Table of Contents |
---|
Introduction
To achieve its purpose, correlating user information with network performance data, WiFiMon needs RADIUS and/or DHCP logs to be streamed in an Elasticsearch structure. For that purpose, an ELK cluster was built on VMs. A total of five VMs were used, with three of them defined as Elasticsearch master-eligible and data nodes, one VM configured as coordinating node where Kibana was installed too, and another one dedicated to Logstash.
The sources generating log files are a freeRadius and dhcp a DHCP server where Filebeat was installed as an agent. Thus the data flow starts with Filebeat collecting log events and forwarding them to Logstash. At Logstash, the logs are filtered/enriched according to the needs of WiFiMon, before sending them toward Elasticsearch nodes in the cluster.
Note | ||
---|---|---|
| ||
To implement this setup in your environment:
|
VMs Specifications
This setup consists of five VMs each of them having the specifications shown in the following table:
Property | Value |
---|---|
CPUs | 4 |
Memory | 8 GB |
Storage | 100 GB |
Network | 1 Gbps |
Architecture | x86_64 |
OS | CentOS 7 |
Cluster Setup
Setting up an ELK cluster means installing the software packages implementing its components. Some configuration must also be done as a preparation, before starting with the configuration of the cluster itself.
Anchor | ||||
---|---|---|---|---|
|
The following table shows the DNS configuration and the role each machine plays in the cluster.
FQDN | IP | Role |
---|---|---|
wifimon-node1.rashexample.alorg | 10.2540.240.2301 | master-eligible / data node |
wifimon-node2.rashexample.alorg | 10.2540.240.2322 | master-eligible / data node |
wifimon-node3.rashexample.alorg | 10.2540.240.2373 | master-eligible / data node |
wifimon-kibana.rashexample.alorg | 10.2540.240.1484 | coordinating node |
wifimon-logstash.rashexample.alorg | 10.2540.240.2335 | pipeline node |
Cluster node is considered to be the one that joins the cluster. In this setup, cluster nodes are the three master-eligible/data nodes and the coordinating node. The pipeline node is not, it doesn’t join the cluster.
Package Installation
A cluster is a collection of nodes.
Being a cluster of Elasticsearch nodes, Java (at least version 8) is required, so the java-1.8.0-openjdk package was installed
...
in each node.
Having the Java dependency satisfied, the next step was to install the elasticsearch package
...
in each cluster node, that is not in the pipeline node. For more information see Install Elasticsearch with RPM.
...
In the coordinating node, along with elasticsearch, the kibana package was installed, too. For more information see Install Kibana with RPM.
...
The logstash package was installed in the
...
pipeline node. For more information see Installing Logstash.
The filebeat package was installed in
...
the dhcp
...
and
...
the freeRadius server which implements the Eduroam Service Provider. For more information see Repositories for APT and YUM.
All the packages implementing the cluster's components (elasticsearch, logstash, kibana, filebeat) must be of the same version. This setup is about version 7.8.0.
System Configuration
Each node’s hostname is set to its FQDN, according to the values shown in the VMs DNS
...
table. This value is referenced in the configuration file of Elasticsearch, and is also used in certificates for hostname validation.
It is recommended to disable system swapping, which can result in parts of JVM Heap or even its executable pages being swapped out to disk.
Various communications take place in a cluster, with their connections requiring specific ports being opened in the firewall. The following
...
table represents our situation.
Node | Open Port |
---|---|
wifimon-node{1,2,3}. |
...
example.org | 9300/tcp |
wifimon-kibana. |
...
example. |
...
org | 9200/tcp, 9300/tcp, 5601/tcp |
wifimon-logstash. |
...
example. |
...
org | 5044/tcp |
...
Port 9300/tcp is used for internal communication between cluster nodes. Port 5044/tcp is where Logstash listens for beats of log events sent from Filebeat. Port 5601/tcp is used to access Kibana platform from the browser.
...
Port 9200/tcp is used to query the cluster.
Note | ||
---|---|---|
| ||
The node wifimon-kibana.example.org is also used for monitoring purposes, and this is the reason port 9200/tcp is open in the firewall. There's no need to open port 9200/tcp for querying the cluster, this can only happen locally by applying Elasticsearch REST API commands at the cluster node you are currently logged in. For more information on querying the cluster see Cluster Exploration. |
This setup uses firewalld for the implementation of firewall. On each node a "wifimon" custom zone is created to hold the specific configuration. On wifimon-kibana.example.org node, furthermore, some configuration goes into public zone to allow access for the kibana platform and the cluster components.
On wifimon-kibana.example.org:
Code Block |
---|
firewall-cmd --zone=public --list-ports
5601/tcp
firewall-cmd --zone=public --list-rich-rules
rule family="ipv4" source ipset="wifimon-components" port port="9200" protocol="tcp" accept
firewall-cmd --ipset=wifimon-components --get-entries
10.0.0.1
10.0.0.2
10.0.0.3
10.0.0.5
10.10.10.111
192.168.1.15
firewall-cmd --zone=wifimon --list-ports
9300/tcp
firewall-cmd --zone=wifimon --list-sources
10.0.0.1 10.0.0.2 10.0.0.3 10.0.0.4 |
Note | ||
---|---|---|
| ||
In the wifimon-components ipset, |
On wifimon-node{1,2,3}.example.org:
Code Block |
---|
firewall-cmd --zone=wifimon --list-ports
9300/tcp
firewall-cmd --zone=wifimon --list-sources
10.0.0.1 10.0.0.2 10.0.0.3 10.0.0.4 |
On wifimon-logstash.example.org:
Code Block |
---|
firewall-cmd --zone=wifimon --list-ports
5044/tcp
firewall-cmd --zone=wifimon --list-sources
10.10.10.111 192.168.1.15 |
SSL/TLS Certificates
The cluster communication is secured by configuring SSL/TLS encryption. The elasticsearch-certutil was used to generate a CA certificate, utilized for signing the certificates of the cluster components. This utility comes with the elasticsearch installation, and in this case was used the one installed in the wifimon-kibana.example.org node.
Create the instances.yml file with the following contents:
Code Block | ||
---|---|---|
| ||
instances:
- name: node1
dns: wifimon-node1.example.org
- name: node2
dns: wifimon-node2.example.org
- name: node3
dns: wifimon-node3.example.org
- name: kibana
dns: wifimon-kibana.example.org
- name: logstash
dns: wifimon-logstash.example.org
- name: filebeat |
Generate the CA certificate and key:
Code Block |
---|
/usr/share/elasticsearch/bin/elasticsearch-certutil ca --ca-dn CN='WiFiMon CA' --days 3650 --keysize 4096 --out $(pwd)/wifimon-ca.zip --pass --pem |
The above will create the wifimon-ca.zip
file in the current directory. Unzip it.
