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@linode/validation

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Yup validation schemas for use with the Linode APIv4

github.com/linode/manager/tree/develop

1,269 lines (1,263 loc) • 395 kB

JavaScript

"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 __commonJS = (cb, mod) => function __require() { return mod || (0, cb[__getOwnPropNames(cb)[0]])((mod = { exports: {} }).exports, mod), mod.exports; }; 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 )); // ../../node_modules/.pnpm/property-expr@2.0.6/node_modules/property-expr/index.js var require_property_expr = __commonJS({ "../../node_modules/.pnpm/property-expr@2.0.6/node_modules/property-expr/index.js"(exports, module) { "use strict"; function Cache(maxSize) { this._maxSize = maxSize; this.clear(); } Cache.prototype.clear = function() { this._size = 0; this._values = /* @__PURE__ */ Object.create(null); }; Cache.prototype.get = function(key) { return this._values[key]; }; Cache.prototype.set = function(key, value) { this._size >= this._maxSize && this.clear(); if (!(key in this._values)) this._size++; return this._values[key] = value; }; var SPLIT_REGEX = /[^.^\]^[]+|(?=\[\]|\.\.)/g; var DIGIT_REGEX = /^\d+$/; var LEAD_DIGIT_REGEX = /^\d/; var SPEC_CHAR_REGEX = /[~`!#$%\^&*+=\-\[\]\\';,/{}|\\":<>\?]/g; var CLEAN_QUOTES_REGEX = /^\s*(['"]?)(.*?)(\1)\s*$/; var MAX_CACHE_SIZE = 512; var pathCache = new Cache(MAX_CACHE_SIZE); var setCache = new Cache(MAX_CACHE_SIZE); var getCache = new Cache(MAX_CACHE_SIZE); module.exports = { Cache, split: split2, normalizePath: normalizePath2, setter: function(path) { var parts = normalizePath2(path); return setCache.get(path) || setCache.set(path, function setter(obj, value) { var index = 0; var len = parts.length; var data = obj; while (index < len - 1) { var part = parts[index]; if (part === "__proto__" || part === "constructor" || part === "prototype") { return obj; } data = data[parts[index++]]; } data[parts[index]] = value; }); }, getter: function(path, safe) { var parts = normalizePath2(path); return getCache.get(path) || getCache.set(path, function getter2(data) { var index = 0, len = parts.length; while (index < len) { if (data != null || !safe) data = data[parts[index++]]; else return; } return data; }); }, join: function(segments) { return segments.reduce(function(path, part) { return path + (isQuoted(part) || DIGIT_REGEX.test(part) ? "[" + part + "]" : (path ? "." : "") + part); }, ""); }, forEach: function(path, cb, thisArg) { forEach2(Array.isArray(path) ? path : split2(path), cb, thisArg); } }; function normalizePath2(path) { return pathCache.get(path) || pathCache.set( path, split2(path).map(function(part) { return part.replace(CLEAN_QUOTES_REGEX, "$2"); }) ); } function split2(path) { return path.match(SPLIT_REGEX) || [""]; } function forEach2(parts, iter, thisArg) { var len = parts.length, part, idx, isArray, isBracket; for (idx = 0; idx < len; idx++) { part = parts[idx]; if (part) { if (shouldBeQuoted(part)) { part = '"' + part + '"'; } isBracket = isQuoted(part); isArray = !isBracket && /^\d+$/.test(part); iter.call(thisArg, part, isBracket, isArray, idx, parts); } } } function isQuoted(str) { return typeof str === "string" && str && ["'", '"'].indexOf(str.charAt(0)) !== -1; } function hasLeadingNumber(part) { return part.match(LEAD_DIGIT_REGEX) && !part.match(DIGIT_REGEX); } function hasSpecialChars(part) { return SPEC_CHAR_REGEX.test(part); } function shouldBeQuoted(part) { return !isQuoted(part) && (hasLeadingNumber(part) || hasSpecialChars(part)); } } }); // ../../node_modules/.pnpm/tiny-case@1.0.3/node_modules/tiny-case/index.js var require_tiny_case = __commonJS({ "../../node_modules/.pnpm/tiny-case@1.0.3/node_modules/tiny-case/index.js"(exports, module) { "use strict"; var reWords = /[A-Z\xc0-\xd6\xd8-\xde]?[a-z\xdf-\xf6\xf8-\xff]+(?:['’](?:d|ll|m|re|s|t|ve))?(?=[\xac\xb1\xd7\xf7\x00-\x2f\x3a-\x40\x5b-\x60\x7b-\xbf\u2000-\u206f \t\x0b\f\xa0\ufeff\n\r\u2028\u2029\u1680\u180e\u2000\u2001\u2002\u2003\u2004\u2005\u2006\u2007\u2008\u2009\u200a\u202f\u205f\u3000]|[A-Z\xc0-\xd6\xd8-\xde]|$)|(?:[A-Z\xc0-\xd6\xd8-\xde]|[^\ud800-\udfff\xac\xb1\xd7\xf7\x00-\x2f\x3a-\x40\x5b-\x60\x7b-\xbf\u2000-\u206f \t\x0b\f\xa0\ufeff\n\r\u2028\u2029\u1680\u180e\u2000\u2001\u2002\u2003\u2004\u2005\u2006\u2007\u2008\u2009\u200a\u202f\u205f\u3000\d+\u2700-\u27bfa-z\xdf-\xf6\xf8-\xffA-Z\xc0-\xd6\xd8-\xde])+(?:['’](?:D|LL|M|RE|S|T|VE))?(?