GRAYBYTE | AutoShopMaker

Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

'use strict' const BB = require('bluebird') var fs = require('fs') var assert = require('assert') var path = require('path') var semver = require('semver') var asyncMap = require('slide').asyncMap var chain = require('slide').chain var iferr = require('iferr') var npa = require('npm-package-arg') var validate = require('aproba') var dezalgo = require('dezalgo') var fetchPackageMetadata = require('../fetch-package-metadata.js') var andAddParentToErrors = require('./and-add-parent-to-errors.js') var addBundled = require('../fetch-package-metadata.js').addBundled var readShrinkwrap = require('./read-shrinkwrap.js') var inflateShrinkwrap = require('./inflate-shrinkwrap.js') var inflateBundled = require('./inflate-bundled.js') var andFinishTracker = require('./and-finish-tracker.js') var npm = require('../npm.js') var flatNameFromTree = require('./flatten-tree.js').flatNameFromTree var createChild = require('./node.js').create var resetMetadata = require('./node.js').reset var isInstallable = require('./validate-args.js').isInstallable var packageId = require('../utils/package-id.js') var moduleName = require('../utils/module-name.js') var isDevDep = require('./is-dev-dep.js') var isProdDep = require('./is-prod-dep.js') var reportOptionalFailure = require('./report-optional-failure.js') var getSaveType = require('./save.js').getSaveType var unixFormatPath = require('../utils/unix-format-path.js') var isExtraneous = require('./is-extraneous.js') var isRegistry = require('../utils/is-registry.js') // The export functions in this module mutate a dependency tree, adding // items to them. var registryTypes = { range: true, version: true } function doesChildVersionMatch (child, requested, requestor) { if (child.fromShrinkwrap && !child.hasRequiresFromLock) return true // ranges of * ALWAYS count as a match, because when downloading we allow // prereleases to match * if there are ONLY prereleases if (requested.type === 'range' && requested.fetchSpec === '*') return true if (requested.type === 'directory') { if (!child.isLink) return false return path.relative(child.realpath, requested.fetchSpec) === '' } if (!registryTypes[requested.type]) { var childReq = child.package._requested if (childReq) { if (childReq.rawSpec === requested.rawSpec) return true if (childReq.type === requested.type && childReq.saveSpec === requested.saveSpec) return true } // If _requested didn't exist OR if it didn't match then we'll try using // _from. We pass it through npa to normalize the specifier. // This can happen when installing from an `npm-shrinkwrap.json` where `_requested` will // be the tarball URL from `resolved` and thus can't match what's in the `package.json`. // In those cases _from, will be preserved and we can compare that to ensure that they // really came from the same sources. // You'll see this scenario happen with at least tags and git dependencies. // Some buggy clients will write spaces into the module name part of a _from. if (child.package._from) { var fromReq = npa.resolve(moduleName(child), child.package._from.replace(new RegExp('^\s*' + moduleName(child) + '\s*@'), '')) if (fromReq.rawSpec === requested.rawSpec) return true if (fromReq.type === requested.type && fromReq.saveSpec && fromReq.saveSpec === requested.saveSpec) return true } return false } try { return semver.satisfies(child.package.version, requested.fetchSpec, true) } catch (e) { return false } } function childDependencySpecifier (tree, name, spec) { return npa.resolve(name, spec, packageRelativePath(tree)) } exports.computeMetadata = computeMetadata function computeMetadata (tree, seen) { if (!seen) seen = new Set() if (!tree || seen.has(tree)) return seen.add(tree) if (tree.parent == null) { resetMetadata(tree) tree.isTop = true } tree.location = flatNameFromTree(tree) function findChild (name, spec, kind) { try { var req = childDependencySpecifier(tree, name, spec) } catch (err) { return } var child = findRequirement(tree, req.name, req) if (child) { resolveWithExistingModule(child, tree) return true } return } const deps = tree.package.dependencies || {} const reqs = tree.swRequires || {} for (let name of Object.keys(deps)) { if (findChild(name, deps[name])) continue if (findChild(name, reqs[name])) continue tree.missingDeps[name] = deps[name] } if (tree.isTop) { const devDeps = tree.package.devDependencies || {} for (let name of Object.keys(devDeps)) { if (findChild(name, devDeps[name])) continue tree.missingDevDeps[name] = devDeps[name] } } tree.children.filter((child) => !child.removed).forEach((child) => computeMetadata(child, seen)) return tree } function isDep (tree, child) { var name = moduleName(child) var prodVer = isProdDep(tree, name) var devVer = isDevDep(tree, name) try { var prodSpec = childDependencySpecifier(tree, name, prodVer) } catch (err) { return {isDep: true, isProdDep: false, isDevDep: false} } var matches if (prodSpec) matches = doesChildVersionMatch(child, prodSpec, tree) if (matches) return {isDep: true, isProdDep: prodSpec, isDevDep: false} if (devVer === prodVer) return {isDep: child.fromShrinkwrap, isProdDep: false, isDevDep: false} try { var devSpec = childDependencySpecifier(tree, name, devVer) return {isDep: doesChildVersionMatch(child, devSpec, tree) || child.fromShrinkwrap, isProdDep: false, isDevDep: devSpec} } catch (err) { return {isDep: child.fromShrinkwrap, isProdDep: false, isDevDep: false} } } function addRequiredDep (tree, child) { var dep = isDep(tree, child) if (!dep.isDep) return false replaceModuleByPath(child, 'requiredBy', tree) replaceModuleByName(tree, 'requires', child) if (dep.isProdDep && tree.missingDeps) delete tree.missingDeps[moduleName(child)] if (dep.isDevDep && tree.missingDevDeps) delete tree.missingDevDeps[moduleName(child)] return true } exports.removeObsoleteDep = removeObsoleteDep function removeObsoleteDep (child, log) { if (child.removed) return child.removed = true if (log) { log.silly('removeObsoleteDep', 'removing ' + packageId(child) + ' from the tree as its been replaced by a newer version or is no longer required') } // remove from physical tree if (child.parent) { child.parent.children = child.parent.children.filter(function (pchild) { return pchild !== child }) } // remove from logical tree var requires = child.requires || [] requires.forEach(function (requirement) { requirement.requiredBy = requirement.requiredBy.filter(function (reqBy) { return reqBy !== child }) // we don't just check requirement.requires because that doesn't account // for circular deps. isExtraneous does. if (isExtraneous(requirement)) removeObsoleteDep(requirement, log) }) } function packageRelativePath (tree) { if (!tree) return '' var requested = tree.package._requested || {} var isLocal = requested.type === 'directory' || requested.type === 'file' return isLocal ? requested.fetchSpec : (tree.isLink || tree.isInLink) && !preserveSymlinks() ? tree.realpath : tree.path } function matchingDep (tree, name) { if (!tree || !tree.package) return if (tree.package.dependencies && tree.package.dependencies[name]) return tree.package.dependencies[name] if (tree.package.devDependencies && tree.package.devDependencies[name]) return tree.package.devDependencies[name] return } exports.getAllMetadata = function (args, tree, where, next) { asyncMap(args, function (arg, done) { let spec try { spec = npa(arg) } catch (e) { return done(e) } if (spec.type !== 'file' && spec.type !== 'directory' && (spec.name == null || spec.rawSpec === '')) { return fs.stat(path.join(arg, 'package.json'), (err) => { if (err) { var version = matchingDep(tree, spec.name) if (version) { try { return fetchPackageMetadata(npa.resolve(spec.name, version), where, done) } catch (e) { return done(e) } } else { return fetchPackageMetadata(spec, where, done) } } else { try { return fetchPackageMetadata(npa('file:' + arg), where, done) } catch (e) { return done(e) } } }) } else { return fetchPackageMetadata(spec, where, done) } }, next) } // Add a list of args to tree's top level dependencies exports.loadRequestedDeps = function (args, tree, saveToDependencies, log, next) { validate('AOOF', [args, tree, log, next]) asyncMap(args, function (pkg, done) { var depLoaded = andAddParentToErrors(tree, done) resolveWithNewModule(pkg, tree, log.newGroup('loadRequestedDeps'), iferr(depLoaded, function (child, tracker) { validate('OO', arguments) if (npm.config.get('global')) { child.isGlobal = true } var childName = moduleName(child) child.saveSpec = computeVersionSpec(tree, child) child.userRequired = true child.save = getSaveType(tree, child) const types = ['dependencies', 'devDependencies', 'optionalDependencies'] if (child.save) { tree.package[child.save][childName] = child.saveSpec // Astute readers might notice that this exact same code exists in // save.js under a different guise. That code is responsible for deps // being removed from the final written `package.json`. The removal in // this function is specifically to prevent "installed as both X and Y" // warnings when moving an existing dep between different dep fields. // // Or, try it by removing this loop, and do `npm i -P x && npm i -D x` for (let saveType of types) { if (child.save !== saveType) { delete tree.package[saveType][childName] } } } // For things the user asked to install, that aren't a dependency (or // won't be when we're done), flag it as "depending" on the user // themselves, so we don't remove it as a dep that no longer exists var childIsDep = addRequiredDep(tree, child) if (!childIsDep) child.userRequired = true depLoaded(null, child, tracker) })) }, andForEachChild(loadDeps, andFinishTracker(log, next))) } function isNotEmpty (value) { return value != null && value !== '' } exports.computeVersionSpec = computeVersionSpec function computeVersionSpec (tree, child) { validate('OO', arguments) var requested var childReq = child.package._requested if (childReq && (isNotEmpty(childReq.saveSpec) || (isNotEmpty(childReq.rawSpec) && isNotEmpty(childReq.fetchSpec)))) { requested = child.package._requested } else if (child.package._from) { requested = npa(child.package._from) } else { requested = npa.resolve(child.package.name, child.package.version) } if (isRegistry(requested)) { var version = child.package.version var rangeDescriptor = '' if (semver.valid(version, true) && semver.gte(version, '0.1.0', true) && !npm.config.get('save-exact')) { rangeDescriptor = npm.config.get('save-prefix') } return rangeDescriptor + version } else if (requested.type === 'directory' || requested.type === 'file') { return 'file:' + unixFormatPath(path.relative(tree.path, requested.fetchSpec)) } else { return requested.saveSpec || requested.rawSpec } } function moduleNameMatches (name) { return function (child) { return moduleName(child) === name } } // while this implementation does not require async calling, doing so // gives this a consistent interface with loadDeps et al exports.removeDeps = function (args, tree, saveToDependencies, next) { validate('AOSF|AOZF', [args, tree, saveToDependencies, next]) for (let pkg of args) { var pkgName = moduleName(pkg) var toRemove = tree.children.filter(moduleNameMatches(pkgName)) var pkgToRemove = toRemove[0] || createChild({package: {name: pkgName}}) var saveType = getSaveType(tree, pkg) || 'dependencies' if (tree.isTop && saveToDependencies) { pkgToRemove.save = saveType } if (tree.package[saveType][pkgName]) { delete tree.package[saveType][pkgName] if (saveType === 'optionalDependencies' && tree.package.dependencies[pkgName]) { delete tree.package.dependencies[pkgName] } } replaceModuleByPath(tree, 'removedChildren', pkgToRemove) for (let parent of pkgToRemove.requiredBy) { parent.requires = parent.requires.filter((child) => child !== pkgToRemove) } pkgToRemove.requiredBy = pkgToRemove.requiredBy.filter((parent) => parent !