diff --git a/README.md b/README.md index 565103e..026823b 100644 --- a/README.md +++ b/README.md @@ -12,7 +12,6 @@ - [Building Custom Network Topologies (MininetNetPractice.py)](#building-custom-network-topologies-mininetnetpracticepy) 6. [5G Network simulation](#5g-network-simulation) - [Vagrant commands](#vagrant-commands) - - [VM from scratch - bypassing Vagrant](#vm-from-scratch---bypassing-vagrant) - [Example overview](#example-overview) - [Example execution](#example-execution) 7. [Why sandbox?](#why-sandbox) @@ -156,45 +155,6 @@ Some of the important ones are: - **vagrant snapshot [box_name]** : Take a snapshot of the current box. [Pointer to more details...](https://opensource.com/article/21/9/test-vagrant) -### VM from scratch - bypassing Vagrant -In case Linux or Windows Subsystem for Linux (WSL) isn't feasible, and employing Vagrant with the provided Vagrantfile by comnestemu is not an option, it's possible to construct a proper working environment using VirtualBox starting from an Ubuntu ISO file. Doing this in a VM and not in your OS is recommended due to the necessity of manipulating network parameters, thereby maintaining the integrity of the base operating system installation. By employing a virtual machine, we ensure that any alterations made to network configurations are contained within the virtualized environment, keeping the host system unaffected and ensuring a clean operational environment. -Here's a step-by-step guide on how to set up a virtual environment: -1. **Install VirtualBox**: Begin by downloading and installing VirtualBox on your system. -2. **Download Ubuntu ISO**: Obtain the Ubuntu ISO file from the official website. -3. **Create a New Virtual Machine**: Launch VirtualBox and create a new virtual machine. During the setup process, allocate appropriate resources such as CPU( >2), memory( >4 GB), and disk space( >25 GB). -4. **Install Ubuntu**: Start the virtual machine and boot from the Ubuntu ISO. Follow the installation prompts to install Ubuntu within the virtual environment. -5. **Configure Ubuntu**: Once Ubuntu is installed, configure it according to your testing needs. Install any necessary packages and set up network parameters as required for your testing scenarios. -``` -sudo apt update -sudo apt upgrade -y - -sudo apt-get install -y ansible bash-completion dfc gdb git htop iperf iperf3 make pkg-config python3 python3-dev python3-pip sudo tmux openbox xauth xorg xterm - -cd -git clone https://github.com/edoardoColi/Communication_Sandbox.git -cd ~/Communication_Sandbox -sudo bash setupDocker.sh - -cd -git clone https://git.comnets.net/public-repo/comnetsemu.git -cd ~/comnetsemu -git checkout master -git pull origin master - -cd ~/comnetsemu/util -bash install.sh -a -bash install.sh -u - -cd -git clone https://github.com/RiccardoFedrizzi/comnetsemu_5Gnet.git -cd ~/comnetsemu_5Gnet/build -sudo bash dockerhub_pull.sh -# or eventually 'sudo bash build.sh' but my need some time -sudo pip3 install pymongo -``` -importante ricordate update e upgrade - -With the virtual machine set up, you can now proceed with testing 5G network even in environments where direct installation of Linux or use of WSL or vagrant is not feasible. ### Example Overview The 5G architecture is designed to be more flexible, scalableand adaptable to the needs of various applications and services. Here we have the key components of the 5G architecture.