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350 lines
15 KiB
Markdown
# Virtual Machine
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PBot can interact with a virtual machine to safely execute arbitrary user-submitted
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system commands and code.
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This document will guide you through installing and configuring a virtual machine
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by using the widely available [libvirt](https://libvirt.org) project tools, such as
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`virt-install`, `virsh`, `virt-manager`, `virt-viewer`, etc.
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If you're more comfortable working with QEMU directly instead, feel free to do that.
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I hope this guide will answer everything you need to know to set that up. If not,
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open an GitHub issue or /msg me on IRC.
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Some quick terminology:
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* host: your physical Linux system hosting the virtual machine
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* guest: the Linux system installed inside the virtual machine
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The commands below will be prefixed with `host$` or `guest$` to reflect where
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the command should be executed.
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Many commands can be configured with environment variables. If a variable is
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not defined, a sensible default value will be used.
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Environment variable | Default value | Description
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--- | --- | ---
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PBOTVM_DOMAIN | `pbot-vm` | The libvirt domain identifier
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PBOTVM_SERVER | `9000` | `vm-server` port for incoming `vm-client` commands
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PBOTVM_SERIAL | `5555` | TCP port for serial communication
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PBOTVM_HEART | `5556` | TCP port for serial heartbeats
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PBOTVM_CID | `7` | Context ID for VM socket (if using VSOCK)
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PBOTVM_VPORT | `5555` | VM socket service port (if using VSOCK)
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PBOTVM_TIMEOUT | `10` | Duration before command times out (in seconds)
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PBOTVM_NOREVERT | not set | If set then the VM will not revert to previous snapshot
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## Initial virtual machine set-up
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These steps need to be done only once during the first-time set-up.
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### Prerequisites
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#### CPU Virtualization Technology
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Ensure CPU Virtualization Technology is enabled in your motherboard BIOS.
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host$ egrep '(vmx|svm)' /proc/cpuinfo
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If you see your CPUs listed with `vmx` or `svm` flags, you're good to go.
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Otherwise, consult your motherboard manual to see how to enable VT.
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#### KVM
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Ensure KVM is set up and loaded.
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host$ kvm-ok
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INFO: /dev/kvm exists
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KVM acceleration can be used
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If you see the above, everything's set up. Otherwise, consult your operating
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system manual or KVM manual to install and load KVM.
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#### libvirt and QEMU
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Ensure libvirt and QEMU are installed and ready.
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host$ virsh version --daemon
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Compiled against library: libvirt 7.6.0
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Using library: libvirt 7.6.0
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Using API: QEMU 7.6.0
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Running hypervisor: QEMU 6.0.0
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Running against daemon: 7.6.0
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If there's anything missing, please consult your operating system manual to
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install the libvirt and QEMU packages.
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On Ubuntu: `sudo apt install qemu-kvm libvirt-daemon-system`
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#### Make a pbot-vm user or directory
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You can either make a new user account or make a new directory in your current user account.
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In either case, name it `pbot-vm` so we'll have a home for the virtual machine.
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#### Add libvirt group to your user
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Add your user (or the `pbot-vm` user) to the `libvirt` group.
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host$ sudo adduser $USER libvirt
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Log out and then log back in for the new group to take effect.
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#### Download Linux ISO
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Download a preferred Linux ISO. For this guide, we'll use Fedora. Why?
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I'm using Fedora Rawhide for my PBot VM because I want convenient and reliable
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access to the latest bleeding-edge versions of software.
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I recommend using the Fedora Stable net-installer for this guide unless you
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are more comfortable in another Linux distribution. Make sure you choose
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the minimal install option without a graphical desktop.
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https://download.fedoraproject.org/pub/fedora/linux/releases/35/Server/x86_64/iso/Fedora-Server-netinst-x86_64-35-1.2.iso
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is the Fedora Stable net-installer ISO used in this guide.
