@ragnaraven/zitadel-node-dual/dist/api/generated/zitadel/webkey/v2beta/key.js

Library for API access to ZITADEL with modern ES import syntax. Works everywhere - NestJS, Node.js, any TypeScript environment. No more require()!

"use strict";
var __create = Object.create;
var __defProp = Object.defineProperty;
var __getOwnPropDesc = Object.getOwnPropertyDescriptor;
var __getOwnPropNames = Object.getOwnPropertyNames;
var __getProtoOf = Object.getPrototypeOf;
var __hasOwnProp = Object.prototype.hasOwnProperty;
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 __toESM = (mod, isNodeMode, target) => (target = mod != null ? __create(__getProtoOf(mod)) : {}, __copyProps(
  // If the importer is in node compatibility mode or this is not an ESM
  // file that has been converted to a CommonJS file using a Babel-
  // compatible transform (i.e. "__esModule" has not been set), then set
  // "default" to the CommonJS "module.exports" for node compatibility.
  isNodeMode || !mod || !mod.__esModule ? __defProp(target, "default", { value: mod, enumerable: true }) : target,
  mod
));
var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod);
var key_exports = {};
__export(key_exports, {
  ECDSA: () => ECDSA,
  ECDSACurve: () => ECDSACurve,
  ED25519: () => ED25519,
  RSA: () => RSA,
  RSABits: () => RSABits,
  RSAHasher: () => RSAHasher,
  State: () => State,
  WebKey: () => WebKey,
  eCDSACurveFromJSON: () => eCDSACurveFromJSON,
  eCDSACurveToJSON: () => eCDSACurveToJSON,
  protobufPackage: () => protobufPackage,
  rSABitsFromJSON: () => rSABitsFromJSON,
  rSABitsToJSON: () => rSABitsToJSON,
  rSAHasherFromJSON: () => rSAHasherFromJSON,
  rSAHasherToJSON: () => rSAHasherToJSON,
  stateFromJSON: () => stateFromJSON,
  stateToJSON: () => stateToJSON
});
module.exports = __toCommonJS(key_exports);
var import_wire = require("@bufbuild/protobuf/wire");
var import_long = __toESM(require("long"));
var import_timestamp = require("../../../google/protobuf/timestamp.js");
const protobufPackage = "zitadel.webkey.v2beta";
var State = /* @__PURE__ */ ((State2) => {
  State2[State2["STATE_UNSPECIFIED"] = 0] = "STATE_UNSPECIFIED";
  State2[State2["STATE_INITIAL"] = 1] = "STATE_INITIAL";
  State2[State2["STATE_ACTIVE"] = 2] = "STATE_ACTIVE";
  State2[State2["STATE_INACTIVE"] = 3] = "STATE_INACTIVE";
  State2[State2["STATE_REMOVED"] = 4] = "STATE_REMOVED";
  State2[State2["UNRECOGNIZED"] = -1] = "UNRECOGNIZED";
  return State2;
})(State || {});
function stateFromJSON(object) {
  switch (object) {
    case 0:
    case "STATE_UNSPECIFIED":
      return 0 /* STATE_UNSPECIFIED */;
    case 1:
    case "STATE_INITIAL":
      return 1 /* STATE_INITIAL */;
    case 2:
    case "STATE_ACTIVE":
      return 2 /* STATE_ACTIVE */;
    case 3:
    case "STATE_INACTIVE":
      return 3 /* STATE_INACTIVE */;
    case 4:
    case "STATE_REMOVED":
      return 4 /* STATE_REMOVED */;
    case -1:
    case "UNRECOGNIZED":
    default:
      return -1 /* UNRECOGNIZED */;
  }
}
function stateToJSON(object) {
  switch (object) {
    case 0 /* STATE_UNSPECIFIED */:
      return "STATE_UNSPECIFIED";
    case 1 /* STATE_INITIAL */:
      return "STATE_INITIAL";
    case 2 /* STATE_ACTIVE */:
      return "STATE_ACTIVE";
    case 3 /* STATE_INACTIVE */:
      return "STATE_INACTIVE";
    case 4 /* STATE_REMOVED */:
      return "STATE_REMOVED";
    case -1 /* UNRECOGNIZED */:
    default:
      return "UNRECOGNIZED";
  }
}
