import { i as info, d as debug, m as mkdirP, c as cp, H as HttpClient, r as rmRF, w as which, e as exec, a as isDebug, b as addPath, s as setFailed, g as getInput, f as core } from './core-DpWEmnbG.js'; import * as crypto from 'crypto'; import * as fs from 'fs'; import fs__default from 'fs'; import * as os from 'os'; import 'child_process'; import * as path from 'path'; import { join } from 'path'; import * as stream from 'stream'; import * as require$$6 from 'util'; import { ok } from 'assert'; import 'http'; import 'https'; import 'net'; import 'tls'; import 'events'; import 'node:assert'; import 'node:net'; import 'node:http'; import 'node:stream'; import 'node:buffer'; import 'node:util'; import 'node:querystring'; import 'node:events'; import 'node:diagnostics_channel'; import 'node:tls'; import 'node:zlib'; import 'node:perf_hooks'; import 'node:util/types'; import 'node:worker_threads'; import 'node:url'; import 'node:async_hooks'; import 'node:console'; import 'node:dns'; import 'string_decoder'; import 'timers'; var re = {exports: {}}; var constants; var hasRequiredConstants; function requireConstants () { if (hasRequiredConstants) return constants; hasRequiredConstants = 1; // Note: this is the semver.org version of the spec that it implements // Not necessarily the package version of this code. const SEMVER_SPEC_VERSION = '2.0.0'; const MAX_LENGTH = 256; const MAX_SAFE_INTEGER = Number.MAX_SAFE_INTEGER || /* istanbul ignore next */ 9007199254740991; // Max safe segment length for coercion. const MAX_SAFE_COMPONENT_LENGTH = 16; // Max safe length for a build identifier. The max length minus 6 characters for // the shortest version with a build 0.0.0+BUILD. const MAX_SAFE_BUILD_LENGTH = MAX_LENGTH - 6; const RELEASE_TYPES = [ 'major', 'premajor', 'minor', 'preminor', 'patch', 'prepatch', 'prerelease', ]; constants = { MAX_LENGTH, MAX_SAFE_COMPONENT_LENGTH, MAX_SAFE_BUILD_LENGTH, MAX_SAFE_INTEGER, RELEASE_TYPES, SEMVER_SPEC_VERSION, FLAG_INCLUDE_PRERELEASE: 0b001, FLAG_LOOSE: 0b010, }; return constants; } var debug_1; var hasRequiredDebug; function requireDebug () { if (hasRequiredDebug) return debug_1; hasRequiredDebug = 1; const debug = ( typeof process === 'object' && process.env && process.env.NODE_DEBUG && /\bsemver\b/i.test(process.env.NODE_DEBUG) ) ? (...args) => console.error('SEMVER', ...args) : () => {}; debug_1 = debug; return debug_1; } var hasRequiredRe; function requireRe () { if (hasRequiredRe) return re.exports; hasRequiredRe = 1; (function (module, exports$1) { const { MAX_SAFE_COMPONENT_LENGTH, MAX_SAFE_BUILD_LENGTH, MAX_LENGTH, } = requireConstants(); const debug = requireDebug(); exports$1 = module.exports = {}; // The actual regexps go on exports.re const re = exports$1.re = []; const safeRe = exports$1.safeRe = []; const src = exports$1.src = []; const safeSrc = exports$1.safeSrc = []; const t = exports$1.t = {}; let R = 0; const LETTERDASHNUMBER = '[a-zA-Z0-9-]'; // Replace some greedy regex tokens to prevent regex dos issues. These regex are // used internally via the safeRe object since all inputs in this library get // normalized first to trim and collapse all extra whitespace. The original // regexes are exported for userland consumption and lower level usage. A // future breaking change could export the safer regex only with a note that // all input should have extra whitespace removed. const safeRegexReplacements = [ ['\\s', 1], ['\\d', MAX_LENGTH], [LETTERDASHNUMBER, MAX_SAFE_BUILD_LENGTH], ]; const makeSafeRegex = (value) => { for (const [token, max] of safeRegexReplacements) { value = value .split(`${token}*`).join(`${token}{0,${max}}`) .split(`${token}+`).join(`${token}{1,${max}}`); } return value }; const createToken = (name, value, isGlobal) => { const safe = makeSafeRegex(value); const index = R++; debug(name, index, value); t[name] = index; src[index] = value; safeSrc[index] = safe; re[index] = new RegExp(value, isGlobal ? 'g' : undefined); safeRe[index] = new RegExp(safe, isGlobal ? 'g' : undefined); }; // The following Regular Expressions can be used for tokenizing, // validating, and parsing SemVer version strings. // ## Numeric Identifier // A single `0`, or a non-zero digit followed by zero or more digits. createToken('NUMERICIDENTIFIER', '0|[1-9]\\d*'); createToken('NUMERICIDENTIFIERLOOSE', '\\d+'); // ## Non-numeric Identifier // Zero or more digits, followed by a letter or hyphen, and then zero or // more letters, digits, or hyphens. createToken('NONNUMERICIDENTIFIER', `\\d*[a-zA-Z-]${LETTERDASHNUMBER}*`); // ## Main Version // Three dot-separated numeric identifiers. createToken('MAINVERSION', `(${src[t.NUMERICIDENTIFIER]})\\.` + `(${src[t.NUMERICIDENTIFIER]})\\.` + `(${src[t.NUMERICIDENTIFIER]})`); createToken('MAINVERSIONLOOSE', `(${src[t.NUMERICIDENTIFIERLOOSE]})\\.` + `(${src[t.NUMERICIDENTIFIERLOOSE]})\\.` + `(${src[t.NUMERICIDENTIFIERLOOSE]})`); // ## Pre-release Version Identifier // A numeric identifier, or a non-numeric identifier. // Non-numeric identifiers include numeric identifiers but can be longer. // Therefore non-numeric identifiers must go first. createToken('PRERELEASEIDENTIFIER', `(?:${src[t.NONNUMERICIDENTIFIER] }|${src[t.NUMERICIDENTIFIER]})`); createToken('PRERELEASEIDENTIFIERLOOSE', `(?:${src[t.NONNUMERICIDENTIFIER] }|${src[t.NUMERICIDENTIFIERLOOSE]})`); // ## Pre-release Version // Hyphen, followed by one or more dot-separated pre-release version // identifiers. createToken('PRERELEASE', `(?:-(${src[t.PRERELEASEIDENTIFIER] }(?:\\.${src[t.PRERELEASEIDENTIFIER]})*))`); createToken('PRERELEASELOOSE', `(?:-?(${src[t.PRERELEASEIDENTIFIERLOOSE] }(?:\\.${src[t.PRERELEASEIDENTIFIERLOOSE]})*))`); // ## Build Metadata Identifier // Any combination of digits, letters, or hyphens. createToken('BUILDIDENTIFIER', `${LETTERDASHNUMBER}+`); // ## Build Metadata // Plus sign, followed by one or more period-separated build metadata // identifiers. createToken('BUILD', `(?:\\+(${src[t.BUILDIDENTIFIER] }(?:\\.${src[t.BUILDIDENTIFIER]})*))`); // ## Full Version String // A main version, followed optionally by a pre-release version and // build metadata. // Note that the only major, minor, patch, and pre-release sections of // the version string are capturing groups. The build metadata is not a // capturing group, because it should not ever be used in version // comparison. createToken('FULLPLAIN', `v?${src[t.MAINVERSION] }${src[t.PRERELEASE]}?${ src[t.BUILD]}?`); createToken('FULL', `^${src[t.FULLPLAIN]}$`); // like full, but allows v1.2.3 and =1.2.3, which people do sometimes. // also, 1.0.0alpha1 (prerelease without the hyphen) which is pretty // common in the npm registry. createToken('LOOSEPLAIN', `[v=\\s]*${src[t.MAINVERSIONLOOSE] }${src[t.PRERELEASELOOSE]}?${ src[t.BUILD]}?`); createToken('LOOSE', `^${src[t.LOOSEPLAIN]}$`); createToken('GTLT', '((?:<|>)?=?)'); // Something like "2.*" or "1.2.x". // Note that "x.x" is a valid xRange identifer, meaning "any version" // Only the first item is strictly required. createToken('XRANGEIDENTIFIERLOOSE', `${src[t.NUMERICIDENTIFIERLOOSE]}|x|X|\\*`); createToken('XRANGEIDENTIFIER', `${src[t.NUMERICIDENTIFIER]}|x|X|\\*`); createToken('XRANGEPLAIN', `[v=\\s]*(${src[t.XRANGEIDENTIFIER]})` + `(?:\\.(${src[t.XRANGEIDENTIFIER]})` + `(?:\\.(${src[t.XRANGEIDENTIFIER]})` + `(?:${src[t.PRERELEASE]})?${ src[t.BUILD]}?` + `)?)?`); createToken('XRANGEPLAINLOOSE', `[v=\\s]*(${src[t.XRANGEIDENTIFIERLOOSE]})` + `(?:\\.(${src[t.XRANGEIDENTIFIERLOOSE]})` + `(?:\\.(${src[t.XRANGEIDENTIFIERLOOSE]})` + `(?:${src[t.PRERELEASELOOSE]})?${ src[t.BUILD]}?` + `)?)?`); createToken('XRANGE', `^${src[t.GTLT]}\\s*${src[t.XRANGEPLAIN]}$`); createToken('XRANGELOOSE', `^${src[t.GTLT]}\\s*${src[t.XRANGEPLAINLOOSE]}$`); // Coercion. // Extract anything that could conceivably be a part of a valid semver createToken('COERCEPLAIN', `${'(^|[^\\d])' + '(\\d{1,'}${MAX_SAFE_COMPONENT_LENGTH}})` + `(?:\\.(\\d{1,${MAX_SAFE_COMPONENT_LENGTH}}))?` + `(?:\\.(\\d{1,${MAX_SAFE_COMPONENT_LENGTH}}))?`); createToken('COERCE', `${src[t.COERCEPLAIN]}(?:$|[^\\d])`); createToken('COERCEFULL', src[t.COERCEPLAIN] + `(?:${src[t.PRERELEASE]})?` + `(?:${src[t.BUILD]})?` + `(?:$|[^\\d])`); createToken('COERCERTL', src[t.COERCE], true); createToken('COERCERTLFULL', src[t.COERCEFULL], true); // Tilde ranges. // Meaning is "reasonably at or greater than" createToken('LONETILDE', '(?:~>?)'); createToken('TILDETRIM', `(\\s*)${src[t.LONETILDE]}\\s+`, true); exports$1.tildeTrimReplace = '$1~'; createToken('TILDE', `^${src[t.LONETILDE]}${src[t.XRANGEPLAIN]}$`); createToken('TILDELOOSE', `^${src[t.LONETILDE]}${src[t.XRANGEPLAINLOOSE]}$`); // Caret ranges. // Meaning is "at least and backwards compatible with" createToken('LONECARET', '(?:\\^)'); createToken('CARETTRIM', `(\\s*)${src[t.LONECARET]}\\s+`, true); exports$1.caretTrimReplace = '$1^'; createToken('CARET', `^${src[t.LONECARET]}${src[t.XRANGEPLAIN]}$`); createToken('CARETLOOSE', `^${src[t.LONECARET]}${src[t.XRANGEPLAINLOOSE]}$`); // A simple gt/lt/eq thing, or just "" to indicate "any version" createToken('COMPARATORLOOSE', `^${src[t.GTLT]}\\s*(${src[t.LOOSEPLAIN]})$|^$`); createToken('COMPARATOR', `^${src[t.GTLT]}\\s*(${src[t.FULLPLAIN]})$|^$`); // An expression to strip any whitespace between the gtlt and the thing // it modifies, so that `> 1.2.3` ==> `>1.2.3` createToken('COMPARATORTRIM', `(\\s*)${src[t.GTLT] }\\s*(${src[t.LOOSEPLAIN]}|${src[t.XRANGEPLAIN]})`, true); exports$1.comparatorTrimReplace = '$1$2$3'; // Something like `1.2.3 - 1.2.4` // Note that these all use the loose form, because they'll be // checked against either the strict or loose comparator form // later. createToken('HYPHENRANGE', `^\\s*(${src[t.XRANGEPLAIN]})` + `\\s+-\\s+` + `(${src[t.XRANGEPLAIN]})` + `\\s*$`); createToken('HYPHENRANGELOOSE', `^\\s*(${src[t.XRANGEPLAINLOOSE]})` + `\\s+-\\s+` + `(${src[t.XRANGEPLAINLOOSE]})` + `\\s*$`); // Star ranges basically just allow anything at all. createToken('STAR', '(<|>)?=?\\s*\\*'); // >=0.0.0 is like a star createToken('GTE0', '^\\s*>=\\s*0\\.0\\.0\\s*$'); createToken('GTE0PRE', '^\\s*>=\\s*0\\.0\\.0-0\\s*$'); } (re, re.exports)); return re.exports; } var parseOptions_1; var hasRequiredParseOptions; function requireParseOptions () { if (hasRequiredParseOptions) return parseOptions_1; hasRequiredParseOptions = 1; // parse out just the options we care about const looseOption = Object.freeze({ loose: true }); const emptyOpts = Object.freeze({ }); const parseOptions = options => { if (!options) { return emptyOpts } if (typeof options !== 'object') { return looseOption } return options }; parseOptions_1 = parseOptions; return parseOptions_1; } var identifiers; var hasRequiredIdentifiers; function requireIdentifiers () { if (hasRequiredIdentifiers) return identifiers; hasRequiredIdentifiers = 1; const numeric = /^[0-9]+$/; const compareIdentifiers = (a, b) => { if (typeof a === 'number' && typeof b === 'number') { return a === b ? 