| Current File : //lib/node_modules/bower/lib/core/Project.js |
var glob = require('glob');
var path = require('path');
var fs = require('../util/fs');
var Q = require('q');
var mout = require('mout');
var rimraf = require('../util/rimraf');
var endpointParser = require('bower-endpoint-parser');
var Logger = require('bower-logger');
var md5 = require('md5-hex');
var Manager = require('./Manager');
var semver = require('../util/semver');
var createError = require('../util/createError');
var readJson = require('../util/readJson');
var validLink = require('../util/validLink');
var scripts = require('./scripts');
var relativeToBaseDir = require('../util/relativeToBaseDir');
function Project(config, logger) {
this._config = config;
this._logger = logger || new Logger();
this._manager = new Manager(this._config, this._logger);
this._options = {};
}
// -----------------
Project.prototype.install = function(decEndpoints, options, config) {
var that = this;
var targets = [];
var resolved = {};
var incompatibles = [];
// If already working, error out
if (this._working) {
return Q.reject(createError('Already working', 'EWORKING'));
}
this._options = options || {};
this._config = config || {};
this._working = true;
// Analyse the project
return this._analyse()
.spread(function(json, tree) {
// It shows an error when issuing `bower install`
// and no bower.json is present in current directory
if (!that._jsonFile && decEndpoints.length === 0) {
throw createError('No bower.json present', 'ENOENT');
}
// Recover tree
that.walkTree(
tree,
function(node, name) {
if (node.incompatible) {
incompatibles.push(node);
} else if (
node.missing ||
node.different ||
that._config.force
) {
targets.push(node);
} else {
resolved[name] = node;
}
},
true
);
// Add decomposed endpoints as targets
decEndpoints = decEndpoints || [];
decEndpoints.forEach(function(decEndpoint) {
// Mark as new so that a conflict for this target
// always require a choice
// Also allows for the target to be converted in case
// of being *
decEndpoint.newly = true;
targets.push(decEndpoint);
});
// Bootstrap the process
return that._bootstrap(targets, resolved, incompatibles);
})
.then(function() {
return that._manager.preinstall(that._json);
})
.then(function() {
return that._manager.install(that._json);
})
.then(function(installed) {
// Handle save and saveDev options
if (
that._options.save ||
that._options.saveDev ||
that._options.saveExact ||
that._config.save ||
that._config.saveExact
) {
// Cycle through the specified endpoints
decEndpoints.forEach(function(decEndpoint) {
var jsonEndpoint;
jsonEndpoint = endpointParser.decomposed2json(decEndpoint);
if (that._options.saveExact || that._config.saveExact) {
if (decEndpoint.name !== decEndpoint.source) {
jsonEndpoint[decEndpoint.name] =
decEndpoint.source +
'#' +
decEndpoint.pkgMeta.version;
} else {
jsonEndpoint[decEndpoint.name] =
decEndpoint.pkgMeta.version;
}
}
if (that._options.saveDev) {
that._json.devDependencies = mout.object.mixIn(
that._json.devDependencies || {},
jsonEndpoint
);
} else {
that._json.dependencies = mout.object.mixIn(
that._json.dependencies || {},
jsonEndpoint
);
}
});
}
// Save JSON, might contain changes to dependencies and resolutions
return that.saveJson().then(function() {
return that._manager.postinstall(that._json).then(function() {
return installed;
});
});
})
.fin(function() {
that._installed = null;
that._working = false;
});
};
Project.prototype.update = function(names, options) {
var that = this;
var targets = [];
var resolved = {};
var incompatibles = [];
// If already working, error out
if (this._working) {
return Q.reject(createError('Already working', 'EWORKING'));
}
this._options = options || {};
this._working = true;
// Analyse the project
return this._analyse()
.spread(function(json, tree, flattened) {
// If no names were specified, update every package
if (!names) {
// Mark each root dependency as targets
that.walkTree(
tree,
function(node) {
// We don't know the real source of linked packages
// Instead we read its dependencies
if (node.linked) {
targets.push.apply(
targets,
mout.object.values(node.dependencies)
);
} else {
targets.push(node);
}
return false;
},
true
);
// Otherwise, selectively update the specified ones
} else {
// Error out if some of the specified names
// are not installed
names.forEach(function(name) {
if (!flattened[name]) {
throw createError(
'Package ' + name + ' is not installed',
'ENOTINS',
{
name: name
}
);
}
});
// Add packages whose names are specified to be updated
