type EncodingType = "UTF8" | "UTF16BE" | "UTF16LE"; type FormatNoTextType = "HEX" | "B64" | "BYTES" | "ARRAYBUFFER" | "UINT8ARRAY"; type FormatType = "TEXT" | FormatNoTextType; type GenericInputType = { value: string; format: "TEXT"; encoding?: EncodingType; } | { value: string; format: "B64" | "HEX" | "BYTES"; } | { value: ArrayBuffer; format: "ARRAYBUFFER"; } | { value: Uint8Array; format: "UINT8ARRAY"; }; type FixedLengthOptionsNoEncodingType = { hmacKey?: GenericInputType; } | { numRounds?: number; }; type FixedLengthOptionsEncodingType = { hmacKey?: GenericInputType; encoding?: EncodingType; } | { numRounds?: number; encoding?: EncodingType; }; interface packedValue { value: number[]; binLen: number; } interface SHAKEOptionsNoEncodingType { numRounds?: number; } interface SHAKEOptionsEncodingType extends SHAKEOptionsNoEncodingType { encoding?: EncodingType; } interface CSHAKEOptionsNoEncodingType { customization?: GenericInputType; funcName?: GenericInputType; } interface CSHAKEOptionsEncodingType extends CSHAKEOptionsNoEncodingType { encoding?: EncodingType; } interface KMACOptionsNoEncodingType { kmacKey: GenericInputType; customization?: GenericInputType; } interface KMACOptionsEncodingType extends KMACOptionsNoEncodingType { encoding?: EncodingType; } declare abstract class jsSHABase { /** * @param variant The desired SHA variant. * @param inputFormat The input format to be used in future `update` calls. * @param options Hashmap of extra input options. */ protected readonly shaVariant: VariantT; protected readonly inputFormat: FormatType; protected readonly utfType: EncodingType; protected readonly numRounds: number; protected abstract intermediateState: StateT; protected keyWithIPad: number[]; protected keyWithOPad: number[]; protected remainder: number[]; protected remainderLen: number; protected updateCalled: boolean; protected processedLen: number; protected macKeySet: boolean; protected abstract readonly variantBlockSize: number; protected abstract readonly bigEndianMod: -1 | 1; protected abstract readonly outputBinLen: number; protected abstract readonly isVariableLen: boolean; protected abstract readonly HMACSupported: boolean; protected abstract readonly converterFunc: (input: any, existingBin: number[], existingBinLen: number) => packedValue; protected abstract readonly roundFunc: (block: number[], H: StateT) => StateT; protected abstract readonly finalizeFunc: (remainder: number[], remainderBinLen: number, processedBinLen: number, H: StateT, outputLen: number) => number[]; protected abstract readonly stateCloneFunc: (state: StateT) => StateT; protected abstract readonly newStateFunc: (variant: VariantT) => StateT; protected abstract readonly getMAC: ((options: { outputLen: number; }) => number[]) | null; protected constructor(variant: VariantT, inputFormat: "TEXT", options?: FixedLengthOptionsEncodingType); protected constructor(variant: VariantT, inputFormat: FormatNoTextType, options?: FixedLengthOptionsNoEncodingType); /** * Hashes as many blocks as possible. Stores the rest for either a future update or getHash call. * * @param srcString The input to be hashed. * @returns A reference to the object. */ update(srcString: string | ArrayBuffer | Uint8Array): this; /** * Returns the desired SHA hash of the input fed in via `update` calls. * * @param format The desired output formatting * @param options Hashmap of output formatting options. `outputLen` must be specified for variable length hashes. * `outputLen` replaces the now deprecated `shakeLen` key. * @returns The hash in the format specified. */ getHash(format: "HEX", options?: { outputUpper?: boolean; outputLen?: number; shakeLen?: number; }): string; getHash(format: "B64", options?: { b64Pad?: string; outputLen?: number; shakeLen?: number; }): string; getHash(format: "BYTES", options?: { outputLen?: number; shakeLen?: number; }): string; getHash(format: "UINT8ARRAY", options?: { outputLen?: number; shakeLen?: number; }): Uint8Array; getHash(format: "ARRAYBUFFER", options?: { outputLen?: number; shakeLen?: number; }): ArrayBuffer; /** * Sets the HMAC key for