Engineering
Josh Long
March 18, 2020
Spring Tips: FTP Integration
speaker: Josh Long (@starbuxman)
Hi, Spring fans! In this installment of Spring Tips, we look at a topic that’s near and dear to my heart: integration! And yes, you may recall that the very first installment of Spring Tips looked at Spring Integration. If you haven’t already watched that one, you should. So, while we’re not going to revisit Spring Integration fundamentals, we’re going to take a deep dive into one area fo support in Spring Integration: FTP. FTP is all about file synchronization. Broadly, in the world of Enterprise Application Integration (EAI), we have four types of integration: file synchronization, RPC, database synchronization, and messaging.
File synchronization is definitely not what most people think of when they think of cloud-native applications, but you’d be surprised just how much of the world of finance is run by file synchronization (FTP, SFTP, AS2, FTPS, NFS, SMB, etc.) integrations. Sure, most of them use the more secure variants, but the point is still valid. In this video, we look at how to use Spring Integration’s FTP support, and once you understand that, it’s easy enough to apply it to other variants.
Please indulge me in a bit of chest-thumping here: I thought that I knew everything I’d needed to know about Spring Integration’s FTP support since I had a major role in polishing off Iwein Fuld’s original prototype code more than a decade ago, and since I contributed the original FTPS and SFTP adapters. In the intervening decade, surprising nobody, the Spring Integration team has added a ton of new capabilities and fixed all the bugs in my original code! I love what’s been introduced.
So, first things first: we need to set up an FTP server. Most of Spring Integration’s support works as a client to an already installed FTP server. So, it doesn’t matter what FTP server you use. However, I’d recommend you use the Apache FTPServer project. It’s a project that’s a sub-project of the Apache Mina project, which is, just so you know, the precursor to the Netty project. The Apache FTP Server is a super scalable, lightweight, all-Java implementation of the FTP protocol. And, you can easily embed it inside a Spring application. I’ve done so in the Github repository for this video. I defined a custom UserManager class to manage FTP user accounts. The custom UserManager that talks to a local PostgreSQL database with a simple table ftp_user, whose schema is defined as a table with the following columns:
I’ve got two users in there, jlong and grussell, both of which have a password of pw. I’ve set enabled and admin to true for both records. We use these two accounts later, so make sure you insert them into the table, like this.
insert into ftp_user(username, password, enabled, admin) values (‘jlong’, ‘pw’, true, true);
insert into ftp_user(username, password, enabled, admin) values (‘grussell’, ‘pw’, true, true);
I’m not going to reprint the code for the FTP server here in its entirety. If you want to peruse it, I’d recommend you look at the FtpServerConfiguration and FtpUserManager.
In most cases, we don’t have any ability to change the FTP server. If we want to be notified of any changes in a remote file system, our client needs to connect, scan the directory, and compare it with an earlier, known state. Basically, the client computes the delta and publishes an event. But wouldn’t it be nice if the FTP server could broadcast an event when something happens? That way, there can be no doubt about what happened. And there’s no doubt that we observed every change. If we were using any other FTP server, this would be more of a wish than a possibility. But as we’re using the Apache FTP Server, Spring Integration offers us some interesting possibilities. We can install an FTPlet, kind of like a filter, that will broadcast any important events on the FTP server as ApplicationContext events. Then, we can use Spring Integration to publish interesting events as messages that we can process in Spring Integration. This capability is a new feature in Spring Integration.
package ftp;
import lombok.extern.log4j.Log4j2;
import org.springframework.context.annotation.Bean;
import org.springframework.context.annotation.Configuration;
import org.springframework.integration.dsl.IntegrationFlow;
import org.springframework.integration.dsl.IntegrationFlows;
import org.springframework.integration.dsl.MessageChannels;
import org.springframework.integration.event.inbound.ApplicationEventListeningMessageProducer;
import org.springframework.integration.ftp.server.ApacheMinaFtpEvent;
import org.springframework.integration.ftp.server.ApacheMinaFtplet;
import org.springframework.integration.handler.GenericHandler;
import org.springframework.messaging.MessageChannel;
@Log4j2
@Configuration
class IntegrationConfiguration {
@Bean
ApacheMinaFtplet apacheMinaFtplet() {
return new ApacheMinaFtplet();
}
@Bean
MessageChannel eventsChannel() {
return MessageChannels.direct().get();
}
@Bean
IntegrationFlow integrationFlow() {
return IntegrationFlows.from(this.eventsChannel())
.handle((GenericHandler<ApacheMinaFtpEvent>) (apacheMinaFtpEvent, messageHeaders) -> {
log.info("new event: " + apacheMinaFtpEvent.getClass().getName() +
':' + apacheMinaFtpEvent.getSession());
return null;
})
.get();
}
@Bean
ApplicationEventListeningMessageProducer applicationEventListeningMessageProducer() {
var producer = new ApplicationEventListeningMessageProducer();
producer.setEventTypes(ApacheMinaFtpEvent.class);
producer.setOutputChannel(eventsChannel());
return producer;
}
}
This example sets up a Spring Integration messaging flow that listens for the relevant events and logs them out. Obviously, we’re doing too much with this new information, but the thing to keep in mind is that… we TOTALLY could! There are so many opportunities here. We could publish the events over Apache Kafka, RabbitMQ, or JMS for some other node to respond to. We could send an email inviting someone to participate in some workflow. The sky’s the limit!
