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dart / external / github.com / flutter / flutter / refs/tags/v0.2.5 / . / packages / flutter_tools / lib / src / commands / update_packages.dart
blob: 20d39e98e35521b117e78a2417c8d20ddad98af2 [file] [log] [blame]
// Copyright 2015 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
import 'dart:async';
import 'dart:collection';
import 'package:meta/meta.dart';
import '../base/common.dart';
import '../base/file_system.dart';
import '../base/logger.dart';
import '../base/net.dart';
import '../base/platform.dart';
import '../cache.dart';
import '../dart/pub.dart';
import '../globals.dart';
import '../runner/flutter_command.dart';
/// Map from package name to package version, used to artificially pin a pub
/// package version in cases when upgrading to the latest breaks Flutter.
///
/// Example:
///
/// ```
/// 'linter': '0.1.35', // TODO(yjbanov): https://github.com/dart-lang/linter/issues/824
/// ```
const Map<String, String> _kManuallyPinnedDependencies = const <String, String>{
// Add pinned packages here.
'mockito': '3.0.0-alpha+2', // TODO(aam): https://github.com/dart-lang/mockito/issues/110
};
class UpdatePackagesCommand extends FlutterCommand {
UpdatePackagesCommand({ this.hidden: false }) {
argParser
..addFlag(
'force-upgrade',
help: 'Attempt to update all the dependencies to their latest versions.\n'
'This will actually modify the pubspec.yaml files in your checkout.',
defaultsTo: false,
)
..addFlag(
'paths',
help: 'Finds paths in the dependency chain leading from package specified '
'in --from to package specified in --to.',
defaultsTo: false,
)
..addOption(
'from',
help: 'Used with flag --dependency-path. Specifies the package to begin '
'searching dependency path from.',
)
..addOption(
'to',
help: 'Used with flag --dependency-path. Specifies the package that the '
'sought after dependency path leads to.',
)
..addFlag(
'transitive-closure',
help: 'Prints the dependency graph that is the transitive closure of '
'packages the Flutter SDK depends on.',
defaultsTo: false,
)
..addFlag(
'verify-only',
help: 'verifies the package checksum without changing or updating deps',
defaultsTo: false,
);
}
@override
final String name = 'update-packages';
@override
final String description = 'Update the packages inside the Flutter repo.';
@override
final bool hidden;
Future<Null> _downloadCoverageData() async {
final Status status = logger.startProgress('Downloading lcov data for package:flutter...', expectSlowOperation: true);
final String urlBase = platform.environment['FLUTTER_STORAGE_BASE_URL'] ?? 'https://storage.googleapis.com';
final List<int> data = await fetchUrl(Uri.parse('$urlBase/flutter_infra/flutter/coverage/lcov.info'));
final String coverageDir = fs.path.join(Cache.flutterRoot, 'packages/flutter/coverage');
fs.file(fs.path.join(coverageDir, 'lcov.base.info'))
..createSync(recursive: true)
..writeAsBytesSync(data, flush: true);
fs.file(fs.path.join(coverageDir, 'lcov.info'))
..createSync(recursive: true)
..writeAsBytesSync(data, flush: true);
status.stop();
}
@override
Future<Null> runCommand() async {
final List<Directory> packages = runner.getRepoPackages();
final bool upgrade = argResults['force-upgrade'];
final bool isPrintPaths = argResults['paths'];
final bool isPrintTransitiveClosure = argResults['transitive-closure'];
final bool isVerifyOnly = argResults['verify-only'];
if (isVerifyOnly) {
printStatus('Verifying pubspecs...');
for (Directory directory in packages) {
final PubspecYaml pubspec = new PubspecYaml(directory);
printTrace('Reading pubspec.yaml from ${directory.path}');
if (pubspec.checksum.value == -1) {
// If the checksum is invalid or missing, we can just ask them run to run
// upgrade again to compute it.
printStatus(
'Warning: pubspec in ${directory.path} has out of date dependencies. '
'Please run "flutter update-packages" --force-upgrade to update them correctly.'
);
}
// all dependencies in the pubspec sorted lexically.
final Set<String> checksumDependencies = new Set<String>();
for (PubspecLine data in pubspec.inputData) {
if (data is PubspecDependency) {
if (!_ignoreForChecksum.contains(data.name))
checksumDependencies.add('${data.name}${data.version ?? ""}');
}
}
final List<String> sortedChecksunDependencies = checksumDependencies.toList()..sort();
final int checksum = _computeChecksum(sortedChecksunDependencies);
if (checksum != pubspec.checksum.value) {
// If the checksum doesn't match, they may have added or removed some dependencies.
// we need to run update-packages to recapture the transitive deps.
printStatus(
'Warning: pubspec in ${directory.path} has invalid dependencies. '
'Please run "flutter update-packages" --force-upgrade to update them correctly.'
);
} else {
// everything is correct in the pubspec.
printStatus('pubspec in ${directory.path} is up to date!');
}
}
return;
}
if (upgrade || isPrintPaths || isPrintTransitiveClosure) {
printStatus('Upgrading packages...');
// This feature attempts to collect all the packages used across all the
// pubspec.yamls in the repo (including via transitive dependencies), and
// find the latest version of each that can be used while keeping each
// such package fixed at a single version across all the pubspec.yamls.
