Create partial type definition for 'jsrsasign' (#5092)

* Create partial type definition for 'jsrsasign'

* Update comments

* Add jsrsasign dependency

* Make some params of Signature class optional

* Make init argument of Signature.init optional
This commit is contained in:
Acid Chicken (硫酸鶏) 2019-07-05 01:54:16 +09:00 committed by syuilo
parent 2c76d410ab
commit d5cd38b459
1 changed files with 803 additions and 0 deletions

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src/@types/jsrsasign.d.ts vendored Normal file
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// Attention: Partial Type Definition
declare module 'jsrsasign' {
//// HELPER TYPES
/**
* Attention: The value might be changed by the function.
*/
type Mutable<T> = T;
/**
* Deprecated: The function might be deleted in future release.
*/
type Deprecated<T> = T;
//// COMMON TYPES
/**
* byte number
*/
type ByteNumber = 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 | 23 | 24 | 25 | 26 | 27 | 28 | 29 | 30 | 31 | 32 | 33 | 34 | 35 | 36 | 37 | 38 | 39 | 40 | 41 | 42 | 43 | 44 | 45 | 46 | 47 | 48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57 | 58 | 59 | 60 | 61 | 62 | 63 | 64 | 65 | 66 | 67 | 68 | 69 | 70 | 71 | 72 | 73 | 74 | 75 | 76 | 77 | 78 | 79 | 80 | 81 | 82 | 83 | 84 | 85 | 86 | 87 | 88 | 89 | 90 | 91 | 92 | 93 | 94 | 95 | 96 | 97 | 98 | 99 | 100 | 101 | 102 | 103 | 104 | 105 | 106 | 107 | 108 | 109 | 110 | 111 | 112 | 113 | 114 | 115 | 116 | 117 | 118 | 119 | 120 | 121 | 122 | 123 | 124 | 125 | 126 | 127 | 128 | 129 | 130 | 131 | 132 | 133 | 134 | 135 | 136 | 137 | 138 | 139 | 140 | 141 | 142 | 143 | 144 | 145 | 146 | 147 | 148 | 149 | 150 | 151 | 152 | 153 | 154 | 155 | 156 | 157 | 158 | 159 | 160 | 161 | 162 | 163 | 164 | 165 | 166 | 167 | 168 | 169 | 170 | 171 | 172 | 173 | 174 | 175 | 176 | 177 | 178 | 179 | 180 | 181 | 182 | 183 | 184 | 185 | 186 | 187 | 188 | 189 | 190 | 191 | 192 | 193 | 194 | 195 | 196 | 197 | 198 | 199 | 200 | 201 | 202 | 203 | 204 | 205 | 206 | 207 | 208 | 209 | 210 | 211 | 212 | 213 | 214 | 215 | 216 | 217 | 218 | 219 | 220 | 221 | 222 | 223 | 224 | 225 | 226 | 227 | 228 | 229 | 230 | 231 | 232 | 233 | 234 | 235 | 236 | 237 | 238 | 239 | 240 | 241 | 242 | 243 | 244 | 245 | 246 | 247 | 248 | 249 | 250 | 251 | 252 | 253 | 254 | 255;
/**
* hexadecimal string /[0-9A-F]/
*/
type HexString = string;
/**
* binary string /[01]/
*/
type BinString = string;
/**
* base64 string /[A-Za-z0-9+/]=+/
*/
type Base64String = string;
/**
* base64 URL encoded string /[A-Za-z0-9_-]/
*/
type Base64URLString = string;
/**
* time value (ex. "151231235959Z")
*/
type TimeValue = string;
/**
* OID string (ex. '1.2.3.4.567')
*/
type OID = string;
/**
* OID name
*/
type OIDName = string;
/**
* PEM formatted string
*/
type PEM = string;
//// ASN1 TYPES
class ASN1Object {
public isModified: boolean;
public hTLV: ASN1TLV;
public hT: ASN1T;
public hL: ASN1L;
public hV: ASN1V;
public getLengthHexFromValue(): HexString;
public getEncodedHex(): ASN1TLV;
public getValueHex(): ASN1V;
public getFreshValueHex(): ASN1V;
}
class DERAbstractStructured extends ASN1Object {
constructor(params?: Partial<Record<'array', ASN1Object[]>>);
