이 콘텐츠는 선택한 언어로 제공되지 않습니다.

Chapter 4. Configuring TLS/SSL encryption


You can secure Data Grid Server connections using SSL/TLS encryption by configuring a keystore that contains public and private keys for Data Grid. You can also configure client certificate authentication if you require mutual TLS.

4.1. Configuring Data Grid Server keystores

Add keystores to Data Grid Server and configure it to present SSL/TLS certificates that verify its identity to clients. If a security realm contains TLS/SSL identities, it encrypts any connections to Data Grid Server endpoints that use that security realm.

Prerequisites

  • Create a keystore that contains certificates, or certificate chains, for Data Grid Server.

Data Grid Server supports the following keystore formats: JKS, JCEKS, PKCS12/PFX and PEM. BKS, BCFKS, and UBER are also supported if the Bouncy Castle library is present.

Certificates should include the subjectAltName extension of type dNSName and/or iPAddress so that clients can correctly perform hostname validation, according to the rules defined by the RFC 2818 specification. The server will issue a warning if it is started with a certificate which does not include such an extension.

Important

In production environments, server certificates should be signed by a trusted Certificate Authority, either Root or Intermediate CA.

Tip

You can use PEM files as keystores if they contain both of the following:

  • A private key in PKCS#1 or PKCS#8 format.
  • One or more certificates.

You should also configure PEM file keystores with an empty password (password="").

Procedure

  1. Open your Data Grid Server configuration for editing.
  2. Add the keystore that contains SSL/TLS identities for Data Grid Server to the $RHDG_HOME/server/conf directory.
  3. Add a server-identities definition to the Data Grid Server security realm.
  4. Specify the keystore file name with the path attribute.
  5. Provide the keystore password and certificate alias with the keystore-password and alias attributes.
  6. Save the changes to your configuration.

Next steps

Configure clients with a trust store so they can verify SSL/TLS identities for Data Grid Server.

Keystore configuration

XML

<server xmlns="urn:infinispan:server:15.0">
  <security>
    <security-realms>
      <security-realm name="default">
        <server-identities>
          <ssl>
            <!-- Adds a keystore that contains server certificates that provide SSL/TLS identities to clients. -->
            <keystore path="server.p12"
                      relative-to="infinispan.server.config.path"
                      password="secret"
                      alias="my-server"/>
          </ssl>
        </server-identities>
      </security-realm>
    </security-realms>
  </security>
</server>

JSON

{
  "server": {
    "security": {
      "security-realms": [{
        "name": "default",
        "server-identities": {
          "ssl": {
            "keystore": {
              "alias": "my-server",
              "path": "server.p12",
              "password": "secret"
            }
          }
        }
      }]
    }
  }
}

YAML

server:
  security:
    securityRealms:
      - name: "default"
        serverIdentities:
          ssl:
            keystore:
              alias: "my-server"
              path: "server.p12"
              password: "secret"

4.1.1. SSL/TLS Certificate rotation

SSL/TLS certificates have an expiration date, after which they are no longer valid. The process of renewing a certificate is also known as "rotation". Data Grid monitors the keystore files for changes and automatically reloads them without requiring a server or client restart.

Note

To ensure seamless operations during certificate rotation, use certificates signed by a Certificate Authority (CA) and configure both server and client trust stores with the CA certificate. Using self-signed certificates will cause temporary handshake failures until all clients and servers have been updated.

4.1.2. Generating Data Grid Server keystores

Configure Data Grid Server to automatically generate keystores at startup.

Important

Automatically generated keystores:

  • Should not be used in production environments.
  • Are generated whenever necessary; for example, while obtaining the first connection from a client.
  • Contain certificates that you can use directly in Hot Rod clients.