Generate components certificates and keys:
Code Block |
---|
/usr/share/elasticsearch/bin/elasticsearch-certutil cert --ca-cert $(pwd)/ca/ca.crt --ca-key $(pwd)/ca/ca.key --days 1000 --in $(pwd)/instances.yml --keysize 4096 --out $(pwd)/wifimon-certs.zip --pass --pem |
The above will create the wifimon-certs.zip
file in the current directory. Unzip it.
Info | ||
---|---|---|
| ||
In the commands above, the paths have been prefixed with $(pwd) because the version 7.8.0 of Elasticsearch, at the moment of this writing, falls back on using the /usr/share/elasticsearch if you don’t use the full path. |
The key to configure Logstash must be in the PKCS#8
format:
Code Block |
---|
cd logstash
openssl pkcs8 -topk8 -in logstash.key -out logstash.pkcs8.key
cd .. |
At this point the current directory should have the following layout:
Code Block |
---|
├── ca
│ ├── ca.crt
│ └── ca.key
├── filebeat
│ ├── filebeat.crt
│ └── filebeat.key
├── instances.yml
├── kibana
│ ├── kibana.crt
│ └── kibana.key
├── logstash
│ ├── logstash.crt
│ ├── logstash.key
│ └── logstash.pkcs8.key
├── node1
│ ├── node1.crt
│ └── node1.key
├── node2
│ ├── node2.crt
│ └── node2.key
├── node3
│ ├── node3.crt
│ └── node3.key
├── wifimon-ca.zip
└── wifimon-certs.zip |
Create a directory named certs under each component’s configuration directory, and copy there the certificate authority and the corresponding component’s certificate and key. At the end, the certs directories on each component should look like the layouts shown below.
On wifimon-kibana.example.org node:
Code Block |
---|
/etc/elasticsearch/certs/
├── ca.crt
├── kibana.crt
└── kibana.key
/etc/kibana/certs/
├── ca.crt
├── kibana.crt
└── kibana.key |
On wifimon-node1.example.org node:
Code Block |
---|
/etc/elasticsearch/certs/
├── ca.crt
├── node1.crt
└── node1.key |
On wifimon-node2.example.org node:
Code Block |
---|
/etc/elasticsearch/certs/
├── ca.crt
├── node2.crt
└── node2.key |
On wifimon-node3.example.org node:
Code Block |
---|
/etc/elasticsearch/certs/
├── ca.crt
├── node3.crt
└── node3.key |
On wifimon-logstash.example.org node:
Code Block |
---|
/etc/logstash/certs/
├── ca.crt
├── logstash.crt
└── logstash.pkcs8.key |
On freeRadius and dhcp server where filebeat is installed:
Code Block |
---|
/etc/filebeat/certs/
├── ca.crt
├── filebeat.crt
└── filebeat.key |
For more information on elasticsearch-certutil see its
SSL/TLS Certificates
The cluster communication is secured by configuring SSL/TLS. The elasticsearch-certutil was used to generate a CA certificate utilized for signing while generating the cluster components certificates. This utility comes with the elasticsearch installation, and in this case was used the one installed in the wifimon-kibana.rash.al node.
Create the instances.yml file with the following contents:
Code Block | ||
---|---|---|
| ||
instances:
- name: node1
dns: wifimon-node1.rash.al
ip: 10.254.24.230
- name: node2
dns: wifimon-node2.rash.al
ip: 10.254.24.232
- name: node3
dns: wifimon-node3.rash.al
ip: 10.254.24.237
- name: kibana
dns: wifimon-kibana.rash.al
ip: 10.254.24.148
- name: logstash
dns: wifimon-logstash.rash.al
- name: filebeat |
Generate the CA certificate and key:
Code Block |
---|
/usr/share/elasticsearch/bin/elasticsearch-certutil ca --ca-dn CN='WiFiMon CA' --days 3650 --keysize 4096 --out $(pwd)/wifimon-ca.zip --pass --pem |
The above will create the wifimon-ca.zip
file in the current directory. Unzip it.
Generate components certificates and keys:
Code Block |
---|
/usr/share/elasticsearch/bin/elasticsearch-certutil cert --ca-cert $(pwd)/ca/ca.crt --ca-key $(pwd)/ca/ca.key --days 1000 --in $(pwd)/instances.yml --keysize 4096 --out $(pwd)/wifimon-certs.zip --pass --pem |
The above will create the wifimon-certs.zip
file in the current directory. Unzip it.
Info | ||
---|---|---|
| ||
In the commands above, the paths have been prefixed with $(pwd) because the version 7.8.0 of Elasticsearch, at the moment of this writing, falls back on using the /usr/share/elasticsearch if you don’t use the full path. |
The key to configure Logstash must be in the PKCS#8
format:
Code Block |
---|
cd logstash
openssl pkcs8 -topk8 -in logstash.key -out logstash.pkcs8.key
cd .. |
At this point the current directory should have the following layout:
Code Block |
---|
├── ca
│ ├── ca.crt
│ └── ca.key
├── filebeat
│ ├── filebeat.crt
│ └── filebeat.key
├── instances.yml
├── kibana
│ ├── kibana.crt
│ └── kibana.key
├── logstash
│ ├── logstash.crt
│ ├── logstash.key
│ └── logstash.pkcs8.key
├── node1
│ ├── node1.crt
│ └── node1.key
├── node2
│ ├── node2.crt
│ └── node2.key
├── node3
│ ├── node3.crt
│ └── node3.key
├── wifimon-ca.zip
└── wifimon-certs.zip |
Create a directory named certs under each component’s configuration directory, and copy there the certificate authority and the corresponding component’s certificate and key. At the end, the certs directories on each component should look like the layouts shown below.
On wifimon-kibana.rash.al node:
Code Block |
---|
/etc/elasticsearch/certs/
├── ca.crt
├── kibana.crt
└── kibana.key
/etc/kibana/certs/
├── ca.crt
├── kibana.crt
└── kibana.key |
On wifimon-node1.rash.al node:
Code Block |
---|
/etc/elasticsearch/certs/
├── ca.crt
├── node1.crt
└── node1.key |
On wifimon-node2.rash.al node:
Code Block |
---|
/etc/elasticsearch/certs/
├── ca.crt
├── node2.crt
└── node2.key |
On wifimon-node3.rash.al node:
Code Block |
---|
/etc/elasticsearch/certs/
├── ca.crt
├── node3.crt
└── node3.key |
On wifimon-logstash.rash.al node:
Code Block |
---|
/etc/logstash/certs/
├── ca.crt
├── logstash.crt
└── logstash.pkcs8.key |
On freeRadius and dhcp server where filebeat is installed:
Code Block |
---|
/etc/filebeat/certs/
├── ca.crt
├── filebeat.crt
└── filebeat.key |
For more information on elasticsearch-certutil see its documentation page.
Cluster Configuration
Configuring a cluster means configuring the nodes it consists of, which in turn means defining cluster-general and node-specific settings. Elasticsearch defines these settings in configuration files located under the /etc/elasticsearch directory.
