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bazel / bazel / 88cdc9438eb33a3d93d57e16e825568668cdd385 / . / src / main / java / com / google / devtools / build / lib / runtime / BlazeRuntime.java
blob: 92fa8ffaabd1843bd0ea9f92dab6171dd221ed0a [file] [log] [blame]
// Copyright 2014 The Bazel Authors. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package com.google.devtools.build.lib.runtime;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.Preconditions;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.ImmutableSet;
import com.google.common.collect.Lists;
import com.google.common.eventbus.SubscriberExceptionContext;
import com.google.common.eventbus.SubscriberExceptionHandler;
import com.google.common.util.concurrent.Futures;
import com.google.common.util.concurrent.Uninterruptibles;
import com.google.devtools.build.lib.actions.ActionKeyContext;
import com.google.devtools.build.lib.analysis.BlazeDirectories;
import com.google.devtools.build.lib.analysis.BlazeVersionInfo;
import com.google.devtools.build.lib.analysis.ConfiguredRuleClassProvider;
import com.google.devtools.build.lib.analysis.ServerDirectories;
import com.google.devtools.build.lib.analysis.config.BuildOptions;
import com.google.devtools.build.lib.analysis.config.ConfigurationFragmentFactory;
import com.google.devtools.build.lib.analysis.test.CoverageReportActionFactory;
import com.google.devtools.build.lib.bugreport.BugReport;
import com.google.devtools.build.lib.clock.BlazeClock;
import com.google.devtools.build.lib.clock.Clock;
import com.google.devtools.build.lib.events.Event;
import com.google.devtools.build.lib.events.EventHandler;
import com.google.devtools.build.lib.events.OutputFilter;
import com.google.devtools.build.lib.exec.BinTools;
import com.google.devtools.build.lib.packages.Package;
import com.google.devtools.build.lib.packages.PackageFactory;
import com.google.devtools.build.lib.packages.RuleClassProvider;
import com.google.devtools.build.lib.profiler.AutoProfiler;
import com.google.devtools.build.lib.profiler.MemoryProfiler;
import com.google.devtools.build.lib.profiler.ProfilePhase;
import com.google.devtools.build.lib.profiler.Profiler;
import com.google.devtools.build.lib.profiler.Profiler.Format;
import com.google.devtools.build.lib.profiler.ProfilerTask;
import com.google.devtools.build.lib.profiler.SilentCloseable;
import com.google.devtools.build.lib.query2.AbstractBlazeQueryEnvironment;
import com.google.devtools.build.lib.query2.QueryEnvironmentFactory;
import com.google.devtools.build.lib.query2.engine.QueryEnvironment.QueryFunction;
import com.google.devtools.build.lib.query2.output.OutputFormatter;
import com.google.devtools.build.lib.runtime.BlazeCommandDispatcher.LockingMode;
import com.google.devtools.build.lib.runtime.commands.InfoItem;
import com.google.devtools.build.lib.runtime.proto.InvocationPolicyOuterClass.InvocationPolicy;
import com.google.devtools.build.lib.server.CommandProtos.EnvironmentVariable;
import com.google.devtools.build.lib.server.CommandProtos.ExecRequest;
import com.google.devtools.build.lib.server.RPCServer;
import com.google.devtools.build.lib.server.signal.InterruptSignalHandler;
import com.google.devtools.build.lib.shell.JavaSubprocessFactory;
import com.google.devtools.build.lib.shell.SubprocessBuilder;
import com.google.devtools.build.lib.shell.SubprocessFactory;
import com.google.devtools.build.lib.unix.UnixFileSystem;
import com.google.devtools.build.lib.util.AbruptExitException;
import com.google.devtools.build.lib.util.CustomExitCodePublisher;
import com.google.devtools.build.lib.util.ExitCode;
import com.google.devtools.build.lib.util.LogHandlerQuerier;
import com.google.devtools.build.lib.util.LoggingUtil;
import com.google.devtools.build.lib.util.OS;
import com.google.devtools.build.lib.util.Pair;
import com.google.devtools.build.lib.util.ProcessUtils;
import com.google.devtools.build.lib.util.ThreadUtils;
import com.google.devtools.build.lib.util.io.OutErr;
import com.google.devtools.build.lib.vfs.DigestHashFunction.DefaultHashFunctionNotSetException;
import com.google.devtools.build.lib.vfs.FileSystem;
import com.google.devtools.build.lib.vfs.JavaIoFileSystem;
import com.google.devtools.build.lib.vfs.Path;
import com.google.devtools.build.lib.vfs.PathFragment;
import com.google.devtools.build.lib.windows.WindowsFileSystem;
import com.google.devtools.build.lib.windows.WindowsSubprocessFactory;
import com.google.devtools.common.options.CommandNameCache;
import com.google.devtools.common.options.InvocationPolicyParser;
import com.google.devtools.common.options.OptionDefinition;
import com.google.devtools.common.options.OptionPriority.PriorityCategory;
import com.google.devtools.common.options.OptionsBase;
import com.google.devtools.common.options.OptionsParser;
import com.google.devtools.common.options.OptionsParsingException;
import com.google.devtools.common.options.OptionsParsingResult;
import com.google.devtools.common.options.OptionsProvider;
import com.google.devtools.common.options.TriState;
import java.io.File;
import java.io.IOException;
import java.io.OutputStream;
import java.io.PrintStream;
import java.lang.reflect.Type;
import java.nio.charset.StandardCharsets;
import java.time.Duration;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Date;
import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.Optional;
import java.util.UUID;
import java.util.concurrent.Future;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.function.Function;
import java.util.logging.Handler;
import java.util.logging.Level;
import java.util.logging.LogRecord;
import java.util.logging.Logger;
import java.util.regex.Matcher;
import java.util.regex.Pattern;
import javax.annotation.Nullable;
/**
* The BlazeRuntime class encapsulates the immutable configuration of the current instance. These
* runtime settings and services are available to most parts of any Blaze application for the
* duration of the batch run or server lifetime.
*
* <p>The parts specific to the current command are stored in {@link CommandEnvironment}.
*/
public final class BlazeRuntime implements BugReport.BlazeRuntimeInterface {
private static final Pattern suppressFromLog =
Pattern.compile("--client_env=([^=]*(?:auth|pass|cookie)[^=]*)=", Pattern.CASE_INSENSITIVE);
private static final Logger logger = Logger.getLogger(BlazeRuntime.class.getName());
private final FileSystem fileSystem;
private final Iterable<BlazeModule> blazeModules;
private final Map<String, BlazeCommand> commandMap = new LinkedHashMap<>();
private final Clock clock;
private final Runnable abruptShutdownHandler;
private final PackageFactory packageFactory;
private final ImmutableList<ConfigurationFragmentFactory> configurationFragmentFactories;
private final ConfiguredRuleClassProvider ruleClassProvider;
// For bazel info.
private final ImmutableMap<String, InfoItem> infoItems;
// For bazel query.
private final QueryEnvironmentFactory queryEnvironmentFactory;
private final ImmutableList<QueryFunction> queryFunctions;
private final ImmutableList<OutputFormatter> queryOutputFormatters;
private final AtomicInteger storedExitCode = new AtomicInteger();
// We pass this through here to make it available to the MasterLogWriter.
