@etherspot/remote-signer
Version:
Etherspot Permissioned Signer SDK - signs the UserOp with SessionKey and sends it to the Bundler
1,318 lines (1,285 loc) • 39.4 kB
JavaScript
var __defProp = Object.defineProperty;
var __getOwnPropDesc = Object.getOwnPropertyDescriptor;
var __getOwnPropNames = Object.getOwnPropertyNames;
var __hasOwnProp = Object.prototype.hasOwnProperty;
var __esm = (fn, res) => function __init() {
return fn && (res = (0, fn[__getOwnPropNames(fn)[0]])(fn = 0)), res;
};
var __export = (target, all) => {
for (var name in all)
__defProp(target, name, { get: all[name], enumerable: true });
};
var __copyProps = (to, from, except, desc) => {
if (from && typeof from === "object" || typeof from === "function") {
for (let key of __getOwnPropNames(from))
if (!__hasOwnProp.call(to, key) && key !== except)
__defProp(to, key, { get: () => from[key], enumerable: !(desc = __getOwnPropDesc(from, key)) || desc.enumerable });
}
return to;
};
var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod);
// node_modules/viem/_esm/utils/data/isHex.js
function isHex(value, { strict = true } = {}) {
if (!value)
return false;
if (typeof value !== "string")
return false;
return strict ? /^0x[0-9a-fA-F]*$/.test(value) : value.startsWith("0x");
}
var init_isHex = __esm({
"node_modules/viem/_esm/utils/data/isHex.js"() {
}
});
// node_modules/viem/_esm/utils/data/size.js
function size(value) {
if (isHex(value, { strict: false }))
return Math.ceil((value.length - 2) / 2);
return value.length;
}
var init_size = __esm({
"node_modules/viem/_esm/utils/data/size.js"() {
init_isHex();
}
});
// node_modules/viem/_esm/errors/version.js
var version;
var init_version = __esm({
"node_modules/viem/_esm/errors/version.js"() {
version = "2.16.3";
}
});
// node_modules/viem/_esm/errors/utils.js
var getVersion;
var init_utils = __esm({
"node_modules/viem/_esm/errors/utils.js"() {
init_version();
getVersion = () => `viem@${version}`;
}
});
// node_modules/viem/_esm/errors/base.js
function walk(err, fn) {
if (fn?.(err))
return err;
if (err && typeof err === "object" && "cause" in err)
return walk(err.cause, fn);
return fn ? null : err;
}
var BaseError;
var init_base = __esm({
"node_modules/viem/_esm/errors/base.js"() {
init_utils();
BaseError = class _BaseError extends Error {
constructor(shortMessage, args = {}) {
super();
Object.defineProperty(this, "details", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
Object.defineProperty(this, "docsPath", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
Object.defineProperty(this, "metaMessages", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
Object.defineProperty(this, "shortMessage", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
Object.defineProperty(this, "name", {
enumerable: true,
configurable: true,
writable: true,
value: "ViemError"
});
Object.defineProperty(this, "version", {
enumerable: true,
configurable: true,
writable: true,
value: getVersion()
});
const details = args.cause instanceof _BaseError ? args.cause.details : args.cause?.message ? args.cause.message : args.details;
const docsPath = args.cause instanceof _BaseError ? args.cause.docsPath || args.docsPath : args.docsPath;
this.message = [
shortMessage || "An error occurred.",
"",
...args.metaMessages ? [...args.metaMessages, ""] : [],
...docsPath ? [
`Docs: ${args.docsBaseUrl ?? "https://viem.sh"}${docsPath}${args.docsSlug ? `#${args.docsSlug}` : ""}`
] : [],
...details ? [`Details: ${details}`] : [],
`Version: ${this.version}`
].join("\n");
if (args.cause)
this.cause = args.cause;
this.details = details;
this.docsPath = docsPath;
this.metaMessages = args.metaMessages;
this.shortMessage = shortMessage;
}
walk(fn) {
return walk(this, fn);
}
};
}
});
// node_modules/viem/_esm/errors/abi.js
var AbiEncodingLengthMismatchError, BytesSizeMismatchError, UnsupportedPackedAbiType;
var init_abi = __esm({
"node_modules/viem/_esm/errors/abi.js"() {
init_base();
AbiEncodingLengthMismatchError = class extends BaseError {
constructor({ expectedLength, givenLength }) {
super([
"ABI encoding params/values length mismatch.",
`Expected length (params): ${expectedLength}`,
`Given length (values): ${givenLength}`
].join("\n"));
Object.defineProperty(this, "name", {
enumerable: true,
configurable: true,
writable: true,
value: "AbiEncodingLengthMismatchError"
});
}
};
BytesSizeMismatchError = class extends BaseError {
constructor({ expectedSize, givenSize }) {
