Tutorial

How To Use Alertmanager And Blackbox Exporter To Monitor Your Web Server On Ubuntu 16.04

Published on May 11, 2018
How To Use Alertmanager And Blackbox Exporter To Monitor Your Web Server On Ubuntu 16.04

The author selected the Tech Education Fund to receive a $300 donation as part of the Write for DOnations program.

Introduction

When problems arise, sending alerts to the appropriate team significantly speeds up identifying the root cause of an issue, allowing teams to resolve incidents quickly.

Prometheus is an open-source monitoring system that collects metrics from your services and stores them in a time-series database. Alertmanager is a tool for processing alerts, which de-duplicates, groups, and sends alerts to the appropriate receiver. It can handle alerts from client applications such as Prometheus, and it supports many receivers including e-mail, PagerDuty, OpsGenie and Slack.

Thanks to the many Prometheus exporters available, you can configure alerts for every part of your infrastructure, including web and database servers, messaging systems or APIs.

Blackbox Exporter probes endpoints over HTTP, HTTPS, DNS, TCP or ICMP protocols, returning detailed metrics about the request, including whether or not it was successful and how long it took to receive a response.

In this tutorial you’ll install and configure Alertmanager and Blackbox Exporter to monitor the responsiveness of an Nginx web server. You’ll then configure Alertmanager to notify you over e-mail and Slack if your server isn’t responding.

Prerequisites

For this tutorial, you’ll need:

Step 1 — Creating Service Users

For security purposes, we’ll create two new user accounts, blackbox_exporter and alertmanager. We’ll use these accounts throughout the tutorial to run Blackbox Exporter and Alertmanager, as well as to isolate the ownership on appropriate core files and directories. This ensures Blackbox Exporter and Alertmanager can’t access and modify data they don’t own.

Create these users with the useradd command using the --no-create-home and --shell /bin/false flags so that these users can’t log into the server:

  1. sudo useradd --no-create-home --shell /bin/false blackbox_exporter
  2. sudo useradd --no-create-home --shell /bin/false alertmanager

With the users in place, let’s download and configure Blackbox Exporter.

Step 2 — Installing Blackbox Exporter

First, download the latest stable version of Blackbox Exporter to your home directory. You can find the latest binaries along with their checksums on the Prometheus Download page.

  1. cd ~
  2. curl -LO https://github.com/prometheus/blackbox_exporter/releases/download/v0.12.0/blackbox_exporter-0.12.0.linux-amd64.tar.gz

Before unpacking the archive, verify the file’s checksums using the following sha256sum command:

  1. sha256sum blackbox_exporter-0.12.0.linux-amd64.tar.gz

Compare the output from this command with the checksum on the Prometheus download page to ensure that your file is both genuine and not corrupted:

Output
c5d8ba7d91101524fa7c3f5e17256d467d44d5e1d243e251fd795e0ab4a83605 blackbox_exporter-0.12.0.linux-amd64.tar.gz

If the checksums don’t match, remove the downloaded file and repeat the preceding steps to re-download the file.

When you’re sure the checksums match, unpack the archive:

  1. tar xvf blackbox_exporter-0.12.0.linux-amd64.tar.gz

This creates a directory called blackbox_exporter-0.12.0.linux-amd64, containing the blackbox_exporter binary file, a license, and example files.

Copy the binary file to the /usr/local/bin directory.

  1. sudo mv ./blackbox_exporter-0.12.0.linux-amd64/blackbox_exporter /usr/local/bin

Set the user and group ownership on the binary to the blackbox_exporter user, ensuring non-root users can’t modify or replace the file:

  1. sudo chown blackbox_exporter:blackbox_exporter /usr/local/bin/blackbox_exporter

Lastly, we’ll remove the archive and unpacked directory, as they’re no longer needed.

  1. rm -rf ~/blackbox_exporter-0.12.0.linux-amd64.tar.gz ~/blackbox_exporter-0.12.0.linux-amd64

Next, let’s configure Blackbox Exporter to probe endpoints over the HTTP protocol and then run it.

Step 3 — Configuring and Running Blackbox Exporter

Let’s create a configuration file defining how Blackbox Exporter should check endpoints. We’ll also create a systemd unit file so we can manage Blackbox’s service using systemd.

We’ll specify the list of endpoints to probe in the Prometheus configuration in the next step.