Anchor jvm_options jvm_options
JVM Options
jvm_options | |
jvm_options |
JVM options are defined in the /etc/elasticsearch/jvm.options file. By default Elasticsearch tells JVM to use a heap of minimum and maximum of 1 GB size. The more heap available, the more memory it can use for caching, however it is recommended to use no more than 50% of the total memory.
Note | ||
---|---|---|
| ||
Tests with heap size set to 4 GB which indeed isn't more than 50% of the 8 GB the total memory, generated some out of memory exceptions, so it's better to think in terms of “less than” "less than" rather than “no "no more than”than". |
On each node, configure the heap size to be 3 GB by setting the -Xms3g and -Xmx3g options. For more information see Setting the heap size.
Note | ||
---|---|---|
| ||
On a running elasticsearch instance: If the command "systemctl -l status elasticsearch.service" produces produces the following warning:
then (according to JEP 291) comment out the option "-XX:+UseConcMarkSweepG" and set the option "-XX:+UseG1GC". If the file "/var/log/elasticsearch/wifimon_deprication.log" contains warnings like the following:
then proceed with the recommendation and , that is set the option "-Des.transport.cname_in_publish_address=true". |
Master-Eligible / Data Nodes
In a heavy data traffic cluster of many nodes, it is recommended to have the master-eligible and data nodes separated and dedicated to their own role. In this setup, however, there are three nodes configured as having both functionalities.
By default a node is a master-eligible, data, and ingest node, which means (a) it can be elected as master node to control the cluster, (b) it can hold data and perform operations on them, and (c) it is able to filter and enrich a data document before being indexed. Having a dedicated pipeline node with filtering/enriching capabilities there’s no need for the ingest feature, it has been however enabled because it is used for monitoring purposes.
Note | ||
---|---|---|
| ||
Elasticsearch keystore should be configured before running this configuration. |
On wifimon-node1.rashexample.al org node:
Code Block | ||
---|---|---|
| ||
cluster.name: wifimon node.name: ${HOSTNAME} node.master: true node.voting_only: false node.data: true node.ingest: true node.ml: false cluster.remote.connect: false path.data: /var/lib/elasticsearch path.logs: /var/log/elasticsearch network.host: wifimon-node1.rashexample.alorg discovery.seed_hosts: [ "wifimon-node1.rashexample.alorg", "wifimon-node2.rashexample.alorg", "wifimon-node3.rashexample.alorg" ] #cluster.initial_master_nodes: [ # "wifimon-node1.rashexample.alorg", # "wifimon-node2.rashexample.alorg", # "wifimon-node3.rashexample.alorg" #] xpack.security.enabled: true xpack.security.http.ssl.enabled: true xpack.security.transport.ssl.enabled: true xpack.security.transport.ssl.verification_mode: full xpack.security.http.ssl.key: /etc/elasticsearch/certs/node1.key xpack.security.http.ssl.certificate: /etc/elasticsearch/certs/node1.crt xpack.security.http.ssl.certificate_authorities: /etc/elasticsearch/certs/ca.crt xpack.security.transport.ssl.key: /etc/elasticsearch/certs/node1.key xpack.security.transport.ssl.certificate: /etc/elasticsearch/certs/node1.crt xpack.security.transport.ssl.certificate_authorities: /etc/elasticsearch/certs/ca.crt xpack.monitoring.enabled: true xpack.monitoring.collection.enabled: true |
On wifimon-node2.rashexample.al org node:
Code Block | ||
---|---|---|
| ||
cluster.name: wifimon node.name: ${HOSTNAME} node.master: true node.voting_only: false node.data: true node.ingest: true node.ml: false cluster.remote.connect: false path.data: /var/lib/elasticsearch path.logs: /var/log/elasticsearch network.host: wifimon-node2.rashexample.alorg discovery.seed_hosts: [ "wifimon-node1.rashexample.alorg", "wifimon-node2.rashexample.alorg", "wifimon-node3.rashexample.alorg" ] #cluster.initial_master_nodes: [ # "wifimon-node1.rashexample.alorg", # "wifimon-node2.rashexample.alorg", # "wifimon-node3.rashexample.alorg" #] xpack.security.enabled: true xpack.security.http.ssl.enabled: true xpack.security.transport.ssl.enabled: true xpack.security.transport.ssl.verification_mode: full xpack.security.http.ssl.key: /etc/elasticsearch/certs/node2.key xpack.security.http.ssl.certificate: /etc/elasticsearch/certs/node2.crt xpack.security.http.ssl.certificate_authorities: /etc/elasticsearch/certs/ca.crt xpack.security.transport.ssl.key: /etc/elasticsearch/certs/node2.key xpack.security.transport.ssl.certificate: /etc/elasticsearch/certs/node2.crt xpack.security.transport.ssl.certificate_authorities: /etc/elasticsearch/certs/ca.crt xpack.monitoring.enabled: true xpack.monitoring.collection.enabled: true |
On wifimon-node3.rashexample.al org node:
Code Block | ||
---|---|---|
| ||
cluster.name: wifimon node.name: ${HOSTNAME} node.master: true node.voting_only: false node.data: true node.ingest: true node.ml: false cluster.remote.connect: false path.data: /var/lib/elasticsearch path.logs: /var/log/elasticsearch network.host: wifimon-node3.rashexample.alorg discovery.seed_hosts: [ "wifimon-node1.rashexample.alorg", "wifimon-node2.rashexample.alorg", "wifimon-node3.rashexample.alorg" ] #cluster.initial_master_nodes: [ # "wifimon-node1.rashexample.alorg", # "wifimon-node2.rashexample.alorg", # "wifimon-node3.rashexample.alorg" #] xpack.security.enabled: true xpack.security.http.ssl.enabled: true xpack.security.transport.ssl.enabled: true xpack.security.transport.ssl.verification_mode: full xpack.security.http.ssl.key: /etc/elasticsearch/certs/node3.key xpack.security.http.ssl.certificate: /etc/elasticsearch/certs/node3.crt xpack.security.http.ssl.certificate_authorities: /etc/elasticsearch/certs/ca.crt xpack.security.transport.ssl.key: /etc/elasticsearch/certs/node3.key xpack.security.transport.ssl.certificate: /etc/elasticsearch/certs/node3.crt xpack.security.transport.ssl.certificate_authorities: /etc/elasticsearch/certs/ca.crt xpack.monitoring.enabled: true xpack.monitoring.collection.enabled: true |
Each node has the same value for cluster.name which is a unique name identifying the cluster. This is how a node joins a cluster.
The node.name is set to the value of ${HOSTNAME}, that is the value of the node’s FQDN.
...
The value for this setting can also be
...
given explicitly
...
.
The node.master makes this node eligible to be elected as a master node which controls the cluster. Every master-eligible node, which is not a voting_only node, can be the master node of the cluster.
The node.ml feature is set to false. This is a machine learning feature which by default is set to true by x-pack extension, which comes installed by elastisearch package since version 6.3.
The cluster.remote.connect setting makes this node to function as a cross-cluster client able to connect to remote clusters. This is not the case of this setup so it is set to false.