an eventual `getHMAC` call. Must be called immediately after jsSHA object instantiation. * * @param key The key used to calculate the HMAC * @param inputFormat The format of key. * @param options Hashmap of extra input options. */ setHMACKey(key: string, inputFormat: "TEXT", options?: { encoding?: EncodingType; }): void; setHMACKey(key: string, inputFormat: "B64" | "HEX" | "BYTES"): void; setHMACKey(key: ArrayBuffer, inputFormat: "ARRAYBUFFER"): void; setHMACKey(key: Uint8Array, inputFormat: "UINT8ARRAY"): void; /** * Internal function that sets the MAC key. * * @param key The packed MAC key to use */ protected _setHMACKey(key: packedValue): void; /** * Returns the the HMAC in the specified format using the key given by a previous `setHMACKey` call. * * @param format The desired output formatting. * @param options Hashmap of extra outputs options. * @returns The HMAC in the format specified. */ getHMAC(format: "HEX", options?: { outputUpper?: boolean; }): string; getHMAC(format: "B64", options?: { b64Pad?: string; }): string; getHMAC(format: "BYTES"): string; getHMAC(format: "UINT8ARRAY"): Uint8Array; getHMAC(format: "ARRAYBUFFER"): ArrayBuffer; /** * Internal function that returns the "raw" HMAC */ protected _getHMAC(): number[]; } /** * Int_64 is a object for 2 32-bit numbers emulating a 64-bit number. */ declare class Int_64 { /** * @param msint_32 The most significant 32-bits of a 64-bit number. * @param lsint_32 The least significant 32-bits of a 64-bit number. */ readonly highOrder: number; readonly lowOrder: number; constructor(msint_32: number, lsint_32: number); } type FixedLengthVariantType = "SHA3-224" | "SHA3-256" | "SHA3-384" | "SHA3-512" | "SHAKE128" | "SHAKE256"; type VariantType = FixedLengthVariantType | "SHAKE128" | "SHAKE256" | "CSHAKE128" | "CSHAKE256" | "KMAC128" | "KMAC256"; declare class jsSHA extends jsSHABase { intermediateState: Int_64[][]; variantBlockSize: number; bigEndianMod: -1 | 1; outputBinLen: number; isVariableLen: boolean; HMACSupported: boolean; converterFunc: (input: any, existingBin: number[], existingBinLen: number) => packedValue; roundFunc: (block: number[], H: Int_64[][]) => Int_64[][]; finalizeFunc: (remainder: number[], remainderBinLen: number, processedBinLen: number, H: Int_64[][], outputLen: number) => number[]; stateCloneFunc: (state: Int_64[][]) => Int_64[][]; newStateFunc: (variant: VariantType) => Int_64[][]; getMAC: ((options: { outputLen: number; }) => number[]) | null; constructor(variant: FixedLengthVariantType, inputFormat: "TEXT", options?: FixedLengthOptionsEncodingType); constructor(variant: FixedLengthVariantType, inputFormat: FormatNoTextType, options?: FixedLengthOptionsNoEncodingType); constructor(variant: "SHAKE128" | "SHAKE256", inputFormat: "TEXT", options?: SHAKEOptionsEncodingType); constructor(variant: "SHAKE128" | "SHAKE256", inputFormat: FormatNoTextType, options?: SHAKEOptionsNoEncodingType); constructor(variant: "CSHAKE128" | "CSHAKE256", inputFormat: "TEXT", options?: CSHAKEOptionsEncodingType); constructor(variant: "CSHAKE128" | "CSHAKE256", inputFormat: FormatNoTextType, options?: CSHAKEOptionsNoEncodingType); constructor(variant: "KMAC128" | "KMAC256", inputFormat: "TEXT", options: KMACOptionsEncodingType); constructor(variant: "KMAC128" | "KMAC256", inputFormat: FormatNoTextType, options: KMACOptionsNoEncodingType); /** * Initialize CSHAKE variants. * * @param options Options containing CSHAKE params. * @param funcNameOverride Overrides any "funcName" present in `options` (used with KMAC) * @returns The delimiter to be used */ protected _initializeCSHAKE(options?: CSHAKEOptionsNoEncodingType, funcNameOverride?: packedValue): number; /** * Initialize KMAC variants. * * @param options Options containing KMAC params. */ protected _initializeKMAC(options: KMACOptionsNoEncodingType): void; /** * Returns the the KMAC in the specified format. * * @param options Hashmap of extra outputs options. `outputLen` must be specified. * @returns The KMAC in the format specified. */ protected _getKMAC(options: { outputLen: number; }): number[]; } export { jsSHA as default };