Procedure

  1. Open your Data Grid Server configuration for editing.
  2. Include the generate-self-signed-certificate-host attribute for the keystore element in the server configuration.
  3. Specify a hostname for the server certificate as the value.
  4. Save the changes to your configuration.
Generated keystore configuration

XML

<server xmlns="urn:infinispan:server:15.0">
  <security>
    <security-realms>
      <security-realm name="generated-keystore">
        <server-identities>
          <ssl>
            <!-- Generates a keystore that includes a self-signed certificate with the specified hostname. -->
            <keystore path="server.p12"
                      relative-to="infinispan.server.config.path"
                      password="secret"
                      alias="server"
                      generate-self-signed-certificate-host="localhost"/>
          </ssl>
        </server-identities>
      </security-realm>
    </security-realms>
  </security>
</server>

JSON

{
  "server": {
    "security": {
      "security-realms": [{
        "name": "generated-keystore",
        "server-identities": {
          "ssl": {
            "keystore": {
              "alias": "server",
              "generate-self-signed-certificate-host": "localhost",
              "path": "server.p12",
              "password": "secret"
            }
          }
        }
      }]
    }
  }
}

YAML

server:
  security:
    securityRealms:
      - name: "generated-keystore"
        serverIdentities:
          ssl:
            keystore:
              alias: "server"
              generateSelfSignedCertificateHost: "localhost"
              path: "server.p12"
              password: "secret"

4.1.3. Configuring TLS versions and cipher suites

When using SSL/TLS encryption to secure your deployment, you can configure Data Grid Server to use specific versions of the TLS protocol as well as specific cipher suites within the protocol.

Procedure

  1. Open your Data Grid Server configuration for editing.
  2. Add the engine element to the SSL configuration for Data Grid Server.
  3. Configure Data Grid to use one or more TLS versions with the enabled-protocols attribute.

    Data Grid Server supports TLS version 1.2 and 1.3 by default. If appropriate you can set TLSv1.3 only to restrict the security protocol for client connections. Data Grid does not recommend enabling TLSv1.1 because it is an older protocol with limited support and provides weak security. You should never enable any version of TLS older than 1.1.

    Warning

    If you modify the SSL engine configuration for Data Grid Server you must explicitly configure TLS versions with the enabled-protocols attribute. Omitting the enabled-protocols attribute allows any TLS version.

    <engine enabled-protocols="TLSv1.3 TLSv1.2" />
  4. Configure Data Grid to use one or more cipher suites with the enabled-ciphersuites attribute (for TLSv1.2 and below) and the enabled-ciphersuites-tls13 attribute (for TLSv1.3).

    You must ensure that you set a cipher suite that supports any protocol features you plan to use; for example HTTP/2 ALPN.

  5. Save the changes to your configuration.
SSL engine configuration

XML

<server xmlns="urn:infinispan:server:15.0">
  <security>
    <security-realms>
      <security-realm name="default">
        <server-identities>
          <ssl>
            <keystore path="server.p12"
                      relative-to="infinispan.server.config.path"
                      password="secret"
                      alias="server"/>
            <!-- Configures Data Grid Server to use specific TLS versions and cipher suites. -->
            <engine enabled-protocols="TLSv1.3 TLSv1.2"
                    enabled-ciphersuites="TLS_DHE_RSA_WITH_AES_128_CBC_SHA,TLS_DHE_RSA_WITH_AES_128_CBC_SHA256"
                    enabled-ciphersuites-tls13="TLS_AES_256_GCM_SHA384:TLS_CHACHA20_POLY1305_SHA256:TLS_AES_128_GCM_SHA256"/>
          </ssl>
        </server-identities>
      </security-realm>
    </security-realms>
  </security>
</server>

JSON

{
  "server": {
    "security": {
      "security-realms": [{
        "name": "default",
        "server-identities": {
          "ssl": {
            "keystore": {
              "alias": "server",
              "path": "server.p12",
              "password": "secret"
            },
            "engine": {
              "enabled-protocols": ["TLSv1.3"],
              "enabled-ciphersuites": "TLS_DHE_RSA_WITH_AES_128_CBC_SHA,TLS_DHE_RSA_WITH_AES_128_CBC_SHA256",
              "enabled-ciphersuites-tls13": "TLS_AES_256_GCM_SHA384:TLS_CHACHA20_POLY1305_SHA256:TLS_AES_128_GCM_SHA256"
            }
          }
        }
      }]
    }
  }
}