The network.host functions as a shortcut for the network.bind_host and network.publish_host. The former specifies the interface to listen for requests while the later is used to communicate with other nodes in the cluster.
The discovery.seed_hosts provides a list of nodes for this node to contact in order to join the cluster. It is safe to set this to the list of master-eligible nodes.
The cluster.initial_master_nodes provides a list of master-eligible nodes whose votes count in the very first election of the master node. The nodes in this list must match exactly the node.name of the nodes.
Note | ||
---|---|---|
| ||
The cluster.initial_master_nodes setting is only used when starting a new cluster for the very first time. This is known as the cluster bootstrapping. This setting should not be used when restarting or adding a new node in an existing cluster. |
The xpack.security.{http,transport}.* settings enable the SSL/TLS encryption for the HTTP and Transport communication protocol, respectively.
The xpack.monitoring.enabled enables/disables the monitoring on the node, while xpack.monitoring.collection.enabled enable/disables the collection of monitoring data.
Note | ||
---|---|---|
| ||
It is recommended to setup a separate cluster for monitoring a production cluster. For more information see Monitoring in a production environment. |
For more information about the aforementioned settings see Node, Network Settings, Important discovery and cluster formation settings, and Secure a cluster.
Coordinating Node
A coordinating node is a node that has node.master, node.data, and node.ingest settings set to false, which means you are left with a node actually behaving as a load-balancer, routing the requests on the appropriate nodes in the cluster.
A coordinating node is an Elasticsearch node which joins the cluster as every cluster node. In this setup, the coordinating node is named wifimon-kibana.rashexample.alorg because the Kibana visualization platform has been installed and configured on in it.
Below is the configuration of wifimon-kibana.rashexample.al org as an Elasticsearch coordinating node. It follows the same pattern as the master-eligible/data nodes, but with their functionalities set to false.
Note | ||
---|---|---|
| ||
Elasticsearch keystore should be configured before running this configuration. |
On wifimon-kibana.rashexample.al org node:
Code Block | ||
---|---|---|
| ||
cluster.name: wifimon node.name: ${HOSTNAME} node.master: false node.voting_only: false node.data: false node.ingest: false node.ml: false cluster.remote.connect: false path.data: /var/lib/elasticsearch path.logs: /var/log/elasticsearch network.host: wifimon-kibana.rashexample.alorg discovery.seed_hosts: [ "wifimon-node1.rashexample.alorg", "wifimon-node2.rashexample.alorg", "wifimon-node3.rashexample.alorg" ] xpack.security.enabled: true xpack.security.http.ssl.enabled: true xpack.security.transport.ssl.enabled: true xpack.security.transport.ssl.verification_mode: full xpack.security.http.ssl.key: /etc/elasticsearch/certs/kibana.key xpack.security.http.ssl.certificate: /etc/elasticsearch/certs/kibana.crt xpack.security.http.ssl.certificate_authorities: /etc/elasticsearch/certs/ca.crt xpack.security.transport.ssl.key: /etc/elasticsearch/certs/kibana.key xpack.security.transport.ssl.certificate: /etc/elasticsearch/certs/kibana.crt xpack.security.transport.ssl.certificate_authorities: /etc/elasticsearch/certs/ca.crt xpack.monitoring.enabled: true xpack.monitoring.collection.enabled: true |
Setup Passwords
Elasticsearch comes with built-in users configured, each of them having a set of privileges but with their passwords not set, and consequently unable to be used for authentication.
Passwords setup requires the nodes being up and running in a healthy cluster. Start the elasticsearch instance on each cluster node, and after ensuring each instance is running properly, run the following command in wifimon-kibana.rashexample.alorg node to setup the passwords.
Code Block |
---|
/usr/share/elasticsearch/bin/elasticsearch-setup-passwords auto -u "https://wifimon-kibana.rashexample.alorg:9200" |
The above command will randomly generate passwords for each built-in user. Save the output!
For more information on Built-in users follow the link.
Kibana Platform
Kibana is a browser-based interface that allows for searching, viewing, and interacting with the data stored in the cluster. It’s a visualization platform for creating charts, tables, and maps to represent the data. Kibana should be configured in an Elasticsearch node. The configuration of Kibana is done by editing the /etc/kibana/kibana.yml file.
Note | ||
---|---|---|
| ||
Kibana keystore should be configured before running this configuration. |
On wifimon-kibana.rashexample.al org node:
Code Block | ||
---|---|---|
| ||
server.port: 5601 server.host: "wifimon-kibana.rashexample.alorg" server.name: "wifimon-kibana" elasticsearch.hosts: ["https://wifimon-kibana.rashexample.alorg:9200"] server.ssl.enabled: true server.ssl.certificate: /etc/kibana/certs/kibana.crt server.ssl.key: /etc/kibana/certs/kibana.key elasticsearch.ssl.certificateAuthorities: ["/etc/kibana/certs/ca.crt"] elasticsearch.ssl.verificationMode: full |
The elasticsearch.hosts is an array of URLs of nodes to send the queries. It is set to the https://wifimon-kibana.rashexample.alorg:9200 which is the coordinating node.
...
Code Block | ||
---|---|---|
| ||
/var/log/kibana/*.log { notifempty missingok compress daily rotate 7 create 0644 kibana kibana sharedscripts postrotate /bin/kill -s SIGHUP $(cat /var/run/kibana/kibana.pid) > /dev/null 2>&1 endscript } |
Start the kibana service, access the platform at https://wifimon-kibana.rashexample.alorg:5601 and authenticate with the elastic superuser and its password.
For more information on Kibana configuration settings, see Configuring Kibana.
Anchor | ||||
---|---|---|---|---|
|
Even though it is possible to explore the cluster by using the Kibana platform, this section is about querying the cluster by using the REST API provided by Elasticsearch. The querying commands are executed in wifimon-kibana.rashexample.alorg node and the user elastic is used for authentication.
...
Code Block |
---|
curl -XGET --cacert /etc/elasticsearch/certs/ca.crt --user elastic 'https://wifimon-kibana.rashexample.alorg:9200/_cat/nodes?v' |
Each node is represented by a row consisting of node's IP, heap and memory % usage, average loads as in uptime command output, the roles (m)aster, (d)ata, (i)ngest, which node is elected (*) as master, and node's name.
...
Code Block |
---|
curl --cacert /etc/elasticsearch/certs/ca.crt --user elastic -XGET 'https://wifimon-kibana.rashexample.alorg:9200/_cat/master?v' |
Display health:
Code Block |
---|
curl -XGET --cacert /etc/elasticsearch/certs/ca.crt --user elastic 'https://wifimon-kibana.rashexample.alorg:9200/_cat/health?v' |
Our cluster is of green status, but this will change to yellow after stopping the elasticsearch instance in the master node, which was intentionally chosen in order to see the election of the new master.
Our cluster is of green status, but this will change to yellow after stopping the elasticsearch instance in the master node, which was intentionally chosen in order to see the election of the new master.
