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denoland-deno/ext/node/polyfills/internal/errors.ts
Bartek Iwańczuk 72fe9bb470
refactor: rename InternalModuleLoader to ExtModuleLoader, use ext: scheme for snapshotted modules (#18041)
This commit renames "deno_core::InternalModuleLoader" to
"ExtModuleLoader" and changes the specifiers used by the 
modules loaded from this loader to "ext:".

"internal:" scheme was really ambiguous and it's more characters than
"ext:", which should result in slightly smaller snapshot size.

Closes https://github.com/denoland/deno/issues/18020
2023-03-08 12:44:54 +01:00

2864 lines
77 KiB
TypeScript

// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
// Copyright Node.js contributors. All rights reserved. MIT License.
/** NOT IMPLEMENTED
* ERR_MANIFEST_ASSERT_INTEGRITY
* ERR_QUICSESSION_VERSION_NEGOTIATION
* ERR_REQUIRE_ESM
* ERR_TLS_CERT_ALTNAME_INVALID
* ERR_WORKER_INVALID_EXEC_ARGV
* ERR_WORKER_PATH
* ERR_QUIC_ERROR
* ERR_SYSTEM_ERROR //System error, shouldn't ever happen inside Deno
* ERR_TTY_INIT_FAILED //System error, shouldn't ever happen inside Deno
* ERR_INVALID_PACKAGE_CONFIG // package.json stuff, probably useless
*/
import { inspect } from "ext:deno_node/internal/util/inspect.mjs";
import { codes } from "ext:deno_node/internal/error_codes.ts";
import {
codeMap,
errorMap,
mapSysErrnoToUvErrno,
} from "ext:deno_node/internal_binding/uv.ts";
import { assert } from "ext:deno_node/_util/asserts.ts";
import { isWindows } from "ext:deno_node/_util/os.ts";
import { os as osConstants } from "ext:deno_node/internal_binding/constants.ts";
import { hideStackFrames } from "ext:deno_node/internal/hide_stack_frames.ts";
import { getSystemErrorName } from "ext:deno_node/_utils.ts";
export { errorMap };
const kIsNodeError = Symbol("kIsNodeError");
/**
* @see https://github.com/nodejs/node/blob/f3eb224/lib/internal/errors.js
*/
const classRegExp = /^([A-Z][a-z0-9]*)+$/;
/**
* @see https://github.com/nodejs/node/blob/f3eb224/lib/internal/errors.js
* @description Sorted by a rough estimate on most frequently used entries.
*/
const kTypes = [
"string",
"function",
"number",
"object",
// Accept 'Function' and 'Object' as alternative to the lower cased version.
"Function",
"Object",
"boolean",
"bigint",
"symbol",
];
// Node uses an AbortError that isn't exactly the same as the DOMException
// to make usage of the error in userland and readable-stream easier.
// It is a regular error with `.code` and `.name`.
export class AbortError extends Error {
code: string;
constructor(message = "The operation was aborted", options?: ErrorOptions) {
if (options !== undefined && typeof options !== "object") {
throw new codes.ERR_INVALID_ARG_TYPE("options", "Object", options);
}
super(message, options);
this.code = "ABORT_ERR";
this.name = "AbortError";
}
}
let maxStackErrorName: string | undefined;
let maxStackErrorMessage: string | undefined;
/**
* Returns true if `err.name` and `err.message` are equal to engine-specific
* values indicating max call stack size has been exceeded.
* "Maximum call stack size exceeded" in V8.
*/
export function isStackOverflowError(err: Error): boolean {
if (maxStackErrorMessage === undefined) {
try {
// deno-lint-ignore no-inner-declarations
function overflowStack() {
overflowStack();
}
overflowStack();
// deno-lint-ignore no-explicit-any
} catch (err: any) {
maxStackErrorMessage = err.message;
maxStackErrorName = err.name;
}
}
return err && err.name === maxStackErrorName &&
err.message === maxStackErrorMessage;
}
function addNumericalSeparator(val: string) {
let res = "";
let i = val.length;
const start = val[0] === "-" ? 1 : 0;
for (; i >= start + 4; i -= 3) {
res = `_${val.slice(i - 3, i)}${res}`;
}
return `${val.slice(0, i)}${res}`;
}
const captureLargerStackTrace = hideStackFrames(
function captureLargerStackTrace(err) {
// @ts-ignore this function is not available in lib.dom.d.ts
Error.captureStackTrace(err);
return err;
},
);
export interface ErrnoException extends Error {
errno?: number;
code?: string;
path?: string;
syscall?: string;
spawnargs?: string[];
}
/**
* This creates an error compatible with errors produced in the C++
* This function should replace the deprecated
* `exceptionWithHostPort()` function.
*
* @param err A libuv error number
* @param syscall
* @param address
* @param port
* @return The error.
*/
export const uvExceptionWithHostPort = hideStackFrames(
function uvExceptionWithHostPort(
err: number,
syscall: string,
address?: string | null,
port?: number | null,
) {
const { 0: code, 1: uvmsg } = uvErrmapGet(err) || uvUnmappedError;
const message = `${syscall} ${code}: ${uvmsg}`;
let details = "";
if (port && port > 0) {
details = ` ${address}:${port}`;
} else if (address) {
details = ` ${address}`;
}
// deno-lint-ignore no-explicit-any
const ex: any = new Error(`${message}${details}`);
ex.code = code;
ex.errno = err;
ex.syscall = syscall;
ex.address = address;
if (port) {
ex.port = port;
}
return captureLargerStackTrace(ex);
},
);
/**
* This used to be `util._errnoException()`.
*
* @param err A libuv error number
* @param syscall
* @param original
* @return A `ErrnoException`
*/
export const errnoException = hideStackFrames(function errnoException(
err,
syscall,
original?,
): ErrnoException {
const code = getSystemErrorName(err);
const message = original
? `${syscall} ${code} ${original}`
: `${syscall} ${code}`;
// deno-lint-ignore no-explicit-any
const ex: any = new Error(message);
ex.errno = err;
ex.code = code;
ex.syscall = syscall;
return captureLargerStackTrace(ex);
});
function uvErrmapGet(name: number) {
return errorMap.get(name);
}
const uvUnmappedError = ["UNKNOWN", "unknown error"];
/**
* This creates an error compatible with errors produced in the C++
* function UVException using a context object with data assembled in C++.
* The goal is to migrate them to ERR_* errors later when compatibility is
* not a concern.
*
* @param ctx
* @return The error.
*/
export const uvException = hideStackFrames(function uvException(ctx) {
const { 0: code, 1: uvmsg } = uvErrmapGet(ctx.errno) || uvUnmappedError;
let message = `${code}: ${ctx.message || uvmsg}, ${ctx.syscall}`;
let path;
let dest;
if (ctx.path) {
path = ctx.path.toString();
message += ` '${path}'`;
}
if (ctx.dest) {
dest = ctx.dest.toString();
message += ` -> '${dest}'`;
}
// deno-lint-ignore no-explicit-any
const err: any = new Error(message);
for (const prop of Object.keys(ctx)) {
if (prop === "message" || prop === "path" || prop === "dest") {
continue;
}
err[prop] = ctx[prop];
}
err.code = code;
if (path) {
err.path = path;
}
if (dest) {
err.dest = dest;
}
return captureLargerStackTrace(err);
});
/**
* Deprecated, new function is `uvExceptionWithHostPort()`
* New function added the error description directly
* from C++. this method for backwards compatibility
* @param err A libuv error number
* @param syscall
* @param address
* @param port
* @param additional
*/
export const exceptionWithHostPort = hideStackFrames(
function exceptionWithHostPort(
err: number,
syscall: string,
address: string,
port: number,
additional?: string,
) {
const code = getSystemErrorName(err);
let details = "";
if (port && port > 0) {
details = ` ${address}:${port}`;
} else if (address) {
details = ` ${address}`;
}
if (additional) {
details += ` - Local (${additional})`;
}
// deno-lint-ignore no-explicit-any
const ex: any = new Error(`${syscall} ${code}${details}`);
ex.errno = err;
ex.code = code;
ex.syscall = syscall;
ex.address = address;
if (port) {
ex.port = port;
}
return captureLargerStackTrace(ex);
},
);
/**
* @param code A libuv error number or a c-ares error code
* @param syscall
* @param hostname
*/
export const dnsException = hideStackFrames(function (code, syscall, hostname) {
let errno;
// If `code` is of type number, it is a libuv error number, else it is a
// c-ares error code.
if (typeof code === "number") {
errno = code;
// ENOTFOUND is not a proper POSIX error, but this error has been in place
// long enough that it's not practical to remove it.
if (
code === codeMap.get("EAI_NODATA") ||
code === codeMap.get("EAI_NONAME")
) {
code = "ENOTFOUND"; // Fabricated error name.
} else {
code = getSystemErrorName(code);
}
}
const message = `${syscall} ${code}${hostname ? ` ${hostname}` : ""}`;
// deno-lint-ignore no-explicit-any
const ex: any = new Error(message);
ex.errno = errno;
ex.code = code;
ex.syscall = syscall;
if (hostname) {
ex.hostname = hostname;
}
return captureLargerStackTrace(ex);
});
/**
* All error instances in Node have additional methods and properties
* This export class is meant to be extended by these instances abstracting native JS error instances
*/
export class NodeErrorAbstraction extends Error {
code: string;
constructor(name: string, code: string, message: string) {
super(message);
this.code = code;
this.name = name;
//This number changes depending on the name of this class
//20 characters as of now
this.stack = this.stack && `${name} [${this.code}]${this.stack.slice(20)}`;
}
override toString() {
return `${this.name} [${this.code}]: ${this.message}`;
}
}
export class NodeError extends NodeErrorAbstraction {
constructor(code: string, message: string) {
super(Error.prototype.name, code, message);
}
}
export class NodeSyntaxError extends NodeErrorAbstraction
implements SyntaxError {
constructor(code: string, message: string) {
super(SyntaxError.prototype.name, code, message);
Object.setPrototypeOf(this, SyntaxError.prototype);
this.toString = function () {
return `${this.name} [${this.code}]: ${this.message}`;
};
}
}
export class NodeRangeError extends NodeErrorAbstraction {
constructor(code: string, message: string) {
super(RangeError.prototype.name, code, message);
Object.setPrototypeOf(this, RangeError.prototype);
this.toString = function () {
return `${this.name} [${this.code}]: ${this.message}`;
};
}
}
export class NodeTypeError extends NodeErrorAbstraction implements TypeError {
constructor(code: string, message: string) {
super(TypeError.prototype.name, code, message);
Object.setPrototypeOf(this, TypeError.prototype);
this.toString = function () {
return `${this.name} [${this.code}]: ${this.message}`;
};
}
}
export class NodeURIError extends NodeErrorAbstraction implements URIError {
constructor(code: string, message: string) {
super(URIError.prototype.name, code, message);
Object.setPrototypeOf(this, URIError.prototype);
this.toString = function () {
return `${this.name} [${this.code}]: ${this.message}`;
};
}
}
export interface NodeSystemErrorCtx {
code: string;
syscall: string;
message: string;
errno: number;
path?: string;
dest?: string;
}
// A specialized Error that includes an additional info property with
// additional information about the error condition.
// It has the properties present in a UVException but with a custom error
// message followed by the uv error code and uv error message.
// It also has its own error code with the original uv error context put into
// `err.info`.
