"use strict"; // See: https://github.com/ethereum/wiki/wiki/JSON-RPC import { Provider, TransactionRequest, TransactionResponse } from "@ethersproject/abstract-provider"; import { Signer } from "@ethersproject/abstract-signer"; import { BigNumber } from "@ethersproject/bignumber"; import { Bytes, hexlify, hexValue } from "@ethersproject/bytes"; import { getNetwork, Network, Networkish } from "@ethersproject/networks"; import { checkProperties, deepCopy, defineReadOnly, resolveProperties, shallowCopy } from "@ethersproject/properties"; import { toUtf8Bytes } from "@ethersproject/strings"; import { ConnectionInfo, fetchJson, poll } from "@ethersproject/web"; import { Logger } from "@ethersproject/logger"; import { version } from "./_version"; const logger = new Logger(version); import { BaseProvider } from "./base-provider"; function timer(timeout: number): Promise { return new Promise(function(resolve) { setTimeout(function() { resolve(); }, timeout); }); } function getResult(payload: { error?: { code?: number, data?: any, message?: string }, result?: any }): any { if (payload.error) { // @TODO: not any let error: any = new Error(payload.error.message); error.code = payload.error.code; error.data = payload.error.data; throw error; } return payload.result; } function getLowerCase(value: string): string { if (value) { return value.toLowerCase(); } return value; } const _constructorGuard = {}; export class JsonRpcSigner extends Signer { readonly provider: JsonRpcProvider; _index: number; _address: string; constructor(constructorGuard: any, provider: JsonRpcProvider, addressOrIndex?: string | number) { logger.checkNew(new.target, JsonRpcSigner); super(); if (constructorGuard !== _constructorGuard) { throw new Error("do not call the JsonRpcSigner constructor directly; use provider.getSigner"); } defineReadOnly(this, "provider", provider); if (addressOrIndex == null) { addressOrIndex = 0; } if (typeof(addressOrIndex) === "string") { defineReadOnly(this, "_address", this.provider.formatter.address(addressOrIndex)); defineReadOnly(this, "_index", null); } else if (typeof(addressOrIndex) === "number") { defineReadOnly(this, "_index", addressOrIndex); defineReadOnly(this, "_address", null); } else { logger.throwArgumentError("invalid address or index", "addressOrIndex", addressOrIndex); } } connect(provider: Provider): JsonRpcSigner { return logger.throwError("cannot alter JSON-RPC Signer connection", Logger.errors.UNSUPPORTED_OPERATION, { operation: "connect" }); } connectUnchecked(): JsonRpcSigner { return new UncheckedJsonRpcSigner(_constructorGuard, this.provider, this._address || this._index); } getAddress(): Promise { if (this._address) { return Promise.resolve(this._address); } return this.provider.send("eth_accounts", []).then((accounts) => { if (accounts.length <= this._index) { logger.throwError("unknown account #" + this._index, Logger.errors.UNSUPPORTED_OPERATION, { operation: "getAddress" }); } return this.provider.formatter.address(accounts[this._index]) }); } sendUncheckedTransaction(transaction: TransactionRequest): Promise { transaction = shallowCopy(transaction); let fromAddress = this.getAddress().then((address) => { if (address) { address = address.toLowerCase(); } return address; }); // The JSON-RPC for eth_sendTransaction uses 90000 gas; if the user // wishes to use this, it is easy to specify explicitly, otherwise // we look it up for them. if (transaction.gasLimit == null) { let estimate = shallowCopy(transaction); estimate.from = fromAddress; transaction.gasLimit = this.provider.estimateGas(estimate); } return Promise.all([ resolveProperties(transaction), fromAddress ]).then((results) => { let tx = results[0]; let hexTx = (this.provider.constructor).hexlifyTransaction(tx); hexTx.from = results[1]; return this.provider.send("eth_sendTransaction", [ hexTx ]).then((hash) => { return hash; }, (error) => { if (error.responseText) { // See: JsonRpcProvider.sendTransaction (@TODO: Expose a ._throwError??) if (error.responseText.indexOf("insufficient funds") >= 0) { logger.throwError("insufficient funds", Logger.errors.INSUFFICIENT_FUNDS, { transaction: tx }); } if (error.responseText.indexOf("nonce too low") >= 0) { logger.throwError("nonce has already been used", Logger.errors.NONCE_EXPIRED, { transaction: tx }); } if (error.responseText.indexOf("replacement