var fs = require('fs'); var path = require('path'); var _ = require('underscore'); var sourcemap = require('source-map'); var files = require('./files.js'); var utils = require('./utils.js'); var watch = require('./watch.js'); var project = require('./project.js'); var buildmessage = require('./buildmessage.js'); var meteorNpm = require('./meteor-npm.js'); var Builder = require('./builder.js'); var archinfo = require('./archinfo.js'); var release = require('./release.js'); // Given a semver version string, return the earliest semver for which // we are a replacement. This is used to compute the default // earliestCompatibleVersion. // XXX: move to utils? var earliestCompatible = function (version) { // This is not the place to check to see if version parses as // semver. That should have been done when we first received it from // the user. var m = version.match(/^(\d)+\./); if (! m) throw new Error("not a valid version: " + version); return m[1] + ".0.0"; }; // Returns a sort comparator to order files into load order. // templateExtensions should be a list of extensions like 'html' // which should be loaded before other extensions. var loadOrderSort = function (templateExtensions) { var templateExtnames = {}; _.each(templateExtensions, function (extension) { templateExtnames['.' + extension] = true; }); return function (a, b) { // XXX MODERATELY SIZED HACK -- // push template files ahead of everything else. this is // important because the user wants to be able to say // Template.foo.events = { ... } // in a JS file and not have to worry about ordering it // before the corresponding .html file. // // maybe all of the templates should go in one file? var isTemplate_a = _.has(templateExtnames, path.extname(a)); var isTemplate_b = _.has(templateExtnames, path.extname(b)); if (isTemplate_a !== isTemplate_b) { return (isTemplate_a ? -1 : 1); } // main.* loaded last var ismain_a = (path.basename(a).indexOf('main.') === 0); var ismain_b = (path.basename(b).indexOf('main.') === 0); if (ismain_a !== ismain_b) { return (ismain_a ? 1 : -1); } // /lib/ loaded first var islib_a = (a.indexOf(path.sep + 'lib' + path.sep) !== -1 || a.indexOf('lib' + path.sep) === 0); var islib_b = (b.indexOf(path.sep + 'lib' + path.sep) !== -1 || b.indexOf('lib' + path.sep) === 0); if (islib_a !== islib_b) { return (islib_a ? -1 : 1); } // deeper paths loaded first. var len_a = a.split(path.sep).length; var len_b = b.split(path.sep).length; if (len_a !== len_b) { return (len_a < len_b ? 1 : -1); } // otherwise alphabetical return (a < b ? -1 : 1); }; }; /////////////////////////////////////////////////////////////////////////////// // SourceArch /////////////////////////////////////////////////////////////////////////////// // Options: // - name [required] // - arch [required] // - uses // - implies // - getSourcesFunc // - declaredExports // - watchSet // // Do not include the source files in watchSet. They will be // added at compile time when the sources are actually read. var SourceArch = function (pkg, options) { var self = this; options = options || {}; self.pkg = pkg; // Name for this sourceArchitecture. At the moment, there are really two // options -- main and plugin. We use these in linking self.archName = options.name; // The architecture (fully or partially qualified) that can use this // build. self.arch = options.arch; // Packages used. The ordering is significant only for determining // import symbol priority (it doesn't affect load order), and a // given package could appear more than once in the list, so code // that consumes this value will need to guard appropriately. Each // element in the array has keys: // - package: the package name // - constraint: the constraint on the version of the package to use, // as a string (may be null) // - unordered: If true, we don't want the package's imports and we // don't want to force the package to load before us. We just want // to ensure that it loads if we load. // - weak: If true, we don't *need* to load the other package, but // if the other package ends up loaded in the target, it must // be forced to load before us. We will not get its imports // or plugins. // It is an error for both unordered and weak to be true, because // such a dependency would have no effect. // // In most places, instead of using 'uses' directly, you want to use // something like compiler.eachUsedBuild so you also take into // account implied packages. self.uses = options.uses || []; // Packages which are "implied" by using this package. If a build X // uses this build Y, and Y implies Z, then X will effectively use Z // as well (and get its imports and plugins). An array of objects // of the same type as the elements of self.uses (although for now // unordered and weak are not allowed). self.implies = options.implies || []; // A function that returns the source files for this architecture. Array of // objects with keys "relPath" and "fileOptions". Null if loaded from // unipackage. // // fileOptions is optional and represents arbitrary options passed // to "api.add_files"; they are made available on to the plugin as // compileStep.fileOptions. // // This is a function rather than a literal array because for an // app, we need to know the file extensions registered by the // plugins in order to compute the sources list, so we have to wait // until build time (after we have loaded any plugins, including // local plugins in this package) to compute this. self.getSourcesFunc = options.getSourcesFunc || null; // Symbols that this architecture should export. List of symbols (as // strings). self.declaredExports = options.declaredExports || null; // Files and directories that we want to monitor for changes in // development mode, as a watch.WatchSet. In the latest refactoring // of the code, this does not include source files or directories, // but only control files such as package.js and .meteor/packages, // since the rest are not determined until compile time. self.watchSet = options.watchSet || new watch.WatchSet; // See the field of the same name in PackageSource. self.noSources = false; }; /////////////////////////////////////////////////////////////////////////////// // PackageSource /////////////////////////////////////////////////////////////////////////////// var PackageSource = function () { var self = this; // The name of the package, or null for an app pseudo-package or // collection. The package's exports will reside in Package.. // When it is null it is linked like an application instead of like // a package. self.name = null; // The path relative to which all source file paths are interpreted // in this package. Also used to compute the location of the // package's .npm directory (npm shrinkwrap state). self.sourceRoot = null; // Path that will be prepended to the URLs of all resources emitted // by this package (assuming they don't end up getting // concatenated). For non-browser targets, the only effect this will // have is to change the actual on-disk paths of the files in the // bundle, for those that care to open up the bundle and look (but // it's still nice to get it right). self.serveRoot = null; // Package metadata. Keys are 'summary' and 'internal'. Currently // both of these are optional. self.metadata = {}; // Package version as a semver string. Optional; not all packages // (for example, the app) have versions. // XXX when we have names, maybe we want to say that all packages // with names have versions? certainly the reverse is true self.version = null; // The earliest version for which this package is supposed to be a // compatible replacement. Set if and only if version is set. self.earliestCompatibleVersion = null; // Available architectures of this package. Array of SourceArch. self.architectures = []; // The information necessary to build the plugins in this // package. Map from plugin name to object with keys 'name', 'use', // 'sources', and 'npmDependencies'. self.pluginInfo = {}; // Analogous to watchSet in SourceArch but for plugins. At this // stage will typically contain just 'package.js'. self.pluginWatchSet = new watch.WatchSet; // npm packages used by this package (on os.* architectures only). // Map from npm package name to the required version of the package // as a string. self.npmDependencies = {}; // Absolute path to a directory on disk that serves as a cache for // the npm dependencies, so we don't have to fetch them on every // build. Required not just if we have npmDependencies, but if we // ever could have had them in the past. self.npmCacheDirectory = null; // Dependency versions that we used last time that we built this package. If // the constraint solver thinks that they are still a valid set of // dependencies, we will use them again to build this package. This makes // building packages slightly more efficient and ensures repeatable builds. self.dependencyVersions = {dependencies: {}, pluginDependencies: {}}; // If this package has a corresponding test package (for example, // underscore-test), defined in the same package.js file, store its value // here. self.testName = null; // Test packages are dealt with differently in the linker (and not published // to the catalog), so we need to keep track of them. self.isTest = false; // If this is set, it should be set to an array of package names. We will take // the currently running git checkout and bundle the meteor tool from it // inside this package as a tool. We will include built unipackages for all // the packages in this array as well as their transitive (strong) // dependencies. self.includeTool = null; // If this is true, then this package has no source files. (But the converse // is not true: this is only set to true by one particular constructor.) This // is specifically so that a few pieces of code can detect the wrapper "load" // package that uniload uses and not do extra work that doesn't make sense in // the uniload context. self.noSources = false; // If this is true, the package source comes from the package server, and // should be treated as immutable. The only reason that we have it is so we // can build it, and we should expect to use exactly the same inputs // (package.js and version lock file) as we did when it was created. If we // ever need to modify it, we should throw instead. self.immutable = false; }; _.extend(PackageSource.prototype, { // Make a dummy (empty) packageSource that contains nothing of interest. // XXX: Do we need this initEmpty: function (name) { var self = this; self.name = name; }, // Programmatically initialize a PackageSource from scratch. // // Unlike user-facing methods of creating a package // (initFromPackageDir, initFromAppDir) this does not implicitly add // a dependency on the 'meteor' package. If you want such a // dependency then you must add it yourself. // // If called inside a buildmessage job, it will keep going if things // go wrong. Be sure to call jobHasMessages to see if it actually // succeeded. // // The architecture is hardcoded to be "os". // // Note that this does not set a version on the package! // // Options: // - sourceRoot (required if sources present) // - serveRoot (required if sources present) // - use // - sources (array