=[\xac\xb1\xd7\xf7\x00-\x2f\x3a-\x40\x5b-\x60\x7b-\xbf\u2000-\u206f \t\x0b\f\xa0\ufeff\n\r\u2028\u2029\u1680\u180e\u2000\u2001\u2002\u2003\u2004\u2005\u2006\u2007\u2008\u2009\u200a\u202f\u205f\u3000]|[A-Z\xc0-\xd6\xd8-\xde](?:[a-z\xdf-\xf6\xf8-\xff]|[^\ud800-\udfff\xac\xb1\xd7\xf7\x00-\x2f\x3a-\x40\x5b-\x60\x7b-\xbf\u2000-\u206f \t\x0b\f\xa0\ufeff\n\r\u2028\u2029\u1680\u180e\u2000\u2001\u2002\u2003\u2004\u2005\u2006\u2007\u2008\u2009\u200a\u202f\u205f\u3000\d+\u2700-\u27bfa-z\xdf-\xf6\xf8-\xffA-Z\xc0-\xd6\xd8-\xde])|$)|[A-Z\xc0-\xd6\xd8-\xde]?(?:[a-z\xdf-\xf6\xf8-\xff]|[^\ud800-\udfff\xac\xb1\xd7\xf7\x00-\x2f\x3a-\x40\x5b-\x60\x7b-\xbf\u2000-\u206f \t\x0b\f\xa0\ufeff\n\r\u2028\u2029\u1680\u180e\u2000\u2001\u2002\u2003\u2004\u2005\u2006\u2007\u2008\u2009\u200a\u202f\u205f\u3000\d+\u2700-\u27bfa-z\xdf-\xf6\xf8-\xffA-Z\xc0-\xd6\xd8-\xde])+(?:['’](?:d|ll|m|re|s|t|ve))?|[A-Z\xc0-\xd6\xd8-\xde]+(?:['’](?:D|LL|M|RE|S|T|VE))?|\d*(?:1ST|2ND|3RD|(?![123])\dTH)(?=\b|[a-z_])|\d*(?:1st|2nd|3rd|(?![123])\dth)(?=\b|[A-Z_])|\d+|(?:[\u2700-\u27bf]|(?:\ud83c[\udde6-\uddff]){2}|[\ud800-\udbff][\udc00-\udfff])[\ufe0e\ufe0f]?(?:[\u0300-\u036f\ufe20-\ufe2f\u20d0-\u20ff]|\ud83c[\udffb-\udfff])?(?:\u200d(?:[^\ud800-\udfff]|(?:\ud83c[\udde6-\uddff]){2}|[\ud800-\udbff][\udc00-\udfff])[\ufe0e\ufe0f]?(?:[\u0300-\u036f\ufe20-\ufe2f\u20d0-\u20ff]|\ud83c[\udffb-\udfff])?)*/g; var words = (str) => str.match(reWords) || []; var upperFirst = (str) => str[0].toUpperCase() + str.slice(1); var join2 = (str, d) => words(str).join(d).toLowerCase(); var camelCase2 = (str) => words(str).reduce( (acc, next) => `${acc}${!acc ? next.toLowerCase() : next[0].toUpperCase() + next.slice(1).toLowerCase()}`, "" ); var pascalCase = (str) => upperFirst(camelCase2(str)); var snakeCase2 = (str) => join2(str, "_"); var kebabCase = (str) => join2(str, "-"); var sentenceCase = (str) => upperFirst(join2(str, " ")); var titleCase = (str) => words(str).map(upperFirst).join(" "); module.exports = { words, upperFirst, camelCase: camelCase2, pascalCase, snakeCase: snakeCase2, kebabCase, sentenceCase, titleCase }; } }); // ../../node_modules/.pnpm/toposort@2.0.2/node_modules/toposort/index.js var require_toposort = __commonJS({ "../../node_modules/.pnpm/toposort@2.0.2/node_modules/toposort/index.js"(exports, module) { "use strict"; module.exports = function(edges) { return toposort2(uniqueNodes(edges), edges); }; module.exports.array = toposort2; function toposort2(nodes, edges) { var cursor = nodes.length, sorted = new Array(cursor), visited = {}, i = cursor, outgoingEdges = makeOutgoingEdges(edges), nodesHash = makeNodesHash(nodes); edges.forEach(function(edge) { if (!nodesHash.has(edge[0]) || !nodesHash.has(edge[1])) { throw new Error("Unknown node. There is an unknown node in the supplied edges."); } }); while (i--) { if (!visited[i]) visit(nodes[i], i, /* @__PURE__ */ new Set()); } return sorted; function visit(node, i2, predecessors) { if (predecessors.has(node)) { var nodeRep; try { nodeRep = ", node was:" + JSON.stringify(node); } catch (e) { nodeRep = ""; } throw new Error("Cyclic dependency" + nodeRep); } if (!nodesHash.has(node)) { throw new Error("Found unknown node. Make sure to provided all involved nodes. Unknown node: " + JSON.stringify(node)); } if (visited[i2]) return; visited[i2] = true; var outgoing = outgoingEdges.get(node) || /* @__PURE__ */ new Set(); outgoing = Array.from(outgoing); if (i2 = outgoing.length) { predecessors.add(node); do { var child = outgoing[--i2]; visit(child, nodesHash.get(child), predecessors); } while (i2); predecessors.delete(node); } sorted[--cursor] = node; } } function uniqueNodes(arr) { var res = /* @__PURE__ */ new Set(); for (var i = 0, len = arr.length; i < len; i++) { var edge = arr[i]; res.add(edge[0]); res.add(edge[1]); } return Array.from(res); } function makeOutgoingEdges(arr) { var edges = /* @__PURE__ */ new Map(); for (var i = 0, len = arr.length; i < len; i++) { var edge = arr[i]; if (!edges.has(edge[0])) edges.set(edge[0], /* @__PURE__ */ new Set()); if (!edges.has(edge[1])) edges.set(edge[1], /* @__PURE__ */ new Set()); edges.get(edge[0]).add(edge[1]); } return edges; } function makeNodesHash(arr) { var res = /* @__PURE__ */ new Map(); for (var i = 0, len = arr.length; i < len; i++) { res.set(arr[i], i); } return res; } } }); // ../../node_modules/.pnpm/ipaddr.js@2.2.0/node_modules/ipaddr.js/lib/ipaddr.js var require_ipaddr = __commonJS({ "../../node_modules/.pnpm/ipaddr.js@2.2.0/node_modules/ipaddr.js/lib/ipaddr.js"(exports, module) { "use strict"; (function(root) { "use strict"; const ipv4Part = "(0?\\d+|0x[a-f0-9]+)"; const ipv4Regexes = { fourOctet: new RegExp(`^${ipv4Part}\\.${ipv4Part}\\.${ipv4Part}\\.${ipv4Part}$`, "i"), threeOctet: new RegExp(`^${ipv4Part}\\.${ipv4Part}\\.${ipv4Part}$`, "i"), twoOctet: new RegExp(`^${ipv4Part}\\.