//
// First, collect up the explicit dependencies:
final List<PubspecYaml> pubspecs = <PubspecYaml>[];
final Map<String, PubspecDependency> dependencies = <String, PubspecDependency>{};
final Set<String> specialDependencies = new Set<String>();
for (Directory directory in packages) { // these are all the directories with pubspec.yamls we care about
printTrace('Reading pubspec.yaml from: ${directory.path}');
final PubspecYaml pubspec = new PubspecYaml(directory); // this parses the pubspec.yaml
pubspecs.add(pubspec); // remember it for later
for (PubspecDependency dependency in pubspec.allDependencies) { // this is all the explicit dependencies
if (dependencies.containsKey(dependency.name)) {
// If we've seen the dependency before, make sure that we are
// importing it the same way. There's several ways to import a
// dependency. Hosted (from pub via version number), by path (e.g.
// pointing at the version of a package we get from the Dart SDK
// that we download with Flutter), by SDK (e.g. the "flutter"
// package is explicitly from "sdk: flutter").
//
// This makes sure that we don't import a package in two different
// ways, e.g. by saying "sdk: flutter" in one pubspec.yaml and
// saying "path: ../../..." in another.
final PubspecDependency previous = dependencies[dependency.name];
if (dependency.kind != previous.kind || dependency.lockTarget != previous.lockTarget) {
throw 'Inconsistent requirements around ${dependency.name}; '
'saw ${dependency.kind} (${dependency.lockTarget}) in "${dependency.sourcePath}" '
'and ${previous.kind} (${previous.lockTarget}) in "${previous.sourcePath}".';
}
}
// Remember this dependency by name so we can look it up again.
dependencies[dependency.name] = dependency;
// Normal dependencies are those we get from pub. The others we
// already implicitly pin since we pull down one version of the
// Flutter and Dart SDKs, so we track which those are here so that we
// can omit them from our list of pinned dependencies later.
if (dependency.kind != DependencyKind.normal)
specialDependencies.add(dependency.name);
}
}
// Now that we have all the dependencies we explicitly care about, we are
// going to create a fake package and then run "pub upgrade" on it. The
// pub tool will attempt to bring these dependencies up to the most recent
// possible versions while honoring all their constraints.
final PubDependencyTree tree = new PubDependencyTree(); // object to collect results
final Directory temporaryDirectory = fs.systemTempDirectory.createTempSync('flutter_update_packages_');
try {
final File fakePackage = _pubspecFor(temporaryDirectory);
fakePackage.createSync();
fakePackage.writeAsStringSync(_generateFakePubspec(dependencies.values));
// First we run "pub upgrade" on this generated package:
await pubGet(context: PubContext.updatePackages, directory: temporaryDirectory.path, upgrade: true, checkLastModified: false);
// Then we run "pub deps --style=compact" on the result. We pipe all the
// output to tree.fill(), which parses it so that it can create a graph
// of all the dependencies so that we can figure out the transitive
// dependencies later. It also remembers which version was selected for
// each package.
await pub(
<String>['deps', '--style=compact'],
context: PubContext.updatePackages,
directory: temporaryDirectory.path,
filter: tree.fill,
retry: false, // errors here are usually fatal since we're not hitting the network
);
} finally {
temporaryDirectory.deleteSync(recursive: true);
}
// The transitive dependency tree for the fake package does not contain
// dependencies between Flutter SDK packages and pub packages. We add them
// here.
for (PubspecYaml pubspec in pubspecs) {
final String package = pubspec.name;
final String version = pubspec.version;
for (PubspecDependency dependency in pubspec.dependencies) {
if (dependency.kind == DependencyKind.normal) {
tree._versions[package] = version;
tree._dependencyTree[package] ??= new Set<String>();
tree._dependencyTree[package].add(dependency.name);
}
}
}
if (isPrintTransitiveClosure) {
tree._dependencyTree.forEach((String from, Set<String> to) {
printStatus('$from -> $to');
});
return;
}
if (isPrintPaths) {
showDependencyPaths(from: argResults['from'], to: argResults['to'], tree: tree);
return;
}
// Now that we have collected all the data, we can apply our dependency
// versions to each pubspec.yaml that we collected. This mutates the
// pubspec.yaml files.
//
// The specialDependencies argument is the set of package names to not pin
// to specific versions because they are explicitly pinned by their
// constraints. Here we list the names we earlier established we didn't
// need to pin because they come from the Dart or Flutter SDKs.
for (PubspecYaml pubspec in pubspecs)
pubspec.apply(tree, specialDependencies);
// Now that the pubspec.yamls are updated, we run "pub get" on each one so
// that the various packages are ready to use. This is what "flutter
// update-packages" does without --force-upgrade, so we can just fall into
// the regular code path.
