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ethers.js/lib.commonjs/providers/abstract-provider.js
Richard Moore f6d155c820 admin: update dist files
2023-12-19 04:53:50 -05:00

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"use strict";
/**
* The available providers should suffice for most developers purposes,
* but the [[AbstractProvider]] class has many features which enable
* sub-classing it for specific purposes.
*
* @_section: api/providers/abstract-provider: Subclassing Provider [abstract-provider]
*/
Object.defineProperty(exports, "__esModule", { value: true });
exports.AbstractProvider = exports.UnmanagedSubscriber = void 0;
// @TODO
// Event coalescence
// When we register an event with an async value (e.g. address is a Signer
// or ENS name), we need to add it immeidately for the Event API, but also
// need time to resolve the address. Upon resolving the address, we need to
// migrate the listener to the static event. We also need to maintain a map
// of Signer/ENS name to address so we can sync respond to listenerCount.
const index_js_1 = require("../address/index.js");
const index_js_2 = require("../constants/index.js");
const index_js_3 = require("../contract/index.js");
const index_js_4 = require("../hash/index.js");
const index_js_5 = require("../transaction/index.js");
const index_js_6 = require("../utils/index.js");
const ens_resolver_js_1 = require("./ens-resolver.js");
const format_js_1 = require("./format.js");
const network_js_1 = require("./network.js");
const provider_js_1 = require("./provider.js");
const subscriber_polling_js_1 = require("./subscriber-polling.js");
// Constants
const BN_2 = BigInt(2);
const MAX_CCIP_REDIRECTS = 10;
function isPromise(value) {
return (value && typeof (value.then) === "function");
}
function getTag(prefix, value) {
return prefix + ":" + JSON.stringify(value, (k, v) => {
if (v == null) {
return "null";
}
if (typeof (v) === "bigint") {
return `bigint:${v.toString()}`;
}
if (typeof (v) === "string") {
return v.toLowerCase();
}
// Sort object keys
if (typeof (v) === "object" && !Array.isArray(v)) {
const keys = Object.keys(v);
keys.sort();
return keys.reduce((accum, key) => {
accum[key] = v[key];
return accum;
}, {});
}
return v;
});
}
/**
* An **UnmanagedSubscriber** is useful for events which do not require
* any additional management, such as ``"debug"`` which only requires
* emit in synchronous event loop triggered calls.
*/
class UnmanagedSubscriber {
/**
* The name fof the event.
*/
name;
/**
* Create a new UnmanagedSubscriber with %%name%%.
*/
constructor(name) { (0, index_js_6.defineProperties)(this, { name }); }
start() { }
stop() { }
pause(dropWhilePaused) { }
resume() { }
}
exports.UnmanagedSubscriber = UnmanagedSubscriber;
function copy(value) {
return JSON.parse(JSON.stringify(value));
}
function concisify(items) {
items = Array.from((new Set(items)).values());
items.sort();
return items;
}
async function getSubscription(_event, provider) {
if (_event == null) {
throw new Error("invalid event");
}
// Normalize topic array info an EventFilter
if (Array.isArray(_event)) {
_event = { topics: _event };
}
if (typeof (_event) === "string") {
switch (_event) {
case "block":
case "debug":
case "error":
case "finalized":
case "network":
case "pending":
case "safe": {
return { type: _event, tag: _event };
}
}
}
if ((0, index_js_6.isHexString)(_event, 32)) {
const hash = _event.toLowerCase();
return { type: "transaction", tag: getTag("tx", { hash }), hash };
}
if (_event.orphan) {
const event = _event;
// @TODO: Should lowercase and whatnot things here instead of copy...
return { type: "orphan", tag: getTag("orphan", event), filter: copy(event) };
}
if ((_event.address || _event.topics)) {
const event = _event;
const filter = {
topics: ((event.topics || []).map((t) => {
if (t == null) {
return null;
}
if (Array.isArray(t)) {
return concisify(t.map((t) => t.toLowerCase()));
}
return t.toLowerCase();
}))
};
if (event.address) {
const addresses = [];
const promises = [];
const addAddress = (addr) => {
if ((0, index_js_6.isHexString)(addr)) {
addresses.push(addr);
}
else {
promises.push((async () => {
addresses.push(await (0, index_js_1.resolveAddress)(addr, provider));
})());
}
};
if (Array.isArray(event.address)) {
event.address.forEach(addAddress);
}
else {
addAddress(event.address);
}
if (promises.length) {
await Promise.all(promises);
}
filter.address = concisify(addresses.map((a) => a.toLowerCase()));
}
return { filter, tag: getTag("event", filter), type: "event" };
}
(0, index_js_6.assertArgument)(false, "unknown ProviderEvent", "event", _event);
}
function getTime() { return (new Date()).getTime(); }
const defaultOptions = {
cacheTimeout: 250,
pollingInterval: 4000
};
/**
* An **AbstractProvider** provides a base class for other sub-classes to
* implement the [[Provider]] API by normalizing input arguments and
* formatting output results as well as tracking events for consistent
* behaviour on an eventually-consistent network.
*/
class AbstractProvider {
#subs;
#plugins;
// null=unpaused, true=paused+dropWhilePaused, false=paused
#pausedState;
#destroyed;
#networkPromise;
#anyNetwork;
#performCache;
// The most recent block number if running an event or -1 if no "block" event
#lastBlockNumber;
#nextTimer;
#timers;
#disableCcipRead;
#options;
/**
* Create a new **AbstractProvider** connected to %%network%%, or
* use the various network detection capabilities to discover the
* [[Network]] if necessary.
