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TRAC D.A.P. metadata service, stateless service component to answer the TRAC metadata API
/*
* Copyright 2022 Accenture Global Solutions Limited
*
* 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 org.finos.tracdap.svc.meta;
import org.finos.tracdap.common.auth.internal.JwtSetup;
import org.finos.tracdap.common.auth.internal.InternalAuthValidator;
import org.finos.tracdap.common.config.ConfigManager;
import org.finos.tracdap.common.exception.EStartup;
import org.finos.tracdap.common.grpc.CompressionServerInterceptor;
import org.finos.tracdap.common.grpc.ErrorMappingInterceptor;
import org.finos.tracdap.common.grpc.LoggingServerInterceptor;
import org.finos.tracdap.common.plugin.PluginManager;
import org.finos.tracdap.common.service.CommonServiceBase;
import org.finos.tracdap.common.util.InterfaceLogging;
import org.finos.tracdap.config.PlatformConfig;
import org.finos.tracdap.svc.meta.dal.IMetadataDal;
import org.finos.tracdap.svc.meta.services.MetadataReadService;
import org.finos.tracdap.svc.meta.services.MetadataSearchService;
import org.finos.tracdap.svc.meta.services.MetadataWriteService;
import com.google.common.util.concurrent.ThreadFactoryBuilder;
import io.grpc.Server;
import io.grpc.ServerBuilder;
import org.finos.tracdap.svc.meta.api.TracMetadataApi;
import org.finos.tracdap.svc.meta.api.TrustedMetadataApi;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import java.io.IOException;
import java.time.Duration;
import java.util.Properties;
import java.util.concurrent.*;
public class TracMetadataService extends CommonServiceBase {
// This is a quick implementation of the service scaffold, it will need to be re-visited!
// All the components are created in start()
// Because we are using JDBC, there is no option for fully async execution
// We will need a thread pool that can handle the maximum number of concurrent requests
// Since requests will sit on the JDBC thread pool anyway, we can use thread-per-request
// A primary executor is given to gRPC for handling incoming requests
// Then use Runnable::run to execute JDBC calls directly, i.e. no hand-off to a secondary pool
// We do set up a blocking queue as an overflow
// It would be good to tie this into health reporting and load balancing
// That is not for this first quick implementation!
private static final String POOL_SIZE_KEY = "pool.size";
private static final String POOL_OVERFLOW_KEY = "pool.overflow";
private static final int DEFAULT_POOL_SIZE = 20;
private static final int DEFAULT_OVERFLOW_SIZE = 10;
private final Logger log;
private final PluginManager pluginManager;
private final ConfigManager configManager;
private ExecutorService executor;
private IMetadataDal dal;
private Server server;
public TracMetadataService(PluginManager pluginManager, ConfigManager configManager) {
this.log = LoggerFactory.getLogger(getClass());
this.pluginManager = pluginManager;
this.configManager = configManager;
}
@Override
protected void doStartup(Duration startupTimeout) {
try {
// Use the -db library to set up a datasource
// Handles different SQL dialects and authentication mechanisms etc.
var platformConfig = configManager.loadRootConfigObject(PlatformConfig.class);
// Load the DAL service using the plugin loader mechanism
var metaDbConfig = platformConfig.getMetadata().getDatabase();
dal = pluginManager.createService(IMetadataDal.class, metaDbConfig, configManager);
dal.start();
// Metadata DB props contains config need for the executor pool size
var dalProps = new Properties();
dalProps.putAll(metaDbConfig.getPropertiesMap());
executor = createPrimaryExecutor(dalProps);
// Set up services and APIs
var dalWithLogging = InterfaceLogging.wrap(dal, IMetadataDal.class);
var readService = new MetadataReadService(dalWithLogging, platformConfig);
var writeService = new MetadataWriteService(dalWithLogging);
var searchService = new MetadataSearchService(dalWithLogging);
var publicApi = new TracMetadataApi(readService, writeService, searchService);
var trustedApi = new TrustedMetadataApi(readService, writeService, searchService);
var jwtValidator = JwtSetup.createValidator(platformConfig, configManager);
// Create the main server
var metaSvcConfig = platformConfig.getServices().getMeta();
var servicePort = metaSvcConfig.getPort();
// Interceptor order: Last added is executed first
// But note, on close it is the other way round, because the stack is unwinding
// We want error mapping at the bottom of the stack, so it unwinds before logging
this.server = ServerBuilder
.forPort(servicePort)
.intercept(new ErrorMappingInterceptor())
.intercept(new LoggingServerInterceptor(TracMetadataApi.class))
.intercept(new CompressionServerInterceptor())
.intercept(new InternalAuthValidator(platformConfig.getAuthentication(), jwtValidator))
.addService(publicApi)
.addService(trustedApi)
.executor(executor)
.build();
// Good to go, let's start!
