ethers.js/src.ts/providers/provider.ts
2018-08-01 17:02:27 -04:00

1250 lines
41 KiB
TypeScript

'use strict';
import { getAddress, getContractAddress } from '../utils/address';
import { BigNumber, bigNumberify } from '../utils/bignumber';
import { hexDataLength, hexDataSlice, hexlify, hexStripZeros, isHexString, stripZeros } from '../utils/bytes';
import { namehash } from '../utils/hash';
import { getNetwork } from '../utils/networks';
import { defineReadOnly, inheritable, resolveProperties, shallowCopy } from '../utils/properties';
import { encode as rlpEncode } from '../utils/rlp';
import { parse as parseTransaction } from '../utils/transaction';
import { toUtf8String } from '../utils/utf8';
import { poll } from '../utils/web';
import * as errors from '../utils/errors';
///////////////////////////////
// Imported Abstracts
import { Provider as AbstractProvider } from './abstract-provider';
///////////////////////////////
// Imported Types
import {
Block, BlockTag,
EventType, Filter,
Listener,
Log,
TransactionReceipt, TransactionRequest, TransactionResponse
} from './abstract-provider';
import { BigNumberish } from '../utils/bignumber';
import { Transaction } from '../utils/transaction';
import { Network, Networkish } from '../utils/networks';
//////////////////////////////
// Request and Response Checking
// @TODO: not any?
function check(format: any, object: any): any {
var result: any = {};
for (var key in format) {
try {
var value = format[key](object[key]);
if (value !== undefined) { result[key] = value; }
} catch (error) {
error.checkKey = key;
error.checkValue = object[key];
throw error;
}
}
return result;
}
type CheckFunc = (value: any) => any;
function allowNull(check: CheckFunc, nullValue?: any): CheckFunc {
return (function(value: any) {
if (value == null) { return nullValue; }
return check(value);
});
}
function allowFalsish(check: CheckFunc, replaceValue: any): CheckFunc {
return (function(value) {
if (!value) { return replaceValue; }
return check(value);
});
}
function arrayOf(check: CheckFunc): CheckFunc {
return (function(array: any): Array<any> {
if (!Array.isArray(array)) { throw new Error('not an array'); }
var result: any = [];
array.forEach(function(value) {
result.push(check(value));
});
return result;
});
}
function checkHash(hash: any): string {
if (typeof(hash) === 'string' && hexDataLength(hash) === 32) {
return hash.toLowerCase();
}
errors.throwError('invalid hash', errors.INVALID_ARGUMENT, { arg: 'hash', value: hash });
return null;
}
function checkNumber(number: any): number {
return bigNumberify(number).toNumber();
}
// Returns the difficulty as a number, or if too large (i.e. PoA network) null
function checkDifficulty(value: BigNumberish): number {
let v = bigNumberify(value);
try {
return v.toNumber();
} catch (error) { }
return null;
}
function checkBoolean(value: any): boolean {
if (typeof(value) === 'boolean') { return value; }
if (typeof(value) === 'string') {
if (value === 'true') { return true; }
if (value === 'false') { return false; }
}
throw new Error('invaid boolean - ' + value);
}
function checkUint256(uint256: string): string {
if (!isHexString(uint256)) {
throw new Error('invalid uint256');
}
while (uint256.length < 66) {
uint256 = '0x0' + uint256.substring(2);
}
return uint256;
}
/*
function checkString(string) {
if (typeof(string) !== 'string') { throw new Error('invalid string'); }
return string;
}
*/
function checkBlockTag(blockTag: BlockTag): string {
if (blockTag == null) { return 'latest'; }
if (blockTag === 'earliest') { return '0x0'; }
if (blockTag === 'latest' || blockTag === 'pending') {
return blockTag;
}
if (typeof(blockTag) === 'number') {
