let cancelledAmountInBaseUnits = await exchangeContract.cancelled.callAsync(orderHash, defaultBlock);
// Wrap BigNumbers returned from web3 with our own (later) version of BigNumber
cancelledAmountInBaseUnits = new BigNumber(cancelledAmountInBaseUnits);
return cancelledAmountInBaseUnits;
}
/**
* Fills a signed order with an amount denominated in baseUnits of the taker token.
* Since the order in which transactions are included in the next block is indeterminate, race-conditions
* could arise where a users balance or allowance changes before the fillOrder executes. Because of this,
* we allow you to specify `shouldThrowOnInsufficientBalanceOrAllowance`.
* If false, the smart contract will not throw if the parties
* do not have sufficient balances/allowances, preserving gas costs. Setting it to true forgoes this check
* and causes the smart contract to throw (using all the gas supplied) instead.
* @param signedOrder An object that conforms to the SignedOrder interface.
* @param fillTakerTokenAmount The amount of the order (in taker tokens baseUnits) that
* you wish to fill.
* @param shouldThrowOnInsufficientBalanceOrAllowance Whether or not you wish for the contract call to throw
* if upon execution the tokens cannot be transferred.
* @param takerAddress The user Ethereum address who would like to fill this order.
* Must be available via the supplied Web3.Provider
* passed to 0x.js.
* @return Transaction hash.
*/
@decorators.contractCallErrorHandler
public async fillOrderAsync(signedOrder: SignedOrder, fillTakerTokenAmount: BigNumber.BigNumber,
shouldThrowOnInsufficientBalanceOrAllowance: boolean,
takerAddress: string): Promise<string> {
assert.doesConformToSchema('signedOrder', signedOrder, schemas.signedOrderSchema);
assert.isBigNumber('fillTakerTokenAmount', fillTakerTokenAmount);
assert.isBoolean('shouldThrowOnInsufficientBalanceOrAllowance', shouldThrowOnInsufficientBalanceOrAllowance);
await assert.isSenderAddressAsync('takerAddress', takerAddress, this._web3Wrapper);
const exchangeInstance = await this._getExchangeContractAsync();
await this.validateFillOrderThrowIfInvalidAsync(signedOrder, fillTakerTokenAmount, takerAddress);
const [orderAddresses, orderValues] = ExchangeWrapper._getOrderAddressesAndValues(signedOrder);
const gas = await exchangeInstance.fillOrder.estimateGasAsync(
orderAddresses,
orderValues,
fillTakerTokenAmount,
shouldThrowOnInsufficientBalanceOrAllowance,
signedOrder.ecSignature.v,
signedOrder.ecSignature.r,
signedOrder.ecSignature.s,
{
from: takerAddress,
},
);
const txHash: string = await exchangeInstance.fillOrder.sendTransactionAsync(
orderAddresses,
orderValues,
fillTakerTokenAmount,
shouldThrowOnInsufficientBalanceOrAllowance,
signedOrder.ecSignature.v,
signedOrder.ecSignature.r,
signedOrder.ecSignature.s,
{
from: takerAddress,
gas,
},
);
return txHash;
}
/**
* Sequentially and atomically fills signedOrders up to the specified takerTokenFillAmount.
* If the fill amount is reached - it succeeds and does not fill the rest of the orders.
* If fill amount is not reached - it fills as much of the fill amount as possible and succeeds.
* @param signedOrders The array of signedOrders that you would like to fill until
* takerTokenFillAmount is reached.
* @param fillTakerTokenAmount The total amount of the takerTokens you would like to fill.
* @param shouldThrowOnInsufficientBalanceOrAllowance Whether or not you wish for the contract call to throw if
* upon execution any of the tokens cannot be transferred.
* If set to false, the call will continue to fill subsequent
* signedOrders even when some cannot be filled.
* @param takerAddress The user Ethereum address who would like to fill these
* orders. Must be available via the supplied Web3.Provider
* passed to 0x.js.
* @return Transaction hash.