0 : a < b ? -1 : 1 } const anum = numeric.test(a); const bnum = numeric.test(b); if (anum && bnum) { a = +a; b = +b; } return a === b ? 0 : (anum && !bnum) ? -1 : (bnum && !anum) ? 1 : a < b ? -1 : 1 }; const rcompareIdentifiers = (a, b) => compareIdentifiers(b, a); identifiers = { compareIdentifiers, rcompareIdentifiers, }; return identifiers; } var semver$1; var hasRequiredSemver$1; function requireSemver$1 () { if (hasRequiredSemver$1) return semver$1; hasRequiredSemver$1 = 1; const debug = requireDebug(); const { MAX_LENGTH, MAX_SAFE_INTEGER } = requireConstants(); const { safeRe: re, t } = requireRe(); const parseOptions = requireParseOptions(); const { compareIdentifiers } = requireIdentifiers(); class SemVer { constructor (version, options) { options = parseOptions(options); if (version instanceof SemVer) { if (version.loose === !!options.loose && version.includePrerelease === !!options.includePrerelease) { return version } else { version = version.version; } } else if (typeof version !== 'string') { throw new TypeError(`Invalid version. Must be a string. Got type "${typeof version}".`) } if (version.length > MAX_LENGTH) { throw new TypeError( `version is longer than ${MAX_LENGTH} characters` ) } debug('SemVer', version, options); this.options = options; this.loose = !!options.loose; // this isn't actually relevant for versions, but keep it so that we // don't run into trouble passing this.options around. this.includePrerelease = !!options.includePrerelease; const m = version.trim().match(options.loose ? re[t.LOOSE] : re[t.FULL]); if (!m) { throw new TypeError(`Invalid Version: ${version}`) } this.raw = version; // these are actually numbers this.major = +m[1]; this.minor = +m[2]; this.patch = +m[3]; if (this.major > MAX_SAFE_INTEGER || this.major < 0) { throw new TypeError('Invalid major version') } if (this.minor > MAX_SAFE_INTEGER || this.minor < 0) { throw new TypeError('Invalid minor version') } if (this.patch > MAX_SAFE_INTEGER || this.patch < 0) { throw new TypeError('Invalid patch version') } // numberify any prerelease numeric ids if (!m[4]) { this.prerelease = []; } else { this.prerelease = m[4].split('.').map((id) => { if (/^[0-9]+$/.test(id)) { const num = +id; if (num >= 0 && num < MAX_SAFE_INTEGER) { return num } } return id }); } this.build = m[5] ? m[5].split('.') : []; this.format(); } format () { this.version = `${this.major}.${this.minor}.${this.patch}`; if (this.prerelease.length) { this.version += `-${this.prerelease.join('.')}`; } return this.version } toString () { return this.version } compare (other) { debug('SemVer.compare', this.version, this.options, other); if (!(other instanceof SemVer)) { if (typeof other === 'string' && other === this.version) { return 0 } other = new SemVer(other, this.options); } if (other.version === this.version) { return 0 } return this.compareMain(other) || this.comparePre(other) } compareMain (other) { if (!(other instanceof SemVer)) { other = new SemVer(other, this.options); } if (this.major < other.major) { return -1 } if (this.major > other.major) { return 1 } if (this.minor < other.minor) { return -1 } if (this.minor > other.minor) { return 1 } if (this.patch < other.patch) { return -1 } if (this.patch > other.patch) { return 1 } return 0 } comparePre (other) { if (!(other instanceof SemVer)) { other = new SemVer(other, this.options); } // NOT having a prerelease is > having one if (this.prerelease.length && !other.prerelease.length) { return -1 } else if (!this.prerelease.length && other.prerelease.length) { return 1 } else if (!this.prerelease.length && !other.prerelease.length) { return 0 } let i = 0; do { const a = this.prerelease[i]; const b = other.prerelease[i]; debug('prerelease compare', i, a, b); if (a === undefined && b === undefined) { return 0 } else if (b === undefined) { return 1 } else if (a === undefined) { return -1 } else if (a === b) { continue } else { return compareIdentifiers(a, b) } } while (++i) } compareBuild (other) { if (!(other instanceof SemVer)) { other = new SemVer(other, this.options); } let i = 0; do { const a = this.build[i]; const b = other.build[i]; debug('build compare', i, a, b); if (a === undefined && b === undefined) { return 0 } else if (b === undefined) { return 1 } else if (a === undefined) { return -1 } else if (a === b) { continue } else { return compareIdentifiers(a, b) } } while (++i) } // preminor will bump the version up to the next minor release, and immediately // down to pre-release. premajor and prepatch work the same way. inc (release, identifier, identifierBase) { if (release.startsWith('pre')) { if (!identifier && identifierBase === false) { throw new Error('invalid increment argument: identifier is empty') } // Avoid an invalid semver results if (identifier) { const match = `-${identifier}`.match(this.options.loose ? re[t.PRERELEASELOOSE] : re[t.PRERELEASE]); if (!match || match[1] !== identifier) { throw new Error(`invalid identifier: ${identifier}`) } } } switch (release) { case 'premajor': this.prerelease.length = 0; this.patch = 0; this.minor = 0; this.major++; this.inc('pre', identifier, identifierBase); break case 'preminor': this.prerelease.length = 0; this.patch = 0; this.minor++; this.inc('pre', identifier, identifierBase); break case 'prepatch': // If this is already a prerelease, it will bump to the next version // drop any prereleases that might already exist, since they are not // relevant at this point. this.prerelease.length = 0; this.inc('patch', identifier, identifierBase); this.inc('pre', identifier, identifierBase); break // If the input is a non-prerelease version, this acts the same as // prepatch. case 'prerelease': if (this.prerelease.length === 0) { this.inc('patch', identifier, identifierBase); } this.inc('pre', identifier, identifierBase); break case 'release': if (this.prerelease.length === 0) { throw new Error(`version ${this.raw} is not a prerelease`) } this.prerelease.length = 0; break case 'major': // If this is a pre-major version, bump up to the same major version. // Otherwise increment major. // 1.0.0-5 bumps to 1.0.0 // 1.1.0 bumps to 2.0.0 if ( this.minor !== 0 || this.patch !== 0 || this.prerelease.length === 0 ) { this.major++; } this.minor = 0; this.patch = 0; this.prerelease = []; break case 'minor': // If this is a pre-minor version, bump up to the same minor version. // Otherwise increment minor. // 1.2.0-5 bumps to 1.2.0 // 1.2.1 bumps to 1.3.0 if (this.patch !== 0 || this.prerelease.length === 0) { this.minor++; } this.patch = 0; this.prerelease = []; break case 'patch': // If this is not a pre-release version, it will increment the patch. // If it is a pre-release it will bump up to the same patch version. // 1.2.0-5 patches to 1.2.0 // 1.2.0 patches to 1.2.1 if (this.prerelease.length === 0) { this.patch++; } this.prerelease = []; break // This probably shouldn't be used publicly. // 1.0.0 'pre' would become 1.0.0-0 which is the wrong direction. case 'pre': { const base = Number(identifierBase) ? 1 : 0; if (this.prerelease.length === 0) { this.prerelease = [base]; } else { let i = this.prerelease.length; while (--i >= 0) { if (typeof this.prerelease[i] === 'number') { this.prerelease[i]++; i = -2; } } if (i === -1) { // didn't increment anything if (identifier === this.prerelease.join('.') && identifierBase === false) { throw new Error('invalid increment argument: identifier already exists') } this.prerelease.push(base); } } if (identifier) { // 1.2.0-beta.1 bumps to 1.2.0-beta.2, // 1.2.0-beta.fooblz or 1.2.0-beta bumps to 1.2.0-beta.0 let prerelease = [identifier, base]; if (identifierBase === false) { prerelease = [identifier]; } if (compareIdentifiers(this.prerelease[0], identifier) === 0) { if (isNaN(this.prerelease[1])) { this.prerelease = prerelease; } } else { this.prerelease = prerelease; } } break } default: throw new Error(`invalid increment argument: ${release}`) } this.raw = this.format(); if (this.build.length) { this.raw += `+${this.build.join('.')}`; } return this } } semver$1 = SemVer; return semver$1; } var parse_1; var hasRequiredParse; function requireParse () { if (hasRequiredParse) return parse_1; hasRequiredParse = 1; const SemVer = requireSemver$1(); const parse = (version, options, throwErrors = false) => { if (version instanceof SemVer) { return version } try { return new SemVer(version, options) } catch (er) { if (!throwErrors) { return null } throw er } }; parse_1 = parse; return parse_1; } var valid_1; var hasRequiredValid$1; function requireValid$1 () { if (hasRequiredValid$1) return valid_1; hasRequiredValid$1 = 1; const parse = requireParse(); const valid = (version, options) => { const v = parse(version, options); return v ? v.version : null }; valid_1 = valid; return valid_1; } var clean_1; var hasRequiredClean; function requireClean () { if (hasRequiredClean) return clean_1; hasRequiredClean = 1; const parse = requireParse(); const clean = (version, options) => { const s = parse(version.trim().replace(/^[=v]+/, ''), options); return s ? s.version : null }; clean_1 = clean; return clean_1; } var inc_1; var hasRequiredInc; function requireInc () { if (hasRequiredInc) return inc_1; hasRequiredInc = 1; const SemVer = requireSemver$1(); const inc = (version, release, options, identifier, identifierBase) => { if (typeof (options) === 'string') { identifierBase = identifier; identifier = options; options = undefined; } try { return new SemVer( version instanceof SemVer ? version.version : version, options ).inc(release, identifier, identifierBase).version } catch (er) { return null } }; inc_1 = inc; return inc_1; } var diff_1; var hasRequiredDiff; function requireDiff () { if (hasRequiredDiff) return diff_1; hasRequiredDiff = 1; const parse = requireParse(); const diff = (version1, version2) => { const v1 = parse(version1, null, true); const v2 = parse(version2, null, true); const comparison = v1.compare(v2); if (comparison === 0) { return null } const v1Higher = comparison > 0; const highVersion = v1Higher ? v1 : v2; const lowVersion = v1Higher ? v2 : v1; const highHasPre = !!highVersion.prerelease.length; const lowHasPre = !!lowVersion.prerelease.length; if (lowHasPre && !highHasPre) { // Going from prerelease -> no prerelease requires some special casing // If the low version has only a major, then it will always be a major // Some examples: // 1.0.0-1 -> 1.0.0 // 1.0.0-1 -> 1.1.1 // 1.0.0-1 -> 2.0.0 if (!lowVersion.patch && !lowVersion.minor) { return 'major' } // If the main part has no difference if (lowVersion.compareMain(highVersion) === 0) { if (lowVersion.minor && !lowVersion.patch) { return 'minor' } return 'patch' } } // add the `pre` prefix if we are going to a prerelease version const prefix = highHasPre ? 'pre' : ''; if (v1.major !