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Contributed by Laurens Vets <laurens@daemon.be>. Version 0.3.3 - July 2017.

Introduction

We will be installing Metron 0.4.0 with HDP 2.5 on CentOS 7. We will also install MariaDB as a database for Metron REST. Additionally, we'll also install Apache NiFi.
I installed Metron in a test environment with 3 VMs to try it out as well as a single node. I'll try to write this guide so that the necessary steps can easily be adapted for other environments.

Environment

  • Single node: 4 CPUs, 16GB RAM.
  • Multiple nodes:
  • 3 VMs, 2 CPUs per VM and 8 GB RAM per VM.
  • Hosts:
  • 10.10.10.1 node1
  • 10.10.10.2 node2
  • 10.10.10.3 node3

Prerequisites:

  • CentOS 7
  • Add the epel repository and install tmux, vim & htop. Installing these utilities is not strictly necessary, but I install these by default for potential troubleshooting & editing of files locally:
# yum install epel-release -y
# yum update -y
# yum install vim tmux htop -y
  • Set up passwordless SSH between our nodes:

If passwordless ssh has not yet been set up within the cluster, then in main node generate key:

# cat /dev/zero | ssh-keygen -q -N "" 2>/dev/null
# cd ~/.ssh
# cat id_rsa.pub >> authorized_keys
  • If you're not installing on a single node, add this newly generated key to all the slave nodes:
ssh-copy-id -i ~/.ssh/id_rsa.pub <replace_with_node_ip>

Side note: You might have to adapt your sshd_config file and add "PermitRootLogin yes" amongst other parameters if you want passwordless root access, but that's outside the scope of this document.

  • Increase limits for ElasticSearch and Storm on nodes where you will be installing them (if you don't know, increase it everywhere):
# echo -e "elasticsearch - memlock unlimited\nstorm - nproc 257597" >> /etc/security/limits.conf
# ulimit -n 32768
# ulimit -u 65536
# echo -e "* - nofile 32768\n* - nproc 65536" >> /etc/security/limits.conf

Disable for the running system:

# sysctl -w net.ipv6.conf.all.disable_ipv6=1
# sysctl -w net.ipv6.conf.default.disable_ipv6=1
or
# echo 1 > /proc/sys/net/ipv6/conf/all/disable_ipv6
# echo 1 > /proc/sys/net/ipv6/conf/default/disable_ipv6

To survive a reboot, you need to add "net.ipv6.conf.all.disable_ipv6 = 1" and "net.ipv6.conf.default.disable_ipv6 = 1" to "/etc/sysctl.conf":

# echo -e "\n# Disable IPv6\nnet.ipv6.conf.all.disable_ipv6 = 1\nnet.ipv6.conf.default.disable_ipv6 = 1" >> /etc/sysctl.conf
  • Disable Transparent Hugepage. Add "transparent_hugepage=never" to the end of the kernel line in "/etc/default/grub" and reboot. (Ambari demands it, do we need to comply?)
Change the line:
GRUB_CMDLINE_LINUX="crashkernel=auto rd.lvm.lv=cl/root rd.lvm.lv=cl/swap rhgb quiet"
To:
GRUB_CMDLINE_LINUX="crashkernel=auto rd.lvm.lv=cl/root rd.lvm.lv=cl/swap rhgb quiet transparent_hugepage=never"
Afterwards, run:
# grub2-mkconfig -o /boot/grub2/grub.cfg

After reboot check that changes were applied (make sure that word "never" is selected in square-brackets):

# cat /sys/kernel/mm/transparent_hugepage/enabled
always madvise [never]

Alternatively, if you do not want to mess with kernel parameters, you can create a new systemd service which disables this on each boot. Create the file "/etc/systemd/system/disable-thp.service" with the following content:

[Unit]
Description=Disable Transparent Huge Pages (THP)

[Service]
Type=simple
ExecStart=/bin/sh -c "echo 'never' > /sys/kernel/mm/transparent_hugepage/enabled && echo 'never' > /sys/kernel/mm/transparent_hugepage/defrag"

[Install]
WantedBy=multi-user.target

Restart systemd, start the new service and make sure the new service runs at startup:

# systemctl daemon-reload
# systemctl start disable-thp
# systemctl enable disable-thp

Metron install pre-preparation:

  • On all nodes Install pre-requisites for Ambari:
# yum install git wget curl rpm tar unzip bzip2 wget createrepo yum-utils ntp python-pip psutils python-psutil ntp libffi-devel gcc openssl-devel -y
# pip install --upgrade pip
# pip install requests
  • Install Maven on main node and on Metron node install java 1.8 (if you don't know which it is, install it everywhere):
# yum install java-1.8.0-openjdk java-1.8.0-openjdk-devel -y
  • Set path to Java 8 if it does not exist:
# export JAVA_HOME=$(readlink -f /usr/bin/java | sed "s_/jre/bin/java__")
  • Save export for future reboots:
# echo 'export JAVA_HOME=$(readlink -f /usr/bin/java | sed "s_/jre/bin/java__")' > /etc/profile.d/java_18.sh
# chmod +x /etc/profile.d/java_18.sh
# source /etc/profile.d/java_18.sh
  • Download and install Maven 3.3.9:
# wget http://apache.volia.net/maven/maven-3/3.3.9/binaries/apache-maven-3.3.9-bin.tar.gz
# tar -zxf apache-maven-3.3.9-bin.tar.gz
# mv apache-maven-3.3.9 /opt
# PATH=/opt/apache-maven-3.3.9/bin:$PATH
# echo 'export PATH=/opt/apache-maven-3.3.9/bin:$PATH' > /etc/profile.d/maven.sh
# chmod +x /etc/profile.d/maven.sh
  • Check whether Maven works:
# source /etc/profile.d/maven.sh
# mvn -V