}
final Stopwatch timer = new Stopwatch()..start();
int count = 0;
for (Directory dir in packages) {
await pubGet(context: PubContext.updatePackages, directory: dir.path, checkLastModified: false);
count += 1;
}
await _downloadCoverageData();
final double seconds = timer.elapsedMilliseconds / 1000.0;
printStatus('\nRan \'pub\' $count time${count == 1 ? "" : "s"} and fetched coverage data in ${seconds.toStringAsFixed(1)}s.');
}
void showDependencyPaths({
@required String from,
@required String to,
@required PubDependencyTree tree,
}) {
if (!tree.contains(from))
throw new ToolExit('Package $from not found in the dependency tree.');
if (!tree.contains(to))
throw new ToolExit('Package $to not found in the dependency tree.');
final Queue<_DependencyLink> traversalQueue = new Queue<_DependencyLink>();
final Set<String> visited = new Set<String>();
final List<_DependencyLink> paths = <_DependencyLink>[];
traversalQueue.addFirst(new _DependencyLink(from: null, to: from));
while (traversalQueue.isNotEmpty) {
final _DependencyLink link = traversalQueue.removeLast();
if (link.to == to)
paths.add(link);
if (link.from != null)
visited.add(link.from.to);
for (String dependency in tree._dependencyTree[link.to]) {
if (!visited.contains(dependency)) {
traversalQueue.addFirst(new _DependencyLink(from: link, to: dependency));
}
}
}
for (_DependencyLink path in paths) {
final StringBuffer buf = new StringBuffer();
while (path != null) {
buf.write('${path.to}');
path = path.from;
if (path != null)
buf.write(' <- ');
}
printStatus(buf.toString());
}
if (paths.isEmpty) {
printStatus('No paths found from $from to $to');
}
}
}
class _DependencyLink {
_DependencyLink({
@required this.from,
@required this.to,
});
final _DependencyLink from;
final String to;
@override
String toString() => '${from?.to} -> $to';
}
/// The various sections of a pubspec.yaml file.
///
/// We care about the "dependencies", "dev_dependencies", and
/// "dependency_overrides" sections, as well as the "name" and "version" fields
/// in the pubspec header bucketed into [header]. The others are all bucketed
/// into [other].
enum Section { header, dependencies, devDependencies, dependencyOverrides, other }
/// The various kinds of dependencies we know and care about.
enum DependencyKind {
// Dependencies that will be path or sdk dependencies but
// for which we haven't yet parsed the data.
unknown,
// Regular dependencies with a specified version range.
normal,
// Dependency that uses an explicit path, e.g. into the Dart SDK.
path,
// Dependency defined as coming from an SDK (typically "sdk: flutter").
sdk,
// A dependency that was "normal", but for which we later found a "path" or
// "sdk" dependency in the dependency_overrides section.
overridden,
}
/// This is the string we output next to each of our autogenerated transitive
/// dependencies so that we can ignore them the next time we parse the
/// pubspec.yaml file.
const String kTransitiveMagicString= '# THIS LINE IS AUTOGENERATED - TO UPDATE USE "flutter update-packages --force-upgrade"';
/// This is the string output before a checksum of the packages used.
const String kDependencyChecksum = '# PUBSPEC CHECKSUM: ';
/// This class represents a pubspec.yaml file for the purposes of upgrading the
/// dependencies as done by this file.
class PubspecYaml {
/// You create one of these by providing a directory, from which we obtain the
/// pubspec.yaml and parse it into a line-by-line form.
factory PubspecYaml(Directory directory) {
final File file = _pubspecFor(directory);
return _parse(file, file.readAsLinesSync());
}
PubspecYaml._(this.file, this.name, this.version, this.inputData, this.checksum);
final File file; // The actual pubspec.yaml file.
/// The package name.
final String name;
/// The package version.
final String version;
final List<PubspecLine> inputData; // Each line of the pubspec.yaml file, parsed(ish).
/// The package checksum.
///
/// If this was not found in the pubspec, a synthetic checksum is created
/// with a value of `-1`.
final PubspecChecksum checksum;
/// This parses each line of a pubspec.yaml file (a list of lines) into
/// slightly more structured data (in the form of a list of PubspecLine
/// objects). We don't just use a YAML parser because we care about comments
/// and also because we can just define the style of pubspec.yaml files we care
/// about (since they're all under our control).
static PubspecYaml _parse(File file, List<String> lines) {
final String filename = file.path;
String packageName;
String packageVersion;
PubspecChecksum checksum; // the checksum value used to verify that dependencies haven't changed.
final List<PubspecLine> result = <PubspecLine>[]; // The output buffer.
Section section = Section.other; // Which section we're currently reading from.
bool seenMain = false; // Whether we've seen the "dependencies:" section.
bool seenDev = false; // Whether we've seen the "dev_dependencies:" section.
// The masterDependencies map is used to keep track of the objects
// representing actual dependencies we've seen so far in this file so that
// if we see dependency overrides we can update the actual dependency so it
// knows that it's not really a dependency.
final Map<String, PubspecDependency> masterDependencies = <String, PubspecDependency>{};
// The "special" dependencies (the ones that use git: or path: or sdk: or
// whatnot) have the style of having extra data after the line that declares
// the dependency. So we track what is the "current" (or "last") dependency
// that we are dealing with using this variable.
PubspecDependency lastDependency;
for (String line in lines) {
if (lastDependency == null) {
// First we look to see if we're transitioning to a new top-level section.
// The PubspecHeader.parse static method can recognize those headers.
final PubspecHeader header = PubspecHeader.parse(line); // See if it's a header.
if (header != null) { // It is!
section = header.section; // The parser determined what kind of section it is.
if (section == Section.header) {
if (header.name == 'name')
packageName = header.value;
else if (header.name == 'version')
packageVersion = header.value;
} else if (section == Section.dependencies) {
// If we're entering the "dependencies" section, we want to make sure that
// it's the first section (of those we care about) that we've seen so far.
if (seenMain)
throw 'Two dependencies sections found in $filename. There should only be one.';
if (seenDev) {
throw 'The dependencies section was after the dev_dependencies section in $filename. '
'To enable one-pass processing, the dependencies section must come before the '
'dev_dependencies section.';
}
seenMain = true;
} else if (section == Section.devDependencies) {
// Similarly, if we're entering the dev_dependencies section, we should verify
// that we've not seen one already.
if (seenDev)
throw 'Two dev_dependencies sections found in $filename. There should only be one.';
seenDev = true;
}
result.add(header);
} else if (section == Section.other) {
if (line.contains(kDependencyChecksum)) {
// This is the pubspec checksum. After computing it, we remove it from the output data
// since it will be recomputed later.
checksum = PubspecChecksum.parse(line);
} else {
// This line isn't a section header, and we're not in a section we care about.