return hexStripZeros(hexlify(blockTag));
}
if (isHexString(blockTag)) { return hexStripZeros(blockTag); }
throw new Error('invalid blockTag');
}
var formatBlock = {
hash: checkHash,
parentHash: checkHash,
number: checkNumber,
timestamp: checkNumber,
nonce: allowNull(hexlify),
difficulty: checkDifficulty,
gasLimit: bigNumberify,
gasUsed: bigNumberify,
miner: getAddress,
extraData: hexlify,
//transactions: allowNull(arrayOf(checkTransaction)),
transactions: allowNull(arrayOf(checkHash)),
//transactionRoot: checkHash,
//stateRoot: checkHash,
//sha3Uncles: checkHash,
//logsBloom: hexlify,
};
function checkBlock(block: any): Block {
if (block.author != null && block.miner == null) {
block.miner = block.author;
}
return check(formatBlock, block);
}
var formatTransaction = {
hash: checkHash,
blockHash: allowNull(checkHash, null),
blockNumber: allowNull(checkNumber, null),
transactionIndex: allowNull(checkNumber, null),
from: getAddress,
gasPrice: bigNumberify,
gasLimit: bigNumberify,
to: allowNull(getAddress, null),
value: bigNumberify,
nonce: checkNumber,
data: hexlify,
r: allowNull(checkUint256),
s: allowNull(checkUint256),
v: allowNull(checkNumber),
creates: allowNull(getAddress, null),
raw: allowNull(hexlify),
};
function checkTransactionResponse(transaction: any): TransactionResponse {
// Rename gas to gasLimit
if (transaction.gas != null && transaction.gasLimit == null) {
transaction.gasLimit = transaction.gas;
}
// Some clients (TestRPC) do strange things like return 0x0 for the
// 0 address; correct this to be a real address
if (transaction.to && bigNumberify(transaction.to).isZero()) {
transaction.to = '0x0000000000000000000000000000000000000000';
}
// Rename input to data
if (transaction.input != null && transaction.data == null) {
transaction.data = transaction.input;
}
// If to and creates are empty, populate the creates from the transaction
if (transaction.to == null && transaction.creates == null) {
transaction.creates = getContractAddress(transaction);
}
// @TODO: use transaction.serialize? Have to add support for including v, r, and s...
if (!transaction.raw) {
// Very loose providers (e.g. TestRPC) don't provide a signature or raw
if (transaction.v && transaction.r && transaction.s) {
var raw = [
stripZeros(hexlify(transaction.nonce)),
stripZeros(hexlify(transaction.gasPrice)),
stripZeros(hexlify(transaction.gasLimit)),
(transaction.to || "0x"),
stripZeros(hexlify(transaction.value || '0x')),
hexlify(transaction.data || '0x'),
stripZeros(hexlify(transaction.v || '0x')),
stripZeros(hexlify(transaction.r)),
stripZeros(hexlify(transaction.s)),
];
transaction.raw = rlpEncode(raw);
}
}
var result = check(formatTransaction, transaction);
var networkId = transaction.networkId;
if (isHexString(networkId)) {
networkId = bigNumberify(networkId).toNumber();
}
if (typeof(networkId) !== 'number' && result.v != null) {
networkId = (result.v - 35) / 2;
if (networkId < 0) { networkId = 0; }
networkId = parseInt(networkId);
}
if (typeof(networkId) !== 'number') { networkId = 0; }
result.networkId = networkId;
// 0x0000... should actually be null
if (result.blockHash && result.blockHash.replace(/0/g, '') === 'x') {
result.blockHash = null;
}
return result;
}
var formatTransactionRequest = {
from: allowNull(getAddress),
nonce: allowNull(checkNumber),
gasLimit: allowNull(bigNumberify),
gasPrice: allowNull(bigNumberify),
to: allowNull(getAddress),
value: allowNull(bigNumberify),
data: allowNull(hexlify),
};
function checkTransactionRequest(transaction: any): any {
return check(formatTransactionRequest, transaction);
}
var formatTransactionReceiptLog = {
transactionLogIndex: allowNull(checkNumber),
