tornado-packages/ethers.js
1
0
Fork 1
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
b09a023d61
ethers.js/src.ts/providers/provider-jsonrpc.ts
Richard Moore edcba76366 docs: added more jsdocs
2022-09-15 22:30:27 -04:00

905 lines
31 KiB
TypeScript
Raw Blame History

// @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 { resolveAddress } from "../address/index.js";
import { TypedDataEncoder } from "../hash/index.js";
import { accessListify } from "../transaction/index.js";
import {
defineProperties, getBigInt, hexlify, toQuantity, toUtf8Bytes,
throwArgumentError, throwError,
FetchRequest
} 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 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";
const Primitive = "bigint,boolean,function,number,string,symbol".split(/,/g);
//const Methods = "getAddress,then".split(/,/g);
function deepCopy<T = any>(value: T): T {
if (value == null || Primitive.indexOf(typeof(value)) >= 0) {
return value;
}
// Keep any Addressable
if (typeof((<any>value).getAddress) === "function") {
return value;
}
if (Array.isArray(value)) { return <any>(value.map(deepCopy)); }
if (typeof(value) === "object") {
return Object.keys(value).reduce((accum, key) => {
accum[key] = (<any>value)[key];
return accum;
}, <any>{ });
}
throw new Error(`should not happen: ${ value } (${ typeof(value) })`);
}
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<any> | Record<string, any>;
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;
}
};
export type DebugEventJsonRpcApiProvider = {
action: "sendRpcPayload",
payload: JsonRpcPayload | Array<JsonRpcPayload>
} | {
action: "receiveRpcResult",
result: Array<JsonRpcResult | JsonRpcError>
} | {
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.
*
* _property: options.polling? => boolean
* If true, the polling strategy is used immediately for events.
* Otherwise, an attempt to use filters is made and on failure
* polling is used for that and all future events. (default: ``false``)
*
* _property: options.staticNetwork => [[Network]]
* If this is set, then there are no requests made for the chainId.
* (default: ``null``)
*
* _warning:
* 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.
*
* _property: option.batchStallTime? => number
* The amount of time (in ms) to wait, allowing requests to be batched,
* before making the request. If ``0``, then batching will only occur
* within the same event loop. If the batchSize is ``1``, then this is
* ignored. (default: ``10``)
*
* _property: options.batchMaxSize? => number
* The target maximum size (in bytes) to allow a payload within a single
* batch. At least one request will be made per request, which may
* violate this constraint if it is set too small or a large request is
* present. (default: 1Mb)
*
* _property: options.bstchMaxCount? => number
* The maximum number of payloads to allow in a single batch. Set this to
* ``1`` to disable batching entirely. (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<string> }>;
}
// @TODO: Unchecked Signers
export class JsonRpcSigner extends AbstractSigner<JsonRpcApiProvider> {
address!: string;
constructor(provider: JsonRpcApiProvider, address: string) {
super(provider);
defineProperties<JsonRpcSigner>(this, { address });
}
connect(provider: null | Provider): Signer {
return throwError("cannot reconnect JsonRpcSigner", "UNSUPPORTED_OPERATION", {
operation: "signer.connect"
});
}
async getAddress(): Promise<string> {
return this.address;
}
// JSON-RPC will automatially fill in nonce, etc. so we just check from
async populateTransaction(tx: TransactionRequest): Promise<TransactionLike<string>> {
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<string> {
const tx = deepCopy(_tx);
const promises: Array<Promise<void>> = [];
// Make sure the from matches the sender
if (tx.from) {
const _from = tx.from;
promises.push((async () => {
const from = await resolveAddress(_from, this.provider);
if (from == null || from.toLowerCase() !== this.address.toLowerCase()) {
throwArgumentError("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<TransactionResponse> {
// 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(this.provider._wrapTransaction(tx, hash, blockNumber));
return;
}
// Wait another 4 seconds
this.provider._setTimeout(() => { checkTx(); }, timeouts.pop() || 4000);
};
checkTx();
}));
}
async signTransaction(_tx: TransactionRequest): Promise<string> {
const tx = deepCopy(_tx);
// Make sure the from matches the sender
if (tx.from) {
const from = await resolveAddress(tx.from, this.provider);
if (from == null || from.toLowerCase() !== this.address.toLowerCase()) {
return throwArgumentError("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_sign_Transaction", [ hexTx ]);
}
async signMessage(_message: string | Uint8Array): Promise<string> {
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<string, Array<TypedDataField>>, _value: Record<string, any>): Promise<string> {
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);
if (address == null) {
return throwArgumentError("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<boolean> {
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<string> {
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.
*/
export class JsonRpcApiProvider extends AbstractProvider {
#options: Required<JsonRpcApiProviderOptions>;
#nextId: number;
#payloads: Array<Payload>;
#drainTimer: null | NodeJS.Timer;
constructor(network?: Networkish, options?: JsonRpcApiProviderOptions) {
super(network);
this.#nextId = 1;
this.#options = Object.assign({ }, defaultOptions, options || { });
this.#payloads = [ ];
this.#drainTimer = null;
// This could be relaxed in the future to just check equivalent networks
const staticNetwork = this._getOption("staticNetwork");
if (staticNetwork && staticNetwork !== network) {
throwArgumentError("staticNetwork MUST match network object", "options", options);
}
}
/**
* Returns the value associated with the option %%key%%.
*
* Sub-classes can use this to inquire about configuration options.