*/
constructor(_network, options) {
this.#options = Object.assign({}, defaultOptions, options || {});
if (_network === "any") {
this.#anyNetwork = true;
this.#networkPromise = null;
}
else if (_network) {
const network = network_js_1.Network.from(_network);
this.#anyNetwork = false;
this.#networkPromise = Promise.resolve(network);
setTimeout(() => { this.emit("network", network, null); }, 0);
}
else {
this.#anyNetwork = false;
this.#networkPromise = null;
}
this.#lastBlockNumber = -1;
this.#performCache = new Map();
this.#subs = new Map();
this.#plugins = new Map();
this.#pausedState = null;
this.#destroyed = false;
this.#nextTimer = 1;
this.#timers = new Map();
this.#disableCcipRead = false;
}
get pollingInterval() { return this.#options.pollingInterval; }
/**
* Returns ``this``, to allow an **AbstractProvider** to implement
* the [[ContractRunner]] interface.
*/
get provider() { return this; }
/**
* Returns all the registered plug-ins.
*/
get plugins() {
return Array.from(this.#plugins.values());
}
/**
* Attach a new plug-in.
*/
attachPlugin(plugin) {
if (this.#plugins.get(plugin.name)) {
throw new Error(`cannot replace existing plugin: ${plugin.name} `);
}
this.#plugins.set(plugin.name, plugin.connect(this));
return this;
}
/**
* Get a plugin by name.
*/
getPlugin(name) {
return (this.#plugins.get(name)) || null;
}
/**
* Prevent any CCIP-read operation, regardless of whether requested
* in a [[call]] using ``enableCcipRead``.
*/
get disableCcipRead() { return this.#disableCcipRead; }
set disableCcipRead(value) { this.#disableCcipRead = !!value; }
// Shares multiple identical requests made during the same 250ms
async #perform(req) {
const timeout = this.#options.cacheTimeout;
// Caching disabled
if (timeout < 0) {
return await this._perform(req);
}
// Create a tag
const tag = getTag(req.method, req);
let perform = this.#performCache.get(tag);
if (!perform) {
perform = this._perform(req);
this.#performCache.set(tag, perform);
setTimeout(() => {
if (this.#performCache.get(tag) === perform) {
this.#performCache.delete(tag);
}
}, timeout);
}
return await perform;
}
/**
* Resolves to the data for executing the CCIP-read operations.
*/
async ccipReadFetch(tx, calldata, urls) {
if (this.disableCcipRead || urls.length === 0 || tx.to == null) {
return null;
}
const sender = tx.to.toLowerCase();
const data = calldata.toLowerCase();
const errorMessages = [];
for (let i = 0; i < urls.length; i++) {
const url = urls[i];
// URL expansion
const href = url.replace("{sender}", sender).replace("{data}", data);
// If no {data} is present, use POST; otherwise GET
//const json: string | null = (url.indexOf("{data}") >= 0) ? null: JSON.stringify({ data, sender });
//const result = await fetchJson({ url: href, errorPassThrough: true }, json, (value, response) => {
// value.status = response.statusCode;
// return value;
//});
const request = new index_js_6.FetchRequest(href);
if (url.indexOf("{data}") === -1) {
request.body = { data, sender };
}
this.emit("debug", { action: "sendCcipReadFetchRequest", request, index: i, urls });
let errorMessage = "unknown error";
const resp = await request.send();
try {
const result = resp.bodyJson;
if (result.data) {
this.emit("debug", { action: "receiveCcipReadFetchResult", request, result });
return result.data;
}
if (result.message) {
errorMessage = result.message;
}
this.emit("debug", { action: "receiveCcipReadFetchError", request, result });
}
catch (error) { }
// 4xx indicates the result is not present; stop
(0, index_js_6.assert)(resp.statusCode < 400 || resp.statusCode >= 500, `response not found during CCIP fetch: ${errorMessage}`, "OFFCHAIN_FAULT", { reason: "404_MISSING_RESOURCE", transaction: tx, info: { url, errorMessage } });
// 5xx indicates server issue; try the next url
errorMessages.push(errorMessage);
}
(0, index_js_6.assert)(false, `error encountered during CCIP fetch: ${errorMessages.map((m) => JSON.stringify(m)).join(", ")}`, "OFFCHAIN_FAULT", {
reason: "500_SERVER_ERROR",
transaction: tx, info: { urls, errorMessages }
});
}
/**
* Provides the opportunity for a sub-class to wrap a block before
* returning it, to add additional properties or an alternate
* sub-class of [[Block]].
*/
_wrapBlock(value, network) {
return new provider_js_1.Block((0, format_js_1.formatBlock)(value), this);
}
/**
* Provides the opportunity for a sub-class to wrap a log before
* returning it, to add additional properties or an alternate
* sub-class of [[Log]].
*/
_wrapLog(value, network) {
return new provider_js_1.Log((0, format_js_1.formatLog)(value), this);
}
/**
* Provides the opportunity for a sub-class to wrap a transaction
* receipt before returning it, to add additional properties or an
* alternate sub-class of [[TransactionReceipt]].
*/
_wrapTransactionReceipt(value, network) {
return new provider_js_1.TransactionReceipt((0, format_js_1.formatTransactionReceipt)(value), this);
}
/**
* Provides the opportunity for a sub-class to wrap a transaction
* response before returning it, to add additional properties or an
* alternate sub-class of [[TransactionResponse]].