*/
@decorators.contractCallErrorHandler
public async fillOrdersUpToAsync(signedOrders: SignedOrder[], fillTakerTokenAmount: BigNumber.BigNumber,
shouldThrowOnInsufficientBalanceOrAllowance: boolean,
takerAddress: string): Promise<string> {
assert.doesConformToSchema('signedOrders', signedOrders, schemas.signedOrdersSchema);
const takerTokenAddresses = _.map(signedOrders, signedOrder => signedOrder.takerTokenAddress);
assert.hasAtMostOneUniqueValue(takerTokenAddresses,
ExchangeContractErrs.MultipleTakerTokensInFillUpToDisallowed);
const exchangeContractAddresses = _.map(signedOrders, signedOrder => signedOrder.exchangeContractAddress);
assert.hasAtMostOneUniqueValue(exchangeContractAddresses,
ExchangeContractErrs.BatchOrdersMustHaveSameExchangeAddress);
assert.isBigNumber('fillTakerTokenAmount', fillTakerTokenAmount);
assert.isBoolean('shouldThrowOnInsufficientBalanceOrAllowance', shouldThrowOnInsufficientBalanceOrAllowance);
await assert.isSenderAddressAsync('takerAddress', takerAddress, this._web3Wrapper);
for (const signedOrder of signedOrders) {
await this.validateFillOrderThrowIfInvalidAsync(
signedOrder, fillTakerTokenAmount, takerAddress);
}
if (_.isEmpty(signedOrders)) {
throw new Error(ExchangeContractErrs.BatchOrdersMustHaveAtLeastOneItem);
}
const orderAddressesValuesAndSignatureArray = _.map(signedOrders, signedOrder => {
return [
...ExchangeWrapper._getOrderAddressesAndValues(signedOrder),
signedOrder.ecSignature.v,
signedOrder.ecSignature.r,
signedOrder.ecSignature.s,
];
});
// We use _.unzip<any> because _.unzip doesn't type check if values have different types :'(
const [orderAddressesArray, orderValuesArray, vArray, rArray, sArray] = _.unzip<any>(
orderAddressesValuesAndSignatureArray,
);
const exchangeInstance = await this._getExchangeContractAsync();
const gas = await exchangeInstance.fillOrdersUpTo.estimateGasAsync(
orderAddressesArray,
orderValuesArray,
fillTakerTokenAmount,
shouldThrowOnInsufficientBalanceOrAllowance,
vArray,
rArray,
sArray,
{
from: takerAddress,
},
);
const txHash = await exchangeInstance.fillOrdersUpTo.sendTransactionAsync(
orderAddressesArray,
orderValuesArray,
fillTakerTokenAmount,
shouldThrowOnInsufficientBalanceOrAllowance,
vArray,
rArray,
sArray,
{
from: takerAddress,
gas,
},
);
return txHash;
}
/**
* Batch version of fillOrderAsync.
* Executes multiple fills atomically in a single transaction.
* If shouldThrowOnInsufficientBalanceOrAllowance is set to true, it will continue filling subsequent orders even
* when earlier ones fail.
* When shouldThrowOnInsufficientBalanceOrAllowance is set to false, if any fill fails, the entire batch fails.
* @param orderFillRequests An array of objects that conform to the
* OrderFillRequest interface.
* @param shouldThrowOnInsufficientBalanceOrAllowance Whether or not you wish for the contract call to throw
* if upon execution any of the tokens cannot be
* transferred. If set to false, the call will continue to
* fill subsequent signedOrders even when some
* cannot be filled.
* @param takerAddress The user Ethereum address who would like to fill
* these orders. Must be available via the supplied
* Web3.Provider passed to 0x.js.
* @return Transaction hash.