Now, we’ve got a working server up and running on port 7777, we can connect using a client. I use Filezilla. Whatever client you use, try logging into the running FTP server on host localhost, port 7777, user jlong, and password pw. Upload a file, rename it, etc., and then check the console of your application and you’ll see the activity reflected in events.
The FTP Client
We’ve got a working server. Let’s look at how Spring Integration can act as a client to your services. We’ll work with the simplest abstraction and work our way up to more sophisticated capabilities. Create a new project on the Spring Initializr, add Lombok, Spring Integration, and choose the latest version of Java. Then click Generate and open the project in your IDE.
We’re going to use the two accounts we defined earlier. Let’s configure them in the application.properties.
ftp1.username=jlong
ftp1.password=pw
ftp1.port=7777
ftp1.host=localhost
ftp2.username=grussell
ftp2.password=pw
ftp2.port=7777
ftp2.host=localhost
The FtpRemoteFileTemplate
The simplest way we can interact with an FTP server is to use the very handy FtpRemoteFileTemplate that ships as part of Spring Integration. Here’s an example. This first example defines a DefaultFtpSessionFactory that establishes a connection to one of the FTP accounts. Then we define a FtpRemoteFileTemplate using that DefaultFtpSessionFactory. Then, we define an initializer that uses that FtpRemoteFileTemplate to read a file on the remote file system, hello.txt, to a local file, $HOME/Desktop/hello-local.txt. It couldn’t be simpler!
package com.example.integration;
import lombok.extern.log4j.Log4j2;
import org.springframework.beans.factory.InitializingBean;
import org.springframework.beans.factory.annotation.Value;
import org.springframework.context.annotation.Bean;
import org.springframework.context.annotation.Configuration;
import org.springframework.context.annotation.Profile;
import org.springframework.integration.ftp.session.DefaultFtpSessionFactory;
import org.springframework.integration.ftp.session.FtpRemoteFileTemplate;
import java.io.File;
import java.io.FileOutputStream;
@Log4j2
@Configuration
class FtpTemplateConfiguration {
@Bean
InitializingBean initializingBean(FtpRemoteFileTemplate template) {
return () -> template
.execute(session -> {
var file = new File(new File(System.getProperty("user.home"), "Desktop"), "hello-local.txt");
try (var fout = new FileOutputStream(file)) {
session.read("hello.txt", fout);
}
log.info("read " + file.getAbsolutePath());
return null;
});
}
@Bean
DefaultFtpSessionFactory defaultFtpSessionFactory(
@Value("${ftp1.username}") String username,
@Value("${ftp1.password}") String pw,
@Value("${ftp1.host}") String host,
@Value("${ftp1.port}") int port) {
DefaultFtpSessionFactory defaultFtpSessionFactory = new DefaultFtpSessionFactory();
defaultFtpSessionFactory.setPassword(pw);
defaultFtpSessionFactory.setUsername(username);
defaultFtpSessionFactory.setHost(host);
defaultFtpSessionFactory.setPort(port);
return defaultFtpSessionFactory;
}
@Bean
FtpRemoteFileTemplate ftpRemoteFileTemplate(DefaultFtpSessionFactory dsf) {
return new FtpRemoteFileTemplate(dsf);
}
}
The FTP Inbound Adapter
The next example looks at how to use an FTP inbound adapter to receive a new Message whenever there’s a new file on the remote file system. An inbound or outbound adapter is a unidirectional messaging component. An inbound adapter translates events from a remote system into new messages that are delivered into a Spring Integration flow. An outbound adapter translates a Spring Integration Message into an event in a remote system. In this case, the FTP inbound adapter will publish a Message into the Spring Integration code whenever a new file appears on the remote file system.
