utils/pub/git_source.dart - sdk.git - Git at Google

 // Copyright (c) 2012, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 library git_source;

 import 'dart:async';

 import '../../pkg/pathos/lib/path.dart' as path;

 import 'git.dart' as git;
 import 'io.dart';
 import 'log.dart' as log;
 import 'package.dart';
 import 'source.dart';
 import 'source_registry.dart';
 import 'utils.dart';

 /// A package source that installs packages from Git repos.
 class GitSource extends Source {
   final String name = "git";

   final bool shouldCache = true;

   GitSource();

   /// Clones a Git repo to the local filesystem.
   ///
   /// The Git cache directory is a little idiosyncratic. At the top level, it
   /// contains a directory for each commit of each repository, named `<package
   /// name>-<commit hash>`. These are the canonical package directories that are
   /// linked to from the `packages/` directory.
   ///
   /// In addition, the Git system cache contains a subdirectory named `cache/`
   /// which contains a directory for each separate repository URL, named
   /// `<package name>-<url hash>`. These are used to check out the repository
   /// itself; each of the commit-specific directories are clones of a directory
   /// in `cache/`.
   Future<Package> installToSystemCache(PackageId id) {
     var revisionCachePath;

     return git.isInstalled.then((installed) {
       if (!installed) {
         throw new Exception(
             "Cannot install '${id.name}' from Git (${_getUrl(id)}).\n"
             "Please ensure Git is correctly installed.");
       }

       ensureDir(path.join(systemCacheRoot, 'cache'));
       return _ensureRepoCache(id);
     }).then((_) => systemCacheDirectory(id)).then((path) {
       revisionCachePath = path;
       if (entryExists(revisionCachePath)) return;
       return _clone(_repoCachePath(id), revisionCachePath, mirror: false);
     }).then((_) {
       var ref = _getEffectiveRef(id);
       if (ref == 'HEAD') return;
       return _checkOut(revisionCachePath, ref);
     }).then((_) {
       return new Package.load(id.name, revisionCachePath, systemCache.sources);
     });
   }

   /// Returns the path to the revision-specific cache of [id].
   Future<String> systemCacheDirectory(PackageId id) {
     return _revisionAt(id).then((rev) {
       var revisionCacheName = '${id.name}-$rev';
       return path.join(systemCacheRoot, revisionCacheName);
     });
   }

   /// Ensures [description] is a Git URL.
   dynamic parseDescription(String containingPath, description,
                            {bool fromLockFile: false}) {
     // TODO(rnystrom): Handle git URLs that are relative file paths (#8570).
     // TODO(rnystrom): Now that this function can modify the description, it
     // may as well canonicalize it to a map so that other code in the source
     // can assume that.
     // A single string is assumed to be a Git URL.
     if (description is String) return description;
     if (description is! Map || !description.containsKey('url')) {
       throw new FormatException("The description must be a Git URL or a map "
           "with a 'url' key.");
     }

     var parsed = new Map.from(description);
     parsed.remove('url');
     parsed.remove('ref');
     if (fromLockFile) parsed.remove('resolved-ref');

     if (!parsed.isEmpty) {
       var plural = parsed.length > 1;
       var keys = parsed.keys.join(', ');
       throw new FormatException("Invalid key${plural ? 's' : ''}: $keys.");
     }

     return description;
   }

   /// Two Git descriptions are equal if both their URLs and their refs are
   /// equal.
   bool descriptionsEqual(description1, description2) {
     // TODO(nweiz): Do we really want to throw an error if you have two
     // dependencies on some repo, one of which specifies a ref and one of which
     // doesn't? If not, how do we handle that case in the version solver?
     return _getUrl(description1) == _getUrl(description2) &&
       _getRef(description1) == _getRef(description2);
   }

   /// Attaches a specific commit to [id] to disambiguate it.
   Future<PackageId> resolveId(PackageId id) {
     return _revisionAt(id).then((revision) {
       var description = {'url': _getUrl(id), 'ref': _getRef(id)};
       description['resolved-ref'] = revision;
       return new PackageId(id.name, this, id.version, description);
     });
   }

   // TODO(keertip): Implement getCachedPackages().