YAML

server:
  security:
    securityRealms:
      - name: "default"
        serverIdentities:
          ssl:
            keystore:
              alias: "server"
              path: "server.p12"
              password: "secret"
            engine:
              enabledProtocols:
                - "TLSv1.3"
              enabledCiphersuites: "TLS_AES_256_GCM_SHA384,TLS_AES_128_GCM_SHA256"
              enabledCiphersuitesTls13: "TLS_AES_256_GCM_SHA384"

4.2. Configuring Data Grid Server on a system with FIPS 140-2 compliant cryptography

FIPS (Federal Information Processing Standards) are standards and guidelines for US federal computer systems. Although FIPS are developed for use by the US federal government, many in the private sector voluntarily use these standards.

FIPS 140-2 defines security requirements for cryptographic modules. You can configure your Data Grid Server to use encryption ciphers that adhere to the FIPS 140-2 specification by using alternative JDK security providers.

4.2.1. Configuring the PKCS11 cryptographic provider

You can configure the PKCS11 cryptographic provider by specifying the PKCS11 keystore with the SunPKCS11-NSS-FIPS provider.

Prerequisites

  • Configure your system for FIPS mode. You can check if your system has FIPS Mode enabled by issuing the fips-mode-setup --check command in your Data Grid command-line Interface (CLI)
  • Initialize the system-wide NSS database by using the certutil tool.
  • Install the JDK with the java.security file configured to enable the SunPKCS11 provider. This provider points to the NSS database and the SSL provider.
  • Install a certificate in the NSS database.

Procedure

  1. Open your Data Grid Server configuration for editing.
  2. Add a server-identities definition to the Data Grid Server security realm.
  3. Specify the PKCS11 keystore with the SunPKCS11-NSS-FIPS provider.
  4. Save the changes to your configuration.
Keystore configuration

XML

<server xmlns="urn:infinispan:server:15.0">
   <security>
      <security-realms>
         <security-realm name="default">
            <server-identities>
               <ssl>
                  <!-- Adds a keystore that reads certificates from the NSS database. -->
                  <keystore provider="SunPKCS11-NSS-FIPS" type="PKCS11"/>
               </ssl>
            </server-identities>
         </security-realm>
      </security-realms>
   </security>
</server>

JSON

{
  "server": {
    "security": {
      "security-realms": [{
        "name": "default",
        "server-identities": {
          "ssl": {
            "keystore": {
              "provider": "SunPKCS11-NSS-FIPS",
              "type": "PKCS11"
            }
          }
        }
      }]
    }
  }
}

YAML

server:
  security:
    securityRealms:
      - name: "default"
        serverIdentities:
          ssl:
            keystore:
              provider: "SunPKCS11-NSS-FIPS"
              type: "PKCS11"

4.2.2. Configuring the Bouncy Castle FIPS cryptographic provider

You can configure the Bouncy Castle FIPS (Federal Information Processing Standards) cryptographic provider in your Data Grid server’s configuration.

Prerequisites

  • Configure your system for FIPS mode. You can check if your system has FIPS Mode enabled by issuing the fips-mode-setup --check command in your Data Grid command-line Interface (CLI).
  • Create a keystore in BCFKS format that contains a certificate.

Procedure

  1. Download the Bouncy Castle FIPS JAR file, and add the file to the server/lib directory of your Data Grid Server installation.
  2. To install Bouncy Castle, issue the install command:

    [disconnected]> install org.bouncycastle:bc-fips:1.0.2.3
  3. Open your Data Grid Server configuration for editing.
  4. Add a server-identities definition to the Data Grid Server security realm.
  5. Specify the BCFKS keystore with the BCFIPS provider.
  6. Save the changes to your configuration.
Keystore configuration

XML

<server xmlns="urn:infinispan:server:15.0">
   <security>
      <security-realms>
         <security-realm name="default">
            <server-identities>
               <ssl>
                  <!-- Adds a keystore that reads certificates from the BCFKS keystore. -->
                  <keystore path="server.bcfks" password="secret" alias="server" provider="BCFIPS" type="BCFKS"/>
               </ssl>
            </server-identities>
         </security-realm>
      </security-realms>
   </security>
</server>

