/** * About JSON-RPC... * * @_section: api/providers/jsonrpc:JSON-RPC Provider [about-jsonrpcProvider] */ // @TODO: // - Add the batching API // https://playground.open-rpc.org/?schemaUrl=https://raw.githubusercontent.com/ethereum/eth1.0-apis/assembled-spec/openrpc.json&uiSchema%5BappBar%5D%5Bui:splitView%5D=true&uiSchema%5BappBar%5D%5Bui:input%5D=false&uiSchema%5BappBar%5D%5Bui:examplesDropdown%5D=false import { AbiCoder } from "../abi/index.js"; import { getAddress, resolveAddress } from "../address/index.js"; import { TypedDataEncoder } from "../hash/index.js"; import { accessListify } from "../transaction/index.js"; import { defineProperties, getBigInt, hexlify, isHexString, toQuantity, toUtf8Bytes, makeError, assert, assertArgument, FetchRequest, resolveProperties } from "../utils/index.js"; import { AbstractProvider, UnmanagedSubscriber } from "./abstract-provider.js"; import { AbstractSigner } from "./abstract-signer.js"; import { Network } from "./network.js"; import { FilterIdEventSubscriber, FilterIdPendingSubscriber } from "./subscriber-filterid.js"; import { PollingEventSubscriber } from "./subscriber-polling.js"; import type { TypedDataDomain, TypedDataField } from "../hash/index.js"; import type { TransactionLike } from "../transaction/index.js"; import type { PerformActionRequest, Subscriber, Subscription } from "./abstract-provider.js"; import type { Networkish } from "./network.js"; import type { Provider, TransactionRequest, TransactionResponse } from "./provider.js"; import type { Signer } from "./signer.js"; type Timer = ReturnType; const Primitive = "bigint,boolean,function,number,string,symbol".split(/,/g); //const Methods = "getAddress,then".split(/,/g); function deepCopy(value: T): T { if (value == null || Primitive.indexOf(typeof(value)) >= 0) { return value; } // Keep any Addressable if (typeof((value).getAddress) === "function") { return value; } if (Array.isArray(value)) { return (value.map(deepCopy)); } if (typeof(value) === "object") { return Object.keys(value).reduce((accum, key) => { accum[key] = (value)[key]; return accum; }, { }); } throw new Error(`should not happen: ${ value } (${ typeof(value) })`); } function stall(duration: number): Promise { return new Promise((resolve) => { setTimeout(resolve, duration); }); } function getLowerCase(value: string): string { if (value) { return value.toLowerCase(); } return value; } interface Pollable { pollingInterval: number; } function isPollable(value: any): value is Pollable { return (value && typeof(value.pollingInterval) === "number"); } /** * A JSON-RPC payload, which are sent to a JSON-RPC server. */ export type JsonRpcPayload = { id: number; method: string; params: Array | Record; jsonrpc: "2.0"; }; /** * A JSON-RPC result, which are returned on success from a JSON-RPC server. */ export type JsonRpcResult = { id: number; result: any; }; /** * A JSON-RPC error, which are returned on failure from a JSON-RPC server. */ export type JsonRpcError = { id: number; error: { code: number; message?: string; data?: any; } }; /** * When subscribing to the ``"debug"`` event, the [[Listener]] will * receive this object as the first parameter. */ export type DebugEventJsonRpcApiProvider = { action: "sendRpcPayload", payload: JsonRpcPayload | Array } | { action: "receiveRpcResult", result: Array } | { action: "receiveRpcError", error: Error }; /** * Options for configuring a [[JsonRpcApiProvider]]. Much of this * is targetted towards sub-classes, which often will not expose * any of these options to their consumers. * * **``polling``** - use the polling strategy is used immediately * for events; otherwise, attempt to use filters and fall back onto * polling (default: ``false``) * * **``staticNetwork``** - do not request chain ID on requests to * validate the underlying chain has not changed (default: ``null``) * * This should **ONLY** be used if it is **certain** that the network * cannot change, such as when using INFURA (since the URL dictates the * network). If the network is assumed static and it does change, this * can have tragic consequences. For example, this **CANNOT** be used * with MetaMask, since the