== v2.major) { return prefix + 'major' } if (v1.minor !== v2.minor) { return prefix + 'minor' } if (v1.patch !== v2.patch) { return prefix + 'patch' } // high and low are prereleases return 'prerelease' }; diff_1 = diff; return diff_1; } var major_1; var hasRequiredMajor; function requireMajor () { if (hasRequiredMajor) return major_1; hasRequiredMajor = 1; const SemVer = requireSemver$1(); const major = (a, loose) => new SemVer(a, loose).major; major_1 = major; return major_1; } var minor_1; var hasRequiredMinor; function requireMinor () { if (hasRequiredMinor) return minor_1; hasRequiredMinor = 1; const SemVer = requireSemver$1(); const minor = (a, loose) => new SemVer(a, loose).minor; minor_1 = minor; return minor_1; } var patch_1; var hasRequiredPatch; function requirePatch () { if (hasRequiredPatch) return patch_1; hasRequiredPatch = 1; const SemVer = requireSemver$1(); const patch = (a, loose) => new SemVer(a, loose).patch; patch_1 = patch; return patch_1; } var prerelease_1; var hasRequiredPrerelease; function requirePrerelease () { if (hasRequiredPrerelease) return prerelease_1; hasRequiredPrerelease = 1; const parse = requireParse(); const prerelease = (version, options) => { const parsed = parse(version, options); return (parsed && parsed.prerelease.length) ? parsed.prerelease : null }; prerelease_1 = prerelease; return prerelease_1; } var compare_1; var hasRequiredCompare; function requireCompare () { if (hasRequiredCompare) return compare_1; hasRequiredCompare = 1; const SemVer = requireSemver$1(); const compare = (a, b, loose) => new SemVer(a, loose).compare(new SemVer(b, loose)); compare_1 = compare; return compare_1; } var rcompare_1; var hasRequiredRcompare; function requireRcompare () { if (hasRequiredRcompare) return rcompare_1; hasRequiredRcompare = 1; const compare = requireCompare(); const rcompare = (a, b, loose) => compare(b, a, loose); rcompare_1 = rcompare; return rcompare_1; } var compareLoose_1; var hasRequiredCompareLoose; function requireCompareLoose () { if (hasRequiredCompareLoose) return compareLoose_1; hasRequiredCompareLoose = 1; const compare = requireCompare(); const compareLoose = (a, b) => compare(a, b, true); compareLoose_1 = compareLoose; return compareLoose_1; } var compareBuild_1; var hasRequiredCompareBuild; function requireCompareBuild () { if (hasRequiredCompareBuild) return compareBuild_1; hasRequiredCompareBuild = 1; const SemVer = requireSemver$1(); const compareBuild = (a, b, loose) => { const versionA = new SemVer(a, loose); const versionB = new SemVer(b, loose); return versionA.compare(versionB) || versionA.compareBuild(versionB) }; compareBuild_1 = compareBuild; return compareBuild_1; } var sort_1; var hasRequiredSort; function requireSort () { if (hasRequiredSort) return sort_1; hasRequiredSort = 1; const compareBuild = requireCompareBuild(); const sort = (list, loose) => list.sort((a, b) => compareBuild(a, b, loose)); sort_1 = sort; return sort_1; } var rsort_1; var hasRequiredRsort; function requireRsort () { if (hasRequiredRsort) return rsort_1; hasRequiredRsort = 1; const compareBuild = requireCompareBuild(); const rsort = (list, loose) => list.sort((a, b) => compareBuild(b, a, loose)); rsort_1 = rsort; return rsort_1; } var gt_1; var hasRequiredGt; function requireGt () { if (hasRequiredGt) return gt_1; hasRequiredGt = 1; const compare = requireCompare(); const gt = (a, b, loose) => compare(a, b, loose) > 0; gt_1 = gt; return gt_1; } var lt_1; var hasRequiredLt; function requireLt () { if (hasRequiredLt) return lt_1; hasRequiredLt = 1; const compare = requireCompare(); const lt = (a, b, loose) => compare(a, b, loose) < 0; lt_1 = lt; return lt_1; } var eq_1; var hasRequiredEq; function requireEq () { if (hasRequiredEq) return eq_1; hasRequiredEq = 1; const compare = requireCompare(); const eq = (a, b, loose) => compare(a, b, loose) === 0; eq_1 = eq; return eq_1; } var neq_1; var hasRequiredNeq; function requireNeq () { if (hasRequiredNeq) return neq_1; hasRequiredNeq = 1; const compare = requireCompare(); const neq = (a, b, loose) => compare(a, b, loose) !== 0; neq_1 = neq; return neq_1; } var gte_1; var hasRequiredGte; function requireGte () { if (hasRequiredGte) return gte_1; hasRequiredGte = 1; const compare = requireCompare(); const gte = (a, b, loose) => compare(a, b, loose) >= 0; gte_1 = gte; return gte_1; } var lte_1; var hasRequiredLte; function requireLte () { if (hasRequiredLte) return lte_1; hasRequiredLte = 1; const compare = requireCompare(); const lte = (a, b, loose) => compare(a, b, loose) <= 0; lte_1 = lte; return lte_1; } var cmp_1; var hasRequiredCmp; function requireCmp () { if (hasRequiredCmp) return cmp_1; hasRequiredCmp = 1; const eq = requireEq(); const neq = requireNeq(); const gt = requireGt(); const gte = requireGte(); const lt = requireLt(); const lte = requireLte(); const cmp = (a, op, b, loose) => { switch (op) { case '===': if (typeof a === 'object') { a = a.version; } if (typeof b === 'object') { b = b.version; } return a === b case '!==': if (typeof a === 'object') { a = a.version; } if (typeof b === 'object') { b = b.version; } return a !== b case '': case '=': case '==': return eq(a, b, loose) case '!=': return neq(a, b, loose) case '>': return gt(a, b, loose) case '>=': return gte(a, b, loose) case '<': return lt(a, b, loose) case '<=': return lte(a, b, loose) default: throw new TypeError(`Invalid operator: ${op}`) } }; cmp_1 = cmp; return cmp_1; } var coerce_1; var hasRequiredCoerce; function requireCoerce () { if (hasRequiredCoerce) return coerce_1; hasRequiredCoerce = 1; const SemVer = requireSemver$1(); const parse = requireParse(); const { safeRe: re, t } = requireRe(); const coerce = (version, options) => { if (version instanceof SemVer) { return version } if (typeof version === 'number') { version = String(version); } if (typeof version !== 'string') { return null } options = options || {}; let match = null; if (!options.rtl) { match = version.match(options.includePrerelease ? re[t.COERCEFULL] : re[t.COERCE]); } else { // Find the right-most coercible string that does not share // a terminus with a more left-ward coercible string. // Eg, '1.2.3.4' wants to coerce '2.3.4', not '3.4' or '4' // With includePrerelease option set, '1.2.3.4-rc' wants to coerce '2.3.4-rc', not '2.3.4' // // Walk through the string checking with a /g regexp // Manually set the index so as to pick up overlapping matches. // Stop when we get a match that ends at the string end, since no // coercible string can be more right-ward without the same terminus. const coerceRtlRegex = options.includePrerelease ? re[t.COERCERTLFULL] : re[t.COERCERTL]; let next; while ((next = coerceRtlRegex.exec(version)) && (!match || match.index + match[0].length !== version.length) ) { if (!match || next.index + next[0].length !== match.index + match[0].length) { match = next; } coerceRtlRegex.lastIndex = next.index + next[1].length + next[2].length; } // leave it in a clean state coerceRtlRegex.lastIndex = -1; } if (match === null) { return null } const major = match[2]; const minor = match[3] || '0'; const patch = match[4] || '0'; const prerelease = options.includePrerelease && match[5] ? `-${match[5]}` : ''; const build = options.includePrerelease && match[6] ? `+${match[6]}` : ''; return parse(`${major}.${minor}.${patch}${prerelease}${build}`, options) }; coerce_1 = coerce; return coerce_1; } var lrucache; var hasRequiredLrucache; function requireLrucache () { if (hasRequiredLrucache) return lrucache; hasRequiredLrucache = 1; class LRUCache { constructor () { this.max = 1000; this.map = new Map(); } get (key) { const value = this.map.get(key); if (value === undefined) { return undefined } else { // Remove the key from the map and add it to the end this.map.delete(key); this.map.set(key, value); return value } } delete (key) { return this.map.delete(key) } set (key, value) { const deleted = this.delete(key); if (!deleted && value !== undefined) { // If cache is full, delete the least recently used item if (this.map.size >= this.max) { const firstKey = this.map.keys().next().value; this.delete(firstKey); } this.map.set(key, value); } return this } } lrucache = LRUCache; return lrucache; } var range; var hasRequiredRange; function requireRange () { if (hasRequiredRange) return range; hasRequiredRange = 1; const SPACE_CHARACTERS = /\s+/g; // hoisted class for cyclic dependency class Range { constructor (range, options) { options = parseOptions(options); if (range instanceof Range) { if ( range.loose === !!options.loose && range.includePrerelease === !!options.includePrerelease ) { return range } else { return new Range(range.raw, options) } } if (range instanceof Comparator) { // just put it in the set and return this.raw = range.value; this.set = [[range]]; this.formatted = undefined; return this } this.options = options; this.loose = !!options.loose; this.includePrerelease = !!options.includePrerelease; // First reduce all whitespace as much as possible so we do not have to rely // on potentially slow regexes like \s*. This is then stored and used for // future error messages as well. this.raw = range.trim().replace(SPACE_CHARACTERS, ' '); // First, split on || this.set = this.raw .split('||') // map the range to a 2d array of comparators .map(r => this.parseRange(r.trim())) // throw out any comparator lists that are empty // this generally means that it was not a valid range, which is allowed // in loose mode, but will still throw if the WHOLE range is invalid. .filter(c => c.length); if (!this.set.length) { throw new TypeError(`Invalid SemVer Range: ${this.raw}`) } // if we have any that are not the null set, throw out null sets. if (this.set.length > 1) { // keep the first one, in case they're all null sets const first = this.set[0]; this.set = this.set.filter(c => !isNullSet(c[0])); if (this.set.length === 0) { this.set = [first]; } else if (this.set.length > 1) { // if we have any that are *, then the range is just * for (const c of this.set) { if (c.length === 1 && isAny(c[0])) { this.set = [c]; break } } } } this.formatted = undefined; } get range () { if (this.formatted === undefined) { this.formatted = ''; for (let i = 0; i < this.set.length; i++) { if (i > 0) { this.formatted += '||'; } const comps = this.set[i]; for (let k = 0; k < comps.length; k++) { if (k > 0) { this.formatted += ' '; } this.formatted += comps[k].toString().trim(); } } } return this.formatted } format () { return this.range } toString () { return this.range } parseRange (range) { // memoize range parsing for performance. // this is a very hot path, and fully deterministic. const memoOpts = (this.options.includePrerelease && FLAG_INCLUDE_PRERELEASE) | (this.options.loose && FLAG_LOOSE); const memoKey = memoOpts + ':' + range; const cached = cache.get(memoKey); if (cached) { return cached } const loose = this.options.loose; // `1.2.3 - 1.2.4` => `>=1.2.3 <=1.2.4` const hr = loose ? re[t.HYPHENRANGELOOSE] : re[t.HYPHENRANGE]; range = range.replace(hr, hyphenReplace(this.options.includePrerelease)); debug('hyphen replace', range); // `> 1.2.3 < 1.2.5` => `>1.2.3 <1.2.5` range = range.replace(re[t.COMPARATORTRIM], comparatorTrimReplace); debug('comparator trim', range); // `~ 1.2.3` => `~1.2.3` range = range.replace(re[t.TILDETRIM], tildeTrimReplace); debug('tilde trim', range); // `^ 1.2.3` => `^1.2.3` range = range.replace(re[t.CARETTRIM], caretTrimReplace); debug('caret trim', range); // At this point, the range is completely trimmed and // ready to be split into comparators. let rangeList = range .split(' ') .map(comp => parseComparator(comp, this.options)) .join(' ') .split(/\s+/) // >=0.0.0 is equivalent to * .map(comp => replaceGTE0(comp, this.options)); if (loose) { // in loose mode, throw out any that are not valid comparators rangeList = rangeList.filter(comp => { debug('loose invalid filter', comp, this.options); return !!comp.match(re[t.COMPARATORLOOSE]) }); } debug('range list', rangeList); // if any comparators are the null set, then replace with JUST null set // if more than one comparator, remove any * comparators // also, don't include the same comparator more than once const rangeMap = new Map(); const comparators = rangeList.map(comp => new Comparator(comp, this.options)); for (const comp of comparators) { if (isNullSet(comp)) { return [comp] } rangeMap.set(comp.value, comp); } if (rangeMap.size > 1 && rangeMap.has('')) { rangeMap.delete(''); } const result = [...rangeMap.values()]; cache.set(memoKey, result); return result } intersects (range, options) { if (!(range instanceof Range)) { throw new TypeError('a Range is required') } return this.set.some((thisComparators) => { return ( isSatisfiable(thisComparators, options) && range.set.some((rangeComparators) => { return ( isSatisfiable(rangeComparators, options) && thisComparators.every((thisComparator) => { return rangeComparators.every((rangeComparator) => { return thisComparator.intersects(rangeComparator, options) }) }) ) }) ) }) } // if ANY of the sets match ALL of its comparators, then pass test (version) { if (!version) { return false } if (typeof version === 'string') { try { version = new SemVer(version, this.options); } catch (er) { return false } } for (let i = 0; i < this.set.length; i++) { if (testSet(this.set[i], version, this.options)) { return true } } return false } } range = Range; const LRU = requireLrucache(); const cache = new LRU(); const parseOptions = requireParseOptions(); const Comparator = requireComparator(); const debug = requireDebug(); const SemVer = requireSemver$1(); const { safeRe: re, t, comparatorTrimReplace, tildeTrimReplace, caretTrimReplace, } = requireRe(); const { FLAG_INCLUDE_PRERELEASE, FLAG_LOOSE } = requireConstants(); const isNullSet = c => c.value === '<0.0.0-0'; const isAny = c => c.value === ''; // take a set of comparators and determine whether there // exists a version which can satisfy it const isSatisfiable = (comparators, options) => { let result = true; const remainingComparators = comparators.slice(); let testComparator = remainingComparators.pop(); while (result && remainingComparators.length) { result = remainingComparators.every((otherComparator) => { return testComparator.intersects(otherComparator, options) }); testComparator = remainingComparators.pop(); } return result }; // comprised of xranges, tildes, stars, and gtlt's at this point. // already replaced the hyphen ranges // turn into a set of JUST comparators. const parseComparator = (comp, options) => { comp = comp.replace(re[t.BUILD], ''); debug('comp', comp, options); comp = replaceCarets(comp, options); debug('caret', comp); comp = replaceTildes(comp, options); debug('tildes', comp); comp = replaceXRanges(comp, options); debug('xrange', comp); comp = replaceStars(comp, options); debug('stars', comp); return comp }; const isX = id => !id || id.toLowerCase() === 'x' || id === '*'; // ~, ~> --> * (any, kinda silly) // ~2, ~2.x, ~2.x.x, ~>2, ~>2.x ~>2.x.x --> >=2.0.0 <3.0.0-0 // ~2.0, ~2.0.x, ~>2.0, ~>2.0.x --> >=2.0.0 <2.1.0-0 // ~1.2, ~1.2.x, ~>1.2, ~>1.2.x --> >=1.2.0 <1.3.0-0 // ~1.2.3, ~>1.2.3 --> >=1.2.3 <1.3.0-0 // ~1.2.0, ~>1.2.0 --> >=1.2.0 <1.3.0-0 // ~0.0.1 --> >=0.0.1 <0.1.0-0 const replaceTildes = (comp, options) => { return comp .trim() .split(/\s+/) .map((c) => replaceTilde(c, options)) .join(' ') }; const replaceTilde = (comp, options) => { const r = options.loose ? re[t.TILDELOOSE] : re[t.TILDE]; return comp.replace(r, (_, M, m, p, pr) => { debug('tilde', comp, _, M, m, p, pr); let ret; if (isX(M)) { ret = ''; } else if (isX(m)) { ret = `>=${M}.0.0 <${+M + 1}.0.0-0`; } else if (isX(p)) { // ~1.2 == >=1.2.0 <1.3.0-0 ret = `>=${M}.${m}.0 <${M}.${+m + 1}.0-0`; } else if (pr) { debug('replaceTilde pr', pr); ret = `>=${M}.${m}.${p}-${pr } <${M}.${+m + 1}.0-0`; } else { // ~1.2.3 == >=1.2.3 <1.3.0-0 ret = `>=${M}.${m}.${p } <${M}.${+m + 1}.0-0`; } debug('tilde return', ret); return ret }) }; // ^ --> * (any, kinda silly) // ^2, ^2.x, ^2.x.x --> >=2.0.0 <3.0.0-0 // ^2.0, ^2.0.x --> >=2.0.0 <3.0.0-0 // ^1.2, ^1.2.x --> >=1.2.0 <2.0.0-0 // ^1.2.3 --> >=1.2.3 <2.0.0-0 // ^1.2.0 --> >=1.2.0 <2.0.0-0 // ^0.0.1 --> >=0.0.1 <0.0.2-0 // ^0.1.0 --> >=0.1.0 <0.2.0-0 const replaceCarets = (comp, options) => { return comp .trim() .split(/\s+/) .map((c) => replaceCaret(c, options)) .join(' ') }; const replaceCaret = (comp, options) => { debug('caret', comp, options); const r = options.loose ? re[t.CARETLOOSE] : re[t.CARET]; const z = options.includePrerelease ? '-0' : ''; return comp.replace(r, (_, M, m, p, pr) => { debug('caret', comp, _, M, m, p, pr); let ret; if (isX(M)) { ret = ''; } else if (isX(m)) { ret = `>=${M}.0.0${z} <${+M + 1}.0.0-0`; } else if (isX(p)) { if (M === '0') { ret = `>=${M}.${m}.0${z} <${M}.${+m + 1}.0-0`; } else { ret = `>=${M}.${m}.0${z} <${+M + 1}.0.0-0`; } } else if (pr) { debug('replaceCaret pr', pr); if (M === '0') { if (m === '0') { ret = `>=${M}.${m}.${p}-${pr } <${M}.${m}.${+p + 1}-0`; } else { ret = `>=${M}.${m}.${p}-${pr } <${M}.${+m + 1}.0-0`; } } else { ret = `>=${M}.${m}.${p}-${pr } <${+M + 1}.0.0-0`; } } else { debug('no pr'); if (M === '0') { if (m === '0') { ret = `>=${M}.${m}.${p }${z} <${M}.${m}.${+p + 1}-0`; } else { ret = `>=${M}.${m}.${p }${z} <${M}.${+m + 1}.0-0`; } } else { ret = `>=${M}.${m}.${p } <${+M + 1}.0.0-0`; } } debug('caret return', ret); return ret }) }; const replaceXRanges = (comp, options) => { debug('replaceXRanges', comp, options); return comp .split(/\s+/) .map((c) => replaceXRange(c, options)) .join(' ') }; const replaceXRange = (comp, options) => { comp = comp.trim(); const r = options.loose ? re[t.XRANGELOOSE] : re[t.XRANGE]; return comp.replace(r, (ret, gtlt, M, m, p, pr) => { debug('xRange', comp, ret, gtlt, M, m, p, pr); const xM = isX(M); const xm = xM || isX(m); const xp = xm || isX(p); const anyX = xp; if (gtlt === '=' && anyX) { gtlt = ''; } // if we're including prereleases in the match, then we need // to fix this to -0, the lowest possible prerelease value pr = options.includePrerelease ? '-0' : ''; if (xM) { if (gtlt === '>' || gtlt === '<') { // nothing is allowed ret = '<0.0.0-0'; } else { // nothing is forbidden ret = '*'; } } else if (gtlt && anyX) { // we know patch is an x, because we have any x at all. // replace X with 0 if (xm) { m = 0; } p = 0; if (gtlt === '>') { // >1 => >=2.0.0 // >1.2 => >=1.3.0 gtlt = '>='; if (xm) { M = +M + 1; m = 0; p = 0; } else { m = +m + 1; p = 0; } } else if (gtlt === '<=') { // <=0.7.x is actually <0.8.0, since any 0.7.x should // pass. Similarly, <=7.x is actually <8.0.0, etc. gtlt = '<'; if (xm) { M = +M + 1; } else { m = +m + 1; } } if (gtlt === '<') { pr = '-0'; } ret = `${gtlt + M}.${m}.${p}${pr}`; } else if (xm) { ret = `>=${M}.0.0${pr} <${+M + 1}.0.0-0`; } else if (xp) { ret = `>=${M}.${m}.0${pr } <${M}.${+m + 1}.0-0`; } debug('xRange return', ret); return ret }) }; // Because * is AND-ed with everything else in the comparator, // and '' means "any version", just remove the *s entirely. const replaceStars = (comp, options) => { debug('replaceStars', comp, options); // Looseness is ignored here. star is always as loose as it gets! return comp .trim() .replace(re[t.STAR], '') }; const replaceGTE0 = (comp, options) => { debug('replaceGTE0', comp, options); return comp .trim() .replace(re[options.includePrerelease ? t.GTE0PRE : t.GTE0], '') }; // This function is passed to string.replace(re[t.HYPHENRANGE]) // M, m, patch, prerelease, build // 1.2 - 3.4.5 => >=1.2.0 <=3.4.5 // 1.2.3 - 3.4 => >=1.2.0 <3.5.0-0 Any 3.4.x will do // 1.2 - 3.4 => >=1.2.0 <3.5.0-0 // TODO build? const hyphenReplace = incPr => ($0, from, fM, fm, fp, fpr, fb, to, tM, tm, tp, tpr) => { if (isX(fM)) { from = ''; } else if (isX(fm)) { from = `>=${fM}.0.0${incPr ? '-0' : ''}`; } else if (isX(fp)) { from = `>=${fM}.${fm}.0${incPr ? '-0' : ''}`; } else if (fpr) { from = `>=${from}`; } else { from = `>=${from}${incPr ? '-0' : ''}`; } if (isX(tM)) { to = ''; } else if (isX(tm)) { to = `<${+tM + 1}.0.0-0`; } else if (isX(tp)) { to = `<${tM}.${+tm + 1}.0-0`; } else if (tpr) { to = `<=${tM}.${tm}.${tp}-${tpr}`; } else if (incPr) { to = `<${tM}.${tm}.${+tp + 1}-0`; } else { to = `<=${to}`; } return `${from} ${to}`.trim() }; const testSet = (set, version, options) => { for (let i = 0; i < set.length; i++) { if (!set[i].test(version)) { return false } } if (version.prerelease.length && !options.includePrerelease) { // Find the set of versions that are allowed to have prereleases // For example, ^1.2.3-pr.1 desugars to >=1.2.3-pr.1 <2.0.0 // That should allow `1.2.3-pr.2` to pass. // However, `1.2.4-alpha.notready` should NOT be allowed, // even though it's within the range set by the comparators. for (let i = 0; i < set.length; i++) { debug(set[i].semver); if (set[i].semver === Comparator.ANY) { continue } if (set[i].semver.prerelease.length > 0) { const allowed = set[i].semver; if (allowed.major === version.major && allowed.minor === version.minor && allowed.patch === version.patch) { return true } } } // Version has a -pre, but it's not one of the ones we like. return false } return true }; return range; } var comparator; var hasRequiredComparator; function requireComparator () { if (hasRequiredComparator) return comparator; hasRequiredComparator = 1; const ANY = Symbol('SemVer ANY'); // hoisted class for cyclic dependency class Comparator { static get ANY () { return ANY } constructor (comp, options) { options = parseOptions(options); if (comp instanceof Comparator) { if (comp.loose === !!options.loose) { return comp } else { comp = comp.value; } } comp = comp.trim().split(/\s+/).join(' '); debug('comparator', comp, options); this.options = options; this.loose = !!options.loose; this.parse(comp); if (this.semver === ANY) { this.value = ''; } else { this.value = this.operator + this.semver.version; } debug('comp', this); } parse (comp) { const r = this.options.loose ? re[t.COMPARATORLOOSE] : re[t.COMPARATOR]; const m = comp.match(r); if (!m) { throw new TypeError(`Invalid comparator: ${comp}`) } this.operator = m[1] !