// We just stick the line into the output unmodified.
result.add(new PubspecLine(line));
}
} else {
// We're in a section we care about. Try to parse out the dependency:
final PubspecDependency dependency = PubspecDependency.parse(line, filename: filename);
if (dependency != null) { // We got one!
// Track whether or not this a dev dependency.
dependency.isDevDependency = seenDev;
result.add(dependency);
if (dependency.kind == DependencyKind.unknown) {
// If we didn't get a version number, then we need to be ready to
// read the next line as part of this dependency, so keep track of
// this dependency object.
lastDependency = dependency;
}
if (section != Section.dependencyOverrides) {
// If we're not in the overrides section, then just remember the
// dependency, in case it comes up again later in the overrides
// section.
//
// First, make sure it's a unique dependency. Listing dependencies
// twice doesn't make sense.
if (masterDependencies.containsKey(dependency.name))
throw '$filename contains two dependencies on ${dependency.name}.';
masterDependencies[dependency.name] = dependency;
} else {
// If we _are_ in the overrides section, then go tell the version
// we saw earlier (if any -- there might not be, we might be
// overriding a transitive dependency) that we have overridden it,
// so that later when we output the dependencies we can leave
// the line unmodified.
masterDependencies[dependency.name]?.markOverridden(dependency);
}
} else if (line.contains(kDependencyChecksum)) {
// This is the pubspec checksum. After computing it, we remove it from the output data
// since it will be recomputed later.
checksum = PubspecChecksum.parse(line);
} else {
// We're in a section we care about but got a line we didn't
// recognize. Maybe it's a comment or a blank line or something.
// Just pass it through.
result.add(new PubspecLine(line));
}
}
} else {
// If we're here it means the last line was a dependency that needed
// extra information to be parsed from the next line.
//
// Try to parse the line by giving it to the last PubspecDependency
// object we created. If parseLock fails to recognize the line, it will
// throw. If it does recognize the line but decides it's one we don't
// care about (specifically, "git:" dependencies), it'll return false.
// Otherwise it returns true.
//
// If it returns true, then it will have updated itself internally to
// store the information from this line.
if (!lastDependency.parseLock(line, filename, lockIsOverride: section == Section.dependencyOverrides)) {
// Ok we're dealing with some "git:" dependency. Let's pretend we
// never saw it. In practice this is only used for the flutter gallery
// assets dependency which we don't care about especially since it has
// no subdependencies and it's pinned by git hash.
//
// Remove the PubspecDependency entry we had for it and replace it
// with a PubspecLine entry, and add such an entry for this line.
result.removeLast();
result.add(new PubspecLine(lastDependency.line));
result.add(new PubspecLine(line));
}
// We're done with this special dependency, so reset back to null so
// we'll go in the top section next time instead.
lastDependency = null;
}
}
return new PubspecYaml._(file, packageName, packageVersion, result, checksum ?? new PubspecChecksum(-1, ''));
}
/// This returns all the explicit dependencies that this pubspec.yaml lists under dependencies.
Iterable<PubspecDependency> get dependencies sync* {
// It works by iterating over the parsed data from _parse above, collecting
// all the dependencies that were found, ignoring any that are flagged as as
// overridden by subsequent entries in the same file and any that have the
// magic comment flagging them as auto-generated transitive dependencies
// that we added in a previous run.
for (PubspecLine data in inputData) {
if (data is PubspecDependency && data.kind != DependencyKind.overridden && !data.isTransitive && !data.isDevDependency)
yield data;
}
}
/// This returns all regular dependencies and all dev dependencies.
Iterable<PubspecDependency> get allDependencies sync* {
for (PubspecLine data in inputData) {
if (data is PubspecDependency && data.kind != DependencyKind.overridden && !data.isTransitive)
yield data;
}
}
/// Take a dependency graph with explicit version numbers, and apply them to
/// the pubspec.yaml, ignoring any that we know are special dependencies (those
/// that depend on the Flutter or Dart SDK directly and are thus automatically
/// pinned).
void apply(PubDependencyTree versions, Set<String> specialDependencies) {
assert(versions != null);
final List<String> output = <String>[]; // the string data to output to the file, line by line
final Set<String> directDependencies = new Set<String>(); // packages this pubspec directly depends on (i.e. not transitive)
final Set<String> devDependencies = new Set<String>();
Section section = Section.other; // the section we're currently handling
// the line number where we're going to insert the transitive dependencies.
int endOfDirectDependencies;
// The line number where we're going to insert the transitive dev dependencies.
int endOfDevDependencies;
// Walk the pre-parsed input file, outputting it unmodified except for
// updating version numbers, removing the old transitive dependencies lines,
// and adding our new transitive dependencies lines. We also do a little
// cleanup, removing trailing spaces, removing double-blank lines, leading
// blank lines, and trailing blank lines, and ensuring the file ends with a
// newline. This cleanup lets us be a little more aggressive while building
// the output.
for (PubspecLine data in inputData) {
if (data is PubspecHeader) {
// This line was a header of some sort.