*/
_getOption<K extends keyof JsonRpcApiProviderOptions>(key: K): JsonRpcApiProviderOptions[K] {
return this.#options[key];
}
#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 = [ <Payload>(payloads.shift()) ];
while (payloads.length) {
if (batch.length === this.#options.batchMaxCount) { break; }
batch.push(<Payload>(payloads.shift()));
const bytes = JSON.stringify(batch.map((p) => p.payload));
if (bytes.length > this.#options.batchMaxSize) {
payloads.unshift(<Payload>(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(new Error("@TODO: no result"));
}
// 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);
}
// Sub-classes should **NOT** override this
/**
* 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<any> | Record<string, any>): Promise<any> {
// @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<JsonRpcResult>>promise;
}
/**
* Sends a JSON-RPC %%payload%% (or a batch) to the underlying channel.
*
* Sub-classes **MUST** override this.
*/
_send(payload: JsonRpcPayload | Array<JsonRpcPayload>): Promise<Array<JsonRpcResult | JsonRpcError>> {
return throwError("sub-classes must override _send", "UNSUPPORTED_OPERATION", {
operation: "jsonRpcApiProvider._send"
});
}
/**
* 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 = 0): Promise<JsonRpcSigner> {
const accountsPromise = this.send("eth_accounts", [ ]);
// Account index
if (typeof(address) === "number") {
const accounts = <Array<string>>(await accountsPromise);
if (address > accounts.length) { throw new Error("no such account"); }
return new JsonRpcSigner(this, accounts[address]);
}
const [ network, accounts ] = await Promise.all([ this.getNetwork(), accountsPromise ]);
// Account address
address = network.formatter.address(address);
for (const account of accounts) {
if (network.formatter.address(account) === account) {
return new JsonRpcSigner(this, account);
}
}
throw new Error("invalid account");
}
// Sub-classes can override this; it detects the *actual* network we
// are connected to
async _detectNetwork(): Promise<Network> {
// We have a static network (like INFURA)
const network = this._getOption("staticNetwork");
if (network) { return network; }
return Network.from(getBigInt(await this._perform({ method: "chainId" })));
}
/**
* Return a Subscriber that will manage the %%sub%%.
*
* Sub-classes can 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") {
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 %%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 ((<any>tx)[key] == null) { return; }
let dstKey = key;
if (key === "gasLimit") { dstKey = "gas"; }
(<any>result)[dstKey] = toQuantity(getBigInt((<any>tx)[key], `tx.${ key }`));
});
// Make sure addresses and data are lowercase
["from", "to", "data"].forEach((key) => {
if ((<any>tx)[key] == null) { return; }
(<any>result)[key] = hexlify((<any>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<any> } {
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 "getStorageAt":
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%%.
*/
getRpcError(payload: JsonRpcPayload, error: JsonRpcError): Error {
console.log("getRpcError", payload, error);
return new Error(`JSON-RPC badness; @TODO: ${ error }`);
/*
if (payload.method === "eth_call") {
const result = spelunkData(error);
if (result) {
// @TODO: Extract errorSignature, errorName, errorArgs, reason if
// it is Error(string) or Panic(uint25)
return logger.makeError("execution reverted during JSON-RPC call", "CALL_EXCEPTION", {
data: result.data,
transaction: args[0]
});
}
return logger.makeError("missing revert data during JSON-RPC call", "CALL_EXCEPTION", {
data: "0x", transaction: args[0], info: { error }
});
}
if (method === "eth_estimateGas") {
// @TODO: Spelunk, and adapt the above to allow missing data.
// Then throw an UNPREDICTABLE_GAS exception
}
const message = JSON.stringify(spelunkMessage(error));
if (message.match(/insufficient funds|base fee exceeds gas limit/)) {
return logger.makeError("insufficient funds for intrinsic transaction cost", "INSUFFICIENT_FUNDS", {
transaction: args[0]
});
}
if (message.match(/nonce/) && message.match(/too low/)) {
return logger.makeError("nonce has already been used", "NONCE_EXPIRED", {
transaction: args[0]
});
}
// "replacement transaction underpriced"
if (message.match(/replacement transaction/) && message.match(/underpriced/)) {
return logger.makeError("replacement fee too low", "REPLACEMENT_UNDERPRICED", {
transaction: args[0]
});
}
if (message.match(/only replay-protected/)) {
return logger.makeError("legacy pre-eip-155 transactions not supported", "UNSUPPORTED_OPERATION", {
operation: method, info: { transaction: args[0] }
});
}
if (method === "estimateGas" && message.match(/gas required exceeds allowance|always failing transaction|execution reverted/)) {
return logger.makeError("cannot estimate gas; transaction may fail or may require manual gas limit", "UNPREDICTABLE_GAS_LIMIT", {
transaction: args[0]
});
}
return error;
*/
}
/**
* 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<any> {
// 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);
}
}
/**
* 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 JsonRpcApiProvider {
#connect: FetchRequest;
#pollingInterval: number;
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();
}
this.#pollingInterval = 4000;
}
async _send(payload: JsonRpcPayload | Array<JsonRpcPayload>): Promise<Array<JsonRpcResult>> {
// Configure a POST connection for the requested method
const request = this.#connect.clone();
request.body = JSON.stringify(payload);
const response = await request.send();
response.assertOk();
let resp = response.bodyJson;
if (!Array.isArray(resp)) { resp = [ resp ]; }
return resp;
}
/**
* 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;
}
});
}
}
/*
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<string>): 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<string> {
const result: Array<string> = [ ];
_spelunkMessage(value, result);
return result;
}
*/
Reference in New Issue View Git Blame Copy Permalink