aitbc
816e258d4c
Development Artifact Cleanup: ✅ BROTHER_NODE REORGANIZATION: Moved development test node to appropriate location - dev/test-nodes/brother_node/: Moved from root directory for better organization - Contains development configuration, test logs, and test chain data - No impact on production systems - purely development/testing artifact ✅ DEVELOPMENT ARTIFACTS IDENTIFIED: - Chain ID: aitbc-brother-chain (test/development chain) - Ports: 8010 (P2P) and 8011 (RPC) - different from production - Environment: .env file with test configuration - Logs: rpc.log and node.log from development testing session (March 15, 2026) ✅ ROOT DIRECTORY CLEANUP: Removed development clutter from production directory - brother_node/ moved to dev/test-nodes/brother_node/ - Root directory now contains only production-ready components - Development artifacts properly organized in dev/ subdirectory DIRECTORY STRUCTURE IMPROVEMENT: 📁 dev/test-nodes/: Development and testing node configurations 🏗️ Root Directory: Clean production structure with only essential components 🧪 Development Isolation: Test environments separated from production BENEFITS: ✅ Clean Production Directory: No development artifacts in root ✅ Better Organization: Development nodes grouped in dev/ subdirectory ✅ Clear Separation: Production vs development environments clearly distinguished ✅ Maintainability: Easier to identify and manage development components RESULT: Successfully moved brother_node development artifact to dev/test-nodes/ subdirectory, cleaning up the root directory while preserving development testing environment for future use.
93 lines
4.7 KiB
TypeScript
Executable File
93 lines
4.7 KiB
TypeScript
Executable File
import { mod } from './abstract/modular.js';
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import { ProjPointType as PointType } from './abstract/weierstrass.js';
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import type { Hex, PrivKey } from './abstract/utils.js';
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import { bytesToNumberBE, numberToBytesBE } from './abstract/utils.js';
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export declare const secp256k1: Readonly<{
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create: (hash: import("./abstract/utils.js").CHash) => import("./abstract/weierstrass.js").CurveFn;
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CURVE: Readonly<{
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readonly nBitLength: number;
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readonly nByteLength: number;
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readonly Fp: import("./abstract/modular.js").IField<bigint>;
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readonly n: bigint;
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readonly h: bigint;
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readonly hEff?: bigint | undefined;
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readonly Gx: bigint;
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readonly Gy: bigint;
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readonly allowInfinityPoint?: boolean | undefined;
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readonly a: bigint;
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readonly b: bigint;
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readonly allowedPrivateKeyLengths?: readonly number[] | undefined;
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readonly wrapPrivateKey?: boolean | undefined;
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readonly endo?: {
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beta: bigint;
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splitScalar: (k: bigint) => {
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k1neg: boolean;
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k1: bigint;
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k2neg: boolean;
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k2: bigint;
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};
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} | undefined;
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readonly isTorsionFree?: ((c: import("./abstract/weierstrass.js").ProjConstructor<bigint>, point: PointType<bigint>) => boolean) | undefined;
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readonly clearCofactor?: ((c: import("./abstract/weierstrass.js").ProjConstructor<bigint>, point: PointType<bigint>) => PointType<bigint>) | undefined;
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readonly hash: import("./abstract/utils.js").CHash;
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readonly hmac: (key: Uint8Array, ...messages: Uint8Array[]) => Uint8Array;
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readonly randomBytes: (bytesLength?: number | undefined) => Uint8Array;
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lowS: boolean;
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readonly bits2int?: ((bytes: Uint8Array) => bigint) | undefined;
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readonly bits2int_modN?: ((bytes: Uint8Array) => bigint) | undefined;
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readonly p: bigint;
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}>;
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getPublicKey: (privateKey: PrivKey, isCompressed?: boolean | undefined) => Uint8Array;
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getSharedSecret: (privateA: PrivKey, publicB: Hex, isCompressed?: boolean | undefined) => Uint8Array;
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sign: (msgHash: Hex, privKey: PrivKey, opts?: import("./abstract/weierstrass.js").SignOpts | undefined) => import("./abstract/weierstrass.js").RecoveredSignatureType;
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verify: (signature: Hex | {
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r: bigint;
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s: bigint;
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}, msgHash: Hex, publicKey: Hex, opts?: import("./abstract/weierstrass.js").VerOpts | undefined) => boolean;
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ProjectivePoint: import("./abstract/weierstrass.js").ProjConstructor<bigint>;
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Signature: import("./abstract/weierstrass.js").SignatureConstructor;
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utils: {
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normPrivateKeyToScalar: (key: PrivKey) => bigint;
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isValidPrivateKey(privateKey: PrivKey): boolean;
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randomPrivateKey: () => Uint8Array;
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precompute: (windowSize?: number | undefined, point?: PointType<bigint> | undefined) => PointType<bigint>;
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};
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}>;
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declare function taggedHash(tag: string, ...messages: Uint8Array[]): Uint8Array;
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/**
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* lift_x from BIP340. Convert 32-byte x coordinate to elliptic curve point.
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* @returns valid point checked for being on-curve
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*/
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declare function lift_x(x: bigint): PointType<bigint>;
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/**
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* Schnorr public key is just `x` coordinate of Point as per BIP340.
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*/
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declare function schnorrGetPublicKey(privateKey: Hex): Uint8Array;
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/**
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* Creates Schnorr signature as per BIP340. Verifies itself before returning anything.
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* auxRand is optional and is not the sole source of k generation: bad CSPRNG won't be dangerous.
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*/
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declare function schnorrSign(message: Hex, privateKey: PrivKey, auxRand?: Hex): Uint8Array;
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/**
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* Verifies Schnorr signature.
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* Will swallow errors & return false except for initial type validation of arguments.
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*/
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declare function schnorrVerify(signature: Hex, message: Hex, publicKey: Hex): boolean;
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export declare const schnorr: {
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getPublicKey: typeof schnorrGetPublicKey;
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sign: typeof schnorrSign;
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verify: typeof schnorrVerify;
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utils: {
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randomPrivateKey: () => Uint8Array;
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lift_x: typeof lift_x;
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pointToBytes: (point: PointType<bigint>) => Uint8Array;
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numberToBytesBE: typeof numberToBytesBE;
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bytesToNumberBE: typeof bytesToNumberBE;
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taggedHash: typeof taggedHash;
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mod: typeof mod;
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};
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};
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export declare const hashToCurve: (msg: Uint8Array, options?: import("./abstract/hash-to-curve.js").htfBasicOpts | undefined) => import("./abstract/hash-to-curve.js").H2CPoint<bigint>;
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export declare const encodeToCurve: (msg: Uint8Array, options?: import("./abstract/hash-to-curve.js").htfBasicOpts | undefined) => import("./abstract/hash-to-curve.js").H2CPoint<bigint>;
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export {};
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//# sourceMappingURL=secp256k1.d.ts.map
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