${ipv4Part}$`, "i"), longValue: new RegExp(`^${ipv4Part}$`, "i") }; const octalRegex = new RegExp(`^0[0-7]+$`, "i"); const hexRegex = new RegExp(`^0x[a-f0-9]+$`, "i"); const zoneIndex = "%[0-9a-z]{1,}"; const ipv6Part = "(?:[0-9a-f]+::?)+"; const ipv6Regexes = { zoneIndex: new RegExp(zoneIndex, "i"), "native": new RegExp(`^(::)?(${ipv6Part})?([0-9a-f]+)?(::)?(${zoneIndex})?$`, "i"), deprecatedTransitional: new RegExp(`^(?:::)(${ipv4Part}\\.${ipv4Part}\\.${ipv4Part}\\.${ipv4Part}(${zoneIndex})?)$`, "i"), transitional: new RegExp(`^((?:${ipv6Part})|(?:::)(?:${ipv6Part})?)${ipv4Part}\\.${ipv4Part}\\.${ipv4Part}\\.${ipv4Part}(${zoneIndex})?$`, "i") }; function expandIPv6(string2, parts) { if (string2.indexOf("::") !== string2.lastIndexOf("::")) { return null; } let colonCount = 0; let lastColon = -1; let zoneId = (string2.match(ipv6Regexes.zoneIndex) || [])[0]; let replacement, replacementCount; if (zoneId) { zoneId = zoneId.substring(1); string2 = string2.replace(/%.+$/, ""); } while ((lastColon = string2.indexOf(":", lastColon + 1)) >= 0) { colonCount++; } if (string2.substr(0, 2) === "::") { colonCount--; } if (string2.substr(-2, 2) === "::") { colonCount--; } if (colonCount > parts) { return null; } replacementCount = parts - colonCount; replacement = ":"; while (replacementCount--) { replacement += "0:"; } string2 = string2.replace("::", replacement); if (string2[0] === ":") { string2 = string2.slice(1); } if (string2[string2.length - 1] === ":") { string2 = string2.slice(0, -1); } parts = function() { const ref = string2.split(":"); const results = []; for (let i = 0; i < ref.length; i++) { results.push(parseInt(ref[i], 16)); } return results; }(); return { parts, zoneId }; } function matchCIDR(first, second, partSize, cidrBits) { if (first.length !== second.length) { throw new Error("ipaddr: cannot match CIDR for objects with different lengths"); } let part = 0; let shift; while (cidrBits > 0) { shift = partSize - cidrBits; if (shift < 0) { shift = 0; } if (first[part] >> shift !== second[part] >> shift) { return false; } cidrBits -= partSize; part += 1; } return true; } function parseIntAuto(string2) { if (hexRegex.test(string2)) { return parseInt(string2, 16); } if (string2[0] === "0" && !isNaN(parseInt(string2[1], 10))) { if (octalRegex.test(string2)) { return parseInt(string2, 8); } throw new Error(`ipaddr: cannot parse ${string2} as octal`); } return parseInt(string2, 10); } function padPart(part, length) { while (part.length < length) { part = `0${part}`; } return part; } const ipaddr4 = {}; ipaddr4.IPv4 = function() { function IPv42(octets) { if (octets.length !== 4) { throw new Error("ipaddr: ipv4 octet count should be 4"); } let i, octet; for (i = 0; i < octets.length; i++) { octet = octets[i]; if (!(0 <= octet && octet <= 255)) { throw new Error("ipaddr: ipv4 octet should fit in 8 bits"); } } this.octets = octets; } IPv42.prototype.SpecialRanges = { unspecified: [[new IPv42([0, 0, 0, 0]), 8]], broadcast: [[new IPv42([255, 255, 255, 255]), 32]], // RFC3171 multicast: [[new IPv42([224, 0, 0, 0]), 4]], // RFC3927 linkLocal: [[new IPv42([169, 254, 0, 0]), 16]], // RFC5735 loopback: [[new IPv42([127, 0, 0, 0]), 8]], // RFC6598 carrierGradeNat: [[new IPv42([100, 64, 0, 0]), 10]], // RFC1918 "private": [ [new IPv42([10, 0, 0, 0]), 8], [new IPv42([172, 16, 0, 0]), 12], [new IPv42([192, 168, 0, 0]), 16] ], // Reserved and testing-only ranges; RFCs 5735, 5737, 2544, 1700 reserved: [ [new IPv42([192, 0, 0, 0]), 24], [new IPv42([192, 0, 2, 0]), 24], [new IPv42([192, 88, 99, 0]), 24], [new IPv42([198, 18, 0, 0]), 15], [new IPv42([198, 51, 100, 0]), 24], [new IPv42([203, 0, 113, 0]), 24], [new IPv42([240, 0, 0, 0]), 4] ], // RFC7534, RFC7535 as112: [ [new IPv42([192, 175, 48, 0]), 24], [new IPv42([192, 31, 196, 0]), 24] ], // RFC7450 amt: [ [new IPv42([192, 52, 193, 0]), 24] ] }; IPv42.prototype.kind = function() { return "ipv4"; }; IPv42.prototype.match = function(other, cidrRange) { let ref; if (cidrRange === void 0) { ref = other; other = ref[0]; cidrRange = ref[1]; } if (other.kind() !== "ipv4") { throw new Error("ipaddr: cannot match ipv4 address with non-ipv4 one"); } return matchCIDR(this.octets, other.octets, 8, cidrRange); }; IPv42.prototype.prefixLengthFromSubnetMask = function() { let cidr = 0; let stop = false; const zerotable = { 0: 8, 128: 7, 192: 6, 224: 5, 240: 4, 248: 3, 252: 2, 254: 1, 255: 0 }; let i, octet, zeros; for (i = 3; i >= 0; i -= 1) { octet = this.octets[i]; if (octet in zerotable) { zeros = zerotable[octet]; if (stop && zeros !== 0) { return null; } if (zeros !