//
// If we're leaving one of the sections in which we can list transitive
// dependencies, then remember this as the current last known valid
// place to insert our transitive dependencies.
if (section == Section.dependencies)
endOfDirectDependencies = output.length;
endOfDevDependencies = output.length;
if (section == Section.devDependencies)
endOfDevDependencies = output.length;
section = data.section; // track which section we're now in.
output.add(data.line); // insert the header into the output
} else if (data is PubspecDependency) {
// This was a dependency of some sort.
// How we handle this depends on the section.
switch (section) {
case Section.devDependencies:
case Section.dependencies:
// For the dependencies and dev_dependencies sections, we reinsert
// the dependency if it wasn't one of our autogenerated transitive
// dependency lines.
if (!data.isTransitive) {
// Assert that we haven't seen it in this file already.
assert(!directDependencies.contains(data.name) && !devDependencies.contains(data.name));
if (data.kind == DependencyKind.normal) {
// This is a regular dependency, so we need to update the
// version number.
//
// We output data that matches the format that
// PubspecDependency.parse can handle. The data.suffix is any
// previously-specified trailing comment.
assert(versions.contains(data.name));
output.add(' ${data.name}: ${versions.versionFor(data.name)}${data.suffix}');
} else {
// If it wasn't a regular dependency, then we output the line
// unmodified. If there was an additional line (e.g. an "sdk:
// flutter" line) then we output that too.
output.add(data.line);
if (data.lockLine != null)
output.add(data.lockLine);
}
// Remember that we've dealt with this dependency so we don't
// mention it again when doing the transitive dependencies.
if (section == Section.dependencies) {
directDependencies.add(data.name);
} else {
devDependencies.add(data.name);
}
}
// Since we're in one of the places where we can list dependencies,
// remember this as the current last known valid place to insert our
// transitive dev dependencies. If the section is for regular dependencies,
// then also rememeber the line for the end of direct dependencies.
if (section == Section.dependencies) {
endOfDirectDependencies = output.length;
}
endOfDevDependencies = output.length;
break;
default:
// In other sections, pass everything through in its original form.
output.add(data.line);
if (data.lockLine != null)
output.add(data.lockLine);
break;
}
} else {
// Not a header, not a dependency, just pass that through unmodified.
output.add(data.line);
}
}
// By this point we should know where to put our transitive dependencies.
// Only if there were no dependencies or dev_dependencies sections could
// we get here with these still null, and we should not have any such files
// in our repo.
assert(endOfDirectDependencies != null);
assert(endOfDevDependencies != null);
// Now include all the transitive dependencies and transitive dev dependencies.
// The blocks of text to insert for each dependency section.
final List<String> transitiveDependencyOutput = <String>[];
final List<String> transitiveDevDependencyOutput = <String>[];
// Which dependencies we need to handle for the transitive and dev dependency sections.
final Set<String> transitiveDependencies = new Set<String>();
final Set<String> transitiveDevDependencies = new Set<String>();
// Merge the lists of dependencies we've seen in this file from dependencies, dev dependencies,
// and the dependencies we know this file mentions that are already pinned
// (and which didn't get special processing above).
final Set<String> implied = new Set<String>.from(directDependencies)
..addAll(specialDependencies)
..addAll(devDependencies);
// Create a new set to hold the list of packages we've already processed, so
// that we don't redundantly process them multiple times.
final Set<String> done = new Set<String>();
for (String package in directDependencies)
transitiveDependencies.addAll(versions.getTransitiveDependenciesFor(package, seen: done, exclude: implied));
for (String package in devDependencies)
transitiveDevDependencies.addAll(versions.getTransitiveDependenciesFor(package, seen: done, exclude: implied));
// Sort each dependency block lexically so that we don't get noisy diffs when upgrading.
final List<String> transitiveDependenciesAsList = transitiveDependencies.toList()..sort();
final List<String> transitiveDevDependenciesAsList = transitiveDevDependencies.toList()..sort();
// Add a line for each transitive dependency and transitive dev dependency using our magic string to recognize them later.
for (String package in transitiveDependenciesAsList)
transitiveDependencyOutput.add(' $package: ${versions.versionFor(package)} $kTransitiveMagicString');
for (String package in transitiveDevDependenciesAsList)
transitiveDevDependencyOutput.add(' $package: ${versions.versionFor(package)} $kTransitiveMagicString');
// Build a sorted list of all dependencies for the checksum.
final Set<String> checksumDependencies = new Set<String>()
..addAll(directDependencies)
..addAll(devDependencies)
..addAll(transitiveDependenciesAsList)
..addAll(transitiveDevDependenciesAsList);
// Combine the package name with a version, if availible, and sort them.
final List<String> sortedChecksumDependencies = checksumDependencies
.where((String name) => !_ignoreForChecksum.contains(name))
.map((String name) => '$name${versions.versionFor(name) ?? ""}')
.toList()
..sort();
// Add a blank line before and after each section to keep the resulting output clean.
transitiveDependencyOutput
..insert(0, '')
..add('');
transitiveDevDependencyOutput
..insert(0, '')
..add('');
// Compute a new checksum from all sorted dependencies and their version and convert to a hex string.