== undefined ? m[1] : ''; if (this.operator === '=') { this.operator = ''; } // if it literally is just '>' or '' then allow anything. if (!m[2]) { this.semver = ANY; } else { this.semver = new SemVer(m[2], this.options.loose); } } toString () { return this.value } test (version) { debug('Comparator.test', version, this.options.loose); if (this.semver === ANY || version === ANY) { return true } if (typeof version === 'string') { try { version = new SemVer(version, this.options); } catch (er) { return false } } return cmp(version, this.operator, this.semver, this.options) } intersects (comp, options) { if (!(comp instanceof Comparator)) { throw new TypeError('a Comparator is required') } if (this.operator === '') { if (this.value === '') { return true } return new Range(comp.value, options).test(this.value) } else if (comp.operator === '') { if (comp.value === '') { return true } return new Range(this.value, options).test(comp.semver) } options = parseOptions(options); // Special cases where nothing can possibly be lower if (options.includePrerelease && (this.value === '<0.0.0-0' || comp.value === '<0.0.0-0')) { return false } if (!options.includePrerelease && (this.value.startsWith('<0.0.0') || comp.value.startsWith('<0.0.0'))) { return false } // Same direction increasing (> or >=) if (this.operator.startsWith('>') && comp.operator.startsWith('>')) { return true } // Same direction decreasing (< or <=) if (this.operator.startsWith('<') && comp.operator.startsWith('<')) { return true } // same SemVer and both sides are inclusive (<= or >=) if ( (this.semver.version === comp.semver.version) && this.operator.includes('=') && comp.operator.includes('=')) { return true } // opposite directions less than if (cmp(this.semver, '<', comp.semver, options) && this.operator.startsWith('>') && comp.operator.startsWith('<')) { return true } // opposite directions greater than if (cmp(this.semver, '>', comp.semver, options) && this.operator.startsWith('<') && comp.operator.startsWith('>')) { return true } return false } } comparator = Comparator; const parseOptions = requireParseOptions(); const { safeRe: re, t } = requireRe(); const cmp = requireCmp(); const debug = requireDebug(); const SemVer = requireSemver$1(); const Range = requireRange(); return comparator; } var satisfies_1; var hasRequiredSatisfies; function requireSatisfies () { if (hasRequiredSatisfies) return satisfies_1; hasRequiredSatisfies = 1; const Range = requireRange(); const satisfies = (version, range, options) => { try { range = new Range(range, options); } catch (er) { return false } return range.test(version) }; satisfies_1 = satisfies; return satisfies_1; } var toComparators_1; var hasRequiredToComparators; function requireToComparators () { if (hasRequiredToComparators) return toComparators_1; hasRequiredToComparators = 1; const Range = requireRange(); // Mostly just for testing and legacy API reasons const toComparators = (range, options) => new Range(range, options).set .map(comp => comp.map(c => c.value).join(' ').trim().split(' ')); toComparators_1 = toComparators; return toComparators_1; } var maxSatisfying_1; var hasRequiredMaxSatisfying; function requireMaxSatisfying () { if (hasRequiredMaxSatisfying) return maxSatisfying_1; hasRequiredMaxSatisfying = 1; const SemVer = requireSemver$1(); const Range = requireRange(); const maxSatisfying = (versions, range, options) => { let max = null; let maxSV = null; let rangeObj = null; try { rangeObj = new Range(range, options); } catch (er) { return null } versions.forEach((v) => { if (rangeObj.test(v)) { // satisfies(v, range, options) if (!max || maxSV.compare(v) === -1) { // compare(max, v, true) max = v; maxSV = new SemVer(max, options); } } }); return max }; maxSatisfying_1 = maxSatisfying; return maxSatisfying_1; } var minSatisfying_1; var hasRequiredMinSatisfying; function requireMinSatisfying () { if (hasRequiredMinSatisfying) return minSatisfying_1; hasRequiredMinSatisfying = 1; const SemVer = requireSemver$1(); const Range = requireRange(); const minSatisfying = (versions, range, options) => { let min = null; let minSV = null; let rangeObj = null; try { rangeObj = new Range(range, options); } catch (er) { return null } versions.forEach((v) => { if (rangeObj.test(v)) { // satisfies(v, range, options) if (!min || minSV.compare(v) === 1) { // compare(min, v, true) min = v; minSV = new SemVer(min, options); } } }); return min }; minSatisfying_1 = minSatisfying; return minSatisfying_1; } var minVersion_1; var hasRequiredMinVersion; function requireMinVersion () { if (hasRequiredMinVersion) return minVersion_1; hasRequiredMinVersion = 1; const SemVer = requireSemver$1(); const Range = requireRange(); const gt = requireGt(); const minVersion = (range, loose) => { range = new Range(range, loose); let minver = new SemVer('0.0.0'); if (range.test(minver)) { return minver } minver = new SemVer('0.0.0-0'); if (range.test(minver)) { return minver } minver = null; for (let i = 0; i < range.set.length; ++i) { const comparators = range.set[i]; let setMin = null; comparators.forEach((comparator) => { // Clone to avoid manipulating the comparator's semver object. const compver = new SemVer(comparator.semver.version); switch (comparator.operator) { case '>': if (compver.prerelease.length === 0) { compver.patch++; } else { compver.prerelease.push(0); } compver.raw = compver.format(); /* fallthrough */ case '': case '>=': if (!setMin || gt(compver, setMin)) { setMin = compver; } break case '<': case '<=': /* Ignore maximum versions */ break /* istanbul ignore next */ default: throw new Error(`Unexpected operation: ${comparator.operator}`) } }); if (setMin && (!minver || gt(minver, setMin))) { minver = setMin; } } if (minver && range.test(minver)) { return minver } return null }; minVersion_1 = minVersion; return minVersion_1; } var valid; var hasRequiredValid; function requireValid () { if (hasRequiredValid) return valid; hasRequiredValid = 1; const Range = requireRange(); const validRange = (range, options) => { try { // Return '*' instead of '' so that truthiness works. // This will throw if it's invalid anyway return new Range(range, options).range || '*' } catch (er) { return null } }; valid = validRange; return valid; } var outside_1; var hasRequiredOutside; function requireOutside () { if (hasRequiredOutside) return outside_1; hasRequiredOutside = 1; const SemVer = requireSemver$1(); const Comparator = requireComparator(); const { ANY } = Comparator; const Range = requireRange(); const satisfies = requireSatisfies(); const gt = requireGt(); const lt = requireLt(); const lte = requireLte(); const gte = requireGte(); const outside = (version, range, hilo, options) => { version = new SemVer(version, options); range = new Range(range, options); let gtfn, ltefn, ltfn, comp, ecomp; switch (hilo) { case '>': gtfn = gt; ltefn = lte; ltfn = lt; comp = '>'; ecomp = '>='; break case '<': gtfn = lt; ltefn = gte; ltfn = gt; comp = '<'; ecomp = '<='; break default: throw new TypeError('Must provide a hilo val of "<" or ">"') } // If it satisfies the range it is not outside if (satisfies(version, range, options)) { return false } // From now on, variable terms are as if we're in "gtr" mode. // but note that everything is flipped for the "ltr" function. for (let i = 0; i < range.set.length; ++i) { const comparators = range.set[i]; let high = null; let low = null; comparators.forEach((comparator) => { if (comparator.semver === ANY) { comparator = new Comparator('>=0.0.0'); } high = high || comparator; low = low || comparator; if (gtfn(comparator.semver, high.semver, options)) { high = comparator; } else if (ltfn(comparator.semver, low.semver, options)) { low = comparator; } }); // If the edge version comparator has a operator then our version // isn't outside it if (high.operator === comp || high.operator === ecomp) { return false } // If the lowest version comparator has an operator and our version // is less than it then it isn't higher than the range if ((!low.operator || low.operator === comp) && ltefn(version, low.semver)) { return false } else if (low.operator === ecomp && ltfn(version, low.semver)) { return false } } return true }; outside_1 = outside; return outside_1; } var gtr_1; var hasRequiredGtr; function requireGtr () { if (hasRequiredGtr) return gtr_1; hasRequiredGtr = 1; // Determine if version is greater than all the versions possible in the range. const outside = requireOutside(); const gtr = (version, range, options) => outside(version, range, '>', options); gtr_1 = gtr; return gtr_1; } var ltr_1; var hasRequiredLtr; function requireLtr () { if (hasRequiredLtr) return ltr_1; hasRequiredLtr = 1; const outside = requireOutside(); // Determine if version is less than all the versions possible in the range const ltr = (version, range, options) => outside(version, range, '<', options); ltr_1 = ltr; return ltr_1; } var intersects_1; var hasRequiredIntersects; function requireIntersects () { if (hasRequiredIntersects) return intersects_1; hasRequiredIntersects = 1; const Range = requireRange(); const intersects = (r1, r2, options) => { r1 = new Range(r1, options); r2 = new Range(r2, options); return r1.intersects(r2, options) }; intersects_1 = intersects; return intersects_1; } var simplify; var hasRequiredSimplify; function requireSimplify () { if (hasRequiredSimplify) return simplify; hasRequiredSimplify = 1; // given a set of versions and a range, create a "simplified" range // that includes the same versions that the original range does // If the original range is shorter than the simplified one, return that. const satisfies = requireSatisfies(); const compare = requireCompare(); simplify = (versions, range, options) => { const set = []; let first = null; let prev = null; const v = versions.sort((a, b) => compare(a, b, options)); for (const version of v) { const included = satisfies(version, range, options); if (included) { prev = version; if (!first) { first = version; } } else { if (prev) { set.push([first, prev]); } prev = null; first = null; } } if (first) { set.push([first, null]); } const ranges = []; for (const [min, max] of set) { if (min === max) { ranges.push(min); } else if (!max && min === v[0]) { ranges.push('*'); } else if (!max) { ranges.push(`>=${min}`); } else if (min === v[0]) { ranges.push(`<=${max}`); } else { ranges.push(`${min} - ${max}`); } } const simplified = ranges.join(' || '); const original = typeof range.raw === 'string' ? range.raw : String(range); return simplified.length < original.length ? simplified : range }; return simplify; } var subset_1; var hasRequiredSubset; function requireSubset () { if (hasRequiredSubset) return subset_1; hasRequiredSubset = 1; const Range = requireRange(); const Comparator = requireComparator(); const { ANY } = Comparator; const satisfies = requireSatisfies(); const compare = requireCompare(); // Complex range `r1 || r2 || ...