super(`Expected bytes${expectedSize}, got bytes${givenSize}.`);
Object.defineProperty(this, "name", {
enumerable: true,
configurable: true,
writable: true,
value: "BytesSizeMismatchError"
});
}
};
UnsupportedPackedAbiType = class extends BaseError {
constructor(type) {
super(`Type "${type}" is not supported for packed encoding.`);
Object.defineProperty(this, "name", {
enumerable: true,
configurable: true,
writable: true,
value: "UnsupportedPackedAbiType"
});
}
};
}
});
// node_modules/viem/_esm/errors/data.js
var SizeExceedsPaddingSizeError;
var init_data = __esm({
"node_modules/viem/_esm/errors/data.js"() {
init_base();
SizeExceedsPaddingSizeError = class extends BaseError {
constructor({ size: size2, targetSize, type }) {
super(`${type.charAt(0).toUpperCase()}${type.slice(1).toLowerCase()} size (${size2}) exceeds padding size (${targetSize}).`);
Object.defineProperty(this, "name", {
enumerable: true,
configurable: true,
writable: true,
value: "SizeExceedsPaddingSizeError"
});
}
};
}
});
// node_modules/viem/_esm/utils/data/pad.js
function pad(hexOrBytes, { dir, size: size2 = 32 } = {}) {
if (typeof hexOrBytes === "string")
return padHex(hexOrBytes, { dir, size: size2 });
return padBytes(hexOrBytes, { dir, size: size2 });
}
function padHex(hex_, { dir, size: size2 = 32 } = {}) {
if (size2 === null)
return hex_;
const hex = hex_.replace("0x", "");
if (hex.length > size2 * 2)
throw new SizeExceedsPaddingSizeError({
size: Math.ceil(hex.length / 2),
targetSize: size2,
type: "hex"
});
return `0x${hex[dir === "right" ? "padEnd" : "padStart"](size2 * 2, "0")}`;
}
function padBytes(bytes2, { dir, size: size2 = 32 } = {}) {
if (size2 === null)
return bytes2;
if (bytes2.length > size2)
throw new SizeExceedsPaddingSizeError({
size: bytes2.length,
targetSize: size2,
type: "bytes"
});
const paddedBytes = new Uint8Array(size2);
for (let i = 0; i < size2; i++) {
const padEnd = dir === "right";
paddedBytes[padEnd ? i : size2 - i - 1] = bytes2[padEnd ? i : bytes2.length - i - 1];
}
return paddedBytes;
}
var init_pad = __esm({
"node_modules/viem/_esm/utils/data/pad.js"() {
init_data();
}
});
// node_modules/viem/_esm/errors/encoding.js
var IntegerOutOfRangeError, SizeOverflowError;
var init_encoding = __esm({
"node_modules/viem/_esm/errors/encoding.js"() {
init_base();
IntegerOutOfRangeError = class extends BaseError {
constructor({ max, min, signed, size: size2, value }) {
super(`Number "${value}" is not in safe ${size2 ? `${size2 * 8}-bit ${signed ? "signed" : "unsigned"} ` : ""}integer range ${max ? `(${min} to ${max})` : `(above ${min})`}`);
Object.defineProperty(this, "name", {
enumerable: true,
configurable: true,
writable: true,
value: "IntegerOutOfRangeError"
});
}
};
SizeOverflowError = class extends BaseError {
constructor({ givenSize, maxSize }) {
super(`Size cannot exceed ${maxSize} bytes. Given size: ${givenSize} bytes.`);
Object.defineProperty(this, "name", {
enumerable: true,
configurable: true,
writable: true,
value: "SizeOverflowError"
});
}
};
}
});
// node_modules/viem/_esm/utils/encoding/fromHex.js
function assertSize(hexOrBytes, { size: size2 }) {
if (size(hexOrBytes) > size2)
throw new SizeOverflowError({
givenSize: size(hexOrBytes),
maxSize: size2
});
}
var init_fromHex = __esm({
"node_modules/viem/_esm/utils/encoding/fromHex.js"() {
init_encoding();
init_size();
}
});
// node_modules/viem/_esm/utils/encoding/toHex.js
function toHex(value, opts = {}) {
if (typeof value === "number" || typeof value === "bigint")
return numberToHex(value, opts);
if (typeof value === "string") {
return stringToHex(value, opts);
}
if (typeof value === "boolean")
return boolToHex(value, opts);
return bytesToHex(value, opts);
}
function boolToHex(value, opts = {}) {
const hex = `0x${Number(value)}`;
if (typeof opts.size === "number") {
assertSize(hex, { size: opts.size });
return pad(hex, { size: opts.size });
}
return hex;
}
function bytesToHex(value, opts = {}) {
let string = "";
for (let i = 0; i < value.length; i++) {
string += hexes[value[i]];
}
const hex = `0x${string}`;
if (typeof opts.size === "number") {
assertSize(hex, { size: opts.size });
return pad(hex, { dir: "right", size: opts.size });
}
return hex;
}
function numberToHex(value_, opts = {}) {
const { signed, size: size2 } = opts;
const value = BigInt(value_);
let maxValue;
if (size2) {
if (signed)
maxValue = (1n << BigInt(size2) * 8n - 1n) - 1n;
else