of paths or relPath/fileOptions objects) // - npmDependencies // - npmDir // - dependencyVersions initFromOptions: function (name, options) { var self = this; self.name = name; if (options.sources && ! _.isEmpty(options.sources) && (! options.sourceRoot || ! options.serveRoot)) throw new Error("When source files are given, sourceRoot and " + "serveRoot must be specified"); self.sourceRoot = options.sourceRoot || path.sep; self.serveRoot = options.serveRoot || path.sep; var nodeModulesPath = null; meteorNpm.ensureOnlyExactVersions(options.npmDependencies); self.npmDependencies = options.npmDependencies; self.npmCacheDirectory = options.npmDir; var sources = _.map(options.sources, function (source) { if (typeof source === "string") return {relPath: source}; return source; }); var sourceArch = new SourceArch(self, { name: options.archName, arch: "os", uses: _.map(options.use, utils.splitConstraint), getSourcesFunc: function () { return sources; }, nodeModulesPath: nodeModulesPath }); if (!sources.length) { self.noSources = true; sourceArch.noSources = true; } self.architectures.push(sourceArch); if (! self._checkCrossBuildVersionConstraints()) throw new Error("only one build, so how can consistency check fail?"); self.dependencyVersions = options.dependencyVersions || {dependencies: {}, pluginDependencies: {}}; }, // Initialize a PackageSource from a package.js-style package directory. Uses // the name field provided and the name/test fields in the package.js file to // figre out if this is a test package (load from on_test) or a use package // (load from on_use). // // name: name of the package. // dir: location of directory on disk. initFromPackageDir: function (name, dir, immutable) { var self = this; var isPortable = true; self.name = name; self.sourceRoot = dir; self.serveRoot = path.join(path.sep, 'packages', name); if (! fs.existsSync(self.sourceRoot)) throw new Error("putative package directory " + dir + " doesn't exist?"); var fileAndDepLoader = null; var npmDependencies = null; var packageJsPath = path.join(self.sourceRoot, 'package.js'); var code = fs.readFileSync(packageJsPath); var packageJsHash = Builder.sha1(code); var releaseRecord = null; // Any package that depends on us needs to be rebuilt if our package.js file // changes, because a change to package.js might add or remove a plugin, // which could change a file from being handled by extension vs treated as // an asset. self.pluginWatchSet.addFile(packageJsPath, packageJsHash); // Let's make sure that we are initializing either the main package or the // test package for now. Otherwise, fail. var tempName; // == 'Package' object visible in package.js == var Package = { // Set package metadata. Options: // - summary: for 'meteor list' // - internal: if true, hide in list // - version: package version string (semver) // - test: name of the test package (string) // - earliestCompatibleVersion: version string // There used to be a third option documented here, // 'environments', but it was never implemented and no package // ever used it. describe: function (options) { _.each(options, function (value, key) { if (key === "summary" || key === "internal") { self.metadata[key] = value; } else if (key === "version") { // XXX validate that version parses -- and that it doesn't // contain a +! self.version = value; } else if (key === "earliestCompatibleVersion") { self.earliestCompatibleVersion = value; } else if (key === "name") { tempName = self.name; // Do nothing, actually. This tells us that we are not building a // test package, but that's roughly what we assumed anyway. } else if (key === "test") { if (name === value) { self.isTest = true; } else { self.testName = value; } } else { buildmessage.error("unknown attribute '" + key + "' " + "in package description"); } }); }, on_use: function (f) { if (!self.isTest) { if (fileAndDepLoader) { buildmessage.error("duplicate on_use handler; a package may have " + "only one", { useMyCaller: true }); // Recover by ignoring the duplicate return; } fileAndDepLoader = f; } }, on_test: function (f) { if (self.isTest) { if (fileAndDepLoader) { buildmessage.error("duplicate on_test handler; a package may have " + "only one", { useMyCaller: true }); // Recover by ignoring the duplicate return; } fileAndDepLoader = f; } }, // Define a plugin. A plugin extends the build process for // targets that use this package. For example, a Coffeescript // compiler would be a plugin. A plugin is its own little // program, with its own set of source files, used packages, and // npm dependencies. // // This is an experimental API and for now you should assume // that it will change frequently and radically (thus the // '_transitional_'). For maximum R&D velocity and for the good // of the platform, we will push changes that break your // packages that use this API. You've been warned. // // Options: // - name: a name for this plugin. required (cosmetic -- string) // - use: package to use for the plugin (names, as strings) // - sources: sources for the plugin (array of string) // - npmDependencies: map from npm package name to required // version (string) _transitional_registerBuildPlugin: function (options) { // Tests don't have plugins; plugins initialized in the control file // belong to the package and not to the test. (This will be less // confusing in the new control file format). if (self.isTest) { return; } if (! ('name' in options)) { buildmessage.error("build plugins require a name", { useMyCaller: true }); // recover by ignoring plugin return; } if (options.name in self.pluginInfo) { buildmessage.error("this package already has a plugin named '" + options.name + "'", { useMyCaller: true }); // recover by ignoring plugin return; } if (options.name.match(/\.