On wifimon-node1.rashexample.al org (the master node) run "systemctl stop elasticsearch.service" to stop the elasticsearch instance.
Querying the cluster again from wifimon-kibana.rashexample.al org node shows that the wifimon-node1.rashexample.al org has gone, and the wifimon-node3.rashexample.al org has been elected as the new master. The cluster status is now yellow.
Start the elasticsearch instance on wifimon-node1.rashexample.al org node and query the cluster again. The wifimon-node1.rashexample.al org will join the cluster and the status of the cluster will become green, while wifimon-node3.rashexample.al org continues to be the master node.
Filebeat Configuration
Filebeat monitors log files for new content, collect collects log events, and forwards them to Elasticsearch, either directly or via Logstash. In Filebeat terms one speaks about a) the input which looks in the configured log data locations, b) the harvester which reads a single log for new content and sends new log data to libbeat, and c) the output which aggregates and sends data to the configured output. For more information see Filebeat overview.
...
Below are the sample log files to be used in tests. It's about a log event when of a user interact interacting with the eduroam Eduroam Service Provider and another one while interacting with the dhcp DHCP server.
Code Block | ||
---|---|---|
| ||
Sun Mar 10 08:16:05 2019 Service-Type = Framed-User NAS-Port-Id = "wlan2" NAS-Port-Type = Wireless-802.11 User-Name = "sgjeci@rashusername@example.alorg" Acct-Session-Id = "82c000cd" Acct-Multi-Session-Id = "CC-2D-E0-9A-EB-A3-88-75-98-6C-31-AA-82-C0-00-00- 00-00-00-CD" Calling-Station-Id = "88-75-98-6C-31-AA" Called-Station-Id = "CC-2D-E0-9A-EB-A3:eduroam" Acct-Authentic = RADIUS Acct-Status-Type = Start NAS-Identifier = "Eduroam" Acct-Delay-Time = 0 NAS-IP-Address = 192.168.192.111 Event-Timestamp = "Mar 8 2019 08:16:05 CET" Tmp-String-9 = "ai:" Acct-Unique-Session-Id = "e5450a4e16d951436a7c241eaf788f9b" Realm = "rashexample.alorg" Timestamp = 1552029365 |
Code Block | ||
---|---|---|
| ||
Jun 18 19:15:20 centos dhcpd[11223]: DHCPREQUEST for 192.168.1.200 from a4:c4:94:cd:35:70 (galliumos) via wlp6s0 Jun 18 19:15:20 centos dhcpd[11223]: DHCPACK on 192.168.1.200 to a4:c4:94:cd:35:70 (galliumos) via wlp6s0 |
File Output
As mentioned above, Filebeat will be firstly configured to dump the output in a file. Below is shown the configuration file of Filebeat for each agent. It configures an input of type log, which is needed to read lines from log files. There's also the output which configures the path and the filename to dump the data in, and finally the section of processors to drop some fields Filebeat adds by default, and to add the logtype field used in the Logstash beats-pipeline output.
RADIUS Server
The following is the Filebeat configuration on the radius RADIUS server, which dumps the data in the /tmp/sample_logs_output.json file.
Code Block | ||
---|---|---|
| ||
filebeat.inputs: - type: log enabled: true paths: /tmp/radius_sample_logs multiline.pattern: '^[[:space:]]' multiline.negate: false multiline.match: after output.file: path: /tmp filename: sample_logs_output.json processors: - add_fields: target: '' fields: logtype: radius - drop_fields: fields: ['input', 'host', 'agent', 'acs', 'log', 'ecs'] |
The important settings here are the multiline.* ones which manage multiline formatted logs. The .pattern matches lines starting with white-space. The .negate and .match work together, and combined as false and after make consecutive lines that match the pattern to be appended to the previous line that doesn't match it. This makes all the lines starting with whiteswhite-pace space to be appended to the line that hold the date, actually the first line in the radius_sample_logs. For more information see Manage multiline messages.
...
Code Block | ||
---|---|---|
| ||
{"@timestamp":"2020-06-28T13:07:37.183Z","@metadata": {"beat":"filebeat","type":"_doc","version":"7.8.0"},"logtype":"radius","message":"S unSun Mar 10 08:16:05 2019\n\tService-Type = Framed-User\n\tNAS-Port-Id = \"wlan2\"\n\ tNAS-Port-Type = Wireless-802.11\n\tUser-Name = \"sgjeci@rashusername@example.alorg\"\n\tAcct-SessionId = \"82c000cd\"\n\tAcct-Multi-Session-Id = \"CC-2D-E0-9A-EB-A3-88-75-98-6C-31-AA82-C0-00-00-00-00-00-CD\"\n\tCalling-Station-Id = \"88-75-98-6C-31-AA\"\n\tCalledStation-Id = \"CC-2D-E0-9A-EB-A3:eduroam\"\n\tAcct-Authentic = RADIUS\n\tAcctStatus-Type = Start\n\tNAS-Identifier = \"Eduroam\"\n\tAcct-Delay-Time = 0\n\tNASIPtNAS-IP-Address = 192.168.0192.22111\n\tEvent-Timestamp = \"Mar 8 2019 08:16:05 CET\"\n\tTmpString-9 = \"ai:\"\n\tAcct-Unique-Session-Id = \"e5450a4e16d951436a7c241eaf788f9b\"\n\tRealm = \"rashexample.alorg\"\n\tTimestamp = 1552029365"} |
The logs are located in the message field. The logtype field holds the radius value, thus differentiating these events from the dhcp ones when arriving at Logstash pipeline.
DHCP Server
The following is the Filebeat configuration on the dhcp DHCP server, which dumps the data in the /tmp/sample_logs_output.json file.
Code Block | ||
---|---|---|
| ||
filebeat.inputs: - type: log enabled: true paths: /tmp/dhcp_sample_logs include_lines: ['DHCPACK'] output.file: path: /tmp filename: sample_logs_output.json processors: - add_fields: target: '' fields: logtype: dhcp - drop_fields: fields: ['input', 'host', 'agent', 'acs', 'log', 'ecs'] |
The lines to include from dhcp DHCP logs are the ones containing DHCPACK string, which represent the final phase of dhcp DHCP operations. These lines are filtered with the include_lines setting.
...
Code Block | ||
---|---|---|
| ||
{"@timestamp":"2020-06-28T09:20:17.834Z","@metadata": {"beat":"filebeat","type":"_doc","version":"7.8.0"},"message":"Jun 18 19:15:20 centos dhcpd[11223]: DHCPACK on 192.168.1.200 to a4:c4:94:cd:35:70 (galliumos) via wlp6s0","logtype":"dhcp"} |
The logtype field contains the dhcp value, thus differentiating these events from the radius ones, when arriving at Logstash pipeline.
Filtering Log Events
Apart from adding or dropping named fields, processors can also be used to filter log events when certain criteria are met. For example, to send out only the log events containing the value Eduroam in the NAS-Identifyer field, the following configuration could be applied.