*/
@decorators.contractCallErrorHandler
public async batchFillOrdersAsync(orderFillRequests: OrderFillRequest[],
shouldThrowOnInsufficientBalanceOrAllowance: boolean,
takerAddress: string): Promise<string> {
assert.doesConformToSchema('orderFillRequests', orderFillRequests, schemas.orderFillRequestsSchema);
const exchangeContractAddresses = _.map(
orderFillRequests,
orderFillRequest => orderFillRequest.signedOrder.exchangeContractAddress,
);
assert.hasAtMostOneUniqueValue(exchangeContractAddresses,
ExchangeContractErrs.BatchOrdersMustHaveSameExchangeAddress);
assert.isBoolean('shouldThrowOnInsufficientBalanceOrAllowance', shouldThrowOnInsufficientBalanceOrAllowance);
await assert.isSenderAddressAsync('takerAddress', takerAddress, this._web3Wrapper);
for (const orderFillRequest of orderFillRequests) {
await this.validateFillOrderThrowIfInvalidAsync(
orderFillRequest.signedOrder, orderFillRequest.takerTokenFillAmount, takerAddress);
}
if (_.isEmpty(orderFillRequests)) {
throw new Error(ExchangeContractErrs.BatchOrdersMustHaveAtLeastOneItem);
}
const orderAddressesValuesAmountsAndSignatureArray = _.map(orderFillRequests, orderFillRequest => {
return [
...ExchangeWrapper._getOrderAddressesAndValues(orderFillRequest.signedOrder),
orderFillRequest.takerTokenFillAmount,
orderFillRequest.signedOrder.ecSignature.v,
orderFillRequest.signedOrder.ecSignature.r,
orderFillRequest.signedOrder.ecSignature.s,
];
});
// We use _.unzip<any> because _.unzip doesn't type check if values have different types :'(
const [orderAddressesArray, orderValuesArray, fillTakerTokenAmounts, vArray, rArray, sArray] = _.unzip<any>(
orderAddressesValuesAmountsAndSignatureArray,
);
const exchangeInstance = await this._getExchangeContractAsync();
const gas = await exchangeInstance.batchFillOrders.estimateGasAsync(
orderAddressesArray,
orderValuesArray,
fillTakerTokenAmounts,
shouldThrowOnInsufficientBalanceOrAllowance,
vArray,
rArray,
sArray,
{
from: takerAddress,
},
);
const txHash = await exchangeInstance.batchFillOrders.sendTransactionAsync(
orderAddressesArray,
orderValuesArray,
fillTakerTokenAmounts,
shouldThrowOnInsufficientBalanceOrAllowance,
vArray,
rArray,
sArray,
{
from: takerAddress,
gas,
},
);
return txHash;
}
/**
* Attempts to fill a specific amount of an order. If the entire amount specified cannot be filled,
* the fill order is abandoned.
* @param signedOrder An object that conforms to the SignedOrder interface. The
* signedOrder you wish to fill.
* @param fillTakerTokenAmount The total amount of the takerTokens you would like to fill.
* @param takerAddress The user Ethereum address who would like to fill this order.
* Must be available via the supplied Web3.Provider passed to 0x.js.
* @return Transaction hash.
*/
@decorators.contractCallErrorHandler
public async fillOrKillOrderAsync(signedOrder: SignedOrder, fillTakerTokenAmount: BigNumber.BigNumber,
takerAddress: string): Promise<string> {
assert.doesConformToSchema('signedOrder', signedOrder, schemas.signedOrderSchema);
assert.isBigNumber('fillTakerTokenAmount', fillTakerTokenAmount);
await assert.isSenderAddressAsync('takerAddress', takerAddress, this._web3Wrapper);
const exchangeInstance = await this._getExchangeContractAsync();
await this.validateFillOrKillOrderThrowIfInvalidAsync(signedOrder, fillTakerTokenAmount, takerAddress);
const [orderAddresses, orderValues] = ExchangeWrapper._getOrderAddressesAndValues(signedOrder);
const gas = await exchangeInstance.fillOrKillOrder.estimateGasAsync(
orderAddresses,
orderValues,
fillTakerTokenAmount,
signedOrder.ecSignature.v,
signedOrder.ecSignature.r,
signedOrder.ecSignature.s,
{
from: takerAddress,
},
);
const txHash = await exchangeInstance.fillOrKillOrder.sendTransactionAsync(
orderAddresses,
orderValues,
fillTakerTokenAmount,
signedOrder.ecSignature.v,
signedOrder.ecSignature.r,
signedOrder.ecSignature.s,
{
from: takerAddress,
gas,
},
);
return txHash;
}
/**
* Batch version of fillOrKill. Allows a taker to specify a batch of orders that will either be atomically
* filled (each to the specified fillAmount) or aborted.
* @param orderFillOrKillRequests An array of objects that conform to the OrderFillOrKillRequest interface.