var RSABits = /* @__PURE__ */ ((RSABits2) => {
  RSABits2[RSABits2["RSA_BITS_UNSPECIFIED"] = 0] = "RSA_BITS_UNSPECIFIED";
  RSABits2[RSABits2["RSA_BITS_2048"] = 1] = "RSA_BITS_2048";
  RSABits2[RSABits2["RSA_BITS_3072"] = 2] = "RSA_BITS_3072";
  RSABits2[RSABits2["RSA_BITS_4096"] = 3] = "RSA_BITS_4096";
  RSABits2[RSABits2["UNRECOGNIZED"] = -1] = "UNRECOGNIZED";
  return RSABits2;
})(RSABits || {});
function rSABitsFromJSON(object) {
  switch (object) {
    case 0:
    case "RSA_BITS_UNSPECIFIED":
      return 0 /* RSA_BITS_UNSPECIFIED */;
    case 1:
    case "RSA_BITS_2048":
      return 1 /* RSA_BITS_2048 */;
    case 2:
    case "RSA_BITS_3072":
      return 2 /* RSA_BITS_3072 */;
    case 3:
    case "RSA_BITS_4096":
      return 3 /* RSA_BITS_4096 */;
    case -1:
    case "UNRECOGNIZED":
    default:
      return -1 /* UNRECOGNIZED */;
  }
}
function rSABitsToJSON(object) {
  switch (object) {
    case 0 /* RSA_BITS_UNSPECIFIED */:
      return "RSA_BITS_UNSPECIFIED";
    case 1 /* RSA_BITS_2048 */:
      return "RSA_BITS_2048";
    case 2 /* RSA_BITS_3072 */:
      return "RSA_BITS_3072";
    case 3 /* RSA_BITS_4096 */:
      return "RSA_BITS_4096";
    case -1 /* UNRECOGNIZED */:
    default:
      return "UNRECOGNIZED";
  }
}
var RSAHasher = /* @__PURE__ */ ((RSAHasher2) => {
  RSAHasher2[RSAHasher2["RSA_HASHER_UNSPECIFIED"] = 0] = "RSA_HASHER_UNSPECIFIED";
  RSAHasher2[RSAHasher2["RSA_HASHER_SHA256"] = 1] = "RSA_HASHER_SHA256";
  RSAHasher2[RSAHasher2["RSA_HASHER_SHA384"] = 2] = "RSA_HASHER_SHA384";
  RSAHasher2[RSAHasher2["RSA_HASHER_SHA512"] = 3] = "RSA_HASHER_SHA512";
  RSAHasher2[RSAHasher2["UNRECOGNIZED"] = -1] = "UNRECOGNIZED";
  return RSAHasher2;
})(RSAHasher || {});
function rSAHasherFromJSON(object) {
  switch (object) {
    case 0:
    case "RSA_HASHER_UNSPECIFIED":
      return 0 /* RSA_HASHER_UNSPECIFIED */;
    case 1:
    case "RSA_HASHER_SHA256":
      return 1 /* RSA_HASHER_SHA256 */;
    case 2:
    case "RSA_HASHER_SHA384":
      return 2 /* RSA_HASHER_SHA384 */;
    case 3:
    case "RSA_HASHER_SHA512":
      return 3 /* RSA_HASHER_SHA512 */;
    case -1:
    case "UNRECOGNIZED":
    default:
      return -1 /* UNRECOGNIZED */;
  }
}
function rSAHasherToJSON(object) {
  switch (object) {
    case 0 /* RSA_HASHER_UNSPECIFIED */:
      return "RSA_HASHER_UNSPECIFIED";
    case 1 /* RSA_HASHER_SHA256 */:
      return "RSA_HASHER_SHA256";
    case 2 /* RSA_HASHER_SHA384 */:
      return "RSA_HASHER_SHA384";
    case 3 /* RSA_HASHER_SHA512 */:
      return "RSA_HASHER_SHA512";
    case -1 /* UNRECOGNIZED */:
    default:
      return "UNRECOGNIZED";
  }
}
var ECDSACurve = /* @__PURE__ */ ((ECDSACurve2) => {
  ECDSACurve2[ECDSACurve2["ECDSA_CURVE_UNSPECIFIED"] = 0] = "ECDSA_CURVE_UNSPECIFIED";
  ECDSACurve2[ECDSACurve2["ECDSA_CURVE_P256"] = 1] = "ECDSA_CURVE_P256";
  ECDSACurve2[ECDSACurve2["ECDSA_CURVE_P384"] = 2] = "ECDSA_CURVE_P384";
  ECDSACurve2[ECDSACurve2["ECDSA_CURVE_P512"] = 3] = "ECDSA_CURVE_P512";
  ECDSACurve2[ECDSACurve2["UNRECOGNIZED"] = -1] = "UNRECOGNIZED";
  return ECDSACurve2;
})(ECDSACurve || {});
function eCDSACurveFromJSON(object) {
  switch (object) {
    case 0:
    case "ECDSA_CURVE_UNSPECIFIED":
      return 0 /* ECDSA_CURVE_UNSPECIFIED */;
    case 1:
    case "ECDSA_CURVE_P256":
      return 1 /* ECDSA_CURVE_P256 */;
    case 2:
    case "ECDSA_CURVE_P384":
      return 2 /* ECDSA_CURVE_P384 */;
    case 3:
    case "ECDSA_CURVE_P512":