that.walkTree(
tree,
function(node, name) {
if (names.indexOf(name) !== -1) {
// We don't know the real source of linked packages
// Instead we read its dependencies
if (node.linked) {
targets.push.apply(
targets,
mout.object.values(node.dependencies)
);
} else {
targets.push(node);
}
return false;
}
},
true
);
// Recover tree
that.walkTree(
tree,
function(node, name) {
if (node.missing || node.different) {
targets.push(node);
} else if (node.incompatible) {
incompatibles.push(node);
} else {
resolved[name] = node;
}
},
true
);
}
// Bootstrap the process
return that
._bootstrap(targets, resolved, incompatibles)
.then(function() {
return that._manager.preinstall(that._json);
})
.then(function() {
return that._manager.install(that._json);
})
.then(function(installed) {
// Save JSON, might contain changes to resolutions
return that.saveJson().then(function() {
return that._manager
.postinstall(that._json)
.then(function() {
return installed;
});
});
});
})
.fin(function() {
that._installed = null;
that._working = false;
});
};
function resolveUrlNames(names, flattened) {
for (var i = 0; i < names.length; i++)
if (!flattened[names[i]]) {
var url = names[i].trim().replace(/\/$/, '');
var packName;
for (packName in flattened)
if (!!flattened[packName].source)
if (
url ==
flattened[packName].source.trim().replace(/\/$/, '')
)
names[i] = packName;
}
}
Project.prototype.uninstall = function(names, options) {
var that = this;
var packages = {};
// If already working, error out
if (this._working) {
return Q.reject(createError('Already working', 'EWORKING'));
}
this._options = options || {};
this._working = true;
// Analyse the project
return (
this._analyse()
// Fill in the packages to be uninstalled
.spread(function(json, tree, flattened) {
var promise = Q.resolve();
resolveUrlNames(names, flattened);
names.forEach(function(name) {
var decEndpoint = flattened[name];
// Check if it is not installed
if (!decEndpoint || decEndpoint.missing) {
packages[name] = null;
return;
}
promise = promise.then(function() {
var message;
var data;
var dependantsNames;
var dependants = [];
// Walk the down the tree, gathering dependants of the package
that.walkTree(
tree,
function(node, nodeName) {
if (name === nodeName) {
dependants.push.apply(
dependants,
mout.object.values(node.dependants)
);
}
},
true
);
// Remove duplicates
dependants = mout.array.unique(dependants);
// Note that the root is filtered from the dependants
// as well as other dependants marked to be uninstalled
dependants = dependants.filter(function(dependant) {
return (
!dependant.root &&
names.indexOf(dependant.name) === -1
);
});
// If the package has no dependants or the force config is enabled,
// mark it to be removed
if (!dependants.length || that._config.force) {
packages[name] = decEndpoint.canonicalDir;
return;
}
// Otherwise we need to figure it out if the user really wants to remove it,
// even with dependants
// As such we need to prompt the user with a meaningful message
dependantsNames = dependants.map(function(dep) {
return dep.name;
});
dependantsNames.sort(function(name1, name2) {
return name1.localeCompare(name2);
});
dependantsNames = mout.array.unique(dependantsNames);
dependants = dependants.map(function(dependant) {
return that._manager.toData(dependant);
});
message =
dependantsNames.join(', ') +
' depends on ' +
decEndpoint.name;
data = {
name: decEndpoint.name,
dependants: dependants
};
// If interactive is disabled, error out
if (!that._config.interactive) {
throw createError(message, 'ECONFLICT', {
data: data
});
}
that._logger.conflict('mutual', message, data);
// Prompt the user
return Q.nfcall(
that._logger.prompt.bind(that._logger),
{
type: 'confirm',
message: 'Continue anyway?',
default: true
}
).then(function(confirmed) {
// If the user decided to skip it, remove from the array so that it won't
// influence subsequent dependants
if (!confirmed) {
mout.array.remove(names, name);
} else {
packages[name] = decEndpoint.canonicalDir;
}
});
});
});
return promise;
})
// Remove packages
.then(function() {
return that._removePackages(packages);
})
.fin(function() {
that._installed = null;
that._working = false;
})
);
};
Project.prototype.getTree = function(options) {
this._options = options || {};
return this._analyse().spread(
function(json, tree, flattened) {
var extraneous = [];
var additionalKeys = [
'missing',
'extraneous',
'different',
'linked'
];
// Convert tree
tree = this._manager.toData(tree, additionalKeys);
// Mark incompatibles
this.walkTree(
tree,
function(node) {