maxValue = 2n ** (BigInt(size2) * 8n) - 1n;
} else if (typeof value_ === "number") {
maxValue = BigInt(Number.MAX_SAFE_INTEGER);
}
const minValue = typeof maxValue === "bigint" && signed ? -maxValue - 1n : 0;
if (maxValue && value > maxValue || value < minValue) {
const suffix = typeof value_ === "bigint" ? "n" : "";
throw new IntegerOutOfRangeError({
max: maxValue ? `${maxValue}${suffix}` : void 0,
min: `${minValue}${suffix}`,
signed,
size: size2,
value: `${value_}${suffix}`
});
}
const hex = `0x${(signed && value < 0 ? (1n << BigInt(size2 * 8)) + BigInt(value) : value).toString(16)}`;
if (size2)
return pad(hex, { size: size2 });
return hex;
}
function stringToHex(value_, opts = {}) {
const value = encoder.encode(value_);
return bytesToHex(value, opts);
}
var hexes, encoder;
var init_toHex = __esm({
"node_modules/viem/_esm/utils/encoding/toHex.js"() {
init_encoding();
init_pad();
init_fromHex();
hexes = /* @__PURE__ */ Array.from({ length: 256 }, (_v, i) => i.toString(16).padStart(2, "0"));
encoder = /* @__PURE__ */ new TextEncoder();
}
});
// node_modules/viem/_esm/utils/encoding/toBytes.js
function toBytes(value, opts = {}) {
if (typeof value === "number" || typeof value === "bigint")
return numberToBytes(value, opts);
if (typeof value === "boolean")
return boolToBytes(value, opts);
if (isHex(value))
return hexToBytes(value, opts);
return stringToBytes(value, opts);
}
function boolToBytes(value, opts = {}) {
const bytes2 = new Uint8Array(1);
bytes2[0] = Number(value);
if (typeof opts.size === "number") {
assertSize(bytes2, { size: opts.size });
return pad(bytes2, { size: opts.size });
}
return bytes2;
}
function charCodeToBase16(char) {
if (char >= charCodeMap.zero && char <= charCodeMap.nine)
return char - charCodeMap.zero;
if (char >= charCodeMap.A && char <= charCodeMap.F)
return char - (charCodeMap.A - 10);
if (char >= charCodeMap.a && char <= charCodeMap.f)
return char - (charCodeMap.a - 10);
return void 0;
}
function hexToBytes(hex_, opts = {}) {
let hex = hex_;
if (opts.size) {
assertSize(hex, { size: opts.size });
hex = pad(hex, { dir: "right", size: opts.size });
}
let hexString = hex.slice(2);
if (hexString.length % 2)
hexString = `0${hexString}`;
const length = hexString.length / 2;
const bytes2 = new Uint8Array(length);
for (let index = 0, j = 0; index < length; index++) {
const nibbleLeft = charCodeToBase16(hexString.charCodeAt(j++));
const nibbleRight = charCodeToBase16(hexString.charCodeAt(j++));
if (nibbleLeft === void 0 || nibbleRight === void 0) {
throw new BaseError(`Invalid byte sequence ("${hexString[j - 2]}${hexString[j - 1]}" in "${hexString}").`);
}
bytes2[index] = nibbleLeft * 16 + nibbleRight;
}
return bytes2;
}
function numberToBytes(value, opts) {
const hex = numberToHex(value, opts);
return hexToBytes(hex);
}
function stringToBytes(value, opts = {}) {
const bytes2 = encoder2.encode(value);
if (typeof opts.size === "number") {
assertSize(bytes2, { size: opts.size });
return pad(bytes2, { dir: "right", size: opts.size });
}
return bytes2;
}
var encoder2, charCodeMap;
var init_toBytes = __esm({
"node_modules/viem/_esm/utils/encoding/toBytes.js"() {
init_base();
init_isHex();
init_pad();
init_fromHex();
init_toHex();
encoder2 = /* @__PURE__ */ new TextEncoder();
charCodeMap = {
zero: 48,
nine: 57,
A: 65,
F: 70,
a: 97,
f: 102
};
}
});
// node_modules/@noble/hashes/esm/_assert.js
function number(n) {
if (!Number.isSafeInteger(n) || n < 0)
throw new Error(`Wrong positive integer: ${n}`);
}
function bytes(b, ...lengths) {
if (!(b instanceof Uint8Array))
throw new Error("Expected Uint8Array");
if (lengths.length > 0 && !lengths.includes(b.length))
throw new Error(`Expected Uint8Array of length ${lengths}, not of length=${b.length}`);
}
function exists(instance, checkFinished = true) {
if (instance.destroyed)
throw new Error("Hash instance has been destroyed");
if (checkFinished && instance.finished)
throw new Error("Hash#digest() has already been called");
}
function output(out, instance) {
bytes(out);
const min = instance.outputLen;
if (out.length < min) {
throw new Error(`digestInto() expects output buffer of length at least ${min}`);
}
}
var init_assert = __esm({
"node_modules/@noble/hashes/esm/_assert.js"() {
}
});
// node_modules/@noble/hashes/esm/_u64.js
function fromBig(n, le = false) {
if (le)
return { h: Number(n & U32_MASK64), l: Number(n >> _32n & U32_MASK64) };