used can select a new network from the * drop-down at any time. * * **``batchStallTime``** - how long (ms) to aggregate requests into a * single batch. ``0`` indicates batching will only encompass the current * event loop. If ``batchMaxCount = 1``, this is ignored. (default: ``10``) * * **``batchMaxSize``** - target maximum size (bytes) to allow per batch * request (default: 1Mb) * * **``batchMaxCount``** - maximum number of requests to allow in a batch. * If ``batchMaxCount = 1``, then batching is disabled. (default: ``100``) */ export type JsonRpcApiProviderOptions = { polling?: boolean; staticNetwork?: null | Network; batchStallTime?: number; batchMaxSize?: number; batchMaxCount?: number; }; const defaultOptions = { polling: false, staticNetwork: null, batchStallTime: 10, // 10ms batchMaxSize: (1 << 20), // 1Mb batchMaxCount: 100 // 100 requests } export interface JsonRpcTransactionRequest { from?: string; to?: string; data?: string; chainId?: string; type?: string; gas?: string; gasPrice?: string; maxFeePerGas?: string; maxPriorityFeePerGas?: string; nonce?: string; value?: string; accessList?: Array<{ address: string, storageKeys: Array }>; } // @TODO: Unchecked Signers export class JsonRpcSigner extends AbstractSigner { address!: string; constructor(provider: JsonRpcApiProvider, address: string) { super(provider); address = getAddress(address); defineProperties(this, { address }); } connect(provider: null | Provider): Signer { assert(false, "cannot reconnect JsonRpcSigner", "UNSUPPORTED_OPERATION", { operation: "signer.connect" }); } async getAddress(): Promise { return this.address; } // JSON-RPC will automatially fill in nonce, etc. so we just check from async populateTransaction(tx: TransactionRequest): Promise> { return await this.populateCall(tx); } // Returns just the hash of the transaction after sent, which is what // the bare JSON-RPC API does; async sendUncheckedTransaction(_tx: TransactionRequest): Promise { const tx = deepCopy(_tx); const promises: Array> = []; // Make sure the from matches the sender if (tx.from) { const _from = tx.from; promises.push((async () => { const from = await resolveAddress(_from, this.provider); assertArgument(from != null && from.toLowerCase() === this.address.toLowerCase(), "from address mismatch", "transaction", _tx); tx.from = from; })()); } else { tx.from = this.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 (tx.gasLimit == null) { promises.push((async () => { tx.gasLimit = await this.provider.estimateGas({ ...tx, from: this.address}); })()); } // The address may be an ENS name or Addressable if (tx.to != null) { const _to = tx.to; promises.push((async () => { tx.to = await resolveAddress(_to, this.provider); })()); } // Wait until all of our properties are filled in if (promises.length) { await Promise.all(promises); } const hexTx = this.provider.getRpcTransaction(tx); return this.provider.send("eth_sendTransaction", [ hexTx ]); } async sendTransaction(tx: TransactionRequest): Promise { // This cannot be mined any earlier than any recent block const blockNumber = await this.provider.getBlockNumber(); // Send the transaction const hash = await this.sendUncheckedTransaction(tx); // Unfortunately, JSON-RPC only provides and opaque transaction hash // for a response, and we need the actual transaction, so we poll // for it; it should show up very quickly return await (new Promise((resolve, reject) => { const timeouts = [ 1000, 100 ]; const checkTx = async () => { // Try getting the transaction const tx = await this.provider.getTransaction(hash); if (tx != null) { resolve(tx.replaceableTransaction(blockNumber)); return; } // Wait another 4 seconds this.provider._setTimeout(() => { checkTx(); }, timeouts.pop() || 4000); }; checkTx(); })); } async signTransaction(_tx: TransactionRequest): Promise { const tx = deepCopy(_tx); // Make sure the from matches the sender if (tx.from) { const from = await resolveAddress(tx.from, this.provider); assertArgument(from != null && from.toLowerCase() === this.address.toLowerCase(), "from address mismatch", "transaction", _tx); tx.from = from; } else { tx.from = this.address; } const hexTx = this.provider.getRpcTransaction(tx); return await this.provider.send("eth_signTransaction", [ hexTx ]); } async signMessage(_message: string | Uint8Array): Promise { const message = ((typeof(_message) === "string") ? toUtf8Bytes(_message): _message); return await this.provider.send("personal_sign", [ hexlify(message), this.address.toLowerCase() ]); } async signTypedData(domain: TypedDataDomain, types: Record>, _value: Record): Promise { const value = deepCopy(_value); // Populate any ENS names (in-place) const populated = await TypedDataEncoder.resolveNames(domain, types, value, async (value: string) => { const address = await resolveAddress(value); assertArgument(address != null, "TypedData does not support null address", "value", value); return address; }); return await this.provider.send("eth_signTypedData_v4", [ this.address.toLowerCase(), JSON.stringify(TypedDataEncoder.getPayload(populated.domain, types, populated.value)) ]); } async unlock(password: string): Promise { return this.provider.send("personal_unlockAccount", [ this.address.toLowerCase(), password, null ]); } // https://github.com/ethereum/wiki/wiki/JSON-RPC#eth_sign async _legacySignMessage(_message: string | Uint8Array): Promise { const message = ((typeof(_message) === "string") ? toUtf8Bytes(_message): _message); return await this.provider.send("eth_sign", [ this.address.toLowerCase(), hexlify(message) ]); } } type ResolveFunc = (result: JsonRpcResult) => void; type RejectFunc = (error: Error) => void; type Payload = { payload: JsonRpcPayload, resolve: ResolveFunc, reject: RejectFunc }; /** * The JsonRpcApiProvider is an abstract class and **MUST** be * sub-classed. * * It provides the base for all JSON-RPC-based Provider interaction. * * Sub-classing Notes: * - a sub-class MUST override _send * - a sub-class MUST call the `_start()` method once connected */ export abstract class JsonRpcApiProvider extends AbstractProvider { #options: Required; // The next ID to use for the JSON-RPC ID field #nextId: number; // Payloads are queued and triggered in batches using the drainTimer #payloads: Array; #drainTimer: null | Timer; #notReady: null | { promise: Promise, resolve: null | ((v: void) => void) }; #network: null | Network; #scheduleDrain(): void { if (this.#drainTimer) { return; } // If we aren't using batching, no hard in sending it immeidately const stallTime = (this._getOption("batchMaxCount") === 1) ? 0: this._getOption("batchStallTime"); this.#drainTimer = setTimeout(() => { this.#drainTimer = null; const payloads = this.#payloads; this.#payloads = [ ]; while (payloads.length) { // Create payload batches that satisfy our batch constraints const batch = [ (payloads.shift()) ]; while (payloads.length) { if (batch.length === this.#options.batchMaxCount) { break; } batch.push((payloads.shift())); const bytes = JSON.stringify(batch.map((p) => p.payload)); if (bytes.length > this.#options.batchMaxSize) { payloads.unshift((batch.pop())); break; } } // Process the result to each payload (async () => { const payload = ((batch.length === 1) ? batch[0].payload: batch.map((p) => p.payload)); this.emit("debug", { action: "sendRpcPayload", payload }); try { const result = await this._send(payload); this.emit("debug", { action: "receiveRpcResult", result }); // Process results in batch order for (const { resolve, reject, payload } of batch) { // Find the matching result const resp = result.filter((r) => (r.id === payload.id))[0]; // No result; the node failed us in unexpected ways if (resp == null) { return reject(makeError("no response from server", "BAD_DATA", { value: result, info: { payload } })); } // The response is an error if ("error" in resp) { return reject(this.getRpcError(payload, resp)); } // All good; send the result resolve(resp.result); } } catch (error: any) { this.emit("debug", { action: "receiveRpcError", error }); for (const { reject } of batch) { // @TODO: augment the error with the payload reject(error); } } })(); } }, stallTime); } constructor(network?: Networkish, options?: JsonRpcApiProviderOptions) { super(network); this.#nextId = 1; this.#options = Object.assign({ }, defaultOptions, options || { }); this.