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This page shows the example to install and configure Teamwork Cloud (TWCloud) 19.0 Standard Edition on Centos 7.x, deployed on a single server. It also shows the configuration in which both the Teamwork Cloud node as well as the underlying Cassandra node are installed on the same server.

TWCloud installation and configuration on Centos 7.x on a single server.

Minimum server system requirements

  • 8 Processor Cores - i.e. Quad Core Hyper-threaded CPU (such as Intel E3-1230 or faster).
  • 32 GB RAM (Motherboard with an ECC RAM is always preferred on any critical database server).
  • Linux (RedHat/CentOS 7), 64 bit.  Scripts need to be modified slightly for Centos 6.6 - 6.9 due to different system daemon and firewall configuration.

Please read the article for additional server recommendations for capacity and performance from the following link:

https://docs.datastax.com/en/dse-planning/doc/planning/planningHardware.html

If you use SATA drives and not SSD's, we recommend using a caching controller with BBU, configured for write back. In this configuration (single node Cassandra), we recommend using RAID - the aforementioned link is referring to multi-node Cassandra deployments where native Cassandra replication is in place, which is not the case in this single node instance.

In order to install a full working environment, the following are required.

  • Oracle Java (Java Hotspot) 1.8.0_172
  • A FlexNet License Server
  • Cassandra 3.11.2
  • Teamwork Cloud

Preparing the operating system

Partitioning the drives

Prior to installing Cassandra, it is important to understand how Cassandra utilizes disk space in order to properly configure the host server.

Disk space depends on usage, so it's important to understand the mechanism. The database writes data to disk when appending data to the commitlog for durability and when flushing memtables to SSTable data files for persistent storage. The commit log has a different access pattern (read/writes ratio) than the pattern for accessing data from SSTables. This is more important for spinning disks than for SSDs.

SSTables are periodically compacted. Compaction improves performance by merging and rewriting data and discarding old data. However, depending on the type of compaction and size of the compactions, during compaction disk utilization and data directory volume temporarily increases. For this reason, be sure to leave an adequate amount of free disk space available on a node.

Cassandra data and commit logs should not, under any circumstances, be placed on the drive where the operating system is installed.  Ideally, a server would have 3-4 drives or partitions.  The root partition,  /, the OS partition, can be used as the target for the application.  A /data partition should have adequate amounts of storage to accommodate your data.  A /logs partition would hold your commit logs (and unless SSD, should be on a different physical disk than the data partition), and a /backup partition would be allocated for backups.

Please refer to http://cassandra.apache.org/doc/latest/operating/hardware.html for explanations on hardware selection.

In order to achieve adequate performance, separate partitions must be created, ideally on separate drives, to avoid i/o contention. We recommend 3 separate block devices (disks). The first block device will contain the operating system as well as a mount for the programs (/opt/local). The second block device (preferably SSD) will contain a mount point at /data - this is the device which must have high storage capacity for all of the data. The third block device will contain a mount point at /logs - this device should preferably be SSD, but does not need to be of high capacity, since it will only store the commit logs, which are by default limited to 8GB (if using SSD, this can be a partition on the same block device as the data partition). All partitions should be formatted using the XFS file system, and there must not be a swap partition.  The /backup partition can be a mount on a shared storage device, and shoud not be on the same physical drive as the /data partition.

The following is an example of the contents of  /etc/fstab after partitioning, where the partitions were created using
 LVM (without a mount for the /backup partition)

Code Block
languagetext
titlefstab
#
# /etc/fstab
# Created by anaconda on Tue May  2 16:31:05 2017
#
# Accessible filesystems, by reference, are maintained under '/dev/disk'
# See man pages fstab(5), findfs(8), mount(8) and/or blkid(8) for more info
#
/dev/mapper/cl_twccentos7-root /                       xfs     defaults        0 0
/dev/mapper/cl_twccentos7-data /data                   xfs     defaults        0 0
/dev/mapper/cl_twccentos7-logs /logs                   xfs     defaults        0 0
/dev/mapper/cl_twccentos7-opt_local /opt/local         xfs     defaults        0 0


  • Disk 1 will contain the following partitions:  /opt/local (40GB) and / (rest of the drive capacity)
  • Disk 2 (the disk with the highest capacity) will contain the /data partition - as a minimum, we recommend 250GB.  Due to the way compactions are handled by Cassandra, in a worst case scenation up to 50% oh headroom may be needed.
  • Disk 3 will contain the /logs partition (40 GB)

The aforementioned partitioning scheme is an example. Internal security protocols in your organization may dictate that other directories not be located in the main partition. During the installation, all applications will be installed in /opt/local. Cassandra will install by default in /var/lib. Application logs will be written to /home/twcloud.