private final OptionsParsingResult startupOptionsProvider;
private final ProjectFile.Provider projectFileProvider;
private final QueryRuntimeHelper.Factory queryRuntimeHelperFactory;
@Nullable private final InvocationPolicy moduleInvocationPolicy;
private final SubscriberExceptionHandler eventBusExceptionHandler;
private final String productName;
private final BuildEventArtifactUploaderFactoryMap buildEventArtifactUploaderFactoryMap;
private final ActionKeyContext actionKeyContext;
private final ImmutableMap<String, AuthHeadersProvider> authHeadersProviderMap;
// Workspace state (currently exactly one workspace per server)
private BlazeWorkspace workspace;
private BlazeRuntime(
FileSystem fileSystem,
QueryEnvironmentFactory queryEnvironmentFactory,
ImmutableList<QueryFunction> queryFunctions,
ImmutableList<OutputFormatter> queryOutputFormatters,
PackageFactory pkgFactory,
ConfiguredRuleClassProvider ruleClassProvider,
ImmutableList<ConfigurationFragmentFactory> configurationFragmentFactories,
ImmutableMap<String, InfoItem> infoItems,
ActionKeyContext actionKeyContext,
Clock clock,
Runnable abruptShutdownHandler,
OptionsParsingResult startupOptionsProvider,
Iterable<BlazeModule> blazeModules,
SubscriberExceptionHandler eventBusExceptionHandler,
ProjectFile.Provider projectFileProvider,
QueryRuntimeHelper.Factory queryRuntimeHelperFactory,
InvocationPolicy moduleInvocationPolicy,
Iterable<BlazeCommand> commands,
String productName,
BuildEventArtifactUploaderFactoryMap buildEventArtifactUploaderFactoryMap,
ImmutableMap<String, AuthHeadersProvider> authHeadersProviderMap) {
// Server state
this.fileSystem = fileSystem;
this.blazeModules = blazeModules;
overrideCommands(commands);
this.packageFactory = pkgFactory;
this.projectFileProvider = projectFileProvider;
this.queryRuntimeHelperFactory = queryRuntimeHelperFactory;
this.moduleInvocationPolicy = moduleInvocationPolicy;
this.ruleClassProvider = ruleClassProvider;
this.configurationFragmentFactories = configurationFragmentFactories;
this.infoItems = infoItems;
this.actionKeyContext = actionKeyContext;
this.clock = clock;
this.abruptShutdownHandler = abruptShutdownHandler;
this.startupOptionsProvider = startupOptionsProvider;
this.queryEnvironmentFactory = queryEnvironmentFactory;
this.queryFunctions = queryFunctions;
this.queryOutputFormatters = queryOutputFormatters;
this.eventBusExceptionHandler = eventBusExceptionHandler;
CommandNameCache.CommandNameCacheInstance.INSTANCE.setCommandNameCache(
new CommandNameCacheImpl(getCommandMap()));
this.productName = productName;
this.buildEventArtifactUploaderFactoryMap = buildEventArtifactUploaderFactoryMap;
this.authHeadersProviderMap =
Preconditions.checkNotNull(authHeadersProviderMap, "authHeadersProviderMap");
}
public BlazeWorkspace initWorkspace(BlazeDirectories directories, BinTools binTools)
throws AbruptExitException {
Preconditions.checkState(this.workspace == null);
WorkspaceBuilder builder = new WorkspaceBuilder(directories, binTools);
for (BlazeModule module : blazeModules) {
module.workspaceInit(this, directories, builder);
}
this.workspace =
builder.build(this, packageFactory, ruleClassProvider, eventBusExceptionHandler);
return workspace;
}
@Nullable public CoverageReportActionFactory getCoverageReportActionFactory(
OptionsProvider commandOptions) {
CoverageReportActionFactory firstFactory = null;
for (BlazeModule module : blazeModules) {
CoverageReportActionFactory factory = module.getCoverageReportFactory(commandOptions);
if (factory != null) {
Preconditions.checkState(
firstFactory == null, "only one Bazel Module can have a Coverage Report Factory");
firstFactory = factory;
}
}
return firstFactory;
}
/**
* Adds the given command under the given name to the map of commands.
*
* @throws AssertionError if the name is already used by another command.
*/
private void addCommand(BlazeCommand command) {
String name = command.getClass().getAnnotation(Command.class).name();
if (commandMap.containsKey(name)) {
throw new IllegalStateException("Command name or alias " + name + " is already used.");
}
commandMap.put(name, command);
}
final void overrideCommands(Iterable<BlazeCommand> commands) {
commandMap.clear();
for (BlazeCommand command : commands) {
addCommand(command);
}
}
@Nullable
public InvocationPolicy getModuleInvocationPolicy() {
return moduleInvocationPolicy;
}
/** Configure profiling based on the provided options. */
Path initProfiler(
EventHandler eventHandler,
BlazeWorkspace workspace,
CommonCommandOptions options,
UUID buildID,
long execStartTimeNanos,
long waitTimeInMs) {
OutputStream out = null;
boolean recordFullProfilerData = false;
ImmutableSet.Builder<ProfilerTask> profiledTasksBuilder = ImmutableSet.builder();
Profiler.Format format = Profiler.Format.BINARY_BAZEL_FORMAT;
Path profilePath = null;
try {
if (options.enableTracer) {
format =
options.enableTracerCompression
? Format.JSON_TRACE_FILE_COMPRESSED_FORMAT
: Profiler.Format.JSON_TRACE_FILE_FORMAT;
if (options.profilePath != null) {
profilePath = workspace.getWorkspace().getRelative(options.profilePath);
} else {
String profileName = "command.profile";
if (format == Format.JSON_TRACE_FILE_COMPRESSED_FORMAT) {
profileName = "command.profile.gz";
}
profilePath = workspace.getOutputBase().getRelative(profileName);
}
recordFullProfilerData = false;
out = profilePath.getOutputStream();
eventHandler.handle(Event.info("Writing tracer profile to '" + profilePath + "'"));
for (ProfilerTask profilerTask : ProfilerTask.values()) {
if (!profilerTask.isVfs()
// CRITICAL_PATH corresponds to writing the file.
&& profilerTask != ProfilerTask.CRITICAL_PATH
&& profilerTask != ProfilerTask.SKYFUNCTION
&& profilerTask != ProfilerTask.ACTION_COMPLETE
&& !profilerTask.isStarlark()) {
profiledTasksBuilder.add(profilerTask);
}
}
profiledTasksBuilder.addAll(options.additionalProfileTasks);
} else if (options.profilePath != null) {
profilePath = workspace.getWorkspace().getRelative(options.profilePath);
recordFullProfilerData = options.recordFullProfilerData;
out = profilePath.getOutputStream();
eventHandler.handle(Event.info("Writing profile data to '" + profilePath + "'"));
for (ProfilerTask profilerTask : ProfilerTask.values()) {
profiledTasksBuilder.add(profilerTask);
}
} else if (options.alwaysProfileSlowOperations) {
recordFullProfilerData = false;
out = null;
for (ProfilerTask profilerTask : ProfilerTask.values()) {
if (profilerTask.collectsSlowestInstances()) {
profiledTasksBuilder.add(profilerTask);
}
}
}
ImmutableSet<ProfilerTask> profiledTasks = profiledTasksBuilder.build();
if (!profiledTasks.isEmpty()) {
Profiler profiler = Profiler.instance();
profiler.start(
profiledTasks,
out,
format,
String.format(
"%s profile for %s at %s, build ID: %s",
getProductName(), workspace.getOutputBase(), new Date(), buildID),
recordFullProfilerData,
clock,
execStartTimeNanos,
options.enableCpuUsageProfiling,
options.enableJsonProfileDiet);
// Instead of logEvent() we're calling the low level function to pass the timings we took in
// the launcher. We're setting the INIT phase marker so that it follows immediately the
// LAUNCH phase.