As before, we configure a DefaultFtpSessionFactory. Then, we configure an FTP inbound adapter that automatically synchronizes the remote file system whenever any file that matches the mask .txt arrives on the server. The inbound adapter takes the remote file, moves it to the local directory, and then publishes a Message that we can do anything we’d like with. Here, I simply log the message. Try it out! Upload a file, foo.txt, to the FTP server and watch as - no more than a second later - it’s downloaded and stored in the local file system under $HOME/Desktop/local.
package com.example.integration;
import lombok.extern.log4j.Log4j2;
import org.springframework.beans.factory.annotation.Value;
import org.springframework.context.annotation.Bean;
import org.springframework.context.annotation.Configuration;
import org.springframework.context.annotation.Profile;
import org.springframework.integration.dsl.IntegrationFlow;
import org.springframework.integration.dsl.IntegrationFlows;
import org.springframework.integration.ftp.dsl.Ftp;
import org.springframework.integration.ftp.session.DefaultFtpSessionFactory;
import java.io.File;
import java.util.concurrent.TimeUnit;
@Log4j2
@Configuration
class InboundConfiguration {
@Bean
DefaultFtpSessionFactory defaultFtpSessionFactory(
@Value("${ftp1.username}") String username,
@Value("${ftp1.password}") String pw,
@Value("${ftp1.host}") String host,
@Value("${ftp1.port}") int port) {
DefaultFtpSessionFactory defaultFtpSessionFactory = new DefaultFtpSessionFactory();
defaultFtpSessionFactory.setPassword(pw);
defaultFtpSessionFactory.setUsername(username);
defaultFtpSessionFactory.setHost(host);
defaultFtpSessionFactory.setPort(port);
return defaultFtpSessionFactory;
}
@Bean
IntegrationFlow inbound(DefaultFtpSessionFactory ftpSf) {
var localDirectory = new File(new File(System.getProperty("user.home"), "Desktop"), "local");
var spec = Ftp
.inboundAdapter(ftpSf)
.autoCreateLocalDirectory(true)
.patternFilter("*.txt")
.localDirectory(localDirectory);
return IntegrationFlows
.from(spec, pc -> pc.poller(pm -> pm.fixedRate(1000, TimeUnit.MILLISECONDS)))
.handle((file, messageHeaders) -> {
log.info("new file: " + file + ".");
messageHeaders.forEach((k, v) -> log.info(k + ':' + v));
return null;
})
.get();
}
}
The FTP Gateway
Now, for our last stop, let’s look at the Spring Integration FTP Gateway. In Spring Integration, a gateway is a component that sends data out (to a remote service) and then takes the response and brings it back into the Spring Integration flow. Or, alternatively, a gateway could take an incoming request from a remote system, bring it into the Spring Integration flow, and then send a response back out again. Either way, a gateway is a bidirectional messaging component. In this case, the FTP gateway takes Spring Integration Messages, sends them to an FTP server and uploads them, and once they’re uploaded, send the response (the acknowledgment, if nothing else) back into the Spring Integration code.
That would be useful in of itself if that’s all we did. But, for this last example, I want to conditionally upload a file to one of two FTP server accounts based on some criteria. You can imagine the scenario. An HTTP request comes, it’s turned into a Message that enters the Spring Integration flow, and it heads to the gateway. The only question is: to which account should the data be uploaded? Jane would probably not appreciate it if a file intended for John was uploaded to her account.
We’re going to use a DelegatingSessionFactory. The DelegatingSessionFactory has two constructors. One takes a SessionFactoryLocator, which you can use to make the decision at runtime which FTP account to use. The other takes a Map<String, SessionFactory> which in turn results in a SessionFactoryLocator that looks at some property of an incoming message (it’s up to you which) and uses that as the key for a lookup in the map.