*/
_wrapTransactionResponse(tx, network) {
return new provider_js_1.TransactionResponse((0, format_js_1.formatTransactionResponse)(tx), this);
}
/**
* Resolves to the Network, forcing a network detection using whatever
* technique the sub-class requires.
*
* Sub-classes **must** override this.
*/
_detectNetwork() {
(0, index_js_6.assert)(false, "sub-classes must implement this", "UNSUPPORTED_OPERATION", {
operation: "_detectNetwork"
});
}
/**
* Sub-classes should use this to perform all built-in operations. All
* methods sanitizes and normalizes the values passed into this.
*
* Sub-classes **must** override this.
*/
async _perform(req) {
(0, index_js_6.assert)(false, `unsupported method: ${req.method}`, "UNSUPPORTED_OPERATION", {
operation: req.method,
info: req
});
}
// State
async getBlockNumber() {
const blockNumber = (0, index_js_6.getNumber)(await this.#perform({ method: "getBlockNumber" }), "%response");
if (this.#lastBlockNumber >= 0) {
this.#lastBlockNumber = blockNumber;
}
return blockNumber;
}
/**
* Returns or resolves to the address for %%address%%, resolving ENS
* names and [[Addressable]] objects and returning if already an
* address.
*/
_getAddress(address) {
return (0, index_js_1.resolveAddress)(address, this);
}
/**
* Returns or resolves to a valid block tag for %%blockTag%%, resolving
* negative values and returning if already a valid block tag.
*/
_getBlockTag(blockTag) {
if (blockTag == null) {
return "latest";
}
switch (blockTag) {
case "earliest":
return "0x0";
case "finalized":
case "latest":
case "pending":
case "safe":
return blockTag;
}
if ((0, index_js_6.isHexString)(blockTag)) {
if ((0, index_js_6.isHexString)(blockTag, 32)) {
return blockTag;
}
return (0, index_js_6.toQuantity)(blockTag);
}
if (typeof (blockTag) === "bigint") {
blockTag = (0, index_js_6.getNumber)(blockTag, "blockTag");
}
if (typeof (blockTag) === "number") {
if (blockTag >= 0) {
return (0, index_js_6.toQuantity)(blockTag);
}
if (this.#lastBlockNumber >= 0) {
return (0, index_js_6.toQuantity)(this.#lastBlockNumber + blockTag);
}
return this.getBlockNumber().then((b) => (0, index_js_6.toQuantity)(b + blockTag));
}
(0, index_js_6.assertArgument)(false, "invalid blockTag", "blockTag", blockTag);
}
/**
* Returns or resolves to a filter for %%filter%%, resolving any ENS
* names or [[Addressable]] object and returning if already a valid
* filter.
*/
_getFilter(filter) {
// Create a canonical representation of the topics
const topics = (filter.topics || []).map((t) => {
if (t == null) {
return null;
}
if (Array.isArray(t)) {
return concisify(t.map((t) => t.toLowerCase()));
}
return t.toLowerCase();
});
const blockHash = ("blockHash" in filter) ? filter.blockHash : undefined;
const resolve = (_address, fromBlock, toBlock) => {
let address = undefined;
switch (_address.length) {
case 0: break;
case 1:
address = _address[0];
break;
default:
_address.sort();
address = _address;
}
if (blockHash) {
if (fromBlock != null || toBlock != null) {
throw new Error("invalid filter");
}
}
const filter = {};
if (address) {
filter.address = address;
}
if (topics.length) {
filter.topics = topics;
}
if (fromBlock) {
filter.fromBlock = fromBlock;
}
if (toBlock) {
filter.toBlock = toBlock;
}
if (blockHash) {
filter.blockHash = blockHash;
}
return filter;
};
// Addresses could be async (ENS names or Addressables)
let address = [];
if (filter.address) {
if (Array.isArray(filter.address)) {
for (const addr of filter.address) {
address.push(this._getAddress(addr));
}
}
else {
address.push(this._getAddress(filter.address));
}
}
let fromBlock = undefined;
if ("fromBlock" in filter) {
fromBlock = this._getBlockTag(filter.fromBlock);
}
let toBlock = undefined;
if ("toBlock" in filter) {
toBlock = this._getBlockTag(filter.toBlock);
}
if (address.filter((a) => (typeof (a) !== "string")).length ||
(fromBlock != null && typeof (fromBlock) !== "string") ||
(toBlock != null && typeof (toBlock) !== "string")) {
return Promise.all([Promise.all(address), fromBlock, toBlock]).then((result) => {
return resolve(result[0], result[1], result[2]);
});
}
return resolve(address, fromBlock, toBlock);
}
/**
* Returns or resovles to a transaction for %%request%%, resolving
* any ENS names or [[Addressable]] and returning if already a valid
* transaction.
