Python plugin for cachet that monitors an URL, verifying it's response status and latency. The frequency the URL is tested is configurable, along with the assertion applied to the request response.
This project is available at PyPI: https://pypi.python.org/pypi/cachet-url-monitor
endpoints:
- name: Google
url: http://www.google.com
method: GET
header:
SOME-HEADER: SOME-VALUE
timeout: 1 # seconds
expectation:
- type: HTTP_STATUS
status_range: 200-205
- type: LATENCY
threshold: 1
- type: REGEX
regex: ".*<body>.*"
allowed_fails: 0
component_id: 1
metric_id: 1
action:
- UPDATE_STATUS
public_incidents: true
latency_unit: ms
frequency: 5
- name: Amazon
url: http://www.amazon.com
method: GET
header:
SOME-HEADER: SOME-VALUE
timeout: 1 # seconds
expectation:
- type: HTTP_STATUS
status_range: 200-205
incident: MAJOR
- type: LATENCY
threshold: 1
- type: REGEX
regex: ".*<body>.*"
threshold: 10
allowed_fails: 0
component_id: 2
action:
- CREATE_INCIDENT
public_incidents: true
latency_unit: ms
frequency: 5
cachet:
api_url: http://status.cachethq.io/api/v1
token:
- type: ENVIRONMENT_VARIABLE
value: CACHET_TOKEN
- type: AWS_SECRETS_MANAGER
secret_name: cachethq
secret_key: token
region: us-west-2
- type: TOKEN
value: my_token
webhooks:
- url: "https://push.example.com/message?token=<apptoken>"
params:
title: "{title}"
message: "{message}"
priority: 5
messages:
incident_outage: "{name} is unavailable"
incident_operational: "{name} is operational"
incident_performance: "{name} has degraded performance"
- endpoints, the configuration about the URL/Urls that will be monitored.
- name, The name of the component. This is now mandatory (since 0.6.0) so we can distinguish the logs for each URL being monitored.
- url, the URL that is going to be monitored. mandatory
- method, the HTTP method that will be used by the monitor. mandatory
- header, client header passed to the request. Remove if you do not want to pass a header.
- timeout, how long we'll wait to consider the request failed. The unit of it is seconds. mandatory
- expectation, the list of expectations set for the URL. mandatory
- HTTP_STATUS, we will verify if the response status code falls into the expected range. Please keep in
mind the range is inclusive on the first number and exclusive on the second number. If just one value is
specified, it will default to only the given value, for example
200
will be converted to200-201
. - LATENCY, we measure how long the request took to get a response and fail if it's above the threshold . The unit is in seconds.
- REGEX, we verify if the response body matches the given regex.
- HTTP_STATUS, we will verify if the response status code falls into the expected range. Please keep in
mind the range is inclusive on the first number and exclusive on the second number. If just one value is
specified, it will default to only the given value, for example
- allowed_fails, create incident/update component status only after specified amount of failed connection trials.
- component_id, the id of the component we're monitoring. This will be used to update the status of the component. mandatory
- metric_id, this will be used to store the latency of the API. If this is not set, it will be ignored.
- action, the action to be done when one of the expectations fails. This is optional and if left blank
, nothing will be done to the component.
- CREATE_INCIDENT, we will create an incident when the expectation fails.
- UPDATE_STATUS, updates the component status.
- PUSH_METRICS, uploads response latency metrics.
- public_incidents, boolean to decide if created incidents should be visible to everyone or only to logged in
users. Important only if
CREATE_INCIDENT
orUPDATE_STATUS
are set. - latency_unit, the latency unit used when reporting the metrics. It will automatically convert to the
specified unit. It's not mandatory and it will default to seconds. Available units:
ms
,s
,m
,h
. - frequency, how often we'll send a request to the given URL. The unit is in seconds.
- cachet, this is the settings for our cachet server.
- api_url, the cachet API endpoint. mandatory
- token, the API token. It can either be a string (backwards compatible with old configuration) or a list of
token providers. It will read in the specified order and fallback to the next option if no token could be found
. (since 0.6.10) mandatory
- ENVIRONMENT_VARIABLE, it will read the token from the specified environment variable.
- TOKEN, it's a string and it will be read directly from the configuration.
- AWS_SECRETS_MANAGER, it will attempt reading the token from
AWS Secrets Manager. It requires setting up the AWS credentials
into the docker container. More instructions below. It takes these parameters:
- secret_name, the name of the secret.
- secret_key, the key under which the token is stored.
- region, the AWS region.