long startupTimeNanos = options.startupTime * 1000000L;
long waitTimeNanos = waitTimeInMs * 1000000L;
long clientStartTimeNanos = execStartTimeNanos - startupTimeNanos - waitTimeNanos;
profiler.logSimpleTaskDuration(
clientStartTimeNanos,
Duration.ofNanos(startupTimeNanos),
ProfilerTask.PHASE,
ProfilePhase.LAUNCH.description);
if (options.extractDataTime > 0) {
profiler.logSimpleTaskDuration(
clientStartTimeNanos,
Duration.ofMillis(options.extractDataTime),
ProfilerTask.PHASE,
"Extracting Bazel binary");
}
if (options.waitTime > 0) {
profiler.logSimpleTaskDuration(
clientStartTimeNanos,
Duration.ofMillis(options.waitTime),
ProfilerTask.PHASE,
"Blocking on busy Bazel server (in client)");
}
if (waitTimeInMs > 0) {
profiler.logSimpleTaskDuration(
clientStartTimeNanos + startupTimeNanos,
Duration.ofMillis(waitTimeInMs),
ProfilerTask.PHASE,
"Blocking on busy Bazel server (in server)");
}
profiler.logSimpleTaskDuration(
execStartTimeNanos, Duration.ZERO, ProfilerTask.PHASE, ProfilePhase.INIT.description);
}
} catch (IOException e) {
eventHandler.handle(Event.error("Error while creating profile file: " + e.getMessage()));
}
return profilePath;
}
public FileSystem getFileSystem() {
return fileSystem;
}
public BlazeWorkspace getWorkspace() {
return workspace;
}
public ActionKeyContext getActionKeyContext() {
return actionKeyContext;
}
/**
* The directory in which blaze stores the server state - that is, the socket
* file and a log.
*/
private Path getServerDirectory() {
return getWorkspace().getDirectories().getOutputBase().getChild("server");
}
/**
* Returns the {@link QueryEnvironmentFactory} that should be used to create a
* {@link AbstractBlazeQueryEnvironment}, whenever one is needed.
*/
public QueryEnvironmentFactory getQueryEnvironmentFactory() {
return queryEnvironmentFactory;
}
public ImmutableList<QueryFunction> getQueryFunctions() {
return queryFunctions;
}
public ImmutableList<OutputFormatter> getQueryOutputFormatters() {
return queryOutputFormatters;
}
/**
* Returns the package factory.
*/
public PackageFactory getPackageFactory() {
return packageFactory;
}
/**
* Returns the rule class provider.
*/
public ConfiguredRuleClassProvider getRuleClassProvider() {
return ruleClassProvider;
}
public ImmutableMap<String, InfoItem> getInfoItems() {
return infoItems;
}
public Iterable<BlazeModule> getBlazeModules() {
return blazeModules;
}
public BuildOptions getDefaultBuildOptions() {
BuildOptions options = null;
for (BlazeModule module : blazeModules) {
BuildOptions optionsFromModule = module.getDefaultBuildOptions(this);
if (optionsFromModule != null) {
if (options == null) {
options = optionsFromModule;
} else {
throw new IllegalArgumentException(
"Two or more bazel modules contained default build options.");
}
}
}
if (options == null) {
throw new IllegalArgumentException("No default build options specified in any Bazel module");
}
return options;
}
@SuppressWarnings("unchecked")
public <T extends BlazeModule> T getBlazeModule(Class<T> moduleClass) {
for (BlazeModule module : blazeModules) {
if (module.getClass() == moduleClass) {
return (T) module;
}
}
return null;
}
public ImmutableList<ConfigurationFragmentFactory> getConfigurationFragmentFactories() {
return configurationFragmentFactories;
}
/**
* Returns a provider for project file objects. Can be null if no such provider was set by any of
* the modules.
*/
@Nullable
public ProjectFile.Provider getProjectFileProvider() {
return projectFileProvider;
}
public QueryRuntimeHelper.Factory getQueryRuntimeHelperFactory() {
return queryRuntimeHelperFactory;
}
/**
* Hook method called by the BlazeCommandDispatcher prior to the dispatch of
* each command.
*
* @param options The CommonCommandOptions used by every command.
* @throws AbruptExitException if this command is unsuitable to be run as specified
*/
void beforeCommand(CommandEnvironment env, CommonCommandOptions options)
throws AbruptExitException {
if (options.memoryProfilePath != null) {
Path memoryProfilePath = env.getWorkingDirectory().getRelative(options.memoryProfilePath);
MemoryProfiler.instance()
.setStableMemoryParameters(options.memoryProfileStableHeapParameters);
try {
MemoryProfiler.instance().start(memoryProfilePath.getOutputStream());
} catch (IOException e) {
env.getReporter().handle(
Event.error("Error while creating memory profile file: " + e.getMessage()));
}
}
// Initialize exit code to dummy value for afterCommand.
storedExitCode.set(ExitCode.RESERVED.getNumericExitCode());
}
/**
* Posts the {@link CommandCompleteEvent}, so that listeners can tidy up. Called by {@link
* #afterCommand}, and by BugReport when crashing from an exception in an async thread.
*/
@VisibleForTesting
public void notifyCommandComplete(int exitCode) {
if (!storedExitCode.compareAndSet(ExitCode.RESERVED.getNumericExitCode(), exitCode)) {
// This command has already been called, presumably because there is a race between the main
// thread and a worker thread that crashed. Don't try to arbitrate the dispute. If the main
// thread won the race (unlikely, but possible), this may be incorrectly logged as a success.
return;
}
workspace.getSkyframeExecutor().getEventBus().post(new CommandCompleteEvent(exitCode));
}
/**
* Hook method called by the BlazeCommandDispatcher after the dispatch of each command. Returns a
* new exit code in case exceptions were encountered during cleanup.
*/
@VisibleForTesting
public BlazeCommandResult afterCommand(CommandEnvironment env, BlazeCommandResult commandResult) {
// Remove any filters that the command might have added to the reporter.
env.getReporter().setOutputFilter(OutputFilter.OUTPUT_EVERYTHING);
BlazeCommandResult afterCommandResult = null;
for (BlazeModule module : blazeModules) {
try (SilentCloseable c = Profiler.instance().profile(module + ".afterCommand")) {
module.afterCommand();
} catch (AbruptExitException e) {
env.getReporter().handle(Event.error(e.getMessage()));
// It's not ideal but we can only return one exit code, so we just pick the code of the
// last exception.
afterCommandResult = BlazeCommandResult.exitCode(e.getExitCode());
}
}
env.getEventBus().post(new AfterCommandEvent());
// Wipe the dependency graph if requested. Note that this method always runs at the end of
// a commands unless the server crashes, in which case no inmemory state will linger for the
// next build anyway.
