These are the prerequisites to setting up a full private LTE Magma deployment. Additional prerequisites for developers can be found in the developer's guide.
Install the following tools:
brew with your OS-appropriate package manager as necessary, or see
the pyenv installation instructions.
brew install pyenv # Replace .zshrc with your appropriate shell RC file # IMPORTANT: Use .bash_profile, not .bashrc for bash echo -e 'if command -v pyenv 1>/dev/null 2>&1; then\n eval "$(pyenv init -)"\nfi' >> ~/.zshrc exec $SHELL pyenv install 3.7.3 pyenv global 3.7.3 pip3 install ansible fabric3 jsonpickle requests PyYAML vagrant plugin install vagrant-vbguest
If you are on MacOS, you should start Docker for Mac and increase the memory allocation for the Docker engine to at least 4GB (Preferences -> Advanced).
We support building the AGW and Orchestrator on MacOS and Linux host operating systems. Doing so on a Windows environment should be possible but has not been tested. You may prefer to use a Linux virtual machine if you are on a Windows host.
First, follow the previous section on developer tools. Then, install some
additional prerequisite tools (replace
brew with your OS-appropriate package
manager as necessary):
brew install aws-iam-authenticator kubernetes-cli kubernetes-helm terraform pip3 install awscli aws configure
Provide the access key ID and secret key for an administrator user in AWS
(don't use the root user) when prompted by
aws configure. Skip this step if
you will use something else for managing AWS credentials.
Access gateways (AGWs) can be deployed on to any AMD64 architecture machine which can support a Debian Linux installation. The basic system requirements for the AGW production hardware are:
- 2+ physical ethernet interfaces
- AMD64 dual-core processor around 2GHz clock speed or faster
- 2GB RAM
- 128GB-256GB SSD storage
In addition, in order to build the AGW, you should have on hand:
- A USB stick with 2GB+ capacity to load a Debian Stretch ISO
- Peripherals (keyboard, screen) for your production AGW box for use during provisioning
We currently have tested with the following EnodeB's:
- Baicells Nova 233 TDD Outdoor
- Baicells Nova 243 TDD Outdoor
- Assorted Baicells indoor units (for lab deployments)
Support for other RAN hardware can be implemented inside the
on the AGW, but we recommend starting with one of these EnodeBs.
Orchestrator and NMS
Orchestrator deployment depends on the following components:
- An AWS account
- A Docker image repository (e.g. Docker Hub, JFrog)
- A registered domain for Orchestrator endpoints
We recommend deploying the Orchestrator cloud component of magma into AWS. Our open-source Terraform scripts target an AWS deployment environment, but if you are familiar with devops and are willing to roll your own, Orchestrator can run on any public/private cloud with a Kubernetes cluster available to use. The deployment documentation will assume an AWS deployment environment - if this is your first time using or deploying Orchestrator, we recommend that you follow this guide before attempting to deploy it elsewhere.
You will also need a Docker image repository available to publish the various Orchestrator NMS containers to. We recommend using a private repository for this.