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### Create a new virtual machine
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To create a new virtual machine we'll use the `virt-install` command.
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* First, ensure you are the `pbot-vm` user or that you have changed your current working directory to `pbot-vm`. The Linux ISO downloaded earlier should be present in this location.
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Execute the following command:
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host$ virt-install --name=pbot-vm --disk=size=12,path=vm.qcow2 --cpu=host --os-variant=fedora34 --graphics=spice --video=virtio --location=Fedora-Server-netinst-x86_64-35-1.2.iso
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Note that `disk=size=12` will create a 12 GB sparse file. Sparse means the file
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won't actually take up 12 GB. It will start at 0 bytes and grow as needed. You can
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use the `du` command to verify this. After a minimal Fedora install, the size will be
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approximately 1.7 GB. It will grow to about 2.5 GB with all PBot features installed.
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For further information about `virt-install`, read its manual page. While the above command should
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give sufficient performance and compatability, there are a great many options worth investigating
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if you want to fine-tune your virtual machine.
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#### Install Linux in the virtual machine
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After executing the `virt-install` command above, you should now see a window
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showing Linux booting up and launching an installer. For this guide, we'll walk
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through the Fedora 35 installer. You can adapt these steps for your own distribution
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of choice.
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* Click `Partition disks`. Don't change anything. Click `Done`.
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* Click `Root account`. Click `Enable root account`. Set a password. Click `Done`.
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* Click `User creation`. Create a new user. Skip Fullname and set Username to `vm`. Untick `Add to wheel` or `Set as administrator`. Untick `Require password`. Click `Done`.
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* Wait until `Software selection` is done processing and is no longer greyed out. Click it. Change install from `Server` to `Minimal`. Click `Done`.
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* Click `Begin installation`.
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Installation will need to download about 328 RPMs consisting of about 425 MB. It'll take 5 minutes to an hour or longer
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depending on your hardware and network configuration.
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#### Set up serial ports
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While the installation is in progress, switch to a terminal on your host system. Go into the
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`applets/pbot-vm/host/devices` directory and run the `add-serials` script to add the `serial-2.xml` and
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`serial-3.xml` files to the configuration for the `pbot-vm` libvirt machine.
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host$ ./add-serials
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This will enable the `/dev/ttyS1` and `/dev/ttyS2` serial ports in the guest and connect them
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to the following TCP addresses on the host: `127.0.0.1:5555` and `127.0.0.1:5556`,
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respectively. `ttyS1/5555` is the data channel used to send commands or code to the
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virtual machine and to read back output. `ttyS2/5556` is simply a newline sent every
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5 seconds, representing a heartbeat, used to ensure that the PBot communication
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channel is healthy.
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You may use the `PBOTVM_DOMAIN`, `PBOTVM_SERIAL` and `PBOTVM_HEART` environment variables to override
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the default values. To use ports `7777` and `7778` instead:
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host$ PBOTVM_SERIAL=7777 PBOTVM_HEART=7778 ./add-serials
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If you later want to change the serial ports or the TCP ports, execute the command
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`virsh edit pbot-vm` on the host. This will open the `pbot-vm` XML configuration
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in your default system editor. Find the `<serial>` tags and edit their attributes.
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#### Set up virtio-vsock
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VM sockets (AF_VSOCK) are a Linux-specific feature (at the time of this writing). They
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are the preferred way for PBot to communicate with the PBot VM Guest server. Serial communication
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has several limitations. See https://vmsplice.net/~stefan/stefanha-kvm-forum-2015.pdf for an excellent
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overview.
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To use VM sockets with QEMU and virtio-vsock, you need:
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* a Linux hypervisor with kernel 4.8+
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* a Linux virtual machine on that hypervisor with kernel 4.8+
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* QEMU 2.8+ on the hypervisor, running the virtual machine
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* [socat](http://www.dest-unreach.org/socat/) version 1.7.4+
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If you do not meet these requirements, the PBot VM will fallback to using serial communication. You may
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explicitly disable VM sockets by setting `PBOTVM_CID=0`. You can skip reading the rest of this section.