      return 3 /* ECDSA_CURVE_P512 */;
    case -1:
    case "UNRECOGNIZED":
    default:
      return -1 /* UNRECOGNIZED */;
  }
}
function eCDSACurveToJSON(object) {
  switch (object) {
    case 0 /* ECDSA_CURVE_UNSPECIFIED */:
      return "ECDSA_CURVE_UNSPECIFIED";
    case 1 /* ECDSA_CURVE_P256 */:
      return "ECDSA_CURVE_P256";
    case 2 /* ECDSA_CURVE_P384 */:
      return "ECDSA_CURVE_P384";
    case 3 /* ECDSA_CURVE_P512 */:
      return "ECDSA_CURVE_P512";
    case -1 /* UNRECOGNIZED */:
    default:
      return "UNRECOGNIZED";
  }
}
function createBaseWebKey() {
  return {
    id: "",
    creationDate: void 0,
    changeDate: void 0,
    state: 0,
    rsa: void 0,
    ecdsa: void 0,
    ed25519: void 0
  };
}
const WebKey = {
  encode(message, writer = new import_wire.BinaryWriter()) {
    if (message.id !== "") {
      writer.uint32(10).string(message.id);
    }
    if (message.creationDate !== void 0) {
      import_timestamp.Timestamp.encode(toTimestamp(message.creationDate), writer.uint32(18).fork()).join();
    }
    if (message.changeDate !== void 0) {
      import_timestamp.Timestamp.encode(toTimestamp(message.changeDate), writer.uint32(26).fork()).join();
    }
    if (message.state !== 0) {
      writer.uint32(32).int32(message.state);
    }
    if (message.rsa !== void 0) {
      RSA.encode(message.rsa, writer.uint32(42).fork()).join();
    }
    if (message.ecdsa !== void 0) {
      ECDSA.encode(message.ecdsa, writer.uint32(50).fork()).join();
    }
    if (message.ed25519 !== void 0) {
      ED25519.encode(message.ed25519, writer.uint32(58).fork()).join();
    }
    return writer;
  },
  decode(input, length) {
    const reader = input instanceof import_wire.BinaryReader ? input : new import_wire.BinaryReader(input);
    const end = length === void 0 ? reader.len : reader.pos + length;
    const message = createBaseWebKey();
    while (reader.pos < end) {
      const tag = reader.uint32();
      switch (tag >>> 3) {
        case 1: {
          if (tag !== 10) {
            break;
          }
          message.id = reader.string();
          continue;
        }
        case 2: {
          if (tag !== 18) {
            break;
          }
          message.creationDate = fromTimestamp(import_timestamp.Timestamp.decode(reader, reader.uint32()));
          continue;
        }
        case 3: {
          if (tag !== 26) {
            break;
          }
          message.changeDate = fromTimestamp(import_timestamp.Timestamp.decode(reader, reader.uint32()));
          continue;
        }
        case 4: {
          if (tag !== 32) {
            break;
          }
          message.state = reader.int32();
          continue;
        }
        case 5: {
          if (tag !== 42) {
            break;
          }
          message.rsa = RSA.decode(reader, reader.uint32());
          continue;
        }
        case 6: {
          if (tag !== 50) {
            break;
          }
          message.ecdsa = ECDSA.decode(reader, reader.uint32());
          continue;
        }
        case 7: {
          if (tag !== 58) {
            break;
          }
          message.ed25519 = ED25519.decode(reader, reader.uint32());
          continue;
        }
      }
      if ((tag & 7) === 4 || tag === 0) {
        break;
      }
      reader.skip(tag & 7);
    }
    return message;
  },
  fromJSON(object) {
    return {
      id: isSet(object.id) ? globalThis.String(object.id) : "",