transactionIndex: checkNumber,
blockNumber: checkNumber,
transactionHash: checkHash,
address: getAddress,
topics: arrayOf(checkHash),
data: hexlify,
logIndex: checkNumber,
blockHash: checkHash,
};
function checkTransactionReceiptLog(log: any): any {
return check(formatTransactionReceiptLog, log);
}
var formatTransactionReceipt = {
contractAddress: allowNull(getAddress, null),
transactionIndex: checkNumber,
root: allowNull(checkHash),
gasUsed: bigNumberify,
logsBloom: allowNull(hexlify),
blockHash: checkHash,
transactionHash: checkHash,
logs: arrayOf(checkTransactionReceiptLog),
blockNumber: checkNumber,
cumulativeGasUsed: bigNumberify,
status: allowNull(checkNumber)
};
function checkTransactionReceipt(transactionReceipt: any): TransactionReceipt {
//var status = transactionReceipt.status;
//var root = transactionReceipt.root;
var result: TransactionReceipt = check(formatTransactionReceipt, transactionReceipt);
result.logs.forEach(function(entry, index) {
if (entry.transactionLogIndex == null) {
entry.transactionLogIndex = index;
}
});
if (transactionReceipt.status != null) {
result.byzantium = true;
}
return result;
}
function checkTopics(topics: any): any {
if (Array.isArray(topics)) {
topics.forEach(function(topic) {
checkTopics(topic);
});
} else if (topics != null) {
checkHash(topics);
}
return topics;
}
var formatFilter = {
fromBlock: allowNull(checkBlockTag, undefined),
toBlock: allowNull(checkBlockTag, undefined),
address: allowNull(getAddress, undefined),
topics: allowNull(checkTopics, undefined),
};
function checkFilter(filter: any): any {
return check(formatFilter, filter);
}
var formatLog = {
blockNumber: allowNull(checkNumber),
blockHash: allowNull(checkHash),
transactionIndex: checkNumber,
removed: allowNull(checkBoolean),
address: getAddress,
data: allowFalsish(hexlify, '0x'),
topics: arrayOf(checkHash),
transactionHash: checkHash,
logIndex: checkNumber,
}
function checkLog(log: any): any {
return check(formatLog, log);
}
//////////////////////////////
// Event Serializeing
function serializeTopics(topics: Array<string | Array<string>>): string {
return topics.map((topic) => {
if (typeof(topic) === 'string') {
return topic;
} else if (Array.isArray(topic)) {
topic.forEach((topic) => {
if (topic !== null && hexDataLength(topic) !== 32) {
errors.throwError('invalid topic', errors.INVALID_ARGUMENT, { argument: 'topic', value: topic });
}
});
return topic.join(',');
}
return errors.throwError('invalid topic value', errors.INVALID_ARGUMENT, { argument: 'topic', value: topic });
}).join('&');
}
function deserializeTopics(data: string): Array<string | Array<string>> {
return data.split(/&/g).map((topic) => {
let comps = topic.split(',');
if (comps.length === 1) {
if (comps[0] === '') { return null; }
return topic;
}
return comps;
});
}
function getEventTag(eventName: EventType): string {
if (typeof(eventName) === 'string') {
if (hexDataLength(eventName) === 20) {
return 'address:' + getAddress(eventName);
}
eventName = eventName.toLowerCase();
if (eventName === 'block' || eventName === 'pending' || eventName === 'error') {
return eventName;
} else if (hexDataLength(eventName) === 32) {
return 'tx:' + eventName;
}
} else if (Array.isArray(eventName)) {
return 'filter::' + serializeTopics(eventName);
} else if (eventName && typeof(eventName) === 'object') {
return 'filter:' + (eventName.address || '') + ':' + serializeTopics(eventName.topics || []);
}
throw new Error('invalid event - ' + eventName);
}
//////////////////////////////
// Provider Object
/* @TODO:
type Event = {
eventName: string,
listener: any, // @TODO: Function any: any
type: string,
}
*/
// @TODO: Perhaps allow a SignDigestAsyncFunc?