\./) || options.name.match(/[\\\/]/)) { buildmessage.error("bad plugin name", { useMyCaller: true }); // recover by ignoring plugin return; } // XXX probably want further type checking self.pluginInfo[options.name] = options; }, includeTool: function (packages) { if (!files.inCheckout()) { buildmessage.error("Package.includeTool() can only be used with a " + "checkout of meteor"); } else if (self.includeTool) { buildmessage.error("Duplicate includeTool call"); } else if (!_.isArray(packages)) { buildmessage.error("Argument to Package.includeTool must be array"); } else if (!_.all(packages, _.isString)) { buildmessage.error( "Elements of array passed to Package.includeTool must be strings"); } else { self.includeTool = packages; } } }; // == 'Npm' object visible in package.js == var Npm = { depends: function (_npmDependencies) { // XXX make npmDependencies be per build, so that production // doesn't have to ship all of the npm modules used by test // code if (npmDependencies) { buildmessage.error("Npm.depends may only be called once per package", { useMyCaller: true }); // recover by ignoring the Npm.depends line return; } if (typeof _npmDependencies !== 'object') { buildmessage.error("the argument to Npm.depends should be an " + "object, like this: {gcd: '0.0.0'}", { useMyCaller: true }); // recover by ignoring the Npm.depends line return; } // don't allow npm fuzzy versions so that there is complete // consistency when deploying a meteor app // // XXX use something like seal or lockdown to have *complete* // confidence we're running the same code? try { meteorNpm.ensureOnlyExactVersions(_npmDependencies); } catch (e) { buildmessage.error(e.message, { useMyCaller: true, downcase: true }); // recover by ignoring the Npm.depends line return; } npmDependencies = _npmDependencies; }, require: function (name) { var nodeModuleDir = path.join(self.sourceRoot, '.npm', 'package', 'node_modules', name); if (fs.existsSync(nodeModuleDir)) { return require(nodeModuleDir); } else { try { return require(name); // from the dev bundle } catch (e) { buildmessage.error("can't find npm module '" + name + "'. Did you forget to call 'Npm.depends'?", { useMyCaller: true }); // recover by, uh, returning undefined, which is likely to // have some knock-on effects return undefined; } } } }; try { files.runJavaScript(code.toString('utf8'), { filename: 'package.js', symbols: { Package: Package, Npm: Npm } }); } catch (e) { buildmessage.exception(e); // Could be a syntax error or an exception. Recover by // continuing as if package.js is empty. (Pressing on with // whatever handlers were registered before the exception turns // out to feel pretty disconcerting -- definitely violates the // principle of least surprise.) Leave the metadata if we have // it, though. fileAndDepLoader = null; self.pluginInfo = {}; npmDependencies = null; } if (! self.version) { if (! buildmessage.jobHasMessages()) { // Only write the error if there have been no errors so // far. (Otherwise if there is a parse error we'll always get // this message, because we won't have been able to run any // code.) buildmessage.error("A version must be specified for the package. " + "Set it with Package.describe."); } // Recover by leaving the version unset. This is sort of // unfortunate (it means that whereever we work with Package // objects, we need to consider the possibility that their // version is not set) but short of failing the build we have no // alternative. Using a dummy version like "1.0.0" would cause // endless confusion and a fake version like "unknown" wouldn't // parse as semver. Anyway, apps don't have versions, so it's // not like we didn't already have to think about this case. } if (self.version && ! self.earliestCompatibleVersion) { self.earliestCompatibleVersion = earliestCompatible(self.version); } if (tempName && (self.name !== tempName) && (!self.isTest)) { buildmessage.error("Can only build main or test package."); } if (!utils.validPackageName(self.name)) { buildmessage.error("Package name invalid: " + self.name); } // source files used var sources = {client: [], server: []}; // symbols exported var exports = {client: [], server: []}; // packages used and implied (keys are 'package', 'build', 'unordered', and // 'weak'). an "implied" package is a package that will be used by a build // which uses us. var uses = {client: [], server: []}; var implies = {client: [], server: []}; // For this old-style, on_use/on_test/where-based package, figure // out its dependencies by calling its on_xxx functions and seeing // what it does. // // We have a simple strategy. Call its on_xxx handler with no // 'where', which is what happens when the package is added // directly to an app, and see what files it adds to the client // and the server. Call the former the client version of the // package, and the latter the server version. Then, when a // package is used, include it in both the client and the server // by default. This simple strategy doesn't capture even 10% of // the complexity possible with on_use, on_test, and where, but // probably is sufficient for virtually all packages that actually // exist in the field, if not every single // one. #OldStylePackageSupport if (fileAndDepLoader) { var toArray = function (x) { if (x instanceof Array) return x; return x ? [x] : []; }; var allWheres = ['client', 'server']; var toWhereArray = function (where) { if (!