return { h: Number(n >> _32n & U32_MASK64) | 0, l: Number(n & U32_MASK64) | 0 };
}
function split(lst, le = false) {
let Ah = new Uint32Array(lst.length);
let Al = new Uint32Array(lst.length);
for (let i = 0; i < lst.length; i++) {
const { h, l } = fromBig(lst[i], le);
[Ah[i], Al[i]] = [h, l];
}
return [Ah, Al];
}
var U32_MASK64, _32n, rotlSH, rotlSL, rotlBH, rotlBL;
var init_u64 = __esm({
"node_modules/@noble/hashes/esm/_u64.js"() {
U32_MASK64 = /* @__PURE__ */ BigInt(2 ** 32 - 1);
_32n = /* @__PURE__ */ BigInt(32);
rotlSH = (h, l, s) => h << s | l >>> 32 - s;
rotlSL = (h, l, s) => l << s | h >>> 32 - s;
rotlBH = (h, l, s) => l << s - 32 | h >>> 64 - s;
rotlBL = (h, l, s) => h << s - 32 | l >>> 64 - s;
}
});
// node_modules/@noble/hashes/esm/utils.js
function utf8ToBytes(str) {
if (typeof str !== "string")
throw new Error(`utf8ToBytes expected string, got ${typeof str}`);
return new Uint8Array(new TextEncoder().encode(str));
}
function toBytes2(data) {
if (typeof data === "string")
data = utf8ToBytes(data);
if (!u8a(data))
throw new Error(`expected Uint8Array, got ${typeof data}`);
return data;
}
function wrapConstructor(hashCons) {
const hashC = (msg) => hashCons().update(toBytes2(msg)).digest();
const tmp = hashCons();
hashC.outputLen = tmp.outputLen;
hashC.blockLen = tmp.blockLen;
hashC.create = () => hashCons();
return hashC;
}
function wrapXOFConstructorWithOpts(hashCons) {
const hashC = (msg, opts) => hashCons(opts).update(toBytes2(msg)).digest();
const tmp = hashCons({});
hashC.outputLen = tmp.outputLen;
hashC.blockLen = tmp.blockLen;
hashC.create = (opts) => hashCons(opts);
return hashC;
}
var u8a, u32, isLE, Hash, toStr;
var init_utils2 = __esm({
"node_modules/@noble/hashes/esm/utils.js"() {
u8a = (a) => a instanceof Uint8Array;
u32 = (arr) => new Uint32Array(arr.buffer, arr.byteOffset, Math.floor(arr.byteLength / 4));
isLE = new Uint8Array(new Uint32Array([287454020]).buffer)[0] === 68;
if (!isLE)
throw new Error("Non little-endian hardware is not supported");
Hash = class {
// Safe version that clones internal state
clone() {
return this._cloneInto();
}
};
toStr = {}.toString;
}
});
// node_modules/@noble/hashes/esm/sha3.js
function keccakP(s, rounds = 24) {
const B = new Uint32Array(5 * 2);
for (let round = 24 - rounds; round < 24; round++) {
for (let x = 0; x < 10; x++)
B[x] = s[x] ^ s[x + 10] ^ s[x + 20] ^ s[x + 30] ^ s[x + 40];
for (let x = 0; x < 10; x += 2) {
const idx1 = (x + 8) % 10;
const idx0 = (x + 2) % 10;
const B0 = B[idx0];
const B1 = B[idx0 + 1];
const Th = rotlH(B0, B1, 1) ^ B[idx1];
const Tl = rotlL(B0, B1, 1) ^ B[idx1 + 1];
for (let y = 0; y < 50; y += 10) {
s[x + y] ^= Th;
s[x + y + 1] ^= Tl;
}
}
let curH = s[2];
let curL = s[3];
for (let t = 0; t < 24; t++) {
const shift = SHA3_ROTL[t];
const Th = rotlH(curH, curL, shift);
const Tl = rotlL(curH, curL, shift);
const PI = SHA3_PI[t];
curH = s[PI];
curL = s[PI + 1];
s[PI] = Th;
s[PI + 1] = Tl;
}
for (let y = 0; y < 50; y += 10) {
for (let x = 0; x < 10; x++)
B[x] = s[y + x];
for (let x = 0; x < 10; x++)
s[y + x] ^= ~B[(x + 2) % 10] & B[(x + 4) % 10];
}
s[0] ^= SHA3_IOTA_H[round];
s[1] ^= SHA3_IOTA_L[round];
}
B.fill(0);
}
var SHA3_PI, SHA3_ROTL, _SHA3_IOTA, _0n, _1n, _2n, _7n, _256n, _0x71n, SHA3_IOTA_H, SHA3_IOTA_L, rotlH, rotlL, Keccak, gen, sha3_224, sha3_256, sha3_384, sha3_512, keccak_224, keccak_256, keccak_384, keccak_512, genShake, shake128, shake256;
var init_sha3 = __esm({
"node_modules/@noble/hashes/esm/sha3.js"() {
init_assert();
init_u64();
init_utils2();
[SHA3_PI, SHA3_ROTL, _SHA3_IOTA] = [[], [], []];
_0n = /* @__PURE__ */ BigInt(0);
_1n = /* @__PURE__ */ BigInt(1);
_2n = /* @__PURE__ */ BigInt(2);
_7n = /* @__PURE__ */ BigInt(7);
_256n = /* @__PURE__ */ BigInt(256);
_0x71n = /* @__PURE__ */ BigInt(113);
for (let round = 0, R = _1n, x = 1, y = 0; round < 24; round++) {
[x, y] = [y, (2 * x + 3 * y) % 5];
SHA3_PI.push(2 * (5 * y + x));
SHA3_ROTL.push((round + 1) * (round + 2) / 2 % 64);
let t = _0n;
for (let j = 0; j < 7; j++) {
R = (R << _1n ^ (R >> _7n) * _0x71n) % _256n;
if (R & _2n)
t ^= _1n << (_1n << /* @__PURE__ */ BigInt(j)) - _1n;
}
_SHA3_IOTA.push(t);
}
[SHA3_IOTA_H, SHA3_IOTA_L] = /* @__PURE__ */ split(_SHA3_IOTA, true);
rotlH = (h, l, s) => s > 32 ? rotlBH(h, l, s) : rotlSH(h, l, s);
rotlL = (h, l, s) => s > 32 ? rotlBL(h, l, s) : rotlSL(h, l, s);
Keccak = class _Keccak extends Hash {
// NOTE: we accept arguments in bytes instead of bits here.