First, create the directory for Blackbox Exporter’s configuration. Per Linux conventions, configuration files go in the /etc directory, so we’ll use this directory to hold the Blackbox Exporter configuration file as well:

  1. sudo mkdir /etc/blackbox_exporter

Then set the ownership of this directory to the blackbox_exporter user you created in Step 1:

  1. sudo chown blackbox_exporter:blackbox_exporter /etc/blackbox_exporter

In the newly-created directory, create the blackbox.yml file which will hold the Blackbox Exporter configuration settings:

  1. sudo nano /etc/blackbox_exporter/blackbox.yml

We’ll configure Blackbox Exporter to use the default http prober to probe endpoints. Probers define how Blackbox Exporter checks if an endpoint is running. The http prober checks endpoints by sending a HTTP request to the endpoint and testing its response code. You can select which HTTP method to use for probing, as well as which status codes to accept as successful responses. Other popular probers include the tcp prober for probing via the TCP protocol, the icmp prober for probing via the ICMP protocol and the dns prober for checking DNS entries.

For this tutorial, we’ll use the http prober to probe the endpoint running on port 8080 over the HTTP GET method. By default, the prober assumes that valid status codes in the 2xx range are valid, so we don’t need to provide a list of valid status codes.

We’ll configure a timeout of 5 seconds, which means Blackbox Exporter will wait 5 seconds for the response before reporting a failure. Depending on your application type, choose any value that matches your needs.

Note: Blackbox Exporter’s configuration file uses the YAML format, which forbids using tabs and strictly requires using two spaces for indentation. If the configuration file is formatted incorrectly, Blackbox Exporter will fail to start up.

Add the following configuration to the file:

/etc/blackbox_exporter/blackbox.yml
modules:
  http_2xx:
    prober: http
    timeout: 5s
    http:      
      valid_status_codes: []
      method: GET

You can find more information about the configuration options in the the Blackbox Exporter’s documentation.

Save the file and exit your text editor.

Before you create the service file, set the user and group ownership on the configuration file to the blackbox_exporter user created in Step 1.

  1. sudo chown blackbox_exporter:blackbox_exporter /etc/blackbox_exporter/blackbox.yml

Now create the service file so you can manage Blackbox Exporter using systemd:

  1. sudo nano /etc/systemd/system/blackbox_exporter.service

Add the following content to the file:

/etc/systemd/system/blackbox_exporter.service
[Unit]
Description=Blackbox Exporter
Wants=network-online.target
After=network-online.target

[Service]
User=blackbox_exporter
Group=blackbox_exporter
Type=simple
ExecStart=/usr/local/bin/blackbox_exporter --config.file /etc/blackbox_exporter/blackbox.yml

[Install]
WantedBy=multi-user.target

This service file tells systemd to run Blackbox Exporter as the blackbox_exporter user with the configuration file located at /etc/blackbox_exporter/blackbox.yml. The details of systemd service files are beyond the scope of this tutorial, but if you’d like to learn more see the Understanding Systemd Units and Unit Files tutorial.

Save the file and exit your text editor.

Finally, reload systemd to use your newly-created service file:

  1. sudo systemctl daemon-reload

Now start Blackbox Exporter:

  1. sudo systemctl start blackbox_exporter

Make sure it started successfully by checking the service’s status:

  1. sudo systemctl status blackbox_exporter

The output contains information about Blackbox Exporter’s process, including the main process identifier (PID), memory use, logs and more.

Output
● blackbox_exporter.service - Blackbox Exporter Loaded: loaded (/etc/systemd/system/blackbox_exporter.service; disabled; vendor preset: enabled) Active: active (running) since Thu 2018-04-05 17:48:58 UTC; 5s ago Main PID: 5869 (blackbox_export) Tasks: 4 Memory: 968.0K CPU: 9ms CGroup: /system.slice/blackbox_exporter.service └─5869 /usr/local/bin/blackbox_exporter --config.file /etc/blackbox_exporter/blackbox.yml

If the service’s status isn’t active (running), follow the on-screen logs and retrace the preceding steps to resolve the problem before continuing the tutorial.

Lastly, enable the service to make sure Blackbox Exporter will start when the server restarts:

  1. sudo systemctl enable blackbox_exporter

Now that Blackbox Exporter is fully configured and running, we can configure Prometheus to collect metrics about probing requests to our endpoint, so we can create alerts based on those metrics and set up notifications for alerts using Alertmanager.

Step 4 — Configuring Prometheus To Scrape Blackbox Exporter

As mentioned in Step 3, the list of endpoints to be probed is located in the Prometheus configuration file as part of the Blackbox Exporter’s targets directive. In this step you’ll configure Prometheus to use Blackbox Exporter to scrape the Nginx web server running on port 8080 that you configured in the prerequisite tutorials.