// Enable a simple signing function and provider to provide a full Signer
/*
export type SignDigestFunc = (digest: string) => Promise<Signature>;
export class ProviderSigner extends Signer {
readonly provider: Provider;
readonly signDigest: SignDigestFunc;
private _addressPromise: Promise<string>;
constructor(address: string | Promise<string>, signDigest: SignDigestFunc, provider: Provider) {
super();
errors.checkNew(this, ProviderSigner);
defineReadOnly(this, '_addressPromise', Promise.resolve(address));
defineReadOnly(this, 'signDigest', signDigest);
defineReadOnly(this, 'provider', provider);
}
getAddress(): Promise<string> {
return this._addressPromise;
}
signMessage(message: Arrayish | string): Promise<string> {
return this.signDigest(arrayify(hashMessage(message))).then((signature) => {
return joinSignature(signature);
});
}
sendTransaction(transaction: TransactionRequest): Promise<TransactionResponse> {
transaction = shallowCopy(transaction);
if (transaction.chainId == null) {
transaction.chainId = this.provider.getNetwork().then((network) => {
return network.chainId;
});
}
if (transaction.from == null) {
transaction.from = this.getAddress();
}
if (transaction.gasLimit == null) {
transaction.gasLimit = this.provider.estimateGas(transaction);
}
if (transaction.gasPrice == null) {
transaction.gasPrice = this.provider.getGasPrice();
}
return resolveProperties(transaction).then((tx) => {
let unsignedTx = serializeTransaction(tx);
return this.signDigest(keccak256(unsignedTx)).then((signature) => {
let signedTx = serializeTransaxction(tx, (ut) => {
if (unsignedTx !== ut) { throw new Error('this should not happen'); }
return signature;
});
return this._addressPromise.then((address) => {
if (parseTransaction(signedTx).from !== address) {
errors.throwError('signing address does not match expected address', errors.UNKNOWN_ERROR, { address: parseTransaction(signedTx).from, expectedAddress: address, signedTransaction: signedTx });
}
return this.provider.sendTransaction(signedTx);
});
});
});
}
}
*/
/**
* EventType
* - "block"
* - "pending"
* - "error"
* - address
* - filter
* - topics array
* - transaction hash
*/
type _Event = {
listener: Listener;
once: boolean;
tag: string;
}
export class Provider extends AbstractProvider {
private _network: Network;
private _events: Array<_Event>;
protected _emitted: any;
private _pollingInterval: number;
private _poller: any; // @TODO: what does TypeScript thing setInterval returns?
private _lastBlockNumber: number;
// string => BigNumber
private _balances: any;
/**
* ready
*
* A Promise<Network> that resolves only once the provider is ready.
*
* Sub-classes that call the super with a network without a chainId
* MUST set this. Standard named networks have a known chainId.
*
*/
protected ready: Promise<Network>;
constructor(network: Networkish | Promise<Network>) {
super();
errors.checkNew(this, Provider);
if (network instanceof Promise) {
defineReadOnly(this, 'ready', network.then((network) => {
defineReadOnly(this, '_network', network);
return network;
}));
} else {
let knownNetwork = getNetwork((network == null) ? 'homestead': network);
if (knownNetwork) {
defineReadOnly(this, '_network', knownNetwork);
defineReadOnly(this, 'ready', Promise.resolve(this._network));
} else {
errors.throwError('invalid network', errors.INVALID_ARGUMENT, { arg: 'network', value: network });
}
}
this._lastBlockNumber = -2;
// Balances being watched for changes
this._balances = {};
// Events being listened to
this._events = [];
this._pollingInterval = 4000;
// We use this to track recent emitted events; for example, if we emit a "block" of 100
// and we get a `getBlock(100)` request which would result in null, we should retry
// until we get a response. This provides devs with a consistent view. Similarly for
// transaction hashes.
this._emitted = { block: this._lastBlockNumber };
}
private _doPoll(): void {
this.getBlockNumber().then((blockNumber) => {
// If the block hasn't changed, meh.
