219 lines
8.4 KiB
TypeScript
219 lines
8.4 KiB
TypeScript
/// <reference types="node" />
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/**
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* Absolute value. abs(a)==a if a>=0. abs(a)==-a if a<0
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*
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* @param a
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*
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* @returns The absolute value of a
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*/
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declare function abs(a: number | bigint): number | bigint;
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/**
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* Returns the (minimum) length of a number expressed in bits.
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*
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* @param a
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* @returns The bit length
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*/
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declare function bitLength(a: number | bigint): number;
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interface Egcd {
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g: bigint;
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x: bigint;
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y: bigint;
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}
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/**
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* An iterative implementation of the extended euclidean algorithm or extended greatest common divisor algorithm.
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* Take positive integers a, b as input, and return a triple (g, x, y), such that ax + by = g = gcd(a, b).
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*
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* @param a
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* @param b
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*
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* @throws {@link RangeError} if a or b are <= 0
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*
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* @returns A triple (g, x, y), such that ax + by = g = gcd(a, b).
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*/
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declare function eGcd(a: number | bigint, b: number | bigint): Egcd;
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/**
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* Greatest common divisor of two integers based on the iterative binary algorithm.
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*
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* @param a
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* @param b
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*
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* @returns The greatest common divisor of a and b
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*/
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declare function gcd(a: number | bigint, b: number | bigint): bigint;
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/**
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* The least common multiple computed as abs(a*b)/gcd(a,b)
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* @param a
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* @param b
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*
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* @returns The least common multiple of a and b
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*/
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declare function lcm(a: number | bigint, b: number | bigint): bigint;
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/**
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* Maximum. max(a,b)==a if a>=b. max(a,b)==b if a<b
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*
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* @param a
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* @param b
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*
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* @returns Maximum of numbers a and b
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*/
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declare function max(a: number | bigint, b: number | bigint): number | bigint;
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/**
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* Minimum. min(a,b)==b if a>=b. min(a,b)==a if a<b
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*
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* @param a
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* @param b
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*
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* @returns Minimum of numbers a and b
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*/
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declare function min(a: number | bigint, b: number | bigint): number | bigint;
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/**
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* Modular inverse.
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*
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* @param a The number to find an inverse for
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* @param n The modulo
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*
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* @throws {@link RangeError} if a does not have inverse modulo n
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*
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* @returns The inverse modulo n
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*/
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declare function modInv(a: number | bigint, n: number | bigint): bigint;
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type PrimePower = [number | bigint, number | bigint];
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type PrimeFactor = number | bigint | PrimePower;
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/**
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* Modular exponentiation b**e mod n. Currently using the right-to-left binary method if the prime factorization is not provided, or the chinese remainder theorem otherwise.
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*
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* @param b base
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* @param e exponent
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* @param n modulo
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* @param primeFactorization an array of the prime factors, for example [5n, 5n, 13n, 27n], or prime powers as [p, k], for instance [[5, 2], [13, 1], [27, 1]]. If the prime factorization is provided the chinese remainder theorem is used to greatly speed up the exponentiation.
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*
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* @throws {@link RangeError} if n <= 0
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*
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* @returns b**e mod n
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*/
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declare function modPow(b: number | bigint, e: number | bigint, n: number | bigint, primeFactorization?: PrimeFactor[]): bigint;
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/**
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* Finds the smallest positive element that is congruent to a in modulo n
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*
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* @remarks
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* a and b must be the same type, either number or bigint
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*
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* @param a - An integer
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* @param n - The modulo
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*
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* @throws {@link RangeError} if n <= 0
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*
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* @returns A bigint with the smallest positive representation of a modulo n
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*/
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declare function toZn(a: number | bigint, n: number | bigint): bigint;
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/**
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* The test first tries if any of the first 250 small primes are a factor of the input number and then passes several
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* iterations of Miller-Rabin Probabilistic Primality Test (FIPS 186-4 C.3.1)
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*
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* @param w - A positive integer to be tested for primality
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* @param iterations - The number of iterations for the primality test. The value shall be consistent with Table C.1, C.2 or C.3 of FIPS 186-4
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* @param disableWorkers - Disable the use of workers for the primality test
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*
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* @throws {@link RangeError} if w<0
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*
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* @returns A promise that resolves to a boolean that is either true (a probably prime number) or false (definitely composite)
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*/
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declare function isProbablyPrime(w: number | bigint, iterations?: number, disableWorkers?: boolean): Promise<boolean>;
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/**
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* A probably-prime (Miller-Rabin), cryptographically-secure, random-number generator.