public setByASN1ObjectArray(asn1ObjectArray: ASN1Object[]): void;
public appendASN1Object(asn1Object: ASN1Object): void;
}
class DERSequence extends DERAbstractStructured {
constructor(params?: Partial<Record<'array', ASN1Object[]>>);
public getFreshValueHex(): ASN1V;
}
//// ASN1HEX TYPES
/**
* ASN.1 DER encoded data (hexadecimal string)
*/
type ASN1S = HexString;
/**
* index of something
*/
type Idx<T extends { [idx: string]: unknown } | { [idx: number]: unknown }> = ASN1S extends { [idx: string]: unknown } ? string : ASN1S extends { [idx: number]: unknown } ? number : never;
/**
* byte length of something
*/
type ByteLength<T extends { length: unknown }> = T['length'];
/**
* ASN.1 L(length) (hexadecimal string)
*/
type ASN1L = HexString;
/**
* ASN.1 T(tag) (hexadecimal string)
*/
type ASN1T = HexString;
/**
* ASN.1 V(value) (hexadecimal string)
*/
type ASN1V = HexString;
/**
* ASN.1 TLV (hexadecimal string)
*/
type ASN1TLV = HexString;
/**
* ASN.1 object string
*/
type ASN1ObjectString = string;
/**
* nth
*/
type Nth = number;
/**
* ASN.1 DER encoded OID value (hexadecimal string)
*/
type ASN1OIDV = HexString;
class ASN1HEX {
public static getLblen(s: ASN1S, idx: Idx<ASN1S>): ByteLength<ASN1L>;
public static getL(s: ASN1S, idx: Idx<ASN1S>): ASN1L;
public static getVblen(s: ASN1S, idx: Idx<ASN1S>): ByteLength<ASN1V>;
public static getVidx(s: ASN1S, idx: Idx<ASN1S>): Idx<ASN1V>;
public static getV(s: ASN1S, idx: Idx<ASN1S>): ASN1V;
public static getTLV(s: ASN1S, idx: Idx<ASN1S>): ASN1TLV;
public static getNextSiblingIdx(s: ASN1S, idx: Idx<ASN1S>): Idx<ASN1ObjectString>;
public static getChildIdx(h: ASN1S, pos: Idx<ASN1S>): Idx<ASN1ObjectString>[];
public static getNthChildIdx(h: ASN1S, idx: Idx<ASN1S>, nth: Nth): Idx<ASN1ObjectString>;
public static getIdxbyList(h: ASN1S, currentIndex: Idx<ASN1ObjectString>, nthList: Mutable<Nth[]>, checkingTag?: string): Idx<Mutable<Nth[]>>;
public static getTLVbyList(h: ASN1S, currentIndex: Idx<ASN1ObjectString>, nthList: Mutable<Nth[]>, checkingTag?: string): ASN1TLV;
public static getVbyList(h: ASN1S, currentIndex: Idx<ASN1ObjectString>, nthList: Mutable<Nth[]>, checkingTag?: string, removeUnusedbits?: boolean): ASN1V;
public static hextooidstr(hex: ASN1OIDV): OID;
public static dump(hexOrObj: ASN1S | ASN1Object, flags?: Record<string, unknown>, idx?: Idx<ASN1S>, indent?: string): string;
public static isASN1HEX(hex: string): hex is HexString;
public static oidname(oidDotOrHex: OID | ASN1OIDV): OIDName;
}
//// BIG INTEGER TYPES (PARTIAL)
class BigInteger {
constructor(a: null);
constructor(a: number, b: SecureRandom);
constructor(a: number, b: number, c: SecureRandom);
constructor(a: unknown);
constructor(a: string, b: number);
public am(i: number, x: number, w: number, j: number, c: number, n: number): number;
public DB: number;
public DM: number;
public DV: number;
public FV: number;
public F1: number;
public F2: number;
protected copyTo(r: Mutable<BigInteger>): void;
protected fromInt(x: number): void;
protected fromString(s: string, b: number): void;
protected clamp(): void;
public toString(b: number): string;