Installing Oracle Java

From the Java version list, please check that the recommended Oracle JVM version is compatible with the TWCloud version you are using.  It is not recommended to use OpenJDK. In order to consolidate all of the installed applications in a single location, we will be installing under /opt/local/java. To facilitate deployment, you may deploy using the associated script (install_java.sh).  Oracle no longer allows direct download of their JDK, so it must be downloaded offline and placed in the same location as the install scripts.  The installation script extracts it into the proper location, invokes the alternatives command to point the system to this instance (you may need to select it when prompted), and creates entries in /etc/environment. Upon completing the installation, issue the following command:

  
          java -version


You should receive output such as the following:

          java version "1.8.0_172"
          Java(TM) SE Runtime Environment (build 1.8.0_172-b11)
          Java HotSpot(TM) 64-Bit Server VM (build 25.172-b11, mixed mode)


If properly installed, you will see Java identified as Java HotSpot(TM)


Code Block
languagetext
titleinstall_java_172.sh
#!/bin/bash
echo "=========================================="
echo "Installing Oracle Java 1.8.0_172"
echo "=========================================="
echo ""
echo "  Oracle Java can no longer be dowloaded directly due to new authentication requirements"
echo "  After manually downloading jdk-8u172-linux-x64.tar.gz, copy it to this directory"
echo ""
echo "  Archive downloads available from http://www.oracle.com/technetwork/java/javase/downloads/java-archive-javase8-2177648.html"
echo ""
read -p -"Press any key to continue, Ctl-C to exit ...: " -n1 -s
echo "==========================================" 
sudo mkdir -p /opt/local/java
sudo tar xzf jdk-8u172-linux-x64.tar.gz -C /opt/local/java
cd /opt/local/java/jdk1.8.0_172/
sudo alternatives --install /usr/bin/java java /opt/local/java/jdk1.8.0_172/bin/java 2
sudo alternatives --config java
sudo alternatives --install /usr/bin/jar jar /opt/local/java/jdk1.8.0_172/bin/jar 2
sudo alternatives --install /usr/bin/javac javac /opt/local/java/jdk1.8.0_172/bin/javac 2
sudo alternatives --set jar /opt/local/java/jdk1.8.0_172/bin/jar
sudo alternatives --set javac /opt/local/java/jdk1.8.0_172/bin/javac
sudo echo 'JAVA_HOME=/opt/local/java/jdk1.8.0_172' > /etc/environment
sudo echo 'JRE_HOME=/opt/local/java/jdk1.8.0_172/jre' >> /etc/environment
sudo chown -R root:root /opt/local/java/jdk1.8.0_172

Installing the FlexNet server (lmadmin)

A FlexNet license server is required for TWCloud to operate.  It can be installed on the same system, or on a separate machine. The automated deployment script (install_flex_centos7.sh) downloads all required components, deploys the server, creates the systemctl service entry to control it, and creates the necessary firewalld rules to allow the required traffic. The firewall rules are created for both the internal and public zones, and the script may require modification depending on which zone the interface is located. Additionally, if firewalld is not running when the installation script is executed, the rules will not be created. The script creates a user, lmadmin, which runs the lmadmin service. The FlexNet server requires the Redhat LSB core files as well as the ld-linux library in order to execute. The script is configured for Centos 7, but can be modified for a different version.  In order to identify which LSB Core library is required, the following command can be issued:  

     sudo yum provides /lib/ld-lsb.so.3

The application should be installed in /opt/local/FNPLicenseServerManager (the installer's default location is /opt/FNPLicenseServerManager - so make sure that you change the location when prompted). All other default values presented by the installer should be accepted.

  • After the lmadmin server has been installed it can be started by issuing the command:
    sudo systemctl start lmadmin


  • To check if the service is running, issue the following command
    sudo systemctl status lmadmin


  • If the service failed to start, it is often because the built-in web server cannot resolve the host name.  To check if this is the case, issue the following commands:
    cd /opt/local/FNPLicenseServerManager/logs
    tail web.log

You will see output similar to the following:

[Tue May 02 18:43:27 2017] [alert] (EAI 2)Name or service not known:
mod_unique_id: unable to find IPv4 address of "yourhostname"
Configuration Failed

Where yourhostname is the name of the host.  If this is the case, you will need to edit the /etc/hosts file and add an entry so the web server can resolve the host. The line will be in a format similar to the following:

         192.168.130.10  yourhostname


Code Block
languagetext
titleinstall_flex_centos7.sh
#!/bin/bash
echo "==============="
echo "Installing wget"
echo "==============="
sudo yum install -y wget
echo "=================="
echo "Installing lmadmin"
echo "=================="
sudo getent group lmadmin >/dev/null || groupadd -r lmadmin
sudo getent passwd lmadmin >/dev/null || useradd -d /home/lmadmin -g lmadmin -m -r lmadmin
sudo yum install -y ld-linux.so.2
LSB=$(yum provides /lib/ld-lsb.so.3 | grep lsb-core | tail -1 | cut -f 1 -d ' ')
sudo yum install -y $LSB
sudo echo "lmadmin ALL=(ALL) NOPASSWD:ALL " >> /etc/sudoers
# If Web GUI to Flex licensing is not a must - lmgrd can be used, can be placed in rc.local to startup on boot
# usage - ./lmgrd -c PATH_TO_KEY_FILE -l PATH_TO_LOG_FILE
# RW rights needed to both files
echo "==========================================================="
echo "Getting Linux 32-bit IPv6 version 11.14 from AWS FrontCloud"
echo "==========================================================="
wget http://d1g91r27pzl568.cloudfront.net/Cameo_daemon/FlexNet_11_14/ipv6/linux/lnx_32/cameo
chmod +x cameo
echo "========================================"
echo "Getting Linux 32-bit lmgrd version 11.14"
echo "========================================"
wget https://d1oqhepk9od1tu.cloudfront.net/Flex_License_Server_Utilities/v11.14/linux32/lmgrd
chmod +x lmgrd
echo "======================================"
echo "Making flex log file named FlexLog.log"
echo "======================================"
touch FlexLog.log
chmod 664 FlexLog.log
echo "=========================================="
echo "Getting Linux 32-bit lmadmin version 11.14"
echo "=========================================="
wget https://d1oqhepk9od1tu.cloudfront.net/Flex_License_Server_Utilities/v11.14/linux32/lmadmin-i86_lsb-11_14_0_0.bin
chmod +x lmadmin-i86_lsb-11_14_0_0.bin
echo "========================================="
echo "Executing lmadmin version 11.14 installer"
echo "IMPORTANT: Install into directory /opt/local/FNPLicenseServerManager"
echo ""
echo " Note:  Accept all defaults for script to work properly!!!"
read -p -"Press any key to continue ...: " -n1 -s
echo "=========================================="
sudo ./lmadmin-i86_lsb-11_14_0_0.bin
sudo mkdir -p /opt/local/FNPLicenseServerManager/licenses/cameo/
sudo mv cameo /opt/local/FNPLicenseServerManager/licenses/cameo/cameo
sudo mv lmgrd /opt/local/FNPLicenseServerManager/lmgrd
sudo mv cameo /opt/local/FNPLicenseServerManager/cameo
sudo mv FlexLog.log /opt/local/FNPLicenseServerManager/FlexLog.log
sudo chown -R lmadmin:lmadmin /opt/local/FNPLicenseServerManager/
sudo chmod +x /opt/local/FNPLicenseServerManager/lib*
sudo cp /opt/local/FNPLicenseServerManager/lib* /usr/lib/
echo "======================"
echo "Opening firewall ports"
echo "======================"
FWZONE=$(sudo firewall-cmd --list-all | grep "(active)" | tail -1 | cut -f 1 -d " ")
cat <<EOF | sudo tee /etc/firewalld/services/lmadmin.xml
<?xml version="1.0" encoding="utf-8"?>
<service version="1.0">
    <short>lmadmin</short>
    <description>lmadmin</description>
    <port port="8090" protocol="tcp"/>
    <port port="1101" protocol="tcp"/>
</service>
EOF
sleep 5
sudo firewall-cmd --zone=public --remove-port=8090/tcp --permanent
sudo firewall-cmd --zone=public --remove-port=1101/tcp --permanent
sudo firewall-cmd --zone=public --remove-port=27000-27009/tcp --permanent
sudo firewall-cmd --zone=internal --remove-port=8090/tcp --permanent
sudo firewall-cmd --zone=internal --remove-port=1101/tcp --permanent
sudo firewall-cmd --zone=internal --remove-port=27000-27009/tcp --permanent
sudo firewall-cmd --zone=$FWZONE --add-service=lmadmin --permanent
sudo firewall-cmd --reload
IP_ADDRESS=$(ip route get 1 | awk '{print $NF;exit}') 
HOSTNAME=$(hostname)
echo "$IP_ADDRESS     $HOSTNAME" >> /etc/hosts  
echo "=========================================="
echo "Creating systemd service - lmadmin"
echo "=========================================="
sudo echo "[Unit]" > /etc/systemd/system/lmadmin.service
sudo echo "Description=Flexnet License Daemon" >> /etc/systemd/system/lmadmin.service
sudo echo "After=network.target network.service" >> /etc/systemd/system/lmadmin.service
sudo echo "" >> /etc/systemd/system/lmadmin.service
sudo echo "[Service]" >> /etc/systemd/system/lmadmin.service
sudo echo "User=lmadmin" >> /etc/systemd/system/lmadmin.service
sudo echo "WorkingDirectory=/opt/local/FNPLicenseServerManager/" >> /etc/systemd/system/lmadmin.service
sudo echo "ExecStart=/opt/local/FNPLicenseServerManager/lmadmin -allowStopServer yes" >> /etc/systemd/system/lmadmin.service
sudo echo "Restart=always" >> /etc/systemd/system/lmadmin.service
sudo echo "RestartSec=30" >> /etc/systemd/system/lmadmin.service
sudo echo "Type=forking" >> /etc/systemd/system/lmadmin.service
sudo echo "" >> /etc/systemd/system/lmadmin.service
sudo echo "[Install]" >> /etc/systemd/system/lmadmin.service
sudo echo "WantedBy=multi-user.target" >> /etc/systemd/system/lmadmin.service
sudo echo "" >> /etc/systemd/system/lmadmin.service
sudo chown root:root /etc/systemd/system/lmadmin.service
sudo chmod 755 /etc/systemd/system/lmadmin.service
sudo systemctl daemon-reload
sudo systemctl enable lmadmin.service
echo "=========================================="
echo "lmadmin service installation complete"
echo "  usage: systemctl start|stop lmadmin"
echo "=========================================="

