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Jira | ||||||||
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VES-HV Collector
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(Option 1)
HV-VES collector has been proposed, based on a need to process high-volumes of data generated frequently by a large number of NFs. It uses plain TCP connections. Connections are stream-based (as opposed to request-based) and long running. Payload is binary-encoded (currently using Google Protocol Buffers).
Pros:
- Designed to support high volume of data with minimal latency
- HV-VES uses direct connection to DMaaP’s Kafka.
Cons:
- Added dependency on HV-VES DCAE components
Kafka Interfacing using DMaaP client (Option 2)
Message router is added as an additional layer on top of DMaaP to support message service API interaction with the ZooKeeper/Kafka. DmaapClient is a deliverable jar that can be used to interact with the DMaaP message Router api.
Pros:
- Designed to support REST calls to Kafka from both publishers and consumers.
- Pre Defined APIs in Message Router to create/view/delete a topic in Kafka and also to publish a message to a topic and subscribe to a topic.
Cons:
- Additional overhead as an additional layer Message Router would be added between CPS and Kafka.
Kafka Direct interface without using
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DMaaP client: To be used in CPS (Option 3)
Pros:
- No additional layer used between CPS and DMaaP Kafka.
- Spring boot enables easier configuration.
- CPS can make a direct interface with Kafka using spring-kafka. Spring-kafka used in CPS also provides support for Message-driven POJOs for publishing and subscribing events. CPS does not require message service API for interacting with Kafka.
Kafka configuration details needs to be added in the application yaml of both publisher(cps-core) and consumer(cps-temporal) of the events published to Kafka. These configuration should preferably be defined in application-helm.yaml included in the OOM charts to provide flexibility while deploying the application.
Based on the encryption and authentication mechanism used, the required configurations could change. Hence it is suggested to use override files for configuring the required values according to the used environment.
Encryption and Authentication Listener Configuration
Supported security protocols are :
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kafka: bootstrap-servers: ${KAFKA_BOOTSTRAP_SERVER} security: protocol: PLAINTEXT # to be added only in cps-core(producer) producer: groupclient-id: ${KAFKA_GROUP_ID:cps-temporal-group}core clientvalue-id: ${KAFKA_client_ID:cps}serializer: org.springframework.kafka.support.serializer.JsonSerializer # to be added only in cps-temporal(consumer) consumer: group-id: ${KAFKA_CONSUMER_GROUP_ID:cps-temporal-group} client-id: ${KAFKA_client_ID:cps} |
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kafka sasl_plaintext: security:cps-temporal # Configures the Spring Kafka ErrorHandlingDeserializer that delegates to the 'real' deserializers # See https://docs.spring.io/spring-kafka/docs/2.5.11.RELEASE/reference/html/#error-handling-deserializer # and https://www.confluent.io/blog/spring-kafka-can-your-kafka-consumers-handle-a-poison-pill/ key-deserializer: org.springframework.kafka.support.serializer.ErrorHandlingDeserializer protocol: SASL_PLAINTEXT value-deserializer: org.springframework.kafka.support.serializer.ErrorHandlingDeserializer sslproperties: trust-store-type: spring.deserializer.key.delegate.class: org.apache.kafka.common.serialization.StringDeserializer trust-store-location: trust-store-password:spring.deserializer.value.delegate.class: org.springframework.kafka.support.serializer.JsonDeserializer properties: spring.json.value.default.type: org.onap.cps.event.model.CpsDataUpdatedEvent |
Any other security protocol to be used could be configured using the OOM charts on a k8s environment.
2. SASL_PLAINTEXT using Plain mechanism:
Implements authentication based on username and passwords. Usernames and passwords are stored locally in Kafka configuration.
DMaap-Message-router-kafka by defaullt uses SASL_PLAINTEXT.
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kafka sasl.mechanism: PLAIN sasl_sslplaintext: security: protocol: SASL_SSLPLAINTEXT ssl: trust-store-type: JKS trust-store-location: file:///C:/Users/adityaputhuparambil/ltec-com-strimzi.jks trust-store-password: secret properties: sasl.mechanism: SCRAM-SHA-512 PLAIN sasl.jaas.config: org.apache.kafka.common.security.plain.PlainLoginModule required username=admin password=admin_secret; ssl.endpoint.identification.algorithm: |
2. SSL : Listener using TLS encryption and, optionally, authentication using TLS client certificates.
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Implements authentication based on username and passwords. Usernames and passwords are stored locally in Kafka configuration.
DMaap-Message-router-kafka by defaullt uses SASL_PLAINTEXT.
The kafka configuration details could be configured in the override files as below:
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kafka: security: protocol: '{{ .Values.kafka.sasl_plaintext.security.protocol }}' ssl: trust-store-type: '{{ .Values.kafka.sasl_plaintext.security.trust-store-type }}' trust-store-location: '{{ .Values.kafka.sasl_plaintext.security.trust-store-location }}' trust-store-password: '{{ .Values.kafka.sasl_plaintext.security.trust-store-password }}' properties: sasl.mechanism: '{{ .Values.kafka.sasl_plaintext.proeprties.sasl_mechanism }}' sasl.jaas.config: '{{ .Values.kafka.sasl.jaas.config }}' |
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3.
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SASL_SSL
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using
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SCRAM-SHA-256
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and
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SCRAM-SHA-512
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:
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Implements
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authentication
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using
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Salted
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Challenge
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Response
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Authentication
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Mechanism
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(SCRAM).