transaction underpriced") >= 0) { logger.throwError("replacement fee too low", Logger.errors.REPLACEMENT_UNDERPRICED, { transaction: tx }); } } throw error; }); }); } signTransaction(transaction: TransactionRequest): Promise { return logger.throwError("signing transactions is unsupported", Logger.errors.UNSUPPORTED_OPERATION, { operation: "signTransaction" }); } sendTransaction(transaction: TransactionRequest): Promise { return this.sendUncheckedTransaction(transaction).then((hash) => { return poll(() => { return this.provider.getTransaction(hash).then((tx: TransactionResponse) => { if (tx === null) { return undefined; } return this.provider._wrapTransaction(tx, hash); }); }, { onceBlock: this.provider }).catch((error: Error) => { (error).transactionHash = hash; throw error; }); }); } signMessage(message: Bytes | string): Promise { let data = ((typeof(message) === "string") ? toUtf8Bytes(message): message); return this.getAddress().then((address) => { // https://github.com/ethereum/wiki/wiki/JSON-RPC#eth_sign return this.provider.send("eth_sign", [ address.toLowerCase(), hexlify(data) ]); }); } unlock(password: string): Promise { let provider = this.provider; return this.getAddress().then(function(address) { return provider.send("personal_unlockAccount", [ address.toLowerCase(), password, null ]); }); } } class UncheckedJsonRpcSigner extends JsonRpcSigner { sendTransaction(transaction: TransactionRequest): Promise { return this.sendUncheckedTransaction(transaction).then((hash) => { return { hash: hash, nonce: null, gasLimit: null, gasPrice: null, data: null, value: null, chainId: null, confirmations: 0, from: null, wait: (confirmations?: number) => { return this.provider.waitForTransaction(hash, confirmations); } }; }); } } const allowedTransactionKeys: { [ key: string ]: boolean } = { chainId: true, data: true, gasLimit: true, gasPrice:true, nonce: true, to: true, value: true } export class JsonRpcProvider extends BaseProvider { readonly connection: ConnectionInfo; _pendingFilter: Promise; _nextId: number; constructor(url?: ConnectionInfo | string, network?: Networkish) { logger.checkNew(new.target, JsonRpcProvider); // One parameter, but it is a network name, so swap it with the URL if (typeof(url) === "string") { if (network === null && getNetwork(url)) { network = url; url = null; } } if (network) { // The network has been specified explicitly, we can use it super(network); } else { // The network is unknown, query the JSON-RPC for it let ready: Promise = new Promise((resolve, reject) => { setTimeout(() => { this.send("eth_chainId", [ ]).then((result) => { resolve(getNetwork(BigNumber.from(result).toNumber())); }).catch((error) => { this.send("net_version", [ ]).then((result) => { resolve(getNetwork(BigNumber.from(result).toNumber())); }).catch((error) => { reject(logger.makeError("could not detect network", Logger.errors.NETWORK_ERROR)); }); }); }); }); super(ready); } // Default URL if (!url) { url = "http:/" + "/localhost:8545"; } if (typeof(url) === "string") { this.connection = { url: url }; } else { this.connection = url; } this._nextId = 42; } getSigner(addressOrIndex?: string | number): JsonRpcSigner { return new JsonRpcSigner(_constructorGuard, this, addressOrIndex); } getUncheckedSigner(addressOrIndex?: string | number): UncheckedJsonRpcSigner { return this.getSigner(addressOrIndex).connectUnchecked(); } listAccounts(): Promise> { return this.send("eth_accounts", []).then((accounts: Array) => { return accounts.map((a) => this.formatter.address(a)); }); } send(method: string, params: any): Promise { let request = { method: method, params: params, id: (this._nextId++), jsonrpc: "2.0" }; this.emit("debug", { action: "request", request: deepCopy(request), provider: this }); return fetchJson(this.connection, JSON.stringify(request), getResult).then((result) => { this.emit("debug", { action: "response", request: request, response: result, provider: this }); return result; }); } perform(method: string, params: any): Promise { switch (method) { case "getBlockNumber": return this.send("eth_blockNumber", []); case "getGasPrice": return this.send("eth_gasPrice", []); case "getBalance": return this.send("eth_getBalance", [ getLowerCase(params.address), params.blockTag ]); case "getTransactionCount": return this.send("eth_getTransactionCount", [ getLowerCase(params.address), params.blockTag ]); case "getCode": return this.send("eth_getCode", [ getLowerCase(params.address), params.blockTag ]); case "getStorageAt": return this.send("eth_getStorageAt", [ getLowerCase(params.address), params.position, params.blockTag ]); case "sendTransaction": return this.send("eth_sendRawTransaction", [ params.signedTransaction ]).catch((error) => { if (error.responseText) { // "insufficient funds for gas * price + value" if (error.responseText.indexOf("insufficient funds") > 0) { logger.throwError("insufficient funds", Logger.errors.INSUFFICIENT_FUNDS, { }); } // "nonce too low" if (error.responseText.indexOf("nonce too low") > 0) { logger.throwError("nonce has already been used", Logger.errors.NONCE_EXPIRED, { }); } // "replacement transaction underpriced" if (error.responseText.indexOf("replacement transaction underpriced") > 0) { logger.throwError("replacement fee too low", Logger.errors.REPLACEMENT_UNDERPRICED, { }); } } throw error; }); case "getBlock": if (params.blockTag) { return this.send("eth_getBlockByNumber", [ params.blockTag, !!params.includeTransactions ]); } else if (params.blockHash) { return this.send("eth_getBlockByHash", [ params.blockHash, !!params.includeTransactions ]); } return Promise.reject(new Error("invalid block tag or block hash")); case "getTransaction": return this.send("eth_getTransactionByHash", [ params.transactionHash ]); case "getTransactionReceipt": return this.send("eth_getTransactionReceipt", [ params.transactionHash ]); case "call": return this.send("eth_call", [ (this.constructor).hexlifyTransaction(params.transaction, { from: true }), params.blockTag ]); case "estimateGas": return this.send("eth_estimateGas", [ (this.constructor).hexlifyTransaction(params.transaction, { from: true }) ]); case "getLogs": if (params.filter && params.filter.address != null) { params.filter.address = getLowerCase(params.filter.address); } return this.send("eth_getLogs", [ params.filter ]); default: break; } return logger.throwError(method + " not implemented", Logger.errors.NOT_IMPLEMENTED, { operation: method }); } _startPending(): void { if (this._pendingFilter != null) { return; } let self = this; let pendingFilter: Promise = this.send("eth_newPendingTransactionFilter", []); this._pendingFilter = pendingFilter; pendingFilter.then(function(filterId) { function poll() { self.send("eth_getFilterChanges", [ filterId ]).then(function(hashes: Array) { if (self._pendingFilter != pendingFilter) { return null; } let seq = Promise.resolve(); hashes.forEach(function(hash) { // @TODO: This should be garbage collected at some point... How? When? self._emitted["t:" + hash.toLowerCase()] = "pending"; seq = seq.then(function() { return self.getTransaction(hash).then(function(tx) { self.emit("pending", tx); return null; }); }); }); return seq.then(function() { return timer(1000); }); }).then(function() { if (self._pendingFilter != pendingFilter) { self.send("eth_uninstallFilter", [ filterId ]); return; } setTimeout(function() { poll(); }, 0); return null; }).catch((error: Error) => { }); } poll(); return filterId; }).catch((error: Error) => { }); } _stopPending(): void { this._pendingFilter = null; } // Convert an ethers.js transaction into a JSON-RPC transaction // - gasLimit => gas // - All values hexlified // - All numeric values zero-striped // NOTE: This allows a TransactionRequest, but all values should be resolved // before this is called static hexlifyTransaction(transaction: TransactionRequest, allowExtra?: { [key: string]: boolean }): { [key: string]: string } { // Check only allowed properties are given let allowed = shallowCopy(allowedTransactionKeys); if (allowExtra) { for (let key in allowExtra) { if (allowExtra[key]) { allowed[key] = true; } } } checkProperties(transaction, allowed); let result: { [key: string]: string } = {}; // Some nodes (INFURA ropsten; INFURA mainnet is fine) do not like leading zeros. ["gasLimit", "gasPrice", "nonce", "value"].forEach(function(key) { if ((transaction)[key] == null) { return; } let value = hexValue((transaction)[key]); if (key === "gasLimit") { key = "gas"; } result[key] = value; }); ["from", "to", "data"].forEach(function(key) { if ((transaction)[key] == null) { return; } result[key] = hexlify((transaction)[key]); }); return result; } }