(where instanceof Array)) { where = where ? [where] : allWheres; } where = _.uniq(where); var realWhere = _.intersection(where, allWheres); if (realWhere.length !== where.length) { var badWheres = _.difference(where, allWheres); // avoid using _.each so as to not add more frames to skip for (var i = 0; i < badWheres.length; ++i) { buildmessage.error( "Invalid 'where' argument: '" + badWheres[i] + "'", // skip toWhereArray in addition to the actual API function {useMyCaller: 1}); }; // recover by using the real ones only } return realWhere; }; var api = { // Called when this package wants to make another package be // used. Can also take literal package objects, if you have // anonymous packages you want to use (eg, app packages) // // @param where 'client', 'server', or an array of those. // The default is ['client', 'server']. // // options can include: // // - unordered: if true, don't require this package to load // before us -- just require it to be loaded anytime. Also // don't bring this package's imports into our // namespace. If false, override a true value specified in // a previous call to use for this package name. (A // limitation of the current implementation is that this // flag is not tracked per-environment or per-role.) This // option can be used to resolve circular dependencies in // exceptional circumstances, eg, the 'meteor' package // depends on 'handlebars', but all packages (including // 'handlebars') have an implicit dependency on // 'meteor'. Internal use only -- future support of this // is not guaranteed. #UnorderedPackageReferences // // - weak: if true, don't require this package to load at all, but if // it's going to load, load it before us. Don't bring this // package's imports into our namespace and don't allow us to use // its plugins. (Has the same limitation as "unordered" that this // flag is not tracked per-environment or per-role; this may // change.) use: function (names, where, options) { // Support `api.use(package, {weak: true})` without where. if (_.isObject(where) && !_.isArray(where) && !options) { options = where; where = null; } options = options || {}; names = toArray(names); where = toWhereArray(where); // A normal dependency creates an ordering constraint and a "if I'm // used, use that" constraint. Unordered dependencies lack the // former; weak dependencies lack the latter. There's no point to a // dependency that lacks both! if (options.unordered && options.weak) { buildmessage.error( "A dependency may not be both unordered and weak.", { useMyCaller: true }); // recover by ignoring return; } _.each(names, function (name) { _.each(where, function (w) { uses[w].push(_.extend(utils.splitConstraint(name), { unordered: options.unordered || false, weak: options.weak || false })); }); }); }, // Called when this package wants packages using it to also use // another package. eg, for umbrella packages which want packages // using them to also get symbols or plugins from their components. imply: function (names, where) { names = toArray(names); where = toWhereArray(where); _.each(names, function (name) { _.each(where, function (w) { // We don't allow weak or unordered implies, since the main // purpose of imply is to provide imports and plugins. implies[w].push(utils.splitConstraint(name)); }); }); }, // Top-level call to add a source file to a package. It will // be processed according to its extension (eg, *.coffee // files will be compiled to JavaScript). add_files: function (paths, where, fileOptions) { paths = toArray(paths); where = toWhereArray(where); _.each(paths, function (path) { _.each(where, function (w) { var source = {relPath: path}; if (fileOptions) source.fileOptions = fileOptions; sources[w].push(source); }); }); }, // Use this release to resolve unclear dependencies for this package. If // you don't fill in dependencies for some of your implies/uses, we will // look at the packages listed in the release to figure that out. release: function (release) { var relInf = release.split('@'); // XXX: Error handling if (relInf.length !== 2) throw new Error("Incorrect release spec"); var catalog = require('./catalog.js'); releaseRecord = catalog.catalog.getReleaseVersion(relInf[0], relInf[1]); if (!releaseRecord) { throw new Error("Unknown release"); } }, // Export symbols from this package. // // @param symbols String (eg "Foo") or array of String // @param where 'client', 'server', or an array of those. // The default is ['client', 'server']. // @param options 'testOnly', boolean. export: function (symbols, where, options) { // Support `api.export("FooTest", {testOnly: true})` without // where. if (_.isObject(where) && !_.isArray(where) && !options) { options = where; where = null; } options = options || {}; symbols = toArray(symbols); where = toWhereArray(where); _.each(symbols, function (symbol) { // XXX be unicode-friendlier if (!symbol.match(/^([_$a-zA-Z][_$a-zA-Z0-9]*)$/)) { buildmessage.error("Bad exported symbol: " + symbol, { useMyCaller: true }); // recover by ignoring return; } _.each(where, function (w) { exports[w].push({name: symbol, testOnly: !!options.testOnly}); }); }); } }; try { fileAndDepLoader(api); } catch (e) { buildmessage.exception(e); // Recover by ignoring all of the source files in the // packages and any remaining handlers. It violates the // principle of least surprise to half-run a handler // and then continue. sources = {client: [], server: []}; fileAndDepLoader = null; self.pluginInfo = {}; npmDependencies = null; } } // If we have specified a release, then we should go through the // dependencies and fill in the unspecified constraints with the versions in // the release (if possible). if (releaseRecord) { var packages = releaseRecord.packages; // Given a dependency object with keys package (the name of the package) // and constraint (the version constraint), if the constraint is null, // look in the packages field in the release record and fill in from // there. var setFromRel = function (dep) { if (! dep.constraint && _.has(packages, dep.package)) { dep.constraint = packages[dep.package]; }; return dep; }; // For all implies and uses, fill in the unspecified dependencies from the // release. _.each(['server', 'client'], function (label) { uses[label] = _.map(uses[label], setFromRel); implies[label] = _.map(implies[label], setFromRel); }); }; // XXX: We should not publish packages with unspecified dependencies. Make // sure there is a rule to prevent it, probably somewhere here. // Make sure that if a dependency was specified in multiple // builds, the constraint is exactly the same. if (! self._checkCrossBuildVersionConstraints()) { // A build error was written. Recover by ignoring the // fact that we have differing constraints. } // Save information about npm dependencies. To keep metadata // loading inexpensive, we won't actually fetch them until build // time. // We used to put the cache directly in .npm, but in linker-land, // the package's own NPM dependencies go in .npm/package and build // plugin X's goes in .npm/plugin/X. Notably, the former is NOT an // ancestor of the latter, so that a build plugin does NOT see the // package's node_modules. XXX maybe there should be separate NPM // dirs for use vs test? self.npmCacheDirectory = path.resolve(path.join(self.sourceRoot, '.npm', 'package')); self.npmDependencies = npmDependencies; // If this package was previously built with pre-linker versions, // it may have files directly inside `.npm` instead of nested // inside `.npm/package`. Clean them up if they are there. (Kind // of grody to do this here but it'll be fine for now, especially // since this is only for compatibility with very old versions of // Meteor.) var preLinkerFiles = [ 'npm-shrinkwrap.json', 'README', '.gitignore', 'node_modules']; _.each(preLinkerFiles, function (f) { files.rm_recursive(path.join(self.sourceRoot, '.npm', f)); }); // Create source architectures, one for the server and one for the client. _.each(["browser", "os"], function (arch) { var where = (arch === "browser") ? "client" : "server"; // Everything depends on the package 'meteor', which sets up // the basic environment) (except 'meteor' itself, and js-analyze // which needs to be loaded by the linker). // XXX add a better API for js-analyze to declare itself here if (name !== "meteor" && name !== "js-analyze") { // Don't add the dependency if one already exists. This allows the // package to create an unordered dependency and override the one that // we'd add here. This is necessary to resolve the circular dependency // between meteor and underscore (underscore has an unordered // dependency on meteor dating from when the .js extension handler was // in the "meteor" package). var alreadyDependsOnMeteor = !! _.find(uses[where], function (u) { return u.package === "meteor" && !u.build; }); if (! alreadyDependsOnMeteor) uses[where].unshift({ package: "meteor" }); } // Each build has its own separate WatchSet. This is so that, eg, a test // build's dependencies doesn't end up getting merged into the // pluginWatchSet of a package that uses it: only the use build's // dependencies need to go there! var watchSet = new watch.WatchSet(); watchSet.addFile(packageJsPath, packageJsHash); self.architectures.push(new SourceArch(self, { name: "main", arch: arch, uses: uses[where], implies: implies[where], getSourcesFunc: function () { return sources[where]; }, declaredExports: exports[where], watchSet: watchSet })); }); // If we have built this before, read the versions that we ended up using. var versionsFile = path.join(self.sourceRoot, self.versionsFileName()); if (fs.existsSync(versionsFile)) { try { var data = fs.readFileSync(versionsFile, 'utf8'); var dependencyData = JSON.parse(data); self.dependencyVersions = { "pluginDependencies": _.object(dependencyData.pluginDependencies), "dependencies": _.object(dependencyData.dependencies), "toolVersion": dependencyData.toolVersion }; } catch (err) { // We 'recover' by not reading the dependency versions. Log a line about // it in case it is unexpected. We don't buildmessage because it doesn't // really interrupt our workflow, but the user might want to know about // it anyway. We shouldn't get here unless, for example, the user tried // to manually edit the json file incorrectly, or there is some bizarre // ondisk corruption. console.log("Could not read versions file for " + self.name + ". Recomputing dependency versions from scratch."); } }; // If immutable is set, then we should make a note to never mutate this // packageSource. We should never change its dependency versions, for // example. if (immutable) { self.immutable = true; }; }, // Initialize a package from an application directory (has .meteor/packages). initFromAppDir: function (appDir, ignoreFiles) { var self = this; appDir = path.resolve(appDir); self.name = null; self.sourceRoot = appDir; self.serveRoot = path.sep; _.each(["client", "server"], function (archName) { // Determine used packages var names = project.getPackages(appDir); var arch = archName === "server" ? "os" : "browser"; // Create build var sourceArch = new SourceArch(self, { name: archName, arch: arch, uses: _.map(names, utils.splitConstraint) }); self.architectures.push(sourceArch); // Watch control