CommonCommandOptions commonOptions =
Preconditions.checkNotNull(env.getOptions().getOptions(CommonCommandOptions.class));
if (!commonOptions.keepStateAfterBuild) {
workspace.getSkyframeExecutor().resetEvaluator();
}
// Build-related commands already call this hook in BuildTool#stopRequest, but non-build
// commands might also need to notify the SkyframeExecutor. It's called in #stopRequest so that
// timing metrics for builds can be more accurate (since this call can be slow).
try {
workspace.getSkyframeExecutor().notifyCommandComplete(env.getReporter());
} catch (InterruptedException e) {
afterCommandResult = BlazeCommandResult.exitCode(ExitCode.INTERRUPTED);
Thread.currentThread().interrupt();
}
BlazeCommandResult finalCommandResult;
if (!commandResult.getExitCode().isInfrastructureFailure() && afterCommandResult != null) {
finalCommandResult = afterCommandResult;
} else {
finalCommandResult = commandResult;
}
notifyCommandComplete(finalCommandResult.getExitCode().getNumericExitCode());
env.getBlazeWorkspace().clearEventBus();
try {
Profiler.instance().stop();
MemoryProfiler.instance().stop();
} catch (IOException e) {
env.getReporter().handle(Event.error("Error while writing profile file: " + e.getMessage()));
}
for (BlazeModule module : blazeModules) {
module.commandComplete();
}
env.getReporter().clearEventBus();
actionKeyContext.clear();
flushServerLog();
return finalCommandResult;
}
/**
* Returns the path to the Blaze server INFO log.
*
* @return the path to the log or empty if the log is not yet open
* @throws IOException if the log location cannot be determined
*/
public Optional<Path> getServerLogPath() throws IOException {
LogHandlerQuerier logHandlerQuerier;
try {
logHandlerQuerier = LogHandlerQuerier.getConfiguredInstance();
} catch (IllegalStateException e) {
throw new IOException("Could not find a querier for server log location", e);
}
Optional<java.nio.file.Path> loggerFilePath;
try {
loggerFilePath = logHandlerQuerier.getLoggerFilePath(logger);
} catch (IllegalArgumentException e) {
throw new IOException("Could not query server log location", e);
}
return loggerFilePath.map((p) -> fileSystem.getPath(p.toAbsolutePath().toString()));
}
// Make sure we keep a strong reference to this logger, so that the
// configuration isn't lost when the gc kicks in.
private static Logger templateLogger = Logger.getLogger("com.google.devtools.build");
/**
* Configures "com.google.devtools.build.*" loggers to the given
* {@code level}. Note: This code relies on static state.
*/
public static void setupLogging(Level level) {
templateLogger.setLevel(level);
templateLogger.info("Log level: " + templateLogger.getLevel());
}
private void flushServerLog() {
for (Logger logger = templateLogger; logger != null; logger = logger.getParent()) {
for (Handler handler : logger.getHandlers()) {
if (handler != null) {
handler.flush();
}
}
}
}
/**
* Returns the Clock-instance used for the entire build. Before,
* individual classes (such as Profiler) used to specify the type
* of clock (e.g. EpochClock) they wanted to use. This made it
* difficult to get Blaze working on Windows as some of the clocks
* available for Linux aren't (directly) available on Windows.
* Setting the Blaze-wide clock upon construction of BlazeRuntime
* allows injecting whatever Clock instance should be used from
* BlazeMain.
*
* @return The Blaze-wide clock
*/
public Clock getClock() {
return clock;
}
public OptionsParsingResult getStartupOptionsProvider() {
return startupOptionsProvider;
}
public Map<String, BlazeCommand> getCommandMap() {
return commandMap;
}
/** Invokes {@link BlazeModule#blazeShutdown()} on all registered modules. */
public void shutdown() {
for (BlazeModule module : blazeModules) {
module.blazeShutdown();
}
}
public void prepareForAbruptShutdown() {
if (abruptShutdownHandler != null) {
abruptShutdownHandler.run();
}
}
/** Invokes {@link BlazeModule#blazeShutdownOnCrash()} on all registered modules. */
public void shutdownOnCrash() {
for (BlazeModule module : blazeModules) {
module.blazeShutdownOnCrash();
}
}
/**
* Creates a BuildOptions class for the given options taken from an optionsProvider.
*/
public BuildOptions createBuildOptions(OptionsProvider optionsProvider) {
return ruleClassProvider.createBuildOptions(optionsProvider);
}
/**
* An EventBus exception handler that will report the exception to a remote server, if a
* handler is registered.
*/
public static final class RemoteExceptionHandler implements SubscriberExceptionHandler {
@Override
public void handleException(Throwable exception, SubscriberExceptionContext context) {
logger.log(Level.SEVERE, "Failure in EventBus subscriber", exception);
LoggingUtil.logToRemote(Level.SEVERE, "Failure in EventBus subscriber.", exception);
}
}
/**
* An EventBus exception handler that will call BugReport.handleCrash exiting
* the current thread.
*/
public static final class BugReportingExceptionHandler implements SubscriberExceptionHandler {
@Override
public void handleException(Throwable exception, SubscriberExceptionContext context) {
BugReport.handleCrash(exception);
}
}
/**
* Main method for the Blaze server startup. Note: This method logs
* exceptions to remote servers. Do not add this to a unittest.
*/
public static void main(Iterable<Class<? extends BlazeModule>> moduleClasses, String[] args) {
setupUncaughtHandler(args);
List<BlazeModule> modules = createModules(moduleClasses);
// blaze.cc will put --batch first if the user set it.
if (args.length >= 1 && args[0].equals("--batch")) {
// Run Blaze in batch mode.
System.exit(batchMain(modules, args));
}
logger.info(
"Starting Bazel server with " + maybeGetPidString() + "args " + Arrays.toString(args));
try {
// Run Blaze in server mode.
System.exit(serverMain(modules, OutErr.SYSTEM_OUT_ERR, args));
} catch (RuntimeException | Error e) { // A definite bug...
BugReport.printBug(OutErr.SYSTEM_OUT_ERR, e);
BugReport.sendBugReport(e, Arrays.asList(args));
System.exit(ExitCode.BLAZE_INTERNAL_ERROR.getNumericExitCode());
throw e; // Shouldn't get here.
}
}
@VisibleForTesting
public static List<BlazeModule> createModules(
Iterable<Class<? extends BlazeModule>> moduleClasses) {
ImmutableList.Builder<BlazeModule> result = ImmutableList.builder();
for (Class<? extends BlazeModule> moduleClass : moduleClasses) {
try {
BlazeModule module = moduleClass.getConstructor().newInstance();
result.add(module);
} catch (Throwable e) {
throw new IllegalStateException("Cannot instantiate module " + moduleClass.getName(), e);
}
}
return result.build();
}
/**
* Generates a string form of a request to be written to the logs, filtering the user environment
* to remove anything that looks private. The current filter criteria removes any variable whose
* name includes "auth", "pass", or "cookie".
*
* @param requestStrings
* @return the filtered request to write to the log.