if (blockNumber === this._lastBlockNumber) { return; }
if (this._lastBlockNumber === -2) { this._lastBlockNumber = blockNumber - 1; }
// Notify all listener for each block that has passed
for (var i = this._lastBlockNumber + 1; i <= blockNumber; i++) {
if (this._emitted.block < i) {
this._emitted.block = i;
// Evict any transaction hashes or block hashes over 12 blocks
// old, since they should not return null anyways
Object.keys(this._emitted).forEach((key) => {
if (key === 'block') { return; }
if (this._emitted[key] > i + 12) {
delete this._emitted[key];
}
});
}
this.emit('block', i);
}
// Sweep balances and remove addresses we no longer have events for
var newBalances: any = {};
// Find all transaction hashes we are waiting on
this._events.forEach((event) => {
let comps = event.tag.split(':');
switch (comps[0]) {
case 'tx': {
let hash = comps[1];
this.getTransactionReceipt(hash).then((receipt) => {
if (!receipt || receipt.blockNumber == null) { return null; }
this._emitted['t:' + hash] = receipt.blockNumber;
this.emit(hash, receipt);
return null;
}).catch((error: Error) => { this.emit('error', error); });
break;
}
case 'address': {
let address = comps[1];
if (this._balances[address]) {
newBalances[address] = this._balances[address];
}
this.getBalance(address, 'latest').then(function(balance) {
var lastBalance = this._balances[address];
if (lastBalance && balance.eq(lastBalance)) { return; }
this._balances[address] = balance;
this.emit(address, balance);
return null;
}).catch((error: Error) => { this.emit('error', error); });
break;
}
case 'filter': {
let address = comps[1];
let topics = deserializeTopics(comps[2]);
let filter = {
address: address,
fromBlock: this._lastBlockNumber + 1,
toBlock: blockNumber,
topics: topics
}
this.getLogs(filter).then((logs) => {
if (logs.length === 0) { return; }
logs.forEach((log: Log) => {
this._emitted['b:' + log.blockHash] = log.blockNumber;
this._emitted['t:' + log.transactionHash] = log.blockNumber;
this.emit(filter, log);
});
return null;
}).catch((error: Error) => { this.emit('error', error); });
break;
}
}
});
this._lastBlockNumber = blockNumber;
this._balances = newBalances;
return null;
}).catch((error: Error) => { });
this.doPoll();
}
resetEventsBlock(blockNumber: number): void {
this._lastBlockNumber = blockNumber;
this._doPoll();
}
get network(): Network {
return this._network;
}
getNetwork(): Promise<Network> {
return this.ready;
}
get blockNumber(): number {
if (this._lastBlockNumber < 0) { return null; }
return this._lastBlockNumber;
}
get polling(): boolean {
return (this._poller != null);
}
set polling(value: boolean) {
setTimeout(() => {
if (value && !this._poller) {
this._poller = setInterval(this._doPoll.bind(this), this.pollingInterval);
} else if (!value && this._poller) {
clearInterval(this._poller);
this._poller = null;
}
}, 0);
}
get pollingInterval(): number {
return this._pollingInterval;
}
set pollingInterval(value: number) {
if (typeof(value) !== 'number' || value <= 0 || parseInt(String(value)) != value) {
throw new Error('invalid polling interval');
}
this._pollingInterval = value;
if (this._poller) {
clearInterval(this._poller);
this._poller = setInterval(() => { this._doPoll() }, this._pollingInterval);
}
}
// @TODO: Add .poller which must be an event emitter with a 'start', 'stop' and 'block' event;
// this will be used once we move to the WebSocket or other alternatives to polling
waitForTransaction(transactionHash: string, timeout?: number): Promise<TransactionReceipt> {
return poll(() => {
return this.getTransactionReceipt(transactionHash).then((receipt) => {
if (receipt == null) { return undefined; }
return receipt;
});
}, { onceBlock: this });
}
getBlockNumber(): Promise<number> {
return this.ready.then(() => {
return this.perform('getBlockNumber', { }).then((result) => {
var value = parseInt(result);
if (value != result) { throw new Error('invalid response - getBlockNumber'); }
return value;
});
});
}
getGasPrice(): Promise<BigNumber> {