* @param takerAddress The user Ethereum address who would like to fill there orders.
* Must be available via the supplied Web3.Provider passed to 0x.js.
* @return Transaction hash.
*/
@decorators.contractCallErrorHandler
public async batchFillOrKillAsync(orderFillOrKillRequests: OrderFillOrKillRequest[],
takerAddress: string): Promise<string> {
assert.doesConformToSchema('orderFillOrKillRequests', orderFillOrKillRequests,
schemas.orderFillOrKillRequestsSchema);
const exchangeContractAddresses = _.map(
orderFillOrKillRequests,
orderFillOrKillRequest => orderFillOrKillRequest.signedOrder.exchangeContractAddress,
);
assert.hasAtMostOneUniqueValue(exchangeContractAddresses,
ExchangeContractErrs.BatchOrdersMustHaveSameExchangeAddress);
await assert.isSenderAddressAsync('takerAddress', takerAddress, this._web3Wrapper);
if (_.isEmpty(orderFillOrKillRequests)) {
throw new Error(ExchangeContractErrs.BatchOrdersMustHaveAtLeastOneItem);
}
const exchangeInstance = await this._getExchangeContractAsync();
for (const request of orderFillOrKillRequests) {
await this.validateFillOrKillOrderThrowIfInvalidAsync(
request.signedOrder, request.fillTakerAmount, takerAddress);
}
const orderAddressesValuesAndTakerTokenFillAmounts = _.map(orderFillOrKillRequests, request => {
return [
...ExchangeWrapper._getOrderAddressesAndValues(request.signedOrder),
request.fillTakerAmount,
request.signedOrder.ecSignature.v,
request.signedOrder.ecSignature.r,
request.signedOrder.ecSignature.s,
];
});
// We use _.unzip<any> because _.unzip doesn't type check if values have different types :'(
const [orderAddresses, orderValues, fillTakerTokenAmounts, vParams, rParams, sParams] =
_.unzip<any>(orderAddressesValuesAndTakerTokenFillAmounts);
const gas = await exchangeInstance.batchFillOrKillOrders.estimateGasAsync(
orderAddresses,
orderValues,
fillTakerTokenAmounts,
vParams,
rParams,
sParams,
{
from: takerAddress,
},
);
const txHash = await exchangeInstance.batchFillOrKillOrders.sendTransactionAsync(
orderAddresses,
orderValues,
fillTakerTokenAmounts,
vParams,
rParams,
sParams,
{
from: takerAddress,
gas,
},
);
return txHash;
}
/**
* Cancel a given fill amount of an order. Cancellations are cumulative.
* @param order An object that conforms to the Order or SignedOrder interface.
* The order you would like to cancel.
* @param cancelTakerTokenAmount The amount (specified in taker tokens) that you would like to cancel.
* @return Transaction hash.
*/
@decorators.contractCallErrorHandler
public async cancelOrderAsync(
order: Order|SignedOrder, cancelTakerTokenAmount: BigNumber.BigNumber): Promise<string> {
assert.doesConformToSchema('order', order, schemas.orderSchema);
assert.isBigNumber('takerTokenCancelAmount', cancelTakerTokenAmount);
await assert.isSenderAddressAsync('order.maker', order.maker, this._web3Wrapper);
const exchangeInstance = await this._getExchangeContractAsync();
await this.validateCancelOrderThrowIfInvalidAsync(order, cancelTakerTokenAmount);
const [orderAddresses, orderValues] = ExchangeWrapper._getOrderAddressesAndValues(order);
const gas = await exchangeInstance.cancelOrder.estimateGasAsync(
orderAddresses,
orderValues,
cancelTakerTokenAmount,
{
from: order.maker,
},
);
const txHash = await exchangeInstance.cancelOrder.sendTransactionAsync(
orderAddresses,
orderValues,
cancelTakerTokenAmount,
{
from: order.maker,
gas,
},
);
return txHash;
}
/**
* Batch version of cancelOrderAsync. Atomically cancels multiple orders in a single transaction.
* All orders must be from the same maker.
* @param orderCancellationRequests An array of objects that conform to the OrderCancellationRequest
* interface.
* @return Transaction hash.