*/
public static String getRequestLogString(List<String> requestStrings) {
StringBuilder buf = new StringBuilder();
buf.append('[');
String sep = "";
Matcher m = suppressFromLog.matcher("");
for (String s : requestStrings) {
buf.append(sep);
m.reset(s);
if (m.lookingAt()) {
buf.append(m.group());
buf.append("__private_value_removed__");
} else {
buf.append(s);
}
sep = ", ";
}
buf.append(']');
return buf.toString();
}
/**
* Command line options split in to two parts: startup options and everything else.
*/
@VisibleForTesting
static class CommandLineOptions {
private final List<String> startupArgs;
private final List<String> otherArgs;
CommandLineOptions(List<String> startupArgs, List<String> otherArgs) {
this.startupArgs = ImmutableList.copyOf(startupArgs);
this.otherArgs = ImmutableList.copyOf(otherArgs);
}
public List<String> getStartupArgs() {
return startupArgs;
}
public List<String> getOtherArgs() {
return otherArgs;
}
}
/**
* Splits given options into two lists - arguments matching options defined in this class and
* everything else, while preserving order in each list.
*
* <p>Note that this method relies on the startup options always being in the
* <code>--flag=ARG</code> form (instead of <code>--flag ARG</code>). This is enforced by
* <code>GetArgumentArray()</code> in <code>blaze.cc</code> by reconstructing the startup
* options from their parsed versions instead of using <code>argv</code> verbatim.
*/
static CommandLineOptions splitStartupOptions(
Iterable<BlazeModule> modules, String... args) {
List<String> prefixes = new ArrayList<>();
List<OptionDefinition> startupOptions = Lists.newArrayList();
for (Class<? extends OptionsBase> defaultOptions
: BlazeCommandUtils.getStartupOptions(modules)) {
startupOptions.addAll(OptionsParser.getOptionDefinitions(defaultOptions));
}
for (OptionDefinition optionDefinition : startupOptions) {
Type optionType = optionDefinition.getField().getType();
prefixes.add("--" + optionDefinition.getOptionName());
if (optionType == boolean.class || optionType == TriState.class) {
prefixes.add("--no" + optionDefinition.getOptionName());
}
}
List<String> startupArgs = new ArrayList<>();
List<String> otherArgs = Lists.newArrayList(args);
for (Iterator<String> argi = otherArgs.iterator(); argi.hasNext(); ) {
String arg = argi.next();
if (!arg.startsWith("--")) {
break; // stop at command - all startup options would be specified before it.
}
for (String prefix : prefixes) {
if (arg.startsWith(prefix)) {
startupArgs.add(arg);
argi.remove();
break;
}
}
}
return new CommandLineOptions(startupArgs, otherArgs);
}
private static InterruptSignalHandler captureSigint() {
final Thread mainThread = Thread.currentThread();
final AtomicInteger numInterrupts = new AtomicInteger();
final Runnable interruptWatcher =
() -> {
int count = 0;
// Not an actual infinite loop because it's run in a daemon thread.
while (true) {
count++;
Uninterruptibles.sleepUninterruptibly(10, TimeUnit.SECONDS);
logger.warning("Slow interrupt number " + count + " in batch mode");
ThreadUtils.warnAboutSlowInterrupt();
}
};
return new InterruptSignalHandler() {
@Override
public void run() {
logger.info("User interrupt");
OutErr.SYSTEM_OUT_ERR.printErrLn("Bazel received an interrupt");
mainThread.interrupt();
int curNumInterrupts = numInterrupts.incrementAndGet();
if (curNumInterrupts == 1) {
Thread interruptWatcherThread = new Thread(interruptWatcher, "interrupt-watcher");
interruptWatcherThread.setDaemon(true);
interruptWatcherThread.start();
} else if (curNumInterrupts == 2) {
logger.warning("Second --batch interrupt: Reverting to JVM SIGINT handler");
uninstall();
}
}
};
}
/**
* A main method that runs blaze commands in batch mode. The return value indicates the desired
* exit status of the program.
*/
private static int batchMain(Iterable<BlazeModule> modules, String[] args) {
InterruptSignalHandler signalHandler = captureSigint();
CommandLineOptions commandLineOptions = splitStartupOptions(modules, args);
logger.info(
"Running Bazel in batch mode with "
+ maybeGetPidString()
+ "startup args "
+ commandLineOptions.getStartupArgs());
BlazeRuntime runtime;
InvocationPolicy policy;
try {
runtime = newRuntime(modules, commandLineOptions.getStartupArgs(), null);
policy = InvocationPolicyParser.parsePolicy(
runtime.getStartupOptionsProvider().getOptions(BlazeServerStartupOptions.class)
.invocationPolicy);
} catch (OptionsParsingException e) {
OutErr.SYSTEM_OUT_ERR.printErrLn(e.getMessage());
return ExitCode.COMMAND_LINE_ERROR.getNumericExitCode();
} catch (AbruptExitException e) {
OutErr.SYSTEM_OUT_ERR.printErrLn(e.getMessage());
return e.getExitCode().getNumericExitCode();
}
ImmutableList.Builder<Pair<String, String>> startupOptionsFromCommandLine =
ImmutableList.builder();
for (String option : commandLineOptions.getStartupArgs()) {
startupOptionsFromCommandLine.add(new Pair<>("", option));
}
BlazeCommandDispatcher dispatcher = new BlazeCommandDispatcher(runtime);
boolean shutdownDone = false;
try {
logger.info(getRequestLogString(commandLineOptions.getOtherArgs()));
BlazeCommandResult result = dispatcher.exec(
policy,
commandLineOptions.getOtherArgs(),
OutErr.SYSTEM_OUT_ERR,
LockingMode.ERROR_OUT,
"batch client",
runtime.getClock().currentTimeMillis(),
Optional.of(startupOptionsFromCommandLine.build()));
if (result.getExecRequest() == null) {
// Simple case: we are given an exit code
return result.getExitCode().getNumericExitCode();
}
// Not so simple case: we need to execute a binary on shutdown. exec() is not accessible from
// Java and is impossible on Windows in any case, so we just execute the binary after getting
// out of the way as completely as possible and forward its exit code.
// When this code is executed, no locks are held: the client lock is released by the client
// before it executes any command and the server lock is handled by BlazeCommandDispatcher,
// whose job is done by the time we get here.
runtime.shutdown();
dispatcher.shutdown();
shutdownDone = true;
signalHandler.uninstall();
ExecRequest request = result.getExecRequest();
String[] argv = new String[request.getArgvCount()];
for (int i = 0; i < argv.length; i++) {
argv[i] = request.getArgv(i).toString(StandardCharsets.ISO_8859_1);
}
String workingDirectory = request.getWorkingDirectory().toString(StandardCharsets.ISO_8859_1);
try {
ProcessBuilder process = new ProcessBuilder()
.command(argv)
.directory(new File(workingDirectory))
.inheritIO();
for (int i = 0; i < request.getEnvironmentVariableCount(); i++) {
EnvironmentVariable variable = request.getEnvironmentVariable(i);
process.environment().put(variable.getName().toString(StandardCharsets.ISO_8859_1),
variable.getValue().toString(StandardCharsets.ISO_8859_1));
}
return process.start().waitFor();
} catch (IOException e) {
// We are in batch mode, thus, stdout/stderr are the same as that of the client.