constructor(blockLen, suffix, outputLen, enableXOF = false, rounds = 24) {
super();
this.blockLen = blockLen;
this.suffix = suffix;
this.outputLen = outputLen;
this.enableXOF = enableXOF;
this.rounds = rounds;
this.pos = 0;
this.posOut = 0;
this.finished = false;
this.destroyed = false;
number(outputLen);
if (0 >= this.blockLen || this.blockLen >= 200)
throw new Error("Sha3 supports only keccak-f1600 function");
this.state = new Uint8Array(200);
this.state32 = u32(this.state);
}
keccak() {
keccakP(this.state32, this.rounds);
this.posOut = 0;
this.pos = 0;
}
update(data) {
exists(this);
const { blockLen, state } = this;
data = toBytes2(data);
const len = data.length;
for (let pos = 0; pos < len; ) {
const take = Math.min(blockLen - this.pos, len - pos);
for (let i = 0; i < take; i++)
state[this.pos++] ^= data[pos++];
if (this.pos === blockLen)
this.keccak();
}
return this;
}
finish() {
if (this.finished)
return;
this.finished = true;
const { state, suffix, pos, blockLen } = this;
state[pos] ^= suffix;
if ((suffix & 128) !== 0 && pos === blockLen - 1)
this.keccak();
state[blockLen - 1] ^= 128;
this.keccak();
}
writeInto(out) {
exists(this, false);
bytes(out);
this.finish();
const bufferOut = this.state;
const { blockLen } = this;
for (let pos = 0, len = out.length; pos < len; ) {
if (this.posOut >= blockLen)
this.keccak();
const take = Math.min(blockLen - this.posOut, len - pos);
out.set(bufferOut.subarray(this.posOut, this.posOut + take), pos);
this.posOut += take;
pos += take;
}
return out;
}
xofInto(out) {
if (!this.enableXOF)
throw new Error("XOF is not possible for this instance");
return this.writeInto(out);
}
xof(bytes2) {
number(bytes2);
return this.xofInto(new Uint8Array(bytes2));
}
digestInto(out) {
output(out, this);
if (this.finished)
throw new Error("digest() was already called");
this.writeInto(out);
this.destroy();
return out;
}
digest() {
return this.digestInto(new Uint8Array(this.outputLen));
}
destroy() {
this.destroyed = true;
this.state.fill(0);
}
_cloneInto(to) {
const { blockLen, suffix, outputLen, rounds, enableXOF } = this;
to || (to = new _Keccak(blockLen, suffix, outputLen, enableXOF, rounds));
to.state32.set(this.state32);
to.pos = this.pos;
to.posOut = this.posOut;
to.finished = this.finished;
to.rounds = rounds;
to.suffix = suffix;
to.outputLen = outputLen;
to.enableXOF = enableXOF;
to.destroyed = this.destroyed;
return to;
}
};
gen = (suffix, blockLen, outputLen) => wrapConstructor(() => new Keccak(blockLen, suffix, outputLen));
sha3_224 = /* @__PURE__ */ gen(6, 144, 224 / 8);
sha3_256 = /* @__PURE__ */ gen(6, 136, 256 / 8);
sha3_384 = /* @__PURE__ */ gen(6, 104, 384 / 8);
sha3_512 = /* @__PURE__ */ gen(6, 72, 512 / 8);
keccak_224 = /* @__PURE__ */ gen(1, 144, 224 / 8);
keccak_256 = /* @__PURE__ */ gen(1, 136, 256 / 8);
keccak_384 = /* @__PURE__ */ gen(1, 104, 384 / 8);
keccak_512 = /* @__PURE__ */ gen(1, 72, 512 / 8);
genShake = (suffix, blockLen, outputLen) => wrapXOFConstructorWithOpts((opts = {}) => new Keccak(blockLen, suffix, opts.dkLen === void 0 ? outputLen : opts.dkLen, true));
shake128 = /* @__PURE__ */ genShake(31, 168, 128 / 8);
shake256 = /* @__PURE__ */ genShake(31, 136, 256 / 8);
}
});
// node_modules/viem/_esm/utils/hash/keccak256.js
function keccak256(value, to_) {
const to = to_ || "hex";
const bytes2 = keccak_256(isHex(value, { strict: false }) ? toBytes(value) : value);
if (to === "bytes")
return bytes2;
return toHex(bytes2);
}
var init_keccak256 = __esm({
"node_modules/viem/_esm/utils/hash/keccak256.js"() {
init_sha3();
init_isHex();
init_toBytes();
init_toHex();
}
});
// node_modules/viem/_esm/errors/address.js
var InvalidAddressError;
var init_address = __esm({
"node_modules/viem/_esm/errors/address.js"() {
init_base();
InvalidAddressError = class extends BaseError {
constructor({ address }) {
super(`Address "${address}" is invalid.`, {
metaMessages: [
"- Address must be a hex value of 20 bytes (40 hex characters).",
"- Address must match its checksum counterpart."