You should see something similar to:

[root@base1 ~]# mvn -V
Apache Maven 3.3.9 (bb52d8502b132ec0a5a3f4c09453c07478323dc5; 2015-11-10T08:41:47-08:00)
Maven home: /opt/apache-maven-3.3.9
Java version: 1.8.0_131, vendor: Oracle Corporation
Java home: /usr/lib/jvm/java-1.8.0-openjdk-1.8.0.131-3.b12.el7_3.x86_64/jre
Default locale: en_US, platform encoding: UTF-8
OS name: "linux", version: "3.10.0-514.16.1.el7.x86_64", arch: "amd64", family: "unix"
[INFO] Scanning for projects...
[INFO] ------------------------------------------------------------------------
[INFO] BUILD FAILURE
[INFO] ------------------------------------------------------------------------
[INFO] Total time: 0.083 s
[INFO] Finished at: 2017-06-06T09:59:03-07:00
[INFO] Final Memory: 13M/479M
[INFO] ------------------------------------------------------------------------
[ERROR] No goals have been specified for this build. You must specify a valid lifecycle phase or a goal in the format <plugin-prefix>:<goal> or <plugin-group-id>:<plugin-artifact-id>[:<plugin-version>]:<goal>. Available lifecycle phases are: validate, initialize, generate-sources, process-sources, generate-resources, process-resources, compile, process-classes, generate-test-sources, process-test-sources, generate-test-resources, process-test-resources, test-compile, process-test-classes, test, prepare-package, package, pre-integration-test, integration-test, post-integration-test, verify, install, deploy, pre-clean, clean, post-clean, pre-site, site, post-site, site-deploy. -> [Help 1]
[ERROR]
[ERROR] To see the full stack trace of the errors, re-run Maven with the -e switch.
[ERROR] Re-run Maven using the -X switch to enable full debug logging.
[ERROR]
[ERROR] For more information about the errors and possible solutions, please read the following articles:
[ERROR] [Help 1] http://cwiki.apache.org/confluence/display/MAVEN/NoGoalSpecifiedException
[root@base1 ~]#
  • On Ambari node install and enable docker (we will need it to build Metron mpack for Ambari):
# yum install docker-io -y
# systemctl start docker
  • Also on your build box, install npm. This is needed to build metron-config, part of the UI.
# yum install npm -y
  • Remove ipv4 'localhost.localdomain' from /etc/hosts

  • Remove ipv6 'localhost.localdomain' from /etc/hosts

  • Add "127.0.0.1    localhost" to /etc/hosts
  • Install the database we will use for Metron REST:
# yum install mariadb-server mysql-connector-java -y
  • Configure a user and a database for Metron REST:

If you haven't run `mysql_secure_installation` after the database installation, do that first:


# systemctl start mariadb
# systemctl enable mariadb
# systemctl status mariadb
# mysql_secure_installation

NOTE: RUNNING ALL PARTS OF THIS SCRIPT IS RECOMMENDED FOR ALL MySQL
      SERVERS IN PRODUCTION USE!  PLEASE READ EACH STEP CAREFULLY!

In order to log into MySQL to secure it, we'll need the current
password for the root user.  If you've just installed MySQL, and
you haven't set the root password yet, the password will be blank,
so you should just press enter here.

Enter current password for root (enter for none):
OK, successfully used password, moving on...

Setting the root password ensures that nobody can log into the MySQL
root user without the proper authorisation.

Set root password? [Y/n]
New password:
Re-enter new password:
Password updated successfully!
Reloading privilege tables..
 ... Success!


By default, a MySQL installation has an anonymous user, allowing anyone
to log into MySQL without having to have a user account created for
them.  This is intended only for testing, and to make the installation
go a bit smoother.  You should remove them before moving into a
production environment.

Remove anonymous users? [Y/n] n
 ... skipping.

Normally, root should only be allowed to connect from 'localhost'.  This
ensures that someone cannot guess at the root password from the network.

Disallow root login remotely? [Y/n]
 ... Success!
By default, MySQL comes with a database named 'test' that anyone can
access.  This is also intended only for testing, and should be removed
before moving into a production environment.

Remove test database and access to it? [Y/n]
 - Dropping test database...
ERROR 1008 (HY000) at line 1: Can't drop database 'test'; database doesn't exist
 ... Failed!  Not critical, keep moving...
 - Removing privileges on test database...
 ... Success!

Reloading the privilege tables will ensure that all changes made so far
will take effect immediately.

Reload privilege tables now? [Y/n]
 ... Success!

All done!  If you've completed all of the above steps, your MySQL
installation should now be secure.

Thanks for using MySQL!


Cleaning up...
#

Build Metron code


Now we are going to start to building Metron. At the time of writing, Metron 0.4.0 was in the final stages of being released.