*/
_getTransactionRequest(_request) {
const request = (0, provider_js_1.copyRequest)(_request);
const promises = [];
["to", "from"].forEach((key) => {
if (request[key] == null) {
return;
}
const addr = (0, index_js_1.resolveAddress)(request[key], this);
if (isPromise(addr)) {
promises.push((async function () { request[key] = await addr; })());
}
else {
request[key] = addr;
}
});
if (request.blockTag != null) {
const blockTag = this._getBlockTag(request.blockTag);
if (isPromise(blockTag)) {
promises.push((async function () { request.blockTag = await blockTag; })());
}
else {
request.blockTag = blockTag;
}
}
if (promises.length) {
return (async function () {
await Promise.all(promises);
return request;
})();
}
return request;
}
async getNetwork() {
// No explicit network was set and this is our first time
if (this.#networkPromise == null) {
// Detect the current network (shared with all calls)
const detectNetwork = (async () => {
try {
const network = await this._detectNetwork();
this.emit("network", network, null);
return network;
}
catch (error) {
if (this.#networkPromise === detectNetwork) {
this.#networkPromise = null;
}
throw error;
}
})();
this.#networkPromise = detectNetwork;
return (await detectNetwork).clone();
}
const networkPromise = this.#networkPromise;
const [expected, actual] = await Promise.all([
networkPromise,
this._detectNetwork() // The actual connected network
]);
if (expected.chainId !== actual.chainId) {
if (this.#anyNetwork) {
// The "any" network can change, so notify listeners
this.emit("network", actual, expected);
// Update the network if something else hasn't already changed it
if (this.#networkPromise === networkPromise) {
this.#networkPromise = Promise.resolve(actual);
}
}
else {
// Otherwise, we do not allow changes to the underlying network
(0, index_js_6.assert)(false, `network changed: ${expected.chainId} => ${actual.chainId} `, "NETWORK_ERROR", {
event: "changed"
});
}
}
return expected.clone();
}
async getFeeData() {
const network = await this.getNetwork();
const getFeeDataFunc = async () => {
const { _block, gasPrice, priorityFee } = await (0, index_js_6.resolveProperties)({
_block: this.#getBlock("latest", false),
gasPrice: ((async () => {
try {
const value = await this.#perform({ method: "getGasPrice" });
return (0, index_js_6.getBigInt)(value, "%response");
}
catch (error) { }
return null;
})()),
priorityFee: ((async () => {
try {
const value = await this.#perform({ method: "getPriorityFee" });
return (0, index_js_6.getBigInt)(value, "%response");
}
catch (error) { }
return null;
})())
});
let maxFeePerGas = null;
let maxPriorityFeePerGas = null;
// These are the recommended EIP-1559 heuristics for fee data
const block = this._wrapBlock(_block, network);
if (block && block.baseFeePerGas) {
maxPriorityFeePerGas = (priorityFee != null) ? priorityFee : BigInt("1000000000");
maxFeePerGas = (block.baseFeePerGas * BN_2) + maxPriorityFeePerGas;
}
return new provider_js_1.FeeData(gasPrice, maxFeePerGas, maxPriorityFeePerGas);
};
// Check for a FeeDataNetWorkPlugin
const plugin = network.getPlugin("org.ethers.plugins.network.FetchUrlFeeDataPlugin");
if (plugin) {
const req = new index_js_6.FetchRequest(plugin.url);
const feeData = await plugin.processFunc(getFeeDataFunc, this, req);
return new provider_js_1.FeeData(feeData.gasPrice, feeData.maxFeePerGas, feeData.maxPriorityFeePerGas);
}
return await getFeeDataFunc();
}
async estimateGas(_tx) {
let tx = this._getTransactionRequest(_tx);
if (isPromise(tx)) {
tx = await tx;
}
return (0, index_js_6.getBigInt)(await this.#perform({
method: "estimateGas", transaction: tx
}), "%response");
}
async #call(tx, blockTag, attempt) {
(0, index_js_6.assert)(attempt < MAX_CCIP_REDIRECTS, "CCIP read exceeded maximum redirections", "OFFCHAIN_FAULT", {
reason: "TOO_MANY_REDIRECTS",
transaction: Object.assign({}, tx, { blockTag, enableCcipRead: true })
});
// This came in as a PerformActionTransaction, so to/from are safe; we can cast
const transaction = (0, provider_js_1.copyRequest)(tx);
try {
return (0, index_js_6.hexlify)(await this._perform({ method: "call", transaction, blockTag }));
}
catch (error) {
// CCIP Read OffchainLookup
if (!this.disableCcipRead && (0, index_js_6.isCallException)(error) && error.data && attempt >= 0 && blockTag === "latest" && transaction.to != null && (0, index_js_6.dataSlice)(error.data, 0, 4) === "0x556f1830") {
const data = error.data;
const txSender = await (0, index_js_1.resolveAddress)(transaction.to, this);
// Parse the CCIP Read Arguments
let ccipArgs;
try {
ccipArgs = parseOffchainLookup((0, index_js_6.dataSlice)(error.data, 4));
}
catch (error) {
(0, index_js_6.assert)(false, error.message, "OFFCHAIN_FAULT", {