return this.ready.then(() => {
return this.perform('getGasPrice', { }).then((result) => {
return bigNumberify(result);
});
});
}
getBalance(addressOrName: string | Promise<string>, blockTag?: BlockTag | Promise<BlockTag>): Promise<BigNumber> {
return this.ready.then(() => {
return resolveProperties({ addressOrName: addressOrName, blockTag: blockTag }).then(({ addressOrName, blockTag }) => {
return this.resolveName(addressOrName).then((address) => {
var params = { address: address, blockTag: checkBlockTag(blockTag) };
return this.perform('getBalance', params).then((result) => {
return bigNumberify(result);
});
});
});
});
}
getTransactionCount(addressOrName: string | Promise<string>, blockTag?: BlockTag | Promise<BlockTag>): Promise<number> {
return this.ready.then(() => {
return resolveProperties({ addressOrName: addressOrName, blockTag: blockTag }).then(({ addressOrName, blockTag }) => {
return this.resolveName(addressOrName).then((address) => {
var params = { address: address, blockTag: checkBlockTag(blockTag) };
return this.perform('getTransactionCount', params).then((result) => {
return bigNumberify(result).toNumber();
});
});
});
});
}
getCode(addressOrName: string | Promise<string>, blockTag?: BlockTag | Promise<BlockTag>): Promise<string> {
return this.ready.then(() => {
return resolveProperties({ addressOrName: addressOrName, blockTag: blockTag }).then(({ addressOrName, blockTag }) => {
return this.resolveName(addressOrName).then((address) => {
var params = {address: address, blockTag: checkBlockTag(blockTag)};
return this.perform('getCode', params).then((result) => {
return hexlify(result);
});
});
});
});
}
getStorageAt(addressOrName: string | Promise<string>, position: BigNumberish | Promise<BigNumberish>, blockTag?: BlockTag | Promise<BlockTag>): Promise<string> {
return this.ready.then(() => {
return resolveProperties({ addressOrName: addressOrName, position: position, blockTag: blockTag }).then(({ addressOrName, position, blockTag }) => {
return this.resolveName(addressOrName).then((address) => {
var params = {
address: address,
blockTag: checkBlockTag(blockTag),
position: hexStripZeros(hexlify(position)),
};
return this.perform('getStorageAt', params).then((result) => {
return hexlify(result);
});
});
});
});
}
sendTransaction(signedTransaction: string | Promise<string>): Promise<TransactionResponse> {
return this.ready.then(() => {
return resolveProperties({ signedTransaction: signedTransaction }).then(({ signedTransaction }) => {
var params = { signedTransaction: hexlify(signedTransaction) };
return this.perform('sendTransaction', params).then((hash) => {
return this._wrapTransaction(parseTransaction(signedTransaction), hash);
}, function (error) {
error.transaction = parseTransaction(signedTransaction);
if (error.transaction.hash) {
(<any>error).transactionHash = error.transaction.hash;
}
throw error;
});
});
});
}
// This should be called by any subclass wrapping a TransactionResponse
_wrapTransaction(tx: Transaction, hash?: string): TransactionResponse {
if (hexDataLength(hash) !== 32) { throw new Error('invalid response - sendTransaction'); }
let result: TransactionResponse = <TransactionResponse>tx;
// Check the hash we expect is the same as the hash the server reported
if (hash != null && tx.hash !== hash) {
errors.throwError('Transaction hash mismatch from Proivder.sendTransaction.', errors.UNKNOWN_ERROR, { expectedHash: tx.hash, returnedHash: hash });
}
this._emitted['t:' + tx.hash] = 'pending';
result.wait = (timeout?: number) => {
return this.waitForTransaction(hash, timeout).then((receipt) => {
if (receipt.status === 0) {
errors.throwError('transaction failed', errors.CALL_EXCEPTION, {
transactionHash: hash,
transaction: tx
});
}
return receipt;
});
};
return result;
}
call(transaction: TransactionRequest): Promise<string> {
let tx: TransactionRequest = shallowCopy(transaction);
return this.ready.then(() => {
return resolveProperties(tx).then((tx) => {
return this._resolveNames(tx, [ 'to', 'from' ]).then((tx) => {