Installing Apache Cassandra 3.11.2


The deployment script for Cassandra removes Datastax Community Edition 2.2.x as well as OpsCenter and the Datastax Agent (which are not compatible with Cassandra 3.x), downloads and installs Cassandra the Cassandra tools from the Apache Software Foundation repository, and creates the necessary firewalld rules to allow proper operation both for a single node or a cluster installation.  To install, execute the installation script (install_cassandra_3_11_centos7.sh).


Code Block
languagetext
titleinstall_cassandra3_11_centos7.sh
#!/bin/bash
echo "=========================================="
echo "Installing Apache Cassandra 3.11.x"
echo "=========================================="
echo "Removing Datastax Community Edition"
sudo yum remove -y datastax-agent
sudo yum remove -y opscenter
sudo yum remove -y cassandra22-tools
sudo yum remove -y cassandra22
sudo yum remove -y dsc22
sudo rm -f /etc/yum.repos.d/datastax.repo
echo "Creating Apache Cassandra Repository File"
sudo echo "[cassandra]" > /etc/yum.repos.d/cassandra.repo
sudo echo "name=Apache Cassandra" >> /etc/yum.repos.d/cassandra.repo
sudo echo "baseurl=http://www.apache.org/dist/cassandra/redhat/311x/" >> /etc/yum.repos.d/cassandra.repo
sudo echo "gpgcheck=1" >> /etc/yum.repos.d/cassandra.repo
sudo echo "repo_gpgcheck=1" >> /etc/yum.repos.d/cassandra.repo
sudo echo "gpgkey=https://www.apache.org/dist/cassandra/KEYS" >> /etc/yum.repos.d/cassandra.repo
sudo yum install -y epel-release
sudo yum install -y cassandra
sudo yum install -y cassandra-tools
sudo yum install -y jemalloc 
sudo chkconfig --add cassandra
sudo chkconfig cassandra on
echo "======================="
echo "Configuring firewall"
echo "======================="
FWZONE=$(sudo firewall-cmd --list-all | grep "(active)" | tail -1 | cut -f 1 -d " ")
echo "Discovered firewall zone $FWZONE"
cat <<EOF | sudo tee /etc/firewalld/services/cassandra.xml
<?xml version="1.0" encoding="utf-8"?>
<service version="1.0">
    <short>cassandra</short>
    <description>cassandra</description>
    <port port="7000" protocol="tcp"/>
    <port port="7001" protocol="tcp"/>
	<port port="9042" protocol="tcp"/>
	<port port="9160" protocol="tcp"/>
	<port port="9142" protocol="tcp"/>
</service>
EOF
sleep 5
sudo firewall-cmd --zone=$FWZONE --remove-port=7000/tcp --permanent
sudo firewall-cmd --zone=$FWZONE --remove-port=7001/tcp --permanent
sudo firewall-cmd --zone=$FWZONE --remove-port=7199/tcp --permanent
sudo firewall-cmd --zone=$FWZONE --remove-port=9042/tcp --permanent
sudo firewall-cmd --zone=$FWZONE --remove-port=9160/tcp --permanent
sudo firewall-cmd --zone=$FWZONE --remove-port=9142/tcp --permanent
sudo firewall-cmd --zone=$FWZONE --add-service=cassandra --permanent