== 8) { stop = true; } cidr += zeros; } else { return null; } } return 32 - cidr; }; IPv42.prototype.range = function() { return ipaddr4.subnetMatch(this, this.SpecialRanges); }; IPv42.prototype.toByteArray = function() { return this.octets.slice(0); }; IPv42.prototype.toIPv4MappedAddress = function() { return ipaddr4.IPv6.parse(`::ffff:${this.toString()}`); }; IPv42.prototype.toNormalizedString = function() { return this.toString(); }; IPv42.prototype.toString = function() { return this.octets.join("."); }; return IPv42; }(); ipaddr4.IPv4.broadcastAddressFromCIDR = function(string2) { try { const cidr = this.parseCIDR(string2); const ipInterfaceOctets = cidr[0].toByteArray(); const subnetMaskOctets = this.subnetMaskFromPrefixLength(cidr[1]).toByteArray(); const octets = []; let i = 0; while (i < 4) { octets.push(parseInt(ipInterfaceOctets[i], 10) | parseInt(subnetMaskOctets[i], 10) ^ 255); i++; } return new this(octets); } catch (e) { throw new Error("ipaddr: the address does not have IPv4 CIDR format"); } }; ipaddr4.IPv4.isIPv4 = function(string2) { return this.parser(string2) !== null; }; ipaddr4.IPv4.isValid = function(string2) { try { new this(this.parser(string2)); return true; } catch (e) { return false; } }; ipaddr4.IPv4.isValidCIDR = function(string2) { try { this.parseCIDR(string2); return true; } catch (e) { return false; } }; ipaddr4.IPv4.isValidFourPartDecimal = function(string2) { if (ipaddr4.IPv4.isValid(string2) && string2.match(/^(0|[1-9]\d*)(\.(0|[1-9]\d*)){3}$/)) { return true; } else { return false; } }; ipaddr4.IPv4.networkAddressFromCIDR = function(string2) { let cidr, i, ipInterfaceOctets, octets, subnetMaskOctets; try { cidr = this.parseCIDR(string2); ipInterfaceOctets = cidr[0].toByteArray(); subnetMaskOctets = this.subnetMaskFromPrefixLength(cidr[1]).toByteArray(); octets = []; i = 0; while (i < 4) { octets.push(parseInt(ipInterfaceOctets[i], 10) & parseInt(subnetMaskOctets[i], 10)); i++; } return new this(octets); } catch (e) { throw new Error("ipaddr: the address does not have IPv4 CIDR format"); } }; ipaddr4.IPv4.parse = function(string2) { const parts = this.parser(string2); if (parts === null) { throw new Error("ipaddr: string is not formatted like an IPv4 Address"); } return new this(parts); }; ipaddr4.IPv4.parseCIDR = function(string2) { let match; if (match = string2.match(/^(.+)\/(\d+)$/)) { const maskLength = parseInt(match[2]); if (maskLength >= 0 && maskLength <= 32) { const parsed = [this.parse(match[1]), maskLength]; Object.defineProperty(parsed, "toString", { value: function() { return this.join("/"); } }); return parsed; } } throw new Error("ipaddr: string is not formatted like an IPv4 CIDR range"); }; ipaddr4.IPv4.parser = function(string2) { let match, part, value; if (match = string2.match(ipv4Regexes.fourOctet)) { return function() { const ref = match.slice(1, 6); const results = []; for (let i = 0; i < ref.length; i++) { part = ref[i]; results.push(parseIntAuto(part)); } return results; }(); } else if (match = string2.match(ipv4Regexes.longValue)) { value = parseIntAuto(match[1]); if (value > 4294967295 || value < 0) { throw new Error("ipaddr: address outside defined range"); } return function() { const results = []; let shift; for (shift = 0; shift <= 24; shift += 8) { results.push(value >> shift & 255); } return results; }().reverse(); } else if (match = string2.match(ipv4Regexes.twoOctet)) { return function() { const ref = match.slice(1, 4); const results = []; value = parseIntAuto(ref[1]); if (value > 16777215 || value < 0) { throw new Error("ipaddr: address outside defined range"); } results.push(parseIntAuto(ref[0])); results.push(value >> 16 & 255); results.push(value >> 8 & 255); results.push(value & 255); return results; }(); } else if (match = string2.match(ipv4Regexes.threeOctet)) { return function() { const ref = match.slice(1, 5); const results = []; value = parseIntAuto(ref[2]); if (value > 65535 || value < 0) { throw new Error("ipaddr: address outside defined range"); } results.push(parseIntAuto(ref[0])); results.push(parseIntAuto(ref[1])); results.push(value >> 8 & 255); results.push(value & 255); return results; }(); } else { return null; } }; ipaddr4.IPv4.subnetMaskFromPrefixLength = function(prefix) { prefix = parseInt(prefix); if (prefix < 0 || prefix > 32) { throw new Error("ipaddr: invalid IPv4 prefix length"); } const octets = [0, 0, 0, 0]; let j = 0; const filledOctetCount = Math.floor(prefix / 8); while (j < filledOctetCount) { octets[j] = 255; j++; } if (filledOctetCount < 4) { octets[filledOctetCount] = Math.pow(2, prefix % 8) - 1 << 8 - prefix % 8; } return new this(octets); }; ipaddr4.IPv6 = function() { function IPv62(parts, zoneId) { let i, part; if (parts.length === 16) { this.parts = []; for (i = 0; i <= 14; i += 2) { this.parts.push(parts[i] << 8 | parts[i + 1]); } } else if (parts.length === 8) { this.parts = parts; } else { throw new Error("ipaddr: ipv6 part count should be 8 or 16"); } for (i = 0; i < this.parts.length; i++) { part = this.parts[i]; if (!