   /// Ensure that the canonical clone of the repository referred to by [id] (the
   /// one in `<system cache>/git/cache`) exists and is up-to-date. Returns a
   /// future that completes once this is finished and throws an exception if it
   /// fails.
   Future _ensureRepoCache(PackageId id) {
     return defer(() {
       var path = _repoCachePath(id);
       if (!entryExists(path)) return _clone(_getUrl(id), path, mirror: true);
       return git.run(["fetch"], workingDir: path).then((result) => null);
     });
   }

   /// Returns a future that completes to the revision hash of [id].
   Future<String> _revisionAt(PackageId id) {
     return git.run(["rev-parse", _getEffectiveRef(id)],
         workingDir: _repoCachePath(id)).then((result) => result[0]);
   }

   /// Clones the repo at the URI [from] to the path [to] on the local
   /// filesystem.
   ///
   /// If [mirror] is true, create a bare, mirrored clone. This doesn't check out
   /// the working tree, but instead makes the repository a local mirror of the
   /// remote repository. See the manpage for `git clone` for more information.
   Future _clone(String from, String to, {bool mirror: false}) {
     return defer(() {
       // Git on Windows does not seem to automatically create the destination
       // directory.
       ensureDir(to);
       var args = ["clone", from, to];
       if (mirror) args.insertRange(1, 1, "--mirror");
       return git.run(args);
     }).then((result) => null);
   }

   /// Checks out the reference [ref] in [repoPath].
   Future _checkOut(String repoPath, String ref) {
     return git.run(["checkout", ref], workingDir: repoPath).then(
         (result) => null);
   }

   /// Returns the path to the canonical clone of the repository referred to by
   /// [id] (the one in `<system cache>/git/cache`).
   String _repoCachePath(PackageId id) {
     var repoCacheName = '${id.name}-${sha1(_getUrl(id))}';
     return path.join(systemCacheRoot, 'cache', repoCacheName);
   }

   /// Returns the repository URL for [id].
   ///
   /// [description] may be a description or a [PackageId].
   String _getUrl(description) {
     description = _getDescription(description);
     if (description is String) return description;
     return description['url'];
   }

   /// Returns the commit ref that should be checked out for [description].
   ///
   /// This differs from [_getRef] in that it doesn't just return the ref in
   /// [description]. It will return a sensible default if that ref doesn't
   /// exist, and it will respect the "resolved-ref" parameter set by
   /// [resolveId].
   ///
   /// [description] may be a description or a [PackageId].
   String _getEffectiveRef(description) {
     description = _getDescription(description);
     if (description is Map && description.containsKey('resolved-ref')) {
       return description['resolved-ref'];
     }

     var ref = _getRef(description);
     return ref == null ? 'HEAD' : ref;
   }

   /// Returns the commit ref for [description], or null if none is given.
   ///
   /// [description] may be a description or a [PackageId].
   String _getRef(description) {
     description = _getDescription(description);
     if (description is String) return null;
     return description['ref'];
   }

   /// Returns [description] if it's a description, or [PackageId.description] if
   /// it's a [PackageId].
   _getDescription(description) {
     if (description is PackageId) return description.description;
     return description;
   }
 }
	// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	library git_source;

	import 'dart:async';

	import '../../pkg/pathos/lib/path.dart' as path;

	import 'git.dart' as git;
	import 'io.dart';
	import 'log.dart' as log;
	import 'package.dart';
	import 'source.dart';
	import 'source_registry.dart';
	import 'utils.dart';

	/// A package source that installs packages from Git repos.
	class GitSource extends Source {
	final String name = "git";

	final bool shouldCache = true;

	GitSource();

	/// Clones a Git repo to the local filesystem.
	///
	/// The Git cache directory is a little idiosyncratic. At the top level, it
	/// contains a directory for each commit of each repository, named `<package
	/// name>-<commit hash>`. These are the canonical package directories that are
	/// linked to from the `packages/` directory.
	///
	/// In addition, the Git system cache contains a subdirectory named `cache/`
	/// which contains a directory for each separate repository URL, named
	/// `<package name>-<url hash>`. These are used to check out the repository
	/// itself; each of the commit-specific directories are clones of a directory
	/// in `cache/`.
	Future<Package> installToSystemCache(PackageId id) {
	var revisionCachePath;

	return git.isInstalled.then((installed) {
	if (!installed) {
	throw new Exception(
	"Cannot install '${id.name}' from Git (${_getUrl(id)}).\n"
	"Please ensure Git is correctly installed.");
	}

	ensureDir(path.join(systemCacheRoot, 'cache'));
	return _ensureRepoCache(id);
	}).then((_) => systemCacheDirectory(id)).then((path) {
	revisionCachePath = path;
	if (entryExists(revisionCachePath)) return;
	return _clone(_repoCachePath(id), revisionCachePath, mirror: false);
	}).then((_) {
	var ref = _getEffectiveRef(id);
	if (ref == 'HEAD') return;
	return _checkOut(revisionCachePath, ref);
	}).then((_) {
	return new Package.load(id.name, revisionCachePath, systemCache.sources);
	});
	}

	/// Returns the path to the revision-specific cache of [id].
	Future<String> systemCacheDirectory(PackageId id) {
	return _revisionAt(id).then((rev) {
	var revisionCacheName = '${id.name}-$rev';
	return path.join(systemCacheRoot, revisionCacheName);
	});
	}