== tree) } next() } exports.removeExtraneous = function (args, tree, next) { for (let pkg of args) { var pkgName = moduleName(pkg) var toRemove = tree.children.filter(moduleNameMatches(pkgName)) if (toRemove.length) { removeObsoleteDep(toRemove[0]) } } next() } function andForEachChild (load, next) { validate('F', [next]) next = dezalgo(next) return function (er, children, logs) { // when children is empty, logs won't be passed in at all (asyncMap is weird) // so shortcircuit before arg validation if (!er && (!children || children.length === 0)) return next() validate('EAA', arguments) if (er) return next(er) assert(children.length === logs.length) var cmds = [] for (var ii = 0; ii < children.length; ++ii) { cmds.push([load, children[ii], logs[ii]]) } var sortedCmds = cmds.sort(function installOrder (aa, bb) { return moduleName(aa[1]).localeCompare(moduleName(bb[1])) }) chain(sortedCmds, next) } } function isDepOptional (tree, name, pkg) { if (pkg.package && pkg.package._optional) return true if (!tree.package.optionalDependencies) return false if (tree.package.optionalDependencies[name] != null) return true return false } exports.failedDependency = failedDependency function failedDependency (tree, name, pkg) { if (name) { if (isDepOptional(tree, name, pkg || {})) { return false } } tree.failed = true if (tree.isTop) return true if (tree.userRequired) return true if (!tree.requiredBy) return false let anyFailed = false for (var ii = 0; ii < tree.requiredBy.length; ++ii) { var requireParent = tree.requiredBy[ii] if (failedDependency(requireParent, moduleName(tree), tree)) { anyFailed = true } } return anyFailed } function andHandleOptionalErrors (log, tree, name, done) { validate('OOSF', arguments) return function (er, child, childLog) { if (!er) validate('OO', [child, childLog]) if (!er) return done(er, child, childLog) var isFatal = failedDependency(tree, name) if (er && !isFatal) { reportOptionalFailure(tree, name, er) return done() } else { return done(er, child, childLog) } } } exports.prefetchDeps = prefetchDeps function prefetchDeps (tree, deps, log, next) { validate('OOOF', arguments) var skipOptional = !npm.config.get('optional') var seen = new Set() const finished = andFinishTracker(log, next) const fpm = BB.promisify(fetchPackageMetadata) resolveBranchDeps(tree.package, deps).then( () => finished(), finished ) function resolveBranchDeps (pkg, deps) { return BB.resolve(null).then(() => { var allDependencies = Object.keys(deps).map((dep) => { return npa.resolve(dep, deps[dep]) }).filter((dep) => { return isRegistry(dep) && !seen.has(dep.toString()) && !findRequirement(tree, dep.name, dep) }) if (skipOptional) { var optDeps = pkg.optionalDependencies || {} allDependencies = allDependencies.filter((dep) => !optDeps[dep.name]) } return BB.map(allDependencies, (dep) => { seen.add(dep.toString()) return fpm(dep, '', {tracker: log.newItem('fetchMetadata')}).then( (pkg) => { return pkg && pkg.dependencies && resolveBranchDeps(pkg, pkg.dependencies) }, () => null ) }) }) } } // Load any missing dependencies in the given tree exports.loadDeps = loadDeps function loadDeps (tree, log, next) { validate('OOF', arguments) if (tree.loaded || (tree.parent && tree.parent.failed) || tree.removed) return andFinishTracker.now(log, next) if (tree.parent) tree.loaded = true if (!tree.package.dependencies) tree.package.dependencies = {} asyncMap(Object.keys(tree.package.dependencies), function (dep, done) { var version = tree.package.dependencies[dep] if (tree.package.optionalDependencies && tree.package.optionalDependencies[dep] && !npm.config.get('optional')) { return done() } addDependency(dep, version, tree, log.newGroup('loadDep:' + dep), andHandleOptionalErrors(log, tree, dep, done)) }, andForEachChild(loadDeps, andFinishTracker(log, next))) } // Load development dependencies into the given tree exports.loadDevDeps = function (tree, log, next) { validate('OOF', arguments) if (!tree.package.devDependencies) return andFinishTracker.now(log, next) asyncMap(Object.keys(tree.package.devDependencies), function (dep, done) { // things defined as both dev dependencies and regular dependencies are treated // as the former if (tree.package.dependencies[dep]) return done() var logGroup = log.newGroup('loadDevDep:' + dep) addDependency(dep, tree.package.devDependencies[dep], tree, logGroup, done) }, andForEachChild(loadDeps, andFinishTracker(log, next))) } var loadExtraneous = exports.loadExtraneous = function (tree, log, next) { var seen = new Set() function loadExtraneous (tree) { if (seen.has(tree)) return seen.add(tree) for (var child of tree.children) { if (child.loaded) continue