sudo firewall-cmd --reload
echo "====================================================="
echo "Changing ownership of data and commit log directories"
echo "====================================================="
sudo mkdir /data
sudo mkdir /logs
sudo chown cassandra:cassandra /data
sudo chown cassandra:cassandra /logs
echo "====================================================="
echo "Making configuration file changes"
echo "====================================================="
IP_ADDRESS=$(ip route get 1 | awk '{print $NF;exit}')
HOSTNAME=$(hostname)
sudo cp /etc/cassandra/default.conf/cassandra.yaml /etc/cassandra/default.conf/cassandra.yaml.backup
sudo cp /etc/cassandra/default.conf/cassandra.yaml ./cassandra.yaml.template
sudo sed -i "s/ - seeds: \"127.0.0.1\"/ - seeds: \"$IP_ADDRESS\"/g" cassandra.yaml.template
sudo sed -i "s/listen_address:.*/listen_address: $IP_ADDRESS/g" cassandra.yaml.template 
sudo sed -i "s/# broadcast_rpc_address:.*/broadcast_rpc_address: $IP_ADDRESS/g" cassandra.yaml.template 
sudo sed -i "s/broadcast_rpc_address:.*/broadcast_rpc_address: $IP_ADDRESS/g" cassandra.yaml.template 
sudo sed -i "s/# commitlog_total_space_in_mb:.*/commitlog_total_space_in_mb: 8192/g" cassandra.yaml.template 
sudo sed -i "s/commitlog_total_space_in_mb:.*/commitlog_total_space_in_mb: 8192/g" cassandra.yaml.template 
sudo sed -i "s/^rpc_address:.*/rpc_address: 0.0.0.0/g" cassandra.yaml.template
sudo sed -i "s/start_rpc:.*/start_rpc: true/g" cassandra.yaml.template
sudo sed -i "s/thrift_framed_transport_size_in_mb:.*/thrift_framed_transport_size_in_mb: 100/g" cassandra.yaml.template
sudo sed -i "s/commitlog_segment_size_in_mb:.*/commitlog_segment_size_in_mb: 192/g" cassandra.yaml.template
sudo sed -i "s/read_request_timeout_in_ms:.*/read_request_timeout_in_ms: 1800000/g" cassandra.yaml.template
sudo sed -i "s/range_request_timeout_in_ms:.*/range_request_timeout_in_ms: 1800000/g" cassandra.yaml.template
sudo sed -i "s/write_request_timeout_in_ms:.*/write_request_timeout_in_ms: 1800000/g" cassandra.yaml.template
sudo sed -i "s/cas_contention_timeout_in_ms:.*/cas_contention_timeout_in_ms: 1000/g" cassandra.yaml.template
sudo sed -i "s/truncate_request_timeout_in_ms:.*/truncate_request_timeout_in_ms: 1800000/g" cassandra.yaml.template
sudo sed -i "s/request_timeout_in_ms:.*/request_timeout_in_ms: 1800000/g" cassandra.yaml.template
sudo sed -i "s/batch_size_warn_threshold_in_kb:.*/batch_size_warn_threshold_in_kb: 3000/g" cassandra.yaml.template
sudo sed -i "s/batch_size_fail_threshold_in_kb:.*/batch_size_fail_threshold_in_kb: 5000/g" cassandra.yaml.template
sudo sed -i '/data_file_directories:.*/!b;n;c\ \ \ \ - \/data\/data' cassandra.yaml.template  
sudo sed -i "s/hints_directory:.*/hints_directory: \/data\/hints/g" cassandra.yaml.template 
sudo sed -i "s/commitlog_directory:.*/commitlog_directory: \/logs\/commitlog/g" cassandra.yaml.template 
sudo sed -i "s/saved_caches_directory:.*/saved_caches_directory: \/data\/saved_caches/g" cassandra.yaml.template 
sudo \cp -fR ./cassandra.yaml.template /etc/cassandra/default.conf/cassandra.yaml


Upon completion of the installation, issue the following command to ensure that Cassandra starts automatically upon system reboot. 

     chkconfig --add cassandra


Now, proceed to edit /etc/cassandra/default.conf/cassandra.yaml

      sudo nano /etc/cassandra/default.conf/cassandra.yaml


Note:  The script above makes all of the changes to the configuration files stated below.  However, please verify that all of them have been

The first items we will be editing relate to the IP address of the Cassandra node and communications settings.  In our diagram above, this IP address is 192.168.130.10.  You will need to search for 3 keys in the configuration file and modify them accordingly.  The seeds parameter is a comma-delimited list containing all of the seeds in the Cassandra cluster.  Since our cluster consists of only the single node, it contains only one entry - our IP address.  The other 2 parameters contain the IP address on which Cassandra listens for connections and the IP address to broadcast to other Cassandra nodes in the cluster.  The broadcast_rpc_address may be commented out using a # character.  If so, remove the "#" and make sure there are no leading spaces.

Additionally, we need to set rpc_address to 0.0.0.0 (meaning, it will listen to rpc requests on all interfaces), and start_rpc to true (so it will process rpc requests).

  • seeds: "192.168.130.10"
  • listen_address: 192.168.130.10
  • broadcast_rpc_address: 192.168.130.10
  • rpc_address: 0.0.0.0
  • start_rpc: true

The next set of parameters control thresholds to ensure that the data being sent is processed properly.

  • thrift_framed_transport_size_in_mb: 100
  • commitlog_segment_size_in_mb: 192
  • read_request_timeout_in_ms: 1800000
  • range_request_timeout_in_ms: 1800000
  • write_request_timeout_in_ms: 1800000
  • cas_contention_timeout_in_ms: 1000
  • truncate_request_timeout_in_ms: 1800000
  • request_timeout_in_ms: 1800000
  • batch_size_warn_threshold_in_kb: 3000
  • batch_size_fail_threshold_in_kb: 5000

If you have installed your commit log in its own partition, the default commit log size will be the lesser of ¼ of the partition size or 8GB.  In order to ensure that the recommended 8GB is used, you must uncomment the commitlog_total_space_in_mb, such that it will show as below. However, if you are uncommenting this value, please ensure that the partition has enough space to accommodate an 8GB commit log.