files for changes // XXX this read has a race with the actual reads that are used _.each([path.join(appDir, '.meteor', 'packages'), path.join(appDir, '.meteor', 'release')], function (p) { watch.readAndWatchFile(sourceArch.watchSet, p); }); // Determine source files sourceArch.getSourcesFunc = function (extensions, watchSet) { var sourceInclude = _.map( extensions, function (isTemplate, ext) { return new RegExp('\\.' + utils.quotemeta(ext) + '$'); } ); var sourceExclude = [/^\./].concat(ignoreFiles); // Wrapper around watch.readAndWatchDirectory which takes in and returns // sourceRoot-relative directories. var readAndWatchDirectory = function (relDir, filters) { filters = filters || {}; var absPath = path.join(self.sourceRoot, relDir); var contents = watch.readAndWatchDirectory(watchSet, { absPath: absPath, include: filters.include, exclude: filters.exclude }); return _.map(contents, function (x) { return path.join(relDir, x); }); }; // Read top-level source files. var sources = readAndWatchDirectory('', { include: sourceInclude, exclude: sourceExclude }); var otherBuildRegExp = (archName === "server" ? /^client\/$/ : /^server\/$/); // The paths that we've called checkForInfiniteRecursion on. var seenPaths = {}; // Used internally by fs.realpathSync as an optimization. var realpathCache = {}; var checkForInfiniteRecursion = function (relDir) { var absPath = path.join(self.sourceRoot, relDir); try { var realpath = fs.realpathSync(absPath, realpathCache); } catch (e) { if (!e || e.code !== 'ELOOP') throw e; // else leave realpath undefined } if (realpath === undefined || _.has(seenPaths, realpath)) { buildmessage.error("Symlink cycle detected at " + relDir); // recover by returning no files return true; } seenPaths[realpath] = true; return false; }; // Read top-level subdirectories. Ignore subdirectories that have // special handling. var sourceDirectories = readAndWatchDirectory('', { include: [/\/$/], exclude: [/^packages\/$/, /^programs\/$/, /^tests\/$/, /^public\/$/, /^private\/$/, otherBuildRegExp].concat(sourceExclude) }); checkForInfiniteRecursion(''); while (!_.isEmpty(sourceDirectories)) { var dir = sourceDirectories.shift(); // remove trailing slash dir = dir.substr(0, dir.length - 1); if (checkForInfiniteRecursion(dir)) return []; // pretend we found no files // Find source files in this directory. Array.prototype.push.apply(sources, readAndWatchDirectory(dir, { include: sourceInclude, exclude: sourceExclude })); // Find sub-sourceDirectories. Note that we DON'T need to ignore the // directory names that are only special at the top level. Array.prototype.push.apply(sourceDirectories, readAndWatchDirectory(dir, { include: [/\/$/], exclude: [/^tests\/$/, otherBuildRegExp].concat(sourceExclude) })); } // We've found all the source files. Sort them! var templateExtensions = []; _.each(extensions, function (isTemplate, ext) { isTemplate && templateExtensions.push(ext); }); sources.sort(loadOrderSort(templateExtensions)); // Convert into relPath/fileOptions objects. sources = _.map(sources, function (relPath) { var sourceObj = {relPath: relPath}; // Special case: on the client, JavaScript files in a // `client/compatibility` directory don't get wrapped in a closure. if (archName === "client" && relPath.match(/\.js$/)) { var clientCompatSubstr = path.sep + 'client' + path.sep + 'compatibility' + path.sep; if ((path.sep + relPath).indexOf(clientCompatSubstr) !== -1) sourceObj.fileOptions = {bare: true}; } return sourceObj; }); // Now look for assets for this build. var assetDir = archName === "client" ? "public" : "private"; var assetDirs = readAndWatchDirectory('', { include: [new RegExp('^' + assetDir + '/$')] }); if (!_.isEmpty(assetDirs)) { if (!_.isEqual(assetDirs, [assetDir + '/'])) throw new Error("Surprising assetDirs: " + JSON.stringify(assetDirs)); while (!_.isEmpty(assetDirs)) { dir = assetDirs.shift(); // remove trailing slash dir = dir.substr(0, dir.length - 1); if (checkForInfiniteRecursion(dir)) return []; // pretend we found no files // Find asset files in this directory. var assetsAndSubdirs = readAndWatchDirectory(dir, { include: [/.?/], // we DO look under dot directories here exclude: ignoreFiles }); _.each(assetsAndSubdirs, function (item) { if (item[item.length - 1] === '/') { // Recurse on this directory. assetDirs.push(item); } else { // This file is an asset. sources.push({ relPath: item, fileOptions: { isAsset: true } }); } }); } } return sources; }; }); if (! self._checkCrossBuildVersionConstraints()) { // should never happen since we created the builds from // .meteor/packages, which doesn't have a way to express // different constraints for different builds throw new Error("conflicting constraints in a package?"); } }, // True if the package defines any plugins. containsPlugins: function () { var self = this; return ! _.isEmpty(self.pluginInfo); }, // Return dependency metadata for all builds, in the format needed // by the package catalog. // // Options: // - logError: if true, if something goes wrong, log a buildmessage // and return null rather than throwing an exception. // - skipWeak: omit weak dependencies // - skipUnordered: omit unordered dependencies getDependencyMetadata: function (options) { var self = this; var ret = self._computeDependencyMetadata(options); if (! ret) { if (options.logError) return null; else throw new Error("inconsistent dependency constraint across builds?"); } return ret; }, // Record the versions of the dependencies that we used to actually build the // package on disk and save them into the packageSource. Next time we build // the