final String checksumString = _computeChecksum(sortedChecksumDependencies).toRadixString(16);
// Insert the block of transitive dependency declarations into the output after [endOfDirectDependencies],
// and the blocks of transitive dev dependency declarations into the output after [lastPossiblePlace]. Finally,
// insert the [checksumString] at the very end.
output
..insertAll(endOfDevDependencies, transitiveDevDependencyOutput)
..insertAll(endOfDirectDependencies, transitiveDependencyOutput)
..add('')
..add('$kDependencyChecksum$checksumString');
// Remove trailing lines.
while (output.last.isEmpty)
output.removeLast();
// Output the result to the pubspec.yaml file, skipping leading and
// duplicate blank lines and removing trailing spaces.
final StringBuffer contents = new StringBuffer();
bool hadBlankLine = true;
for (String line in output) {
line = line.trimRight();
if (line == '') {
if (!hadBlankLine)
contents.writeln('');
hadBlankLine = true;
} else {
contents.writeln(line);
hadBlankLine = false;
}
}
file.writeAsStringSync(contents.toString());
}
}
/// This is the base class for the objects that represent lines in the
/// pubspec.yaml files.
class PubspecLine {
PubspecLine(this.line);
/// The raw line as we saw it in the original file. This is used so that we can
/// output the same line unmodified for the majority of lines.
final String line;
}
/// A checksum of the non autogenerated dependencies.
class PubspecChecksum extends PubspecLine {
PubspecChecksum(this.value, String line) : super(line);
/// The checksum value, computed using [hashValues] over the direct, dev,
/// and special dependencies sorted lexically.
///
/// If the line cannot be parsed, [value] will equal `-1`.
final int value;
/// Parses a [PubspecChecksum] from a line.
///
/// on a parse error, returns `-1` which could never come from the
/// hash function.
static PubspecChecksum parse(String line) {
final List<String> twoLines = line.split(kDependencyChecksum);
if (twoLines.length != 2) {
return new PubspecChecksum(-1, line);
}
final int value = int.parse(twoLines.last.trim(), radix: 16, onError: (String _) => -1);
return new PubspecChecksum(value, line);
}
}
/// A header, e.g. "dependencies:".
class PubspecHeader extends PubspecLine {
PubspecHeader(String line, this.section, { this.name, this.value }) : super(line);
/// The section of the pubspec where the parse [line] appears.
final Section section;
/// The name in the pubspec line providing a name/value pair, such as "name"
/// and "version".
///
/// Example:
///
/// The value of this field extracted from the following line is "version".
///
/// ```
/// version: 0.16.5
/// ```
final String name;
/// The value in the pubspec line providing a name/value pair, such as "name"
/// and "version".
///
/// Example:
///
/// The value of this field extracted from the following line is "0.16.5".
///
/// ```
/// version: 0.16.5
/// ```
final String value;
static PubspecHeader parse(String line) {
// We recognize any line that:
// * doesn't start with a space (i.e. is aligned on the left edge)
// * ignoring trailing spaces and comments, ends with a colon
// * has contents before the colon
// We also try to recognize which of the kinds of Sections it is
// by comparing those contents against known strings.
if (line.startsWith(' '))
return null;
final String strippedLine = _stripComments(line);
if (!strippedLine.contains(':') || strippedLine.length <= 1)
return null;
final List<String> parts = strippedLine.split(':');
final String sectionName = parts.first;
final String value = parts.last.trim();
switch (sectionName) {
case 'dependencies':
return new PubspecHeader(line, Section.dependencies);
case 'dev_dependencies':
return new PubspecHeader(line, Section.devDependencies);
case 'dependency_overrides':
return new PubspecHeader(line, Section.dependencyOverrides);
case 'name':
case 'version':
return new PubspecHeader(line, Section.header, name: sectionName, value: value);
default:
return new PubspecHeader(line, Section.other);
}
}
/// Returns the input after removing trailing spaces and anything after the
/// first "#".
static String _stripComments(String line) {
final int hashIndex = line.indexOf('#');
if (hashIndex < 0)
return line.trimRight();
return line.substring(0, hashIndex).trimRight();
}
}
/// A dependency, as represented by a line (or two) from a pubspec.yaml file.
class PubspecDependency extends PubspecLine {
PubspecDependency(String line, this.name, this.suffix, {
@required this.isTransitive,
DependencyKind kind,
this.version,
this.sourcePath,
}) : _kind = kind, super(line);
static PubspecDependency parse(String line, { @required String filename }) {
// We recognize any line that:
// * starts with exactly two spaces, no more or less
// * has some content, then a colon
//
// If we recognize the line, then we look to see if there's anything after
// the colon, ignoring comments. If there is, then this is a normal
// dependency, otherwise it's an unknown one.
//
// We also try and save the version string, if any. This is used to verify
// the checksum of package deps.
//
// We also look at the trailing comment, if any, to see if it is the magic
// string that identifies the line as a transitive dependency that we
// previously pinned, so we can ignore it.