(0 <= part && part <= 65535)) { throw new Error("ipaddr: ipv6 part should fit in 16 bits"); } } if (zoneId) { this.zoneId = zoneId; } } IPv62.prototype.SpecialRanges = { // RFC4291, here and after unspecified: [new IPv62([0, 0, 0, 0, 0, 0, 0, 0]), 128], linkLocal: [new IPv62([65152, 0, 0, 0, 0, 0, 0, 0]), 10], multicast: [new IPv62([65280, 0, 0, 0, 0, 0, 0, 0]), 8], loopback: [new IPv62([0, 0, 0, 0, 0, 0, 0, 1]), 128], uniqueLocal: [new IPv62([64512, 0, 0, 0, 0, 0, 0, 0]), 7], ipv4Mapped: [new IPv62([0, 0, 0, 0, 0, 65535, 0, 0]), 96], // RFC6666 discard: [new IPv62([256, 0, 0, 0, 0, 0, 0, 0]), 64], // RFC6145 rfc6145: [new IPv62([0, 0, 0, 0, 65535, 0, 0, 0]), 96], // RFC6052 rfc6052: [new IPv62([100, 65435, 0, 0, 0, 0, 0, 0]), 96], // RFC3056 "6to4": [new IPv62([8194, 0, 0, 0, 0, 0, 0, 0]), 16], // RFC6052, RFC6146 teredo: [new IPv62([8193, 0, 0, 0, 0, 0, 0, 0]), 32], // RFC5180 benchmarking: [new IPv62([8193, 2, 0, 0, 0, 0, 0, 0]), 48], // RFC7450 amt: [new IPv62([8193, 3, 0, 0, 0, 0, 0, 0]), 32], as112v6: [ [new IPv62([8193, 4, 274, 0, 0, 0, 0, 0]), 48], [new IPv62([9760, 79, 32768, 0, 0, 0, 0, 0]), 48] ], deprecated: [new IPv62([8193, 16, 0, 0, 0, 0, 0, 0]), 28], orchid2: [new IPv62([8193, 32, 0, 0, 0, 0, 0, 0]), 28], droneRemoteIdProtocolEntityTags: [new IPv62([8193, 48, 0, 0, 0, 0, 0, 0]), 28], reserved: [ // RFC3849 [new IPv62([8193, 0, 0, 0, 0, 0, 0, 0]), 23], // RFC2928 [new IPv62([8193, 3512, 0, 0, 0, 0, 0, 0]), 32] ] }; IPv62.prototype.isIPv4MappedAddress = function() { return this.range() === "ipv4Mapped"; }; IPv62.prototype.kind = function() { return "ipv6"; }; IPv62.prototype.match = function(other, cidrRange) { let ref; if (cidrRange === void 0) { ref = other; other = ref[0]; cidrRange = ref[1]; } if (other.kind() !== "ipv6") { throw new Error("ipaddr: cannot match ipv6 address with non-ipv6 one"); } return matchCIDR(this.parts, other.parts, 16, cidrRange); }; IPv62.prototype.prefixLengthFromSubnetMask = function() { let cidr = 0; let stop = false; const zerotable = { 0: 16, 32768: 15, 49152: 14, 57344: 13, 61440: 12, 63488: 11, 64512: 10, 65024: 9, 65280: 8, 65408: 7, 65472: 6, 65504: 5, 65520: 4, 65528: 3, 65532: 2, 65534: 1, 65535: 0 }; let part, zeros; for (let i = 7; i >= 0; i -= 1) { part = this.parts[i]; if (part in zerotable) { zeros = zerotable[part]; if (stop && zeros !== 0) { return null; } if (zeros !== 16) { stop = true; } cidr += zeros; } else { return null; } } return 128 - cidr; }; IPv62.prototype.range = function() { return ipaddr4.subnetMatch(this, this.SpecialRanges); }; IPv62.prototype.toByteArray = function() { let part; const bytes = []; const ref = this.parts; for (let i = 0; i < ref.length; i++) { part = ref[i]; bytes.push(part >> 8); bytes.push(part & 255); } return bytes; }; IPv62.prototype.toFixedLengthString = function() { const addr = function() { const results = []; for (let i = 0; i < this.parts.length; i++) { results.push(padPart(this.parts[i].toString(16), 4)); } return results; }.call(this).join(":"); let suffix = ""; if (this.zoneId) { suffix = `%${this.zoneId}`; } return addr + suffix; }; IPv62.prototype.toIPv4Address = function() { if (!this.isIPv4MappedAddress()) { throw new Error("ipaddr: trying to convert a generic ipv6 address to ipv4"); } const ref = this.parts.slice(-2); const high = ref[0]; const low = ref[1]; return new ipaddr4.IPv4([high >> 8, high & 255, low >> 8, low & 255]); }; IPv62.prototype.toNormalizedString = function() { const addr = function() { const results = []; for (let i = 0; i < this.parts.length; i++) { results.push(this.parts[i].toString(16)); } return results; }.call(this).join(":"); let suffix = ""; if (this.zoneId) { suffix = `%${this.zoneId}`; } return addr + suffix; }; IPv62.prototype.toRFC5952String = function() { const regex = /((^|:)(0(:|$)){2,})/g; const string2 = this.toNormalizedString(); let bestMatchIndex = 0; let bestMatchLength = -1; let match; while (match = regex.exec(string2)) { if (match[0].length > bestMatchLength) { bestMatchIndex = match.index; bestMatchLength = match[0].length; } } if (bestMatchLength < 0) { return string2; } return `${string2.substring(0, bestMatchIndex)}::${string2.substring(bestMatchIndex + bestMatchLength)}`; }; IPv62.prototype.toString = function() { return this.toRFC5952String(); }; return IPv62; }(); ipaddr4.IPv6.broadcastAddressFromCIDR = function(string2) { try { const cidr = this.parseCIDR(string2); const ipInterfaceOctets = cidr[0].toByteArray(); const subnetMaskOctets = this.subnetMaskFromPrefixLength(cidr[1]).toByteArray(); const octets = []; let i = 0; while (i < 16) { octets.push(parseInt(ipInterfaceOctets[i], 10) | parseInt(subnetMaskOctets[i], 10) ^ 255); i++; } return new this(octets); } catch (e) { throw new Error(`ipaddr: the address does not have IPv6 CIDR format (${e})`); } }; ipaddr4.IPv6.isIPv6 = function(string2) { return this.parser(string2) !