package, we will look at them for optimization & repeatable builds. // // constraints: // - dependencies: results of running the constraint solver on the dependency // metadata of this package // - pluginDependenciess: results of running the constraint solver on the // plugin dependency data for this package. // currentTool: string of the tool version that we are using // (ex: meteor-tool@1.0.0) recordDependencyVersions: function (constraints, currentTool) { var self = this; var versions = _.extend(constraints, {"toolVersion": currentTool }); // If nothing has changed, don't bother rewriting the versions file. if (_.isEqual(self.dependencyVersions, versions)) return; // If something has changed, and this is an immutable package source, then // we have done something terribly, terribly wrong. Throw. if (self.immutable) { throw new Error("Version lock for " + self.name + " should never change."); }; // In case we need to rebuild from this package Source, it will be // convenient to keep the results on hand and not reread from disk. self.dependencyVersions = _.clone(versions); // There is always a possibility that we might want to change the format of // this file, so let's keep track of what it is. versions["format"] = "1.0"; // When we write versions to disk, we want to alphabetize by package name, // both for readability and also for consistency (so two packages built with // the same versions have the exact same versions file). // // This takes in an object mapping key to value and returns an array of // pairs, alphabetized by key. var alphabetize = function (object) { return _.sortBy(_.pairs(object), function (pair) { return pair[0]; }); }; // XXX: I am tired of writing out version files in checkout. I will fix this // to explicitly not do that later. return; // Both plugins and direct dependencies are objects mapping package name to // version number. When we write them on disk, we will convert them to // arrays of and alphabetized by packageName. versions["dependencies"] = alphabetize(versions["dependencies"]); versions["pluginDependencies"] = alphabetize(versions["pluginDependencies"]); try { // Currently, unnamed packages are apps, and apps have a different // versions file format and semantics. So, we don't need to and cannot // record dependencyVersions for those, and that's OK for now. // // Uniload sets its sourceRoot to "/", which is a little strange. Uniload // does not need to store dependency versions either. if (self.name && self.sourceRoot !== "/") { var versionsFile = path.join(self.sourceRoot, self.versionsFileName()); fs.writeFileSync(versionsFile, JSON.stringify(versions, null, 2), 'utf8'); } } catch (e) { // We 'recover' by not saving the dependency versions. Log a line about it // in case it is unexpected. We don't buildmessage because it doesn't // really interrupt our workflow, but the user might want to know about it // anyway. console.log("Could not write versions file for ", self.name); } }, // Returns the name of the file containing the version lock for this package versionsFileName : function () { var self = this; return self.name + "-versions.json"; }, // If dependencies aren't consistent across builds, return false and // also log a buildmessage error if inside a buildmessage job. Else // return true. // XXX: Check that this is used when refactoring is done. _checkCrossBuildVersionConstraints: function () { var self = this; return !! self._computeDependencyMetadata({ logError: true }); }, // Compute the return value for getDependencyMetadata, or return // null if there is a dependency that doesn't have the same // constraint across all builds (and, if logError is true, log a // buildmessage error). // // For options, see getDependencyMetadata. _computeDependencyMetadata: function (options) { var self = this; options = options || {}; var dependencies = {}; var allConstraints = {}; // for error reporting. package name to array var failed = false; _.each(self.architectures, function (arch) { // We need to iterate over both uses and implies, since implied packages // also constitute dependencies. var processUse = function (implied, use) { // We can't really have a weak implies (what does that even mean?) but // we check for that elsewhere. if ((use.weak && options.skipWeak) || (use.unordered && options.skipUnordered)) return; if (!_.has(dependencies, use.package)) { dependencies[use.package] = { constraint: null, references: [] }; allConstraints[use.package] = []; } var d = dependencies[use.package]; if (use.constraint) { allConstraints[use.package].push(use.constraint); if (d.constraint === null) { d.constraint = use.constraint; } else if (d.constraint !== use.constraint) { failed = true; } } var reference = { arch: archinfo.withoutSpecificOs(arch.arch), }; if (use.weak) { reference.weak = true; } if (use.unordered) { reference.unordered = true; } if (implied) { reference.implied = true; } d.references.push(reference); }; _.each(arch.uses, _.partial(processUse, false)); _.each(arch.implies, _.partial(processUse, true)); }); if (failed && options.logError) { _.each(allConstraints, function (constraints, name) { constraints = _.uniq(constraints); if (constraints.length > 1) { buildmessage.error( "The version constraint for a dependency must be the same " + "at every place it is mentioned in a package. " + "'" + name + "' is constrained both as " + constraints.join(' and ') + ". Change them to match."); // recover by returning false (the caller had better detect // this and use its own recovery logic) } }); } return failed ? null : dependencies; } }); module.exports = PackageSource;