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nanog77-tsdb-tutorial

The goal of this tutorial is to help you get started with Moderm Timeseries Database and Grafana. In this repository you'll find:

  • A pre-build topology of 6 devices (4xIOSXR, 1xEOS, 1xJUNOS) that you can quickly setup in Tesuto
  • An ansible project to configure all devices and servers
  • A Step-by-Step guide to:
    • Collect interfaces and bgp statistics from the network devices using gNMI
    • run a prometheus and a Grafana server
  • Some example of dashboards and queries for Grafana

Tutorial

1- Setup a gNMI collector per device

gNMI is already configured on all devices, to start collecting data, we'll be using Telegraf. Telegraf is a very flexible collector that support many input plugins and many databases (output plugins).
For this tutorial we'll be using the input plugin cisco_telemetry_gnmi that is shipping with telegraf since 1.11.0. The playbook pb.telegraf.yaml will start one instance of telegraf per device on the jumphost (using docker). Each instance will listen on a specific port (defined in the inventory file)

ansible-playbook pb.telegraf.yaml

To verify that everything is running as expected

jumphost:~$ sudo docker ps
CONTAINER ID        IMAGE               COMMAND                  CREATED             STATUS              PORTS                                                  NAMES
1207af06d14d        telegraf:1.12.3     "/entrypoint.sh tele…"   23 hours ago        Up About an hour    8092/udp, 8125/udp, 8094/tcp, 0.0.0.0:9003->9003/tcp   telegraf-san-antonio
ea4064b4fe26        telegraf:1.12.3     "/entrypoint.sh tele…"   23 hours ago        Up About an hour    8092/udp, 8125/udp, 8094/tcp, 0.0.0.0:9004->9004/tcp   telegraf-el-paso
0f3a0fd55465        telegraf:1.12.3     "/entrypoint.sh tele…"   23 hours ago        Up About an hour    8092/udp, 8125/udp, 8094/tcp, 0.0.0.0:9001->9001/tcp   telegraf-amarillo
1d6a7954c7d5        telegraf:1.12.3     "/entrypoint.sh tele…"   23 hours ago        Up About an hour    8092/udp, 8125/udp, 8094/tcp, 0.0.0.0:9012->9012/tcp   telegraf-houston
da5d924a1bab        telegraf:1.12.3     "/entrypoint.sh tele…"   23 hours ago        Up About an hour    8092/udp, 8125/udp, 8094/tcp, 0.0.0.0:9011->9011/tcp   telegraf-dallas
f83660068e29        telegraf:1.12.3     "/entrypoint.sh tele…"   23 hours ago        Up About an hour    8092/udp, 8125/udp, 8094/tcp, 0.0.0.0:9002->9002/tcp   telegraf-austin

Connect to http://<jumphost_address>:<gnmi_port_telegraf>/metrics for each device to see the data exposed by Telegraf.

2- Start a prometheus server on the jumphost

To start a quick prometheus server, you need to download the binary for your platform and start it locally

# Download & untar
wget https://github.com/prometheus/prometheus/releases/download/v2.13.1/prometheus-2.13.1.linux-amd64.tar.gz
tar -xzf prometheus-2.13.1.linux-amd64.tar.gz
cp prometheus-2.13.1.linux-amd64/prometheus .

Create base configuration vi ~/prom.conf

global:
  scrape_interval: 15s

scrape_configs:
  - job_name: 'prometheus'
    scrape_interval: 5s
    static_configs:
      - targets: ['localhost:9090']

Launch t=the prometheus server

./prometheus --config.file="prom.conf"

At this point the server should be running and you can access its web interface at http://<jumphost_address>:9090/targets

To collect the information from the network devices (via telegraf) we need to update the configuration file to add a new list of targets

  - job_name: 'gnmi'
    scrape_interval: 30s
    static_configs:
      - targets: 
        - 'localhost:9001'
        - 'localhost:9002'
        - 'localhost:9003'
        - 'localhost:9004'
        - 'localhost:9011'
        - 'localhost:9012'

Check that all targets are working properly in the Web interface http://<jumphost_address>:9090/targets In the web interface you can start to run some queries:

  • Show ingress octets counters for all interfaces : interface_state_counters_in_octets
  • Show ingress octets counters for one device : interface_state_counters_in_octets{device="amarillo"}
  • Show ingress octets rate for one device : rate(interface_state_counters_in_octets{device="amarillo"}[2m])
  • Total ingress traffic for one device : sum(rate(interface_state_counters_in_octets{device="amarillo"}[2m])) by (device)

Add more tags

Enable the flag add_interface_role in group_vars/all.yaml, it will update the telegraf configuration to add new tags per interface

ansible-playbook pb.telegraf.yaml

Check if these tags are present in the UI

3- Install grafana

wget https://dl.grafana.com/oss/release/grafana_6.4.3_amd64.deb
sudo dpkg -i grafana_6.4.3_amd64.deb
sudo /bin/systemctl start grafana-server

Install discrete panel in Grafana to track interface and BGP status

sudo grafana-cli plugins install natel-discrete-panel
sudo service grafana-server restart

Setup the environment

Create the topology in Tesuto

  • Create an account on tesuto.com
  • Accept the licenses
  • Upload a SSH Key
  • Import the topology file tesuto.export

Configure everything

1- Configure the following environment variables

TESUTO_USERNAME=<username>
TESUTO_PASSWORD=<password>
TESUTO_TOPOLOGY=nanog-77
TESUTO_DOMAIN=<domain for your account>

2- Create a virtual environment and install ansible

3- Configure all devices and servers

ansible-playbook pb.config.network.yaml
ansible-playbook pb.config.linux.yaml
ansible-playbook pb.prometheus.yaml

Generate some Traffic

Iperf, iperf3, NUTTCP, NGINX and K6 are installed on both srv-dal and srv-hou

NUTTCP

# From srv-hou, start the server
nuttcp -S
# From srv-dal
nuttcp -N 128 -T 600 10.0.120.10
nuttcp -N 128 -T 600 -R 1000p 10.0.110.10

K6

from either (or both) server

k6 run --vus 50 --no-vu-connection-reuse --duration 600s /tmp/test.j2

Iperf3

Start iperf3 in Server mode
iperf3 -s -D
iperf3 -P 64 -b 50K -l 100 -M 500 -t 600 -c 10.0.110.10 -u
iperf3 -P 64 -b 1k -l 100 -M 500 -t 600 -c 10.0.110.10 -u


iperf3 -P 32 -b 1K -l 100 -M 500 -t 600 -c 10.0.120.10 -u
iperf3 -P 32 -b 100M -l 100 -M 1400 -t 600 -c 10.0.120.10 -u

Links https://discuss.aerospike.com/t/benchmarking-throughput-and-packet-count-with-iperf3/2791 https://support.cumulusnetworks.com/hc/en-us/articles/216509388-Throughput-Testing-and-Troubleshooting#client_commands

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