Open the Prometheus configuration file in your editor:

  1. sudo nano /etc/prometheus/prometheus.yml

At this point, it should look like the following:

/etc/prometheus/prometheus.yml
global:
  scrape_interval: 15s

scrape_configs:
  - job_name: 'prometheus'
    scrape_interval: 5s
    static_configs:
      - targets: ['localhost:9090']
  - job_name: 'node_exporter'
    scrape_interval: 5s
    static_configs:
      - targets: ['localhost:9100']

At the end of the scrape_configs directive, add the following entry, which will tell Prometheus to probe the endpoint running on the local port 8080 using the Blackbox Exporter’s module http_2xx, configured in Step 3.

/etc/prometheus/prometheus.yml
...
  - job_name: 'blackbox'
    metrics_path: /probe
    params:
      module: [http_2xx]
    static_configs:
      - targets:
        - http://localhost:8080
    relabel_configs:
      - source_labels: [__address__]
        target_label: __param_target
      - source_labels: [__param_target]
        target_label: instance
      - target_label: __address__
        replacement: localhost:9115

By default, Blackbox Exporter runs on port 9115 with metrics available on the /probe endpoint.

The scrape_configs configuration for Blackbox Exporter differs from the configuration for other exporters. The most notable difference is the targets directive, which lists the endpoints being probed instead of the exporter’s address. The exporter’s address is specified using the appropriate set of __address__ labels.

You’ll find a detailed explanation of the relabel directives in the Prometheus documentation.

Your Prometheus configuration file will now look like this:

Prometheus config file - /etc/prometheus/prometheus.yml
global:
  scrape_interval: 15s

scrape_configs:
  - job_name: 'prometheus'
    scrape_interval: 5s
    static_configs:
      - targets: ['localhost:9090']
  - job_name: 'node_exporter'
    scrape_interval: 5s
    static_configs:
      - targets: ['localhost:9100']
  - job_name: 'blackbox'
    metrics_path: /probe
    params:
      module: [http_2xx]
    static_configs:
      - targets:
        - http://localhost:8080
    relabel_configs:
      - source_labels: [__address__]
        target_label: __param_target
      - source_labels: [__param_target]
        target_label: instance
      - target_label: __address__
        replacement: localhost:9115

Save the file and close your text editor.

Restart Prometheus to put the changes into effect:

  1. sudo systemctl restart prometheus

Make sure it’s running as expected by checking the Prometheus service status:

  1. sudo systemctl status prometheus

If the service’s status isn’t active (running), follow the on-screen logs and retrace the preceding steps to resolve the problem before continuing the tutorial.

At this point, you’ve configured Prometheus to scrape metrics from Blackbox Exporter. In order to receive alerts from Alertmanager, in the next step you’ll create an appropriate set of Prometheus alert rules.

Step 5 — Creating Alert Rules

Prometheus Alerting is separated into two parts. The first part is handled by the Prometheus server and includes generating alerts based on alert rules and sending them to Alertmanager. The second part is done by Alertmanager, which manages received alerts and sends them to the appropriate receivers, depending on the configuration.

In this step, you’ll learn the basic syntax of alert rules as you create an alert rule to check if your server is available.

First, create a file to store your alerts. Create an empty file named alert.rules.yml in the /etc/prometheus directory:

  1. sudo touch /etc/prometheus/alert.rules.yml

As this file is part of the Prometheus configuration, make sure the ownership is set to the prometheus user you created in the prerequisite Prometheus tutorial:

  1. sudo chown prometheus:prometheus /etc/prometheus/alert.rules.yml

With the alerts file in place, we need to tell Prometheus about it by adding the appropriate directive to the configuration file.

Open the Prometheus configuration file in your editor:

  1. sudo nano /etc/prometheus/prometheus.yml

Add the rule_files directive after the global directive to make Prometheus load your newly-created alerts file when Prometheus starts.

/etc/prometheus/prometheus.yml
global:
  scrape_interval: 15s

rule_files:
  - alert.rules.yml

scrape_configs:
...

Save the file and exit your text editor.

Now let’s build a rule that checks if the endpoint is down.

In order to make the alert rule, you’ll use Blackbox Exporter’s probe_success metric which returns 1 if the endpoint is up and 0 if it isn’t.

The probe_success metric contains two labels: the instance label with the address of the endpoint, and the job label with the name of the exporter that collected the metric.

Open the alert rules file in your editor:

  1. sudo nano /etc/prometheus/alert.rules.yml

Like the Prometheus configuration file, the alerts rule file uses the YAML format, which strictly forbids tabs and requires two spaces for indentation. Prometheus will fail to start if the file is incorrectly formatted.

First, we’ll create an alert rule called EndpointDown to check if the probe_sucess metric equals 0 with a duration of 10 seconds. This ensures that Prometheus will not send any alert if the endpoint is not available for less than 10 seconds. You’re free to choose whatever duration you want depending on your application type and needs.