public negate(): BigInteger;
public abs(): BigInteger;
public compareTo(a: BigInteger): number;
public bitLength(): number;
protected dlShiftTo(n: number, r: Mutable<BigInteger>): void;
protected drShiftTo(n: number, r: Mutable<BigInteger>): void;
protected lShiftTo(n: number, r: Mutable<BigInteger>): void;
protected rShiftTo(n: number, r: Mutable<BigInteger>): void;
protected subTo(a: BigInteger, r: Mutable<BigInteger>): void;
protected multiplyTo(a: BigInteger, r: Mutable<BigInteger>): void;
protected squareTo(r: Mutable<BigInteger>): void;
protected divRemTo(m: BigInteger, q: Mutable<BigInteger>, r: Mutable<BigInteger>): void;
public mod(a: BigInteger): BigInteger;
protected invDigit(): number;
protected isEven(): boolean;
protected exp(e: number, z: Classic | Montgomery): BigInteger;
public modPowInt(e: number, m: BigInteger): BigInteger;
public static ZERO: BigInteger;
public static ONE: BigInteger;
}
class Classic {
constructor(m: BigInteger);
public convert(x: BigInteger): BigInteger;
public revert(x: BigInteger): BigInteger;
public reduce(x: Mutable<BigInteger>): void;
public mulTo(x: BigInteger, r: Mutable<BigInteger>): void;
public sqrTo(x: BigInteger, y: BigInteger, r: Mutable<BigInteger>): void;
}
class Montgomery {
constructor(m: BigInteger);
public convert(x: BigInteger): BigInteger;
public revert(x: BigInteger): BigInteger;
public reduce(x: Mutable<BigInteger>): void;
public mulTo(x: BigInteger, r: Mutable<BigInteger>): void;
public sqrTo(x: BigInteger, y: BigInteger, r: Mutable<BigInteger>): void;
}
//// KEYUTIL TYPES
type DecryptAES = (dataHex: HexString, keyHex: HexString, ivHex: HexString) => HexString;
type Decrypt3DES = (dataHex: HexString, keyHex: HexString, ivHex: HexString) => HexString;
type DecryptDES = (dataHex: HexString, keyHex: HexString, ivHex: HexString) => HexString;
type EncryptAES = (dataHex: HexString, keyHex: HexString, ivHex: HexString) => HexString;
type Encrypt3DES = (dataHex: HexString, keyHex: HexString, ivHex: HexString) => HexString;
type EncryptDES = (dataHex: HexString, keyHex: HexString, ivHex: HexString) => HexString;
type AlgList = {
'AES-256-CBC': { 'proc': DecryptAES; 'eproc': EncryptAES; keylen: 32; ivlen: 16; };
'AES-192-CBC': { 'proc': DecryptAES; 'eproc': EncryptAES; keylen: 24; ivlen: 16; };
'AES-128-CBC': { 'proc': DecryptAES; 'eproc': EncryptAES; keylen: 16; ivlen: 16; };
'DES-EDE3-CBC': { 'proc': Decrypt3DES; 'eproc': Encrypt3DES; keylen: 24; ivlen: 8; };
'DES-CBC': { 'proc': DecryptDES; 'eproc': EncryptDES; keylen: 8; ivlen: 8; };
};
type AlgName = keyof AlgList;
type PEMHeadAlgName = 'RSA' | 'EC' | 'DSA';
type GetKeyRSAParam = RSAKey | {
n: BigInteger;
e: number;
} | Record<'n' | 'e', HexString> | Record<'n' | 'e', HexString> & Record<'d' | 'p' | 'q' | 'dp' | 'dq' | 'co', HexString | null> | {
n: BigInteger;
e: number;
d: BigInteger;
} | {
kty: 'RSA';
} & Record<'n' | 'e', Base64URLString> | {
kty: 'RSA';
} & Record<'n' | 'e' | 'd' | 'p' | 'q' | 'dp' | 'dq' | 'qi', Base64URLString> | {
kty: 'RSA';
} & Record<'n' | 'e' | 'd', Base64URLString>;
type GetKeyECDSAParam = KJUR.crypto.ECDSA | {
curve: KJUR.crypto.CurveName;
xy: HexString;