// The context passed into this error must have .code, .syscall and .message,
// and may have .path and .dest.
class NodeSystemError extends NodeErrorAbstraction {
constructor(key: string, context: NodeSystemErrorCtx, msgPrefix: string) {
let message = `${msgPrefix}: ${context.syscall} returned ` +
`${context.code} (${context.message})`;
if (context.path !== undefined) {
message += ` ${context.path}`;
}
if (context.dest !== undefined) {
message += ` => ${context.dest}`;
}
super("SystemError", key, message);
captureLargerStackTrace(this);
Object.defineProperties(this, {
[kIsNodeError]: {
value: true,
enumerable: false,
writable: false,
configurable: true,
},
info: {
value: context,
enumerable: true,
configurable: true,
writable: false,
},
errno: {
get() {
return context.errno;
},
set: (value) => {
context.errno = value;
},
enumerable: true,
configurable: true,
},
syscall: {
get() {
return context.syscall;
},
set: (value) => {
context.syscall = value;
},
enumerable: true,
configurable: true,
},
});
if (context.path !== undefined) {
Object.defineProperty(this, "path", {
get() {
return context.path;
},
set: (value) => {
context.path = value;
},
enumerable: true,
configurable: true,
});
}
if (context.dest !== undefined) {
Object.defineProperty(this, "dest", {
get() {
return context.dest;
},
set: (value) => {
context.dest = value;
},
enumerable: true,
configurable: true,
});
}
}
override toString() {
return `${this.name} [${this.code}]: ${this.message}`;
}
}
function makeSystemErrorWithCode(key: string, msgPrfix: string) {
return class NodeError extends NodeSystemError {
constructor(ctx: NodeSystemErrorCtx) {
super(key, ctx, msgPrfix);
}
};
}
export const ERR_FS_EISDIR = makeSystemErrorWithCode(
"ERR_FS_EISDIR",
"Path is a directory",
);
function createInvalidArgType(
name: string,
expected: string | string[],
): string {
// https://github.com/nodejs/node/blob/f3eb224/lib/internal/errors.js#L1037-L1087
expected = Array.isArray(expected) ? expected : [expected];
let msg = "The ";
if (name.endsWith(" argument")) {
// For cases like 'first argument'
msg += `${name} `;
} else {
const type = name.includes(".") ? "property" : "argument";
msg += `"${name}" ${type} `;
}
msg += "must be ";
const types = [];
const instances = [];
const other = [];
for (const value of expected) {
if (kTypes.includes(value)) {
types.push(value.toLocaleLowerCase());
} else if (classRegExp.test(value)) {
instances.push(value);
} else {
other.push(value);
}
}
// Special handle `object` in case other instances are allowed to outline
// the differences between each other.
if (instances.length > 0) {
const pos = types.indexOf("object");
if (pos !== -1) {
types.splice(pos, 1);
instances.push("Object");
}
}
if (types.length > 0) {
if (types.length > 2) {
const last = types.pop();
msg += `one of type ${types.join(", ")}, or ${last}`;
} else if (types.length === 2) {
msg += `one of type ${types[0]} or ${types[1]}`;
} else {
msg += `of type ${types[0]}`;
}
if (instances.length > 0 || other.length > 0) {
msg += " or ";
}
}
if (instances.length > 0) {
if (instances.length > 2) {
const last = instances.pop();
msg += `an instance of ${instances.join(", ")}, or ${last}`;
} else {
msg += `an instance of ${instances[0]}`;
if (instances.length === 2) {
msg += ` or ${instances[1]}`;
}
}
if (other.length > 0) {
msg += " or ";
}
}
if (other.length > 0) {
if (other.length > 2) {
const last = other.pop();
msg += `one of ${other.join(", ")}, or ${last}`;
} else if (other.length === 2) {
msg += `one of ${other[0]} or ${other[1]}`;
} else {
if (other[0].toLowerCase() !== other[0]) {
msg += "an ";
}
msg += `${other[0]}`;
}
}
return msg;
}
export class ERR_INVALID_ARG_TYPE_RANGE extends NodeRangeError {
constructor(name: string, expected: string | string[], actual: unknown) {
const msg = createInvalidArgType(name, expected);
super("ERR_INVALID_ARG_TYPE", `${msg}.${invalidArgTypeHelper(actual)}`);
}
}
export class ERR_INVALID_ARG_TYPE extends NodeTypeError {
constructor(name: string, expected: string | string[], actual: unknown) {
const msg = createInvalidArgType(name, expected);
super("ERR_INVALID_ARG_TYPE", `${msg}.${invalidArgTypeHelper(actual)}`);
}
static RangeError = ERR_INVALID_ARG_TYPE_RANGE;
}
export class ERR_INVALID_ARG_VALUE_RANGE extends NodeRangeError {
constructor(name: string, value: unknown, reason: string = "is invalid") {
const type = name.includes(".") ? "property" : "argument";
const inspected = inspect(value);
super(
"ERR_INVALID_ARG_VALUE",
`The ${type} '${name}' ${reason}. Received ${inspected}`,
);
}
}
export class ERR_INVALID_ARG_VALUE extends NodeTypeError {
constructor(name: string, value: unknown, reason: string = "is invalid") {
const type = name.includes(".") ? "property" : "argument";
const inspected = inspect(value);
super(
"ERR_INVALID_ARG_VALUE",
`The ${type} '${name}' ${reason}. Received ${inspected}`,
);
}
static RangeError = ERR_INVALID_ARG_VALUE_RANGE;
}
// A helper function to simplify checking for ERR_INVALID_ARG_TYPE output.
// deno-lint-ignore no-explicit-any
function invalidArgTypeHelper(input: any) {
if (input == null) {
return ` Received ${input}`;
}
if (typeof input === "function" && input.name) {
return ` Received function ${input.name}`;
}
if (typeof input === "object") {
if (input.constructor && input.constructor.name) {
return ` Received an instance of ${input.constructor.name}`;
}
return ` Received ${inspect(input, { depth: -1 })}`;
}
let inspected = inspect(input, { colors: false });
if (inspected.length > 25) {
inspected = `${inspected.slice(0, 25)}...`;
}
return ` Received type ${typeof input} (${inspected})`;
}
export class ERR_OUT_OF_RANGE extends RangeError {
code = "ERR_OUT_OF_RANGE";
constructor(
str: string,
range: string,
input: unknown,
replaceDefaultBoolean = false,
) {
assert(range, 'Missing "range" argument');
let msg = replaceDefaultBoolean
? str
: `The value of "${str}" is out of range.`;
let received;
if (Number.isInteger(input) && Math.abs(input as number) > 2 ** 32) {
received = addNumericalSeparator(String(input));
} else if (typeof input === "bigint") {
received = String(input);
if (input > 2n ** 32n || input < -(2n ** 32n)) {
received = addNumericalSeparator(received);
}
received += "n";
} else {
received = inspect(input);
}
msg += ` It must be ${range}. Received ${received}`;
super(msg);
const { name } = this;
// Add the error code to the name to include it in the stack trace.
this.name = `${name} [${this.code}]`;
// Access the stack to generate the error message including the error code from the name.
this.stack;
// Reset the name to the actual name.
this.name = name;
}
}
export class ERR_AMBIGUOUS_ARGUMENT extends NodeTypeError {
constructor(x: string, y: string) {
super("ERR_AMBIGUOUS_ARGUMENT", `The "${x}" argument is ambiguous. ${y}`);
}
}
export class ERR_ARG_NOT_ITERABLE extends NodeTypeError {
constructor(x: string) {
super("ERR_ARG_NOT_ITERABLE", `${x} must be iterable`);
}
}
export class ERR_ASSERTION extends NodeError {
constructor(x: string) {
super("ERR_ASSERTION", `${x}`);
}
}
export class ERR_ASYNC_CALLBACK extends NodeTypeError {
constructor(x: string) {
super("ERR_ASYNC_CALLBACK", `${x} must be a function`);
}
}
export class ERR_ASYNC_TYPE extends NodeTypeError {
constructor(x: string) {
super("ERR_ASYNC_TYPE", `Invalid name for async "type": ${x}`);
}
}
export class ERR_BROTLI_INVALID_PARAM extends NodeRangeError {
constructor(x: string) {
super("ERR_BROTLI_INVALID_PARAM", `${x} is not a valid Brotli parameter`);
}
}
export class ERR_BUFFER_OUT_OF_BOUNDS extends NodeRangeError {
constructor(name?: string) {
super(
"ERR_BUFFER_OUT_OF_BOUNDS",
name
? `"${name}" is outside of buffer bounds`
: "Attempt to access memory outside buffer bounds",
);
}
}
export class ERR_BUFFER_TOO_LARGE extends NodeRangeError {
constructor(x: string) {
super(
"ERR_BUFFER_TOO_LARGE",
`Cannot create a Buffer larger than ${x} bytes`,
);
}
}
export class ERR_CANNOT_WATCH_SIGINT extends NodeError {
constructor() {
super("ERR_CANNOT_WATCH_SIGINT", "Cannot watch for SIGINT signals");
}
}
export class ERR_CHILD_CLOSED_BEFORE_REPLY extends NodeError {
constructor() {
super(
"ERR_CHILD_CLOSED_BEFORE_REPLY",
"Child closed before reply received",
);
}
}
export class ERR_CHILD_PROCESS_IPC_REQUIRED extends NodeError {
constructor(x: string) {
super(
"ERR_CHILD_PROCESS_IPC_REQUIRED",
`Forked processes must have an IPC channel, missing value 'ipc' in ${x}`,
);
}
}
export class ERR_CHILD_PROCESS_STDIO_MAXBUFFER extends NodeRangeError {
constructor(x: string) {
super(
"ERR_CHILD_PROCESS_STDIO_MAXBUFFER",
`${x} maxBuffer length exceeded`,
);
}
}
export class ERR_CONSOLE_WRITABLE_STREAM extends NodeTypeError {
constructor(x: string) {
super(
"ERR_CONSOLE_WRITABLE_STREAM",
`Console expects a writable stream instance for ${x}`,
);
}
}
export class ERR_CONTEXT_NOT_INITIALIZED extends NodeError {
constructor() {
super("ERR_CONTEXT_NOT_INITIALIZED", "context used is not initialized");