  • commitlog_total_space_in_mb: 8192  

The next step is to point the data to the new locations. There are 4 entries which will be modified: data_file_directories, commitlog_directory, hints_directory, and saved_caches_directory.  Search for these keys and edit them as follows:

  • data_file_directories:
    - /data/data
  • commitlog_directory: /logs/commitlog
  • hints_directory: /data/hints
  • saved_caches_directory: /data/saved_caches

 

After you have made these changes, save the cassandra.yaml file.  Now, start the related services, as follows:

  
     sudo service cassandra start


Now, proceed to check if Cassandra is running.  To do this, issue the following command:

      nodetool status


If the service is running, you will receive output such as below:

Datacenter: datacenter1
=======================
Status=Up/Down
|/ State=Normal/Leaving/Joining/Moving
--  Address    Load       Tokens   Owns (effective)  Host ID                               Rack
UN  127.0.0.1  128.4 KB   256      100.0%            ea3f99eb-c4ad-4d13-95a1-80aec71b750f  rack1

If the service is fully operational, the first 2 characters on the last line will state "UN", indicating the node's status is Up, and its state is Normal.  

Tuning Linux for Cassandra Performance

There are multiple tunings which can be performed on Linux to improve the performance of Cassandra.  The first step is to configure the TCP settings by adding the following tuning parameters to /etc/sysctl.conf file:

  • net.ipv4.tcp_keepalive_time=60
  • net.ipv4.tcp_keepalive_probes=3
  • net.ipv4.tcp_keepalive_intvl=10
  • net.core.rmem_max=16777216
  • net.core.wmem_max=16777216
  • net.core.rmem_default=16777216
  • net.core.wmem_default=16777216
  • net.core.optmem_max=40960
  • net.ipv4.tcp_rmem=4096 87380 16777216
  • net.ipv4.tcp_wmem=4096 65536 16777216
  • vm.max_map_count=1048575


To apply the setting without requiring a reboot issue the command:


# sysctl -p


For a full list of steps to take to tune Linux, go to:

https://docs.datastax.com/en/dse/5.1/dse-admin/datastax_enterprise/config/configRecommendedSettings.html

Installing Teamwork Cloud

Initial Installation

The deployment script for TWCloud (install_twc190_centos7.sh) creates a twcloud user, under which the service will run, and downloads all of the necessary files and executes the installer. 

Code Block
languagetext
titleinstall_twc190_centos7.sh
#!/bin/bash
echo "=========================================="
echo "Installing Teamwork Cloud 19.0"
echo "=========================================="
echo "Installing unzip"
sudo yum install -y unzip
echo "Creating twcloud group and user"
sudo getent group twcloud >/dev/null || groupadd -r twcloud
sudo getent passwd twcloud >/dev/null || useradd -d /home/twcloud -g twcloud -m -r twcloud
echo ""
echo "IMPORTANT: Install into directory /opt/local/TeamworkCloud"
echo "           When prompted for user to run service, use twcloud"
read -p -"Press any key to continue ...: " -n1 -s
sudo wget http://download1.nomagic.com/twcloud190/twcloud_190_installer_linux64.bin
sudo chmod +x twcloud_190_installer_linux64.bin 
sudo ./twcloud_190_installer_linux64.bin
sudo chown -R twcloud:twcloud /opt/local/TeamworkCloud/
IP_ADDRESS=$(ip route get 1 | awk '{print $NF;exit}') 
sudo sed -i "s/\"localhost\"/\"$IP_ADDRESS\"/" /opt/local/TeamworkCloud/configuration/application.conf 
sudo sed -i "s/localhost/$IP_ADDRESS/" /opt/local/TeamworkCloud/AuthServer/config/authserver.properties 
echo "======================="
echo "Configuring firewall"
echo "======================="
FWZONE=$(sudo firewall-cmd --list-all | grep "(active)" | tail -1 | cut -f 1 -d " ")
echo "Discovered firewall zone $FWZONE"
cat <<EOF | sudo tee /etc/firewalld/services/twcloud.xml
<?xml version="1.0" encoding="utf-8"?>
<service version="1.0">
    <short>twcloud</short>
    <description>twcloud</description>
    <port port="8111" protocol="tcp"/>
    <port port="3579" protocol="tcp"/>
	<port port="8555" protocol="tcp"/>
	<port port="2552" protocol="tcp"/>
	<port port="2468" protocol="tcp"/>
</service>
EOF
sleep 5
sudo firewall-cmd --zone=$FWZONE --remove-port=8111/tcp --permanent
sudo firewall-cmd --zone=$FWZONE --remove-port=3579/tcp --permanent
sudo firewall-cmd --zone=$FWZONE --remove-port=8555/tcp --permanent
sudo firewall-cmd --zone=$FWZONE --remove-port=2552/tcp --permanent
sudo firewall-cmd --zone=$FWZONE --remove-port=2468/tcp --permanent
sudo firewall-cmd --zone=$FWZONE --add-service=twcloud --permanent
sudo firewall-cmd --reload

