This software is licensed under the Apache 2.0 license.
See the LICENSE and NOTICE files that should have been provided along with this software for details.
This is the Red Hat 3scale API Management backend.
It has the following components:
It provides the point of entry of the API Management Platform's Backend. The Service management API (SM API) is provided to authorize and report consumer API requests.
Three main operations can be performed with this API:
- Report: Reports a number of hits to one or more metrics, performing the corresponding metric aggregations
- Authorize: Authorize a request. The authorization of a request checks that:
- The provided API key to authorize the request is valid
- The current usage metrics of the API related to the request are within the specified limits
- Authrep: Combination of both the above
Make sure to read the corresponding Swagger-generated documentation of this operations, located in docs/active_docs/Service Management API.json
It attempts to respond with lowest possible latency, performing minimal work and offloading other work to Apisonator workers by enqueuing tasks into job queues.
This component needs access to a Redis database to perform the following actions:
- Enqueue reports, which will be processed by the Apisonator worker component
- Perform authorization of the requests
These two actions can be configured to be performed in different Redis databases if desired (see the Prerequisites and Configuration sections).
Finally, another API named 'Internal API' is provided to configure services in Apisonator. This API is intended only for administrative purposes and not for general consumption. Therefore, usage of this API should be protected or not exposed to untrusted parties. You can also generate its documentation with Rake tasks. The Pisoni API client can be used to interact with the Internal API.
To quickly test Apisonator, random services can be created and configured on it via the use of the 'Buddhi' tool located in our performance tests toolkit: 3scale perftest-toolkit.
This component may also be referred to as '3scale_backend'.
It is responsible for performing background tasks off-loaded from Apisonator listeners (enqueued jobs).
The worker component takes care of running these enqueued jobs, mainly related to reporting of previous traffic.
Specifically, this component:
- Dequeues and runs the report jobs that have been submitted to the Redis background jobs database by the Apisonator listener/s or the Apisonator failed jobs rescheduler
- Stores the results of running the report jobs in the Redis Storage database
This component may also be referred to as '3scale_backend_worker'.
This is a simple task that acts as a cron scheduler to requeue jobs that failed when being processed by an Apisonator worker. The jobs are requeued into the Redis background jobs database.
This component may also be referred to as 'backend-cron'.
See the file DEVELOPMENT
You can find documentation about Apisonator (also called referred to as 3scale backend
) at the Red Hat 3scale API Management product pages.
Documentation about specific parts of Apisonator (APIs, specs, behaviour, etc)
can be found in the docs
folder, though this is mostly meant for development and design purposes rather
than user documentation.
- Docker (requires version 1.10.0 or later)
- A Redis database, used to store API request statistics and services. Also used to perform API requests authorizations. In Apisonator this database is commonly referred to as 'Redis Storage'
- A Redis database, used to store background jobs. The Redis Resque library is used for this. In Apisonator this database is commonly referred to as 'Redis Resque', or as the 'background jobs database'
The two previous Redis databases can be configured in the following ways:
- In a single machine/vm, using a single Redis process by specifying different database identifiers, which is supported by the Redis URI specification. i.e. redis://host:port/0, redis://host:port/1
- In a single machine/vm, using different Redis processes with different assigned ports
- In separate machines/vms
The first thing you will need is cloning the project:
$ git clone git@github.com:3scale/apisonator.git
Next cd into the directory, cd apisonator
.
Go to the openshift
directory and execute make build
. This will generate
a local docker image named amp:apisonator-<version_number>
based on CentOS Stream 8.
To run any Apisonator component, application-related environment variables must
be previously set. This can be done by setting them via the --env
flag in
Docker or by placing them in a ENV file and setting the ENV file in Docker via
the --env-file
flag.
The most important variables to set are:
- CONFIG_QUEUES_MASTER_NAME: Set this to the
redis://
URL of where the Redis Resque has been installed - CONFIG_REDIS_PROXY: Set this to the
redis://
URL of where the Redis Storage has been installed - CONFIG_INTERNAL_API_USER: Set this to an arbitrary username that will be the one used to be able to use the Apisonator internal API
- CONFIG_INTERNAL_API_PASSWORD: Set this to an arbitrary password that will be the one used to be able to use the Apisonator internal API
- RACK_ENV: Set this to 'production'
A complete list of configuration variables that can be set can be
found in the file openshift/3scale_backend.conf
An example of an ENV file can be found at openshift/.env.test
Makefile rules can be run to execute the different Apisonator components
with some predefined behaviour. To do this a file named .env
in
the openshift
directory must be created before.
Once this has been performed, go to the openshift
directory and execute
one of the available Makefile commands to run Apisonator components:
Execute the Apisonator Listener, exposing the port 3001:
make listener
make worker
Execute the 'cron' Apisonator component:
make cron
Execute a bash shell with the Apisonator source code with all the available components:
make bash
Another way of executing the Apisonator components is by running a container using the previously generated Apisonator image:
To run an Apisonator listener, the script bin/3scale_backend is used. To run it from a previously generated Apisonator docker image:
docker run -p 3001:3001 --env-file <myenv_file> -it amp:apisonator-<version_number> 3scale_backend start -p 3001 -x /dev/stdout
You can see all the available options of the apisonator listener by executing:
docker run -it amp:apisonator-<version_number> 3scale_backend help
docker run --env-file <myenv_file> -it amp:apisonator-<version_number> 3scale_backend_worker
docker run --env-file <myenv_file> -it amp:apisonator-<version_number> backend-cron
docker run --env-file <myenv_file> -it amp:apisonator-<version_number> bash