#payloads = [ ]; this.#drainTimer = null; this.#network = null; { let resolve: null | ((value: void) => void) = null; const promise = new Promise((_resolve: (value: void) => void) => { resolve = _resolve; }); this.#notReady = { promise, resolve }; } // Make sure any static network is compatbile with the provided netwrok const staticNetwork = this._getOption("staticNetwork"); if (staticNetwork) { assertArgument(network == null || staticNetwork.matches(network), "staticNetwork MUST match network object", "options", options); this.#network = staticNetwork; } } /** * Returns the value associated with the option %%key%%. * * Sub-classes can use this to inquire about configuration options. */ _getOption(key: K): JsonRpcApiProviderOptions[K] { return this.#options[key]; } /** * Gets the [[Network]] this provider has committed to. On each call, the network * is detected, and if it has changed, the call will reject. */ get _network(): Network { assert (this.#network, "network is not available yet", "NETWORK_ERROR"); return this.#network; } /** * Sends a JSON-RPC %%payload%% (or a batch) to the underlying channel. * * Sub-classes **MUST** override this. */ abstract _send(payload: JsonRpcPayload | Array): Promise>; /* { assert(false, "sub-classes must override _send", "UNSUPPORTED_OPERATION", { operation: "jsonRpcApiProvider._send" }); } */ /** * Resolves to the non-normalized value by performing %%req%%. * * Sub-classes may override this to modify behavior of actions, * and should generally call ``super._perform`` as a fallback. */ async _perform(req: PerformActionRequest): Promise { // Legacy networks do not like the type field being passed along (which // is fair), so we delete type if it is 0 and a non-EIP-1559 network if (req.method === "call" || req.method === "estimateGas") { let tx = req.transaction; if (tx && tx.type != null && getBigInt(tx.type)) { // If there are no EIP-1559 properties, it might be non-EIP-a559 if (tx.maxFeePerGas == null && tx.maxPriorityFeePerGas == null) { const feeData = await this.getFeeData(); if (feeData.maxFeePerGas == null && feeData.maxPriorityFeePerGas == null) { // Network doesn't know about EIP-1559 (and hence type) req = Object.assign({ }, req, { transaction: Object.assign({ }, tx, { type: undefined }) }); } } } } const request = this.getRpcRequest(req); if (request != null) { return await this.send(request.method, request.args); } return super._perform(req); } /** * Sub-classes may override this; it detects the *actual* network that * we are **currently** connected to. * * Keep in mind that [[send]] may only be used once [[ready]], otherwise the * _send primitive must be used instead. */ async _detectNetwork(): Promise { const network = this._getOption("staticNetwork"); if (network) { return network; } // If we are ready, use ``send``, which enabled requests to be batched if (this.ready) { return Network.from(getBigInt(await this.send("eth_chainId", [ ]))); } // We are not ready yet; use the primitive _send const payload: JsonRpcPayload = { id: this.#nextId++, method: "eth_chainId", params: [ ], jsonrpc: "2.0" }; this.emit("debug", { action: "sendRpcPayload", payload }); let result: JsonRpcResult | JsonRpcError; try { result = (await this._send(payload))[0]; } catch (error) { this.emit("debug", { action: "receiveRpcError", error }); throw error; } this.emit("debug", { action: "receiveRpcResult", result }); if ("result" in result) { return Network.from(getBigInt(result.result)); } throw this.getRpcError(payload, result); } /** * Sub-classes **MUST** call this. Until [[_start]] has been called, no calls * will be passed to [[_send]] from [[send]]. If it is overridden, then * ``super._start()`` **MUST** be called. * * Calling it multiple times is safe and has no effect. */ _start(): void { if (this.#notReady == null || this.#notReady.resolve == null) { return; } this.#notReady.resolve(); this.#notReady = null; (async () => { // Bootstrap the network while (this.#network == null) { try { this.#network = await this._detectNetwork(); } catch (error) { console.log("JsonRpcProvider failed to startup; retry in 1s"); await stall(1000); } } // Start dispatching requests this.