//
// We remember the trailing comment, if any, so that we can reconstruct the
// line later. We forget the specified version range, if any.
if (line.length < 4 || line.startsWith(' ') || !line.startsWith(' '))
return null;
final int colonIndex = line.indexOf(':');
final int hashIndex = line.indexOf('#');
if (colonIndex < 3) // two spaces at 0 and 1, a character at 2
return null;
if (hashIndex >= 0 && hashIndex < colonIndex)
return null;
final String package = line.substring(2, colonIndex).trimRight();
assert(package.isNotEmpty);
assert(line.startsWith(' $package'));
String suffix = '';
bool isTransitive = false;
String stripped;
String version = '';
if (hashIndex >= 0) {
assert(hashIndex > colonIndex);
final String trailingComment = line.substring(hashIndex, line.length);
assert(line.endsWith(trailingComment));
isTransitive = trailingComment == kTransitiveMagicString;
suffix = ' ' + trailingComment;
stripped = line.substring(colonIndex + 1, hashIndex).trimRight();
} else {
stripped = line.substring(colonIndex + 1, line.length).trimRight();
}
if (colonIndex != -1) {
version = line.substring(colonIndex + 1, hashIndex != -1 ? hashIndex : line.length).trim();
}
return new PubspecDependency(line, package, suffix, isTransitive: isTransitive, version: version, kind: stripped.isEmpty ? DependencyKind.unknown : DependencyKind.normal, sourcePath: filename);
}
final String name; // the package name
final String suffix; // any trailing comment we found
final String version; // the version string if found, or blank.
final bool isTransitive; // whether the suffix matched kTransitiveMagicString
final String sourcePath; // the filename of the pubspec.yaml file, for error messages
bool isDevDependency; // Whether this dependency is under the `dev dependencies` section.
DependencyKind get kind => _kind;
DependencyKind _kind = DependencyKind.normal;
/// If we're a path or sdk dependency, the path or sdk in question.
String get lockTarget => _lockTarget;
String _lockTarget;
/// If we were a two-line dependency, the second line (see the inherited [line]
/// for the first).
String get lockLine => _lockLine;
String _lockLine;
/// If we're a path or sdk dependency, whether we were found in a
/// dependencies/dev_dependencies section, or a dependency_overrides section.
/// We track this so that we can put ourselves in the right section when
/// generating the fake pubspec.yaml.
bool get lockIsOverride => _lockIsOverride;
bool _lockIsOverride;
static const String _kPathPrefix = ' path: ';
static const String _kSdkPrefix = ' sdk: ';
static const String _kGitPrefix = ' git:';
/// Whether the dependency points to a package in the Flutter SDK.
///
/// There are two ways one can point to a Flutter package:
///
/// - Using a "sdk: flutter" dependency.
/// - Using a "path" dependency that points somewhere in the Flutter
/// repository other than the "bin" directory.
bool get pointsToSdk {
if (_kind == DependencyKind.sdk)
return true;
if (_kind == DependencyKind.path &&
!fs.path.isWithin(fs.path.join(Cache.flutterRoot, 'bin'), _lockTarget) &&
fs.path.isWithin(Cache.flutterRoot, _lockTarget))
return true;
return false;
}
/// If parse decided we were a two-line dependency, this is called to parse the second line.
/// We throw if we couldn't parse this line.
/// We return true if we parsed it and stored the line in lockLine.
/// We return false if we parsed it but want to forget the whole thing.
bool parseLock(String line, String pubspecPath, { @required bool lockIsOverride }) {
assert(lockIsOverride != null);
assert(kind == DependencyKind.unknown);
if (line.startsWith(_kPathPrefix)) {
// We're a path dependency; remember the (absolute) path.
_lockTarget = fs.path.absolute(fs.path.dirname(pubspecPath), line.substring(_kPathPrefix.length, line.length));
_kind = DependencyKind.path;
} else if (line.startsWith(_kSdkPrefix)) {
// We're an SDK dependency.
_lockTarget = line.substring(_kSdkPrefix.length, line.length);
_kind = DependencyKind.sdk;
} else if (line.startsWith(_kGitPrefix)) {
// We're a git: dependency. Return false so we'll be forgotten.
return false;
} else {
throw 'Could not parse additional details for dependency $name; line was: "$line"';
}
_lockIsOverride = lockIsOverride;
_lockLine = line;
return true;
}
void markOverridden(PubspecDependency sibling) {
// This is called when we find a dependency is mentioned a second time,
// first in dependencies/dev_dependencies, and then in dependency_overrides.
// It is called on the one found in dependencies/dev_dependencies, so that
// we'll later know to report our version as "any" in the fake pubspec.yaml
// and unmodified in the official pubspec.yamls.
assert(sibling.name == name);
assert(sibling.sourcePath == sourcePath);
assert(sibling.kind != DependencyKind.normal);
_kind = DependencyKind.overridden;
}
/// This generates the entry for this dependency for the pubspec.yaml for the
/// fake package that we'll use to get the version numbers figured out.
void describeForFakePubspec(StringBuffer dependencies, StringBuffer overrides) {
switch (kind) {
case DependencyKind.unknown:
case DependencyKind.overridden:
assert(kind != DependencyKind.unknown);
break;
case DependencyKind.normal:
dependencies.writeln(' $name: ${_kManuallyPinnedDependencies[name] ?? 'any'}');
break;
case DependencyKind.path:
if (_lockIsOverride) {
dependencies.writeln(' $name: any');
overrides.writeln(' $name:');
overrides.writeln(' path: $lockTarget');
} else {
dependencies.writeln(' $name:');
dependencies.writeln(' path: $lockTarget');
}
break;
case DependencyKind.sdk:
if (_lockIsOverride) {
dependencies.writeln(' $name: any');
overrides.writeln(' $name:');
overrides.writeln(' sdk: $lockTarget');
} else {
dependencies.writeln(' $name:');
dependencies.writeln(' sdk: $lockTarget');
}
break;
}
}
}
/// Generates the File object for the pubspec.yaml file of a given Directory.