}
}
export class ERR_CPU_USAGE extends NodeError {
constructor(x: string) {
super("ERR_CPU_USAGE", `Unable to obtain cpu usage ${x}`);
}
}
export class ERR_CRYPTO_CUSTOM_ENGINE_NOT_SUPPORTED extends NodeError {
constructor() {
super(
"ERR_CRYPTO_CUSTOM_ENGINE_NOT_SUPPORTED",
"Custom engines not supported by this OpenSSL",
);
}
}
export class ERR_CRYPTO_ECDH_INVALID_FORMAT extends NodeTypeError {
constructor(x: string) {
super("ERR_CRYPTO_ECDH_INVALID_FORMAT", `Invalid ECDH format: ${x}`);
}
}
export class ERR_CRYPTO_ECDH_INVALID_PUBLIC_KEY extends NodeError {
constructor() {
super(
"ERR_CRYPTO_ECDH_INVALID_PUBLIC_KEY",
"Public key is not valid for specified curve",
);
}
}
export class ERR_CRYPTO_ENGINE_UNKNOWN extends NodeError {
constructor(x: string) {
super("ERR_CRYPTO_ENGINE_UNKNOWN", `Engine "${x}" was not found`);
}
}
export class ERR_CRYPTO_FIPS_FORCED extends NodeError {
constructor() {
super(
"ERR_CRYPTO_FIPS_FORCED",
"Cannot set FIPS mode, it was forced with --force-fips at startup.",
);
}
}
export class ERR_CRYPTO_FIPS_UNAVAILABLE extends NodeError {
constructor() {
super(
"ERR_CRYPTO_FIPS_UNAVAILABLE",
"Cannot set FIPS mode in a non-FIPS build.",
);
}
}
export class ERR_CRYPTO_HASH_FINALIZED extends NodeError {
constructor() {
super("ERR_CRYPTO_HASH_FINALIZED", "Digest already called");
}
}
export class ERR_CRYPTO_HASH_UPDATE_FAILED extends NodeError {
constructor() {
super("ERR_CRYPTO_HASH_UPDATE_FAILED", "Hash update failed");
}
}
export class ERR_CRYPTO_INCOMPATIBLE_KEY extends NodeError {
constructor(x: string, y: string) {
super("ERR_CRYPTO_INCOMPATIBLE_KEY", `Incompatible ${x}: ${y}`);
}
}
export class ERR_CRYPTO_INCOMPATIBLE_KEY_OPTIONS extends NodeError {
constructor(x: string, y: string) {
super(
"ERR_CRYPTO_INCOMPATIBLE_KEY_OPTIONS",
`The selected key encoding ${x} ${y}.`,
);
}
}
export class ERR_CRYPTO_INVALID_DIGEST extends NodeTypeError {
constructor(x: string) {
super("ERR_CRYPTO_INVALID_DIGEST", `Invalid digest: ${x}`);
}
}
export class ERR_CRYPTO_INVALID_KEY_OBJECT_TYPE extends NodeTypeError {
constructor(x: string, y: string) {
super(
"ERR_CRYPTO_INVALID_KEY_OBJECT_TYPE",
`Invalid key object type ${x}, expected ${y}.`,
);
}
}
export class ERR_CRYPTO_INVALID_STATE extends NodeError {
constructor(x: string) {
super("ERR_CRYPTO_INVALID_STATE", `Invalid state for operation ${x}`);
}
}
export class ERR_CRYPTO_PBKDF2_ERROR extends NodeError {
constructor() {
super("ERR_CRYPTO_PBKDF2_ERROR", "PBKDF2 error");
}
}
export class ERR_CRYPTO_SCRYPT_INVALID_PARAMETER extends NodeError {
constructor() {
super("ERR_CRYPTO_SCRYPT_INVALID_PARAMETER", "Invalid scrypt parameter");
}
}
export class ERR_CRYPTO_SCRYPT_NOT_SUPPORTED extends NodeError {
constructor() {
super("ERR_CRYPTO_SCRYPT_NOT_SUPPORTED", "Scrypt algorithm not supported");
}
}
export class ERR_CRYPTO_SIGN_KEY_REQUIRED extends NodeError {
constructor() {
super("ERR_CRYPTO_SIGN_KEY_REQUIRED", "No key provided to sign");
}
}
export class ERR_DIR_CLOSED extends NodeError {
constructor() {
super("ERR_DIR_CLOSED", "Directory handle was closed");
}
}
export class ERR_DIR_CONCURRENT_OPERATION extends NodeError {
constructor() {
super(
"ERR_DIR_CONCURRENT_OPERATION",
"Cannot do synchronous work on directory handle with concurrent asynchronous operations",
);
}
}
export class ERR_DNS_SET_SERVERS_FAILED extends NodeError {
constructor(x: string, y: string) {
super(
"ERR_DNS_SET_SERVERS_FAILED",
`c-ares failed to set servers: "${x}" [${y}]`,
);
}
}
export class ERR_DOMAIN_CALLBACK_NOT_AVAILABLE extends NodeError {
constructor() {
super(
"ERR_DOMAIN_CALLBACK_NOT_AVAILABLE",
"A callback was registered through " +
"process.setUncaughtExceptionCaptureCallback(), which is mutually " +
"exclusive with using the `domain` module",
);
}
}
export class ERR_DOMAIN_CANNOT_SET_UNCAUGHT_EXCEPTION_CAPTURE
extends NodeError {
constructor() {
super(
"ERR_DOMAIN_CANNOT_SET_UNCAUGHT_EXCEPTION_CAPTURE",
"The `domain` module is in use, which is mutually exclusive with calling " +
"process.setUncaughtExceptionCaptureCallback()",
);
}
}
export class ERR_ENCODING_INVALID_ENCODED_DATA extends NodeErrorAbstraction
implements TypeError {
errno: number;
constructor(encoding: string, ret: number) {
super(
TypeError.prototype.name,
"ERR_ENCODING_INVALID_ENCODED_DATA",
`The encoded data was not valid for encoding ${encoding}`,
);
Object.setPrototypeOf(this, TypeError.prototype);
this.errno = ret;
}
}
export class ERR_ENCODING_NOT_SUPPORTED extends NodeRangeError {
constructor(x: string) {
super("ERR_ENCODING_NOT_SUPPORTED", `The "${x}" encoding is not supported`);
}
}
export class ERR_EVAL_ESM_CANNOT_PRINT extends NodeError {
constructor() {
super("ERR_EVAL_ESM_CANNOT_PRINT", `--print cannot be used with ESM input`);
}
}
export class ERR_EVENT_RECURSION extends NodeError {
constructor(x: string) {
super(
"ERR_EVENT_RECURSION",
`The event "${x}" is already being dispatched`,
);
}
}
export class ERR_FEATURE_UNAVAILABLE_ON_PLATFORM extends NodeTypeError {
constructor(x: string) {
super(
"ERR_FEATURE_UNAVAILABLE_ON_PLATFORM",
`The feature ${x} is unavailable on the current platform, which is being used to run Node.js`,
);
}
}
export class ERR_FS_FILE_TOO_LARGE extends NodeRangeError {
constructor(x: string) {
super("ERR_FS_FILE_TOO_LARGE", `File size (${x}) is greater than 2 GB`);
}
}
export class ERR_FS_INVALID_SYMLINK_TYPE extends NodeError {
constructor(x: string) {
super(
"ERR_FS_INVALID_SYMLINK_TYPE",
`Symlink type must be one of "dir", "file", or "junction". Received "${x}"`,
);
}
}
export class ERR_HTTP2_ALTSVC_INVALID_ORIGIN extends NodeTypeError {
constructor() {
super(
"ERR_HTTP2_ALTSVC_INVALID_ORIGIN",
`HTTP/2 ALTSVC frames require a valid origin`,
);
}
}
export class ERR_HTTP2_ALTSVC_LENGTH extends NodeTypeError {
constructor() {
super(
"ERR_HTTP2_ALTSVC_LENGTH",
`HTTP/2 ALTSVC frames are limited to 16382 bytes`,
);
}
}
export class ERR_HTTP2_CONNECT_AUTHORITY extends NodeError {
constructor() {
super(
"ERR_HTTP2_CONNECT_AUTHORITY",
`:authority header is required for CONNECT requests`,
);
}
}
export class ERR_HTTP2_CONNECT_PATH extends NodeError {
constructor() {
super(
"ERR_HTTP2_CONNECT_PATH",
`The :path header is forbidden for CONNECT requests`,
);
}
}
export class ERR_HTTP2_CONNECT_SCHEME extends NodeError {
constructor() {
super(
"ERR_HTTP2_CONNECT_SCHEME",
`The :scheme header is forbidden for CONNECT requests`,
);
}
}
export class ERR_HTTP2_GOAWAY_SESSION extends NodeError {
constructor() {
super(
"ERR_HTTP2_GOAWAY_SESSION",
`New streams cannot be created after receiving a GOAWAY`,
);
}
}
export class ERR_HTTP2_HEADERS_AFTER_RESPOND extends NodeError {
constructor() {
super(
"ERR_HTTP2_HEADERS_AFTER_RESPOND",
`Cannot specify additional headers after response initiated`,
);
}
}
export class ERR_HTTP2_HEADERS_SENT extends NodeError {
constructor() {
super("ERR_HTTP2_HEADERS_SENT", `Response has already been initiated.`);
}
}
export class ERR_HTTP2_HEADER_SINGLE_VALUE extends NodeTypeError {
constructor(x: string) {
super(
"ERR_HTTP2_HEADER_SINGLE_VALUE",
`Header field "${x}" must only have a single value`,
);
}
}
export class ERR_HTTP2_INFO_STATUS_NOT_ALLOWED extends NodeRangeError {
constructor() {
super(
"ERR_HTTP2_INFO_STATUS_NOT_ALLOWED",
`Informational status codes cannot be used`,
);
}
}
export class ERR_HTTP2_INVALID_CONNECTION_HEADERS extends NodeTypeError {
constructor(x: string) {
super(
"ERR_HTTP2_INVALID_CONNECTION_HEADERS",
`HTTP/1 Connection specific headers are forbidden: "${x}"`,
);
}
}
export class ERR_HTTP2_INVALID_HEADER_VALUE extends NodeTypeError {
constructor(x: string, y: string) {
super(
"ERR_HTTP2_INVALID_HEADER_VALUE",
`Invalid value "${x}" for header "${y}"`,
);
}
}
export class ERR_HTTP2_INVALID_INFO_STATUS extends NodeRangeError {
constructor(x: string) {
super(
"ERR_HTTP2_INVALID_INFO_STATUS",
`Invalid informational status code: ${x}`,
);
}
}
export class ERR_HTTP2_INVALID_ORIGIN extends NodeTypeError {
constructor() {
super(
"ERR_HTTP2_INVALID_ORIGIN",
`HTTP/2 ORIGIN frames require a valid origin`,
);
}
}
export class ERR_HTTP2_INVALID_PACKED_SETTINGS_LENGTH extends NodeRangeError {
constructor() {
super(
"ERR_HTTP2_INVALID_PACKED_SETTINGS_LENGTH",
`Packed settings length must be a multiple of six`,
);
}
}
export class ERR_HTTP2_INVALID_PSEUDOHEADER extends NodeTypeError {
constructor(x: string) {
super(
"ERR_HTTP2_INVALID_PSEUDOHEADER",
`"${x}" is an invalid pseudoheader or is used incorrectly`,
);
}
}
export class ERR_HTTP2_INVALID_SESSION extends NodeError {
constructor() {
super("ERR_HTTP2_INVALID_SESSION", `The session has been destroyed`);
}
}
export class ERR_HTTP2_INVALID_STREAM extends NodeError {
constructor() {
super("ERR_HTTP2_INVALID_STREAM", `The stream has been destroyed`);
}
}
export class ERR_HTTP2_MAX_PENDING_SETTINGS_ACK extends NodeError {
constructor() {
super(
"ERR_HTTP2_MAX_PENDING_SETTINGS_ACK",
`Maximum number of pending settings acknowledgements`,