== null; }; ipaddr4.IPv6.isValid = function(string2) { if (typeof string2 === "string" && string2.indexOf(":") === -1) { return false; } try { const addr = this.parser(string2); new this(addr.parts, addr.zoneId); return true; } catch (e) { return false; } }; ipaddr4.IPv6.isValidCIDR = function(string2) { if (typeof string2 === "string" && string2.indexOf(":") === -1) { return false; } try { this.parseCIDR(string2); return true; } catch (e) { return false; } }; ipaddr4.IPv6.networkAddressFromCIDR = function(string2) { let cidr, i, ipInterfaceOctets, octets, subnetMaskOctets; try { cidr = this.parseCIDR(string2); ipInterfaceOctets = cidr[0].toByteArray(); subnetMaskOctets = this.subnetMaskFromPrefixLength(cidr[1]).toByteArray(); octets = []; i = 0; while (i < 16) { octets.push(parseInt(ipInterfaceOctets[i], 10) & parseInt(subnetMaskOctets[i], 10)); i++; } return new this(octets); } catch (e) { throw new Error(`ipaddr: the address does not have IPv6 CIDR format (${e})`); } }; ipaddr4.IPv6.parse = function(string2) { const addr = this.parser(string2); if (addr.parts === null) { throw new Error("ipaddr: string is not formatted like an IPv6 Address"); } return new this(addr.parts, addr.zoneId); }; ipaddr4.IPv6.parseCIDR = function(string2) { let maskLength, match, parsed; if (match = string2.match(/^(.+)\/(\d+)$/)) { maskLength = parseInt(match[2]); if (maskLength >= 0 && maskLength <= 128) { parsed = [this.parse(match[1]), maskLength]; Object.defineProperty(parsed, "toString", { value: function() { return this.join("/"); } }); return parsed; } } throw new Error("ipaddr: string is not formatted like an IPv6 CIDR range"); }; ipaddr4.IPv6.parser = function(string2) { let addr, i, match, octet, octets, zoneId; if (match = string2.match(ipv6Regexes.deprecatedTransitional)) { return this.parser(`::ffff:${match[1]}`); } if (ipv6Regexes.native.test(string2)) { return expandIPv6(string2, 8); } if (match = string2.match(ipv6Regexes.transitional)) { zoneId = match[6] || ""; addr = match[1]; if (!match[1].endsWith("::")) { addr = addr.slice(0, -1); } addr = expandIPv6(addr + zoneId, 6); if (addr.parts) { octets = [ parseInt(match[2]), parseInt(match[3]), parseInt(match[4]), parseInt(match[5]) ]; for (i = 0; i < octets.length; i++) { octet = octets[i]; if (!(0 <= octet && octet <= 255)) { return null; } } addr.parts.push(octets[0] << 8 | octets[1]); addr.parts.push(octets[2] << 8 | octets[3]); return { parts: addr.parts, zoneId: addr.zoneId }; } } return null; }; ipaddr4.IPv6.subnetMaskFromPrefixLength = function(prefix) { prefix = parseInt(prefix); if (prefix < 0 || prefix > 128) { throw new Error("ipaddr: invalid IPv6 prefix length"); } const octets = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]; let j = 0; const filledOctetCount = Math.floor(prefix / 8); while (j < filledOctetCount) { octets[j] = 255; j++; } if (filledOctetCount < 16) { octets[filledOctetCount] = Math.pow(2, prefix % 8) - 1 << 8 - prefix % 8; } return new this(octets); }; ipaddr4.fromByteArray = function(bytes) { const length = bytes.length; if (length === 4) { return new ipaddr4.IPv4(bytes); } else if (length === 16) { return new ipaddr4.IPv6(bytes); } else { throw new Error("ipaddr: the binary input is neither an IPv6 nor IPv4 address"); } }; ipaddr4.isValid = function(string2) { return ipaddr4.IPv6.isValid(string2) || ipaddr4.IPv4.isValid(string2); }; ipaddr4.isValidCIDR = function(string2) { return ipaddr4.IPv6.isValidCIDR(string2) || ipaddr4.IPv4.isValidCIDR(string2); }; ipaddr4.parse = function(string2) { if (ipaddr4.IPv6.isValid(string2)) { return ipaddr4.IPv6.parse(string2); } else if (ipaddr4.IPv4.isValid(string2)) { return ipaddr4.IPv4.parse(string2); } else { throw new Error("ipaddr: the address has neither IPv6 nor IPv4 format"); } }; ipaddr4.parseCIDR = function(string2) { try { return ipaddr4.IPv6.parseCIDR(string2); } catch (e) { try { return ipaddr4.IPv4.parseCIDR(string2); } catch (e2) { throw new Error("ipaddr: the address has neither IPv6 nor IPv4 CIDR format"); } } }; ipaddr4.process = function(string2) { const addr = this.parse(string2); if (addr.kind() === "ipv6" && addr.isIPv4MappedAddress()) { return addr.toIPv4Address(); } else { return addr; } }; ipaddr4.subnetMatch = function(address, rangeList, defaultName) { let i, rangeName, rangeSubnets, subnet; if (defaultName === void 0 || defaultName === null) { defaultName = "unicast"; } for (rangeName in rangeList) { if (Object.prototype.hasOwnProperty.call(rangeList, rangeName)) { rangeSubnets = rangeList[rangeName]; if (rangeSubnets[0] && !