]
});
Object.defineProperty(this, "name", {
enumerable: true,
configurable: true,
writable: true,
value: "InvalidAddressError"
});
}
};
}
});
// node_modules/viem/_esm/utils/lru.js
var LruMap;
var init_lru = __esm({
"node_modules/viem/_esm/utils/lru.js"() {
LruMap = class extends Map {
constructor(size2) {
super();
Object.defineProperty(this, "maxSize", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
this.maxSize = size2;
}
set(key, value) {
super.set(key, value);
if (this.maxSize && this.size > this.maxSize)
this.delete(this.keys().next().value);
return this;
}
};
}
});
// node_modules/viem/_esm/utils/address/getAddress.js
function checksumAddress(address_, chainId) {
if (checksumAddressCache.has(`${address_}.${chainId}`))
return checksumAddressCache.get(`${address_}.${chainId}`);
const hexAddress = chainId ? `${chainId}${address_.toLowerCase()}` : address_.substring(2).toLowerCase();
const hash = keccak256(stringToBytes(hexAddress), "bytes");
const address = (chainId ? hexAddress.substring(`${chainId}0x`.length) : hexAddress).split("");
for (let i = 0; i < 40; i += 2) {
if (hash[i >> 1] >> 4 >= 8 && address[i]) {
address[i] = address[i].toUpperCase();
}
if ((hash[i >> 1] & 15) >= 8 && address[i + 1]) {
address[i + 1] = address[i + 1].toUpperCase();
}
}
const result = `0x${address.join("")}`;
checksumAddressCache.set(`${address_}.${chainId}`, result);
return result;
}
function getAddress(address, chainId) {
if (!isAddress(address, { strict: false }))
throw new InvalidAddressError({ address });
return checksumAddress(address, chainId);
}
var checksumAddressCache;
var init_getAddress = __esm({
"node_modules/viem/_esm/utils/address/getAddress.js"() {
init_address();
init_toBytes();
init_keccak256();
init_lru();
init_isAddress();
checksumAddressCache = /* @__PURE__ */ new LruMap(8192);
}
});
// node_modules/viem/_esm/utils/address/isAddress.js
function isAddress(address, options) {
const { strict = true } = options ?? {};
const cacheKey = `${address}.${strict}`;
if (isAddressCache.has(cacheKey))
return isAddressCache.get(cacheKey);
const result = (() => {
if (!addressRegex.test(address))
return false;
if (address.toLowerCase() === address)
return true;
if (strict)
return checksumAddress(address) === address;
return true;
})();
isAddressCache.set(cacheKey, result);
return result;
}
var addressRegex, isAddressCache;
var init_isAddress = __esm({
"node_modules/viem/_esm/utils/address/isAddress.js"() {
init_lru();
init_getAddress();
addressRegex = /^0x[a-fA-F0-9]{40}$/;
isAddressCache = /* @__PURE__ */ new LruMap(8192);
}
});
// node_modules/viem/_esm/utils/data/concat.js
function concatHex(values) {
return `0x${values.reduce((acc, x) => acc + x.replace("0x", ""), "")}`;
}
var init_concat = __esm({
"node_modules/viem/_esm/utils/data/concat.js"() {
}
});
// src/sdk/common/utils/hashing-utils.ts
var hashing_utils_exports = {};
__export(hashing_utils_exports, {
concatHex: () => concatHex2,
isHex: () => isHex2,
keccak256: () => keccak2562,
toHexFromBytesLike: () => toHexFromBytesLike
});
module.exports = __toCommonJS(hashing_utils_exports);
// node_modules/viem/_esm/utils/chain/defineChain.js
function defineChain(chain) {
return {
formatters: void 0,
fees: void 0,
serializers: void 0,
...chain
};
}
// node_modules/viem/_esm/utils/regex.js
var arrayRegex = /^(.*)\[([0-9]*)\]$/;
var bytesRegex = /^bytes([1-9]|1[0-9]|2[0-9]|3[0-2])?$/;
var integerRegex = /^(u?int)(8|16|24|32|40|48|56|64|72|80|88|96|104|112|120|128|136|144|152|160|168|176|184|192|200|208|216|224|232|240|248|256)?$/;
// node_modules/viem/_esm/utils/abi/encodePacked.js
init_abi();
init_address();
init_isAddress();
init_concat();
init_pad();
init_toHex();
function encodePacked(types, values) {
if (types.length !== values.length)
throw new AbiEncodingLengthMismatchError({
expectedLength: types.length,
givenLength: values.length
});
const data = [];
for (let i = 0; i < types.length; i++) {
const type = types[i];
const value = values[i];
data.push(encode(type, value));
}
return concatHex(data);
}
function encode(type, value, isArray = false) {
if (type === "address") {
const address = value;
if (!isAddress(address))
throw new InvalidAddressError({ address });
return pad(address.toLowerCase(), {