} | {
curve: KJUR.crypto.CurveName;
d: HexString;
} | {
kty: 'EC';
crv: KJUR.crypto.CurveName;
x: Base64URLString;
y: Base64URLString;
} | {
kty: 'EC';
crv: KJUR.crypto.CurveName;
x: Base64URLString;
y: Base64URLString;
d: Base64URLString;
};
type GetKeyDSAParam = KJUR.crypto.DSA | Record<'p' | 'q' | 'g', BigInteger> & Record<'y', BigInteger | null> | Record<'p' | 'q' | 'g' | 'x', BigInteger> & Record<'y', BigInteger | null>;
type GetKeyParam = GetKeyRSAParam | GetKeyECDSAParam | GetKeyDSAParam | string;
class KEYUTIL {
public version: '1.0.0';
public parsePKCS5PEM(sPKCS5PEM: PEM): Partial<Record<'type' | 's', string>> & (Record<'cipher' | 'ivsalt', string> | Record<'cipher' | 'ivsalt', undefined>);
public getKeyAndUnusedIvByPasscodeAndIvsalt(algName: AlgName, passcode: string, ivsaltHex: HexString): Record<'keyhex' | 'ivhex', HexString>;
public decryptKeyB64(privateKeyB64: Base64String, sharedKeyAlgName: AlgName, sharedKeyHex: HexString, ivsaltHex: HexString): Base64String;
public getDecryptedKeyHex(sEncryptedPEM: PEM, passcode: string): HexString;
public getEncryptedPKCS5PEMFromPrvKeyHex(pemHeadAlg: PEMHeadAlgName, hPrvKey: string, passcode: string, sharedKeyAlgName?: AlgName | null, ivsaltHex?: HexString | null): PEM;
public parseHexOfEncryptedPKCS8(sHEX: HexString): {
ciphertext: ASN1V;
encryptionSchemeAlg: 'TripleDES';
encryptionSchemeIV: ASN1V;
pbkdf2Salt: ASN1V;
pbkdf2Iter: number;
};
public getPBKDF2KeyHexFromParam(info: ReturnType<this['parseHexOfEncryptedPKCS8']>, passcode: string): HexString;
private _getPlainPKCS8HexFromEncryptedPKCS8PEM(pkcs8PEM: PEM, passcode: string): HexString;
public getKeyFromEncryptedPKCS8PEM(prvKeyHex: HexString): ReturnType<this['getKeyFromPlainPrivatePKCS8Hex']>;
public parsePlainPrivatePKCS8Hex(pkcs8PrvHex: HexString): {
algparam: ASN1V | null;
algoid: ASN1V;
keyidx: Idx<ASN1V>;
};
public getKeyFromPlainPrivatePKCS8PEM(prvKeyHex: HexString): ReturnType<this['getKeyFromPlainPrivatePKCS8Hex']>;
public getKeyFromPlainPrivatePKCS8Hex(prvKeyHex: HexString): RSAKey | KJUR.crypto.DSA | KJUR.crypto.ECDSA;
private _getKeyFromPublicPKCS8Hex(h: HexString): RSAKey | KJUR.crypto.DSA | KJUR.crypto.ECDSA;
public parsePublicRawRSAKeyHex(pubRawRSAHex: HexString): Record<'n' | 'e', ASN1V>;
public parsePublicPKCS8Hex(pkcs8PubHex: HexString): {
algparam: ASN1V | Record<'p' | 'q' | 'g', ASN1V> | null;
algoid: ASN1V;
key: ASN1V;
};
public static getKey(param: GetKeyRSAParam): RSAKey;
public static getKey(param: GetKeyECDSAParam): KJUR.crypto.ECDSA;
public static getKey(param: GetKeyDSAParam): KJUR.crypto.DSA;
public static getKey(param: string, passcode?: string, hextype?: string): RSAKey | KJUR.crypto.ECDSA | KJUR.crypto.DSA;
public static generateKeypair(alg: 'RSA', keylen: number): Record<'prvKeyObj' | 'pubKeyObj', RSAKey>;
public static generateKeypair(alg: 'EC', curve: KJUR.crypto.CurveName): Record<'prvKeyObj' | 'pubKeyObj', KJUR.crypto.ECDSA>;
public static getPEM(keyObjOrHex: RSAKey | KJUR.crypto.ECDSA | KJUR.crypto.DSA, formatType?: 'PKCS1PRV' | 'PKCS5PRV' | 'PKCS8PRV', passwd?: string, encAlg?: 'DES-CBC' | 'DES-EDE3-CBC' | 'AES-128-CBC' | 'AES-192-CBC' | 'AES-256-CBC', hexType?: string, ivsaltHex?: HexString): object; // To Do