*/
@decorators.contractCallErrorHandler
public async batchCancelOrdersAsync(orderCancellationRequests: OrderCancellationRequest[]): Promise<string> {
assert.doesConformToSchema('orderCancellationRequests', orderCancellationRequests,
schemas.orderCancellationRequestsSchema);
const exchangeContractAddresses = _.map(
orderCancellationRequests,
orderCancellationRequest => orderCancellationRequest.order.exchangeContractAddress,
);
assert.hasAtMostOneUniqueValue(exchangeContractAddresses,
ExchangeContractErrs.BatchOrdersMustHaveSameExchangeAddress);
const makers = _.map(orderCancellationRequests, cancellationRequest => cancellationRequest.order.maker);
assert.hasAtMostOneUniqueValue(makers, ExchangeContractErrs.MultipleMakersInSingleCancelBatchDisallowed);
const maker = makers[0];
await assert.isSenderAddressAsync('maker', maker, this._web3Wrapper);
for (const cancellationRequest of orderCancellationRequests) {
await this.validateCancelOrderThrowIfInvalidAsync(
cancellationRequest.order, cancellationRequest.takerTokenCancelAmount,
);
}
if (_.isEmpty(orderCancellationRequests)) {
throw new Error(ExchangeContractErrs.BatchOrdersMustHaveAtLeastOneItem);
}
const exchangeInstance = await this._getExchangeContractAsync();
const orderAddressesValuesAndTakerTokenCancelAmounts = _.map(orderCancellationRequests, cancellationRequest => {
return [
...ExchangeWrapper._getOrderAddressesAndValues(cancellationRequest.order),
cancellationRequest.takerTokenCancelAmount,
];
});
// We use _.unzip<any> because _.unzip doesn't type check if values have different types :'(
const [orderAddresses, orderValues, cancelTakerTokenAmounts] =
_.unzip<any>(orderAddressesValuesAndTakerTokenCancelAmounts);
const gas = await exchangeInstance.batchCancelOrders.estimateGasAsync(
orderAddresses,
orderValues,
cancelTakerTokenAmounts,
{
from: maker,
},
);
const txHash = await exchangeInstance.batchCancelOrders.sendTransactionAsync(
orderAddresses,
orderValues,
cancelTakerTokenAmounts,
{
from: maker,
gas,
},
);
return txHash;
}
/**
* Subscribe to an event type emitted by the Exchange smart contract
* @param eventName The exchange contract event you would like to subscribe to.
* @param subscriptionOpts Subscriptions options that let you configure the subscription.
* @param indexFilterValues An object where the keys are indexed args returned by the event and
* the value is the value you are interested in. E.g `{maker: aUserAddressHex}`
* @param exchangeContractAddress The hex encoded address of the Exchange contract to call.
* @return ContractEventEmitter object
*/
public async subscribeAsync(eventName: ExchangeEvents, subscriptionOpts: SubscriptionOpts,
indexFilterValues: IndexedFilterValues, exchangeContractAddress: string):
Promise<ContractEventEmitter> {
assert.isETHAddressHex('exchangeContractAddress', exchangeContractAddress);
assert.doesBelongToStringEnum('eventName', eventName, ExchangeEvents);
assert.doesConformToSchema('subscriptionOpts', subscriptionOpts, schemas.subscriptionOptsSchema);
assert.doesConformToSchema('indexFilterValues', indexFilterValues, schemas.indexFilterValuesSchema);
const exchangeContract = await this._getExchangeContractAsync();
let createLogEvent: CreateContractEvent;
switch (eventName) {
case ExchangeEvents.LogFill:
createLogEvent = exchangeContract.LogFill;
break;
case ExchangeEvents.LogError:
createLogEvent = exchangeContract.LogError;
break;
case ExchangeEvents.LogCancel:
createLogEvent = exchangeContract.LogCancel;
break;
default:
throw utils.spawnSwitchErr('ExchangeEvents', eventName);
}
const logEventObj: ContractEventObj = createLogEvent(indexFilterValues, subscriptionOpts);
const eventEmitter = eventUtils.wrapEventEmitter(logEventObj);
this._exchangeLogEventEmitters.push(eventEmitter);
return eventEmitter;
}
/**
* Stops watching for all exchange events
*/
public async stopWatchingAllEventsAsync(): Promise<void> {
const stopWatchingPromises = _.map(this._exchangeLogEventEmitters,
logEventObj => logEventObj.stopWatchingAsync());
await Promise.all(stopWatchingPromises);
this._exchangeLogEventEmitters = [];
}
/**
* Retrieves the Ethereum address of the Exchange contract deployed on the network
* that the user-passed web3 provider is connected to.