JSON

{
  "server": {
    "security": {
      "security-realms": [{
        "name": "default",
        "server-identities": {
          "ssl": {
            "keystore": {
              "path": "server.bcfks",
              "password": "secret",
              "alias": "server",
              "provider": "BCFIPS",
              "type": "BCFKS"
            }
          }
        }
      }]
    }
  }
}

YAML

server:
  security:
    securityRealms:
      - name: "default"
        serverIdentities:
          ssl:
            keystore:
              path: "server.bcfks"
              password: "secret"
              alias: "server"
              provider: "BCFIPS"
              type: "BCFKS"

4.3. Configuring client certificate authentication

Configure Data Grid Server to use mutual TLS to secure client connections.

You can configure Data Grid to verify client identities from certificates in a trust store in two ways:

  • Require a trust store that contains only the signing certificate, which is typically a Certificate Authority (CA). Any client that presents a certificate signed by the CA can connect to Data Grid.
  • Require a trust store that contains all client certificates in addition to the signing certificate. Only clients that present a signed certificate that is present in the trust store can connect to Data Grid.
Tip

Alternatively to providing trust stores you can use shared system certificates.

Prerequisites

  • Create a client trust store that contains either the CA certificate or all public certificates.
  • Create a keystore for Data Grid Server and configure an SSL/TLS identity.
Note

PEM files can be used as trust stores provided they contain one or more certificates. These trust stores should be configured with an empty password: password="".

Procedure

  1. Open your Data Grid Server configuration for editing.
  2. Add the require-ssl-client-auth="true" parameter to your endpoints configuration.
  3. Add the client trust store to the $RHDG_HOME/server/conf directory.
  4. Specify the path and password attributes for the truststore element in the Data Grid Server security realm configuration.
  5. Add the <truststore-realm/> element to the security realm if you want Data Grid Server to authenticate each client certificate.
  6. Save the changes to your configuration.

Next steps

  • Set up authorization with client certificates in the Data Grid Server configuration if you control access with security roles and permissions.
  • Configure clients to negotiate SSL/TLS connections with Data Grid Server.

Client certificate authentication configuration

XML

<server xmlns="urn:infinispan:server:15.0">
  <security>
    <security-realms>
      <security-realm name="trust-store-realm">
        <server-identities>
          <ssl>
            <!-- Provides an SSL/TLS identity with a keystore that
                 contains server certificates. -->
            <keystore path="server.p12"
                      relative-to="infinispan.server.config.path"
                      keystore-password="secret"
                      alias="server"/>
            <!-- Configures a trust store that contains client certificates
                 or part of a certificate chain. -->
            <truststore path="trust.p12"
                        relative-to="infinispan.server.config.path"
                        password="secret"/>
          </ssl>
        </server-identities>
        <!-- Authenticates client certificates against the trust store. If you configure this, the trust store must contain the public certificates for all clients. -->
        <truststore-realm/>
      </security-realm>
    </security-realms>
  </security>
  <endpoints>
    <endpoint socket-binding="default"
              security-realm="trust-store-realm"
              require-ssl-client-auth="true">
      <hotrod-connector>
        <authentication>
          <sasl mechanisms="EXTERNAL"
                server-name="infinispan"
                qop="auth"/>
        </authentication>
      </hotrod-connector>
      <rest-connector>
        <authentication mechanisms="CLIENT_CERT"/>
      </rest-connector>
    </endpoint>
  </endpoints>
</server>

JSON

{
  "server": {
    "security": {
      "security-realms": [{
        "name": "trust-store-realm",
        "server-identities": {
          "ssl": {
            "keystore": {
              "path": "server.p12",
              "relative-to": "infinispan.server.config.path",
              "keystore-password": "secret",
              "alias": "server"
            },
            "truststore": {
              "path": "trust.p12",
              "relative-to": "infinispan.server.config.path",
              "password": "secret"
            }
          }
        },
        "truststore-realm": {}
      }]
    },
    "endpoints": [{
      "socket-binding": "default",
      "security-realm": "trust-store-realm",
      "require-ssl-client-auth": "true",
      "connectors": {
        "hotrod": {
          "hotrod-connector": {
            "authentication": {
              "sasl": {
                "mechanisms": "EXTERNAL",
                "server-name": "infinispan",
                "qop": "auth"
              }
            }
          },
          "rest": {
            "rest-connector": {
              "authentication": {
                "mechanisms": "CLIENT_CERT"
              }
            }
          }
        }
      }
    }]
  }
}