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* The browser version uses web workers to parallelise prime look up. Therefore, it does not lock the UI
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* main process, and it can be much faster (if several cores or cpu are available).
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* The node version can also use worker_threads if they are available (enabled by default with Node 11 and
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* and can be enabled at runtime executing node --experimental-worker with node >=10.5.0).
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*
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* @param bitLength - The required bit length for the generated prime
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* @param iterations - The number of iterations for the Miller-Rabin Probabilistic Primality Test
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*
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* @throws {@link RangeError} if bitLength < 1
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*
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* @returns A promise that resolves to a bigint probable prime of bitLength bits.
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*/
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declare function prime(bitLength: number, iterations?: number): Promise<bigint>;
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/**
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* A probably-prime (Miller-Rabin), cryptographically-secure, random-number generator.
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* The sync version is NOT RECOMMENDED since it won't use workers and thus it'll be slower and may freeze thw window in browser's javascript. Please consider using prime() instead.
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*
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* @param bitLength - The required bit length for the generated prime
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* @param iterations - The number of iterations for the Miller-Rabin Probabilistic Primality Test
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*
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* @throws {@link RangeError} if bitLength < 1
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*
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* @returns A bigint probable prime of bitLength bits.
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*/
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declare function primeSync(bitLength: number, iterations?: number): bigint;
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/**
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* Returns a cryptographically secure random integer between [min,max].
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* @param max Returned value will be <= max
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* @param min Returned value will be >= min
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*
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* @throws {@link RangeError} if max <= min
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*
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* @returns A cryptographically secure random bigint between [min,max]
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*/
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declare function randBetween(max: bigint, min?: bigint): bigint;
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/**
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* Secure random bits for both node and browsers. Node version uses crypto.randomFill() and browser one self.crypto.getRandomValues()
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*
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* @param bitLength - The desired number of random bits
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* @param forceLength - Set to true if you want to force the output to have a specific bit length. It basically forces the msb to be 1
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*
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* @throws {@link RangeError} if bitLength < 1
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*
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* @returns A Promise that resolves to a UInt8Array/Buffer (Browser/Node.js) filled with cryptographically secure random bits
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*/
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declare function randBits(bitLength: number, forceLength?: boolean): Promise<Uint8Array | Buffer>;
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/**
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* Secure random bits for both node and browsers. Node version uses crypto.randomFill() and browser one self.crypto.getRandomValues()
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* @param bitLength - The desired number of random bits
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* @param forceLength - Set to true if you want to force the output to have a specific bit length. It basically forces the msb to be 1
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*
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* @throws {@link RangeError} if bitLength < 1
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*
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* @returns A Uint8Array/Buffer (Browser/Node.js) filled with cryptographically secure random bits
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*/
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declare function randBitsSync(bitLength: number, forceLength?: boolean): Uint8Array | Buffer;
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/**
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* Secure random bytes for both node and browsers. Node version uses crypto.randomBytes() and browser one self.crypto.getRandomValues()
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*
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* @param byteLength - The desired number of random bytes
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* @param forceLength - Set to true if you want to force the output to have a bit length of 8*byteLength. It basically forces the msb to be 1
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*
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* @throws {@link RangeError} if byteLength < 1
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*
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* @returns A promise that resolves to a UInt8Array/Buffer (Browser/Node.js) filled with cryptographically secure random bytes
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*/
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declare function randBytes(byteLength: number, forceLength?: boolean): Promise<Uint8Array | Buffer>;
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/**
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* Secure random bytes for both node and browsers. Node version uses crypto.randomFill() and browser one self.crypto.getRandomValues()
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* This is the synchronous version, consider using the asynchronous one for improved efficiency.
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*
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* @param byteLength - The desired number of random bytes
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* @param forceLength - Set to true if you want to force the output to have a bit length of 8*byteLength. It basically forces the msb to be 1
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*
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* @throws {@link RangeError} if byteLength < 1
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*
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* @returns A UInt8Array/Buffer (Browser/Node.js) filled with cryptographically secure random bytes
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*/
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declare function randBytesSync(byteLength: number, forceLength?: boolean): Uint8Array | Buffer;
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export { abs, bitLength, eGcd, gcd, isProbablyPrime, lcm, max, min, modInv, modPow, prime, primeSync, randBetween, randBits, randBitsSync, randBytes, randBytesSync, toZn };
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