private <M> void serializeMetadata(
ScriptSource scriptSource,
CompileOperation<M> extractingTransformer,
File metadataDir,
boolean emptyScript,
boolean hasMethods) {
File metadataFile = new File(metadataDir, METADATA_FILE_NAME);
try {
GFileUtils.mkdirs(metadataDir);
KryoBackedEncoder encoder = new KryoBackedEncoder(new FileOutputStream(metadataFile));
try {
byte flags = (byte) ((emptyScript ? EMPTY_FLAG : 0) | (hasMethods ? HAS_METHODS_FLAG : 0));
encoder.writeByte(flags);
if (extractingTransformer != null && extractingTransformer.getDataSerializer() != null) {
Serializer<M> serializer = extractingTransformer.getDataSerializer();
serializer.write(encoder, extractingTransformer.getExtractedData());
}
} finally {
encoder.close();
}
} catch (Exception e) {
throw new GradleException(
String.format(
"Failed to serialize script metadata extracted for %s",
scriptSource.getDisplayName()),
e);
}
}
@Override
public void compileToDir(
ScriptSource source,
ClassLoader classLoader,
File classesDir,
File metadataDir,
CompileOperation<?> extractingTransformer,
Class<? extends Script> scriptBaseClass,
Action<? super ClassNode> verifier) {
Clock clock = new Clock();
GFileUtils.deleteDirectory(classesDir);
GFileUtils.mkdirs(classesDir);
CompilerConfiguration configuration = createBaseCompilerConfiguration(scriptBaseClass);
configuration.setTargetDirectory(classesDir);
try {
compileScript(
source,
classLoader,
configuration,
classesDir,
metadataDir,
extractingTransformer,
verifier);
} catch (GradleException e) {
GFileUtils.deleteDirectory(classesDir);
GFileUtils.deleteDirectory(metadataDir);
throw e;
}
logger.debug(
"Timing: Writing script to cache at {} took: {}",
classesDir.getAbsolutePath(),
clock.getTime());
}
public DefaultFileLock(
File target, LockMode mode, String displayName, String operationDisplayName)
throws Throwable {
if (mode == LockMode.None) {
throw new UnsupportedOperationException("Locking mode None is not supported.");
}
this.target = target;
this.displayName = displayName;
this.operationDisplayName = operationDisplayName;
if (target.isDirectory()) {
lockFile = new File(target, target.getName() + ".lock");
} else {
lockFile = new File(target.getParentFile(), target.getName() + ".lock");
}
GFileUtils.mkdirs(lockFile.getParentFile());
lockFile.createNewFile();
lockFileAccess = new RandomAccessFile(lockFile, "rw");
try {
lock = lock(mode);
integrityViolated = !getUnlockedCleanly();
} catch (Throwable t) {
// Also releases any locks
lockFileAccess.close();
throw t;
}
this.mode = lock.isShared() ? LockMode.Shared : LockMode.Exclusive;
}
public WorkResult execute(CommandLineToolInvocation invocation) {
ExecAction compiler = execActionFactory.newExecAction();
compiler.executable(executable);
if (invocation.getWorkDirectory() != null) {
GFileUtils.mkdirs(invocation.getWorkDirectory());
compiler.workingDir(invocation.getWorkDirectory());
}
compiler.args(invocation.getArgs());
if (!invocation.getPath().isEmpty()) {
String pathVar = OperatingSystem.current().getPathVar();
String compilerPath = Joiner.on(File.pathSeparator).join(invocation.getPath());
compilerPath = compilerPath + File.pathSeparator + System.getenv(pathVar);
compiler.environment(pathVar, compilerPath);
}
compiler.environment(invocation.getEnvironment());
try {
compiler.execute();
} catch (ExecException e) {
throw new GradleException(
String.format("%s failed; see the error output for details.", action), e);
}
return new SimpleWorkResult(true);
}
public DefaultPersistentDirectoryStore open() {
GFileUtils.mkdirs(dir);
cacheAccess = createCacheAccess();
try {
cacheAccess.open(lockOptions);
} catch (Throwable e) {
throw new CacheOpenException(String.format("Could not open %s.", this), e);
}
return this;
}
public <E> PersistentStateCache<E> openStateCache(
File cacheDir,
CacheUsage usage,
CacheValidator validator,
Map<String, ?> properties,
FileLockManager.LockMode lockMode,
Serializer<E> serializer) {
GFileUtils.mkdirs(cacheDir);
return new SimpleStateCache<E>(
new File(cacheDir, "state.bin"), new NoOpFileLock(), new DefaultSerializer<E>());
}
public PersistentCache open(
File cacheDir,
String displayName,
CacheUsage usage,
CacheValidator cacheValidator,
Map<String, ?> properties,
FileLockManager.LockMode lockMode,
Action<? super PersistentCache> initializer) {
GFileUtils.mkdirs(cacheDir);
InMemoryCache cache = new InMemoryCache(cacheDir);
if (initializer != null) {
initializer.execute(cache);
}
return cache;
}
protected void transformArgs(List<String> input, List<String> output, File tempDir) {
GFileUtils.mkdirs(tempDir);
File optionsFile = new File(tempDir, "options.txt");
try {
PrintWriter writer = new PrintWriter(optionsFile);
try {
ArgWriter argWriter = argWriterFactory.transform(writer);
argWriter.args(input);
} finally {
IOUtils.closeQuietly(writer);
}
} catch (IOException e) {
throw new UncheckedIOException(
String.format(
"Could not write compiler options file '%s'.", optionsFile.getAbsolutePath()),
e);
}
output.add(String.format("@%s", optionsFile.getAbsolutePath()));
}
private DaemonStartupInfo startProcess(List<String> args, File workingDir, InputStream stdInput) {
LOGGER.info("Starting daemon process: workingDir = {}, daemonArgs: {}", workingDir, args);
Clock clock = new Clock();
try {
GFileUtils.mkdirs(workingDir);
DaemonOutputConsumer outputConsumer = new DaemonOutputConsumer(stdInput);
ExecHandle handle = new DaemonExecHandleBuilder().build(args, workingDir, outputConsumer);
handle.start();
LOGGER.debug("Gradle daemon process is starting. Waiting for the daemon to detach...");
handle.waitForFinish();
LOGGER.debug("Gradle daemon process is now detached.");
return daemonGreeter.parseDaemonOutput(outputConsumer.getProcessOutput());
} catch (GradleException e) {
throw e;
} catch (Exception e) {
throw new GradleException("Could not start Gradle daemon.", e);
} finally {
LOGGER.info("An attempt to start the daemon took {}.", clock.getTime());
}
}