	/// Ensures [description] is a Git URL.
	dynamic parseDescription(String containingPath, description,
	{bool fromLockFile: false}) {
	// TODO(rnystrom): Handle git URLs that are relative file paths (#8570).
	// TODO(rnystrom): Now that this function can modify the description, it
	// may as well canonicalize it to a map so that other code in the source
	// can assume that.
	// A single string is assumed to be a Git URL.
	if (description is String) return description;
	if (description is! Map \|\| !description.containsKey('url')) {
	throw new FormatException("The description must be a Git URL or a map "
	"with a 'url' key.");
	}

	var parsed = new Map.from(description);
	parsed.remove('url');
	parsed.remove('ref');
	if (fromLockFile) parsed.remove('resolved-ref');

	if (!parsed.isEmpty) {
	var plural = parsed.length > 1;
	var keys = parsed.keys.join(', ');
	throw new FormatException("Invalid key${plural ? 's' : ''}: $keys.");
	}

	return description;
	}

	/// Two Git descriptions are equal if both their URLs and their refs are
	/// equal.
	bool descriptionsEqual(description1, description2) {
	// TODO(nweiz): Do we really want to throw an error if you have two
	// dependencies on some repo, one of which specifies a ref and one of which
	// doesn't? If not, how do we handle that case in the version solver?
	return _getUrl(description1) == _getUrl(description2) &&
	_getRef(description1) == _getRef(description2);
	}

	/// Attaches a specific commit to [id] to disambiguate it.
	Future<PackageId> resolveId(PackageId id) {
	return _revisionAt(id).then((revision) {
	var description = {'url': _getUrl(id), 'ref': _getRef(id)};
	description['resolved-ref'] = revision;
	return new PackageId(id.name, this, id.version, description);
	});
	}

	// TODO(keertip): Implement getCachedPackages().

	/// Ensure that the canonical clone of the repository referred to by [id] (the
	/// one in `<system cache>/git/cache`) exists and is up-to-date. Returns a
	/// future that completes once this is finished and throws an exception if it
	/// fails.
	Future _ensureRepoCache(PackageId id) {
	return defer(() {
	var path = _repoCachePath(id);
	if (!entryExists(path)) return _clone(_getUrl(id), path, mirror: true);
	return git.run(["fetch"], workingDir: path).then((result) => null);
	});
	}

	/// Returns a future that completes to the revision hash of [id].
	Future<String> _revisionAt(PackageId id) {
	return git.run(["rev-parse", _getEffectiveRef(id)],
	workingDir: _repoCachePath(id)).then((result) => result[0]);
	}

	/// Clones the repo at the URI [from] to the path [to] on the local
	/// filesystem.
	///
	/// If [mirror] is true, create a bare, mirrored clone. This doesn't check out
	/// the working tree, but instead makes the repository a local mirror of the
	/// remote repository. See the manpage for `git clone` for more information.
	Future _clone(String from, String to, {bool mirror: false}) {
	return defer(() {
	// Git on Windows does not seem to automatically create the destination
	// directory.
	ensureDir(to);
	var args = ["clone", from, to];
	if (mirror) args.insertRange(1, 1, "--mirror");
	return git.run(args);
	}).then((result) => null);
	}

	/// Checks out the reference [ref] in [repoPath].
	Future _checkOut(String repoPath, String ref) {
	return git.run(["checkout", ref], workingDir: repoPath).then(
	(result) => null);
	}

	/// Returns the path to the canonical clone of the repository referred to by
	/// [id] (the one in `<system cache>/git/cache`).
	String _repoCachePath(PackageId id) {
	var repoCacheName = '${id.name}-${sha1(_getUrl(id))}';
	return path.join(systemCacheRoot, 'cache', repoCacheName);
	}

	/// Returns the repository URL for [id].
	///
	/// [description] may be a description or a [PackageId].
	String _getUrl(description) {
	description = _getDescription(description);
	if (description is String) return description;
	return description['url'];
	}

	/// Returns the commit ref that should be checked out for [description].
	///
	/// This differs from [_getRef] in that it doesn't just return the ref in
	/// [description]. It will return a sensible default if that ref doesn't
	/// exist, and it will respect the "resolved-ref" parameter set by
	/// [resolveId].
	///
	/// [description] may be a description or a [PackageId].
	String _getEffectiveRef(description) {
	description = _getDescription(description);
	if (description is Map && description.containsKey('resolved-ref')) {
	return description['resolved-ref'];
	}

	var ref = _getRef(description);
	return ref == null ? 'HEAD' : ref;
	}

	/// Returns the commit ref for [description], or null if none is given.
	///
	/// [description] may be a description or a [PackageId].
	String _getRef(description) {
	description = _getDescription(description);
	if (description is String) return null;
	return description['ref'];
	}

	/// Returns [description] if it's a description, or [PackageId.description] if
	/// it's a [PackageId].
	_getDescription(description) {
	if (description is PackageId) return description.description;
	return description;
	}
	}