(rangeSubnets[0] instanceof Array)) { rangeSubnets = [rangeSubnets]; } for (i = 0; i < rangeSubnets.length; i++) { subnet = rangeSubnets[i]; if (address.kind() === subnet[0].kind() && address.match.apply(address, subnet)) { return rangeName; } } } } return defaultName; }; if (typeof module !== "undefined" && module.exports) { module.exports = ipaddr4; } else { root.ipaddr = ipaddr4; } })(exports); } }); // ../../node_modules/.pnpm/yup@1.5.0/node_modules/yup/index.esm.js var import_property_expr = __toESM(require_property_expr()); var import_tiny_case = __toESM(require_tiny_case()); var import_toposort = __toESM(require_toposort()); var toString = Object.prototype.toString; var errorToString = Error.prototype.toString; var regExpToString = RegExp.prototype.toString; var symbolToString = typeof Symbol !== "undefined" ? Symbol.prototype.toString : () => ""; var SYMBOL_REGEXP = /^Symbol\((.*)\)(.*)$/; function printNumber(val) { if (val != +val) return "NaN"; const isNegativeZero = val === 0 && 1 / val < 0; return isNegativeZero ? "-0" : "" + val; } function printSimpleValue(val, quoteStrings = false) { if (val == null || val === true || val === false) return "" + val; const typeOf3 = typeof val; if (typeOf3 === "number") return printNumber(val); if (typeOf3 === "string") return quoteStrings ? `"${val}"` : val; if (typeOf3 === "function") return "[Function " + (val.name || "anonymous") + "]"; if (typeOf3 === "symbol") return symbolToString.call(val).replace(SYMBOL_REGEXP, "Symbol($1)"); const tag = toString.call(val).slice(8, -1); if (tag === "Date") return isNaN(val.getTime()) ? "" + val : val.toISOString(val); if (tag === "Error" || val instanceof Error) return "[" + errorToString.call(val) + "]"; if (tag === "RegExp") return regExpToString.call(val); return null; } function printValue(value, quoteStrings) { let result2 = printSimpleValue(value, quoteStrings); if (result2 !== null) return result2; return JSON.stringify(value, function(key, value2) { let result3 = printSimpleValue(this[key], quoteStrings); if (result3 !== null) return result3; return value2; }, 2); } function toArray(value) { return value == null ? [] : [].concat(value); } var _Symbol$toStringTag; var _Symbol$hasInstance; var _Symbol$toStringTag2; var strReg = /\$\{\s*(\w+)\s*\}/g; _Symbol$toStringTag = Symbol.toStringTag; var ValidationErrorNoStack = class { constructor(errorOrErrors, value, field, type) { this.name = void 0; this.message = void 0; this.value = void 0; this.path = void 0; this.type = void 0; this.params = void 0; this.errors = void 0; this.inner = void 0; this[_Symbol$toStringTag] = "Error"; this.name = "ValidationError"; this.value = value; this.path = field; this.type = type; this.errors = []; this.inner = []; toArray(errorOrErrors).forEach((err) => { if (ValidationError.isError(err)) { this.errors.push(...err.errors); const innerErrors = err.inner.length ? err.inner : [err]; this.inner.push(...innerErrors); } else { this.errors.push(err); } }); this.message = this.errors.length > 1 ? `${this.errors.length} errors occurred` : this.errors[0]; } }; _Symbol$hasInstance = Symbol.hasInstance; _Symbol$toStringTag2 = Symbol.toStringTag; var ValidationError = class _ValidationError extends Error { static formatError(message, params) { const path = params.label || params.path || "this"; params = Object.assign({}, params, { path, originalPath: params.path }); if (typeof message === "string") return message.replace(strReg, (_, key) => printValue(params[key])); if (typeof message === "function") return message(params); return message; } static isError(err) { return err && err.name === "ValidationError"; } constructor(errorOrErrors, value, field, type, disableStack) { const errorNoStack = new ValidationErrorNoStack(errorOrErrors, value, field, type); if (disableStack) { return errorNoStack; } super(); this.value = void 0; this.path = void 0; this.type = void 0; this.params = void 0; this.errors = []; this.inner = []; this[_Symbol$toStringTag2] = "Error"; this.name = errorNoStack.name; this.message = errorNoStack.message; this.type = errorNoStack.type; this.value = errorNoStack.value; this.path = errorNoStack.path; this.errors = errorNoStack.errors; this.inner = errorNoStack.inner; if (Error.captureStackTrace) { Error.captureStackTrace(this, _ValidationError); } } static [_Symbol$hasInstance](inst) { return ValidationErrorNoStack[Symbol.hasInstance](inst) || super[Symbol.hasInstance](inst); } }; var mixed = { default: "${path} is invalid", required: "${path} is a required field", defined: "${path} must be defined", notNull: "${path} cannot be null", oneOf: "${path} must be one of the following values: ${values}", notOneOf: "${path} must not be one of the following values: ${values}", notType: ({ path, type, value, originalValue }) => { const castMsg = originalValue != null && originalValue !