Also, we’ll attach two labels denoting critical severity and a summary of the alert, so we can easily manage and filter alerts.

If you want to include more details in the alert’s labels and annotations, you can use the {{ $labels.metrics_label }} syntax to get the label’s value. We’ll use this to include the endpoint’s address from the metric’s instance label.

Add the following rule to the alerts file:

/etc/prometheus/alert.rules.yml
groups:
- name: alert.rules
  rules:
  - alert: EndpointDown
    expr: probe_success == 0
    for: 10s
    labels:
      severity: "critical"
    annotations:
      summary: "Endpoint {{ $labels.instance }} down"

Save the file and exit your text editor.

Before restarting Prometheus, make sure your alerts file is syntactically correct using the following promtool command:

  1. sudo promtool check rules /etc/prometheus/alert.rules.yml

The output contains the number of rules found in the file, along with information about whether or not the rules are syntactically correct:

Output
Checking /etc/prometheus/alert.rules.yml SUCCESS: 1 rules found

Lastly, restart Prometheus to apply the changes:

  1. sudo systemctl restart prometheus

Verify the service is running with the status command:

  1. sudo systemctl status prometheus

If the service’s status isn’t active, follow the on-screen logs and retrace the preceding steps to resolve the problem before continuing the tutorial.

With the alert rules in place, we can download and install Alertmanager.

Step 6 — Downloading Alertmanager

Blackbox Exporter is configured and our alert rules are in place. Let’s download and install Alertmanager to process the alerts received by Prometheus.

You can find the latest binaries along with their checksums on the Prometheus download page. Download and unpack the current stable version of Alertmanager into your home directory:

  1. cd ~
  2. curl -LO https://github.com/prometheus/alertmanager/releases/download/v0.14.0/alertmanager-0.14.0.linux-amd64.tar.gz

Before unpacking the archive, verify the file’s checksums using the following sha256sum command:

  1. sha256sum alertmanager-0.14.0.linux-amd64.tar.gz

Compare the output from this command with the checksum on the Prometheus download page to ensure that your file is both genuine and not corrupted.

Output
caddbbbe3ef8545c6cefb32f9a11207ae18dcc788e8d0fb19659d88c58d14b37 alertmanager-0.14.0.linux-amd64.tar.gz

If the checksums don’t match, remove the downloaded file and repeat the preceding steps to re-download the file.

Once you’ve verified the download, unpack the archive:

  1. tar xvf alertmanager-0.14.0.linux-amd64.tar.gz

This creates a directory called alertmanager-0.14.0.linux-amd64 containing two binary files (alertmanager and amtool), a license and an example configuration file.

Move the two binary files to the /usr/local/bin directory:

  1. sudo mv alertmanager-0.14.0.linux-amd64/alertmanager /usr/local/bin
  2. sudo mv alertmanager-0.14.0.linux-amd64/amtool /usr/local/bin

Set the user and group ownership on the binary files to the alertmanager user you created in Step 1:

  1. sudo chown alertmanager:alertmanager /usr/local/bin/alertmanager
  2. sudo chown alertmanager:alertmanager /usr/local/bin/amtool

Remove the leftover files from your home directory as they are no longer needed:

  1. rm -rf alertmanager-0.14.0.linux-amd64 alertmanager-0.14.0.linux-amd64.tar.gz

Now that the required files are in the appropriate location, we can configure Alertmanager to send notifications for alerts over email.

Step 7 — Configuring Alertmanager To Send Alerts Over Email

In this step, you’ll create the directory and files to store Alertmanager’s data and configuration settings, and then configure Alertmanager to send alerts via email.

Following the standard Linux conventions, we’ll create a directory in /etc to store Alertmanager’s configuration file.

  1. sudo mkdir /etc/alertmanager

Set the user and group ownership for the newly-created directory to the alertmanager user:

  1. sudo chown alertmanager:alertmanager /etc/alertmanager

We’ll store the configuration file in the alertmanager.yml file, so create this file and open it in your editor:

  1. sudo nano /etc/alertmanager/alertmanager.yml

Like other Prometheus-related files, this one uses YAML format as well, so make sure to use two spaces instead of tabs for indentation.

We’ll configure Alertmanager to send emails using Postfix, which you installed following the prerequisite tutorial. We need to provide the SMTP server’s address, using the smtp_smarthost directive, as well as the address we want to send emails from, using the smtp_from directive. As Postfix is running on the same server as Alertmanager, the server’s address is localhost:25. We’ll use the alertmanager user for sending emails.