);
}
}
export class ERR_HTTP2_NESTED_PUSH extends NodeError {
constructor() {
super(
"ERR_HTTP2_NESTED_PUSH",
`A push stream cannot initiate another push stream.`,
);
}
}
export class ERR_HTTP2_NO_SOCKET_MANIPULATION extends NodeError {
constructor() {
super(
"ERR_HTTP2_NO_SOCKET_MANIPULATION",
`HTTP/2 sockets should not be directly manipulated (e.g. read and written)`,
);
}
}
export class ERR_HTTP2_ORIGIN_LENGTH extends NodeTypeError {
constructor() {
super(
"ERR_HTTP2_ORIGIN_LENGTH",
`HTTP/2 ORIGIN frames are limited to 16382 bytes`,
);
}
}
export class ERR_HTTP2_OUT_OF_STREAMS extends NodeError {
constructor() {
super(
"ERR_HTTP2_OUT_OF_STREAMS",
`No stream ID is available because maximum stream ID has been reached`,
);
}
}
export class ERR_HTTP2_PAYLOAD_FORBIDDEN extends NodeError {
constructor(x: string) {
super(
"ERR_HTTP2_PAYLOAD_FORBIDDEN",
`Responses with ${x} status must not have a payload`,
);
}
}
export class ERR_HTTP2_PING_CANCEL extends NodeError {
constructor() {
super("ERR_HTTP2_PING_CANCEL", `HTTP2 ping cancelled`);
}
}
export class ERR_HTTP2_PING_LENGTH extends NodeRangeError {
constructor() {
super("ERR_HTTP2_PING_LENGTH", `HTTP2 ping payload must be 8 bytes`);
}
}
export class ERR_HTTP2_PSEUDOHEADER_NOT_ALLOWED extends NodeTypeError {
constructor() {
super(
"ERR_HTTP2_PSEUDOHEADER_NOT_ALLOWED",
`Cannot set HTTP/2 pseudo-headers`,
);
}
}
export class ERR_HTTP2_PUSH_DISABLED extends NodeError {
constructor() {
super("ERR_HTTP2_PUSH_DISABLED", `HTTP/2 client has disabled push streams`);
}
}
export class ERR_HTTP2_SEND_FILE extends NodeError {
constructor() {
super("ERR_HTTP2_SEND_FILE", `Directories cannot be sent`);
}
}
export class ERR_HTTP2_SEND_FILE_NOSEEK extends NodeError {
constructor() {
super(
"ERR_HTTP2_SEND_FILE_NOSEEK",
`Offset or length can only be specified for regular files`,
);
}
}
export class ERR_HTTP2_SESSION_ERROR extends NodeError {
constructor(x: string) {
super("ERR_HTTP2_SESSION_ERROR", `Session closed with error code ${x}`);
}
}
export class ERR_HTTP2_SETTINGS_CANCEL extends NodeError {
constructor() {
super("ERR_HTTP2_SETTINGS_CANCEL", `HTTP2 session settings canceled`);
}
}
export class ERR_HTTP2_SOCKET_BOUND extends NodeError {
constructor() {
super(
"ERR_HTTP2_SOCKET_BOUND",
`The socket is already bound to an Http2Session`,
);
}
}
export class ERR_HTTP2_SOCKET_UNBOUND extends NodeError {
constructor() {
super(
"ERR_HTTP2_SOCKET_UNBOUND",
`The socket has been disconnected from the Http2Session`,
);
}
}
export class ERR_HTTP2_STATUS_101 extends NodeError {
constructor() {
super(
"ERR_HTTP2_STATUS_101",
`HTTP status code 101 (Switching Protocols) is forbidden in HTTP/2`,
);
}
}
export class ERR_HTTP2_STATUS_INVALID extends NodeRangeError {
constructor(x: string) {
super("ERR_HTTP2_STATUS_INVALID", `Invalid status code: ${x}`);
}
}
export class ERR_HTTP2_STREAM_ERROR extends NodeError {
constructor(x: string) {
super("ERR_HTTP2_STREAM_ERROR", `Stream closed with error code ${x}`);
}
}
export class ERR_HTTP2_STREAM_SELF_DEPENDENCY extends NodeError {
constructor() {
super(
"ERR_HTTP2_STREAM_SELF_DEPENDENCY",
`A stream cannot depend on itself`,
);
}
}
export class ERR_HTTP2_TRAILERS_ALREADY_SENT extends NodeError {
constructor() {
super(
"ERR_HTTP2_TRAILERS_ALREADY_SENT",
`Trailing headers have already been sent`,
);
}
}
export class ERR_HTTP2_TRAILERS_NOT_READY extends NodeError {
constructor() {
super(
"ERR_HTTP2_TRAILERS_NOT_READY",
`Trailing headers cannot be sent until after the wantTrailers event is emitted`,
);
}
}
export class ERR_HTTP2_UNSUPPORTED_PROTOCOL extends NodeError {
constructor(x: string) {
super("ERR_HTTP2_UNSUPPORTED_PROTOCOL", `protocol "${x}" is unsupported.`);
}
}
export class ERR_HTTP_HEADERS_SENT extends NodeError {
constructor(x: string) {
super(
"ERR_HTTP_HEADERS_SENT",
`Cannot ${x} headers after they are sent to the client`,
);
}
}
export class ERR_HTTP_INVALID_HEADER_VALUE extends NodeTypeError {
constructor(x: string, y: string) {
super(
"ERR_HTTP_INVALID_HEADER_VALUE",
`Invalid value "${x}" for header "${y}"`,
);
}
}
export class ERR_HTTP_INVALID_STATUS_CODE extends NodeRangeError {
constructor(x: string) {
super("ERR_HTTP_INVALID_STATUS_CODE", `Invalid status code: ${x}`);
}
}
export class ERR_HTTP_SOCKET_ENCODING extends NodeError {
constructor() {
super(
"ERR_HTTP_SOCKET_ENCODING",
`Changing the socket encoding is not allowed per RFC7230 Section 3.`,
);
}
}
export class ERR_HTTP_TRAILER_INVALID extends NodeError {
constructor() {
super(
"ERR_HTTP_TRAILER_INVALID",
`Trailers are invalid with this transfer encoding`,
);
}
}
export class ERR_INCOMPATIBLE_OPTION_PAIR extends NodeTypeError {
constructor(x: string, y: string) {
super(
"ERR_INCOMPATIBLE_OPTION_PAIR",
`Option "${x}" cannot be used in combination with option "${y}"`,
);
}
}
export class ERR_INPUT_TYPE_NOT_ALLOWED extends NodeError {
constructor() {
super(
"ERR_INPUT_TYPE_NOT_ALLOWED",
`--input-type can only be used with string input via --eval, --print, or STDIN`,
);
}
}
export class ERR_INSPECTOR_ALREADY_ACTIVATED extends NodeError {
constructor() {
super(
"ERR_INSPECTOR_ALREADY_ACTIVATED",
`Inspector is already activated. Close it with inspector.close() before activating it again.`,
);
}
}
export class ERR_INSPECTOR_ALREADY_CONNECTED extends NodeError {
constructor(x: string) {
super("ERR_INSPECTOR_ALREADY_CONNECTED", `${x} is already connected`);
}
}
export class ERR_INSPECTOR_CLOSED extends NodeError {
constructor() {
super("ERR_INSPECTOR_CLOSED", `Session was closed`);
}
}
export class ERR_INSPECTOR_COMMAND extends NodeError {
constructor(x: number, y: string) {
super("ERR_INSPECTOR_COMMAND", `Inspector error ${x}: ${y}`);
}
}
export class ERR_INSPECTOR_NOT_ACTIVE extends NodeError {
constructor() {
super("ERR_INSPECTOR_NOT_ACTIVE", `Inspector is not active`);
}
}
export class ERR_INSPECTOR_NOT_AVAILABLE extends NodeError {
constructor() {
super("ERR_INSPECTOR_NOT_AVAILABLE", `Inspector is not available`);
}
}
export class ERR_INSPECTOR_NOT_CONNECTED extends NodeError {
constructor() {
super("ERR_INSPECTOR_NOT_CONNECTED", `Session is not connected`);
}
}
export class ERR_INSPECTOR_NOT_WORKER extends NodeError {
constructor() {
super("ERR_INSPECTOR_NOT_WORKER", `Current thread is not a worker`);
}
}
export class ERR_INVALID_ASYNC_ID extends NodeRangeError {
constructor(x: string, y: string | number) {
super("ERR_INVALID_ASYNC_ID", `Invalid ${x} value: ${y}`);
}
}
export class ERR_INVALID_BUFFER_SIZE extends NodeRangeError {
constructor(x: string) {
super("ERR_INVALID_BUFFER_SIZE", `Buffer size must be a multiple of ${x}`);
}
}
export class ERR_INVALID_CURSOR_POS extends NodeTypeError {
constructor() {
super(
"ERR_INVALID_CURSOR_POS",
`Cannot set cursor row without setting its column`,
);
}
}
export class ERR_INVALID_FD extends NodeRangeError {
constructor(x: string) {
super("ERR_INVALID_FD", `"fd" must be a positive integer: ${x}`);
}
}
export class ERR_INVALID_FD_TYPE extends NodeTypeError {
constructor(x: string) {
super("ERR_INVALID_FD_TYPE", `Unsupported fd type: ${x}`);
}
}
export class ERR_INVALID_FILE_URL_HOST extends NodeTypeError {
constructor(x: string) {
super(
"ERR_INVALID_FILE_URL_HOST",
`File URL host must be "localhost" or empty on ${x}`,
);
}
}
export class ERR_INVALID_FILE_URL_PATH extends NodeTypeError {
constructor(x: string) {
super("ERR_INVALID_FILE_URL_PATH", `File URL path ${x}`);
}
}
export class ERR_INVALID_HANDLE_TYPE extends NodeTypeError {
constructor() {
super("ERR_INVALID_HANDLE_TYPE", `This handle type cannot be sent`);
}
}
export class ERR_INVALID_HTTP_TOKEN extends NodeTypeError {
constructor(x: string, y: string) {
super("ERR_INVALID_HTTP_TOKEN", `${x} must be a valid HTTP token ["${y}"]`);
}
}
export class ERR_INVALID_IP_ADDRESS extends NodeTypeError {
constructor(x: string) {
super("ERR_INVALID_IP_ADDRESS", `Invalid IP address: ${x}`);
}
}
export class ERR_INVALID_OPT_VALUE_ENCODING extends NodeTypeError {
constructor(x: string) {
super(
"ERR_INVALID_OPT_VALUE_ENCODING",
`The value "${x}" is invalid for option "encoding"`,
);
}
}
export class ERR_INVALID_PERFORMANCE_MARK extends NodeError {
constructor(x: string) {
super(
"ERR_INVALID_PERFORMANCE_MARK",
`The "${x}" performance mark has not been set`,
);
}
}
export class ERR_INVALID_PROTOCOL extends NodeTypeError {
constructor(x: string, y: string) {
super(
"ERR_INVALID_PROTOCOL",
`Protocol "${x}" not supported. Expected "${y}"`,
);
}
}
export class ERR_INVALID_REPL_EVAL_CONFIG extends NodeTypeError {
constructor() {
super(
"ERR_INVALID_REPL_EVAL_CONFIG",
`Cannot specify both "breakEvalOnSigint" and "eval" for REPL`,
);
}
}
export class ERR_INVALID_REPL_INPUT extends NodeTypeError {
constructor(x: string) {
super("ERR_INVALID_REPL_INPUT", `${x}`);
}
}
export class ERR_INVALID_SYNC_FORK_INPUT extends NodeTypeError {
constructor(x: string) {
super(
"ERR_INVALID_SYNC_FORK_INPUT",