  • On the main node, clone the Metron repository:
# git clone https://github.com/apache/metron

If you want to make sure you're on the 0.4.0 release branch, do:

# git clone https://github.com/apache/metron
# cd metron
# git checkout Metron_0.4.0
  • Build Metron with HDP 2.5 profile:
# cd metron
# mvn clean package -DskipTests -T 2C -P HDP-2.5.0.0,mpack
# cd metron-deployment/packaging/docker/rpm-docker
# mvn clean install -DskipTests -PHDP-2.5.0.0

If for some reason, the rpm-docker fails with the message "/bin/bash: ./build.sh: Permission denied", try disabling selinux ("setenforce 0") and run "mvn clean install -DskipTests -PHDP-2.5.0.0" again.

  • On all nodes, create a localrepo directory and copy the RPMs from Ambari node there:
# mkdir /localrepo
# cp -rp /root/metron/metron-deployment/packaging/docker/rpm-docker/RPMS/noarch/* /localrepo/
# createrepo /localrepo
  • If you're doing a multi node install, also copy the packages to the other nodes:
# ssh root@node2 mkdir /localrepo
# scp /localrepo/*\.rpm root@node2:/localrepo/.
# ssh root@node2 yum install createrepo -y
# ssh root@node2 createrepo /localrepo

Make sure to do the above on each node.

  • Fetch & create logrotate script for Hadoop Services:
# wget -O /etc/logrotate.d/metron-ambari https://raw.githubusercontent.com/apache/metron/master/metron-deployment/roles/ambari_common/templates/metron-hadoop-logrotate.yml
# sed -i 's/^  {{ hadoop_logrotate_frequency }}.*$/  daily/' /etc/logrotate.d/metron-ambari
# sed -i 's/^  rotate {{ hadoop_logrotate_retention }}.*$/  rotate 30/' /etc/logrotate.d/metron-ambari
# chmod 0644 /etc/logrotate.d/metron-ambari

Ambari 2.4 with HDP 2.5 install


Inspired by: [http://docs.hortonworks.com/HDPDocuments/Ambari-2.4.1.0/bk_ambari-installation/content/ch_Getting_Ready.html]

# ulimit -n 32768
# ulimit -u 65536
# echo -e "* - nofile 32768\n* - nproc 65536" >> /etc/security/limits.conf
  • Enable time sync, disable firewall and SElinux on every node:
# systemctl enable ntpd
# systemctl start ntpd
# systemctl status ntpd

# systemctl stop firewalld
# systemctl disable firewalld
# setenforce 0 (=> I know, but for the sake of simplicity, quickness & testing, I've disabled selinux.)
  • Make sure each node can resolve every other node's hostname or add hostname of each node to `/etc/hosts` on every node. For example add following lines in /etc/hosts of each node:
10.10.10.1 node1
10.10.10.2 node2
10.10.10.3 node3

Where 10.10.10.1, 10.10.10.2 and 10.10.10.3 are the IP addresses of your nodes and "node1", "node2" and "node3" are their respective hostnames.

  • On main node download and setup Ambari repo (you may replace the "2.4.2.0" with a newer Ambari version number):
# wget -nv http://public-repo-1.hortonworks.com/ambari/centos6/2.x/updates/2.4.2.0/ambari.repo -O /etc/yum.repos.d/ambari.repo
# yum update -y
  • Check that it was added:
# yum repolist | grep ambari
Updates-ambari-2.4.2.0   ambari-2.4.2.0 - Updates                             12
  • Install and setup Ambari server:
# yum install ambari-server -y
# ambari-server setup -s && touch /etc/ambari-server/configured
  • Add Metron service to Ambari by running mpack command (make sure to specify correct path to mpack in --mpack=):
# ambari-server install-mpack --mpack=/root/metron/metron-deployment/packaging/ambari/metron-mpack/target/metron_mpack-0.4.0.0.tar.gz --verbose
  • Start Ambari:
# ambari-server start
  • Access the Ambari UI by going to the following URL in a web browser: http://<replace_with_master_node_ip>:8080/. You can use admin/admin as username/password. Start the Install Wizard.


Get Started page: Enter any desired cluster name.

Select Version: Make sure "Public Repository" is checked. You should also see the /localrepo directory listed.

Install Options: Specify hostnames of your nodes where Ambari cluster should be installed (all the ones you have specified in /etc/hosts) in "Target Hosts". Copy content of the main node private key (/root/.ssh/id_rsa) in "Host Registration Information". If you receive the warning "The following hostnames are not valid FQDNs", ignore it and click OK.

Choose Services: Select following Services:

HDFS
YARN + MapReduce2
Tez
Hive
HBase
Pig
Zookeeper
Storm
Flume
Ambari Metrics
Kafka
Spark
Zeppelin Notebook
Elasticsearch
Kibana
Metron
Slider


Assign Masters: Assign "Kafka Broker" on all nodes. Make sure move following components on one common node (Taken from previous guide, is this still necessary?):

Storm UI Server
Metron Indexing
MySQL Server
Kibana Server
Elasticsearch Master
Metron Parsers
Metron Enrichment


Assign Slaves and Clients: select All for:

DataNode
NodeManager
RegionServer
Supervisor
Client

Customize Services: Following is a list of services that need to be configured:

  • Set the "NameNode Java heap size" (namenode_heapsize) from the default 1024 MB to at least 4096 MB under HDFS -> Configs.
  • For ElasticSearch:
    • Set "zen_discovery_ping_unicast_hosts" to the IP of the node where you assigned ElasticSearch Master on the Assign Master tab.
    • Under "Advanced elastic-site": Change "network_host" to "0.0.0.0". Do not do this if your Metron is exposed to the public internet! Is "[ _local_, _site_ ]" now.
  • Kibana:
    • Set "kibana_es_url" to http://<replace_with_elasticsearch_master_hostname>:9200. "replace_with_elasticsearch_master_hostname" is the IP of the node where you assigned ElasticSearch Master on the Assign Master tab.
    • Change "kibana_default_application" to "dashboard/Metron-Dashboard"
  • Metron: Set "Elasticsearch Hosts" to the IP of the node where you assigned ElasticSearch Master on the Assign Master tab.
  • Storm: You might have to increase the number of "supervisor.slots.ports" from the default "[6700, 6701]" to "[6700, 6701, 6702, 6703, 6704]" if you're only installing a single node.
  • For metron REST use:
Metron JDBC client path: /usr/share/java/mysql-connector-java.jar
Metron JDBC Driver: com.mysql.jdbc.Driver
Metron JDBC password: <DB PASSWORD>
Metron JDBC platform: mysql
Metron JDBC URL: jdbc:mysql://127.0.0.1:3306/<DB NAME>
Metron JDBC username: <DB USERNAME>
  • Set rest of the configuration values to recommended by Ambari or the ones you desire (like DB passwords) and perform install. In a 3 node cluster, I ended up with:

    node1node2node3
    DataNodeDataNodeDataNode
    Elasticsearch MasterApp Timeline Server

    Elasticsearch Data Node

    HBase ClientDRPC ServerFlume
    HBase MasterHBase ClientHBase Client

    RegionServer

    RegionServerRegionServer
    HCat ClientHCat ClientHCat Client
    HDFS ClientHDFS ClientHDFS Client
    Hive ClientHive ClientHive Client
    Kafka BrokerHistory ServerKafka Broker
    Kibana ServerHive MetastoreMapReduce2 Client
    MapReduce2 ClientHiveServer2Metrics Collector
    GrafanaKafka BrokerMetrics Monitor
    Metrics MonitorMapReduce2 ClientMetron Client
    Metron ClientMetrics MonitorNodeManager
    Metron EnrichmentMetron ClientPig Client
    Metron IndexingMySQL ServerSlider Client
    Metron ParsersNimbusSpark Client
    Metron RESTNodeManagerSupervisor
    NameNodePig ClientTez Client
    NodeManagerResourceManagerYARN Client
    Pig ClientNameNodeZooKeeper Client
    Slider ClientSlider ClientZooKeeper Server
    Spark ClientSpark Client 
    Spark History ServerSupervisor 
    Storm UI ServerTez Client 
    SupervisorWebHCat Server 
    Tez ClientYARN Client 
    YARN ClientZooKeeper Client 
    Zeppelin NotebookZooKeeper Server 
    ZooKeeper Client  
    ZooKeeper Server  
  • Install everything. Metron REST will probably not work as we still need to add a user and the database to MariaDB.
    At this point, make sure that all the services are up. You might have to manually start a few.
  • Configure a user for Metron REST in MySQL. On the node where you installed the Metron REST UI, do:
# mysql -u root -p
CREATE USER '<DB USERNAME>'@'localhost' IDENTIFIED BY '<DB PASSWORD>';
CREATE DATABASE IF NOT EXISTS <DB NAME>;
GRANT ALL PRIVILEGES ON <DB NAME>.* TO '<DB USERNAME>'@'localhost';

For example:

# mysql -u root -p
> CREATE USER 'metron'@'localhost' IDENTIFIED BY 'metron';
> CREATE DATABASE IF NOT EXISTS metronrest;
> GRANT ALL PRIVILEGES ON metronrest.* TO 'metron'@'localhost';
> quit
Bye
#
  • There's 1 last step we need to do before the metron REST service will run. Due to systemd in Centos 7, doing service metron-rest start <PASSWORD> no longer works. Instead we have to edit the configuration file "`/etc/rc.d/init.d/metron-rest`". In this file, change `METRON_JDBC_PASSWORD="$2"` to `METRON_JDBC_PASSWORD="<DB PASSWORD>"` and restart the metron-rest service via the Ambari interface. Make sure that the Metron REST UI is started when moving to the following item.
  • Add the Metron REST username and password to the metronrest database:
# mysql -u <DB USERNAME> -p
> use <DB NAME>;
> insert into users (username, password, enabled) values ('<USERNAME>','<PASSWORD>',1);
> insert into authorities (username, authority) values ('<USERNAME>', 'ROLE_USER');
> quit
Bye
#
  • For example, to use the username 'metron' with password 'metron', do the following:
# mysql -u metron -p
> use metronrest;
> insert into users (username, password, enabled) values ('metron','metron',1);
> insert into authorities (username, authority) values ('metron', 'ROLE_USER');
> quit
Bye
#

Make sure that all the services are up.