var version;
var target = node.endpoint.target;
if (node.pkgMeta && semver.validRange(target)) {
version = node.pkgMeta.version;
// Ignore if target is '*' and resolved to a non-semver release
if (!version && target === '*') {
return;
}
if (!version || !semver.satisfies(version, target)) {
node.incompatible = true;
}
}
},
true
);
// Convert extraneous
mout.object.forOwn(
flattened,
function(pkg) {
if (pkg.extraneous) {
extraneous.push(
this._manager.toData(pkg, additionalKeys)
);
}
},
this
);
// Convert flattened
flattened = mout.object.map(
flattened,
function(node) {
return this._manager.toData(node, additionalKeys);
},
this
);
return [tree, flattened, extraneous];
}.bind(this)
);
};
Project.prototype.walkTree = function(node, fn, onlyOnce) {
var result;
var dependencies;
var queue = mout.object.values(node.dependencies);
if (onlyOnce === true) {
onlyOnce = [];
}
while (queue.length) {
node = queue.shift();
result = fn(node, node.endpoint ? node.endpoint.name : node.name);
// Abort traversal if result is false
if (result === false) {
continue;
}
// Add dependencies to the queue
dependencies = mout.object.values(node.dependencies);
// If onlyOnce was true, do not add if already traversed
if (onlyOnce) {
dependencies = dependencies.filter(function(dependency) {
return !mout.array.find(onlyOnce, function(stacked) {
if (dependency.endpoint) {
return mout.object.equals(
dependency.endpoint,
stacked.endpoint
);
}
return (
dependency.name === stacked.name &&
dependency.source === stacked.source &&
dependency.target === stacked.target
);
});
});
onlyOnce.push.apply(onlyOnce, dependencies);
}
queue.unshift.apply(queue, dependencies);
}
};
Project.prototype.saveJson = function(forceCreate) {
var file;
var jsonStr = JSON.stringify(this._json, null, ' ') + '\n';
var jsonHash = md5(jsonStr);
// Save only if there's something different
if (jsonHash === this._jsonHash) {
return Q.resolve();
}
// Error out if the json file does not exist, unless force create
// is true
if (!this._jsonFile && !forceCreate) {
this._logger.warn(
'no-json',
'No bower.json file to save to, use bower init to create one'
);
return Q.resolve();
}
file = this._jsonFile || path.join(this._config.cwd, 'bower.json');
return Q.nfcall(fs.writeFile, file, jsonStr).then(
function() {
this._jsonHash = jsonHash;
this._jsonFile = file;
return this._json;
}.bind(this)
);
};
Project.prototype.hasJson = function() {
return this._readJson().then(
function(json) {
return json ? this._jsonFile : false;
}.bind(this)
);
};
Project.prototype.getJson = function() {
return this._readJson();
};
Project.prototype.getManager = function() {
return this._manager;
};
Project.prototype.getPackageRepository = function() {
return this._manager.getPackageRepository();
};
// -----------------
Project.prototype._analyse = function() {
return Q.all([
this._readJson(),
this._readInstalled(),
this._readLinks()
]).spread(
function(json, installed, links) {
var root;
var jsonCopy = mout.lang.deepClone(json);
root = {
name: json.name,
source: this._config.cwd,
target: json.version || '*',
pkgMeta: jsonCopy,
canonicalDir: this._config.cwd,
root: true
};
mout.object.mixIn(installed, links);
// Mix direct extraneous as dependencies
// (dependencies installed without --save/--save-dev)
jsonCopy.dependencies = jsonCopy.dependencies || {};
jsonCopy.devDependencies = jsonCopy.devDependencies || {};
mout.object.forOwn(installed, function(decEndpoint, key) {
var pkgMeta = decEndpoint.pkgMeta;
var isSaved =
jsonCopy.dependencies[key] || jsonCopy.devDependencies[key];
// The _direct property is saved by the manager when .newly is specified
// It may happen pkgMeta is undefined if package is uninstalled
if (!isSaved && pkgMeta && pkgMeta._direct) {
decEndpoint.extraneous = true;
if (decEndpoint.linked) {
jsonCopy.dependencies[key] = pkgMeta.version || '*';
} else {
jsonCopy.dependencies[key] =
(pkgMeta._originalSource || pkgMeta._source) +
'#' +
pkgMeta._target;
}
}
});
// Restore the original dependencies cross-references,
// that is, the parent-child relationships
this._restoreNode(root, installed, 'dependencies');
// Do the same for the dev dependencies
if (!this._options.production) {
this._restoreNode(root, installed, 'devDependencies');
}
// Restore the rest of the extraneous (not installed directly)
mout.object.forOwn(
installed,
function(decEndpoint, name) {
if (!decEndpoint.dependants) {
decEndpoint.extraneous = true;
this._restoreNode(
decEndpoint,
installed,
'dependencies'
);
// Note that it has no dependants, just dependencies!