`Asynchronous forks do not support Buffer, TypedArray, DataView or string input: ${x}`,
);
}
}
export class ERR_INVALID_THIS extends NodeTypeError {
constructor(x: string) {
super("ERR_INVALID_THIS", `Value of "this" must be of type ${x}`);
}
}
export class ERR_INVALID_TUPLE extends NodeTypeError {
constructor(x: string, y: string) {
super("ERR_INVALID_TUPLE", `${x} must be an iterable ${y} tuple`);
}
}
export class ERR_INVALID_URI extends NodeURIError {
constructor() {
super("ERR_INVALID_URI", `URI malformed`);
}
}
export class ERR_IPC_CHANNEL_CLOSED extends NodeError {
constructor() {
super("ERR_IPC_CHANNEL_CLOSED", `Channel closed`);
}
}
export class ERR_IPC_DISCONNECTED extends NodeError {
constructor() {
super("ERR_IPC_DISCONNECTED", `IPC channel is already disconnected`);
}
}
export class ERR_IPC_ONE_PIPE extends NodeError {
constructor() {
super("ERR_IPC_ONE_PIPE", `Child process can have only one IPC pipe`);
}
}
export class ERR_IPC_SYNC_FORK extends NodeError {
constructor() {
super("ERR_IPC_SYNC_FORK", `IPC cannot be used with synchronous forks`);
}
}
export class ERR_MANIFEST_DEPENDENCY_MISSING extends NodeError {
constructor(x: string, y: string) {
super(
"ERR_MANIFEST_DEPENDENCY_MISSING",
`Manifest resource ${x} does not list ${y} as a dependency specifier`,
);
}
}
export class ERR_MANIFEST_INTEGRITY_MISMATCH extends NodeSyntaxError {
constructor(x: string) {
super(
"ERR_MANIFEST_INTEGRITY_MISMATCH",
`Manifest resource ${x} has multiple entries but integrity lists do not match`,
);
}
}
export class ERR_MANIFEST_INVALID_RESOURCE_FIELD extends NodeTypeError {
constructor(x: string, y: string) {
super(
"ERR_MANIFEST_INVALID_RESOURCE_FIELD",
`Manifest resource ${x} has invalid property value for ${y}`,
);
}
}
export class ERR_MANIFEST_TDZ extends NodeError {
constructor() {
super("ERR_MANIFEST_TDZ", `Manifest initialization has not yet run`);
}
}
export class ERR_MANIFEST_UNKNOWN_ONERROR extends NodeSyntaxError {
constructor(x: string) {
super(
"ERR_MANIFEST_UNKNOWN_ONERROR",
`Manifest specified unknown error behavior "${x}".`,
);
}
}
export class ERR_METHOD_NOT_IMPLEMENTED extends NodeError {
constructor(x: string) {
super("ERR_METHOD_NOT_IMPLEMENTED", `The ${x} method is not implemented`);
}
}
export class ERR_MISSING_ARGS extends NodeTypeError {
constructor(...args: (string | string[])[]) {
let msg = "The ";
const len = args.length;
const wrap = (a: unknown) => `"${a}"`;
args = args.map((a) =>
Array.isArray(a) ? a.map(wrap).join(" or ") : wrap(a)
);
switch (len) {
case 1:
msg += `${args[0]} argument`;
break;
case 2:
msg += `${args[0]} and ${args[1]} arguments`;
break;
default:
msg += args.slice(0, len - 1).join(", ");
msg += `, and ${args[len - 1]} arguments`;
break;
}
super("ERR_MISSING_ARGS", `${msg} must be specified`);
}
}
export class ERR_MISSING_OPTION extends NodeTypeError {
constructor(x: string) {
super("ERR_MISSING_OPTION", `${x} is required`);
}
}
export class ERR_MULTIPLE_CALLBACK extends NodeError {
constructor() {
super("ERR_MULTIPLE_CALLBACK", `Callback called multiple times`);
}
}
export class ERR_NAPI_CONS_FUNCTION extends NodeTypeError {
constructor() {
super("ERR_NAPI_CONS_FUNCTION", `Constructor must be a function`);
}
}
export class ERR_NAPI_INVALID_DATAVIEW_ARGS extends NodeRangeError {
constructor() {
super(
"ERR_NAPI_INVALID_DATAVIEW_ARGS",
`byte_offset + byte_length should be less than or equal to the size in bytes of the array passed in`,
);
}
}
export class ERR_NAPI_INVALID_TYPEDARRAY_ALIGNMENT extends NodeRangeError {
constructor(x: string, y: string) {
super(
"ERR_NAPI_INVALID_TYPEDARRAY_ALIGNMENT",
`start offset of ${x} should be a multiple of ${y}`,
);
}
}
export class ERR_NAPI_INVALID_TYPEDARRAY_LENGTH extends NodeRangeError {
constructor() {
super("ERR_NAPI_INVALID_TYPEDARRAY_LENGTH", `Invalid typed array length`);
}
}
export class ERR_NO_CRYPTO extends NodeError {
constructor() {
super(
"ERR_NO_CRYPTO",
`Node.js is not compiled with OpenSSL crypto support`,
);
}
}
export class ERR_NO_ICU extends NodeTypeError {
constructor(x: string) {
super(
"ERR_NO_ICU",
`${x} is not supported on Node.js compiled without ICU`,
);
}
}
export class ERR_QUICCLIENTSESSION_FAILED extends NodeError {
constructor(x: string) {
super(
"ERR_QUICCLIENTSESSION_FAILED",
`Failed to create a new QuicClientSession: ${x}`,
);
}
}
export class ERR_QUICCLIENTSESSION_FAILED_SETSOCKET extends NodeError {
constructor() {
super(
"ERR_QUICCLIENTSESSION_FAILED_SETSOCKET",
`Failed to set the QuicSocket`,
);
}
}
export class ERR_QUICSESSION_DESTROYED extends NodeError {
constructor(x: string) {
super(
"ERR_QUICSESSION_DESTROYED",
`Cannot call ${x} after a QuicSession has been destroyed`,
);
}
}
export class ERR_QUICSESSION_INVALID_DCID extends NodeError {
constructor(x: string) {
super("ERR_QUICSESSION_INVALID_DCID", `Invalid DCID value: ${x}`);
}
}
export class ERR_QUICSESSION_UPDATEKEY extends NodeError {
constructor() {
super("ERR_QUICSESSION_UPDATEKEY", `Unable to update QuicSession keys`);
}
}
export class ERR_QUICSOCKET_DESTROYED extends NodeError {
constructor(x: string) {
super(
"ERR_QUICSOCKET_DESTROYED",
`Cannot call ${x} after a QuicSocket has been destroyed`,
);
}
}
export class ERR_QUICSOCKET_INVALID_STATELESS_RESET_SECRET_LENGTH
extends NodeError {
constructor() {
super(
"ERR_QUICSOCKET_INVALID_STATELESS_RESET_SECRET_LENGTH",
`The stateResetToken must be exactly 16-bytes in length`,
);
}
}
export class ERR_QUICSOCKET_LISTENING extends NodeError {
constructor() {
super("ERR_QUICSOCKET_LISTENING", `This QuicSocket is already listening`);
}
}
export class ERR_QUICSOCKET_UNBOUND extends NodeError {
constructor(x: string) {
super(
"ERR_QUICSOCKET_UNBOUND",
`Cannot call ${x} before a QuicSocket has been bound`,
);
}
}
export class ERR_QUICSTREAM_DESTROYED extends NodeError {
constructor(x: string) {
super(
"ERR_QUICSTREAM_DESTROYED",
`Cannot call ${x} after a QuicStream has been destroyed`,
);
}
}
export class ERR_QUICSTREAM_INVALID_PUSH extends NodeError {
constructor() {
super(
"ERR_QUICSTREAM_INVALID_PUSH",
`Push streams are only supported on client-initiated, bidirectional streams`,
);
}
}
export class ERR_QUICSTREAM_OPEN_FAILED extends NodeError {
constructor() {
super("ERR_QUICSTREAM_OPEN_FAILED", `Opening a new QuicStream failed`);
}
}
export class ERR_QUICSTREAM_UNSUPPORTED_PUSH extends NodeError {
constructor() {
super(
"ERR_QUICSTREAM_UNSUPPORTED_PUSH",
`Push streams are not supported on this QuicSession`,
);
}
}
export class ERR_QUIC_TLS13_REQUIRED extends NodeError {
constructor() {
super("ERR_QUIC_TLS13_REQUIRED", `QUIC requires TLS version 1.3`);
}
}
export class ERR_SCRIPT_EXECUTION_INTERRUPTED extends NodeError {
constructor() {
super(
"ERR_SCRIPT_EXECUTION_INTERRUPTED",
"Script execution was interrupted by `SIGINT`",
);
}
}
export class ERR_SERVER_ALREADY_LISTEN extends NodeError {
constructor() {
super(
"ERR_SERVER_ALREADY_LISTEN",
`Listen method has been called more than once without closing.`,
);
}
}
export class ERR_SERVER_NOT_RUNNING extends NodeError {
constructor() {
super("ERR_SERVER_NOT_RUNNING", `Server is not running.`);
}
}
export class ERR_SOCKET_ALREADY_BOUND extends NodeError {
constructor() {
super("ERR_SOCKET_ALREADY_BOUND", `Socket is already bound`);
}
}
export class ERR_SOCKET_BAD_BUFFER_SIZE extends NodeTypeError {
constructor() {
super(
"ERR_SOCKET_BAD_BUFFER_SIZE",
`Buffer size must be a positive integer`,
);
}
}
export class ERR_SOCKET_BAD_PORT extends NodeRangeError {
constructor(name: string, port: unknown, allowZero = true) {
assert(
typeof allowZero === "boolean",
"The 'allowZero' argument must be of type boolean.",
);
const operator = allowZero ? ">=" : ">";
super(
"ERR_SOCKET_BAD_PORT",
`${name} should be ${operator} 0 and < 65536. Received ${port}.`,
);
}
}
export class ERR_SOCKET_BAD_TYPE extends NodeTypeError {
constructor() {
super(
"ERR_SOCKET_BAD_TYPE",
`Bad socket type specified. Valid types are: udp4, udp6`,
);
}
}
export class ERR_SOCKET_BUFFER_SIZE extends NodeSystemError {
constructor(ctx: NodeSystemErrorCtx) {
super("ERR_SOCKET_BUFFER_SIZE", ctx, "Could not get or set buffer size");
}
}
export class ERR_SOCKET_CLOSED extends NodeError {
constructor() {
super("ERR_SOCKET_CLOSED", `Socket is closed`);
}
}
export class ERR_SOCKET_DGRAM_IS_CONNECTED extends NodeError {
constructor() {
super("ERR_SOCKET_DGRAM_IS_CONNECTED", `Already connected`);
}
}
export class ERR_SOCKET_DGRAM_NOT_CONNECTED extends NodeError {
constructor() {
super("ERR_SOCKET_DGRAM_NOT_CONNECTED", `Not connected`);
}
}
export class ERR_SOCKET_DGRAM_NOT_RUNNING extends NodeError {
constructor() {
super("ERR_SOCKET_DGRAM_NOT_RUNNING", `Not running`);
}
}
export class ERR_SRI_PARSE extends NodeSyntaxError {
constructor(name: string, char: string, position: number) {
super(
"ERR_SRI_PARSE",
`Subresource Integrity string ${name} had an unexpected ${char} at position ${position}`,
);
}
}
export class ERR_STREAM_ALREADY_FINISHED extends NodeError {