Code Block |
---|
processors: - drop_event: when: not: regexp: message: '.*NAS-Identifier.*=.*Eduroam.*' |
For more information on configuring processors see Filter and enhance the exported data.
Logstash Output
This section shows how to configure Filebeat’s logstash output to feed the pipeline node.
Note | ||
---|---|---|
| ||
Filebeat keystore should be configured before running this configuration. |
...
Code Block |
---|
output.logstash: hosts: ["wifimon-logstash.rashexample.alorg:5044"] ssl.certificate_authorities: ["/etc/filebeat/certs/ca.crt"] ssl.certificate: "/etc/filebeat/certs/filebeat.crt" ssl.key: "/etc/filebeat/certs/filebeat.key" ssl.key_passphrase: "${key_passphrase}" |
The hosts setting specifies node and port where Logstash service listens for incoming log events. The ${key_passphrase} references the passphrase of filebeat.key stored in Filebeat keystore -- it's about mutual SSL/TLS authentication, the client (filebeatFilebeat) is forced to provide a certificate to the server (logstashLogstash) for or the connection to won't be established.
For this configuration to work, the Elasticsearch index template must be manually loaded. Template autoloading is only supported for the elasticsearch output. Replace elastic-password-goes-here with the proper password and run:
Code Block |
---|
set +o history filebeat setup --index-management \ -E output.logstash.enabled=false \ -E 'output.elasticsearch.hosts=["wifimon-kibana.rashexample.alorg:9200"]' \ -E output.elasticsearch.protocol=https \ -E output.elasticsearch.username=elastic \ -E output.elasticsearch.password=elastic-password-goes-here \ -E 'output.elasticsearch.ssl.certificate_authorities=["/etc/filebeat/certs/ ca.crt"]' set -o history |
The above command loads the template from wifimon-kibana.rashexample.al org node where elasticsearch is installed. Detailed information is written in the Filebeat log file.
Monitoring
The Kibana platform allows for monitoring the health of Filebeat service. For this to happen, the following configuration must be added in the /etc/filebeat/filebeat.yml file.
Note | ||
---|---|---|
| ||
Filebeat keystore should be configured before running this configuration. |
...
Code Block |
---|
monitoring.enabled: true monitoring.cluster_uuid: "cluster-id-goes-here" monitoring.elasticsearch.ssl.certificate_authorities: ["/etc/filebeat/certs/ca.crt"] monitoring.elasticsearch.ssl.certificate: "/etc/filebeat/certs/filebeat.crt" monitoring.elasticsearch.ssl.key: "/etc/filebeat/certs/filebeat.key" monitoring.elasticsearch.ssl.key_passphrase: "${key_passphrase}" monitoring.elasticsearch.hosts: ["https://wifimon-kibana.rashexample.alorg:9200"] monitoring.elasticsearch.username: beats_system monitoring.elasticsearch.password: "${beats_system_password}" |
...
Code Block |
---|
curl --cacert /etc/elasticsearch/certs/ca.crt --user elastic -XGET 'https://wifimon-kibana.rashexample.alorg:9200/_cluster/state/all?pretty' |
The ${beats_system_password} references the password of the beats_system built-in user which is stored in Filebeat keystore.
Logstash Configuration
Logstash is a data collection engine with real-time pipelining capabilities. A Logstash pipeline consists of three elements, the input, filter, and output. The input plugins consume data coming from a source, the filter plugins modify the data as specified, and the output plugins send data to a defined destination. In this setup data comes from Filebeat agents, with their logstash output configured to feed the Logstash instance on port 5044/tcp.
Note | ||
---|---|---|
| ||
Logstash keystore should be configured before running the configurations provided here. |
JVM Options
The JVM Options for Logstash are defined in the /etc/logstash/jvm.options file. The configuration is the same as the one configuring the JVM Options of Elasticsearch.
Logstash Settings
Logstash settings are defined in the /etc/logstash/logstash.yml file, which contains the following:
Code Block | ||
---|---|---|
| ||
path.data: /var/lib/logstash path.logs: /var/log/logstash queue.type: persisted xpack.monitoring.enabled: true/logstash path.logs: /var/log/logstash queue.type: persisted xpack.monitoring.enabled: true xpack.monitoring.elasticsearch.username: "logstash_system" xpack.monitoring.elasticsearch.password: "${logstash_system_password}" xpack.monitoring.elasticsearch.hosts: "https://wifimon-kibana.example.org:9200" xpack.monitoring.elasticsearch.ssl.certificate_authority: "/etc/logstash/certs/ca.crt" xpack.monitoring.elasticsearch.ssl.usernameverification_mode: "logstash_system"certificate xpack.monitoring.elasticsearch.passwordsniffing: "${logstash_system_password}" xpack.monitoring.elasticsearch.hosts: "https://wifimon-kibana.rash.al:9200" xpack.monitoring.elasticsearch.ssl.certificate_authority: "/etc/logstash/certs/ca.crt" xpack.monitoring.elasticsearch.ssl.verification_mode: certificate xpack.monitoring.elasticsearch.sniffing: true |
...
true |
The path.data and path.logs defines the directories logstash will use to write persistent data and log messages, respectively.
The queue.type set the queue to persisted, to provide protection against data loss by using an on-disk queue. For more information see Persistent Queues.
The other settings configure Logstash to send monitoring data over SSL/TLS encryption.
Note | ||
---|---|---|
| ||
If you get in the Logstash logs the warning:
then you can ignore it. According to https://github.com/elastic/logstash/issues/10352 it's about a false warning |
...
. |
Logstash Pipelines
Logstash pipelines are defined in the /etc/logstash/pipelines.yml file, which contains:
Code Block | ||
---|---|---|
| ||
- pipeline.id: beats-pipeline path.config: "/etc/logstash/conf.d/beats-pipeline.conf" - pipeline.id: radius-pipeline path.config: "/etc/logstash/conf.d/radius-pipeline.conf" - pipeline.id: dhcp-pipeline path.config: "/etc/logstash/conf.d/dhcp-pipeline.conf" |
For each pipeline, an id and the configuration file is defined. The beats-pipeline functions as a gate receiving logs from both (radius , and dhcp) streams, and then feeds their pipelines, respectivelyforwarding these logs to the proper pipeline.
Anchor | ||||
---|---|---|---|---|
|
As already mentioned above, the beats-pipeline acts as receiver / forwarder of log-events coming from radius RADIUS and dhcp DHCP streams. It doesn’t configure any filter element, but the input and output ones.
...
The beats plugin configures Logstash to listen on port 5044. It also provides settings for SSL/TLS encryption and forces the peer (filebeatFilebeat) to provide a certificate for identification. The output defines which pipeline to forward the data to, based on the value of logtype field sent from filebeat Filebeat agent.
RADIUS Pipeline
The radius-pipeline is configured in the /etc/logstash/conf.d/radius-pipeline.conf file. It receives radius RADIUS log-events sent from the beats-pipeline.