#scheduleDrain(); })(); } /** * Resolves once the [[_start]] has been called. This can be used in * sub-classes to defer sending data until the connection has been * established. */ async _waitUntilReady(): Promise { if (this.#notReady == null) { return; } return await this.#notReady.promise; } /** * Return a Subscriber that will manage the %%sub%%. * * Sub-classes may override this to modify the behavior of * subscription management. */ _getSubscriber(sub: Subscription): Subscriber { // Pending Filters aren't availble via polling if (sub.type === "pending") { return new FilterIdPendingSubscriber(this); } if (sub.type === "event") { if (this._getOption("polling")) { return new PollingEventSubscriber(this, sub.filter); } return new FilterIdEventSubscriber(this, sub.filter); } // Orphaned Logs are handled automatically, by the filter, since // logs with removed are emitted by it if (sub.type === "orphan" && sub.filter.orphan === "drop-log") { return new UnmanagedSubscriber("orphan"); } return super._getSubscriber(sub); } /** * Returns true only if the [[_start]] has been called. */ get ready(): boolean { return this.#notReady == null; } /** * Returns %%tx%% as a normalized JSON-RPC transaction request, * which has all values hexlified and any numeric values converted * to Quantity values. */ getRpcTransaction(tx: TransactionRequest): JsonRpcTransactionRequest { const result: JsonRpcTransactionRequest = {}; // JSON-RPC now requires numeric values to be "quantity" values ["chainId", "gasLimit", "gasPrice", "type", "maxFeePerGas", "maxPriorityFeePerGas", "nonce", "value"].forEach((key) => { if ((tx)[key] == null) { return; } let dstKey = key; if (key === "gasLimit") { dstKey = "gas"; } (result)[dstKey] = toQuantity(getBigInt((tx)[key], `tx.${ key }`)); }); // Make sure addresses and data are lowercase ["from", "to", "data"].forEach((key) => { if ((tx)[key] == null) { return; } (result)[key] = hexlify((tx)[key]); }); // Normalize the access list object if (tx.accessList) { result["accessList"] = accessListify(tx.accessList); } return result; } /** * Returns the request method and arguments required to perform * %%req%%. */ getRpcRequest(req: PerformActionRequest): null | { method: string, args: Array } { switch (req.method) { case "chainId": return { method: "eth_chainId", args: [ ] }; case "getBlockNumber": return { method: "eth_blockNumber", args: [ ] }; case "getGasPrice": return { method: "eth_gasPrice", args: [] }; case "getBalance": return { method: "eth_getBalance", args: [ getLowerCase(req.address), req.blockTag ] }; case "getTransactionCount": return { method: "eth_getTransactionCount", args: [ getLowerCase(req.address), req.blockTag ] }; case "getCode": return { method: "eth_getCode", args: [ getLowerCase(req.address), req.blockTag ] }; case "getStorage": return { method: "eth_getStorageAt", args: [ getLowerCase(req.address), ("0x" + req.position.toString(16)), req.blockTag ] }; case "broadcastTransaction": return { method: "eth_sendRawTransaction", args: [ req.signedTransaction ] }; case "getBlock": if ("blockTag" in req) { return { method: "eth_getBlockByNumber", args: [ req.blockTag, !!req.includeTransactions ] }; } else if ("blockHash" in req) { return { method: "eth_getBlockByHash", args: [ req.blockHash, !!req.includeTransactions ] }; } break; case "getTransaction": return { method: "eth_getTransactionByHash", args: [ req.hash ] }; case "getTransactionReceipt": return { method: "eth_getTransactionReceipt", args: [ req.hash ] }; case "call": return { method: "eth_call", args: [ this.getRpcTransaction(req.transaction), req.blockTag ] }; case "estimateGas": { return { method: "eth_estimateGas", args: [ this.getRpcTransaction(req.transaction) ] }; } case "getLogs": if (req.filter && req.filter.address != null) { if (Array.isArray(req.filter.address)) { req.filter.address = req.filter.address.map(getLowerCase); } else { req.filter.address = getLowerCase(req.filter.address); } } return { method: "eth_getLogs", args: [ req.filter ] }; } return null; } /** * Returns an ethers-style Error for the given JSON-RPC error * %%payload%%, coalescing the