System.err.println("Cannot execute process for 'run' command: " + e.getMessage());
logger.log(Level.SEVERE, "Exception while executing binary from 'run' command", e);
return ExitCode.LOCAL_ENVIRONMENTAL_ERROR.getNumericExitCode();
}
} catch (InterruptedException e) {
// This is almost main(), so it's okay to just swallow it. We are exiting soon.
return ExitCode.INTERRUPTED.getNumericExitCode();
} finally {
if (!shutdownDone) {
runtime.shutdown();
dispatcher.shutdown();
}
}
}
/**
* A main method that does not send email. The return value indicates the desired exit status of
* the program.
*/
private static int serverMain(Iterable<BlazeModule> modules, OutErr outErr, String[] args) {
InterruptSignalHandler sigintHandler = null;
try {
final RPCServer[] rpcServer = new RPCServer[1];
Runnable prepareForAbruptShutdown = () -> rpcServer[0].prepareForAbruptShutdown();
BlazeRuntime runtime = newRuntime(modules, Arrays.asList(args), prepareForAbruptShutdown);
BlazeCommandDispatcher dispatcher = new BlazeCommandDispatcher(runtime);
BlazeServerStartupOptions startupOptions =
runtime.getStartupOptionsProvider().getOptions(BlazeServerStartupOptions.class);
try {
// This is necessary so that Bazel kind of works during bootstrapping, at which time the
// gRPC server is not compiled in so that we don't need gRPC for bootstrapping.
Class<?> factoryClass = Class.forName(
"com.google.devtools.build.lib.server.GrpcServerImpl$Factory");
RPCServer.Factory factory = (RPCServer.Factory) factoryClass.getConstructor().newInstance();
rpcServer[0] =
factory.create(
dispatcher,
runtime.getClock(),
startupOptions.commandPort,
runtime.getServerDirectory(),
startupOptions.maxIdleSeconds,
startupOptions.shutdownOnLowSysMem,
startupOptions.idleServerTasks);
} catch (ReflectiveOperationException | IllegalArgumentException e) {
throw new AbruptExitException(
"gRPC server not compiled in", ExitCode.BLAZE_INTERNAL_ERROR, e);
}
// Register the signal handler.
sigintHandler =
new InterruptSignalHandler() {
@Override
public void run() {
logger.severe("User interrupt");
rpcServer[0].interrupt();
}
};
rpcServer[0].serve();
runtime.shutdown();
dispatcher.shutdown();
return ExitCode.SUCCESS.getNumericExitCode();
} catch (OptionsParsingException e) {
outErr.printErrLn(e.getMessage());
return ExitCode.COMMAND_LINE_ERROR.getNumericExitCode();
} catch (IOException e) {
outErr.printErrLn("I/O Error: " + e.getMessage());
return ExitCode.BUILD_FAILURE.getNumericExitCode();
} catch (AbruptExitException e) {
outErr.printErrLn(e.getMessage());
e.printStackTrace(new PrintStream(outErr.getErrorStream(), true));
return e.getExitCode().getNumericExitCode();
} finally {
if (sigintHandler != null) {
sigintHandler.uninstall();
}
}
}
private static FileSystem defaultFileSystemImplementation()
throws DefaultHashFunctionNotSetException {
if ("0".equals(System.getProperty("io.bazel.EnableJni"))) {
// Ignore UnixFileSystem, to be used for bootstrapping.
return OS.getCurrent() == OS.WINDOWS ? new WindowsFileSystem() : new JavaIoFileSystem();
}
// The JNI-based UnixFileSystem is faster, but on Windows it is not available.
return OS.getCurrent() == OS.WINDOWS ? new WindowsFileSystem() : new UnixFileSystem();
}
private static SubprocessFactory subprocessFactoryImplementation(
BlazeServerStartupOptions startupOptions) {
if (!"0".equals(System.getProperty("io.bazel.EnableJni")) && OS.getCurrent() == OS.WINDOWS) {
return new WindowsSubprocessFactory(startupOptions.windowsStyleArgEscaping);
} else {
return JavaSubprocessFactory.INSTANCE;
}
}
/**
* Parses the command line arguments into a {@link OptionsParser} object.
*
* <p>This function needs to parse the --option_sources option manually so that the real option
* parser can set the source for every option correctly. If that cannot be parsed or is missing,
* we just report an unknown source for every startup option.
*/
private static OptionsParsingResult parseStartupOptions(
Iterable<BlazeModule> modules, List<String> args) throws OptionsParsingException {
ImmutableList<Class<? extends OptionsBase>> optionClasses =
BlazeCommandUtils.getStartupOptions(modules);
// First parse the command line so that we get the option_sources argument
OptionsParser parser = OptionsParser.newOptionsParser(optionClasses);
parser.setAllowResidue(false);
parser.parse(PriorityCategory.COMMAND_LINE, null, args);
Map<String, String> optionSources =
parser.getOptions(BlazeServerStartupOptions.class).optionSources;
Function<OptionDefinition, String> sourceFunction =
option ->
!optionSources.containsKey(option.getOptionName())
? "default"
: optionSources.get(option.getOptionName()).isEmpty()
? "command line"
: optionSources.get(option.getOptionName());
// Then parse the command line again, this time with the correct option sources
parser = OptionsParser.newOptionsParser(optionClasses);
parser.setAllowResidue(false);
parser.parseWithSourceFunction(PriorityCategory.COMMAND_LINE, sourceFunction, args);
return parser;
}
/**
* Creates a new blaze runtime, given the install and output base directories.
*
* <p>Note: This method can and should only be called once per startup, as it also creates the
* filesystem object that will be used for the runtime. So it should only ever be called from the
* main method of the Blaze program.
*
* @param args Blaze startup options.
*
* @return a new BlazeRuntime instance initialized with the given filesystem and directories, and
* an error string that, if not null, describes a fatal initialization failure that makes
* this runtime unsuitable for real commands
*/
private static BlazeRuntime newRuntime(Iterable<BlazeModule> blazeModules, List<String> args,
Runnable abruptShutdownHandler)
throws AbruptExitException, OptionsParsingException {
OptionsParsingResult options = parseStartupOptions(blazeModules, args);
for (BlazeModule module : blazeModules) {
module.globalInit(options);
}
BlazeServerStartupOptions startupOptions = options.getOptions(BlazeServerStartupOptions.class);
String productName = startupOptions.productName.toLowerCase(Locale.US);
PathFragment workspaceDirectory = startupOptions.workspaceDirectory;
PathFragment defaultSystemJavabase = startupOptions.defaultSystemJavabase;
PathFragment outputUserRoot = startupOptions.outputUserRoot;
PathFragment installBase = startupOptions.installBase;
PathFragment outputBase = startupOptions.outputBase;
maybeForceJNIByGettingPid(installBase); // Must be before first use of JNI.