root.dependencies[name] = decEndpoint;
}
},
this
);
// Remove root from the flattened tree
delete installed[json.name];
return [json, root, installed];
}.bind(this)
);
};
Project.prototype._bootstrap = function(targets, resolved, incompatibles) {
var installed = mout.object.map(this._installed, function(decEndpoint) {
return decEndpoint.pkgMeta;
});
this._json.resolutions = this._json.resolutions || {};
// Configure the manager and kick in the resolve process
return this._manager
.configure({
targets: targets,
resolved: resolved,
incompatibles: incompatibles,
resolutions: this._json.resolutions,
installed: installed,
forceLatest: this._options.forceLatest
})
.resolve()
.then(
function() {
// If the resolutions is empty, delete key
if (!mout.object.size(this._json.resolutions)) {
delete this._json.resolutions;
}
}.bind(this)
);
};
Project.prototype._readJson = function() {
var that = this;
if (this._json) {
return Q.resolve(this._json);
}
return Q.fcall(function() {
// This will throw if package.json does not exist
return fs.readFileSync(path.join(that._config.cwd, 'package.json'));
})
.then(function(buffer) {
// If package.json exists, use it's values as defaults
var defaults = {},
npm = JSON.parse(buffer.toString());
defaults.name =
npm.name || path.basename(that._config.cwd) || 'root';
defaults.description = npm.description;
defaults.main = npm.main;
defaults.authors = npm.contributors || npm.author;
defaults.license = npm.license;
defaults.keywords = npm.keywords;
return defaults;
})
.catch(function(err) {
// Most likely no package.json so just set default name
return { name: path.basename(that._config.cwd) || 'root' };
})
.then(function(defaults) {
return (that._json = readJson(that._config.cwd, {
assume: defaults,
logger: that._logger
}));
})
.spread(function(json, deprecated, assumed) {
var jsonStr;
if (deprecated) {
that._logger.warn(
'deprecated',
'You are using the deprecated ' + deprecated + ' file'
);
}
if (!assumed) {
that._jsonFile = path.join(
that._config.cwd,
deprecated ? deprecated : 'bower.json'
);
}
jsonStr = JSON.stringify(json, null, ' ') + '\n';
that._jsonHash = md5(jsonStr);
return (that._json = json);
});
};
Project.prototype._readInstalled = function() {
var componentsDir;
var that = this;
if (this._installed) {
return Q.resolve(this._installed);
}
// Gather all folders that are actual packages by
// looking for the package metadata file
componentsDir = relativeToBaseDir(this._config.cwd)(this._config.directory);
return (this._installed = Q.nfcall(glob, '*/.bower.json', {
cwd: componentsDir,
dot: true
}).then(function(filenames) {
var promises;
var decEndpoints = {};
// Foreach bower.json found
promises = filenames.map(function(filename) {
var name = path.dirname(filename);
var metaFile = path.join(componentsDir, filename);
// Read package metadata
return readJson(metaFile).spread(function(pkgMeta) {
decEndpoints[name] = {
name: name,
source: pkgMeta._originalSource || pkgMeta._source,
target: pkgMeta._target,
canonicalDir: path.dirname(metaFile),
pkgMeta: pkgMeta
};
});
});
// Wait until all files have been read
// and resolve with the decomposed endpoints
return Q.all(promises).then(function() {
return (that._installed = decEndpoints);
});
}));
};
Project.prototype._readLinks = function() {
var componentsDir;
var that = this;
// Read directory, looking for links
componentsDir = relativeToBaseDir(this._config.cwd)(this._config.directory);
return Q.nfcall(fs.readdir, componentsDir).then(
function(filenames) {
var promises;
var decEndpoints = {};
promises = filenames.map(function(filename) {
var dir = path.join(componentsDir, filename);
// Filter only those that are valid links
return validLink(dir).spread(function(valid, err) {
var name;
if (!valid) {
if (err) {
that._logger.debug(
'read-link',
'Link ' + dir + ' is invalid',
{
filename: dir,
error: err
}
);
}
return;
}
// Skip links to files (see #783)
if (!valid.isDirectory()) {
return;
}
name = path.basename(dir);
return readJson(dir, {
assume: { name: name }
}).spread(function(json, deprecated) {