var params = { transaction: checkTransactionRequest(tx) };
return this.perform('call', params).then((result) => {
return hexlify(result);
});
});
});
});
}
estimateGas(transaction: TransactionRequest) {
let tx: TransactionRequest = {
to: transaction.to,
from: transaction.from,
data: transaction.data
};
return this.ready.then(() => {
return resolveProperties(tx).then((tx) => {
return this._resolveNames(tx, [ 'to', 'from' ]).then((tx) => {
var params = { transaction: checkTransactionRequest(tx) };
return this.perform('estimateGas', params).then((result) => {
return bigNumberify(result);
});
});
});
});
}
getBlock(blockHashOrBlockTag: BlockTag | string | Promise<BlockTag | string>): Promise<Block> {
return this.ready.then(() => {
return resolveProperties({ blockHashOrBlockTag: blockHashOrBlockTag }).then(({ blockHashOrBlockTag }) => {
try {
var blockHash = hexlify(blockHashOrBlockTag);
if (hexDataLength(blockHash) === 32) {
return poll(() => {
return this.perform('getBlock', { blockHash: blockHash }).then((block) => {
if (block == null) {
if (this._emitted['b:' + blockHash] == null) {
return null;
}
return undefined;
}
return checkBlock(block);
});
}, { onceBlock: this });
}
} catch (error) { }
try {
let blockNumber = -128;
let blockTag = checkBlockTag(blockHashOrBlockTag);
if (isHexString(blockTag)) {
blockNumber = parseInt(blockTag.substring(2), 16);
}
return poll(() => {
return this.perform('getBlock', { blockTag: blockTag }).then((block) => {
if (block == null) {
if (blockNumber > this._emitted.block) {
return undefined;
}
return null;
}
return checkBlock(block);
});
}, { onceBlock: this });
} catch (error) { }
throw new Error('invalid block hash or block tag');
});
});
}
getTransaction(transactionHash: string): Promise<TransactionResponse> {
return this.ready.then(() => {
return resolveProperties({ transactionHash: transactionHash }).then(({ transactionHash }) => {
var params = { transactionHash: checkHash(transactionHash) };
return poll(() => {
return this.perform('getTransaction', params).then((result) => {
if (result == null) {
if (this._emitted['t:' + transactionHash] == null) {
return null;
}
return undefined;
}
return Provider.checkTransactionResponse(result);
});
}, { onceBlock: this });
});
});
}
getTransactionReceipt(transactionHash: string): Promise<TransactionReceipt> {
return this.ready.then(() => {
return resolveProperties({ transactionHash: transactionHash }).then(({ transactionHash }) => {
var params = { transactionHash: checkHash(transactionHash) };
return poll(() => {
return this.perform('getTransactionReceipt', params).then((result) => {
if (result == null) {
if (this._emitted['t:' + transactionHash] == null) {
return null;
}
return undefined;
}
return checkTransactionReceipt(result);
});
}, { onceBlock: this });
});
});
}
getLogs(filter: Filter): Promise<Array<Log>> {
return this.ready.then(() => {
return resolveProperties(filter).then((filter) => {
return this._resolveNames(filter, ['address']).then((filter) => {
var params = { filter: checkFilter(filter) };
return this.perform('getLogs', params).then((result) => {
return arrayOf(checkLog)(result);
});
});
});
});
}
getEtherPrice(): Promise<number> {
return this.ready.then(() => {
return this.perform('getEtherPrice', {}).then((result) => {
// @TODO: Check valid float
return result;
});
});
}
// @TODO: Could probably use resolveProperties instead?
private _resolveNames(object: any, keys: Array<string>): Promise<{ [key: string]: string }> {
var promises: Array<Promise<void>> = [];
var result: { [key: string ]: string } = shallowCopy(object);
keys.forEach(function(key) {
if (result[key] == null) { return; }
promises.push(this.resolveName(result[key]).then((address: string) => {
result[key] = address;
return;
}));
}, this);
return Promise.all(promises).then(function() { return result; });
}
private _getResolver(name: string): Promise<string> {
// Get the resolver from the blockchain
return this.getNetwork().then((network) => {
// No ENS...