      creationDate: isSet(object.creationDate) ? fromJsonTimestamp(object.creationDate) : void 0,
      changeDate: isSet(object.changeDate) ? fromJsonTimestamp(object.changeDate) : void 0,
      state: isSet(object.state) ? stateFromJSON(object.state) : 0,
      rsa: isSet(object.rsa) ? RSA.fromJSON(object.rsa) : void 0,
      ecdsa: isSet(object.ecdsa) ? ECDSA.fromJSON(object.ecdsa) : void 0,
      ed25519: isSet(object.ed25519) ? ED25519.fromJSON(object.ed25519) : void 0
    };
  },
  toJSON(message) {
    const obj = {};
    if (message.id !== "") {
      obj.id = message.id;
    }
    if (message.creationDate !== void 0) {
      obj.creationDate = message.creationDate.toISOString();
    }
    if (message.changeDate !== void 0) {
      obj.changeDate = message.changeDate.toISOString();
    }
    if (message.state !== 0) {
      obj.state = stateToJSON(message.state);
    }
    if (message.rsa !== void 0) {
      obj.rsa = RSA.toJSON(message.rsa);
    }
    if (message.ecdsa !== void 0) {
      obj.ecdsa = ECDSA.toJSON(message.ecdsa);
    }
    if (message.ed25519 !== void 0) {
      obj.ed25519 = ED25519.toJSON(message.ed25519);
    }
    return obj;
  },
  create(base) {
    return WebKey.fromPartial(base ?? {});
  },
  fromPartial(object) {
    const message = createBaseWebKey();
    message.id = object.id ?? "";
    message.creationDate = object.creationDate ?? void 0;
    message.changeDate = object.changeDate ?? void 0;
    message.state = object.state ?? 0;
    message.rsa = object.rsa !== void 0 && object.rsa !== null ? RSA.fromPartial(object.rsa) : void 0;
    message.ecdsa = object.ecdsa !== void 0 && object.ecdsa !== null ? ECDSA.fromPartial(object.ecdsa) : void 0;
    message.ed25519 = object.ed25519 !== void 0 && object.ed25519 !== null ? ED25519.fromPartial(object.ed25519) : void 0;
    return message;
  }
};
function createBaseRSA() {
  return { bits: 0, hasher: 0 };
}
const RSA = {
  encode(message, writer = new import_wire.BinaryWriter()) {
    if (message.bits !== 0) {
      writer.uint32(8).int32(message.bits);
    }
    if (message.hasher !== 0) {
      writer.uint32(16).int32(message.hasher);
    }
    return writer;
  },
  decode(input, length) {
    const reader = input instanceof import_wire.BinaryReader ? input : new import_wire.BinaryReader(input);
    const end = length === void 0 ? reader.len : reader.pos + length;
    const message = createBaseRSA();
    while (reader.pos < end) {
      const tag = reader.uint32();
      switch (tag >>> 3) {
        case 1: {
          if (tag !== 8) {
            break;
          }
          message.bits = reader.int32();
          continue;
        }
        case 2: {
          if (tag !== 16) {
            break;
          }
          message.hasher = reader.int32();
          continue;
        }
      }
      if ((tag & 7) === 4 || tag === 0) {
        break;
      }
      reader.skip(tag & 7);
    }
    return message;
  },
  fromJSON(object) {
    return {
      bits: isSet(object.bits) ? rSABitsFromJSON(object.bits) : 0,
      hasher: isSet(object.hasher) ? rSAHasherFromJSON(object.hasher) : 0
    };
  },
  toJSON(message) {
    const obj = {};
    if (message.bits !== 0) {
      obj.bits = rSABitsToJSON(message.bits);
    }
    if (message.hasher !== 0) {
      obj.hasher = rSAHasherToJSON(message.hasher);
    }
    return obj;
  },
  create(base) {
    return RSA.fromPartial(base ?? {});