if (deprecated) {
that._logger.warn(
'deprecated',
'Package ' +
name +
' is using the deprecated ' +
deprecated
);
}
json._direct = true; // Mark as a direct dep of root
decEndpoints[name] = {
name: name,
source: dir,
target: '*',
canonicalDir: dir,
pkgMeta: json,
linked: true
};
});
});
});
// Wait until all links have been read
// and resolve with the decomposed endpoints
return Q.all(promises).then(function() {
return decEndpoints;
});
// Ignore if folder does not exist
},
function(err) {
if (err.code !== 'ENOENT') {
throw err;
}
return {};
}
);
};
Project.prototype._removePackages = function(packages) {
var that = this;
var promises = [];
return (
scripts
.preuninstall(
that._config,
that._logger,
packages,
that._installed,
that._json
)
.then(function() {
mout.object.forOwn(packages, function(dir, name) {
var promise;
// Delete directory
if (!dir) {
promise = Q.resolve();
that._logger.warn(
'not-installed',
"'" +
name +
"'" +
' cannot be uninstalled as it is not currently installed',
{
name: name
}
);
} else {
promise = Q.nfcall(rimraf, dir);
that._logger.action('uninstall', name, {
name: name,
dir: dir
});
}
// Remove from json only if successfully deleted
if (
(that._options.save || that._config.save) &&
that._json.dependencies
) {
promise = promise.then(function() {
delete that._json.dependencies[name];
});
}
if (that._options.saveDev && that._json.devDependencies) {
promise = promise.then(function() {
delete that._json.devDependencies[name];
});
}
promises.push(promise);
});
return Q.all(promises);
})
.then(function() {
return that.saveJson();
})
// Run post-uninstall hook before resolving with removed packages.
.then(
scripts.postuninstall.bind(
null,
that._config,
that._logger,
packages,
that._installed,
that._json
)
)
// Resolve with removed packages
.then(function() {
return mout.object.filter(packages, function(dir) {
return !!dir;
});
})
);
};
Project.prototype._restoreNode = function(node, flattened, jsonKey, processed) {
var deps;
// Do not restore if the node is missing
if (node.missing) {
return;
}
node.dependencies = node.dependencies || {};
node.dependants = node.dependants || {};
processed = processed || {};
// Only process deps that are not yet processed
deps = mout.object.filter(node.pkgMeta[jsonKey], function(value, key) {
return !processed[node.name + ':' + key];
});
mout.object.forOwn(
deps,
function(value, key) {
var local = flattened[key];
var json = endpointParser.json2decomposed(key, value);
var restored;
var compatible;
var originalSource;
// Check if the dependency is not installed
if (!local) {
flattened[key] = restored = json;
restored.missing = true;
// Even if it is installed, check if it's compatible
// Note that linked packages are interpreted as compatible
// This might change in the future: #673
} else {
compatible =
local.linked ||
(!local.missing && json.target === local.pkgMeta._target);
if (!compatible) {
restored = json;
if (!local.missing) {
restored.pkgMeta = local.pkgMeta;
restored.canonicalDir = local.canonicalDir;
restored.incompatible = true;
} else {
restored.missing = true;
}
} else {
restored = local;
mout.object.mixIn(local, json);
}
// Check if source changed, marking as different if it did
// We only do this for direct root dependencies that are compatible
if (node.root && compatible) {
originalSource = mout.object.get(
local,
'pkgMeta._originalSource'
);
if (originalSource && originalSource !== json.source) {
restored.different = true;
}
}
}
// Cross reference
node.dependencies[key] = restored;
processed[node.name + ':' + key] = true;
restored.dependants = restored.dependants || {};
restored.dependants[node.name] = mout.object.mixIn({}, node); // We need to clone due to shared objects in the manager!
// Call restore for this dependency
this._restoreNode(restored, flattened, 'dependencies', processed);
// Do the same for the incompatible local package
if (local && restored !== local) {
this._restoreNode(local, flattened, 'dependencies', processed);
}
},
this
);
};
module.exports = Project;