resolveWithExistingModule(child, tree) loadExtraneous(child) } } loadExtraneous(tree) log.finish() next() } exports.loadExtraneous.andResolveDeps = function (tree, log, next) { validate('OOF', arguments) // For canonicalized trees (eg from shrinkwrap) we don't want to bother // resolving the dependencies of extraneous deps. if (tree.loaded) return loadExtraneous(tree, log, next) asyncMap(tree.children.filter(function (child) { return !child.loaded }), function (child, done) { resolveWithExistingModule(child, tree) done(null, child, log) }, andForEachChild(loadDeps, andFinishTracker(log, next))) } function addDependency (name, versionSpec, tree, log, done) { validate('SSOOF', arguments) var next = andAddParentToErrors(tree, done) try { var req = childDependencySpecifier(tree, name, versionSpec) if (tree.swRequires && tree.swRequires[name]) { var swReq = childDependencySpecifier(tree, name, tree.swRequires[name]) } } catch (err) { return done(err) } var child = findRequirement(tree, name, req) if (!child && swReq) child = findRequirement(tree, name, swReq) if (child) { resolveWithExistingModule(child, tree) if (child.package._shrinkwrap === undefined) { readShrinkwrap.andInflate(child, function (er) { next(er, child, log) }) } else { next(null, child, log) } } else { fetchPackageMetadata(req, packageRelativePath(tree), {tracker: log.newItem('fetchMetadata')}, iferr(next, function (pkg) { resolveWithNewModule(pkg, tree, log, next) })) } } function resolveWithExistingModule (child, tree) { validate('OO', arguments) addRequiredDep(tree, child) if (tree.parent && child.parent !== tree) updatePhantomChildren(tree.parent, child) } var updatePhantomChildren = exports.updatePhantomChildren = function (current, child) { validate('OO', arguments) while (current && current !== child.parent) { if (!current.phantomChildren) current.phantomChildren = {} current.phantomChildren[moduleName(child)] = child current = current.parent } } exports._replaceModuleByPath = replaceModuleByPath function replaceModuleByPath (obj, key, child) { return replaceModule(obj, key, child, function (replacing, child) { return replacing.path === child.path }) } exports._replaceModuleByName = replaceModuleByName function replaceModuleByName (obj, key, child) { var childName = moduleName(child) return replaceModule(obj, key, child, function (replacing, child) { return moduleName(replacing) === childName }) } function replaceModule (obj, key, child, matchBy) { validate('OSOF', arguments) if (!obj[key]) obj[key] = [] // we replace children with a new array object instead of mutating it // because mutating it results in weird failure states. // I would very much like to know _why_ this is. =/ var children = [].concat(obj[key]) for (var replaceAt = 0; replaceAt < children.length; ++replaceAt) { if (matchBy(children[replaceAt], child)) break } var replacing = children.splice(replaceAt, 1, child) obj[key] = children return replacing[0] } function resolveWithNewModule (pkg, tree, log, next) { validate('OOOF', arguments) log.silly('resolveWithNewModule', packageId(pkg), 'checking installable status') return isInstallable(pkg, (err) => { let installable = !err addBundled(pkg, (bundleErr) => { var parent = earliestInstallable(tree, tree, pkg) || tree var isLink = pkg._requested.type === 'directory' var child = createChild({ package: pkg, parent: parent, path: path.join(parent.isLink ? parent.realpath : parent.path, 'node_modules', pkg.name), realpath: isLink ? pkg._requested.fetchSpec : path.join(parent.realpath, 'node_modules', pkg.name), children: pkg._bundled || [], isLink: isLink, isInLink: parent.isLink, knownInstallable: installable }) if (!installable || bundleErr) child.failed = true delete pkg._bundled var hasBundled = child.children.length var replaced = replaceModuleByName(parent, 'children', child) if (replaced) removeObsoleteDep(replaced) addRequiredDep(tree, child) child.location = flatNameFromTree(child) if (tree.parent && parent !