* @returns The Ethereum address of the Exchange contract being used.
*/
public async getContractAddressAsync(): Promise<string> {
const exchangeInstance = await this._getExchangeContractAsync();
const exchangeAddress = exchangeInstance.address;
return exchangeAddress;
}
/**
* Checks if order fill will succeed and throws an error otherwise.
* @param signedOrder An object that conforms to the SignedOrder interface. The
* signedOrder you wish to fill.
* @param fillTakerTokenAmount The total amount of the takerTokens you would like to fill.
* @param takerAddress The user Ethereum address who would like to fill this order.
* Must be available via the supplied Web3.Provider passed to 0x.js.
*/
public async validateFillOrderThrowIfInvalidAsync(signedOrder: SignedOrder,
fillTakerTokenAmount: BigNumber.BigNumber,
takerAddress: string): Promise<void> {
assert.doesConformToSchema('signedOrder', signedOrder, schemas.signedOrderSchema);
assert.isBigNumber('fillTakerTokenAmount', fillTakerTokenAmount);
await assert.isSenderAddressAsync('takerAddress', takerAddress, this._web3Wrapper);
const zrxTokenAddress = await this.getZRXTokenAddressAsync();
await this._orderValidationUtils.validateFillOrderThrowIfInvalidAsync(
signedOrder, fillTakerTokenAmount, takerAddress, zrxTokenAddress);
}
/**
* Checks if cancelling a given order will succeed and throws an informative error if it won't.
* @param order An object that conforms to the Order or SignedOrder interface.
* The order you would like to cancel.
* @param cancelTakerTokenAmount The amount (specified in taker tokens) that you would like to cancel.
*/
public async validateCancelOrderThrowIfInvalidAsync(
order: Order, cancelTakerTokenAmount: BigNumber.BigNumber): Promise<void> {
assert.doesConformToSchema('order', order, schemas.orderSchema);
assert.isBigNumber('cancelTakerTokenAmount', cancelTakerTokenAmount);
const orderHash = utils.getOrderHashHex(order);
const unavailableTakerTokenAmount = await this.getUnavailableTakerAmountAsync(orderHash);
await this._orderValidationUtils.validateCancelOrderThrowIfInvalidAsync(
order, cancelTakerTokenAmount, unavailableTakerTokenAmount);
}
/**
* Checks if calling fillOrKill on a given order will succeed and throws an informative error if it won't.
* @param signedOrder An object that conforms to the SignedOrder interface. The
* signedOrder you wish to fill.
* @param fillTakerTokenAmount The total amount of the takerTokens you would like to fill.
* @param takerAddress The user Ethereum address who would like to fill this order.
* Must be available via the supplied Web3.Provider passed to 0x.js.
*/
public async validateFillOrKillOrderThrowIfInvalidAsync(signedOrder: SignedOrder,
fillTakerTokenAmount: BigNumber.BigNumber,
takerAddress: string): Promise<void> {
assert.doesConformToSchema('signedOrder', signedOrder, schemas.signedOrderSchema);
assert.isBigNumber('fillTakerTokenAmount', fillTakerTokenAmount);
await assert.isSenderAddressAsync('takerAddress', takerAddress, this._web3Wrapper);
const zrxTokenAddress = await this.getZRXTokenAddressAsync();
await this._orderValidationUtils.validateFillOrKillOrderThrowIfInvalidAsync(
signedOrder, fillTakerTokenAmount, takerAddress, zrxTokenAddress);
}
/**
* Checks if rounding error will be > 0.1% when computing makerTokenAmount by doing:
* `(fillTakerTokenAmount * makerTokenAmount) / takerTokenAmount`.
