此内容没有您所选择的语言版本。

Chapter 2. Securing the Fuse Console


You can implement any or all of the following security features to secure Fuse containers for standalone deployments:

2.1. Set HTTPS as the required protocol

You can use the hawtio.http.strictTransportSecurity property to require web browsers to use the secure HTTPS protocol to access the Fuse Console. This property specifies that web browsers that try to use HTTP to access the Fuse Console must automatically convert the request to use HTTPS.

For a description of the property’s syntax, see the description page for the HTTP Strict Transport Security (HSTS) response header.

Set the hawtio.http.strictTransportSecurity property as shown in the following examples:

  • For Karaf standalone:

    Set this property in the $KARAF_HOME/etc/system.properties file as shown in the following example:

    hawtio.http.strictTransportSecurity = max-age=31536000; includeSubDomains; preload
  • For JBoss EAP standalone:

    Set this property in the system-properties section of the $EAP_HOME/standalone/configuration/standalone*.xml file as shown in the following example:

    <property name="hawtio.http.strictTransportSecurity" value="max-age=31536000; includeSubDomains; preload"/>
  • For Spring Boot standalone:

    Set this property as shown in the following example:

    public static void main(String[] args) {
        System.setProperty("hawtio.http.strictTransportSecurity", "max-age=31536000; includeSubDomains; preload");
        SpringApplication.run(YourSpringBootApplication.class, args);
    }

2.2. Use public keys to secure responses

You can use the hawtio.http.publicKeyPins property to secure the HTTPS protocol by telling the web browser to associate a specific cryptographic public key with the Fuse Console to decrease the risk of “man-in-the-middle” attacks with forged certificates.

For a description of the property’s syntax, including instructions on how to extract the Base64 encoded public key, see the description page for the HTTP Public Key Pinning response header.

Set the hawtio.http.publicKeyPins property as shown in the following examples:

  • For Karaf standalone:

    Set this property in the $KARAF_HOME/etc/system.properties file as shown in the following example:

    hawtio.http.publicKeyPins = pin-sha256="cUPcTAZWKaASuYWhhneDttWpY3oBAkE3h2+soZS7sWs"; max-age=5184000; includeSubDomains
  • For JBoss EAP standalone:

    Set this property in the system-properties section of the $EAP_HOME/standalone/configuration/standalone*.xml file as shown in the following example:

    <property name="hawtio.http.publicKeyPins" value="pin-sha256=cUPcTAZWKaASuYWhhneDttWpY3oBAkE3h2+soZS7sWs"; max-age=5184000; includeSubDomains"/>
  • For Spring Boot standalone:

    Set this property as shown in the following example:

    public static void main(String[] args) {
        System.setProperty("hawtio.http.publicKeyPins", "pin-sha256=cUPcTAZWKaASuYWhhneDttWpY3oBAkE3h2+soZS7sWs"; max-age=5184000; includeSubDomains");
        SpringApplication.run(YourSpringBootApplication.class, args);
    }

2.3. Enable SSL/TLS security (Karaf only)

SSL/TLS security is not enabled by default for the Fuse Console. It is recommended that you enable SSL/TLS security on the Fuse Console to protect username/password credentials from snooping. For detailed instructions on how to enable SSL/TLS security, see the "Enabling SSL/TLS for Undertow in an Apache Karaf container" section in the Apache Karaf Security Guide.

2.4. Control user access (Karaf only)

Note

For this release, role-based access control for the Fuse Console is only enabled for Fuse on Karaf standalone.

The operations that an authenticated user is allowed to perform depend on the role (or roles) assigned to that user, as listed in Table 2.1, “Role-based access on Karaf standalone”.

Ensure that a user has the necessary user role authorization to perform the Fuse Console operations that the user needs to perform.

To set a user role:

  1. Open the Red Hat Fuse etc/users.properties file in an editor.
  2. Add an entry for the user name, password, and role.

    For example, the following entry in the etc/users.properties file defines the admin user and grants the admin role.

    admin = secretpass,admin
  3. Save the file.
Table 2.1. Role-based access on Karaf standalone
Operationadminmanagerviewer

Log in/Log out

Y

Y

Y

View Help topics

Y

Y

Y

Set user preferences

Y

Y

Y

Connect

   

Discover and connect to remote integrations

Y

Y

Y

Discover and connect to local integrations

Y

Y

Y

Camel

   

View all running Camel applications

Y

Y

Y

Start, suspend, resume, and delete Camel contexts

Y

Y

 

Send messages

Y

Y

 

Add endpoints

Y

Y

 

View routes, route diagrams, and runtime statistics

Y

Y

Y

Start and stop routes

Y

Y

 

Delete routes

Y

Y

 

JMX

   

Change attribute values

Y

Y

 

Select and view attributes in a time-based chart

Y

Y

Y

View operations

Y

Y

Y

OSGI

   

View bundles, features, packages, services, servers, framework, and configurations

Y

Y

Y

Add and delete bundles

Y

Y

 

Add configurations

Y

Y

 

Install and uninstall features

Y

  

Runtime

   

View system properties, metrics, and threads

Y

Y

Y

Logs

   

View logs

Y

Y

Y

For more information on role-based access control, see Deploying into Apache Karaf.

Red Hat logoGithubRedditYoutubeTwitter

学习

尝试、购买和销售

社区

关于红帽文档

通过我们的产品和服务,以及可以信赖的内容,帮助红帽用户创新并实现他们的目标。

让开源更具包容性

红帽致力于替换我们的代码、文档和 Web 属性中存在问题的语言。欲了解更多详情,请参阅红帽博客.

關於紅帽

我们提供强化的解决方案,使企业能够更轻松地跨平台和环境(从核心数据中心到网络边缘)工作。

© 2024 Red Hat, Inc.