File _pubspecFor(Directory directory) {
return fs.file('${directory.path}/pubspec.yaml');
}
/// Generates the source of a fake pubspec.yaml file given a list of
/// dependencies.
String _generateFakePubspec(Iterable<PubspecDependency> dependencies) {
if (_kManuallyPinnedDependencies.isNotEmpty) {
final String hardCodedConstraints = _kManuallyPinnedDependencies.keys
.map((String packageName) {
return ' - $packageName: ${_kManuallyPinnedDependencies[packageName]}';
})
.join('\n');
printStatus(
'WARNING: the following packages use hard-coded version constraints:\n'
'$hardCodedConstraints',
);
}
final StringBuffer result = new StringBuffer();
final StringBuffer overrides = new StringBuffer();
result.writeln('name: flutter_update_packages');
result.writeln('dependencies:');
overrides.writeln('dependency_overrides:');
for (PubspecDependency dependency in dependencies)
if (!dependency.pointsToSdk)
dependency.describeForFakePubspec(result, overrides);
result.write(overrides.toString());
return result.toString();
}
/// This object tracks the output of a call to "pub deps --style=compact".
///
/// It ends up holding the full graph of dependencies, and the version number for
/// each one.
class PubDependencyTree {
final Map<String, String> _versions = <String, String>{};
final Map<String, Set<String>> _dependencyTree = <String, Set<String>>{};
/// Handles the output from "pub deps --style=compact".
///
/// That output is of this form:
///
/// ```
/// package_name 0.0.0
///
/// dependencies:
/// - analyzer 0.31.0-alpha.0 [watcher args package_config collection]
/// - archive 1.0.31 [crypto args path]
/// - args 0.13.7
/// - cli_util 0.1.2+1 [path]
///
/// dev dependencies:
/// - async 1.13.3 [collection]
/// - barback 0.15.2+11 [stack_trace source_span pool async collection path]
///
/// dependency overrides:
/// - analyzer 0.31.0-alpha.0 [watcher args package_config collection]
/// ```
///
/// We ignore all the lines that don't start with a hyphen. For each other
/// line, we ignore any line that mentions a package we've already seen (this
/// happens when the overrides section mentions something that was in the
/// dependencies section). We ignore if something is a dependency or
/// dev_dependency (pub won't use different versions for those two).
///
/// We then parse out the package name, version number, and subdependencies for
/// each entry, and store than in our _versions and _dependencyTree fields
/// above.
String fill(String message) {
if (message.startsWith('- ')) {
final int space2 = message.indexOf(' ', 2);
int space3 = message.indexOf(' ', space2 + 1);
if (space3 < 0)
space3 = message.length;
final String package = message.substring(2, space2);
if (!contains(package)) {
// Some packages get listed in the dependency overrides section too.
// We just ignore those. The data is the same either way.
final String version = message.substring(space2 + 1, space3);
List<String> dependencies;
if (space3 < message.length) {
assert(message[space3 + 1] == '[');
assert(message[message.length - 1] == ']');
final String allDependencies = message.substring(space3 + 2, message.length - 1);
dependencies = allDependencies.split(' ');
} else {
dependencies = const <String>[];
}
_versions[package] = version;
_dependencyTree[package] = new Set<String>.from(dependencies);
}
}
return null;
}
/// Whether we know about this package.
bool contains(String package) {
return _versions.containsKey(package);
}
/// The transitive closure of all the dependencies for the given package,
/// excluding any listen in `seen`.
Iterable<String> getTransitiveDependenciesFor(String package, {
@required Set<String> seen,
@required Set<String> exclude,
}) sync* {
assert(seen != null);
assert(exclude != null);
if (!_dependencyTree.containsKey(package)) {
// We have no transitive dependencies extracted for flutter_sdk packages
// because they were omitted from pubspec.yaml used for 'pub upgrade' run.
return;
}
for (String dependency in _dependencyTree[package]) {
if (!seen.contains(dependency)) {
if (!exclude.contains(dependency))
yield dependency;
seen.add(dependency);
yield* getTransitiveDependenciesFor(dependency, seen: seen, exclude: exclude);
}
}
}
/// The version that a particular package ended up with.
String versionFor(String package) {
return _versions[package];
}
}
// Produces a 16-bit checksum from the codePoints of the package name and
// version strings using Fletcher's algorithm.
int _computeChecksum(List<String> values) {
int lowerCheck = 0;
int upperCheck = 0;
for (String value in values) {
// Each code unit is 16 bits.
for (int codeUnit in value.codeUnits) {
final int upper = codeUnit >> 8;
final int lower = codeUnit & 0xFF;
lowerCheck = (lowerCheck + upper) % 255;
upperCheck = (upperCheck + lowerCheck) % 255;
lowerCheck = (lowerCheck + lower) % 255;
upperCheck = (upperCheck + lowerCheck) % 255;
}
}
return (upperCheck << 8) | lowerCheck;
}
// The exact versioning is tricky to figure out for these, but the packages aren't
// frequently added or removed by users - it should be okay.
const List<String> _ignoreForChecksum = const <String>[
'analyzer',
'flutter',
'flutter_test',
'flutter_tools',
'flutter_driver',
'flutter_localizations',
'front_end',
'kernel',
'sky_engine',
];