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Update docs

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Pragmatic Software 2023-05-07 13:22:37 -07:00
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@ -11,6 +11,7 @@ PBot can monitor channels for abusive behavior and take appropriate action.
* [Anti-away/Nick-control](#anti-awaynick-control)
* [Anti-auto-rejoin control](#anti-auto-rejoin-control)
* [Opping/Deopping](#oppingdeopping)
* [Setting up automatic join-flood enforcement](#setting-up-automatic-join-flood-enforcement)
<!-- md-toc-end -->
## Flood control
@ -53,3 +54,15 @@ When such a case is detected, PBot will kickban the offender (with a kick messag
## Opping/Deopping
ChanServ can op and deop PBot as necessary, unless the channel `permop` metadata is set to a true value. PBot will wait until about 5 minutes have elapsed before requesting a deop from ChanServ. This timeout can be controlled via the `general.deop_timeout` registry value, which can be overriden on a per-channel basis.
## Setting up automatic join-flood enforcement
PBot performs its join-flood enforcement in a separate channel to reduce noise in the main channel.
Let's say you want to set up join-flood enforcement for channel `#bash`. Here are all of the steps required to do that.
* Create and register the `#stop-join-flood` channel. This is where PBot will forward join-flooders. Give it a sensible title like "You have been forwarded here due to join-flooding. If your IRC client or network issues have been resolved, you may `/msg PBot unbanme` to remove the ban-forward."
* Create and register the `#bash-floodbans` channel. This is where PBot do the banning/unbanning. Give PBot channel OPs here.
* Set an extended-ban in `#bash`: `/mode #bash +b $j:#bash-floodbans$#stop-join-flood`. This will retrieve the bans from `#bash-floodbans` for use in `#bash`.
* Join PBot to both `#bash` and `#bash-floodbans` so it can monitor `#bash` and set/remove the bans in `#bash-floodbans`.
* Optionally, configure the `#bash.join_flood_threshold` and `#bash.join_flood_time_threshold` registry entries if the defaults are not desirable.
When someone is banned for join-flooding, they will be forwarded to `#stop-join-flood`. That channel should have a sensible `/topic` and ChanServ `on-join` message that clearly explains the channel's purpose and how to /msg PBot to remove the join-flood ban. PBot's `unbanme` command can be used twice per day. Each time it is used, PBot will send the user a message explaining how many more uses they have that day and why their uses are limited.

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@ -10,6 +10,7 @@ This is a work in progress. More questions coming soon!
* [How do I change my password?](#how-do-i-change-my-password)
* [How do I make PBot remember my `date` timezone?](#how-do-i-make-pbot-remember-my-date-timezone)
* [How do I make PBot remember my `weather` location?](#how-do-i-make-pbot-remember-my-weather-location)
* [How do I set up automatic join-flood enforcement?](#how-do-i-set-up-automatic-join-flood-enforcement)
<!-- md-toc-end -->
## When I type `!version` it say "new version available"?
@ -122,3 +123,5 @@ create a user account for you if one does not exist.
my location <your location>
## How do I set up automatic join-flood enforcement?
[See how to set up automatic join-flood enforcement here.(AntiAbuse.md#setting-up-automatic-join-flood-enforcement)

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@ -2,7 +2,6 @@
## Table of Contents
<!-- md-toc-begin -->
* [QuickStart](QuickStart.md#quickstart)
* [Installation](QuickStart.md#installation)
@ -315,6 +314,7 @@
* [Anti-away/Nick-control](AntiAbuse.md#anti-awaynick-control)
* [Anti-auto-rejoin control](AntiAbuse.md#anti-auto-rejoin-control)
* [Opping/Deopping](AntiAbuse.md#oppingdeopping)
* [Setting up automatic join-flood enforcement](AntiAbuse.md#setting-up-automatic-join-flood-enforcement)
<!-- md-toc-end -->
<!-- md-toc-begin -->
* [Virtual Machine](VirtualMachine.md#virtual-machine)
@ -327,6 +327,8 @@
* [Add libvirt group to your user](VirtualMachine.md#add-libvirt-group-to-your-user)
* [Download Linux ISO](VirtualMachine.md#download-linux-iso)
* [Create a new virtual machine](VirtualMachine.md#create-a-new-virtual-machine)
* [libvirt](VirtualMachine.md#libvirt)
* [QEMU](VirtualMachine.md#qemu)
* [Install Linux in the virtual machine](VirtualMachine.md#install-linux-in-the-virtual-machine)
* [Set up serial ports](VirtualMachine.md#set-up-serial-ports)
* [Set up virtio-vsock](VirtualMachine.md#set-up-virtio-vsock)
@ -351,4 +353,5 @@
* [How do I change my password?](FAQ.md#how-do-i-change-my-password)
* [How do I make PBot remember my `date` timezone?](FAQ.md#how-do-i-make-pbot-remember-my-date-timezone)
* [How do I make PBot remember my `weather` location?](FAQ.md#how-do-i-make-pbot-remember-my-weather-location)
* [How do I set up automatic join-flood enforcement?](FAQ.md#how-do-i-set-up-automatic-join-flood-enforcement)
<!-- md-toc-end -->