== value ? ` (cast from the value \`${printValue(originalValue, true)}\`).` : "."; return type !== "mixed" ? `${path} must be a \`${type}\` type, but the final value was: \`${printValue(value, true)}\`` + castMsg : `${path} must match the configured type. The validated value was: \`${printValue(value, true)}\`` + castMsg; } }; var string = { length: "${path} must be exactly ${length} characters", min: "${path} must be at least ${min} characters", max: "${path} must be at most ${max} characters", matches: '${path} must match the following: "${regex}"', email: "${path} must be a valid email", url: "${path} must be a valid URL", uuid: "${path} must be a valid UUID", datetime: "${path} must be a valid ISO date-time", datetime_precision: "${path} must be a valid ISO date-time with a sub-second precision of exactly ${precision} digits", datetime_offset: '${path} must be a valid ISO date-time with UTC "Z" timezone', trim: "${path} must be a trimmed string", lowercase: "${path} must be a lowercase string", uppercase: "${path} must be a upper case string" }; var number = { min: "${path} must be greater than or equal to ${min}", max: "${path} must be less than or equal to ${max}", lessThan: "${path} must be less than ${less}", moreThan: "${path} must be greater than ${more}", positive: "${path} must be a positive number", negative: "${path} must be a negative number", integer: "${path} must be an integer" }; var date = { min: "${path} field must be later than ${min}", max: "${path} field must be at earlier than ${max}" }; var boolean = { isValue: "${path} field must be ${value}" }; var object = { noUnknown: "${path} field has unspecified keys: ${unknown}", exact: "${path} object contains unknown properties: ${properties}" }; var array = { min: "${path} field must have at least ${min} items", max: "${path} field must have less than or equal to ${max} items", length: "${path} must have ${length} items" }; var tuple = { notType: (params) => { const { path, value, spec } = params; const typeLen = spec.types.length; if (Array.isArray(value)) { if (value.length < typeLen) return `${path} tuple value has too few items, expected a length of ${typeLen} but got ${value.length} for value: \`${printValue(value, true)}\``; if (value.length > typeLen) return `${path} tuple value has too many items, expected a length of ${typeLen} but got ${value.length} for value: \`${printValue(value, true)}\``; } return ValidationError.formatError(mixed.notType, params); } }; var locale = Object.assign(/* @__PURE__ */ Object.create(null), { mixed, string, number, date, object, array, boolean, tuple }); var isSchema = (obj) => obj && obj.__isYupSchema__; var Condition = class _Condition { static fromOptions(refs, config) { if (!config.then && !config.otherwise) throw new TypeError("either `then:` or `otherwise:` is required for `when()` conditions"); let { is, then, otherwise } = config; let check = typeof is === "function" ? is : (...values) => values.every((value) => value === is); return new _Condition(refs, (values, schema) => { var _branch; let branch = check(...values) ? then : otherwise; return (_branch = branch == null ? void 0 : branch(schema)) != null ? _branch : schema; }); } constructor(refs, builder) { this.fn = void 0; this.refs = refs; this.refs = refs; this.fn = builder; } resolve(base, options) { let values = this.refs.map((ref) => ( // TODO: ? operator here? ref.getValue(options == null ? void 0 : options.value, options == null ? void 0 : options.parent, options == null ? void 0 : options.context) )); let schema = this.fn(values, base, options); if (schema === void 0 || // @ts-ignore this can be base schema === base) { return base; } if (!isSchema(schema)) throw new TypeError("conditions must return a schema object"); return schema.resolve(options); } }; var prefixes = { context: "$", value: "." }; var Reference = class { constructor(key, options = {}) { this.key = void 0; this.isContext = void 0;