  • Install metron_pcapservice:
# cp /root/metron/metron-platform/metron-api/target/metron-api-0.4.0.jar /usr/metron/0.4.0/lib/
# wget -O /etc/init.d/pcapservice https://raw.githubusercontent.com/apache/metron/master/metron-deployment/roles/metron_pcapservice/templates/pcapservice
# sed -i 's/{{ pcapservice_jar_dst }}/\/usr\/metron\/0.4.0\/lib\/metron-api-0.4.0.jar/' /etc/init.d/pcapservice
# sed -i 's/{{ pcapservice_port }}/8081/' /etc/init.d/pcapservice
# sed -i 's/{{ query_hdfs_path }}/\/tmp/' /etc/init.d/pcapservice
# sed -i 's/{{ pcap_hdfs_path }}/\/apps\/metron\/pcap/' /etc/init.d/pcapservice
# chmod 755 /etc/init.d/pcapservice
# wget -O /etc/logrotate.d/metron-pcapservice https://raw.githubusercontent.com/apache/metron/master/metron-deployment/roles/metron_pcapservice/templates/metron-pcapservice-logrotate.yml
# sed -i 's/^  {{ metron_pcapservice_logrotate_frequency }}.*$/  daily/' /etc/logrotate.d/metron-pcapservice
# sed -i 's/^  rotate {{ metron_pcapservice_logrotate_retention }}.*$/  rotate 30/' /etc/logrotate.d/metron-pcapservice
# chmod 644 /etc/logrotate.d/metron-pcapservice
  • Install tap interface:
# ip tuntap add tap0 mode tap
  • Bring up tap0 on 10.0.0.100:
# ifconfig tap0 10.0.0.100 up
# ip link set tap0 promisc on
  • Install librdkafka:
# yum install cmake make gcc gcc-c++ flex bison libpcap libpcap-devel openssl-devel python-devel swig zlib-devel perlcyrus-sasl cyrus-sasl-devel cyrus-sasl-gssapi -y
# cd /tmp
# wget -O /tmp/librdkafka-0.9.4.tar.gz https://github.com/edenhill/librdkafka/archive/v0.9.4.tar.gz
# /bin/gtar --extract -C /tmp -z -f /tmp/librdkafka-0.9.4.tar.gz
# cd /tmp/librdkafka-0.9.4
# ./configure --prefix=/usr/local --enable-sasl
# make
# make install
  • Install pycapa (I don't think we need the virtualenv anymore in CentOS 7, needs some further investigation):
# yum install @Development python-virtualenv libpcap-devel libselinux-python -y
# mkdir /usr/local/pycapa
# cd /usr/local/pycapa
# virtualenv pycapa-venv
# cp -r /root/metron/metron-sensors/pycapa/. /usr/local/pycapa/.
(# /usr/local/pycapa/pycapa-venv/bin/pip install -r requirements.txt)
# cd /usr/local/pycapa
# source pycapa-venv/bin/activate
# pip install -r requirements.txt
# pip install --upgrade pip
# /usr/local/pycapa/pycapa-venv/bin/python setup.py install
# wget -O /etc/init.d/pycapa https://raw.githubusercontent.com/apache/metron/master/metron-deployment/roles/pycapa/templates/pycapa
# sed -i 's/{{ pycapa_log }}/\/var\/log\/pycapa.log/' /etc/init.d/pycapa
# sed -i 's/{{ pycapa_home }}/\/usr\/local\/pycapa/' /etc/init.d/pycapa
# sed -i 's/{{ python27_home }}/\/opt\/rh\/python27\/root/' /etc/init.d/pycapa
# sed -i 's/{{ pycapa_bin }}/\/usr\/local\/pycapa\/pycapa-venv\/bin/' /etc/init.d/pycapa
# sed -i 's/--kafka {{ kafka_broker_url }}/--kafka-broker <IP:6667>/' /etc/init.d/pycapa
# sed -i 's/--topic {{ pycapa_topic }}/--kafka-topic pcap/' /etc/init.d/pycapa
# sed -i 's/{{ pycapa_sniff_interface }}/tap0/' /etc/init.d/pycapa
# sed -i 's/export LD_LIBRARY_PATH=\/opt\/rh\/python27\/root\/usr\/lib64/export LD_LIBRARY_PATH=\/usr\/local\/lib/' /etc/init.d/pycapa
# chmod 755 /etc/init.d/pycapa
# yum install @Development libdnet-devel rpm-build libpcap libpcap-devel pcre pcre-devel zlib zlib-devel glib2-devel -y
# yum install kafka -y
  • Install bro:
# wget -O /tmp/bro-2.4.1.tar.gz https://www.bro.org/downloads/release/bro-2.4.1.tar.gz
# /bin/gtar --extract -C /tmp -z -f /tmp/bro-2.4.1.tar.gz
# cd /tmp/bro-2.4.1
# ./configure --prefix=/usr/local/bro
# make -j4
# make install
  • Configure bro:
# sed -i 's/interface=eth0/interface=tap0/' /usr/local/bro/etc/node.cfg
# /usr/local/bro/bin/broctl install
  • Edit crontab with # crontab -e and add:
0-59/5    *    *    *    *    /usr/local/bro/bin/broctl cron
0-59/5    *    *    *    *    rm -rf /usr/local/bro/spool/tmp/*
  • bro-kafka:
# cp -r /root/metron/metron-sensors/bro-plugin-kafka /tmp
# cd /tmp/bro-plugin-kafka
# rm -rf build/
# ./configure --bro-dist=/tmp/bro-2.4.1 --install-root=/usr/local/bro/lib/bro/plugins/ --with-librdkafka=/usr/local
# make -j4
# make install
  • Configure bro-kafka plugin:
# cat << EOF >> /usr/local/bro/share/bro/site/local.bro
@load Bro/Kafka/logs-to-kafka.bro
redef Kafka::logs_to_send = set(HTTP::LOG, DNS::LOG);
redef Kafka::topic_name = "bro";
redef Kafka::tag_json = T;
redef Kafka::kafka_conf = table( ["metadata.broker.list"] = "<KAFKA_BROKER_IP>:6667" );
EOF
# /usr/local/bro/bin/broctl deploy
# ip link set tap0 promisc on
  • Install daq:
# wget -O /tmp/daq-2.0.6-1.src.rpm https://snort.org/downloads/snort/daq-2.0.6-1.src.rpm
# cd /tmp
# rpmbuild --rebuild daq-2.0.6-1.src.rpm