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If you do want to use VM sockets, read on.
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First, ensure the `vhost_vsock` Linux kernel module is loaded on the host:
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host$ lsmod | grep vsock
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vhost_vsock 24576 1
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vsock 45056 2 vmw_vsock_virtio_transport_common,vhost_vsock
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vhost 53248 2 vhost_vsock,vhost_net
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If the module is not loaded, load it with:
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host$ sudo modprobe vhost_vsock
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Once the module is loaded, you should have the following character devices:
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host$ ls -l /dev/vhost-vsock
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crw------- 1 root root 10, 53 May 4 11:55 /dev/vhost-vsock
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host$ ls -l /dev/vsock
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crw-rw-rw- 1 root root 10, 54 May 4 11:55 /dev/vsock
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A VM sockets address is comprised of a context ID (CID) and a port; just like an IP address and TCP/UDP port.
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The CID is represented using an unsigned 32-bit integer. It identifies a given machine as either a hypervisor
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or a virtual machine. Several addresses are reserved, including 0, 1, and the maximum value for a 32-bit
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integer: 0xffffffff. The hypervisor is always assigned a CID of 2, and VMs can be assigned any CID between 3
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and 0xffffffff — 1.
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We must attach a `vhost-vsock-pci` device to the guest to enable VM sockets communication.
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Each VM on a hypervisor must have a unique context ID (CID). Each service within the VM must
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have a unique port. The PBot VM Guest defaults to `7` for the CID and `5555` for the port.
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While still in the `applets/pbot-vm/host/devices` directory, run the `add-vsock` script:
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host$ ./add-vsock
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or to configure a different CID:
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host$ PBOTVM_CID=42 ./add-vsock
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In the VM guest (once it reboots), there should be a `/dev/vsock` device:
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guest$ ls -l /dev/vsock
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crw-rw-rw- 1 root root 10, 55 May 4 13:21 /dev/vsock
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#### Reboot virtual machine
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Once the Linux installation completes inside the virtual machine, click the `Reboot` button
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in the installer window. Login as `root` when the virtual machine boots back up.
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#### Install software
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Now we can install any software and programming languages we want to make available
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in the virtual machine. Use the `dnf search` command or your distribution's documentation
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to find packages. I will soon make available a script to install all package necessary for all
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languages supported by PBot.
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To make use of VM sockets, install the `socat` package:
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guest$ dnf install socat
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For the C programming language you will need at least these:
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guest$ dnf install libubsan libasan gdb gcc clang
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#### Install Perl
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Now we need to install Perl on the guest. This allows us to run the PBot VM Guest server
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script.
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guest$ dnf install perl-interpreter perl-lib perl-IPC-Run perl-JSON-XS perl-English perl-IPC-Shareable
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That installs the minium packages for the Perl interpreter (note we used `perl-interpreter` instead of `perl`),
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as well as a few Perl modules.
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#### Install PBot VM Guest
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Next we install the PBot VM Guest server script that fosters communication between the virtual machine guest
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and the physical host system. We'll do this inside the virtual machine guest system, logged on as `root`
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while in the `/tmp` directory.
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guest$ cd /tmp
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The `rsync` command isn't installed with a Fedora minimal install, but `scp` is available. Replace
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`192.168.100.42` below with your own local IP address; `user` with the user account that has the
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PBot directory; and `pbot` with the path to the directory.
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guest$ scp -r user@192.168.100.42:~/pbot/applets/pbot-vm/guest .
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Once that's done, run the following command:
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guest$ ./guest/bin/setup-guest
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This will install `guest-server` to `/usr/local/bin/`, set up some environment variables and
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harden the guest system. After running the `setup-guest` script, we need to make the environment
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changes take effect:
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guest$ source /root/.bashrc
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We no longer need the `/tmp/guest/` stuff. We can delete it:
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guest$ rm -rf guest/
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#### Start PBot VM Guest
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We're ready to start the PBot VM Guest server. On the guest, as `root`, execute the command:
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guest$ guest-server
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This starts up a server to listen for incoming commands or code and to handle them. We'll leave
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this running.