By default, Postfix doesn’t have TLS configured, so we need to tell Alertmanager to allow non-TLS SMTP servers using the smtp_require_tls directive.

Put the SMTP configuration under the global directive, as it’s used to specify parameters valid in all other configuration contexts. This includes SMTP configuration in our case, and can also include API tokens for various integrations:

Alertmanager config file part 1 - /etc/alertmanager/alertmanager.yml
global:
  smtp_smarthost: 'localhost:25'
  smtp_from: 'alertmanager@your_domain'
  smtp_require_tls: false

Note: Make sure to replace your_domin in the smtp_from directive with your domain name.

At this point, Alertmanager knows how to send emails, but we need to define how it will handle incoming alerts using the route directive. The route directive is applied to every incoming alert and defines properties such as how Alertmanager will group alerts, who is the default recipient, or how long Alertmanager will wait before sending an initial alert.

To group alerts, use the group_by sub-directive, which takes an inline array of labels (such as ['label-1', 'label-2']). Grouping ensures that alerts containing the same labels will be grouped and sent in the same batch.

Every route directive has a single receiver defined using the receiver sub-directive. If you want to add multiple receivers, you’ll need to either define multiple receivers under the same directive or nest multiple route directives using the routes sub-directive. In this tutorial, we’ll cover the first approach to configure Slack alerts.

In this case, we’ll only group by Blackbox’s instance label and the severity label we attached to the alert in step 6, ensuring we’ll get multiple alerts for our endpoint with critical severity in one mail.

Add the following group_by directive:

Alertmanager config file part 2 - /etc/alertmanager/alertmanager.yml
...
route:
  group_by: ['instance', 'alert']

Next, we’ll define intervals, such as how long Alertmanager will wait before sending initial and new alerts.

Using the group_wait sub-directive, we’ll define how long Alertmanager will wait before sending the initial alert. During this period, Alertmanager will wait for Prometheus to send other alerts if they exist so they can be sent in the same batch. As we only have one alert, we’ll select an arbitrary value of 30 seconds.

Next, using the group_interval interval, we’ll define how long Alertmanager will wait before sending the next batch of alerts if there are new alerts in the same group. You’re free to choose any value depending on your needs, but we’ll set this to every 5 minutes.

The last interval we’ll configure is the repeat_interval, which defines how long Alertmanager will wait before it sends notification if alerts are not resolved yet. You can choose whatever value suits your needs, but we’ll use the arbitrary value of 3 hours.

Lastly, using the receiver sub-directive, define who will receive notifications for the alerts. We’ll use a receiver called team-1, which we will define later.

Modify the route directive so it looks like this:

Alertmanager config file part 2 - /etc/alertmanager/alertmanager.yml
route:
  group_by: ['instance', 'severity']
  group_wait: 30s
  group_interval: 5m
  repeat_interval: 3h
  receiver: team-1

If you want to match and send notifications only about specific alerts, you can use the match and match_re sub-directives to filter out alerts by their label’s value. The match sub-directive represents equality match, where the match_re sub-directive represents matching via regular expressions.

Now we’ll configure the team-1 receiver so you can receive notifications for alerts. Under the receivers directive you can define receivers containing the name and appropriate configuration sub-directive. The list of available receivers and instructions on how to configure them is available as the part of Alertmanager’s documentation.

In order to configure the team-1 email receiver, we’ll use the email_configs sub-directive under the receivers directive:

Alertmanager config file part 3 - /etc/alertmanager/alertmanager.yml
receivers:
  - name: 'team-1'
    email_configs:
      - to: 'your-email-address'

At this point, you have configured Alertmanager to send notifications for alerts to your e-mail address. Your configuration file should look like:

Alertmanager config file - /etc/alertmanager/alertmanager.yml
global:
  smtp_smarthost: 'localhost:25'
  smtp_from: 'alertmanager@example.com'
  smtp_require_tls: false

route:
  group_by: ['instance', 'severity']
  group_wait: 30s
  group_interval: 5m
  repeat_interval: 3h
  receiver: team-1

receivers:
  - name: 'team-1'
    email_configs:
      - to: 'your-email-address'

In the next step, we’ll configure Alertmanager to send alerts to your Slack channel. If you don’t want to configure Slack, you can skip straight to step 10 where we’ll create the service file and configure Prometheus to work with Alertmanager.

Step 8 — Configuring Alertmanager To Send Alerts Over Slack

Before proceeding with this step, make sure you have created an Slack account and that you have a Slack workspace available.

To send alerts to Slack, first create an Incoming Webhook.

Point your browser to the Incoming Webhook creation page available at https://workspace-name.slack.com/services/new/incoming-webhook/. You’ll get the page containing details about Incoming Webhooks as well as a dropdown from which you need to choose the channel where you want to send alerts.