various strings and error shapes * that different nodes return, coercing them into a machine-readable * standardized error. */ getRpcError(payload: JsonRpcPayload, _error: JsonRpcError): Error { const { method } = payload; const { error } = _error; if (method === "eth_estimateGas" && error.message) { const msg = error.message; if (!msg.match(/revert/i) && msg.match(/insufficient funds/i)) { return makeError("insufficient funds", "INSUFFICIENT_FUNDS", { transaction: ((payload).params[0]), info: { payload, error } }); } } if (method === "eth_call" || method === "eth_estimateGas") { const result = spelunkData(error); const e = AbiCoder.getBuiltinCallException( (method === "eth_call") ? "call": "estimateGas", ((payload).params[0]), (result ? result.data: null) ); e.info = { error, payload }; return e; } // Only estimateGas and call can return arbitrary contract-defined text, so now we // we can process text safely. const message = JSON.stringify(spelunkMessage(error)); if (typeof(error.message) === "string" && error.message.match(/user denied|ethers-user-denied/i)) { const actionMap: Record = { eth_sign: "signMessage", personal_sign: "signMessage", eth_signTypedData_v4: "signTypedData", eth_signTransaction: "signTransaction", eth_sendTransaction: "sendTransaction", eth_requestAccounts: "requestAccess", wallet_requestAccounts: "requestAccess", }; return makeError(`user rejected action`, "ACTION_REJECTED", { action: (actionMap[method] || "unknown") , reason: "rejected", info: { payload, error } }); } if (method === "eth_sendRawTransaction" || method === "eth_sendTransaction") { const transaction = >((payload).params[0]); if (message.match(/insufficient funds|base fee exceeds gas limit/i)) { return makeError("insufficient funds for intrinsic transaction cost", "INSUFFICIENT_FUNDS", { transaction, info: { error } }); } if (message.match(/nonce/i) && message.match(/too low/i)) { return makeError("nonce has already been used", "NONCE_EXPIRED", { transaction, info: { error } }); } // "replacement transaction underpriced" if (message.match(/replacement transaction/i) && message.match(/underpriced/i)) { return makeError("replacement fee too low", "REPLACEMENT_UNDERPRICED", { transaction, info: { error } }); } if (message.match(/only replay-protected/i)) { return makeError("legacy pre-eip-155 transactions not supported", "UNSUPPORTED_OPERATION", { operation: method, info: { transaction, info: { error } } }); } } if (message.match(/the method .* does not exist/i)) { return makeError("unsupported operation", "UNSUPPORTED_OPERATION", { operation: payload.method, info: { error } }); } return makeError("could not coalesce error", "UNKNOWN_ERROR", { error }); } /** * Requests the %%method%% with %%params%% via the JSON-RPC protocol * over the underlying channel. This can be used to call methods * on the backend that do not have a high-level API within the Provider * API. * * This method queues requests according to the batch constraints * in the options, assigns the request a unique ID. * * **Do NOT override** this method in sub-classes; instead * override [[_send]] or force the options values in the * call to the constructor to modify this method's behavior. */ send(method: string, params: Array | Record): Promise { // @TODO: cache chainId?? purge on switch_networks const id = this.#nextId++; const promise = new Promise((resolve, reject) => { this.#payloads.push({ resolve, reject, payload: { method, params, id, jsonrpc: "2.0" } }); }); // If there is not a pending drainTimer, set one this.