Code Block | ||
---|---|---|
| ||
input { pipeline { address => radiuslogs } } filter { mutate { gsub => [ "message", "[\n\t]+", " " ] } kv { allow_duplicate_values => false include_keys => [ "Calling-Station-Id", "Framed-IP-Address", "Timestamp", "Called-Station-Id", "NAS-IP-Address", Address", "Acct-Status-Type" ] remove_field => [ "logtype", "message", "@version" ] } if "beats_input_codec_plain_applied" in [tags] { mutate { remove_tag => ["beats_input_codec_plain_applied"] } } geoip { source => "NAS-IP-Address" } fingerprint { key => "${cipherfingerprint_key}" method => "SHA512" source => "Calling-Station-Id" target => "Calling-Station-Id" } } fingerprint { key => "${cipherfingerprint_key}" method => "SHA512" source => "Framed-IP-Address" target => "Framed-IP-Address" } } output { stdout { codec => rubydebug } } |
...
The output defines the stdout plugin which dumps the filtered data in the standard output, allowing for testing a data flow of Filebeat → Logstash → Logstash_STDOUT.
DHCP Pipeline
The dhcp-pipeline is configured in the /etc/logstash/conf.d/dhcp-pipeline.conf file. It receives dhcp DHCP log-events sent from the beats-pipeline.
Code Block | ||
---|---|---|
| ||
input { pipeline { address => dhcplogs } } filter { dissect { mapping => { "message" => "%{} DHCPACK on %{ip} to %{mac} %{}" } remove_field => [ "logtype", "message", "@version" "@version" ] } if "beats_input_codec_plain_applied" in [tags] { mutate { remove_tag => ["beats_input_codec_plain_applied"] } } fingerprint { key => "${cipherfingerprint_key}" method => "SHA512" source => "ip" target => "ip" } fingerprint { key => "${cipherfingerprint_key}" method => "SHA512" source => "mac" target => "mac" } } output { stdout { codec => rubydebug } } |
...
The output defines the stdout plugin which dumps the filtered data in the standard output, allowing for testing a data flow of Filebeat → Logstash → Logstash_STDOUT.
Streaming to STDOUT
Having Filebeat agents configured to feed Logstash, whose pipelines are configured to dump data to STDOUT, makes it possible to test a data flowing through Filebeat → Logstash → Logstash_STDOUT.
On wifimon-logstash.rashexample.al org start the logstash service:
...
Set the journal to follow recently appended entries for logstash service:
Code Block |
---|
journalctl --follow --unit logstash.service |
On radius RADIUS server run the test_filebeat.sh script as root user.
On wifimon-logstash.rashexample.al org terminal should be shown something like:
Code Block |
---|
{ "Called-Station-Id" => "CC-2D-E0-9A-EB-A3:eduroam", "Acct-Status-Type" => "Start", "NAS-IP-Address" => "162.13.218.132", "@timestamp" => 2019-12-10T17:35:38.054Z, "Calling-Station-Id" => "UFWjPNUDSNkBYirsfcaZlkPrY0UOddLORId8boq59FTAhE3fM8xyV2uShOIf5y8W389c0235f65590b4c80c8b6be576abb6a66c89e5331b43c65cdfa4f66f9463cc374d46eeb88041624ccdd258814d80a9aeb16494e4c60b16ae82896aab703ec8", "Timestamp" => "1552029365", "geoip" => { "country_code3" => "GB", "ip" => "162.13.218.132", "timezone" => "Europe/London", "country_code2" => "GB", "continent_code" => "EU", "latitude" => 51.4964, "country_name" => "United Kingdom", "location" => { "lat" => 51.4964, "lon" => -0.1224 }, "longitude" => -0.1224 }, "tags" => [] } |
On dhcp DHCP server run the test_filebeat.sh script as root user.
On wifimon-logstash.rashexample.alorg terminal should be shown something like:
Code Block |
---|
{ "mac" => "8db8b992e5a9686e0113b1f885ff485e274d3824847a11c6a371ad873eea2959198199068472f84dc8 9a9489380b6cd8ff02cb97c32dfb849c43a8ed86898b768db8b992e5a9686e0113b1f885ff485e274d3824847a11c6a371ad873eea2959198199068472f84dc89a9489380b6cd8ff02cb97c32dfb849c43a8ed86898b76", "@timestamp" => 2020-06-28T09:46:36.638Z, "tags" => [], "ip" => "a5b40b78fb8b1062ba2464f2d5d15e05bde353beae313d67a6caabf7d219f7905377f706b13f5bc863 20e6784b97bcad25a90d120bb64137d605a67313b2c415a5b40b78fb8b1062ba2464f2d5d15e05bde353beae313d67a6caabf7d219f7905377f706b13f5bc86320e6784b97bcad25a90d120bb64137d605a67313b2c415" } |
The outputs verify the tests were successful, the fields of interest are populated with their values, with some of them being hash-ed. The traffic Filebeat → Logstash was sent over SSL/TLS.
You may have noticed in the output of radius-pipeline that the value of NAS-IP-Address have been changed from private IP to 162.13.218.132 (www.geant.org). This was done intentionally in order to see the results of geoip filter, which gives nothing for private IpsIPs.
Streaming Logs Into Cluster
Until now the streaming of data has been triggered manually by using the sample data. This allowed for testing the configuration of Filebeat and Logstash, and also having a first view of results.
This section is about configuring the components pointing to real data files and implement a streaming through the path Filebeat → Logstash → Elasticsearch.
Filebeat Inputs
In the /etc/filebeat/filebeat.yml file under the filebeat.inputs, the paths should now point to the full path in the filesystem where the RADIUS or the DHCP logs are located.
...
Multiple files can be given to paths setting as a list or as a glob-based pattern.
Create User and Role
In order to send log events to the cluster, the user logstash_writer with the role logstash_writer_role must be created. The role assigns the cluster permissions of monitor and manage_index_templates, and privileges of write and create_index for radiuslogs and dhcplogs indices. Granted with these permissions, the logstash_writer user is able to write data into the index.
...
Code Block |
---|
curl -X POST --cacert /etc/elasticsearch/certs/ca.crt --user elastic \ 'https://wifimon-kibana.rashexample.alorg:9200/_security/role/logstash_writer_role?pretty' \ -H 'Content-Type: application/json' -d' { "cluster": [ "monitor", "manage_index_templates" ], "indices": [ { "names": [ "radiuslogs", “dhcplogs” ], "privileges": [ "write", "create_index" ], "field_security": { "grant": [ "*" ] } } ], "run_as": [], "metadata": {}, "transient_metadata": { "enabled": true } } ' |
To create the user logstash_user replace some-password-goes-here and run:
Code Block |
---|
set +o history curl -X POST --cacert /etc/elasticsearch/certs/ca.crt --user elastic \ 'https://wifimon-kibana.rashexample.alorg:9200/_security/user/logstash_writer?pretty' \ -H 'Content-Type: application/json' -d' { "username": "logstash_writer", "roles": ["logstash_writer_role"], "full_name": null, "email": null, "password": "some-password-goes-here", "enabled": true } ' set -o history |
Logstash Output
On radius-pipeline and dhcp-pipeline configuration files, the output should be configured to send data to Elasticsearch cluster. This is done by configuring the Logstash output elasticsearch plugin.