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#### Test PBot VM Guest
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Let's make sure everything's working up to this point. On the host, there should
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be two open TCP ports on `5555` and `5556`. On the host, execute the command:
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host$ nc -zv 127.0.0.1 5555-5556
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If it says anything other than `Connection succeeded` then make sure you have completed the steps
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under [Set up serial ports](#set-up-serial-ports) and that your network configuration is allowing
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access.
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Let's make sure the PBot VM Guest server is listening for and can execute commands. The `vm-exec` command
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allows you to send commands from the shell. Change your current working directory to `applets/pbot-vm/host/bin`
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and run the `vm-exec` command:
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host$ cd applets/pbot-vm/host/bin
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host$ ./vm-exec -lang=sh echo hello world
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This should output some logging noise followed by "hello world". You can test other language modules
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by changing the `-lang=` option. I recommend testing and verifying that all of your desired language
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modules are configured before going on to the next step.
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If you have multiple PBot VM Guests, or if you used a different TCP port, you can specify the
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`PBOTVM_SERIAL` environment variable when executing the `vm-exec` command:
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host$ PBOTVM_SERIAL=7777 ./vm-exec -lang=sh echo test
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#### Save initial state
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Switch back to an available terminal on the physical host machine. Enter the following command
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to save a snapshot of the virtual machine waiting for incoming commands.
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* Before doing this step, ensure all commands are cached by executing them at least once. For example, the `gcc` and `gdb` commands take a long time to load into memory. The initial execution may take a several long seconds to complete. Once completed, the command will be cached. Future invocations will execute significantly quicker.
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<!-- -->
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host$ virsh snapshot-create-as pbot-vm 1
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If the virtual machine ever times-out or its heartbeat stops responding, PBot
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will revert the virtual machine to this saved snapshot.
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### Initial virtual machine set-up complete
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This concludes the initial one-time set-up. You can close the `virt-viewer` window. The
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virtual machine will continue running in the background until it is manually shutdown (via
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`shutdown now -h` inside the VM or via `virsh shutdown pbot-vm` on the host).
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## Start PBot VM Host
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To start the PBot VM Host server, change your current working directory to `applets/pbot-vm/host/bin`
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and execute the `vm-server` script:
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host$ cd applets/pbot-vm/host/bin
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host$ ./vm-server
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This will start a TCP server on port `9000`. It will listen for incoming commands and
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pass them along to the virtual machine's TCP serial port `5555`. It will also monitor
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the heartbeat port `5556` to ensure the PBot VM Guest server is alive.
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You may override any of the defaults by setting environment variables. For example, to
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use `other-vm` with a longer `30` second timeout, on different serial and heartbeat ports:
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host$ PBOTVM_DOMAIN="other-vm" PBOTVM_SERVER=9001 PBOTVM_SERIAL=7777 PBOTVM_HEART=7778 PBOTVM_TIMEOUT=30 ./vm-server
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### Test PBot
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All done. Everything is set up now.
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PBot is already preconfigured with commands that invoke the `host/bin/vm-client`
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script to send VM commands to `vm-server` on the default port `9000`:
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<pragma-> factshow sh
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<PBot> [global] sh: /call cc -lang=sh
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<pragma-> factshow cc
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<PBot> [global] cc: /call vm-client {"nick":"$nick:json","channel":"$channel:json","code":"$args:json"}
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<pragma-> factshow vm-client
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<PBot> [global] vm-client: pbot-vm/host/bin/vm-client [applet]
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In your instance of PBot, the `sh echo hello` command should output `hello`.
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<pragma-> sh echo hello
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<PBot> hello
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