// From the point of view of the Java program --install_base, --output_base, and
// --output_user_root are mandatory options, despite the comment in their declarations.
if (installBase == null || !installBase.isAbsolute()) { // (includes "" default case)
throw new IllegalArgumentException(
"Bad --install_base option specified: '" + installBase + "'");
}
if (outputUserRoot != null && !outputUserRoot.isAbsolute()) { // (includes "" default case)
throw new IllegalArgumentException(
"Bad --output_user_root option specified: '" + outputUserRoot + "'");
}
if (outputBase != null && !outputBase.isAbsolute()) { // (includes "" default case)
throw new IllegalArgumentException(
"Bad --output_base option specified: '" + outputBase + "'");
}
FileSystem fs = null;
Path execRootBasePath = null;
try {
for (BlazeModule module : blazeModules) {
BlazeModule.ModuleFileSystem moduleFs =
module.getFileSystem(options, outputBase.getRelative(ServerDirectories.EXECROOT));
if (moduleFs != null) {
execRootBasePath = moduleFs.virtualExecRootBase();
Preconditions.checkState(fs == null, "more than one module returns a file system");
fs = moduleFs.fileSystem();
}
}
if (fs == null) {
fs = defaultFileSystemImplementation();
}
} catch (DefaultHashFunctionNotSetException e) {
throw new AbruptExitException(
"No module set the default hash function.", ExitCode.BLAZE_INTERNAL_ERROR, e);
}
Path.setFileSystemForSerialization(fs);
SubprocessBuilder.setDefaultSubprocessFactory(subprocessFactoryImplementation(startupOptions));
Path outputUserRootPath = fs.getPath(outputUserRoot);
Path installBasePath = fs.getPath(installBase);
Path outputBasePath = fs.getPath(outputBase);
if (execRootBasePath == null) {
execRootBasePath = outputBasePath.getRelative(ServerDirectories.EXECROOT);
}
Path workspaceDirectoryPath = null;
if (!workspaceDirectory.equals(PathFragment.EMPTY_FRAGMENT)) {
workspaceDirectoryPath = fs.getPath(workspaceDirectory);
}
Path defaultSystemJavabasePath = null;
if (!defaultSystemJavabase.equals(PathFragment.EMPTY_FRAGMENT)) {
defaultSystemJavabasePath = fs.getPath(defaultSystemJavabase);
}
ServerDirectories serverDirectories =
new ServerDirectories(
installBasePath,
outputBasePath,
outputUserRootPath,
execRootBasePath,
startupOptions.installMD5);
Clock clock = BlazeClock.instance();
BlazeRuntime.Builder runtimeBuilder =
new BlazeRuntime.Builder()
.setProductName(productName)
.setFileSystem(fs)
.setServerDirectories(serverDirectories)
.setActionKeyContext(new ActionKeyContext())
.setStartupOptionsProvider(options)
.setClock(clock)
.setAbruptShutdownHandler(abruptShutdownHandler)
// TODO(bazel-team): Make BugReportingExceptionHandler the default.
// See bug "Make exceptions in EventBus subscribers fatal"
.setEventBusExceptionHandler(
startupOptions.fatalEventBusExceptions
|| !BlazeVersionInfo.instance().isReleasedBlaze()
? new BlazeRuntime.BugReportingExceptionHandler()
: new BlazeRuntime.RemoteExceptionHandler());
if (System.getenv("TEST_TMPDIR") != null
&& System.getenv("NO_CRASH_ON_LOGGING_IN_TEST") == null) {
LoggingUtil.installRemoteLogger(getTestCrashLogger());
}
// This module needs to be registered before any module providing a SpawnCache implementation.
runtimeBuilder.addBlazeModule(new NoSpawnCacheModule());
runtimeBuilder.addBlazeModule(new CommandLogModule());
for (BlazeModule blazeModule : blazeModules) {
runtimeBuilder.addBlazeModule(blazeModule);
}
BlazeRuntime runtime = runtimeBuilder.build();
CustomExitCodePublisher.setAbruptExitStatusFileDir(
serverDirectories.getOutputBase().getPathString());
// Most static initializers for @SkylarkSignature-containing classes have already run by this
// point, but this will pick up the stragglers.
initSkylarkBuiltinsRegistry();
AutoProfiler.setClock(runtime.getClock());
BugReport.setRuntime(runtime);
BlazeDirectories directories =
new BlazeDirectories(
serverDirectories, workspaceDirectoryPath, defaultSystemJavabasePath, productName);
BinTools binTools;
try {
binTools = BinTools.forProduction(directories);
} catch (IOException e) {
throw new AbruptExitException(
"Cannot enumerate embedded binaries: " + e.getMessage(),
ExitCode.LOCAL_ENVIRONMENTAL_ERROR);
}
// Keep this line last in this method, so that all other initialization is available to it.
runtime.initWorkspace(directories, binTools);
return runtime;
}
/**
* Configures the Skylark builtins registry.
*
* <p>Any class containing {@link SkylarkSignature}-annotated fields should call
* {@link SkylarkSignatureProcessor#configureSkylarkFunctions} on itself. This serves two
* purposes: 1) it initializes those fields for use, and 2) it registers them with the Skylark
* builtins registry object
* ({@link com.google.devtools.build.lib.syntax.Runtime#getBuiltinRegistry}). Unfortunately
* there's some technical debt here: The registry object is static and the registration occurs
* inside static initializer blocks.
*
* <p>The registry supports concurrent read/write access, but read access is not actually
* efficient (lockless) until write access is disallowed by calling its
* {@link com.google.devtools.build.lib.syntax.Runtime.BuiltinRegistry#freeze freeze} method.
* We want to freeze before the build begins, but not before all classes have had a chance to run
* their static initializers.
*
* <p>Therefore, this method first ensures that the initializers have run, and then explicitly
* freezes the registry. It ensures initialization by calling a no-op static method on the class.
* Only classes whose initializers have been observed to cause {@code BuiltinRegistry} to throw an
* exception need to be included here, since that indicates that their initialization did not
* happen by this point in time.
*
* <p>Unit tests don't need to worry about registry freeze exceptions, since the registry isn't
* frozen at all for them. They just pay the cost of extra synchronization on every access.
*/
private static void initSkylarkBuiltinsRegistry() {
// Currently no classes need to be initialized here. The hook's still here because it's
// possible it may be needed again in the future.
com.google.devtools.build.lib.syntax.Runtime.getBuiltinRegistry().freeze();
}
private static String maybeGetPidString() {
Integer pid = maybeForceJNIByGettingPid(null);
return pid == null ? "" : "pid " + pid + " and ";
}
/** Loads JNI libraries, if necessary under the current platform. */
@Nullable
private static Integer maybeForceJNIByGettingPid(@Nullable PathFragment installBase) {
return jniLibsAvailable() ? getPidUsingJNI(installBase) : null;
}
private static boolean jniLibsAvailable() {
return !"0".equals(System.getProperty("io.bazel.EnableJni"));
}
// Force JNI linking at a moment when we have 'installBase' handy, and print
// an informative error if it fails.
private static int getPidUsingJNI(@Nullable PathFragment installBase) {
try {
return ProcessUtils.getpid(); // force JNI initialization
} catch (UnsatisfiedLinkError t) {
System.err.println(
"JNI initialization failed: "
+ t.getMessage()
+ ". "
+ "Possibly your installation has been corrupted"
+ (installBase == null
? ""
: "; if this problem persists, try 'rm -fr " + installBase + "'")
+ ".");
throw t;
}
}
/**
* Returns a logger that crashes as soon as it's written to, since tests should not cause events
* that would be logged.