== tree) updatePhantomChildren(tree.parent, child) if (hasBundled) { inflateBundled(child, child, child.children) } if (pkg._shrinkwrap && pkg._shrinkwrap.dependencies) { return inflateShrinkwrap(child, pkg._shrinkwrap, (swErr) => { if (swErr) child.failed = true next(err || bundleErr || swErr, child, log) }) } next(err || bundleErr, child, log) }) }) } var validatePeerDeps = exports.validatePeerDeps = function (tree, onInvalid) { if (!tree.package.peerDependencies) return Object.keys(tree.package.peerDependencies).forEach(function (pkgname) { var version = tree.package.peerDependencies[pkgname] try { var spec = npa.resolve(pkgname, version) } catch (e) {} var match = spec && findRequirement(tree.parent || tree, pkgname, spec) if (!match) onInvalid(tree, pkgname, version) }) } exports.validateAllPeerDeps = function (tree, onInvalid) { validateAllPeerDeps(tree, onInvalid, new Set()) } function validateAllPeerDeps (tree, onInvalid, seen) { validate('OFO', arguments) if (seen.has(tree)) return seen.add(tree) validatePeerDeps(tree, onInvalid) tree.children.forEach(function (child) { validateAllPeerDeps(child, onInvalid, seen) }) } // Determine if a module requirement is already met by the tree at or above // our current location in the tree. var findRequirement = exports.findRequirement = function (tree, name, requested, requestor) { validate('OSO', [tree, name, requested]) if (!requestor) requestor = tree var nameMatch = function (child) { return moduleName(child) === name && child.parent && !child.removed } var versionMatch = function (child) { return doesChildVersionMatch(child, requested, requestor) } if (nameMatch(tree)) { // this *is* the module, but it doesn't match the version, so a // new copy will have to be installed return versionMatch(tree) ? tree : null } var matches = tree.children.filter(nameMatch) if (matches.length) { matches = matches.filter(versionMatch) // the module exists as a dependent, but the version doesn't match, so // a new copy will have to be installed above here if (matches.length) return matches[0] return null } if (tree.isTop) return null if (!preserveSymlinks() && /^[.][.][\\/]/.test(path.relative(tree.parent.realpath, tree.realpath))) return null return findRequirement(tree.parent, name, requested, requestor) } function preserveSymlinks () { if (!('NODE_PRESERVE_SYMLINKS' in process.env)) return false const value = process.env.NODE_PRESERVE_SYMLINKS if (value == null || value === '' || value === 'false' || value === 'no' || value === '0') return false return true } // Find the highest level in the tree that we can install this module in. // If the module isn't installed above us yet, that'd be the very top. // If it is, then it's the level below where its installed. var earliestInstallable = exports.earliestInstallable = function (requiredBy, tree, pkg) { validate('OOO', arguments) function undeletedModuleMatches (child) { return !child.removed && moduleName(child) === pkg.name } if (tree.children.some(undeletedModuleMatches)) return null // If any of the children of this tree have conflicting // binaries then we need to decline to install this package here. var binaryMatches = pkg.bin && tree.children.some(function (child) { if (child.removed || !child.package.bin) return false return Object.keys(child.package.bin).some(function (bin) { return pkg.bin[bin] }) }) if (binaryMatches) return null // if this tree location requested the same module then we KNOW it // isn't compatible because if it were findRequirement would have // found that version. var deps = tree.package.dependencies || {} if (!tree.removed && requiredBy !== tree && deps[pkg.name]) { return null } var devDeps = tree.package.devDependencies || {} if (tree.isTop && devDeps[pkg.name]) { var requested = childDependencySpecifier(tree, pkg.name, devDeps[pkg.name]) if (!doesChildVersionMatch({package: pkg}, requested, tree)) { return null } } if (tree.phantomChildren && tree.phantomChildren[pkg.name]) return null if (tree.isTop) return tree if (tree.isGlobal) return tree if (npm.config.get('global-style') && tree.parent.isTop) return tree if (npm.config.get('legacy-bundling')) return tree if (!preserveSymlinks() && /^[.][.][\\/]/.test(path.relative(tree.parent.realpath, tree.realpath))) return tree return (earliestInstallable(requiredBy, tree.parent, pkg) || tree) }