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SCRAM
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credentials
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are
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stored
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centrally
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in
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ZooKeeper.
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SCRAM
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can
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be
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used
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in
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situations
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where
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ZooKeeper
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cluster
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nodes
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are
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running
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isolated
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in
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a
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private
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network.
Spring.kafka.ssl related configuration is required. In order to use TLS encryption and server authentication, a keystore containing private and public keys has to be provided. This is usually done using a file in the Java Key store (JKS) format.
Code Block | ||||||
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kafka:
sasl_ssl:
security:
protocol: SASL_SSL
ssl:
trust-store-type: JKS
trust-store-location: file:///C:/Users/adityaputhuparambil/ltec-com-strimzi.jks
trust-store-password: secret
properties:
sasl.mechanism: SCRAM-SHA-512
sasl.jaas.config: org.apache.kafka.common.security.plain.PlainLoginModule required username=admin password=admin_secret;
ssl.endpoint.identification.algorithm: |
Few additional properties related to SSL also need to be configured as shown below:
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kafka: security: protocol: '{{ .Values.kafka.sasl_ssl.security.protocol }}' ssl: trust-store-type: '{{ .Values.kafka.sasl_ssl.security.trust-store-type }}' trust-store-location: '{{ .Values.kafka.sasl_ssl.security.trust-store-location }}' trust-store-password: '{{ .Values.kafka.sasl_ssl.security.trust-store-password }}' properties: sasl.mechanism: '{{ .Values.kafka.sasl_ssl.proeprties.sasl_mechanism }}' sasl.jaas.config: '{{ .Values.kafka.sasl.jaas.config }}' |
Application-helm configuration :
The final configuration required in application-helm.yaml :
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spring:
kafka:
bootstrap-servers: ${KAFKA_BOOTSTRAP_SERVER}
security:
protocol: {{ .Values.kafka.security.protocol }}
ssl:
trust-store-type: {{ .Values.kafka.ssl.trust-store-type }}
trust-store-location: {{ .Values.kafka.ssl.trust-store-location }}
trust-store-password: {{ .Values.kafka.ssl.trust-store-password }}
properties:
sasl.mechanism: '{{ .Values.kafka.proeprties.sasl_mechanism }}'
sasl.jaas.config: '{{ .Values.kafka.proeprties.sasl.jaas.config }}';
ssl.endpoint.identification.algorithm:
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NOTE: Topics are auto generated in ONAP DMaaP Kafka. Hence topic creation is not covered in the scope on CPS.
Proof Of Concept :
POC was performed with ONAP DMaaPMessageRouterKafka running on k8e environment(172.16.1.205) in Nordix lab . The configuration details for both cps-core and cps-temporal as shared below:
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spring: kafka: bootstrap-servers: 172.16.3.38:30490 security: protocol: SASL_PLAINTEXT properties: sasl.mechanism: PLAIN sasl.jaas.config: org.apache.kafka.common.security.plain.PlainLoginModule required username=admin password=admin_secret; ssl.endpoint.identification.algorithm: producer: # at producer end only Configures the Spring Kafka ErrorHandlingDeserializer that delegates to the 'real' deserializers # See https://docs.spring.io/spring-kafka/docs/2.5.11.RELEASE/reference/html/#error-handling-deserializer # and https://www.confluent.io/blog/spring-kafka-can-your-kafka-consumers-handle-a-poison-pill/ producer: key-deserializer: org.springframework.kafka.support.serializer.ErrorHandlingDeserializer value-deserializer: org.springframework.kafka.support.serializer.ErrorHandlingDeserializer properties: spring.deserializer.key.delegate.class: org.apache.kafka.common.serialization.StringDeserializer spring.deserializer.value.delegate.class: org.springframework.kafka.support.serializer.JsonSerializerJsonDeserializer spring.json.value.default.type: org.onap.cps.event.model.CpsDataUpdatedEvent app: kafka: # at consumer consumer: topic: ${KAFKA_CONSUMER_TOPIC:cps.cfg-state-events} |
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spring: kafka: bootstrap-servers: 172.16.3.38:30490 security: protocol: SASL_PLAINTEXT properties: sasl.mechanism: PLAIN sasl.jaas.config: org.apache.kafka.common.security.plain.PlainLoginModule required username=admin password=admin_secret; ssl.endpoint.identification.algorithm:end only consumer: group-id: ${KAFKA_CONSUMER_GROUP_ID:cps-temporal-group} # Configures the Spring Kafka ErrorHandlingDeserializer that delegates to the 'real' deserializers # See https://docs.spring.io/spring-kafka/docs/2.5.11.RELEASE/reference/html/#error-handling-deserializer # and https://www.confluent.io/blog/spring-kafka-can-your-kafka-consumers-handle-a-poison-pill/ key-deserializer: org.springframework.kafka.support.serializer.ErrorHandlingDeserializer value-deserializer: org.springframework.kafka.support.serializer.ErrorHandlingDeserializer properties: spring.deserializer.key.delegate.class: org.apache.kafka.common.serialization.StringDeserializer spring.deserializer.value.delegate.class: org.springframework.kafka.support.serializer.JsonDeserializer |
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spring.json.value.default.type: org.onap.cps.event.model.CpsDataUpdatedEvent
app:
kafka:
consumer:
topic: ${KAFKA_CONSUMER_TOPIC:cps.cfg-state-events} |
Note: AAF integration is not included in this documentation as there is already a Jira to handle the integration CPS-281 which is still under discussion.
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