server.start();
}
catch (IOException e) {
// Wrap startup errors in an EStartup
throw new EStartup(e.getMessage(), e);
}
}
@Override
protected int doShutdown(Duration shutdownTimeout) throws InterruptedException {
// Request the server shutdown first, this will stop new connections being accepted
// Wait for the server to drain
// Once there are no active requests, clean up internal resources
server.shutdown();
server.awaitTermination(shutdownTimeout.getSeconds(), TimeUnit.SECONDS);
if (!server.isTerminated())
server.shutdownNow();
dal.stop();
executor.shutdown();
return 0;
}
ExecutorService createPrimaryExecutor(Properties properties) {
// Headroom threads - these threads get used after the core pool and the overflow queue is full
// That is not the behaviour we want, we want to fill up the pool first, then start queuing
// So, we just use the core pool
// A small number of headroom threads might be useful for admin tasks to avoid starvation
// Although, to actually do anything useful with that prioritization would be needed
var HEADROOM_THREADS = 1;
var HEADROOM_THREADS_TIMEOUT = 60;
var HEADROOM_THREADS_TIMEOUT_UNIT = TimeUnit.SECONDS;
try {
// Use the DB pool settings to create the primary executor
// As per comments at the top of this file
var poolSize = readConfigInt(properties, POOL_SIZE_KEY, DEFAULT_POOL_SIZE);
var overflowSize = readConfigInt(properties, POOL_OVERFLOW_KEY, DEFAULT_OVERFLOW_SIZE);
var threadFactory = new ThreadFactoryBuilder()
.setNameFormat("worker-%d")
.setPriority(Thread.NORM_PRIORITY)
.build();
var overflowQueue = new ArrayBlockingQueue(overflowSize);
var executor = new ThreadPoolExecutor(
poolSize, poolSize + HEADROOM_THREADS,
HEADROOM_THREADS_TIMEOUT, HEADROOM_THREADS_TIMEOUT_UNIT,
overflowQueue, threadFactory);
executor.prestartAllCoreThreads();
executor.allowCoreThreadTimeOut(false);
return executor;
}
catch (NumberFormatException e) {
var message = "Pool size and overflow must be integers: " + e.getMessage();
log.error(message);
throw new EStartup(message, e);
}
}
private int readConfigInt(Properties props, String propKey, Integer propDefault) {
// TODO: Reading config needs to be centralised
// Standard methods for handling defaults, valid ranges etc.
// One option is to use proto to define config objects and automate parsing
// This would work well where configs need to be sent between components, e.g. the TRAC executor
var propValue = props.getProperty(propKey);
if (propValue == null || propValue.isBlank()) {
if (propDefault == null) {
var message = "Missing required config property: " + propKey;
log.error(message);
throw new EStartup(message);
}
else
return propDefault;
}
try {
return Integer.parseInt(propValue);
}
catch (NumberFormatException e) {
var message = "Config property must be an integer: " + propKey + ", got value '" + propValue + "'";
log.error(message);
throw new EStartup(message);
}
}
public static void main(String[] args) {
CommonServiceBase.svcMain(TracMetadataService.class, args);
}
}