When you are installing TWCloud


  1. Press ENTER until the licensing agreement is accepted.
  2. Configure the machine IP - enter the local IP address of the machine (i.e. 192.168.130.10).
  3. Configure the cluster seed node IP - enter the local IP address of the machine (i.e. 19.168.130.10). 
  4. Configure the TWCloud service owner - enter twcloud
  5. Configure JAVA_HOME - it should display  /opt/local/java/jdk1.8.0_172 - accept this default.
  6. Choose Install Folder/opt/local/TeamworkCloud


Next, the TWCloud's Pre-Installation Summary will appear. It should look as follows:

Code Block
languagetext
===============================================================================
Pre-Installation Summary
------------------------
Please Review the Following Before Continuing:
 
Product Name:
    Teamwork Cloud
 
Install Folder:
    /opt/local/TeamworkCloud
 
Machine ip:
    "192.168.130.10"
 
Seed node ip:
    "192.168.130.10"
 
JAVA_HOME:
    "/opt/local/java/jdk1.8.0_172"
 
Disk Space Information (for Installation Target):
    Required:  395,614,661 Bytes
    Available: 31,608,475,648 Bytes
Note
iconfalse
titleNote

Anywhere where 192.168.130.10 is displayed, you must replace it with the IP address of your machine.

Post-Install Configuration

The installer has created the preliminary configuration of TWCloud. There are a few more changes, which we must make to the various configurations files in order for TWCloud to be fully functional.

  1. /opt/local/TeamworkCloud/configuration/application.conf - the configuration file for the TWCloud service.

If TWCloud is installed behind a proxy or firewall with NAT, upon the initial connection the MagicDraw client must know the external IP address to which it must connect.  Search for server-broadcast-host, and enter the public IP address instead of the local IP address.

We now need to point TWCloud to the Cassandra database.  Search for seeds =, which is located in the connection section. Edit the value inside the quotes to point to the listen_address you set in cassandra.yaml (i.e. seeds = ["192.168.130.10"])

A default password has been entered in the configuration file for its communication with the authorization server.  It is recommended that it be changed from default.  Search for CHANGE_ME, which is associated with the field pswd, and replace it with a password of your choosing.

2.  /opt/local/TeamworkCloud/AuthServer/config/authserver.properties - the configuration file for Authorization service.

  • server.public.host=public IP address (same as server-broadcast-host in application.conf). If you are accessing the server via a FQDN, use it instead of the IP address.
  • twc.server.host=local IP address.
  • If you changed the pswd field in /opt/local/TeamworkCloud/configuration/application.conf from the default, you must modify this file accordingly. Search for authentication.client.secret. Remove the leading # (to uncomment the directive), and replace the CHANGE_ME value with the same value as that in application.conf.
  • If you are accessing the server by FQDN, you must edit the property authentication.redirect.uri.whitelist by adding an entry to whitelist the FQDN.  For example: authentication.redirect.uri.whitelist=https://192.168.130.10:8111/twcloud_admin/,https://FQDN:8111/twcloud_admin/,https://md_redirect


To start the authserver service, execute the following command


sudo service authserver start


To start the the teamwork cloud service, execute the command


sudo service twcloud-svc start


To ensure the services start on reboot, execute the following commands


sudo chkconfig twcloud-svc on
sudo chkconfig authserver on

Additional information which may affect installations in restricted environments

Log Files

TWCloud executes under the twcloud user, and by default will store log files under this user's profile (/home/twcloud).  There are 2 configuration files which control the location of these log files:

Anchor
logfile1
logfile1
/opt/local/TeamworkCloud/configuration/logback.xml

In this file, there are settings for 2 log files which must be edited.

<appender name="SERVER-FILE" class="ch.qos.logback.core.rolling.RollingFileAppender">
                <file>${user.home}/.twcloud/19.0/server.log</file>
                <rollingPolicy class="ch.qos.logback.core.rolling.FixedWindowRollingPolicy">
                        <fileNamePattern>${user.home}/.twcloud/19.0/server.%i.log.zip</fileNamePattern>
                        <minIndex>1</minIndex>
                        <maxIndex>1000</maxIndex>
                </rollingPolicy>
 
                <triggeringPolicy class="ch.qos.logback.core.rolling.SizeBasedTriggeringPolicy">
                        <maxFileSize>20MB</maxFileSize>
                </triggeringPolicy>
                <encoder>
                  <pattern>%-5.5level %date{YYYY-MM-dd HH:mm:ss.SSS} %message [%logger{200}, %thread{10}]%n</pattern>
                </encoder>
        </appender>
 