if (!network.ensAddress) {
errors.throwError(
'network does support ENS',
errors.UNSUPPORTED_OPERATION,
{ operation: 'ENS', network: network.name }
);
}
// keccak256('resolver(bytes32)')
var data = '0x0178b8bf' + namehash(name).substring(2);
var transaction = { to: network.ensAddress, data: data };
return this.call(transaction).then((data) => {
// extract the address from the data
if (hexDataLength(data) !== 32) { return null; }
return getAddress(hexDataSlice(data, 12));
});
});
}
resolveName(name: string | Promise<string>): Promise<string> {
// If it is a promise, resolve it then recurse
if (name instanceof Promise) {
return name.then((addressOrName) => {
return this.resolveName(addressOrName);
});
}
// If it is already an address, nothing to resolve
try {
return Promise.resolve(getAddress(name));
} catch (error) { }
var self = this;
var nodeHash = namehash(name);
// Get the addr from the resovler
return this._getResolver(name).then(function(resolverAddress) {
// keccak256('addr(bytes32)')
var data = '0x3b3b57de' + nodeHash.substring(2);
var transaction = { to: resolverAddress, data: data };
return self.call(transaction);
// extract the address from the data
}).then(function(data) {
if (hexDataLength(data) !== 32) { return null; }
var address = getAddress(hexDataSlice(data, 12));
if (address === '0x0000000000000000000000000000000000000000') { return null; }
return address;
});
}
lookupAddress(address: string | Promise<string>): Promise<string> {
if (address instanceof Promise) {
return address.then((address) => {
return this.lookupAddress(address);
});
}
address = getAddress(address);
var name = address.substring(2) + '.addr.reverse'
var nodehash = namehash(name);
var self = this;
return this._getResolver(name).then(function(resolverAddress) {
if (!resolverAddress) { return null; }
// keccak('name(bytes32)')
var data = '0x691f3431' + nodehash.substring(2);
var transaction = { to: resolverAddress, data: data };
return self.call(transaction);
}).then(function(data) {
// Strip off the "0x"
data = data.substring(2);
// Strip off the dynamic string pointer (0x20)
if (data.length < 64) { return null; }
data = data.substring(64);
if (data.length < 64) { return null; }
var length = bigNumberify('0x' + data.substring(0, 64)).toNumber();
data = data.substring(64);
if (2 * length > data.length) { return null; }
var name = toUtf8String('0x' + data.substring(0, 2 * length));
// Make sure the reverse record matches the foward record
return self.resolveName(name).then(function(addr) {
if (addr != address) { return null; }
return name;
});
});
}
static checkTransactionResponse(transaction: any): TransactionResponse {
return checkTransactionResponse(transaction);
}
doPoll(): void {
}
perform(method: string, params: any): Promise<any> {
errors.throwError(method + ' not implemented', errors.NOT_IMPLEMENTED, { operation: method });
return null;
}
protected _startPending(): void {
console.log('WARNING: this provider does not support pending events');
}
protected _stopPending(): void {
}
private _addEventListener(eventName: EventType, listener: Listener, once: boolean): void {
this._events.push({
tag: getEventTag(eventName),
listener: listener,
once: once,
});
if (eventName === 'pending') { this._startPending(); }
this.polling = true;
}
on(eventName: EventType, listener: Listener): Provider {
this._addEventListener(eventName, listener, false);
return this;
}
once(eventName: EventType, listener: Listener): Provider {
this._addEventListener(eventName, listener, true);
return this;
}
addEventListener(eventName: EventType, listener: Listener): Provider {
return this.on(eventName, listener);
}
emit(eventName: EventType, ...args: Array<any>): boolean {
let result = false;
let eventTag = getEventTag(eventName);
this._events = this._events.filter((event) => {
if (event.tag !== eventTag) { return true; }
setTimeout(() => {
event.listener.apply(this, args);
}, 0);
result = true;
return !(event.once);
});
return result;
}
listenerCount(eventName?: EventType): number {
if (!eventName) { return this._events.length; }
let eventTag = getEventTag(eventName);
return this._events.filter((event) => {
return (event.tag === eventTag);
}).length;
}
listeners(eventName: EventType): Array<Listener> {
let eventTag = getEventTag(eventName);
return this._events.filter((event) => {
return (event.tag === eventTag);
}).map((event) => {
return event.listener;
});
}
removeAllListeners(eventName: EventType): Provider {
let eventTag = getEventTag(eventName);
this._events = this._events.filter((event) => {
return (event.tag !== eventTag);
});
if (eventName === 'pending') { this._stopPending(); }
if (this._events.length === 0) { this.polling = false; }
return this;
}
removeListener(eventName: EventType, listener: Listener): Provider {
let found = false;
let eventTag = getEventTag(eventName);
this._events = this._events.filter((event) => {
if (event.tag !== eventTag) { return true; }
if (found) { return true; }
found = false;
return false;
});
if (eventName === 'pending' && this.listenerCount('pending') === 0) { this._stopPending(); }
if (this.listenerCount() === 0) { this.polling = false; }
return this;
}
}
defineReadOnly(Provider, 'inherits', inheritable(Provider));