On radius-pipeline, the output becomes:
Code Block |
---|
output { elasticsearch { ssl => true ssl_certificate_verification => true cacert => "/etc/logstash/certs/ca.crt" user => "logstash_writer" password => "${logstash_writer_password}" hosts => ["https://wifimon-kibana.rashexample.alorg"] index => "radiuslogs" } } |
On dhcp-pipeline, the output becomes:
Code Block |
---|
output { elasticsearch { ssl => true ssl_certificate_verification => true cacert => "/etc/logstash/certs/ca.crt" user => "logstash_writer" password => "${logstash_writer_password}" hosts => ["https://wifimon-kibana.rashexample.alorg"] index => "dhcplogs" } } |
Logstash is now able to send the data over SSL/TLS toward the coordinating node. The logs will be stored in radiuslogs and dhcplogs indices, respectively.
...
Code Block |
---|
curl -XGET --cacert /etc/elasticsearch/certs/ca.crt --user elastic 'https://wifimon-kibana.rashexample.alorg:9200/_cat/indices/radiuslogs?v' curl -XGET --cacert /etc/elasticsearch/certs/ca.crt --user elastic 'https://wifimon-kibana.rashexample.alorg:9200/_cat/indices/dhcplogs?v' |
ILM Configuration
The intention of WiFiMon is not to keep the RADIUS logs forever, they are only needed for a limited period of time. New log events keep coming so, after that time period has passed, the old logs should be deleted.
Logs are stored in the radiuslogs and dhcplogs indices. The index lifecycle management is achieved by creating and applying ILM policies, which can trigger actions upon indexes based on certain criteria. More information about ILM can be found at ILM Overview page.
Create Policy
This setup is about deleting the index when it’s one day old. Run the following command in the wifimon-kibana.rashexample.al org node to create the wifimon_policy policy.
Code Block |
---|
curl -X PUT --cacert /etc/elasticsearch/certs/ca.crt --user elastic "https://wifimon-kibana.rashexample.alorg:9200/_ilm/policy/wifimon_policy?pretty" -H 'Content-Type: application/json' -d' { "policy": { "phases": { "delete": { "min_age": "1d", "actions": { "delete": {} } } } } } ' |
Verify the policy was created:
Code Block |
---|
curl -XGET --cacert /etc/elasticsearch/certs/ca.crt --user elastic "https://wifimon-kibana.rashexample.alorg:9200/_ilm/policy/wifimon_policy?pretty" |
Apply Policy
The policy must be associated with the indexes upon which it will trigger the configured actions. For this to happen the policy must be configured in the index template used to create the index.
On wifimon-kibana.rashexample.al org node run the following command to apply the wifimon_policy to the wifimon_template index template matching the radiuslogs and dhcplogs indices.
Code Block |
---|
curl -X PUT --cacert /etc/elasticsearch/certs/ca.crt --user elastic "https://wifimon-kibana.rashexample.alorg:9200/_template/wifimon_template?pretty" -H 'Content-Type: application/json' -d' { "index_patterns": ["radiuslogs", “dhcplogs”], "settings": {"index.lifecycle.name": "wifimon_policy"} } ' |
...
Code Block |
---|
curl -XGET --cacert /etc/elasticsearch/certs/ca.crt --user elastic "https://wifimon-kibana.rashexample.alorg:9200/_template/wifimon_template?pretty" |
Logstash Output
The Logstash elasticsearch output plugin provides settings to control the Index Lifecycle Management. Include the ILM settings on radius-pipeline and dhcp-pipeline configuration files, so that the elasticsearch output plugin becomes:
On radius-pipeline:
Code Block |
---|
output { elasticsearch { ssl => true cacert => "/etc/logstash/certs/ca.crt" ssl_certificate_verification => true user => "logstash_writer" writer" password => "${logstash_writer_password}" hosts => ["https://wifimon-kibana.rashexample.alorg"] ilm_enabled => true ilm_policy => "wifimon_policy" index => "radiuslogs" } } |
On dhcp-pipeline:
Code Block |
---|
output { elasticsearch { ssl => true cacert => "/etc/logstash/certs/ca.crt" ssl_certificate_verification => true user => "logstash_writer" password => "${logstash_writer_password}" hosts => ["https://wifimon-kibana.rashexample.alorg"] ilm_enabled => true ilm_policy => "wifimon_policy" index => "dhcplogs" } } |
Restart the logstash service to apply the new settings.
Keystores
n In order not to have sensitive information hardcoded in the configuration files and just protecting that information with filesystem permissions, it is recommended to make use of keystores provided by the Elasticsearch components.
Anchor | ||||
---|---|---|---|---|
|
To configure Elasticsearch keystore run the following commands on each cluster node.
...
Code Block |
---|
/usr/share/elasticsearch/bin/elasticsearch-keystore list keystore.seed xpack.security.http.ssl.secure_key_passphrase xpack.security.transport.ssl.secure_key_passphrase |
Anchor | ||||
---|---|---|---|---|
|
To configure Kibana keystore run the following commands on wifimon-kibana.rashexample.al org node.
Create keystore:
Code Block |
---|
sudo -u kibana /usr/share/kibana/bin/kibana-keystore create |
...
Code Block |
---|
sudo -u kibana /usr/share/kibana/bin/kibana-keystore list server.ssl.keyPassphrase elasticsearch.username elasticsearch.password |
Anchor | ||||
---|---|---|---|---|
|
To configure Logstash keystore run the following commands on wifimon-logstash.rashexample.al org node.
For more security, protect the Logstash keystore with a password stored in the environment variable LOGSTASH_KEYSTORE_PASS. This variable must be available to the running logstash instance, otherwise the keystore cannot be accessed.
...
Code Block |
---|
/usr/share/logstash/bin/logstash-keystore --path.settings /etc/logstash/ list fingerprint_key logstash_system_password logstash_writer_password pkcs8_key_passphrase |
Anchor | ||||
---|---|---|---|---|
|
To configure Filebeat keystore run the following commands on the freeRadius server servers where Filebeat is installed.
...
Code Block |
---|
filebeat keystore list beats_system_password key_passphrase |
References
The following links were very useful while writing this material and performing the tests mentioned in it.
- Elasticsearch Reference - https://www.elastic.co/guide/en/elasticsearch/reference/7.8/index.html
- Logstash Reference - https://www.elastic.co/guide/en/logstash/7.8/index.html
- Filebeat Reference - https://www.elastic.co/guide/en/beats/filebeat/7.8/index.html
- Kibana Guide - https://www.elastic.co/guide/en/kibana/7.8/index.html
- Elastic Blog - https://www.elastic.co/blog/