* 0x Protocol does not accept any trades that result in large rounding errors. This means that tokens with few or
* no decimals can only be filled in quantities and ratios that avoid large rounding errors.
* @param fillTakerTokenAmount The amount of the order (in taker tokens baseUnits) that you wish to fill.
* @param takerTokenAmount The order size on the taker side
* @param makerTokenAmount The order size on the maker side
*/
public async isRoundingErrorAsync(fillTakerTokenAmount: BigNumber.BigNumber,
takerTokenAmount: BigNumber.BigNumber,
makerTokenAmount: BigNumber.BigNumber): Promise<boolean> {
assert.isBigNumber('fillTakerTokenAmount', fillTakerTokenAmount);
assert.isBigNumber('takerTokenAmount', takerTokenAmount);
assert.isBigNumber('makerTokenAmount', makerTokenAmount);
const exchangeInstance = await this._getExchangeContractAsync();
const isRoundingError = await exchangeInstance.isRoundingError.callAsync(
fillTakerTokenAmount, takerTokenAmount, makerTokenAmount,
);
return isRoundingError;
}
/**
* Checks if logs contain LogError, which is emmited by Exchange contract on transaction failure.
* @param logsWithDecodedArgs Transaction logs as returned by `zeroEx.awaitTransactionMinedAsync`
*/
public throwLogErrorsAsErrors(logsWithDecodedArgs: LogWithDecodedArgs[]): void {
const errLog = _.find(logsWithDecodedArgs, {event: ExchangeEvents.LogError});
if (!_.isUndefined(errLog)) {
const logArgs: LogErrorContractEventArgs = errLog.args as any;
const errCode = logArgs.errorId.toNumber();
const errMessage = this._exchangeContractErrCodesToMsg[errCode];
throw new Error(errMessage);
}
}
/**
* Returns the ZRX token address used by the exchange contract.
* @return Address of ZRX token
*/
public async getZRXTokenAddressAsync(): Promise<string> {
const exchangeInstance = await this._getExchangeContractAsync();
const ZRXtokenAddress = await exchangeInstance.ZRX_TOKEN_CONTRACT.callAsync();
return ZRXtokenAddress;
}
private async _invalidateContractInstancesAsync(): Promise<void> {
await this.stopWatchingAllEventsAsync();
delete this._exchangeContractIfExists;
}
private async _isValidSignatureUsingContractCallAsync(dataHex: string, ecSignature: ECSignature,
signerAddressHex: string): Promise<boolean> {
assert.isHexString('dataHex', dataHex);
assert.doesConformToSchema('ecSignature', ecSignature, schemas.ecSignatureSchema);
assert.isETHAddressHex('signerAddressHex', signerAddressHex);
const exchangeInstance = await this._getExchangeContractAsync();
const isValidSignature = await exchangeInstance.isValidSignature.callAsync(
signerAddressHex,
dataHex,
ecSignature.v,
ecSignature.r,
ecSignature.s,
);
return isValidSignature;
}
private async _getOrderHashHexUsingContractCallAsync(order: Order|SignedOrder): Promise<string> {
const exchangeInstance = await this._getExchangeContractAsync();
const [orderAddresses, orderValues] = ExchangeWrapper._getOrderAddressesAndValues(order);
const orderHashHex = await exchangeInstance.getOrderHash.callAsync(orderAddresses, orderValues);
return orderHashHex;
}
private async _getExchangeContractAsync(): Promise<ExchangeContract> {
if (!_.isUndefined(this._exchangeContractIfExists)) {
return this._exchangeContractIfExists;
}
const contractInstance = await this._instantiateContractIfExistsAsync<ExchangeContract>(
artifacts.ExchangeArtifact, this._contractAddressIfExists,
);
this._exchangeContractIfExists = contractInstance as ExchangeContract;
return this._exchangeContractIfExists;
}
private async _getTokenTransferProxyAddressAsync(): Promise<string> {
const exchangeInstance = await this._getExchangeContractAsync();
const tokenTransferProxyAddress = await exchangeInstance.TOKEN_TRANSFER_PROXY_CONTRACT.callAsync();
const tokenTransferProxyAddressLowerCase = tokenTransferProxyAddress.toLowerCase();
return tokenTransferProxyAddressLowerCase;
}
}