constructor(x: string) {
super(
"ERR_STREAM_ALREADY_FINISHED",
`Cannot call ${x} after a stream was finished`,
);
}
}
export class ERR_STREAM_CANNOT_PIPE extends NodeError {
constructor() {
super("ERR_STREAM_CANNOT_PIPE", `Cannot pipe, not readable`);
}
}
export class ERR_STREAM_DESTROYED extends NodeError {
constructor(x: string) {
super(
"ERR_STREAM_DESTROYED",
`Cannot call ${x} after a stream was destroyed`,
);
}
}
export class ERR_STREAM_NULL_VALUES extends NodeTypeError {
constructor() {
super("ERR_STREAM_NULL_VALUES", `May not write null values to stream`);
}
}
export class ERR_STREAM_PREMATURE_CLOSE extends NodeError {
constructor() {
super("ERR_STREAM_PREMATURE_CLOSE", `Premature close`);
}
}
export class ERR_STREAM_PUSH_AFTER_EOF extends NodeError {
constructor() {
super("ERR_STREAM_PUSH_AFTER_EOF", `stream.push() after EOF`);
}
}
export class ERR_STREAM_UNSHIFT_AFTER_END_EVENT extends NodeError {
constructor() {
super(
"ERR_STREAM_UNSHIFT_AFTER_END_EVENT",
`stream.unshift() after end event`,
);
}
}
export class ERR_STREAM_WRAP extends NodeError {
constructor() {
super(
"ERR_STREAM_WRAP",
`Stream has StringDecoder set or is in objectMode`,
);
}
}
export class ERR_STREAM_WRITE_AFTER_END extends NodeError {
constructor() {
super("ERR_STREAM_WRITE_AFTER_END", `write after end`);
}
}
export class ERR_SYNTHETIC extends NodeError {
constructor() {
super("ERR_SYNTHETIC", `JavaScript Callstack`);
}
}
export class ERR_TLS_CERT_ALTNAME_INVALID extends NodeError {
reason: string;
host: string;
cert: string;
constructor(reason: string, host: string, cert: string) {
super(
"ERR_TLS_CERT_ALTNAME_INVALID",
`Hostname/IP does not match certificate's altnames: ${reason}`,
);
this.reason = reason;
this.host = host;
this.cert = cert;
}
}
export class ERR_TLS_DH_PARAM_SIZE extends NodeError {
constructor(x: string) {
super("ERR_TLS_DH_PARAM_SIZE", `DH parameter size ${x} is less than 2048`);
}
}
export class ERR_TLS_HANDSHAKE_TIMEOUT extends NodeError {
constructor() {
super("ERR_TLS_HANDSHAKE_TIMEOUT", `TLS handshake timeout`);
}
}
export class ERR_TLS_INVALID_CONTEXT extends NodeTypeError {
constructor(x: string) {
super("ERR_TLS_INVALID_CONTEXT", `${x} must be a SecureContext`);
}
}
export class ERR_TLS_INVALID_STATE extends NodeError {
constructor() {
super(
"ERR_TLS_INVALID_STATE",
`TLS socket connection must be securely established`,
);
}
}
export class ERR_TLS_INVALID_PROTOCOL_VERSION extends NodeTypeError {
constructor(protocol: string, x: string) {
super(
"ERR_TLS_INVALID_PROTOCOL_VERSION",
`${protocol} is not a valid ${x} TLS protocol version`,
);
}
}
export class ERR_TLS_PROTOCOL_VERSION_CONFLICT extends NodeTypeError {
constructor(prevProtocol: string, protocol: string) {
super(
"ERR_TLS_PROTOCOL_VERSION_CONFLICT",
`TLS protocol version ${prevProtocol} conflicts with secureProtocol ${protocol}`,
);
}
}
export class ERR_TLS_RENEGOTIATION_DISABLED extends NodeError {
constructor() {
super(
"ERR_TLS_RENEGOTIATION_DISABLED",
`TLS session renegotiation disabled for this socket`,
);
}
}
export class ERR_TLS_REQUIRED_SERVER_NAME extends NodeError {
constructor() {
super(
"ERR_TLS_REQUIRED_SERVER_NAME",
`"servername" is required parameter for Server.addContext`,
);
}
}
export class ERR_TLS_SESSION_ATTACK extends NodeError {
constructor() {
super(
"ERR_TLS_SESSION_ATTACK",
`TLS session renegotiation attack detected`,
);
}
}
export class ERR_TLS_SNI_FROM_SERVER extends NodeError {
constructor() {
super(
"ERR_TLS_SNI_FROM_SERVER",
`Cannot issue SNI from a TLS server-side socket`,
);
}
}
export class ERR_TRACE_EVENTS_CATEGORY_REQUIRED extends NodeTypeError {
constructor() {
super(
"ERR_TRACE_EVENTS_CATEGORY_REQUIRED",
`At least one category is required`,
);
}
}
export class ERR_TRACE_EVENTS_UNAVAILABLE extends NodeError {
constructor() {
super("ERR_TRACE_EVENTS_UNAVAILABLE", `Trace events are unavailable`);
}
}
export class ERR_UNAVAILABLE_DURING_EXIT extends NodeError {
constructor() {
super(
"ERR_UNAVAILABLE_DURING_EXIT",
`Cannot call function in process exit handler`,
);
}
}
export class ERR_UNCAUGHT_EXCEPTION_CAPTURE_ALREADY_SET extends NodeError {
constructor() {
super(
"ERR_UNCAUGHT_EXCEPTION_CAPTURE_ALREADY_SET",
"`process.setupUncaughtExceptionCapture()` was called while a capture callback was already active",
);
}
}
export class ERR_UNESCAPED_CHARACTERS extends NodeTypeError {
constructor(x: string) {
super("ERR_UNESCAPED_CHARACTERS", `${x} contains unescaped characters`);
}
}
export class ERR_UNHANDLED_ERROR extends NodeError {
constructor(x: string) {
super("ERR_UNHANDLED_ERROR", `Unhandled error. (${x})`);
}
}
export class ERR_UNKNOWN_BUILTIN_MODULE extends NodeError {
constructor(x: string) {
super("ERR_UNKNOWN_BUILTIN_MODULE", `No such built-in module: ${x}`);
}
}
export class ERR_UNKNOWN_CREDENTIAL extends NodeError {
constructor(x: string, y: string) {
super("ERR_UNKNOWN_CREDENTIAL", `${x} identifier does not exist: ${y}`);
}
}
export class ERR_UNKNOWN_ENCODING extends NodeTypeError {
constructor(x: string) {
super("ERR_UNKNOWN_ENCODING", `Unknown encoding: ${x}`);
}
}
export class ERR_UNKNOWN_FILE_EXTENSION extends NodeTypeError {
constructor(x: string, y: string) {
super(
"ERR_UNKNOWN_FILE_EXTENSION",
`Unknown file extension "${x}" for ${y}`,
);
}
}
export class ERR_UNKNOWN_MODULE_FORMAT extends NodeRangeError {
constructor(x: string) {
super("ERR_UNKNOWN_MODULE_FORMAT", `Unknown module format: ${x}`);
}
}
export class ERR_UNKNOWN_SIGNAL extends NodeTypeError {
constructor(x: string) {
super("ERR_UNKNOWN_SIGNAL", `Unknown signal: ${x}`);
}
}
export class ERR_UNSUPPORTED_DIR_IMPORT extends NodeError {
constructor(x: string, y: string) {
super(
"ERR_UNSUPPORTED_DIR_IMPORT",
`Directory import '${x}' is not supported resolving ES modules, imported from ${y}`,
);
}
}
export class ERR_UNSUPPORTED_ESM_URL_SCHEME extends NodeError {
constructor() {
super(
"ERR_UNSUPPORTED_ESM_URL_SCHEME",
`Only file and data URLs are supported by the default ESM loader`,
);
}
}
export class ERR_USE_AFTER_CLOSE extends NodeError {
constructor(x: string) {
super(
"ERR_USE_AFTER_CLOSE",
`${x} was closed`,
);
}
}
export class ERR_V8BREAKITERATOR extends NodeError {
constructor() {
super(
"ERR_V8BREAKITERATOR",
`Full ICU data not installed. See https://github.com/nodejs/node/wiki/Intl`,
);
}
}
export class ERR_VALID_PERFORMANCE_ENTRY_TYPE extends NodeError {
constructor() {
super(
"ERR_VALID_PERFORMANCE_ENTRY_TYPE",
`At least one valid performance entry type is required`,
);
}
}
export class ERR_VM_DYNAMIC_IMPORT_CALLBACK_MISSING extends NodeTypeError {
constructor() {
super(
"ERR_VM_DYNAMIC_IMPORT_CALLBACK_MISSING",
`A dynamic import callback was not specified.`,
);
}
}
export class ERR_VM_MODULE_ALREADY_LINKED extends NodeError {
constructor() {
super("ERR_VM_MODULE_ALREADY_LINKED", `Module has already been linked`);
}
}
export class ERR_VM_MODULE_CANNOT_CREATE_CACHED_DATA extends NodeError {
constructor() {
super(
"ERR_VM_MODULE_CANNOT_CREATE_CACHED_DATA",
`Cached data cannot be created for a module which has been evaluated`,
);
}
}
export class ERR_VM_MODULE_DIFFERENT_CONTEXT extends NodeError {
constructor() {
super(
"ERR_VM_MODULE_DIFFERENT_CONTEXT",
`Linked modules must use the same context`,
);
}
}
export class ERR_VM_MODULE_LINKING_ERRORED extends NodeError {
constructor() {
super(
"ERR_VM_MODULE_LINKING_ERRORED",
`Linking has already failed for the provided module`,
);
}
}
export class ERR_VM_MODULE_NOT_MODULE extends NodeError {
constructor() {
super(
"ERR_VM_MODULE_NOT_MODULE",
`Provided module is not an instance of Module`,
);
}
}
export class ERR_VM_MODULE_STATUS extends NodeError {
constructor(x: string) {
super("ERR_VM_MODULE_STATUS", `Module status ${x}`);
}
}
export class ERR_WASI_ALREADY_STARTED extends NodeError {
constructor() {
super("ERR_WASI_ALREADY_STARTED", `WASI instance has already started`);
}
}
export class ERR_WORKER_INIT_FAILED extends NodeError {
constructor(x: string) {
super("ERR_WORKER_INIT_FAILED", `Worker initialization failure: ${x}`);
}
}
export class ERR_WORKER_NOT_RUNNING extends NodeError {
constructor() {
super("ERR_WORKER_NOT_RUNNING", `Worker instance not running`);
}
}
export class ERR_WORKER_OUT_OF_MEMORY extends NodeError {
constructor(x: string) {
super(
"ERR_WORKER_OUT_OF_MEMORY",
`Worker terminated due to reaching memory limit: ${x}`,
);
}
}
export class ERR_WORKER_UNSERIALIZABLE_ERROR extends NodeError {
constructor() {
super(
"ERR_WORKER_UNSERIALIZABLE_ERROR",
`Serializing an uncaught exception failed`,
);
}
}
export class ERR_WORKER_UNSUPPORTED_EXTENSION extends NodeTypeError {
constructor(x: string) {
super(
"ERR_WORKER_UNSUPPORTED_EXTENSION",
`The worker script extension must be ".js", ".mjs", or ".cjs". Received "${x}"`,
);
}
}
export class ERR_WORKER_UNSUPPORTED_OPERATION extends NodeTypeError {
constructor(x: string) {
super(
"ERR_WORKER_UNSUPPORTED_OPERATION",
`${x} is not supported in workers`,
);
}
}