` is a subset of `R1 || R2 || ...` iff: // - Every simple range `r1, r2, ...` is a null set, OR // - Every simple range `r1, r2, ...` which is not a null set is a subset of // some `R1, R2, ...` // // Simple range `c1 c2 ...` is a subset of simple range `C1 C2 ...` iff: // - If c is only the ANY comparator // - If C is only the ANY comparator, return true // - Else if in prerelease mode, return false // - else replace c with `[>=0.0.0]` // - If C is only the ANY comparator // - if in prerelease mode, return true // - else replace C with `[>=0.0.0]` // - Let EQ be the set of = comparators in c // - If EQ is more than one, return true (null set) // - Let GT be the highest > or >= comparator in c // - Let LT be the lowest < or <= comparator in c // - If GT and LT, and GT.semver > LT.semver, return true (null set) // - If any C is a = range, and GT or LT are set, return false // - If EQ // - If GT, and EQ does not satisfy GT, return true (null set) // - If LT, and EQ does not satisfy LT, return true (null set) // - If EQ satisfies every C, return true // - Else return false // - If GT // - If GT.semver is lower than any > or >= comp in C, return false // - If GT is >=, and GT.semver does not satisfy every C, return false // - If GT.semver has a prerelease, and not in prerelease mode // - If no C has a prerelease and the GT.semver tuple, return false // - If LT // - If LT.semver is greater than any < or <= comp in C, return false // - If LT is <=, and LT.semver does not satisfy every C, return false // - If LT.semver has a prerelease, and not in prerelease mode // - If no C has a prerelease and the LT.semver tuple, return false // - Else return true const subset = (sub, dom, options = {}) => { if (sub === dom) { return true } sub = new Range(sub, options); dom = new Range(dom, options); let sawNonNull = false; OUTER: for (const simpleSub of sub.set) { for (const simpleDom of dom.set) { const isSub = simpleSubset(simpleSub, simpleDom, options); sawNonNull = sawNonNull || isSub !== null; if (isSub) { continue OUTER } } // the null set is a subset of everything, but null simple ranges in // a complex range should be ignored. so if we saw a non-null range, // then we know this isn't a subset, but if EVERY simple range was null, // then it is a subset. if (sawNonNull) { return false } } return true }; const minimumVersionWithPreRelease = [new Comparator('>=0.0.0-0')]; const minimumVersion = [new Comparator('>=0.0.0')]; const simpleSubset = (sub, dom, options) => { if (sub === dom) { return true } if (sub.length === 1 && sub[0].semver === ANY) { if (dom.length === 1 && dom[0].semver === ANY) { return true } else if (options.includePrerelease) { sub = minimumVersionWithPreRelease; } else { sub = minimumVersion; } } if (dom.length === 1 && dom[0].semver === ANY) { if (options.includePrerelease) { return true } else { dom = minimumVersion; } } const eqSet = new Set(); let gt, lt; for (const c of sub) { if (c.operator === '>' || c.operator === '>=') { gt = higherGT(gt, c, options); } else if (c.operator === '<' || c.operator === '<=') { lt = lowerLT(lt, c, options); } else { eqSet.add(c.semver); } } if (eqSet.size > 1) { return null } let gtltComp; if (gt && lt) { gtltComp = compare(gt.semver, lt.semver, options); if (gtltComp > 0) { return null } else if (gtltComp === 0 && (gt.operator !== '>=' || lt.operator !== '<=')) { return null } } // will iterate one or zero times for (const eq of eqSet) { if (gt && !satisfies(eq, String(gt), options)) { return null } if (lt && !satisfies(eq, String(lt), options)) { return null } for (const c of dom) { if (!satisfies(eq, String(c), options)) { return false } } return true } let higher, lower; let hasDomLT, hasDomGT; // if the subset has a prerelease, we need a comparator in the superset // with the same tuple and a prerelease, or it's not a subset let needDomLTPre = lt && !options.includePrerelease && lt.semver.prerelease.length ? lt.semver : false; let needDomGTPre = gt && !options.includePrerelease && gt.semver.prerelease.length ? gt.semver : false; // exception: <1.2.3-0 is the same as <1.2.3 if (needDomLTPre && needDomLTPre.prerelease.length === 1 && lt.operator === '<' && needDomLTPre.prerelease[0] === 0) { needDomLTPre = false; } for (const c of dom) { hasDomGT = hasDomGT || c.operator === '>' || c.operator === '>='; hasDomLT = hasDomLT || c.operator === '<' || c.operator === '<='; if (gt) { if (needDomGTPre) { if (c.semver.prerelease && c.semver.prerelease.length && c.semver.major === needDomGTPre.major && c.semver.minor === needDomGTPre.minor && c.semver.patch === needDomGTPre.patch) { needDomGTPre = false; } } if (c.operator === '>' || c.operator === '>=') { higher = higherGT(gt, c, options); if (higher === c && higher !== gt) { return false } } else if (gt.operator === '>=' && !satisfies(gt.semver, String(c), options)) { return false } } if (lt) { if (needDomLTPre) { if (c.semver.prerelease && c.semver.prerelease.length && c.semver.major === needDomLTPre.major && c.semver.minor === needDomLTPre.minor && c.semver.patch === needDomLTPre.patch) { needDomLTPre = false; } } if (c.operator === '<' || c.operator === '<=') { lower = lowerLT(lt, c, options); if (lower === c && lower !== lt) { return false } } else if (lt.operator === '<=' && !satisfies(lt.semver, String(c), options)) { return false } } if (!c.operator && (lt || gt) && gtltComp !== 0) { return false } } // if there was a < or >, and nothing in the dom, then must be false // UNLESS it was limited by another range in the other direction. // Eg, >1.0.0 <1.0.1 is still a subset of <2.0.0 if (gt && hasDomLT && !lt && gtltComp !== 0) { return false } if (lt && hasDomGT && !gt && gtltComp !== 0) { return false } // we needed a prerelease range in a specific tuple, but didn't get one // then this isn't a subset. eg >=1.2.3-pre is not a subset of >=1.0.0, // because it includes prereleases in the 1.2.3 tuple if (needDomGTPre || needDomLTPre) { return false } return true }; // >=1.2.3 is lower than >1.2.3 const higherGT = (a, b, options) => { if (!a) { return b } const comp = compare(a.semver, b.semver, options); return comp > 0 ? a : comp < 0 ? b : b.operator === '>' && a.operator === '>=' ? b : a }; // <=1.2.3 is higher than <1.2.3 const lowerLT = (a, b, options) => { if (!a) { return b } const comp = compare(a.semver, b.semver, options); return comp < 0 ? a : comp > 0 ? b : b.operator === '<' && a.operator === '<=' ? b : a }; subset_1 = subset; return subset_1; } var semver; var hasRequiredSemver; function requireSemver () { if (hasRequiredSemver) return semver; hasRequiredSemver = 1; // just pre-load all the stuff that index.js lazily exports const internalRe = requireRe(); const constants = requireConstants(); const SemVer = requireSemver$1(); const identifiers = requireIdentifiers(); const parse = requireParse(); const valid = requireValid$1(); const clean = requireClean(); const inc = requireInc(); const diff = requireDiff(); const major = requireMajor(); const minor = requireMinor(); const patch = requirePatch(); const prerelease = requirePrerelease(); const compare = requireCompare(); const rcompare = requireRcompare(); const compareLoose = requireCompareLoose(); const compareBuild = requireCompareBuild(); const sort = requireSort(); const rsort = requireRsort(); const gt = requireGt(); const lt = requireLt(); const eq = requireEq(); const neq = requireNeq(); const gte = requireGte(); const lte = requireLte(); const cmp = requireCmp(); const coerce = requireCoerce(); const Comparator = requireComparator(); const Range = requireRange(); const satisfies = requireSatisfies(); const toComparators = requireToComparators(); const maxSatisfying = requireMaxSatisfying(); const minSatisfying = requireMinSatisfying(); const minVersion = requireMinVersion(); const validRange = requireValid(); const outside = requireOutside(); const gtr = requireGtr(); const ltr = requireLtr(); const intersects = requireIntersects(); const simplifyRange = requireSimplify(); const subset = requireSubset(); semver = { parse, valid, clean, inc, diff, major, minor, patch, prerelease, compare, rcompare, compareLoose, compareBuild, sort, rsort, gt, lt, eq, neq, gte, lte, cmp, coerce, Comparator, Range, satisfies, toComparators, maxSatisfying, minSatisfying, minVersion, validRange, outside, gtr, ltr, intersects, simplifyRange, subset, SemVer, re: internalRe.re, src: internalRe.src, tokens: internalRe.t, SEMVER_SPEC_VERSION: constants.SEMVER_SPEC_VERSION, RELEASE_TYPES: constants.RELEASE_TYPES, compareIdentifiers: identifiers.compareIdentifiers, rcompareIdentifiers: identifiers.rcompareIdentifiers, }; return semver; } var semverExports = requireSemver(); (undefined && undefined.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __awaiter$1 = (undefined && undefined.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; /** * Internal class for retries */ class RetryHelper { constructor(maxAttempts, minSeconds, maxSeconds) { if (maxAttempts < 1) { throw new Error('max attempts should be greater than or equal to 1'); } this.maxAttempts = maxAttempts; this.minSeconds = Math.floor(minSeconds); this.maxSeconds = Math.floor(maxSeconds); if (this.minSeconds > this.maxSeconds) { throw new Error('min seconds should be less than or equal to max seconds'); } } execute(action, isRetryable) { return __awaiter$1(this, void 0, void 0, function* () { let attempt = 1; while (attempt < this.maxAttempts) { // Try try { return yield action(); } catch (err) { if (isRetryable && !isRetryable(err)) { throw err; } info(err.message); } // Sleep const seconds = this.getSleepAmount(); info(`Waiting ${seconds} seconds before trying again`); yield this.sleep(seconds); attempt++; } // Last attempt return yield action(); }); } getSleepAmount() { return (Math.floor(Math.random() * (this.maxSeconds - this.minSeconds + 1)) + this.minSeconds); } sleep(seconds) { return __awaiter$1(this, void 0, void 0, function* () { return new Promise(resolve => setTimeout(resolve, seconds * 1000)); }); } } var __awaiter = (undefined && undefined.