This last command creates the files /root/rpmbuild/RPMS/x86_64/daq-2.0.6-1.x86_64.rpm & /root/rpmbuild/RPMS/x86_64/daq-debuginfo-2.0.6-1.x86_64.rpm. We only need to install the first rpm.

# yum install /root/rpmbuild/RPMS/x86_64/daq-2.0.6-1.x86_64.rpm -y
  • Install snort:
# wget -O /tmp/snort-2.9.8.0-1.src.rpm https://snort.org/downloads/archive/snort/snort-2.9.8.0-1.src.rpm
# cd /tmp
# rpmbuild --rebuild snort-2.9.8.0-1.src.rpm

This last command creates the files /root/rpmbuild/RPMS/x86_64/snort-2.9.8.0-1.x86_64.rpm & /root/rpmbuild/RPMS/x86_64/snort-debuginfo-2.9.8.0-1.x86_64.rpm. We only need to install the first rpm.

# yum install /root/rpmbuild/RPMS/x86_64/snort-2.9.8.0-1.x86_64.rpm -y
# wget -O /tmp/community-rules.tar.gz https://www.snort.org/downloads/community/community-rules.tar.gz
# /bin/gtar --extract -C /tmp -z -f /tmp/community-rules.tar.gz
# cp -r community-rules/community.rules /etc/snort/rules
# touch /etc/snort/rules/white_list.rules
# touch /etc/snort/rules/black_list.rules
# touch /var/log/snort/alerts
# chown -R snort:snort /etc/snort
# sed -i 's/^# alert/alert/' /etc/snort/rules/community.rules
# wget -O /tmp/snort.conf https://github.com/apache/metron/raw/master/metron-deployment/roles/snort/files/snort.conf
# cp snort.conf /etc/snort/snort.conf
# sed -i 's/^ipvar HOME_NET.*$/ipvar HOME_NET any/' /etc/snort/snort.conf
# echo "output alert_csv: /var/log/snort/alert.csv default" >> /etc/snort/snort.conf
# sed -i 's/^ALERTMODE=.*$/ALERTMODE=/' /etc/sysconfig/snort
# sed -i 's/^NO_PACKET_LOG=.*$/NO_PACKET_LOG=1/' /etc/sysconfig/snort
# sed -i 's/^INTERFACE=.*$/INTERFACE=tap0/' /etc/sysconfig/snort
# mkdir /opt/snort-producer
# chmod 755 /opt/snort-producer
# wget -O /opt/snort-producer/start-snort-producer.sh https://github.com/apache/metron/raw/master/metron-deployment/roles/snort/templates/start-snort-producer.sh
# sed -i 's/{{ snort_alert_csv_path }}/\/var\/log\/snort\/alert.csv/' /opt/snort-producer/start-snort-producer.sh
# sed -i 's/{{ kafka_prod }}/\/usr\/hdp\/current\/kafka-broker\/bin\/kafka-console-producer.sh/' /opt/snort-producer/start-snort-producer.sh
# sed -i 's/{{ kafka_broker_url }}/<KAFKA_BROKER_IP>:6667/' /opt/snort-producer/start-snort-producer.sh
# sed -i 's/{{ snort_topic }}/snort/' /opt/snort-producer/start-snort-producer.sh
# chmod 755 /opt/snort-producer/start-snort-producer.sh
# wget -O /etc/init.d/snort-producer https://github.com/apache/metron/raw/master/metron-deployment/roles/snort/templates/snort-producer
# sed -i 's/{{ snort_producer_home }}/\/opt\/snort-producer/' /etc/init.d/snort-producer
# sed -i 's/{{ snort_producer_start }}/\/opt\/snort-producer\/start-snort-producer.sh/' /etc/init.d/snort-producer
# chmod 755 /etc/init.d/snort-producer
  • Install yaf:
# wget -O /tmp/libfixbuf-1.7.1.tar.gz http://tools.netsa.cert.org/releases/libfixbuf-1.7.1.tar.gz
# /bin/gtar --extract -C /tmp -z -f /tmp/libfixbuf-1.7.1.tar.gz
# cd /tmp/libfixbuf-1.7.1
# ./configure
# make -j4
# make install
# wget -O /tmp/yaf-2.8.0.tar.gz http://tools.netsa.cert.org/releases/yaf-2.8.0.tar.gz
# /bin/gtar --extract -C /tmp -z -f /tmp/yaf-2.8.0.tar.gz
# cd /tmp/yaf-2.8.0
# ./configure --enable-applabel --enable-plugins
# make -j4
# make install
# mkdir /opt/yaf
# chmod 755 /opt/yaf
# wget -O /opt/yaf/start-yaf.sh https://github.com/apache/metron/raw/master/metron-deployment/roles/yaf/templates/start-yaf.sh
# sed -i 's/{{ yaf_bin }}/\/usr\/local\/bin\/yaf/' /opt/yaf/start-yaf.sh
# sed -i 's/{{ sniff_interface }}/tap0/' /opt/yaf/start-yaf.sh
# sed -i 's/{{ yafscii_bin }}/\/usr\/local\/bin\/yafscii/' /opt/yaf/start-yaf.sh
# sed -i 's/{{ kafka_prod }}/\/usr\/hdp\/current\/kafka-broker\/bin\/kafka-console-producer.sh/' /opt/yaf/start-yaf.sh
# sed -i 's/{{ kafka_broker_url }}/<BROKER_IP>:6667/' /opt/yaf/start-yaf.sh
# sed -i 's/{{ yaf_topic }}/yaf/' /opt/yaf/start-yaf.sh
# chmod 755 /opt/yaf/start-yaf.sh
# wget -O /etc/init.d/yaf https://github.com/apache/metron/raw/master/metron-deployment/roles/yaf/templates/yaf
# sed -i 's/{{ yaf_home }}/\/opt\/yaf/' /etc/init.d/yaf
# sed -i 's/{{ yaf_start }}/\/opt\/yaf\/start-yaf.sh/' /etc/init.d/yaf
# sed -i 's/^DAEMONOPTS=\"${@:2}\"$/DAEMONOPTS=\"${@:2} --idle-timeout 0\"/' /etc/init.d/yaf
# chmod 755 /etc/init.d/yaf
  • Install tcpreplay:
# wget -O /tmp/tcpreplay-4.1.1.tar.gz https://github.com/appneta/tcpreplay/releases/download/v4.1.1/tcpreplay-4.1.1.tar.gz
# /bin/gtar --extract -C /opt -z  -f /tmp/tcpreplay-4.1.1.tar.gz
# cd /opt/tcpreplay-4.1.1/
# ./configure --prefix=/opt
# make -j4
# make install
# mkdir /opt/pcap-replay
# chown root.root /opt/pcap-replay
# chmod 755 /opt/pcap-replay
# cd /opt/pcap-replay
# wget https://github.com/apache/metron/raw/master/metron-deployment/roles/sensor-test-mode/files/example.pcap
# echo "include \$RULE_PATH/test.rules" >> /etc/snort/snort.conf
# echo "alert tcp any any -> any any (msg:'snort test alert'; sid:999158; )" > /etc/snort/rules/test.rules
# wget -O /etc/init.d/pcap-replay https://github.com/apache/metron/raw/master/metron-deployment/roles/pcap_replay/templates/pcap-replay
# sed -i 's/{{ pcap_replay_home }}/\/opt\/pcap-replay/' /etc/init.d/pcap-replay
# sed -i 's/{{ pcap_replay_interface }}/tap0/' /etc/init.d/pcap-replay
# sed -i 's/{{ tcpreplay_prefix }}/\/opt/' /etc/init.d/pcap-replay
# chmod 755 /etc/init.d/pcap-replay
  • Install monit
# yum install monit -y
# wget -O /etc/monitrc https://github.com/apache/metron/raw/master/metron-deployment/roles/monit/templates/monit/monit.conf
# sed -i 's/{{ inventory_hostname }}/<IP ADDRESS>/' /etc/monitrc
# sed -i 's/{{ monit_user }}/admin/' /etc/monitrc
# sed -i 's/{{ monit_pass }}/monit/' /etc/monitrc
# chmod 600 /etc/monitrc
# wget -O /etc/monit.d/pcap-replay.monit https://github.com/apache/metron/raw/master/metron-deployment/roles/monit/templates/monit/pcap-replay.monit
# chmod 644 /etc/monit.d/pcap-replay.monit
# wget -O /etc/monit.d/pcap-service.monit https://github.com/apache/metron/raw/master/metron-deployment/roles/monit/templates/monit/pcap-service.monit
# chmod 644 /etc/monit.d/pcap-service.monit
# wget -O /etc/monit.d/pycapa.monit https://github.com/apache/metron/raw/master/metron-deployment/roles/monit/templates/monit/pycapa.monit
# chmod 644 /etc/monit.d/pycapa.monit
# wget -O /etc/monit.d/snort.monit https://github.com/apache/metron/raw/master/metron-deployment/roles/monit/templates/monit/snort.monit
# chmod 644 /etc/monit.d/snort.monit
# wget -O /etc/monit.d/yaf.monit https://github.com/apache/metron/raw/master/metron-deployment/roles/monit/templates/monit/yaf.monit
# chmod 644 /etc/monit.d/yaf.monit
# wget -O /etc/monit.d/bro.monit https://github.com/apache/metron/raw/master/metron-deployment/roles/monit/templates/monit/bro.monit
# sed -i 's/^  with pidfile.*$/  with pidfile \/usr\/local\/bro\/spool\/bro\/\.pid/' /etc/monit.d/bro.monit
# chmod 644 /etc/monit.d/bro.monit
# systemctl enable monit
# systemctl start monit
# systemctl status monit
# monit reload
# monit stop all
# monit start all
# monit summary | tail -n +3 | awk -F"'" '{print $2}'

Miscellaneous Issues

  • There's currently a bug in Metron 0.4.0 where Metron REST doesn't start when restarting the Metron services. This bug was fixed in METRON-990 (https://github.com/apache/metron/pull/613/commits/1a9b19a0101ada58cb671ab224934f304df6fff8) but unfortunately, this fix didn't make the 0.4.0 release. In order to fix this, edit the file "/etc/rc.d/init.d/metron-rest" and on line 148, change "$0 start" to "$0 start $2".