reason: "BAD_DATA", transaction, info: { data }
});
}
// Check the sender of the OffchainLookup matches the transaction
(0, index_js_6.assert)(ccipArgs.sender.toLowerCase() === txSender.toLowerCase(), "CCIP Read sender mismatch", "CALL_EXCEPTION", {
action: "call",
data,
reason: "OffchainLookup",
transaction: transaction,
invocation: null,
revert: {
signature: "OffchainLookup(address,string[],bytes,bytes4,bytes)",
name: "OffchainLookup",
args: ccipArgs.errorArgs
}
});
const ccipResult = await this.ccipReadFetch(transaction, ccipArgs.calldata, ccipArgs.urls);
(0, index_js_6.assert)(ccipResult != null, "CCIP Read failed to fetch data", "OFFCHAIN_FAULT", {
reason: "FETCH_FAILED", transaction, info: { data: error.data, errorArgs: ccipArgs.errorArgs }
});
const tx = {
to: txSender,
data: (0, index_js_6.concat)([ccipArgs.selector, encodeBytes([ccipResult, ccipArgs.extraData])])
};
this.emit("debug", { action: "sendCcipReadCall", transaction: tx });
try {
const result = await this.#call(tx, blockTag, attempt + 1);
this.emit("debug", { action: "receiveCcipReadCallResult", transaction: Object.assign({}, tx), result });
return result;
}
catch (error) {
this.emit("debug", { action: "receiveCcipReadCallError", transaction: Object.assign({}, tx), error });
throw error;
}
}
throw error;
}
}
async #checkNetwork(promise) {
const { value } = await (0, index_js_6.resolveProperties)({
network: this.getNetwork(),
value: promise
});
return value;
}
async call(_tx) {
const { tx, blockTag } = await (0, index_js_6.resolveProperties)({
tx: this._getTransactionRequest(_tx),
blockTag: this._getBlockTag(_tx.blockTag)
});
return await this.#checkNetwork(this.#call(tx, blockTag, _tx.enableCcipRead ? 0 : -1));
}
// Account
async #getAccountValue(request, _address, _blockTag) {
let address = this._getAddress(_address);
let blockTag = this._getBlockTag(_blockTag);
if (typeof (address) !== "string" || typeof (blockTag) !== "string") {
[address, blockTag] = await Promise.all([address, blockTag]);
}
return await this.#checkNetwork(this.#perform(Object.assign(request, { address, blockTag })));
}
async getBalance(address, blockTag) {
return (0, index_js_6.getBigInt)(await this.#getAccountValue({ method: "getBalance" }, address, blockTag), "%response");
}
async getTransactionCount(address, blockTag) {
return (0, index_js_6.getNumber)(await this.#getAccountValue({ method: "getTransactionCount" }, address, blockTag), "%response");
}
async getCode(address, blockTag) {
return (0, index_js_6.hexlify)(await this.#getAccountValue({ method: "getCode" }, address, blockTag));
}
async getStorage(address, _position, blockTag) {
const position = (0, index_js_6.getBigInt)(_position, "position");
return (0, index_js_6.hexlify)(await this.#getAccountValue({ method: "getStorage", position }, address, blockTag));
}
// Write
async broadcastTransaction(signedTx) {
const { blockNumber, hash, network } = await (0, index_js_6.resolveProperties)({
blockNumber: this.getBlockNumber(),
hash: this._perform({
method: "broadcastTransaction",
signedTransaction: signedTx
}),
network: this.getNetwork()
});
const tx = index_js_5.Transaction.from(signedTx);
if (tx.hash !== hash) {
throw new Error("@TODO: the returned hash did not match");
}
return this._wrapTransactionResponse(tx, network).replaceableTransaction(blockNumber);
}
async #getBlock(block, includeTransactions) {
// @TODO: Add CustomBlockPlugin check
if ((0, index_js_6.isHexString)(block, 32)) {
return await this.#perform({
method: "getBlock", blockHash: block, includeTransactions
});
}
let blockTag = this._getBlockTag(block);
if (typeof (blockTag) !== "string") {
blockTag = await blockTag;
}
return await this.#perform({
method: "getBlock", blockTag, includeTransactions
});
}
// Queries
async getBlock(block, prefetchTxs) {
const { network, params } = await (0, index_js_6.resolveProperties)({
network: this.getNetwork(),
params: this.#getBlock(block, !!prefetchTxs)
});
if (params == null) {
return null;
}
return this._wrapBlock(params, network);
}
async getTransaction(hash) {
const { network, params } = await (0, index_js_6.resolveProperties)({
network: this.getNetwork(),
params: this.#perform({ method: "getTransaction", hash })
});
if (params == null) {
return null;
}
return this._wrapTransactionResponse(params, network);
}
async getTransactionReceipt(hash) {
const { network, params } = await (0, index_js_6.resolveProperties)({
network: this.getNetwork(),
params: this.#perform({ method: "getTransactionReceipt", hash })
});
if (params == null) {
return null;
}
// Some backends did not backfill the effectiveGasPrice into old transactions
// in the receipt, so we look it up manually and inject it.