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; class HTTPError extends Error { constructor(httpStatusCode) { super(`Unexpected HTTP response: ${httpStatusCode}`); this.httpStatusCode = httpStatusCode; Object.setPrototypeOf(this, new.target.prototype); } } const IS_WINDOWS = process.platform === 'win32'; process.platform === 'darwin'; const userAgent = 'actions/tool-cache'; /** * Download a tool from an url and stream it into a file * * @param url url of tool to download * @param dest path to download tool * @param auth authorization header * @param headers other headers * @returns path to downloaded tool */ function downloadTool(url, dest, auth, headers) { return __awaiter(this, void 0, void 0, function* () { dest = dest || path.join(_getTempDirectory(), crypto.randomUUID()); yield mkdirP(path.dirname(dest)); debug(`Downloading ${url}`); debug(`Destination ${dest}`); const maxAttempts = 3; const minSeconds = _getGlobal('TEST_DOWNLOAD_TOOL_RETRY_MIN_SECONDS', 10); const maxSeconds = _getGlobal('TEST_DOWNLOAD_TOOL_RETRY_MAX_SECONDS', 20); const retryHelper = new RetryHelper(maxAttempts, minSeconds, maxSeconds); return yield retryHelper.execute(() => __awaiter(this, void 0, void 0, function* () { return yield downloadToolAttempt(url, dest || '', auth, headers); }), (err) => { if (err instanceof HTTPError && err.httpStatusCode) { // Don't retry anything less than 500, except 408 Request Timeout and 429 Too Many Requests if (err.httpStatusCode < 500 && err.httpStatusCode !== 408 && err.httpStatusCode !== 429) { return false; } } // Otherwise retry return true; }); }); } function downloadToolAttempt(url, dest, auth, headers) { return __awaiter(this, void 0, void 0, function* () { if (fs.existsSync(dest)) { throw new Error(`Destination file path ${dest} already exists`); } // Get the response headers const http = new HttpClient(userAgent, [], { allowRetries: false }); const response = yield http.get(url, headers); if (response.message.statusCode !== 200) { const err = new HTTPError(response.message.statusCode); debug(`Failed to download from "${url}". Code(${response.message.statusCode}) Message(${response.message.statusMessage})`); throw err; } // Download the response body const pipeline = require$$6.promisify(stream.pipeline); const responseMessageFactory = _getGlobal('TEST_DOWNLOAD_TOOL_RESPONSE_MESSAGE_FACTORY', () => response.message); const readStream = responseMessageFactory(); let succeeded = false; try { yield pipeline(readStream, fs.createWriteStream(dest)); debug('download complete'); succeeded = true; return dest; } finally { // Error, delete dest before retry if (!succeeded) { debug('download failed'); try { yield rmRF(dest); } catch (err) { debug(`Failed to delete '${dest}'. ${err.message}`); } } } }); } /** * Extract a zip * * @param file path to the zip * @param dest destination directory. Optional. * @returns path to the destination directory */ function extractZip(file, dest) { return __awaiter(this, void 0, void 0, function* () { if (!file) { throw new Error("parameter 'file' is required"); } dest = yield _createExtractFolder(dest); if (IS_WINDOWS) { yield extractZipWin(file, dest); } else { yield extractZipNix(file, dest); } return dest; }); } function extractZipWin(file, dest) { return __awaiter(this, void 0, void 0, function* () { // build the powershell command const escapedFile = file.replace(/'/g, "''").replace(/"|\n|\r/g, ''); // double-up single quotes, remove double quotes and newlines const escapedDest = dest.replace(/'/g, "''").replace(/"|\n|\r/g, ''); const pwshPath = yield which('pwsh', false); //To match the file overwrite behavior on nix systems, we use the overwrite = true flag for ExtractToDirectory //and the -Force flag for Expand-Archive as a fallback if (pwshPath) { //attempt to use pwsh with ExtractToDirectory, if this fails attempt Expand-Archive const pwshCommand = [ `$ErrorActionPreference = 'Stop' ;`, `try { Add-Type -AssemblyName System.IO.Compression.ZipFile } catch { } ;`, `try { [System.IO.Compression.ZipFile]::ExtractToDirectory('${escapedFile}', '${escapedDest}', $true) }`, `catch { if (($_.Exception.GetType().FullName -eq 'System.Management.Automation.MethodException') -or ($_.Exception.GetType().FullName -eq 'System.Management.Automation.RuntimeException') ){ Expand-Archive -LiteralPath '${escapedFile}' -DestinationPath '${escapedDest}' -Force } else { throw $_ } } ;` ].join(' '); const args = [ '-NoLogo', '-NoProfile', '-NonInteractive', '-ExecutionPolicy', 'Unrestricted', '-Command', pwshCommand ]; debug(`Using pwsh at path: ${pwshPath}`); yield exec(`"${pwshPath}"`, args); } else { const powershellCommand = [ `$ErrorActionPreference = 'Stop' ;`, `try { Add-Type -AssemblyName System.IO.Compression.FileSystem } catch { } ;`, `if ((Get-Command -Name Expand-Archive -Module Microsoft.PowerShell.Archive -ErrorAction Ignore)) { Expand-Archive -LiteralPath '${escapedFile}' -DestinationPath '${escapedDest}' -Force }`, `else {[System.IO.Compression.ZipFile]::ExtractToDirectory('${escapedFile}', '${escapedDest}', $true) }` ].join(' '); const args = [ '-NoLogo', '-Sta', '-NoProfile', '-NonInteractive', '-ExecutionPolicy', 'Unrestricted', '-Command', powershellCommand ]; const powershellPath = yield which('powershell', true); debug(`Using powershell at path: ${powershellPath}`); yield exec(`"${powershellPath}"`, args); } }); } function extractZipNix(file, dest) { return __awaiter(this, void 0, void 0, function* () { const unzipPath = yield which('unzip', true); const args = [file]; if (!isDebug()) { args.unshift('-q'); } args.unshift('-o'); //overwrite with -o, otherwise a prompt is shown which freezes the run yield exec(`"${unzipPath}"`, args, { cwd: dest }); }); } /** * Caches a directory and installs it into the tool cacheDir * * @param sourceDir the directory to cache into tools * @param tool tool name * @param version version of the tool. semver format * @param arch architecture of the tool. Optional. Defaults to machine architecture */ function cacheDir(sourceDir, tool, version, arch) { return __awaiter(this, void 0, void 0, function* () { version = semverExports.clean(version) || version; arch = arch || os.arch(); debug(`Caching tool ${tool} ${version} ${arch}`); debug(`source dir: ${sourceDir}`); if (!fs.statSync(sourceDir).isDirectory()) { throw new Error('sourceDir is not a directory'); } // Create the tool dir const destPath = yield _createToolPath(tool, version, arch); // copy each child item. do not move. move can fail on Windows // due to anti-virus software having an open handle on a file. for (const itemName of fs.readdirSync(sourceDir)) { const s = path.join(sourceDir, itemName); yield cp(s, destPath, { recursive: true }); } // write .complete _completeToolPath(tool, version, arch); return destPath; }); } /** * Finds the path to a tool version in the local installed tool cache * * @param toolName name of the tool * @param versionSpec version of the tool * @param arch optional arch. defaults to arch of computer */ function find(toolName, versionSpec, arch) { if (!versionSpec) { throw new Error('versionSpec parameter is required'); } arch = arch || os.arch(); // attempt to resolve an explicit version if (!isExplicitVersion(versionSpec)) { const localVersions = findAllVersions(toolName, arch); const match = evaluateVersions(localVersions, versionSpec); versionSpec = match; } // check for the explicit version in the cache let toolPath = ''; if (versionSpec) { versionSpec = semverExports.clean(versionSpec) || ''; const cachePath = path.join(_getCacheDirectory(), toolName, versionSpec, arch); debug(`checking cache: ${cachePath}`); if (fs.existsSync(cachePath) && fs.existsSync(`${cachePath}.complete`)) { debug(`Found tool in cache ${toolName} ${versionSpec} ${arch}`); toolPath = cachePath; } else { debug('not found'); } } return toolPath; } /** * Finds the paths to all versions of a tool that are installed in the local tool cache * * @param toolName name of the tool * @param arch optional arch. defaults to arch of computer */ function findAllVersions(toolName, arch) { const versions = []; arch = arch || os.arch(); const toolPath = path.join(_getCacheDirectory(), toolName); if (fs.existsSync(toolPath)) { const children = fs.readdirSync(toolPath); for (const child of children) { if (isExplicitVersion(child)) { const fullPath = path.join(toolPath, child, arch || ''); if (fs.existsSync(fullPath) && fs.existsSync(`${fullPath}.complete`)) { versions.push(child); } } } } return versions; } function _createExtractFolder(dest) { return __awaiter(this, void 0, void 0, function* () { if (!dest) { // create a temp dir dest = path.join(_getTempDirectory(), crypto.randomUUID()); } yield mkdirP(dest); return dest; }); } function _createToolPath(tool, version, arch) { return __awaiter(this, void 0, void 0, function* () { const folderPath = path.join(_getCacheDirectory(), tool, semverExports.clean(version) || version, arch || ''); debug(`destination ${folderPath}`); const markerPath = `${folderPath}.complete`; yield rmRF(folderPath); yield rmRF(markerPath); yield mkdirP(folderPath); return folderPath; }); } function _completeToolPath(tool, version, arch) { const folderPath = path.join(_getCacheDirectory(), tool, semverExports.clean(version) || version, arch || ''); const markerPath = `${folderPath}.complete`; fs.writeFileSync(markerPath, ''); debug('finished caching tool'); } /** * Check if version string is explicit * * @param versionSpec version string to check */ function isExplicitVersion(versionSpec) { const c = semverExports.clean(versionSpec) || ''; debug(`isExplicit: ${c}`); const valid = semverExports.valid(c) != null; debug(`explicit? ${valid}`); return valid; } /** * Get the highest satisfiying semantic version in `versions` which satisfies `versionSpec` * * @param versions array of versions to evaluate * @param versionSpec semantic version spec to satisfy */ function evaluateVersions(versions, versionSpec) { let version = ''; debug(`evaluating ${versions.length} versions`); versions = versions.sort((a, b) => { if (semverExports.gt(a, b)) { return 1; } return -1; }); for (let i = versions.length - 1; i >= 0; i--) { const potential = versions[i]; const satisfied = semverExports.satisfies(potential, versionSpec); if (satisfied) { version = potential; break; } } if (version) { debug(`matched: ${version}`); } else { debug('match not found'); } return version; } /** * Gets RUNNER_TOOL_CACHE */ function _getCacheDirectory() { const cacheDirectory = process.env['RUNNER_TOOL_CACHE'] || ''; ok(cacheDirectory, 'Expected RUNNER_TOOL_CACHE to be defined'); return cacheDirectory; } /** * Gets RUNNER_TEMP */ function _getTempDirectory() { const tempDirectory = process.env['RUNNER_TEMP'] || ''; ok(tempDirectory, 'Expected RUNNER_TEMP to be defined'); return tempDirectory; } /** * Gets a global variable */ function _getGlobal(key, defaultValue) { /* eslint-disable @typescript-eslint/no-explicit-any */ const value = global[key]; /* eslint-enable @typescript-eslint/no-explicit-any */ return value !