public static getKeyFromCSRPEM(csrPEM: PEM): RSAKey | KJUR.crypto.ECDSA | KJUR.crypto.DSA;
public static getKeyFromCSRHex(csrHex: HexString): RSAKey | KJUR.crypto.ECDSA | KJUR.crypto.DSA;
public static parseCSRHex(csrHex: HexString): Record<'p8pubkeyhex', ASN1TLV>;
public static getJWKFromKey(keyObj: RSAKey): {
kty: 'RSA';
} & Record<'n' | 'e' | 'd' | 'p' | 'q' | 'dp' | 'dq' | 'qi', Base64URLString> | {
kty: 'RSA';
} & Record<'n' | 'e', Base64URLString>;
public static getJWKFromKey(keyObj: KJUR.crypto.ECDSA): {
kty: 'EC';
crv: KJUR.crypto.CurveName;
x: Base64URLString;
y: Base64URLString;
d: Base64URLString;
} | {
kty: 'EC';
crv: KJUR.crypto.CurveName;
x: Base64URLString;
y: Base64URLString;
};
}
//// KJUR NAMESPACE (PARTIAL)
namespace KJUR {
namespace crypto {
type CurveName = 'secp128r1' | 'secp160k1' | 'secp160r1' | 'secp192k1' | 'secp192r1' | 'secp224r1' | 'secp256k1' | 'secp256r1' | 'secp384r1' | 'secp521r1';
class DSA {
public p: BigInteger | null;
public q: BigInteger | null;
public g: BigInteger | null;
public y: BigInteger | null;
public x: BigInteger | null;
public type: 'DSA';
public isPrivate: boolean;
public isPublic: boolean;
public setPrivate(p: BigInteger, q: BigInteger, g: BigInteger, y: BigInteger | null, x: BigInteger): void;
public setPrivateHex(hP: HexString, hQ: HexString, hG: HexString, hY: HexString | null, hX: HexString): void;
public setPublic(p: BigInteger, q: BigInteger, g: BigInteger, y: BigInteger): void;
public setPublicHex(hP: HexString, hQ: HexString, hG: HexString, hY: HexString): void;
public signWithMessageHash(sHashHex: HexString): HexString;
public verifyWithMessageHash(sHashHex: HexString, hSigVal: HexString): boolean;
public parseASN1Signature(hSigVal: HexString): [BigInteger, BigInteger];
public readPKCS5PrvKeyHex(h: HexString): void;
public readPKCS8PrvKeyHex(h: HexString): void;
public readPKCS8PubKeyHex(h: HexString): void;
public readCertPubKeyHex(h: HexString, nthPKI: number): void;
}
class ECDSA {
constructor(params?: {
curve?: CurveName;
prv?: HexString;
pub?: HexString;
});
public p: BigInteger | null;
public q: BigInteger | null;
public g: BigInteger | null;
public y: BigInteger | null;
public x: BigInteger | null;
public type: 'EC';
public isPrivate: boolean;
public isPublic: boolean;
public getBigRandom(limit: BigInteger): BigInteger;
public setNamedCurve(curveName: CurveName): void;
public setPrivateKeyHex(prvKeyHex: HexString): void;
public setPublicKeyHex(pubKeyHex: HexString): void;
public getPublicKeyXYHex(): Record<'x' | 'y', HexString>;
public getShortNISTPCurveName(): 'P-256' | 'P-384' | null;
public generateKeyPairHex(): Record<'ecprvhex' | 'ecpubhex', HexString>;
public signWithMessageHash(hashHex: HexString): HexString;
public signHex(hashHex: HexString, privHex: HexString): HexString;
public verifyWithMessageHash(sHashHex: HexString, hSigVal: HexString): boolean;
public parseASN1Signature(hSigVal: HexString): [BigInteger, BigInteger];
public readPKCS5PrvKeyHex(h: HexString): void;
public readPKCS8PrvKeyHex(h: HexString): void;