Slack Incoming Webhook

Once you choose the channel, click on the Add Incoming WebHooks integration button.

You’ll see a new page confirming that the webhook was created successfully. Copy the Webhook URL displayed on this page, as you’ll use it to configure Alertmanager’s Slack notifications.

Open the Alertmanager configuration file in your editor to configure Slack notifications:

  1. sudo nano /etc/alertmanager/alertmanager.yml

First, add the slack_api_url sub-directive to the global part of your configuration, using the URL you got when you created the Slack Incoming Webhook.

Alertmanager config file part 1 - /etc/alertmanager/alertmanager.yml
global:
  smtp_smarthost: 'localhost:25'
  smtp_from: 'alertmanager@example.com'
  smtp_require_tls: false
  
  slack_api_url: 'your_slack_webhook_url'

There are two ways to send alerts to multiple receivers:

  1. Include multiple receiver configurations under the same entry. This is the the least error-prone solution and the easiest method.
  2. Create multiple receiver entries and nest multiple route directives.

We won’t cover the second approach in this tutorial, but if you’re interested, take a look at the Route configuration portion of Alertmanager documentation.

In the team-1 receiver, add a new sub-directive called slack_configs and provide the name of the channel that should receive alerts. In this case, we’ll use use the general channel:

Alertmanager config file part 2 - /etc/alertmanager/alertmanager.yml
receivers:
  - name: 'team-1'
    email_configs:
      - to: 'your-email-address'
    slack_configs:
      - channel: 'general<^>'

Your completed configuration file will look like the following:

Alertmanager config file - /etc/alertmanager/alertmanager.yml
global:
  smtp_smarthost: 'localhost:25'
  smtp_from: 'alertmanager@example.com'
  smtp_require_tls: false
  
  slack_api_url: 'your_slack_webhook_url'

route:
  group_by: ['instance', 'severity']
  group_wait: 30s
  group_interval: 5m
  repeat_interval: 3h
  receiver: team-1
  
receivers:
  - name: 'team-1'
    email_configs:
      - to: 'your-email-address'
    slack_configs:
      - channel: 'general'

Save the file and exit your editor.

We’re now ready to run Alertmanager for the first time.

Step 9 — Running Alertmanager

Let’s get Alertmanager up and running. We’ll first create a systemd unit file for Alertmanager to manage its service using systemd. Then we’ll update Prometheus to use Alertmanager.

Create a new systemd unit file and open it in your text editor:

  1. sudo nano /etc/systemd/system/alertmanager.service

Add the following to the file to configure systemd to run Alertmanager as the alertmanager user, using the configuration file located at /etc/alertmanager/alertmanager.yml and Alertmanager’s URL, configured to use your server’s IP address:

/etc/systemd/system/alertmanager.service
[Unit]
Description=Alertmanager
Wants=network-online.target
After=network-online.target

[Service]
User=alertmanager
Group=alertmanager
Type=simple
WorkingDirectory=/etc/alertmanager/
ExecStart=/usr/local/bin/alertmanager --config.file=/etc/alertmanager/alertmanager.yml --web.external-url http://your_server_ip:9093

[Install]
WantedBy=multi-user.target

This will run Alertmanager as the alertmanager user. It also tells Alertmanager to use the URL http://your_server_ip:9093 for its Web UI, where 9093 is Alertmanager’s default port. Be sure to include the protocol (http://) or things won’t work.

Save the file and close your text editor.

Next, we need to tell Prometheus about Alertmanager by adding the appropriate Alertmanager service discovery directory to the Prometheus configuration file. By default, Alertmanager is running on port 9093, and since it’s on the same server as Prometheus, we’ll use the address localhost:9093.

Open the Prometheus configuration file:

  1. sudo nano /etc/prometheus/prometheus.yml

After the rule_files directive, add the following alerting directive:

Prometheus configuration file - /etc/prometheus/prometheus.yml
...
rule_files:
  - alert.rules.yml

alerting:
  alertmanagers:
  - static_configs:
    - targets:
      - localhost:9093
...

Once you’re done, save the file and close your text editor.

In order to be able to follow URLs from the alerts you receive, you need to tell Prometheus the IP address or domain name of your server using the -web.external-url flag when you start Prometheus.