== undefined ? value : defaultValue; } // SonarQube Scan Action // Copyright (C) SonarSource Sàrl // mailto:contact AT sonarsource DOT com // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 3 of the License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with this program; if not, write to the Free Software Foundation, // Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. const platformFlavor = { linux: { x64: "linux-x64", arm64: "linux-aarch64", }, win32: { x64: "windows-x64", }, darwin: { x64: "macosx-x64", arm64: "macosx-aarch64", }, }; function getPlatformFlavor(platform, arch) { const flavor = platformFlavor[platform]?.[arch]; if (!flavor) { throw new Error(`Platform ${platform} ${arch} not supported`); } return flavor; } function getScannerDownloadURL({ scannerBinariesUrl, scannerVersion, flavor, }) { const trimURL = scannerBinariesUrl.replace(/\/$/, ""); return `${trimURL}/sonar-scanner-cli-${scannerVersion}-${flavor}.zip`; } const scannerDirName = (version, flavor) => `sonar-scanner-${version}-${flavor}`; // SonarQube Scan Action // Copyright (C) SonarSource Sàrl // mailto:contact AT sonarsource DOT com // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 3 of the License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with this program; if not, write to the Free Software Foundation, // Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. const TOOLNAME = "sonar-scanner-cli"; /** * Download the Sonar Scanner CLI for the current environment and cache it. */ async function installSonarScanner({ scannerVersion, scannerBinariesUrl, }) { const flavor = getPlatformFlavor(os.platform(), os.arch()); // Check if tool is already cached let toolDir = find(TOOLNAME, scannerVersion, flavor); if (!toolDir) { info( `Installing Sonar Scanner CLI ${scannerVersion} for ${flavor}...` ); const downloadUrl = getScannerDownloadURL({ scannerBinariesUrl, scannerVersion, flavor, }); info(`Downloading from: ${downloadUrl}`); const downloadPath = await downloadTool(downloadUrl); const extractedPath = await extractZip(downloadPath); // Find the actual scanner directory inside the extracted folder const scannerPath = path.join( extractedPath, scannerDirName(scannerVersion, flavor) ); toolDir = await cacheDir(scannerPath, TOOLNAME, scannerVersion, flavor); info(`Sonar Scanner CLI cached to: ${toolDir}`); } else { info(`Using cached Sonar Scanner CLI from: ${toolDir}`); } // Add the bin directory to PATH const binDir = path.join(toolDir, "bin"); addPath(binDir); return toolDir; } function parseArgsStringToArgv(value, env, file) { // ([^\s'"]([^\s'"]*(['"])([^\3]*?)\3)+[^\s'"]*) Matches nested quotes until the first space outside of quotes // [^\s'"]+ or Match if not a space ' or " // (['"])([^\5]*?)\5 or Match "quoted text" without quotes // `\3` and `\5` are a backreference to the quote style (' or ") captured var myRegexp = /([^\s'"]([^\s'"]*(['"])([^\3]*?)\3)+[^\s'"]*)|[^\s'"]+|(['"])([^\5]*?)\5/gi; var myString = value; var myArray = []; var match; do { // Each call to exec returns the next regex match as an array match = myRegexp.exec(myString); if (match !== null) { // Index 1 in the array is the captured group if it exists // Index 0 is the matched text, which we use if no captured group exists myArray.push(firstString(match[1], match[6], match[0])); } } while (match !== null); return myArray; } // Accepts any number of arguments, and returns the first one that is a string // (even an empty string) function firstString() { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } for (var i = 0; i < args.length; i++) { var arg = args[i]; if (typeof arg === "string") { return arg; } } } // SonarQube Scan Action // Copyright (C) SonarSource Sàrl // mailto:contact AT sonarsource DOT com // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 3 of the License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with this program; if not, write to the Free Software Foundation, // Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. const KEYTOOL_MAIN_CLASS = "sun.security.tools.keytool.Main"; const TRUSTSTORE_PASSWORD = "changeit"; // default password of the Java truststore! async function runSonarScanner( inputArgs, projectBaseDir, scannerDir, runnerEnv = {} ) { const { runnerDebug, runnerOs, runnerTemp, sonarRootCert, sonarcloudUrl } = runnerEnv; const scannerBin = runnerOs === "Windows" ? "sonar-scanner.bat" : "sonar-scanner"; const scannerArgs = []; /** * Not sanitization is needed when populating scannerArgs. * @actions/exec will take care of sanitizing the args it receives. */ if (sonarcloudUrl) { scannerArgs.push(`-Dsonar.scanner.sonarcloudUrl=${sonarcloudUrl}`); } if (runnerDebug === "1") { scannerArgs.push("--debug"); } if (projectBaseDir) { scannerArgs.push(`-Dsonar.projectBaseDir=${projectBaseDir}`); } // The SSL folder may exist on an uncleaned self-hosted runner const sslFolder = path.join(os.homedir(), ".sonar", "ssl"); const truststoreFile = path.join(sslFolder, "truststore.p12"); const keytoolParams = { scannerDir, truststoreFile, }; if (fs.existsSync(truststoreFile)) { let aliasSonarIsPresent = true; try { await checkSonarAliasInTruststore(keytoolParams); } catch (_) { aliasSonarIsPresent = false; info( `Existing Scanner truststore ${truststoreFile} does not contain 'sonar' alias` ); } if (aliasSonarIsPresent) { info( `Removing 'sonar' alias from already existing Scanner truststore: ${truststoreFile}` ); await deleteSonarAliasFromTruststore(keytoolParams); } } if (sonarRootCert) { info("Adding SSL certificate to the Scanner truststore"); const tempCertPath = path.join(runnerTemp, "tmpcert.pem"); try { fs.unlinkSync(tempCertPath); } catch (_) { // File doesn't exist, ignore } fs.writeFileSync(tempCertPath, sonarRootCert); fs.mkdirSync(sslFolder, { recursive: true }); await importCertificateToTruststore(keytoolParams, tempCertPath); scannerArgs.push( `-Dsonar.scanner.truststorePassword=${TRUSTSTORE_PASSWORD}` ); } if (inputArgs) { /** * No sanitization, but it is parsing a string into an array of arguments in a safe way (= no command execution), * and with good enough support of quotes to support arguments containing spaces. */ const args = parseArgsStringToArgv(inputArgs); scannerArgs.push(...args); } /** * Arguments are sanitized by `exec` */ await exec(scannerBin, scannerArgs); } /** * Use keytool for now, as SonarQube 10.6 and below doesn't support openssl generated keystores * keytool requires a password > 6 characters, so we won't use the default password 'sonar' */ function executeKeytoolCommand({ scannerDir, truststoreFile, extraArgs, options = {}, }) { const baseArgs = [ KEYTOOL_MAIN_CLASS, "-storetype", "PKCS12", "-keystore", truststoreFile, "-storepass", TRUSTSTORE_PASSWORD, "-noprompt", "-trustcacerts", ...extraArgs, ]; return exec(`${scannerDir}/jre/bin/java`, baseArgs, options); } function importCertificateToTruststore(keytoolParams, certPath) { return executeKeytoolCommand({ ...keytoolParams, extraArgs: ["-importcert", "-alias", "sonar", "-file", certPath], }); } function checkSonarAliasInTruststore(keytoolParams) { return executeKeytoolCommand({ ...keytoolParams, extraArgs: ["-list", "-v", "-alias", "sonar"], options: { silent: true }, }); } function deleteSonarAliasFromTruststore(keytoolParams) { return executeKeytoolCommand({ ...keytoolParams, extraArgs: ["-delete", "-alias", "sonar"], }); } // SonarQube Scan Action // Copyright (C) SonarSource Sàrl // mailto:contact AT sonarsource DOT com // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 3 of the License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with this program; if not, write to the Free Software Foundation, // Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. function validateScannerVersion(version) { if (!version) { return; } const versionRegex = /^\d+\.\d+\.\d+\.\d+$/; if (!versionRegex.test(version)) { throw new Error( "Invalid scannerVersion format. Expected format: x.y.z.w (e.g., 7.1.0.4889)" ); } } function checkSonarToken(core, sonarToken) { if (!sonarToken) { core.warning( "Running this GitHub Action without SONAR_TOKEN is not recommended" ); } } function checkMavenProject(core, projectBaseDir) { const pomPath = join(projectBaseDir.replace(/\/$/, ""), "pom.xml"); if (fs__default.existsSync(pomPath)) { core.warning( "Maven project detected. Sonar recommends running the 'org.sonarsource.scanner.maven:sonar-maven-plugin:sonar' goal during the build process instead of using this GitHub Action to get more accurate results." ); } } function checkGradleProject(core, projectBaseDir) { const baseDir = projectBaseDir.replace(/\/$/, ""); const gradlePath = join(baseDir, "build.gradle"); const gradleKtsPath = join(baseDir, "build.gradle.kts"); if (fs__default.existsSync(gradlePath) || fs__default.existsSync(gradleKtsPath)) { core.warning( "Gradle project detected. Sonar recommends using the SonarQube plugin for Gradle during the build process instead of using this GitHub Action to get more accurate results." ); } } // SonarQube Scan Action // Copyright (C) SonarSource Sàrl // mailto:contact AT sonarsource DOT com // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 3 of the License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with this program; if not, write to the Free Software Foundation, // Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. /** * Inputs are defined in action.yml */ function getInputs() { const args = getInput("args"); const projectBaseDir = getInput("projectBaseDir"); const scannerBinariesUrl = getInput("scannerBinariesUrl"); const scannerVersion = getInput("scannerVersion"); return { args, projectBaseDir, scannerBinariesUrl, scannerVersion }; } /** * These RUNNER env variables come from GitHub by default. * See https://docs.github.com/en/actions/reference/workflows-and-actions/variables#default-environment-variables * * The others are optional env variables provided by the user of the action */ function getEnvVariables() { return { runnerDebug: process.env.RUNNER_DEBUG, runnerOs: process.env.RUNNER_OS, runnerTemp: process.env.RUNNER_TEMP, sonarRootCert: process.env.SONAR_ROOT_CERT, sonarcloudUrl: process.env.SONARCLOUD_URL, sonarToken: process.env.SONAR_TOKEN, }; } function runSanityChecks(inputs) { try { const { projectBaseDir, scannerVersion, sonarToken } = inputs; validateScannerVersion(scannerVersion); checkSonarToken(core, sonarToken); checkMavenProject(core, projectBaseDir); checkGradleProject(core, projectBaseDir); } catch (error) { setFailed(`Sanity checks failed: ${error.message}`); process.exit(1); } } async function run() { try { const { args, projectBaseDir, scannerVersion, scannerBinariesUrl } = getInputs(); const runnerEnv = getEnvVariables(); const { sonarToken } = runnerEnv; runSanityChecks({ projectBaseDir, scannerVersion, sonarToken }); const scannerDir = await installSonarScanner({ scannerVersion, scannerBinariesUrl, }); await runSonarScanner(args, projectBaseDir, scannerDir, runnerEnv); } catch (error) { setFailed(`Action failed: ${error.message}`); process.exit(1); } } run(); //# sourceMappingURL=index.js.map