  },
  fromPartial(object) {
    const message = createBaseRSA();
    message.bits = object.bits ?? 0;
    message.hasher = object.hasher ?? 0;
    return message;
  }
};
function createBaseECDSA() {
  return { curve: 0 };
}
const ECDSA = {
  encode(message, writer = new import_wire.BinaryWriter()) {
    if (message.curve !== 0) {
      writer.uint32(8).int32(message.curve);
    }
    return writer;
  },
  decode(input, length) {
    const reader = input instanceof import_wire.BinaryReader ? input : new import_wire.BinaryReader(input);
    const end = length === void 0 ? reader.len : reader.pos + length;
    const message = createBaseECDSA();
    while (reader.pos < end) {
      const tag = reader.uint32();
      switch (tag >>> 3) {
        case 1: {
          if (tag !== 8) {
            break;
          }
          message.curve = reader.int32();
          continue;
        }
      }
      if ((tag & 7) === 4 || tag === 0) {
        break;
      }
      reader.skip(tag & 7);
    }
    return message;
  },
  fromJSON(object) {
    return { curve: isSet(object.curve) ? eCDSACurveFromJSON(object.curve) : 0 };
  },
  toJSON(message) {
    const obj = {};
    if (message.curve !== 0) {
      obj.curve = eCDSACurveToJSON(message.curve);
    }
    return obj;
  },
  create(base) {
    return ECDSA.fromPartial(base ?? {});
  },
  fromPartial(object) {
    const message = createBaseECDSA();
    message.curve = object.curve ?? 0;
    return message;
  }
};
function createBaseED25519() {
  return {};
}
const ED25519 = {
  encode(_, writer = new import_wire.BinaryWriter()) {
    return writer;
  },
  decode(input, length) {
    const reader = input instanceof import_wire.BinaryReader ? input : new import_wire.BinaryReader(input);
    const end = length === void 0 ? reader.len : reader.pos + length;
    const message = createBaseED25519();
    while (reader.pos < end) {
      const tag = reader.uint32();
      switch (tag >>> 3) {
      }
      if ((tag & 7) === 4 || tag === 0) {
        break;
      }
      reader.skip(tag & 7);
    }
    return message;
  },
  fromJSON(_) {
    return {};
  },
  toJSON(_) {
    const obj = {};
    return obj;
  },
  create(base) {
    return ED25519.fromPartial(base ?? {});
  },
  fromPartial(_) {
    const message = createBaseED25519();
    return message;
  }
};
function toTimestamp(date) {
  const seconds = numberToLong(Math.trunc(date.getTime() / 1e3));
  const nanos = date.getTime() % 1e3 * 1e6;
  return { seconds, nanos };
}
function fromTimestamp(t) {
  let millis = (t.seconds.toNumber() || 0) * 1e3;
  millis += (t.nanos || 0) / 1e6;
  return new globalThis.Date(millis);
}
function fromJsonTimestamp(o) {
  if (o instanceof globalThis.Date) {
    return o;
  } else if (typeof o === "string") {
    return new globalThis.Date(o);
  } else {
    return fromTimestamp(import_timestamp.Timestamp.fromJSON(o));
  }
}
function numberToLong(number) {
  return import_long.default.fromNumber(number);
}
function isSet(value) {
  return value !== null && value !== void 0;
}
// Annotate the CommonJS export names for ESM import in node:
0 && (module.exports = {
  ECDSA,
  ECDSACurve,
  ED25519,
  RSA,
  RSABits,
  RSAHasher,
  State,
  WebKey,
  eCDSACurveFromJSON,
  eCDSACurveToJSON,
  protobufPackage,
  rSABitsFromJSON,
  rSABitsToJSON,
  rSAHasherFromJSON,
  rSAHasherToJSON,
  stateFromJSON,
  stateToJSON
});
//# sourceMappingURL=key.js.map