*/
@VisibleForTesting
public static Future<Logger> getTestCrashLogger() {
Logger crashLogger = Logger.getAnonymousLogger();
crashLogger.addHandler(
new Handler() {
@Override
public void publish(LogRecord record) {
System.err.println("Remote logging disabled for testing, forcing abrupt shutdown.");
System.err.printf("%s#%s: %s\n",
record.getSourceClassName(),
record.getSourceMethodName(),
record.getMessage());
Throwable e = record.getThrown();
if (e != null) {
e.printStackTrace();
}
Runtime.getRuntime().halt(ExitCode.BLAZE_INTERNAL_ERROR.getNumericExitCode());
}
@Override
public void flush() {
throw new IllegalStateException();
}
@Override
public void close() {
throw new IllegalStateException();
}
});
return Futures.immediateFuture(crashLogger);
}
/**
* Make sure async threads cannot be orphaned. This method makes sure bugs are reported to
* telemetry and the proper exit code is reported.
*/
private static void setupUncaughtHandler(final String[] args) {
Thread.setDefaultUncaughtExceptionHandler(
(thread, throwable) -> BugReport.handleCrash(throwable, args));
}
public String getProductName() {
return productName;
}
public BuildEventArtifactUploaderFactoryMap getBuildEventArtifactUploaderFactoryMap() {
return buildEventArtifactUploaderFactoryMap;
}
/** Returns a map of all registered {@link AuthHeadersProvider}s. */
public ImmutableMap<String, AuthHeadersProvider> getAuthHeadersProvidersMap() {
return authHeadersProviderMap;
}
/**
* A builder for {@link BlazeRuntime} objects. The only required fields are the {@link
* BlazeDirectories}, and the {@link RuleClassProvider} (except for testing). All other fields
* have safe default values.
*
* <p>The default behavior of the BlazeRuntime's EventBus is to exit when a subscriber throws
* an exception. Please plan appropriately.
*/
public static class Builder {
private FileSystem fileSystem;
private ServerDirectories serverDirectories;
private Clock clock;
private Runnable abruptShutdownHandler;
private OptionsParsingResult startupOptionsProvider;
private final List<BlazeModule> blazeModules = new ArrayList<>();
private SubscriberExceptionHandler eventBusExceptionHandler = new RemoteExceptionHandler();
private UUID instanceId;
private String productName;
private ActionKeyContext actionKeyContext;
public BlazeRuntime build() throws AbruptExitException {
Preconditions.checkNotNull(productName);
Preconditions.checkNotNull(serverDirectories);
Preconditions.checkNotNull(startupOptionsProvider);
ActionKeyContext actionKeyContext =
this.actionKeyContext != null ? this.actionKeyContext : new ActionKeyContext();
Clock clock = (this.clock == null) ? BlazeClock.instance() : this.clock;
UUID instanceId = (this.instanceId == null) ? UUID.randomUUID() : this.instanceId;
Preconditions.checkNotNull(clock);
for (BlazeModule module : blazeModules) {
module.blazeStartup(
startupOptionsProvider,
BlazeVersionInfo.instance(),
instanceId,
fileSystem,
serverDirectories,
clock);
}
ServerBuilder serverBuilder = new ServerBuilder();
serverBuilder.addQueryOutputFormatters(OutputFormatter.getDefaultFormatters());
for (BlazeModule module : blazeModules) {
module.serverInit(startupOptionsProvider, serverBuilder);
}
ConfiguredRuleClassProvider.Builder ruleClassBuilder =
new ConfiguredRuleClassProvider.Builder();
for (BlazeModule module : blazeModules) {
module.initializeRuleClasses(ruleClassBuilder);
}
ConfiguredRuleClassProvider ruleClassProvider = ruleClassBuilder.build();
Package.Builder.Helper packageBuilderHelper = null;
for (BlazeModule module : blazeModules) {
Package.Builder.Helper candidateHelper =
module.getPackageBuilderHelper(ruleClassProvider, fileSystem);
if (candidateHelper != null) {
Preconditions.checkState(packageBuilderHelper == null,
"more than one module defines a package builder helper");
packageBuilderHelper = candidateHelper;
}
}
if (packageBuilderHelper == null) {
packageBuilderHelper = Package.Builder.DefaultHelper.INSTANCE;
}
PackageFactory packageFactory =
new PackageFactory(
ruleClassProvider,
serverBuilder.getAttributeContainerFactory(),
serverBuilder.getEnvironmentExtensions(),
BlazeVersionInfo.instance().getVersion(),
packageBuilderHelper);
ProjectFile.Provider projectFileProvider = null;
for (BlazeModule module : blazeModules) {
ProjectFile.Provider candidate = module.createProjectFileProvider();
if (candidate != null) {
Preconditions.checkState(projectFileProvider == null,
"more than one module defines a project file provider");
projectFileProvider = candidate;
}
}
QueryRuntimeHelper.Factory queryRuntimeHelperFactory = null;
for (BlazeModule module : blazeModules) {
QueryRuntimeHelper.Factory candidateFactory = module.getQueryRuntimeHelperFactory();
if (candidateFactory != null) {
Preconditions.checkState(
queryRuntimeHelperFactory == null,
"more than one module defines a query helper factory");
queryRuntimeHelperFactory = candidateFactory;
}
}
if (queryRuntimeHelperFactory == null) {
queryRuntimeHelperFactory = QueryRuntimeHelper.StdoutQueryRuntimeHelperFactory.INSTANCE;
}
return new BlazeRuntime(
fileSystem,
serverBuilder.getQueryEnvironmentFactory(),
serverBuilder.getQueryFunctions(),
serverBuilder.getQueryOutputFormatters(),
packageFactory,
ruleClassProvider,
ruleClassProvider.getConfigurationFragments(),
serverBuilder.getInfoItems(),
actionKeyContext,
clock,
abruptShutdownHandler,
startupOptionsProvider,
ImmutableList.copyOf(blazeModules),
eventBusExceptionHandler,
projectFileProvider,
queryRuntimeHelperFactory,
serverBuilder.getInvocationPolicy(),
serverBuilder.getCommands(),
productName,
serverBuilder.getBuildEventArtifactUploaderMap(),
serverBuilder.getAuthHeadersProvidersMap());
}
public Builder setProductName(String productName) {
this.productName = productName;
return this;
}
public Builder setFileSystem(FileSystem fileSystem) {
this.fileSystem = fileSystem;
return this;
}
public Builder setServerDirectories(ServerDirectories serverDirectories) {
this.serverDirectories = serverDirectories;
return this;
}
public Builder setClock(Clock clock) {
this.clock = clock;
return this;
}
public Builder setAbruptShutdownHandler(Runnable handler) {
this.abruptShutdownHandler = handler;
return this;
}
public Builder setStartupOptionsProvider(OptionsParsingResult startupOptionsProvider) {
this.startupOptionsProvider = startupOptionsProvider;
return this;
}
public Builder addBlazeModule(BlazeModule blazeModule) {
blazeModules.add(blazeModule);
return this;
}
public Builder setInstanceId(UUID id) {
instanceId = id;
return this;
}
@VisibleForTesting
public Builder setEventBusExceptionHandler(
SubscriberExceptionHandler eventBusExceptionHandler) {
this.eventBusExceptionHandler = eventBusExceptionHandler;
return this;
}
public Builder setActionKeyContext(ActionKeyContext actionKeyContext) {
this.actionKeyContext = actionKeyContext;
return this;
}
}
}