if (params.gasPrice == null && params.effectiveGasPrice == null) {
const tx = await this.#perform({ method: "getTransaction", hash });
if (tx == null) {
throw new Error("report this; could not find tx or effectiveGasPrice");
}
params.effectiveGasPrice = tx.gasPrice;
}
return this._wrapTransactionReceipt(params, network);
}
async getTransactionResult(hash) {
const { result } = await (0, index_js_6.resolveProperties)({
network: this.getNetwork(),
result: this.#perform({ method: "getTransactionResult", hash })
});
if (result == null) {
return null;
}
return (0, index_js_6.hexlify)(result);
}
// Bloom-filter Queries
async getLogs(_filter) {
let filter = this._getFilter(_filter);
if (isPromise(filter)) {
filter = await filter;
}
const { network, params } = await (0, index_js_6.resolveProperties)({
network: this.getNetwork(),
params: this.#perform({ method: "getLogs", filter })
});
return params.map((p) => this._wrapLog(p, network));
}
// ENS
_getProvider(chainId) {
(0, index_js_6.assert)(false, "provider cannot connect to target network", "UNSUPPORTED_OPERATION", {
operation: "_getProvider()"
});
}
async getResolver(name) {
return await ens_resolver_js_1.EnsResolver.fromName(this, name);
}
async getAvatar(name) {
const resolver = await this.getResolver(name);
if (resolver) {
return await resolver.getAvatar();
}
return null;
}
async resolveName(name) {
const resolver = await this.getResolver(name);
if (resolver) {
return await resolver.getAddress();
}
return null;
}
async lookupAddress(address) {
address = (0, index_js_1.getAddress)(address);
const node = (0, index_js_4.namehash)(address.substring(2).toLowerCase() + ".addr.reverse");
try {
const ensAddr = await ens_resolver_js_1.EnsResolver.getEnsAddress(this);
const ensContract = new index_js_3.Contract(ensAddr, [
"function resolver(bytes32) view returns (address)"
], this);
const resolver = await ensContract.resolver(node);
if (resolver == null || resolver === index_js_2.ZeroAddress) {
return null;
}
const resolverContract = new index_js_3.Contract(resolver, [
"function name(bytes32) view returns (string)"
], this);
const name = await resolverContract.name(node);
// Failed forward resolution
const check = await this.resolveName(name);
if (check !== address) {
return null;
}
return name;
}
catch (error) {
// No data was returned from the resolver
if ((0, index_js_6.isError)(error, "BAD_DATA") && error.value === "0x") {
return null;
}
// Something reerted
if ((0, index_js_6.isError)(error, "CALL_EXCEPTION")) {
return null;
}
throw error;
}
return null;
}
async waitForTransaction(hash, _confirms, timeout) {
const confirms = (_confirms != null) ? _confirms : 1;
if (confirms === 0) {
return this.getTransactionReceipt(hash);
}
return new Promise(async (resolve, reject) => {
let timer = null;
const listener = (async (blockNumber) => {
try {
const receipt = await this.getTransactionReceipt(hash);
if (receipt != null) {
if (blockNumber - receipt.blockNumber + 1 >= confirms) {
resolve(receipt);
//this.off("block", listener);
if (timer) {
clearTimeout(timer);
timer = null;
}
return;
}
}
}
catch (error) {
console.log("EEE", error);
}
this.once("block", listener);
});
if (timeout != null) {
timer = setTimeout(() => {
if (timer == null) {
return;
}
timer = null;
this.off("block", listener);
reject((0, index_js_6.makeError)("timeout", "TIMEOUT", { reason: "timeout" }));
}, timeout);
}
listener(await this.getBlockNumber());
});
}
async waitForBlock(blockTag) {
(0, index_js_6.assert)(false, "not implemented yet", "NOT_IMPLEMENTED", {
operation: "waitForBlock"
});
}
/**
* Clear a timer created using the [[_setTimeout]] method.
*/
_clearTimeout(timerId) {
const timer = this.#timers.get(timerId);
if (!timer) {
return;
}
if (timer.timer) {
clearTimeout(timer.timer);
}
this.#timers.delete(timerId);
}
/**
* Create a timer that will execute %%func%% after at least %%timeout%%
* (in ms). If %%timeout%% is unspecified, then %%func%% will execute
* in the next event loop.
*
* [Pausing](AbstractProvider-paused) the provider will pause any
* associated timers.
*/
_setTimeout(_func, timeout) {
if (timeout == null) {
timeout = 0;
}
const timerId = this.#nextTimer++;
const func = () => {
this.#timers.delete(timerId);
_func();
};
if (this.paused) {
this.#timers.set(timerId, { timer: null, func, time: timeout });
}
else {
const timer = setTimeout(func, timeout);
this.#timers.set(timerId, { timer, func, time: getTime() });
}
return timerId;
}
/**
* Perform %%func%% on each subscriber.
*/
_forEachSubscriber(func) {
for (const sub of this.#subs.values()) {
func(sub.subscriber);
}
}
/**
* Sub-classes may override this to customize subscription
* implementations.
*/
_getSubscriber(sub) {
switch (sub.type) {
case "debug":
case "error":
case "network":
return new UnmanagedSubscriber(sub.type);
case "block": {
const subscriber = new subscriber_polling_js_1.PollingBlockSubscriber(this);
subscriber.pollingInterval = this.pollingInterval;
return subscriber;
}
case "safe":
case "finalized":
return new subscriber_polling_js_1.PollingBlockTagSubscriber(this, sub.type);
case "event":
return new subscriber_polling_js_1.PollingEventSubscriber(this, sub.filter);
case "transaction":
return new subscriber_polling_js_1.PollingTransactionSubscriber(this, sub.hash);
case "orphan":
return new subscriber_polling_js_1.PollingOrphanSubscriber(this, sub.filter);
}
throw new Error(`unsupported event: ${sub.type}`);
}
/**
* If a [[Subscriber]] fails and needs to replace itself, this
* method may be used.
*
* For example, this is used for providers when using the
* ``eth_getFilterChanges`` method, which can return null if state
* filters are not supported by the backend, allowing the Subscriber
* to swap in a [[PollingEventSubscriber]].