export class ERR_ZLIB_INITIALIZATION_FAILED extends NodeError {
constructor() {
super("ERR_ZLIB_INITIALIZATION_FAILED", `Initialization failed`);
}
}
export class ERR_FALSY_VALUE_REJECTION extends NodeError {
reason: string;
constructor(reason: string) {
super("ERR_FALSY_VALUE_REJECTION", "Promise was rejected with falsy value");
this.reason = reason;
}
}
export class ERR_HTTP2_INVALID_SETTING_VALUE extends NodeRangeError {
actual: unknown;
min?: number;
max?: number;
constructor(name: string, actual: unknown, min?: number, max?: number) {
super(
"ERR_HTTP2_INVALID_SETTING_VALUE",
`Invalid value for setting "${name}": ${actual}`,
);
this.actual = actual;
if (min !== undefined) {
this.min = min;
this.max = max;
}
}
}
export class ERR_HTTP2_STREAM_CANCEL extends NodeError {
override cause?: Error;
constructor(error: Error) {
super(
"ERR_HTTP2_STREAM_CANCEL",
typeof error.message === "string"
? `The pending stream has been canceled (caused by: ${error.message})`
: "The pending stream has been canceled",
);
if (error) {
this.cause = error;
}
}
}
export class ERR_INVALID_ADDRESS_FAMILY extends NodeRangeError {
host: string;
port: number;
constructor(addressType: string, host: string, port: number) {
super(
"ERR_INVALID_ADDRESS_FAMILY",
`Invalid address family: ${addressType} ${host}:${port}`,
);
this.host = host;
this.port = port;
}
}
export class ERR_INVALID_CHAR extends NodeTypeError {
constructor(name: string, field?: string) {
super(
"ERR_INVALID_CHAR",
field
? `Invalid character in ${name}`
: `Invalid character in ${name} ["${field}"]`,
);
}
}
export class ERR_INVALID_OPT_VALUE extends NodeTypeError {
constructor(name: string, value: unknown) {
super(
"ERR_INVALID_OPT_VALUE",
`The value "${value}" is invalid for option "${name}"`,
);
}
}
export class ERR_INVALID_RETURN_PROPERTY extends NodeTypeError {
constructor(input: string, name: string, prop: string, value: string) {
super(
"ERR_INVALID_RETURN_PROPERTY",
`Expected a valid ${input} to be returned for the "${prop}" from the "${name}" function but got ${value}.`,
);
}
}
// deno-lint-ignore no-explicit-any
function buildReturnPropertyType(value: any) {
if (value && value.constructor && value.constructor.name) {
return `instance of ${value.constructor.name}`;
} else {
return `type ${typeof value}`;
}
}
export class ERR_INVALID_RETURN_PROPERTY_VALUE extends NodeTypeError {
constructor(input: string, name: string, prop: string, value: unknown) {
super(
"ERR_INVALID_RETURN_PROPERTY_VALUE",
`Expected ${input} to be returned for the "${prop}" from the "${name}" function but got ${
buildReturnPropertyType(
value,
)
}.`,
);
}
}
export class ERR_INVALID_RETURN_VALUE extends NodeTypeError {
constructor(input: string, name: string, value: unknown) {
super(
"ERR_INVALID_RETURN_VALUE",
`Expected ${input} to be returned from the "${name}" function but got ${
determineSpecificType(
value,
)
}.`,
);
}
}
export class ERR_INVALID_URL extends NodeTypeError {
input: string;
constructor(input: string) {
super("ERR_INVALID_URL", `Invalid URL: ${input}`);
this.input = input;
}
}
export class ERR_INVALID_URL_SCHEME extends NodeTypeError {
constructor(expected: string | [string] | [string, string]) {
expected = Array.isArray(expected) ? expected : [expected];
const res = expected.length === 2
? `one of scheme ${expected[0]} or ${expected[1]}`
: `of scheme ${expected[0]}`;
super("ERR_INVALID_URL_SCHEME", `The URL must be ${res}`);
}
}
export class ERR_MODULE_NOT_FOUND extends NodeError {
constructor(path: string, base: string, type: string = "package") {
super(
"ERR_MODULE_NOT_FOUND",
`Cannot find ${type} '${path}' imported from ${base}`,
);
}
}
export class ERR_INVALID_PACKAGE_CONFIG extends NodeError {
constructor(path: string, base?: string, message?: string) {
const msg = `Invalid package config ${path}${
base ? ` while importing ${base}` : ""
}${message ? `. ${message}` : ""}`;
super("ERR_INVALID_PACKAGE_CONFIG", msg);
}
}
export class ERR_INVALID_MODULE_SPECIFIER extends NodeTypeError {
constructor(request: string, reason: string, base?: string) {
super(
"ERR_INVALID_MODULE_SPECIFIER",
`Invalid module "${request}" ${reason}${
base ? ` imported from ${base}` : ""
}`,
);
}
}
export class ERR_INVALID_PACKAGE_TARGET extends NodeError {
constructor(
pkgPath: string,
key: string,
// deno-lint-ignore no-explicit-any
target: any,
isImport?: boolean,
base?: string,
) {
let msg: string;
const relError = typeof target === "string" &&
!isImport &&
target.length &&
!target.startsWith("./");
if (key === ".") {
assert(isImport === false);
msg = `Invalid "exports" main target ${JSON.stringify(target)} defined ` +
`in the package config ${pkgPath}package.json${
base ? ` imported from ${base}` : ""
}${relError ? '; targets must start with "./"' : ""}`;
} else {
msg = `Invalid "${isImport ? "imports" : "exports"}" target ${
JSON.stringify(
target,
)
} defined for '${key}' in the package config ${pkgPath}package.json${
base ? ` imported from ${base}` : ""
}${relError ? '; targets must start with "./"' : ""}`;
}
super("ERR_INVALID_PACKAGE_TARGET", msg);
}
}
export class ERR_PACKAGE_IMPORT_NOT_DEFINED extends NodeTypeError {
constructor(
specifier: string,
packagePath: string | undefined,
base: string,
) {
const msg = `Package import specifier "${specifier}" is not defined${
packagePath ? ` in package ${packagePath}package.json` : ""
} imported from ${base}`;
super("ERR_PACKAGE_IMPORT_NOT_DEFINED", msg);
}
}
export class ERR_PACKAGE_PATH_NOT_EXPORTED extends NodeError {
constructor(subpath: string, pkgPath: string, basePath?: string) {
let msg: string;
if (subpath === ".") {
msg = `No "exports" main defined in ${pkgPath}package.json${
basePath ? ` imported from ${basePath}` : ""
}`;
} else {
msg =
`Package subpath '${subpath}' is not defined by "exports" in ${pkgPath}package.json${
basePath ? ` imported from ${basePath}` : ""
}`;
}
super("ERR_PACKAGE_PATH_NOT_EXPORTED", msg);
}
}
export class ERR_INTERNAL_ASSERTION extends NodeError {
constructor(message?: string) {
const suffix = "This is caused by either a bug in Node.js " +
"or incorrect usage of Node.js internals.\n" +
"Please open an issue with this stack trace at " +
"https://github.com/nodejs/node/issues\n";
super(
"ERR_INTERNAL_ASSERTION",
message === undefined ? suffix : `${message}\n${suffix}`,
);
}
}
// Using `fs.rmdir` on a path that is a file results in an ENOENT error on Windows and an ENOTDIR error on POSIX.
export class ERR_FS_RMDIR_ENOTDIR extends NodeSystemError {
constructor(path: string) {
const code = isWindows ? "ENOENT" : "ENOTDIR";
const ctx: NodeSystemErrorCtx = {
message: "not a directory",
path,
syscall: "rmdir",
code,
errno: isWindows ? osConstants.errno.ENOENT : osConstants.errno.ENOTDIR,
};
super(code, ctx, "Path is not a directory");
}
}
interface UvExceptionContext {
syscall: string;
path?: string;
}
export function denoErrorToNodeError(e: Error, ctx: UvExceptionContext) {
const errno = extractOsErrorNumberFromErrorMessage(e);
if (typeof errno === "undefined") {
return e;
}
const ex = uvException({
errno: mapSysErrnoToUvErrno(errno),
...ctx,
});
return ex;
}
function extractOsErrorNumberFromErrorMessage(e: unknown): number | undefined {
const match = e instanceof Error
? e.message.match(/\(os error (\d+)\)/)
: false;
if (match) {
return +match[1];
}
return undefined;
}
export function connResetException(msg: string) {
const ex = new Error(msg);
// deno-lint-ignore no-explicit-any
(ex as any).code = "ECONNRESET";
return ex;
}
export function aggregateTwoErrors(
innerError: AggregateError,
outerError: AggregateError & { code: string },
) {
if (innerError && outerError && innerError !== outerError) {
if (Array.isArray(outerError.errors)) {
// If `outerError` is already an `AggregateError`.
outerError.errors.push(innerError);
return outerError;
}
// eslint-disable-next-line no-restricted-syntax
const err = new AggregateError(
[
outerError,
innerError,
],
outerError.message,
);
// deno-lint-ignore no-explicit-any
(err as any).code = outerError.code;
return err;
}
return innerError || outerError;
}
codes.ERR_IPC_CHANNEL_CLOSED = ERR_IPC_CHANNEL_CLOSED;
codes.ERR_INVALID_ARG_TYPE = ERR_INVALID_ARG_TYPE;
codes.ERR_INVALID_ARG_VALUE = ERR_INVALID_ARG_VALUE;
codes.ERR_OUT_OF_RANGE = ERR_OUT_OF_RANGE;
codes.ERR_SOCKET_BAD_PORT = ERR_SOCKET_BAD_PORT;
codes.ERR_BUFFER_OUT_OF_BOUNDS = ERR_BUFFER_OUT_OF_BOUNDS;
codes.ERR_UNKNOWN_ENCODING = ERR_UNKNOWN_ENCODING;
// TODO(kt3k): assign all error classes here.
/**
* This creates a generic Node.js error.
*
* @param message The error message.
* @param errorProperties Object with additional properties to be added to the error.
* @returns
*/
const genericNodeError = hideStackFrames(
function genericNodeError(message, errorProperties) {
// eslint-disable-next-line no-restricted-syntax
const err = new Error(message);
Object.assign(err, errorProperties);
return err;
},
);
/**
* Determine the specific type of a value for type-mismatch errors.