size: isArray ? 32 : null
});
}
if (type === "string")
return stringToHex(value);
if (type === "bytes")
return value;
if (type === "bool")
return pad(boolToHex(value), { size: isArray ? 32 : 1 });
const intMatch = type.match(integerRegex);
if (intMatch) {
const [_type, baseType, bits = "256"] = intMatch;
const size2 = Number.parseInt(bits) / 8;
return numberToHex(value, {
size: isArray ? 32 : size2,
signed: baseType === "int"
});
}
const bytesMatch = type.match(bytesRegex);
if (bytesMatch) {
const [_type, size2] = bytesMatch;
if (Number.parseInt(size2) !== (value.length - 2) / 2)
throw new BytesSizeMismatchError({
expectedSize: Number.parseInt(size2),
givenSize: (value.length - 2) / 2
});
return pad(value, { dir: "right", size: isArray ? 32 : null });
}
const arrayMatch = type.match(arrayRegex);
if (arrayMatch && Array.isArray(value)) {
const [_type, childType] = arrayMatch;
const data = [];
for (let i = 0; i < value.length; i++) {
data.push(encode(childType, value[i], true));
}
if (data.length === 0)
return "0x";
return concatHex(data);
}
throw new UnsupportedPackedAbiType(type);
}
// node_modules/viem/_esm/index.js
init_toBytes();
init_getAddress();
init_isHex();
// src/sdk/network/ViemChainConfig.ts
var sourceId = 1;
var optimism = /* @__PURE__ */ defineChain({
id: 10,
name: "OP Mainnet",
nativeCurrency: { name: "Ether", symbol: "ETH", decimals: 18 },
rpcUrls: {
default: {
http: ["https://mainnet.optimism.io"]
}
},
blockExplorers: {
default: {
name: "Optimism Explorer",
url: "https://optimistic.etherscan.io",
apiUrl: "https://api-optimistic.etherscan.io/api"
}
},
contracts: {
disputeGameFactory: {
[sourceId]: {
address: "0xe5965Ab5962eDc7477C8520243A95517CD252fA9"
}
},
l2OutputOracle: {
[sourceId]: {
address: "0xdfe97868233d1aa22e815a266982f2cf17685a27"
}
},
multicall3: {
address: "0xca11bde05977b3631167028862be2a173976ca11",
blockCreated: 4286263
},
portal: {
[sourceId]: {
address: "0xbEb5Fc579115071764c7423A4f12eDde41f106Ed"
}
},
l1StandardBridge: {
[sourceId]: {
address: "0x99C9fc46f92E8a1c0deC1b1747d010903E884bE1"
}
}
},
sourceId
});
var base = /* @__PURE__ */ defineChain({
id: 8453,
name: "Base",
nativeCurrency: { name: "Ether", symbol: "ETH", decimals: 18 },
rpcUrls: {
default: {
http: ["https://mainnet.base.org"]
}
},
blockExplorers: {
default: {
name: "Basescan",
url: "https://basescan.org",
apiUrl: "https://api.basescan.org/api"
}
},
contracts: {
l2OutputOracle: {
[sourceId]: {
address: "0x56315b90c40730925ec5485cf004d835058518A0"
}
},
multicall3: {
address: "0xca11bde05977b3631167028862be2a173976ca11",
blockCreated: 5022
},
portal: {
[sourceId]: {
address: "0x49048044D57e1C92A77f79988d21Fa8fAF74E97e",
blockCreated: 17482143
}
},
l1StandardBridge: {
[sourceId]: {
address: "0x3154Cf16ccdb4C6d922629664174b904d80F2C35",
blockCreated: 17482143
}
}
},
sourceId
});
var ancient8 = /* @__PURE__ */ defineChain({
id: 888888888,
name: "Ancient8",
nativeCurrency: { name: "Ether", symbol: "ETH", decimals: 18 },
rpcUrls: {
default: {
http: ["https://rpc.ancient8.gg"]
}
},
blockExplorers: {
default: {
name: "Ancient8 explorer",
url: "https://scan.ancient8.gg",
apiUrl: "https://scan.ancient8.gg/api"
}
},
contracts: {
l2OutputOracle: {
[sourceId]: {
address: "0xB09DC08428C8b4EFB4ff9C0827386CDF34277996"
}
},
portal: {
[sourceId]: {
address: "0x639F2AECE398Aa76b07e59eF6abe2cFe32bacb68",
blockCreated: 19070571
}
},
l1StandardBridge: {
[sourceId]: {
address: "0xd5e3eDf5b68135D559D572E26bF863FBC1950033",
blockCreated: 19070571
}
}
},
sourceId
});
sourceId = 11155111;
var optimismSepolia = /* @__PURE__ */ defineChain({
id: 11155420,
name: "OP Sepolia",
nativeCurrency: { name: "Sepolia Ether", symbol: "ETH", decimals: 18 },
rpcUrls: {
default: {
http: ["https://sepolia.optimism.io"]
}
},
blockExplorers: {
default: {
name: "Blockscout",
url: "https://optimism-sepolia.blockscout.com",
apiUrl: "https://optimism-sepolia.blockscout.com/api"
}
},
contracts: {
disputeGameFactory: {
[sourceId]: {
address: "0x05F9613aDB30026FFd634f38e5C4dFd30a197Fa1"
}
},
l2OutputOracle: {
[sourceId]: {
address: "0x90E9c4f8a994a250F6aEfd61CAFb4F2e895D458F"
}
},
multicall3: {
address: "0xca11bde05977b3631167028862be2a173976ca11",
blockCreated: 1620204
},
portal: {
[sourceId]: {