*/
_recoverSubscriber(oldSub, newSub) {
for (const sub of this.#subs.values()) {
if (sub.subscriber === oldSub) {
if (sub.started) {
sub.subscriber.stop();
}
sub.subscriber = newSub;
if (sub.started) {
newSub.start();
}
if (this.#pausedState != null) {
newSub.pause(this.#pausedState);
}
break;
}
}
}
async #hasSub(event, emitArgs) {
let sub = await getSubscription(event, this);
// This is a log that is removing an existing log; we actually want
// to emit an orphan event for the removed log
if (sub.type === "event" && emitArgs && emitArgs.length > 0 && emitArgs[0].removed === true) {
sub = await getSubscription({ orphan: "drop-log", log: emitArgs[0] }, this);
}
return this.#subs.get(sub.tag) || null;
}
async #getSub(event) {
const subscription = await getSubscription(event, this);
// Prevent tampering with our tag in any subclass' _getSubscriber
const tag = subscription.tag;
let sub = this.#subs.get(tag);
if (!sub) {
const subscriber = this._getSubscriber(subscription);
const addressableMap = new WeakMap();
const nameMap = new Map();
sub = { subscriber, tag, addressableMap, nameMap, started: false, listeners: [] };
this.#subs.set(tag, sub);
}
return sub;
}
async on(event, listener) {
const sub = await this.#getSub(event);
sub.listeners.push({ listener, once: false });
if (!sub.started) {
sub.subscriber.start();
sub.started = true;
if (this.#pausedState != null) {
sub.subscriber.pause(this.#pausedState);
}
}
return this;
}
async once(event, listener) {
const sub = await this.#getSub(event);
sub.listeners.push({ listener, once: true });
if (!sub.started) {
sub.subscriber.start();
sub.started = true;
if (this.#pausedState != null) {
sub.subscriber.pause(this.#pausedState);
}
}
return this;
}
async emit(event, ...args) {
const sub = await this.#hasSub(event, args);
// If there is not subscription or if a recent emit removed
// the last of them (which also deleted the sub) do nothing
if (!sub || sub.listeners.length === 0) {
return false;
}
;
const count = sub.listeners.length;
sub.listeners = sub.listeners.filter(({ listener, once }) => {
const payload = new index_js_6.EventPayload(this, (once ? null : listener), event);
try {
listener.call(this, ...args, payload);
}
catch (error) { }
return !once;
});
if (sub.listeners.length === 0) {
if (sub.started) {
sub.subscriber.stop();
}
this.#subs.delete(sub.tag);
}
return (count > 0);
}
async listenerCount(event) {
if (event) {
const sub = await this.#hasSub(event);
if (!sub) {
return 0;
}
return sub.listeners.length;
}
let total = 0;
for (const { listeners } of this.#subs.values()) {
total += listeners.length;
}
return total;
}
async listeners(event) {
if (event) {
const sub = await this.#hasSub(event);
if (!sub) {
return [];
}
return sub.listeners.map(({ listener }) => listener);
}
let result = [];
for (const { listeners } of this.#subs.values()) {
result = result.concat(listeners.map(({ listener }) => listener));
}
return result;
}
async off(event, listener) {
const sub = await this.#hasSub(event);
if (!sub) {
return this;
}
if (listener) {
const index = sub.listeners.map(({ listener }) => listener).indexOf(listener);
if (index >= 0) {
sub.listeners.splice(index, 1);
}
}
if (!listener || sub.listeners.length === 0) {
if (sub.started) {
sub.subscriber.stop();
}
this.#subs.delete(sub.tag);
}
return this;
}
async removeAllListeners(event) {
if (event) {
const { tag, started, subscriber } = await this.#getSub(event);
if (started) {
subscriber.stop();
}
this.#subs.delete(tag);
}
else {
for (const [tag, { started, subscriber }] of this.#subs) {
if (started) {
subscriber.stop();
}
this.#subs.delete(tag);
}
}
return this;
}
// Alias for "on"
async addListener(event, listener) {
return await this.on(event, listener);
}
// Alias for "off"
async removeListener(event, listener) {
return this.off(event, listener);
}
/**
* If this provider has been destroyed using the [[destroy]] method.
*
* Once destroyed, all resources are reclaimed, internal event loops
* and timers are cleaned up and no further requests may be sent to
* the provider.
*/
get destroyed() {
return this.#destroyed;
}
/**
* Sub-classes may use this to shutdown any sockets or release their
* resources and reject any pending requests.
*
* Sub-classes **must** call ``super.destroy()``.
*/
destroy() {
// Stop all listeners
this.removeAllListeners();
// Shut down all tiemrs
for (const timerId of this.#timers.keys()) {
this._clearTimeout(timerId);
}
this.#destroyed = true;
}
/**
* Whether the provider is currently paused.
*
* A paused provider will not emit any events, and generally should
* not make any requests to the network, but that is up to sub-classes
* to manage.
*
* Setting ``paused = true`` is identical to calling ``.pause(false)``,
* which will buffer any events that occur while paused until the
* provider is unpaused.
*/
get paused() { return (this.#pausedState != null); }
set paused(pause) {
if (!!pause === this.paused) {
return;
}
if (this.paused) {
this.resume();
}
else {
this.pause(false);
}
}
/**
* Pause the provider. If %%dropWhilePaused%%, any events that occur
* while paused are dropped, otherwise all events will be emitted once
* the provider is unpaused.
*/
pause(dropWhilePaused) {
this.#lastBlockNumber = -1;
if (this.#pausedState != null) {
if (this.#pausedState == !!dropWhilePaused) {
return;
}
(0, index_js_6.assert)(false, "cannot change pause type; resume first", "UNSUPPORTED_OPERATION", {
operation: "pause"
});
}
this._forEachSubscriber((s) => s.pause(dropWhilePaused));
this.#pausedState = !!dropWhilePaused;
for (const timer of this.#timers.values()) {
// Clear the timer
if (timer.timer) {
clearTimeout(timer.timer);
}
// Remaining time needed for when we become unpaused
timer.time = getTime() - timer.time;
}
}
/**
* Resume the provider.