- webhooks, generic webhooks to be notified about incident updates
- url, webhook URL, will be interpolated
- params, POST parameters, will be interpolated
- messages, customize text for generated events, use any of endpoint parameter in interpolation
- incident_outage, title of incident in case of outage
- incident_performace, title of incident in case of performance issues
- incident_operational, title of incident in case service is operational
Each expectation
has their own default incident status. It can be overridden by setting the incident
property to
any of the following values:
PARTIAL
MAJOR
PERFORMANCE
By choosing any of the aforementioned statuses, it will let you control the kind of incident it should be considered
. These are the default incident status for each expectation
type:
Expectation | Incident status |
---|---|
HTTP_STATUS | PARTIAL |
LATENCY | PERFORMANCE |
REGEX | PARTIAL |
Following parameters are available in webhook interpolation
Parameter | Description |
---|---|
{title} |
Event title, includes endpoint name and short status |
{message} |
Event message, same as sent to Cachet |
This tools can integrate with AWS Secrets Manager, where the token is fetched directly from the service. In order to get this functionality working, you will need to setup the AWS credentials into the container. The easiest way would be setting the environment variables:
$ docker run --rm -it -e AWS_ACCESS_KEY_ID=xyz -e AWS_SECRET_ACCESS_KEY=aaa -v "$PWD"/my_config.yml:/usr/src/app/config/config.yml:ro mtakaki/cachet-url-monitor
The application should be installed using virtualenv, through the following command:
$ git clone https://github.com/mtakaki/cachet-url-monitor.git
$ cd cachet-url-monitor
$ virtualenv venv
$ source venv/bin/activate
$ pip install -r requirements.txt
$ python3 setup.py install
To start the agent:
$ python3 cachet_url_monitor/scheduler.py config.yml
You can run the agent in docker, so you won't need to worry about installing python, virtualenv, or any other
dependency into your OS. The Dockerfile
is already checked in and it's ready to be used.
You have two choices, checking this repo out and building the docker image or it can be pulled directly from
dockerhub. You will need to create your own custom config .yml
file and run (it will pull latest):
$ docker pull mtakaki/cachet-url-monitor
$ docker run --rm -it -v "$PWD":/usr/src/app/config/ mtakaki/cachet-url-monitor
If you're going to use a file with a name other than config.yml
, you will need to map the local file, like this:
$ docker run --rm -it -v "$PWD"/my_config.yml:/usr/src/app/config/config.yml:ro mtakaki/cachet-url-monitor
In order to expedite the creation of your configuration file, you can use the client to automatically scrape the CachetHQ instance and spit out a YAML file. It can be used like this:
$ python cachet_url_monitor/client.py http://localhost/api/v1 my-token test.yml
Or from docker (you will end up with a test.yml
in your $PWD/tmp
folder):
$ docker run --rm -it -v $PWD/tmp:/home/tmp/ mtakaki/cachet-url-monitor python3.7 ./cachet_url_monitor/client.py http://localhost/api/v1 my-token /home/tmp/test.yml
The arguments are:
- URL, the CachetHQ API URL, so that means appending
/api/v1
to your hostname. - token, the token that has access to your CachetHQ instance.
- filename, the file where it should write the configuration.
Because we can't predict what expectations will be needed, it will default to these behavior:
- Verify a [200-300[ HTTP status range.
- If status fail, make the incident major and public.
- Frequency of 30 seconds.
GET
request.- Timeout of 1s.
- We'll read the
link
field from the components and use it as the URL.
If it's throwing the following exception:
raise SSLError(e, request=request)
requests.exceptions.SSLError: HTTPSConnectionPool(host='redacted', port=443): Max retries exceeded with url: /api/v1/components/19 (Caused by SSLError(SSLError(1, u'[SSL: CERTIFICATE_VERIFY_FAILED] certificate verify failed (_ssl.c:579)'),))
It can be resolved by setting the CA bundle environment variable REQUESTS_CA_BUNDLE
pointing at your certificate
file. It can either be set in your python environment, before running this tool, or in your docker container.
If you want to contribute to this project, feel free to fork this repo and post PRs with any improvements or bug fixes. This is highly appreciated, as it's been hard to deal with numerous requests coming my end.
This repo is setup with pre-commit hooks and it should ensure code style is consistent . The steps to start development on this repo is the same as the setup aforementioned above:
$ git clone https://github.com/mtakaki/cachet-url-monitor.git
$ cd cachet-url-monitor
$ pre-commit install
$ virtualenv venv
$ source venv/bin/activate
$ tox