        <appender name="SECURITY-FILE" class="ch.qos.logback.core.rolling.RollingFileAppender">
                <file>${user.home}/.twcloud/19.0/security.log</file>
                <rollingPolicy class="ch.qos.logback.core.rolling.TimeBasedRollingPolicy">
                <!-- daily rollover -->
                <fileNamePattern>${user.home}/.twcloud/19.0/security.%d{yyyy-MM-dd}.log</fileNamePattern>
 
                <!-- keep 365 days' worth of history -->
                <!-- maxHistory>365</maxHistory -->
        </rollingPolicy>
                <encoder>
                  <pattern>%-5.5level %date{YYYY-MM-dd HH:mm:ss.SSS} %message [%logger{200}, %thread{10}]%n</pattern>
                </encoder>
        </appender>


In each section, there are 2 settings which must be modified:  file and fileNamePattern. The first setting (file) controls the absolute path to the latest log file.  The second setting (fileNamePattern) controls the naming convention for the archiving of the log files.  In most cases, it will suffice to replace the ${user.home} token with a different location, but you must ensure that the twcloud user has ownership of the target directories.

Anchor
logfile2
logfile2
/opt/local/TeamworkCloud/Authserver/config/logback-spring.xml

This file contains one section which must be modified.

  <appender name="FILE" class="ch.qos.logback.core.rolling.RollingFileAppender">
                <file>${user.home}/.authserver/19.0./authserver.log</file>
                <rollingPolicy class="ch.qos.logback.core.rolling.FixedWindowRollingPolicy">
                        <fileNamePattern>${user.home}/.authserver/19.0./authserver.%i.log.zip</fileNamePattern>
                        <minIndex>1</minIndex>
                        <maxIndex>10</maxIndex>
                </rollingPolicy>
 
                <triggeringPolicy class="ch.qos.logback.core.rolling.SizeBasedTriggeringPolicy">
                        <maxFileSize>30MB</maxFileSize>
                </triggeringPolicy>
                <encoder>
                  <pattern>%-5.5level %date{YYYY-MM-dd HH:mm:ss.SSS} %message [%logger{0}, %thread{10}]%n</pattern>
                </encoder>
        </appender>

The same changes and permissions apply to the changes to this file as to those for /opt/local/TeamworkCloud/configuration/logback.xml.

Files installed on system locations

Daemon control filesEnvironment filesCassandra installation
  • /etc/init.d/authserver
  • /etc/init.d/cassandra
  • /etc/init.d/twcloud-svc
  • /etc/system/system/lmadmin.service
  • /etc/cassandra/*
  • /etc/twcloud/*
The script will place the data files in /data/data and commit logs in /logs/commitlog

Frequently Asked Questions

I am receiving an error when trying to access the Teamwork Cloud Admin Console, before being prompted for user credentials.

This is usually caused by the authentication server not running, and depending on the browser may include a page beginning with:

{ "issystemerror": true, "data": "Class: org.springframework.web.client.ResourceAccessException
  • To check if the authentication server is running, issue the command sudo service authserver status.
  • If it states it is stopped, start it via the command sudo service authserver start.
  • If it is running and you are receiving a browser window requesting you contact the system administrator, the cause for this may lie with the authentication.redirect.uri.whitelist field in authserver.properties.
  • If you are accessing via the FQDN, and the UEL is showing the FQDN of the machine, please add it in the form of https://FQDN:8111/twcloud_admin/ and restart the authserver service via the command sudo service authserver restart

I am unable to access the Teamwork Cloud Admin Console.

First, let's make sure that the service is running.  This is done via the command sudo service twcloud-svc status. Also, make sure that the authserver service is running, via the command sudo service authserver status.  If the services are running, the result of the command will be:

Running [PID]

Where PID is a number representing the process ID of the service. If the services are running, let's ensure that they are listening on the expected ports.  This is done by issuing the following commands:

Code Block
languagetext
netstat -anp | grep tcp | grep 8111 | grep LISTEN


and

netstat -anp | grep tcp | grep 8555 | grep LISTEN



The result should be something along the lines of

 [root@twccentos7 ~]# netstat -anp | grep tcp | grep 8111 | grep LISTEN
 tcp6       0      0 :::8111                 :::*                    LISTEN      28294/java          
 [root@twccentos7 ~]# netstat -anp | grep tcp | grep 8555 | grep LISTEN
 tcp6       0      0 :::8555                 :::*                    LISTEN      28466/java   


If you get a command not found message when executing netstat, this means it is not installed on your computer. To install it, execute the command

sudo yum install net-tools

and then retry once the package has been installed.

If the ports are listening, then the issue relates to traffic not being allowed into the computer on these ports. This may be caused either by the Linux firewall, or by an external firewall.  To temporarily turn off the Linux firewall, issue the following command:

sudo systemctl stop firewalld

If you can connect when the firewall is stopped, then you must check the firewall rules to ensure you are allowing traffic on both ports 8111 and 8555.  To restart the Linux firewall, issue the following command:

sudo systemctl start firewalld

If you were unable to connect, please contact your IT system administrators to ensure that they are not blocking traffic on these ports to the computer.