#scheduleDrain(); return >promise; } /** * Resolves to the [[Signer]] account for %%address%% managed by * the client. * * If the %%address%% is a number, it is used as an index in the * the accounts from [[listAccounts]]. * * This can only be used on clients which manage accounts (such as * Geth with imported account or MetaMask). * * Throws if the account doesn't exist. */ async getSigner(address?: number | string): Promise { if (address == null) { address = 0; } const accountsPromise = this.send("eth_accounts", [ ]); // Account index if (typeof(address) === "number") { const accounts = >(await accountsPromise); if (address >= accounts.length) { throw new Error("no such account"); } return new JsonRpcSigner(this, accounts[address]); } const { accounts } = await resolveProperties({ network: this.getNetwork(), accounts: accountsPromise }); // Account address address = getAddress(address); for (const account of accounts) { if (getAddress(account) === address) { return new JsonRpcSigner(this, address); } } throw new Error("invalid account"); } async listAccounts(): Promise> { const accounts: Array = await this.send("eth_accounts", [ ]); return accounts.map((a) => new JsonRpcSigner(this, a)); } } export abstract class JsonRpcApiPollingProvider extends JsonRpcApiProvider { #pollingInterval: number; constructor(network?: Networkish, options?: JsonRpcApiProviderOptions) { super(network, options); this.#pollingInterval = 4000; } _getSubscriber(sub: Subscription): Subscriber { const subscriber = super._getSubscriber(sub); if (isPollable(subscriber)) { subscriber.pollingInterval = this.#pollingInterval; } return subscriber; } /** * The polling interval (default: 4000 ms) */ get pollingInterval(): number { return this.#pollingInterval; } set pollingInterval(value: number) { if (!Number.isInteger(value) || value < 0) { throw new Error("invalid interval"); } this.#pollingInterval = value; this._forEachSubscriber((sub) => { if (isPollable(sub)) { sub.pollingInterval = this.#pollingInterval; } }); } } /** * The JsonRpcProvider is one of the most common Providers, * which performs all operations over HTTP (or HTTPS) requests. * * Events are processed by polling the backend for the current block * number; when it advances, all block-base events are then checked * for updates. */ export class JsonRpcProvider extends JsonRpcApiPollingProvider { #connect: FetchRequest; constructor(url?: string | FetchRequest, network?: Networkish, options?: JsonRpcApiProviderOptions) { if (url == null) { url = "http:/\/localhost:8545"; } super(network, options); if (typeof(url) === "string") { this.#connect = new FetchRequest(url); } else { this.#connect = url.clone(); } } _getConnection(): FetchRequest { return this.#connect.clone(); } async send(method: string, params: Array | Record): Promise { // All requests are over HTTP, so we can just start handling requests // We do this here rather than the constructor so that we don't send any // requests to the network (i.e. eth_chainId) until we absolutely have to. await this._start(); return await super.send(method, params); } async _send(payload: JsonRpcPayload | Array): Promise> { // Configure a POST connection for the requested method const request = this._getConnection(); request.body = JSON.stringify(payload); request.setHeader("content-type", "application/json"); const response = await request.send(); response.assertOk(); let resp = response.bodyJson; if (!Array.isArray(resp)) { resp = [ resp ]; } return resp; } } function spelunkData(value: any): null | { message: string, data: string } { if (value == null) { return null; } // These *are* the droids we're looking for. if (typeof(value.message) === "string" && value.message.match("reverted") && isHexString(value.data)) { return { message: value.message, data: value.data }; } // Spelunk further... if (typeof(value) === "object") { for (const key in value) { const result = spelunkData(value[key]); if (result) { return result; } } return null; } // Might be a JSON string we can further descend... if (typeof(value) === "string") { try { return spelunkData(JSON.parse(value)); } catch (error) { } } return null; } function _spelunkMessage(value: any, result: Array): void { if (value == null) { return; } // These *are* the droids we're looking for. if (typeof(value.message) === "string") { result.push(value.message); } // Spelunk further... if (typeof(value) === "object") { for (const key in value) { _spelunkMessage(value[key], result); } } // Might be a JSON string we can further descend... if (typeof(value) === "string") { try { return _spelunkMessage(JSON.parse(value), result); } catch (error) { } } } function spelunkMessage(value: any): Array { const result: Array = [ ]; _spelunkMessage(value, result); return result; }