address: "0x16Fc5058F25648194471939df75CF27A2fdC48BC"
}
},
l1StandardBridge: {
[sourceId]: {
address: "0xFBb0621E0B23b5478B630BD55a5f21f67730B0F1"
}
}
},
testnet: true,
sourceId
});
var ancient8Sepolia = /* @__PURE__ */ defineChain({
id: 28122024,
name: "Ancient8 Testnet",
nativeCurrency: { name: "Ether", symbol: "ETH", decimals: 18 },
rpcUrls: {
default: {
http: ["https://rpcv2-testnet.ancient8.gg"]
}
},
blockExplorers: {
default: {
name: "Ancient8 Celestia Testnet explorer",
url: "https://scanv2-testnet.ancient8.gg",
apiUrl: "https://scanv2-testnet.ancient8.gg/api"
}
},
contracts: {
l2OutputOracle: {
[sourceId]: {
address: "0x942fD5017c0F60575930D8574Eaca13BEcD6e1bB"
}
},
portal: {
[sourceId]: {
address: "0xfa1d9E26A6aCD7b22115D27572c1221B9803c960",
blockCreated: 4972908
}
},
l1StandardBridge: {
[sourceId]: {
address: "0xF6Bc0146d3c74D48306e79Ae134A260E418C9335",
blockCreated: 4972908
}
}
},
sourceId
});
// src/sdk/network/constants.ts
var NETWORK_NAME_TO_CHAIN_ID = {
["baseSepolia" /* BaseSepolia */]: 84532,
["sepolia" /* Sepolia */]: 11155111,
["optimism" /* Optimism */]: 10,
["polygon" /* Polygon */]: 137,
["arbitrum" /* Arbitrum */]: 42161,
["arbitrumSepolia" /* ArbitrumSepolia */]: 421614,
["chiado" /* Chiado */]: 10200,
["fuse" /* Fuse */]: 122,
["fuseSparknet" /* FuseSparknet */]: 123,
["gnosis" /* Gnosis */]: 100,
["kromaTestnet" /* KromaTestnet */]: 2357,
["mainnet" /* Mainnet */]: 1,
["optimismSepolia" /* OptimismSepolia */]: 11155420,
["rootstock" /* Rootstock */]: 30,
["rootstockTestnet" /* RootstockTestnet */]: 31,
["Mantle" /* Mantle */]: 5e3,
["MantleSepolia" /* MantleSepolia */]: 5003,
["avalanche" /* Avalanche */]: 43114,
["base" /* Base */]: 8453,
["bsc" /* Bsc */]: 56,
["bscTestnet" /* BscTestnet */]: 97,
["fuji" /* Fuji */]: 43113,
["linea" /* Linea */]: 59144,
["lineaTestnet" /* LineaTestnet */]: 59140,
["flareTestnet" /* FlareTestnet */]: 114,
["flare" /* Flare */]: 14,
["scrollSepolia" /* ScrollSepolia */]: 534351,
["scroll" /* Scroll */]: 534352,
["ancient8Testnet" /* Ancient8Testnet */]: 28122024,
["ancient8" /* Ancient8 */]: 888888888,
["amoy" /* Amoy */]: 80002,
["xdcTestnet" /* XDCTestnet */]: 51,
["xdcMainnet" /* XDCMainnet */]: 50
};
var CHAIN_ID_TO_NETWORK_NAME = Object.entries(
NETWORK_NAME_TO_CHAIN_ID
).reduce(
(result, [networkName, chainId]) => ({
...result,
[chainId]: networkName
}),
{}
);
// src/sdk/common/constants.ts
var AddressZero = "0x0000000000000000000000000000000000000000";
// src/sdk/common/utils/viem-utils.ts
function isAddress2(value) {
let result = false;
if (value && value !== AddressZero) {
try {
const address = getAddress(value);
if (address) {
result = address === value;
}
} catch (err) {
result = false;
}
} else if (value === AddressZero) {
result = true;
}
return result;
}
// src/sdk/common/utils/hashing-utils.ts
function keccak2562(data) {
let result = null;
if (data) {
switch (typeof data) {
case "string":
if (isAddress2(data)) {
result = keccak2562(encodePacked(["address"], [data]));
} else if (isHex2(data)) {
result = keccak2562(encodePacked(["bytes"], [data]));
} else {
result = keccak2562(encodePacked(["string"], [data]));
}
break;
case "object": {
result = keccak2562(encodePacked(["bytes"], [data.toString()]));
break;
}
}
}
return result;
}
function isHex2(hex, size2 = 0) {
let result = isHex(hex);
if (result && size2 > 0) {
result = hex.length === size2 * 2 + 2;
}
return result;
}
function toHexFromBytesLike(data) {
let result = null;
if (data !== null) {
switch (typeof data) {
case "string":
if (isHex2(data)) {
result = data;
} else {
result = toHexFromBytesLike(stringToBytes(data));
}
break;
case "object":
try {
result = toHexFromBytesLike(data);
} catch (err) {
result = null;
}
break;
}
}
if (!result) {
throw new Error("invalid hex data");
}
return result;
}
function concatHex2(...hex) {
return hex.map((item, index) => index ? item.slice(2) : item).join("");
}
// Annotate the CommonJS export names for ESM import in node:
0 && (module.exports = {
concatHex,
isHex,
keccak256,
toHexFromBytesLike
});
/*! Bundled license information:
@noble/hashes/esm/utils.js:
(*! noble-hashes - MIT License (c) 2022 Paul Miller (paulmillr.com) *)
*/
//# sourceMappingURL=hashing-utils.js.map