Open the systemd unit file for Prometheus:

  1. sudo nano /etc/systemd/system/prometheus.service

Replace the existing ExecStart line with the following one:

ExecStart=/usr/local/bin/prometheus --config.file /etc/prometheus/prometheus.yml \
	--storage.tsdb.path /var/lib/prometheus/ --web.console.templates=/etc/prometheus/consoles \
    --web.console.libraries=/etc/prometheus/console_libraries \ 
    --web.external-url http://your_server_ip

Your new Prometheus unit file will look like this:

Prometheus service file - /etc/systemd/system/prometheus.service
[Unit]
Description=Prometheus
Wants=network-online.target
After=network-online.target

[Service]
User=prometheus
Group=prometheus
Type=simple
ExecStart=/usr/local/bin/prometheus --config.file /etc/prometheus/prometheus.yml \
	--storage.tsdb.path /var/lib/prometheus/ --web.console.templates=/etc/prometheus/consoles \
    --web.console.libraries=/etc/prometheus/console_libraries \ 
    --web.external-url http://your_server_ip

[Install]
WantedBy=multi-user.target

Save the file and close your text editor.

Reload systemd and restart Prometheus to apply the changes:

  1. sudo systemctl daemon-reload
  2. sudo systemctl restart prometheus

Make sure Prometheus is working as intended by checking the service’s status:

  1. sudo systemctl status prometheus

If the service’s status isn’t active (running), follow the on-screen logs and retrace the preceding steps to resolve the problem before continuing the tutorial.

Finally, start Alertmanager for the first time:

  1. sudo systemctl start alertmanager

Check the service’s status to make sure Alertmanager is working as intended:

  1. sudo systemctl status alertmanager

If the service’s status isn’t active (running), follow the on-screen messages and retrace the preceding steps to resolve the problem before continuing the tutorial.

Lastly, enable the service to make sure Alertmanager will start when the system boots:

  1. sudo systemctl enable alertmanager

To access Alertmanager’s Web UI, allow traffic to port 9093 through your firewall:

  1. sudo ufw allow 9093/tcp

Alertmanager is now configured to send notifications for alerts via email and Slack. Let’s ensure it works.

Step 10 — Testing Alertmanager

Let’s make sure Alertmanger is working correctly and sending emails and Slack notifications. We’ll disable the endpoint by removing the Nginx server block you created in the prerequisite tutorials:

  1. sudo rm /etc/nginx/sites-enabled/your_domain

Reload Nginx to apply the changes:

  1. sudo systemctl reload nginx

If you want to confirm it’s actually disabled, you can point your web browser to your server’s address. You should see a message indicating that the site is no longer reachable. If you don’t, retrace the preceding steps and make sure you deleted correct server block and reloaded Nginx.

Depending on the group_wait interval, which is 30 seconds in our case, you should receive email and Slack notifications after 30 seconds.

If you don’t, check the service’s status by using the following status commands and follow the on-screen logs to find the cause of the problem:

  1. sudo systemctl status alertmanager
  2. sudo systemctl status prometheus

You can also check the alert’s status from the Prometheus Web UI, by pointing your web browser to the http://your_server_ip/alerts. You’ll be asked to enter the username and password you chose by following the Prometheus tutorial. By clicking on the alert name, you’ll see the status, the alert rule, and associated labels:

Prometheus UI - alerts

Once you’ve verified Alertmanager is working, enable the endpoint by re-creating the symbolic link from the sites-available directory to the sites-enabled directory:

  1. sudo ln -s /etc/nginx/sites-available/your_domain /etc/nginx/sites-enabled

Reload Nginx once again to apply the changes:

  1. sudo systemctl reload nginx

In the next step, we’ll look at how to use Alertmanager’s Command-Line Interface.

Step 11 — Managing Alerts Using the CLI

Alertmanager comes with the command-line tool amtool, which lets you monitor, manage and silence alerts.

The amtool tool requires you to provide the URL of Alertmanager using the --alertmanager.url flag every time you execute an command. In order to use amtool without providing the URL, we’ll start by creating a configuration file.

Default locations for the configuration file are $HOME/.config/amtool/config.yml, which makes the configuration available only for your current user, and /etc/amtool/config.yml, which makes the configuration available for the every user on the server.

You’re free to choose whatever suits your needs, but for this tutorial, we’ll use the $HOME/.config/amtool/config.yml file.

First, create the directory. The -p flag tells mkdir to create any necessary parent directories along the way:

  1. mkdir -p $HOME/.config/amtool

Create the config.yml file and open it in your text editor:

  1. nano $HOME/.config/amtool/config.yml

Add the following line to tell amtool to use Alertmanager with the http://localhost:9093 URL:

~/.config/amtool/config.yml
alertmanager.url: http://localhost:9093

Save the file and exit your text editor.

Now, we’ll take a look at what we can do with the amtool command line tool.