* @param {*} value
* @returns {string}
*/
// deno-lint-ignore no-explicit-any
function determineSpecificType(value: any) {
if (value == null) {
return "" + value;
}
if (typeof value === "function" && value.name) {
return `function ${value.name}`;
}
if (typeof value === "object") {
if (value.constructor?.name) {
return `an instance of ${value.constructor.name}`;
}
return `${inspect(value, { depth: -1 })}`;
}
let inspected = inspect(value, { colors: false });
if (inspected.length > 28) inspected = `${inspected.slice(0, 25)}...`;
return `type ${typeof value} (${inspected})`;
}
export { codes, genericNodeError, hideStackFrames };
export default {
AbortError,
ERR_AMBIGUOUS_ARGUMENT,
ERR_ARG_NOT_ITERABLE,
ERR_ASSERTION,
ERR_ASYNC_CALLBACK,
ERR_ASYNC_TYPE,
ERR_BROTLI_INVALID_PARAM,
ERR_BUFFER_OUT_OF_BOUNDS,
ERR_BUFFER_TOO_LARGE,
ERR_CANNOT_WATCH_SIGINT,
ERR_CHILD_CLOSED_BEFORE_REPLY,
ERR_CHILD_PROCESS_IPC_REQUIRED,
ERR_CHILD_PROCESS_STDIO_MAXBUFFER,
ERR_CONSOLE_WRITABLE_STREAM,
ERR_CONTEXT_NOT_INITIALIZED,
ERR_CPU_USAGE,
ERR_CRYPTO_CUSTOM_ENGINE_NOT_SUPPORTED,
ERR_CRYPTO_ECDH_INVALID_FORMAT,
ERR_CRYPTO_ECDH_INVALID_PUBLIC_KEY,
ERR_CRYPTO_ENGINE_UNKNOWN,
ERR_CRYPTO_FIPS_FORCED,
ERR_CRYPTO_FIPS_UNAVAILABLE,
ERR_CRYPTO_HASH_FINALIZED,
ERR_CRYPTO_HASH_UPDATE_FAILED,
ERR_CRYPTO_INCOMPATIBLE_KEY,
ERR_CRYPTO_INCOMPATIBLE_KEY_OPTIONS,
ERR_CRYPTO_INVALID_DIGEST,
ERR_CRYPTO_INVALID_KEY_OBJECT_TYPE,
ERR_CRYPTO_INVALID_STATE,
ERR_CRYPTO_PBKDF2_ERROR,
ERR_CRYPTO_SCRYPT_INVALID_PARAMETER,
ERR_CRYPTO_SCRYPT_NOT_SUPPORTED,
ERR_CRYPTO_SIGN_KEY_REQUIRED,
ERR_DIR_CLOSED,
ERR_DIR_CONCURRENT_OPERATION,
ERR_DNS_SET_SERVERS_FAILED,
ERR_DOMAIN_CALLBACK_NOT_AVAILABLE,
ERR_DOMAIN_CANNOT_SET_UNCAUGHT_EXCEPTION_CAPTURE,
ERR_ENCODING_INVALID_ENCODED_DATA,
ERR_ENCODING_NOT_SUPPORTED,
ERR_EVAL_ESM_CANNOT_PRINT,
ERR_EVENT_RECURSION,
ERR_FALSY_VALUE_REJECTION,
ERR_FEATURE_UNAVAILABLE_ON_PLATFORM,
ERR_FS_EISDIR,
ERR_FS_FILE_TOO_LARGE,
ERR_FS_INVALID_SYMLINK_TYPE,
ERR_FS_RMDIR_ENOTDIR,
ERR_HTTP2_ALTSVC_INVALID_ORIGIN,
ERR_HTTP2_ALTSVC_LENGTH,
ERR_HTTP2_CONNECT_AUTHORITY,
ERR_HTTP2_CONNECT_PATH,
ERR_HTTP2_CONNECT_SCHEME,
ERR_HTTP2_GOAWAY_SESSION,
ERR_HTTP2_HEADERS_AFTER_RESPOND,
ERR_HTTP2_HEADERS_SENT,
ERR_HTTP2_HEADER_SINGLE_VALUE,
ERR_HTTP2_INFO_STATUS_NOT_ALLOWED,
ERR_HTTP2_INVALID_CONNECTION_HEADERS,
ERR_HTTP2_INVALID_HEADER_VALUE,
ERR_HTTP2_INVALID_INFO_STATUS,
ERR_HTTP2_INVALID_ORIGIN,
ERR_HTTP2_INVALID_PACKED_SETTINGS_LENGTH,
ERR_HTTP2_INVALID_PSEUDOHEADER,
ERR_HTTP2_INVALID_SESSION,
ERR_HTTP2_INVALID_SETTING_VALUE,
ERR_HTTP2_INVALID_STREAM,
ERR_HTTP2_MAX_PENDING_SETTINGS_ACK,
ERR_HTTP2_NESTED_PUSH,
ERR_HTTP2_NO_SOCKET_MANIPULATION,
ERR_HTTP2_ORIGIN_LENGTH,
ERR_HTTP2_OUT_OF_STREAMS,
ERR_HTTP2_PAYLOAD_FORBIDDEN,
ERR_HTTP2_PING_CANCEL,
ERR_HTTP2_PING_LENGTH,
ERR_HTTP2_PSEUDOHEADER_NOT_ALLOWED,
ERR_HTTP2_PUSH_DISABLED,
ERR_HTTP2_SEND_FILE,
ERR_HTTP2_SEND_FILE_NOSEEK,
ERR_HTTP2_SESSION_ERROR,
ERR_HTTP2_SETTINGS_CANCEL,
ERR_HTTP2_SOCKET_BOUND,
ERR_HTTP2_SOCKET_UNBOUND,
ERR_HTTP2_STATUS_101,
ERR_HTTP2_STATUS_INVALID,
ERR_HTTP2_STREAM_CANCEL,
ERR_HTTP2_STREAM_ERROR,
ERR_HTTP2_STREAM_SELF_DEPENDENCY,
ERR_HTTP2_TRAILERS_ALREADY_SENT,
ERR_HTTP2_TRAILERS_NOT_READY,
ERR_HTTP2_UNSUPPORTED_PROTOCOL,
ERR_HTTP_HEADERS_SENT,
ERR_HTTP_INVALID_HEADER_VALUE,
ERR_HTTP_INVALID_STATUS_CODE,
ERR_HTTP_SOCKET_ENCODING,
ERR_HTTP_TRAILER_INVALID,
ERR_INCOMPATIBLE_OPTION_PAIR,
ERR_INPUT_TYPE_NOT_ALLOWED,
ERR_INSPECTOR_ALREADY_ACTIVATED,
ERR_INSPECTOR_ALREADY_CONNECTED,
ERR_INSPECTOR_CLOSED,
ERR_INSPECTOR_COMMAND,
ERR_INSPECTOR_NOT_ACTIVE,
ERR_INSPECTOR_NOT_AVAILABLE,
ERR_INSPECTOR_NOT_CONNECTED,
ERR_INSPECTOR_NOT_WORKER,
ERR_INTERNAL_ASSERTION,
ERR_INVALID_ADDRESS_FAMILY,
ERR_INVALID_ARG_TYPE,
ERR_INVALID_ARG_TYPE_RANGE,
ERR_INVALID_ARG_VALUE,
ERR_INVALID_ARG_VALUE_RANGE,
ERR_INVALID_ASYNC_ID,
ERR_INVALID_BUFFER_SIZE,
ERR_INVALID_CHAR,
ERR_INVALID_CURSOR_POS,
ERR_INVALID_FD,
ERR_INVALID_FD_TYPE,
ERR_INVALID_FILE_URL_HOST,
ERR_INVALID_FILE_URL_PATH,
ERR_INVALID_HANDLE_TYPE,
ERR_INVALID_HTTP_TOKEN,
ERR_INVALID_IP_ADDRESS,
ERR_INVALID_MODULE_SPECIFIER,
ERR_INVALID_OPT_VALUE,
ERR_INVALID_OPT_VALUE_ENCODING,
ERR_INVALID_PACKAGE_CONFIG,
ERR_INVALID_PACKAGE_TARGET,
ERR_INVALID_PERFORMANCE_MARK,
ERR_INVALID_PROTOCOL,
ERR_INVALID_REPL_EVAL_CONFIG,
ERR_INVALID_REPL_INPUT,
ERR_INVALID_RETURN_PROPERTY,
ERR_INVALID_RETURN_PROPERTY_VALUE,
ERR_INVALID_RETURN_VALUE,
ERR_INVALID_SYNC_FORK_INPUT,
ERR_INVALID_THIS,
ERR_INVALID_TUPLE,
ERR_INVALID_URI,
ERR_INVALID_URL,
ERR_INVALID_URL_SCHEME,
ERR_IPC_CHANNEL_CLOSED,
ERR_IPC_DISCONNECTED,
ERR_IPC_ONE_PIPE,
ERR_IPC_SYNC_FORK,
ERR_MANIFEST_DEPENDENCY_MISSING,
ERR_MANIFEST_INTEGRITY_MISMATCH,
ERR_MANIFEST_INVALID_RESOURCE_FIELD,
ERR_MANIFEST_TDZ,
ERR_MANIFEST_UNKNOWN_ONERROR,
ERR_METHOD_NOT_IMPLEMENTED,
ERR_MISSING_ARGS,
ERR_MISSING_OPTION,
ERR_MODULE_NOT_FOUND,
ERR_MULTIPLE_CALLBACK,
ERR_NAPI_CONS_FUNCTION,
ERR_NAPI_INVALID_DATAVIEW_ARGS,
ERR_NAPI_INVALID_TYPEDARRAY_ALIGNMENT,
ERR_NAPI_INVALID_TYPEDARRAY_LENGTH,
ERR_NO_CRYPTO,
ERR_NO_ICU,
ERR_OUT_OF_RANGE,
ERR_PACKAGE_IMPORT_NOT_DEFINED,
ERR_PACKAGE_PATH_NOT_EXPORTED,
ERR_QUICCLIENTSESSION_FAILED,
ERR_QUICCLIENTSESSION_FAILED_SETSOCKET,
ERR_QUICSESSION_DESTROYED,
ERR_QUICSESSION_INVALID_DCID,
ERR_QUICSESSION_UPDATEKEY,
ERR_QUICSOCKET_DESTROYED,
ERR_QUICSOCKET_INVALID_STATELESS_RESET_SECRET_LENGTH,
ERR_QUICSOCKET_LISTENING,
ERR_QUICSOCKET_UNBOUND,
ERR_QUICSTREAM_DESTROYED,
ERR_QUICSTREAM_INVALID_PUSH,
ERR_QUICSTREAM_OPEN_FAILED,
ERR_QUICSTREAM_UNSUPPORTED_PUSH,
ERR_QUIC_TLS13_REQUIRED,
ERR_SCRIPT_EXECUTION_INTERRUPTED,
ERR_SERVER_ALREADY_LISTEN,
ERR_SERVER_NOT_RUNNING,
ERR_SOCKET_ALREADY_BOUND,
ERR_SOCKET_BAD_BUFFER_SIZE,
ERR_SOCKET_BAD_PORT,
ERR_SOCKET_BAD_TYPE,
ERR_SOCKET_BUFFER_SIZE,
ERR_SOCKET_CLOSED,
ERR_SOCKET_DGRAM_IS_CONNECTED,
ERR_SOCKET_DGRAM_NOT_CONNECTED,
ERR_SOCKET_DGRAM_NOT_RUNNING,
ERR_SRI_PARSE,
ERR_STREAM_ALREADY_FINISHED,
ERR_STREAM_CANNOT_PIPE,
ERR_STREAM_DESTROYED,
ERR_STREAM_NULL_VALUES,
ERR_STREAM_PREMATURE_CLOSE,
ERR_STREAM_PUSH_AFTER_EOF,
ERR_STREAM_UNSHIFT_AFTER_END_EVENT,
ERR_STREAM_WRAP,
ERR_STREAM_WRITE_AFTER_END,
ERR_SYNTHETIC,
ERR_TLS_CERT_ALTNAME_INVALID,
ERR_TLS_DH_PARAM_SIZE,
ERR_TLS_HANDSHAKE_TIMEOUT,
ERR_TLS_INVALID_CONTEXT,
ERR_TLS_INVALID_PROTOCOL_VERSION,
ERR_TLS_INVALID_STATE,
ERR_TLS_PROTOCOL_VERSION_CONFLICT,
ERR_TLS_RENEGOTIATION_DISABLED,
ERR_TLS_REQUIRED_SERVER_NAME,
ERR_TLS_SESSION_ATTACK,
ERR_TLS_SNI_FROM_SERVER,
ERR_TRACE_EVENTS_CATEGORY_REQUIRED,
ERR_TRACE_EVENTS_UNAVAILABLE,
ERR_UNAVAILABLE_DURING_EXIT,
ERR_UNCAUGHT_EXCEPTION_CAPTURE_ALREADY_SET,
ERR_UNESCAPED_CHARACTERS,
ERR_UNHANDLED_ERROR,
ERR_UNKNOWN_BUILTIN_MODULE,
ERR_UNKNOWN_CREDENTIAL,
ERR_UNKNOWN_ENCODING,
ERR_UNKNOWN_FILE_EXTENSION,
ERR_UNKNOWN_MODULE_FORMAT,
ERR_UNKNOWN_SIGNAL,
ERR_UNSUPPORTED_DIR_IMPORT,
ERR_UNSUPPORTED_ESM_URL_SCHEME,
ERR_USE_AFTER_CLOSE,
ERR_V8BREAKITERATOR,
ERR_VALID_PERFORMANCE_ENTRY_TYPE,
ERR_VM_DYNAMIC_IMPORT_CALLBACK_MISSING,
ERR_VM_MODULE_ALREADY_LINKED,
ERR_VM_MODULE_CANNOT_CREATE_CACHED_DATA,
ERR_VM_MODULE_DIFFERENT_CONTEXT,
ERR_VM_MODULE_LINKING_ERRORED,
ERR_VM_MODULE_NOT_MODULE,
ERR_VM_MODULE_STATUS,
ERR_WASI_ALREADY_STARTED,
ERR_WORKER_INIT_FAILED,
ERR_WORKER_NOT_RUNNING,
ERR_WORKER_OUT_OF_MEMORY,
ERR_WORKER_UNSERIALIZABLE_ERROR,
ERR_WORKER_UNSUPPORTED_EXTENSION,
ERR_WORKER_UNSUPPORTED_OPERATION,
ERR_ZLIB_INITIALIZATION_FAILED,
NodeError,
NodeErrorAbstraction,
NodeRangeError,
NodeSyntaxError,
NodeTypeError,
NodeURIError,
aggregateTwoErrors,
codes,
connResetException,
denoErrorToNodeError,
dnsException,
errnoException,
errorMap,
exceptionWithHostPort,
genericNodeError,
hideStackFrames,
isStackOverflowError,
uvException,
uvExceptionWithHostPort,
};