We need some way to kick off the pipeline, so I created a simple HTTP endpoint that accepts an HTTP POST message and uses a path variable to establish a key that then gets sent into the integration flow. The integration flow has three steps. The first stage looks at the incoming message and configures the thread-local key for the DelegatingSessionFactory, then it forwards the message to the gateway which does the work of uploading the file to a remote file system, then it forwards the response from the upload to another component which clears the thread-local key.
package com.example.integration;
import org.apache.commons.net.ftp.FTPFile;
import org.springframework.beans.factory.annotation.Value;
import org.springframework.context.annotation.Bean;
import org.springframework.context.annotation.Configuration;
import org.springframework.context.annotation.Profile;
import org.springframework.expression.common.LiteralExpression;
import org.springframework.integration.dsl.IntegrationFlow;
import org.springframework.integration.dsl.MessageChannels;
import org.springframework.integration.file.remote.gateway.AbstractRemoteFileOutboundGateway;
import org.springframework.integration.file.remote.session.DelegatingSessionFactory;
import org.springframework.integration.file.support.FileExistsMode;
import org.springframework.integration.ftp.dsl.Ftp;
import org.springframework.integration.ftp.session.DefaultFtpSessionFactory;
import org.springframework.integration.ftp.session.FtpRemoteFileTemplate;
import org.springframework.integration.handler.GenericHandler;
import org.springframework.messaging.MessageChannel;
import org.springframework.messaging.support.MessageBuilder;
import org.springframework.web.servlet.function.RouterFunction;
import org.springframework.web.servlet.function.ServerResponse;
import java.util.Map;
import static org.springframework.web.servlet.function.RouterFunctions.route;
@Configuration
@Profile(“gateway”)
class GatewayConfiguration {
@Bean
MessageChannel incoming() {
return MessageChannels.direct().get();
}
@Bean
IntegrationFlow gateway(
FtpRemoteFileTemplate template,
DelegatingSessionFactory<FTPFile> dsf) {
return f -> f
.channel(incoming())
.handle((GenericHandler<Object>) (key, messageHeaders) -> {
dsf.setThreadKey(key);
return key;
})
.handle(Ftp
.outboundGateway(template, AbstractRemoteFileOutboundGateway.Command.PUT, "payload")
.fileExistsMode(FileExistsMode.IGNORE)
.options(AbstractRemoteFileOutboundGateway.Option.RECURSIVE)
)
.handle((GenericHandler<Object>) (key, messageHeaders) -> {
dsf.clearThreadKey();
return null;
});
}
@Bean
DelegatingSessionFactory<FTPFile> dsf(Map<String, DefaultFtpSessionFactory> ftpSessionFactories) {
return new DelegatingSessionFactory<>(ftpSessionFactories::get);
}
@Bean
DefaultFtpSessionFactory gary(@Value("${ftp2.username}") String username, @Value("${ftp2.password}") String pw, @Value("${ftp2.host}") String host, @Value("${ftp2.port}") int port) {
return this.createSessionFactory(username, pw, host, port);
}
@Bean
DefaultFtpSessionFactory josh(@Value("${ftp1.username}") String username, @Value("${ftp1.password}") String pw, @Value("${ftp1.host}") String host, @Value("${ftp1.port}") int port) {
return this.createSessionFactory(username, pw, host, port);
}
@Bean
FtpRemoteFileTemplate ftpRemoteFileTemplate(DelegatingSessionFactory<FTPFile> dsf) {
var ftpRemoteFileTemplate = new FtpRemoteFileTemplate(dsf);
ftpRemoteFileTemplate.setRemoteDirectoryExpression(new LiteralExpression(""));
return ftpRemoteFileTemplate;
}
private DefaultFtpSessionFactory createSessionFactory(String username, String pw, String host, int port) {
var defaultFtpSessionFactory = new DefaultFtpSessionFactory();
defaultFtpSessionFactory.setPassword(pw);
defaultFtpSessionFactory.setUsername(username);
defaultFtpSessionFactory.setHost(host);
defaultFtpSessionFactory.setPort(port);
return defaultFtpSessionFactory;
}
@Bean
RouterFunction<ServerResponse> routes() {
var in = this.incoming();
return route()
.POST("/put/{sfn}", request -> {
var name = request.pathVariable("sfn");
var msg = MessageBuilder.withPayload(name).build();
var sent = in.send(msg);
return ServerResponse.ok().body(sent);
})
.build();
}
}
You can try this flow out yourself by running curl -XPOST http://localhost:8080/put/one. That will upload a file to the FTP account whose bean name is one. Try curl -XPOST http://localhost:8080/put/two to upload a file to the FTP account whose bean name is two.
Conclusion
In this Spring Tips installment, we’ve looked at how to handle all sorts of FTP integration scenarios. You can use what you’ve learned here to work with the other support in the framework for remote file systems.
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