public readPKCS8PubKeyHex(h: HexString): void;
public readCertPubKeyHex(h: HexString, nthPKI: number): void;
public static parseSigHex(sigHex: HexString): Record<'r' | 's', BigInteger>;
public static parseSigHexInHexRS(sigHex: HexString): Record<'r' | 's', ASN1V>;
public static asn1SigToConcatSig(asn1Sig: HexString): HexString;
public static concatSigToASN1Sig(concatSig: HexString): ASN1TLV;
public static hexRSSigToASN1Sig(hR: HexString, hS: HexString): ASN1TLV;
public static biRSSigToASN1Sig(biR: BigInteger, biS: BigInteger): ASN1TLV;
public static getName(s: CurveName | HexString): 'secp256r1' | 'secp256k1' | 'secp384r1' | null;
}
class Signature {
constructor(params?: ({
alg: string;
prov?: string;
} | {}) & ({
psssaltlen: number;
} | {}) & ({
prvkeypem: PEM;
prvkeypas?: never;
} | {}));
private _setAlgNames(): void;
private _zeroPaddingOfSignature(hex: HexString, bitLength: number): HexString;
public setAlgAndProvider(alg: string, prov: string): void;
public init(key: GetKeyParam, pass?: string): void;
public updateString(str: string): void;
public updateHex(hex: HexString): void;
public sign(): HexString;
public signString(str: string): HexString;
public signHex(hex: HexString): HexString;
public verify(hSigVal: string): boolean | 0;
}
}
}
//// RSAKEY TYPES
class RSAKey {
public n: BigInteger | null;
public e: number;
public d: BigInteger | null;
public p: BigInteger | null;
public q: BigInteger | null;
public dmp1: BigInteger | null;
public dmq1: BigInteger | null;
public coeff: BigInteger | null;
public type: 'RSA';
public isPrivate?: boolean;
public isPublic?: boolean;
//// RSA PUBLIC
protected doPublic(x: BigInteger): BigInteger;
public setPublic(N: BigInteger, E: number): void;
public setPublic(N: HexString, E: HexString): void;
public encrypt(text: string): HexString | null;
public encryptOAEP(text: string, hash?: string, hashLen?: number): HexString | null;
public encryptOAEP(text: string, hash?: (s: string) => string, hashLen?: number): HexString | null;
//// RSA PRIVATE
protected doPrivate(x: BigInteger): BigInteger;
public setPrivate(N: BigInteger, E: number, D: BigInteger): void;
public setPrivate(N: HexString, E: HexString, D: HexString): void;
public setPrivateEx(N: HexString, E: HexString, D?: HexString | null, P?: HexString | null, Q?: HexString | null, DP?: HexString | null, DQ?: HexString | null, C?: HexString | null): void;
public generate(B: number, E: HexString): void;
public decrypt(ctext: HexString): string;
public decryptOAEP(ctext: HexString, hash?: string, hashLen?: number): string | null;
public encryptOAEP(ctext: HexString, hash?: (s: string) => string, hashLen?: number): string | null;
//// RSA PEM
public getPosArrayOfChildrenFromHex(hPrivateKey: PEM): Idx<ASN1ObjectString>[];
public getHexValueArrayOfChildrenFromHex(hPrivateKey: PEM): Idx<ASN1ObjectString>[];
public readPrivateKeyFromPEMString(keyPEM: PEM): void;
public readPKCS5PrvKeyHex(h: HexString): void;
public readPKCS8PrvKeyHex(h: HexString): void;
public readPKCS5PubKeyHex(h: HexString): void;
public readPKCS8PubKeyHex(h: HexString): void;
public readCertPubKeyHex(h: HexString, nthPKI: Nth): void;
//// RSA SIGN