Using the amtool alert query command, you can list all alerts that have been send to Alertmanager:

  1. amtool alert query

The output shows the alert’s name, the time of the alert’s first occurrence, and the alert’s summary you provided when you configured it:

Output
Alertname Starts At Summary EndpointDown 2018-04-03 08:48:47 UTC Endpoint http://localhost:8080 down

You can also filter alerts by their labels using the appropriate matcher. A matcher contains the label name, the appropriate operation, which can be = for full matching and =~ for partial matching, and the label’s value.

If you want to list all alerts that have a critical severity label attached, use the severity=critical matcher in the alert query command:

  1. amtool alert query severity=critical

Like before, the output contains the alert’s name, the time of alert’s first occurrence and the alert’s summary.

Output
Alertname Starts At Summary EndpointDown 2018-04-03 08:48:47 UTC Endpoint http://localhost:8080 down

You can use regular expressions to match labels with the =~ operator. For example, to list all alerts for http://localhost endpoints not depending on the port, you can use the instance=~http://localhost.* matcher:

  1. amtool alert query instance=~http://localhost.*

As you have only one alert and endpoint, the output would be the same as in the previous example.

To look at the Alertmanager configuration, use the amtool config command:

  1. amtool config

The output will contain the content of the /etc/alertmanager/alertmanager.yml file.

Now let’s look at how to silence alerts using amtool.

Silencing alerts lets you mute alerts based on the matcher for a given time. During that period, you’ll not receive any email or Slack notification for the silenced alert.

The amtool silence add command takes the matcher as an argument and creates a new silence based on the matcher.

To define the expiration of an alert, use the --expires flag with desired duration of the silence, such as 1h or the --expire-on flag with the time of silence expiration in the RFC3339 format. For example, the format 2018-10-04T07:50:00+00:00 represents 07.50am on October 4th, 2018.

If the --expires or the --expires-on flag is not provided, alerts will be silenced for 1 hour.

To silence all alerts for the http://localhost:8080 instance for 3 hours, you’d use the following command:

  1. amtool silence add instance=http://localhost:8080 --expires 3h

The output contains an identification number for the silence, so make sure to note it down as you’ll need it in case you want to remove the silence:

Output
4e89b15b-0814-41d3-8b74-16c513611732

If you want to provide additional information when creating the silence, such as the author and comments, use the --author and --comment flags:

  1. amtool silence add severity=critical --expires 3h --author "Sammy The Shark" --comment "Investigating the progress"

Like before, the output contains the ID of the silence:

Output
12b7b9e1-f48a-4ceb-bd85-65ac882ceed1

The command amtool silence query will show the list of all non-expired silences:

  1. amtool silence query

The output contains the ID of the silence, the list of matchers, the expiration timestamp, the author, and a comment:

Output
ID Matchers Ends At Created By Comment 12b7b9e1-f48a-4ceb-bd85-65ac882ceed1 severity=critical 2018-04-04 08:02:58 UTC Sammy The Shark Investigating in the progress 4e89b15b-0814-41d3-8b74-16c513611732 instance=http://localhost:8080 2018-04-04 08:14:21 UTC sammy

Similar to the alert query command, you can use label matchers to filter the output by labels attached on creation:

  1. amtool silence query instance=http://localhost:8080

Like before, the output will include the ID number and details of the alert:

Output
ID Matchers Ends At Created By Comment 4e89b15b-0814-41d3-8b74-16c513611732 instance=http://localhost:8080 2018-04-04 08:14:21 UTC sammy

Finally, to expire a silence, use the amtool silence expire with the ID of the silence you want to expire:

  1. amtool silence expire 12b7b9e1-f48a-4ceb-bd85-65ac882ceed1
  2. amtool silence expire 4e89b15b-0814-41d3-8b74-16c513611732

No output represents successful command execution. If you see an error, make sure you provided the correct ID of the silence.

Conclusion

In this tutorial you configured Blackbox Exporter and Alertmanager to work together with Prometheus so you can receive alerts via email and Slack. You also used Alertmanager’s command-line interface, amtool, to manage and silence alerts.

If you’d like to learn more about other Alertmanager integrations, take a look at the Configuration portion of Alertmanager’s documentation.

Also, you can take a look how to integrate Prometheus Alerts with other services such as Grafana.

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Very Nicely Done Marko,

Where you have targets put in the prometheus.yml is that the website being probed if so why does the endpoint have 8080 on the port? Don’t most websites live on 80 and 443? If the 8080 is the exporter port then disregard the question.

Thanks

Seems group_by: ['instance', 'alert'] should be replaced on group_by: ['instance', 'severenity'] as below in article is. I am talking about this code:

Alertmanager config file part 2 - /etc/alertmanager/alertmanager.yml

...
route:
  group_by: ['instance', 'alert']

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