  • I had a problem with Zeppelin after rebooting this machine and had to manually create the Zeppelin run directory:
# mkdir /var/run/zeppelin
# chown zeppelin.hadoop zeppelin/
  • Additionally, while working with Metron, I've noticed that at some point Zeppelin Notebook started, but immediately stopped again. In the logs, I could see "Address already in use" messages. It turns out that there was still a lingering Zeppelin process on the host. To fix it, stop Zeppelin Notebook in Ambari and then kill the latent process:
# ps aux | grep zeppelin
# kill <zeppelin_java_pid>

Afterwards, restart Zeppelin Notebook via Ambari.

  • I had a couple of issues with Elasticsearch where it wouldn't find a master. This was fixed by doing the following. In Ambari, set the following items:

"masters_also_are_datanodes" to "true"
"expected_data_nodes" = "0"
"gateway_recover_after_data_nodes" = "1"
Restart all services. At this point, I noticed the following in :/etc/elasticsearch/elasticsearch.yml":

node:
  data: "true"
  master: "true"
  name: metron1.local

After changing this to :

node:
  data: true
  master: true
  name: metron

and restarting elasticsearch with "service elasticsearch restart", elasticsearch started indexing.

  • Another issue with Elasticsearch was that I saw the following error message in Kibana:
plugin:elasticsearch     Elasticsearch is still initializing the kibana index.

This was fixed by deleting the Kibana index ".kibana": "curl -XDELETE http://localhost:9200/.kibana"

Miscellaneous Services

 

  • Load the correct Elasticsearch template with:
    "# curl -s -w "%{http_code}" -u <USERNAME>:<PASSWORD> -H "X-Requested-By: ambari" -X POST -d '{ "RequestInfo": { "context": "Install ES Template from REST", "command": "ELASTICSEARCH_TEMPLATE_INSTALL"},"Requests/resource_filters": [{"service_name": "METRON","component_name": "METRON_INDEXING","hosts" : "<HOSTNAME>"}]}' http://<AMBARI HOST>:8080/api/v1/clusters/<CLUSTERNAME>/requests"

For example:

"# curl -s -w "%{http_code}" -u admin:admin -H "X-Requested-By: ambari" -X POST -d '{ "RequestInfo": { "context": "Install ES Template from REST", "command": "ELASTICSEARCH_TEMPLATE_INSTALL"},"Requests/resource_filters": [{"service_name": "METRON","component_name": "METRON_INDEXING","hosts" : "metron"}]}' http://192.168.10.10:8080/api/v1/clusters/metron/requests"

  • Load Kibana Dashboard with:

"# curl -s -w "%{http_code}" -u <USERNAME>:<PASSWORD> -H "X-Requested-By: ambari" -X POST -d '{ "RequestInfo": { "context": "Install Kibana Dashboard from REST", "command": "LOAD_TEMPLATE"},"Requests/resource_filters": [{"service_name": "KIBANA","component_name": "KIBANA_MASTER","hosts" : "<HOSTNAME>"}]}' http://<AMBARI HOST>:8080/api/v1/clusters/<CLUSTERNAME>/requests"

For example:

"# curl -s -w "%{http_code}" -u admin:admin -H "X-Requested-By: ambari" -X POST -d '{ "RequestInfo": { "context": "Install Kibana Dashboard from REST", "command": "LOAD_TEMPLATE"},"Requests/resource_filters": [{"service_name": "KIBANA","component_name": "KIBANA_MASTER","hosts" : "metron"}]}' http://192.168.10.10:8080/api/v1/clusters/metron/requests"

  • If you installed Metron on a single node, you might have to increase the number of Storm supervisor slots from the default 2 to 5 or more. This can be done by editing the "supervisor.slots.ports" under Storm in the Ambari UI.

Change: "supervisor.slots.ports: [6700, 6701]" to "supervisor.slots.ports: [6700, 6701, 6702, 6703, 6704, 6705]"

# cd /root
# wget http://apache.mirror.iweb.ca/nifi/1.2.0/nifi-1.2.0-bin.tar.gz
# tar xf nifi-1.2.0-bin.tar.gz

Before we run NiFi, we need to change the port as the default port collides with the Ambari port. To do this, we need to change the value "nifi.web.http.port=8080" to "nifi.web.http.port=8089" in the file "nifi-1.1.2/conf/nifi.properties". Install and start NiFi afterwards:

# nifi-1.2.0/bin/nifi.sh install
# nifi-1.2.0/bin/nifi.sh start

Exposed Interfaces


In the end, you'll end up with a bunch of exposed UIs:
- Ambari: http://node1:8080/
- Kibana: http://node1:5000/
- Sensor Status (monit): http://node1:2812
- Elasticsearch: http://node1:9200/
- Storm UI: http://node1:8744/
- Metron REST interface: http://node1:8082/swagger-ui.html#/
- Management UI: http://node1:4200/ (user/password)
- Apache Nifi: http://node1:8089/nifi/
- Zookeeper: http://node1:2181
- Kafka: http://node1:6667


TROUBLESHOOTING

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