public sign(s: string, hashAlg: string): HexString;
public signWithMessageHash(sHashHex: HexString, hashAlg: string): HexString;
public signPSS(s: string, hashAlg: string, sLen: number): HexString;
public signWithMessageHashPSS(hHash: HexString, hashAlg: string, sLen: number): HexString;
public verify(sMsg: string, hSig: HexString): boolean | 0;
public verifyWithMessageHash(sHashHex: HexString, hSig: HexString): boolean | 0;
public verifyPSS(sMsg: string, hSig: HexString, hashAlg: string, sLen: number): boolean;
public verifyWithMessageHashPSS(hHash: HexString, hSig: HexString, hashAlg: string, sLen: number): boolean;
public static SALT_LEN_HLEN: -1;
public static SALT_LEN_MAX: -2;
public static SALT_LEN_RECOVER: -2;
}
/// RNG TYPES
class SecureRandom {
public nextBytes(ba: Mutable<ByteNumber[]>): void;
}
//// X509 TYPES
type ExtInfo = {
critical: boolean;
oid: OID;
vidx: Idx<ASN1V>;
};
type ExtAIAInfo = Record<'ocsp' | 'caissuer', string>;
type ExtCertificatePolicy = {
id: OIDName;
} & Partial<{
cps: string;
} | {
unotice: string;
}>;
class X509 {
public hex: HexString | null;
public version: number;
public foffset: number;
public aExtInfo: null;
public getVersion(): number;
public getSerialNumberHex(): ASN1V;
public getSignatureAlgorithmField(): OIDName;
public getIssuerHex(): ASN1TLV;
public getIssuerString(): HexString;
public getSubjectHex(): ASN1TLV;
public getSubjectString(): HexString;
public getNotBefore(): TimeValue;
public getNotAfter(): TimeValue;
public getPublicKeyHex(): ASN1TLV;
public getPublicKeyIdx(): Idx<Mutable<Nth[]>>;
public getPublicKeyContentIdx(): Idx<Mutable<Nth[]>>;
public getPublicKey(): RSAKey | KJUR.crypto.ECDSA | KJUR.crypto.DSA;
public getSignatureAlgorithmName(): OIDName;
public getSignatureValueHex(): ASN1V;
public verifySignature(pubKey: GetKeyParam): boolean | 0;
public parseExt(): void;
public getExtInfo(oidOrName: OID | string): ExtInfo | undefined;
public getExtBasicConstraints(): ExtInfo | {} | {
cA: true;
pathLen?: number;
};
public getExtKeyUsageBin(): BinString;
public getExtKeyUsageString(): string;
public getExtSubjectKeyIdentifier(): ASN1V | undefined;
public getExtAuthorityKeyIdentifier(): {
kid: ASN1V;
} | undefined;
public getExtExtKeyUsageName(): OIDName[] | undefined;
public getExtSubjectAltName(): Deprecated<string[]>;
public getExtSubjectAltName2(): ['MAIL' | 'DNS' | 'DN' | 'URI' | 'IP', string][] | undefined;
public getExtCRLDistributionPointsURI(): string[] | undefined;
public getExtAIAInfo(): ExtAIAInfo | undefined;
public getExtCertificatePolicies(): ExtCertificatePolicy[] | undefined;
public readCertPEM(sCertPEM: PEM): void;
public readCertHex(sCertHex: HexString): void;
public getInfo(): string;
public static hex2dn(hex: HexString, idx?: Idx<HexString>): string;
public static hex2rdn(hex: HexString, idx?: Idx<HexString>): string;
public static hex2attrTypeValue(hex: HexString, idx?: Idx<HexString>): string;
public static getPublicKeyFromCertPEM(sCertPEM: PEM): RSAKey | KJUR.crypto.ECDSA | KJUR.crypto.DSA;
public static getPublicKeyInfoPropOfCertPEM(sCertPEM: PEM): {
algparam: ASN1V | null;
leyhex: ASN1V;
algoid: ASN1V;
};
}
}