*/
resume() {
if (this.#pausedState == null) {
return;
}
this._forEachSubscriber((s) => s.resume());
this.#pausedState = null;
for (const timer of this.#timers.values()) {
// Remaining time when we were paused
let timeout = timer.time;
if (timeout < 0) {
timeout = 0;
}
// Start time (in cause paused, so we con compute remaininf time)
timer.time = getTime();
// Start the timer
setTimeout(timer.func, timeout);
}
}
}
exports.AbstractProvider = AbstractProvider;
function _parseString(result, start) {
try {
const bytes = _parseBytes(result, start);
if (bytes) {
return (0, index_js_6.toUtf8String)(bytes);
}
}
catch (error) { }
return null;
}
function _parseBytes(result, start) {
if (result === "0x") {
return null;
}
try {
const offset = (0, index_js_6.getNumber)((0, index_js_6.dataSlice)(result, start, start + 32));
const length = (0, index_js_6.getNumber)((0, index_js_6.dataSlice)(result, offset, offset + 32));
return (0, index_js_6.dataSlice)(result, offset + 32, offset + 32 + length);
}
catch (error) { }
return null;
}
function numPad(value) {
const result = (0, index_js_6.toBeArray)(value);
if (result.length > 32) {
throw new Error("internal; should not happen");
}
const padded = new Uint8Array(32);
padded.set(result, 32 - result.length);
return padded;
}
function bytesPad(value) {
if ((value.length % 32) === 0) {
return value;
}
const result = new Uint8Array(Math.ceil(value.length / 32) * 32);
result.set(value);
return result;
}
const empty = new Uint8Array([]);
// ABI Encodes a series of (bytes, bytes, ...)
function encodeBytes(datas) {
const result = [];
let byteCount = 0;
// Add place-holders for pointers as we add items
for (let i = 0; i < datas.length; i++) {
result.push(empty);
byteCount += 32;
}
for (let i = 0; i < datas.length; i++) {
const data = (0, index_js_6.getBytes)(datas[i]);
// Update the bytes offset
result[i] = numPad(byteCount);
// The length and padded value of data
result.push(numPad(data.length));
result.push(bytesPad(data));
byteCount += 32 + Math.ceil(data.length / 32) * 32;
}
return (0, index_js_6.concat)(result);
}
const zeros = "0x0000000000000000000000000000000000000000000000000000000000000000";
function parseOffchainLookup(data) {
const result = {
sender: "", urls: [], calldata: "", selector: "", extraData: "", errorArgs: []
};
(0, index_js_6.assert)((0, index_js_6.dataLength)(data) >= 5 * 32, "insufficient OffchainLookup data", "OFFCHAIN_FAULT", {
reason: "insufficient OffchainLookup data"
});
const sender = (0, index_js_6.dataSlice)(data, 0, 32);
(0, index_js_6.assert)((0, index_js_6.dataSlice)(sender, 0, 12) === (0, index_js_6.dataSlice)(zeros, 0, 12), "corrupt OffchainLookup sender", "OFFCHAIN_FAULT", {
reason: "corrupt OffchainLookup sender"
});
result.sender = (0, index_js_6.dataSlice)(sender, 12);
// Read the URLs from the response
try {
const urls = [];
const urlsOffset = (0, index_js_6.getNumber)((0, index_js_6.dataSlice)(data, 32, 64));
const urlsLength = (0, index_js_6.getNumber)((0, index_js_6.dataSlice)(data, urlsOffset, urlsOffset + 32));
const urlsData = (0, index_js_6.dataSlice)(data, urlsOffset + 32);
for (let u = 0; u < urlsLength; u++) {
const url = _parseString(urlsData, u * 32);
if (url == null) {
throw new Error("abort");
}
urls.push(url);
}
result.urls = urls;
}
catch (error) {
(0, index_js_6.assert)(false, "corrupt OffchainLookup urls", "OFFCHAIN_FAULT", {
reason: "corrupt OffchainLookup urls"
});
}
// Get the CCIP calldata to forward
try {
const calldata = _parseBytes(data, 64);
if (calldata == null) {
throw new Error("abort");
}
result.calldata = calldata;
}
catch (error) {
(0, index_js_6.assert)(false, "corrupt OffchainLookup calldata", "OFFCHAIN_FAULT", {
reason: "corrupt OffchainLookup calldata"
});
}
// Get the callbackSelector (bytes4)
(0, index_js_6.assert)((0, index_js_6.dataSlice)(data, 100, 128) === (0, index_js_6.dataSlice)(zeros, 0, 28), "corrupt OffchainLookup callbaackSelector", "OFFCHAIN_FAULT", {
reason: "corrupt OffchainLookup callbaackSelector"
});
result.selector = (0, index_js_6.dataSlice)(data, 96, 100);
// Get the extra data to send back to the contract as context
try {
const extraData = _parseBytes(data, 128);
if (extraData == null) {
throw new Error("abort");
}
result.extraData = extraData;
}
catch (error) {
(0, index_js_6.assert)(false, "corrupt OffchainLookup extraData", "OFFCHAIN_FAULT", {
reason: "corrupt OffchainLookup extraData"
});
}
result.errorArgs = "sender,urls,calldata,selector,extraData".split(/,/).map((k) => result[k]);
return result;
}
//# sourceMappingURL=abstract-provider.js.map
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