YAML

server:
  security:
    securityRealms:
      - name: "trust-store-realm"
        serverIdentities:
          ssl:
            keystore:
              path: "server.p12"
              relative-to: "infinispan.server.config.path"
              keystore-password: "secret"
              alias: "server"
            truststore:
              path: "trust.p12"
              relative-to: "infinispan.server.config.path"
              password: "secret"
        truststoreRealm: ~
  endpoints:
    socketBinding: "default"
    securityRealm: "trust-store-realm"
    requireSslClientAuth: "true"
    connectors:
      - hotrod:
          hotrodConnector:
            authentication:
              sasl:
                mechanisms: "EXTERNAL"
                serverName: "infinispan"
                qop: "auth"
      - rest:
          restConnector:
            authentication:
              mechanisms: "CLIENT_CERT"

Additional resources

4.4. Configuring authorization with client certificates

Enabling client certificate authentication means you do not need to specify Data Grid user credentials in client configuration, which means you must associate roles with the Common Name (CN) field in the client certificate(s).

Prerequisites

  • Provide clients with a Java keystore that contains either their public certificates or part of the certificate chain, typically a public CA certificate.
  • Configure Data Grid Server to perform client certificate authentication.

Procedure

  1. Open your Data Grid Server configuration for editing.
  2. Enable the common-name-role-mapper in the security authorization configuration.
  3. Assign the Common Name (CN) from the client certificate a role with the appropriate permissions.
  4. Save the changes to your configuration.
Note

Data Grid creates the identity of the client by extracting the certificate principal. Any other Subject Alternative Names (SANs) which may be present in the certificate are currently ignored. For this reason, the authorization.group-only-mapping attribute below must be set to false.

Client certificate authorization configuration

XML

<infinispan>
  <cache-container name="certificate-authentication" statistics="true">
    <security>
      <authorization group-only-mapping="false">
        <!-- Declare a role mapper that associates the common name (CN) field in client certificate trust stores with authorization roles. -->
        <common-name-role-mapper/>
        <!-- In this example, if a client certificate contains `CN=Client1` then clients with matching certificates get ALL permissions. -->
        <role name="Client1" permissions="ALL"/>
      </authorization>
    </security>
  </cache-container>
</infinispan>

JSON

{
  "infinispan": {
    "cache-container": {
      "name": "certificate-authentication",
      "security": {
        "authorization": {
          "group-only-mapping": false,
          "common-name-role-mapper": null,
          "roles": {
            "Client1": {
              "role": {
                "permissions": "ALL"
              }
            }
          }
        }
      }
    }
  }
}

YAML

infinispan:
  cacheContainer:
    name: "certificate-authentication"
    security:
      authorization:
        groupOnlyMapping: false
        commonNameRoleMapper: ~
        roles:
          Client1:
            role:
              permissions:
                - "ALL"

Red Hat logoGithubRedditYoutubeTwitter

자세한 정보

평가판, 구매 및 판매

커뮤니티

Red Hat 문서 정보

Red Hat을 사용하는 고객은 신뢰할 수 있는 콘텐츠가 포함된 제품과 서비스를 통해 혁신하고 목표를 달성할 수 있습니다.

보다 포괄적 수용을 위한 오픈 소스 용어 교체

Red Hat은 코드, 문서, 웹 속성에서 문제가 있는 언어를 교체하기 위해 최선을 다하고 있습니다. 자세한 내용은 다음을 참조하세요.Red Hat 블로그.

Red Hat 소개

Red Hat은 기업이 핵심 데이터 센터에서 네트워크 에지에 이르기까지 플랫폼과 환경 전반에서 더 쉽게 작업할 수 있도록 강화된 솔루션을 제공합니다.

© 2024 Red Hat, Inc.