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@ -3,13 +3,11 @@
PBot can interact with a virtual machine to safely execute arbitrary user-submitted
system commands and code.
This document will guide you through installing and configuring a virtual machine
by using the widely available [libvirt](https://libvirt.org) project tools, such as
`virt-install`, `virsh`, `virt-manager`, `virt-viewer`, etc.
If you're more comfortable working with QEMU directly instead, feel free to do that.
I hope this guide will answer everything you need to know to set that up. If not,
open an GitHub issue or /msg me on IRC.
This document will guide you through installing and configuring a Linux
virtual machine on a Linux host by using the widely available [libvirt](https://libvirt.org)
project tools, such as `virt-install`, `virsh`, and `virt-viewer`. Additionally,
if you'd prefer not to use libvirt, this guide will also demonstrate equivalent
Linux system commands and QEMU commands.
Some quick terminology:
@ -37,6 +35,10 @@ PBOTVM_NOREVERT | not set | If set then the VM will not revert to previous snaps
These steps need to be done only once during the first-time set-up.
### Prerequisites
For full hardware-supported virtualization at near native system speeds, we
need to ensure your system has enabled CPU Virtualization Technology and that
KVM is set up and loaded.
#### CPU Virtualization Technology
Ensure CPU Virtualization Technology is enabled in your motherboard BIOS.
@ -56,7 +58,7 @@ If you see the above, everything's set up. Otherwise, consult your operating
system manual or KVM manual to install and load KVM.
#### libvirt and QEMU
Ensure libvirt and QEMU are installed and ready.
If using libvirt, ensure it is installed and ready.
host$ virsh version --daemon
Compiled against library: libvirt 7.6.0
@ -65,8 +67,14 @@ Ensure libvirt and QEMU are installed and ready.
Running hypervisor: QEMU 6.0.0
Running against daemon: 7.6.0
Just QEMU (assuming x86_64):
host$ qemu-system-x86_64 --version
QEMU emulator version 6.0.0
Copyright (c) 2003-2021 Fabrice Bellard and the QEMU Project developers
If there's anything missing, please consult your operating system manual to
install the libvirt and QEMU packages.
install the libvirt and/or QEMU packages.
On Ubuntu: `sudo apt install qemu-kvm libvirt-daemon-system`
@ -79,7 +87,8 @@ Add your user (or the `pbot-vm` user) to the `libvirt` group.
host$ sudo adduser $USER libvirt
Log out and then log back in for the new group to take effect.
Log out and then log back in for the new group to take effect. Or use the
`newgrp` command.
#### Download Linux ISO
Download a preferred Linux ISO. For this guide, we'll use Fedora. Why?
@ -94,11 +103,21 @@ https://download.fedoraproject.org/pub/fedora/linux/releases/35/Server/x86_64/is
is the Fedora Stable net-installer ISO used in this guide.
### Create a new virtual machine
To create a new virtual machine we'll use the `virt-install` command.
To create a new virtual machines, this guide offers two options. The first is
libvirt's `virt-install` command. It greatly simplifies configuration by
automatically creating networking bridges and setting up virtio devices. The
second options is manually using Linux system commands to configure network
bridges and execute QEMU with the correct options.
#### libvirt
To create a new virtual machine we'll use the `virt-install` command. This
command takes care of setting up virtual networking bridges and virtual
hardware for us. If you prefer to manually set things up and use QEMU directly,
skip past the `virt-install` section.
* First, ensure you are the `pbot-vm` user or that you have changed your current working directory to `pbot-vm`. The Linux ISO downloaded earlier should be present in this location.
Execute the following command:
If using libvirt, execute the following command:
host$ 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
@ -111,8 +130,64 @@ For further information about `virt-install`, read its manual page. While the ab
give sufficient performance and compatability, there are a great many options worth investigating
if you want to fine-tune your virtual machine.
#### QEMU
If you prefer not to use libvirt, we may need to manually create the network
bridge. Use the `ip link` command to list network interfaces:
host$ sudo ip link
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN mode DEFAULT group default qlen 1000
link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc fq_codel state UP mode DEFAULT group default qlen 1000
link/ether 74:86:7a:4e:a1:95 brd ff:ff:ff:ff:ff:ff
altname enp1s0
3: virbr0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc noqueue state UP group default qlen 1000
link/ether 52:54:00:83:3f:59 brd ff:ff:ff:ff:ff:ff
inet 192.168.123.1/24 brd 192.168.123.255 scope global virbr0
valid_lft forever preferred_lft forever
Create a new bridged named `pbot-br0`:
host$ ip link add name pbot-br0 type bridge
host$ ip link set pbot-br0 up
Add your network interface to the bridge:
host$ ip link set eth0 master pbot-br0
Give the bridge an IP address (use an appropriate address for your network):
host$ ip addr add dev pbot-br0 192.168.50.2/24
We will use the `qemu-bridge-helper` program from the `qemu-common` package to
create the TAP interface for us when we start the virtual machine and to remove
the interface when the virtual machine is shut-down. To set the program up, we
need to create its access control list file:
host$ sudo mkdir /etc/qemu
host$ sudo chmod 755 /etc/qemu
host$ sudo echo allow pbot-br0 >> /etc/qemu/bridge.conf
host$ sudo chmod 640 /etc/qemu/bridge.conf
To allow unprivileged users to create VMs using the network bridge, we must set
the SUID bit on the `qemu-bridge-helper` program:
host$ chmod u+s /usr/lib/qemu/qemu-bridge-helper
With the bridge configured, we move on to creating a sparse disk image for the
virtual machine:
host$ qemu-img create -f qcow2 pbot-vm.qcow2 12G
Then we can start QEMU (assuming x86_64) and tell it to boot the Fedora installer:
host$ qemu-system-x86_64 -enable-kvm -cpu host -mem 1024 -hda pbot-vm.qcow2 -cdrom Fedora-Server-netinst-x86_64-35-1.2.iso -boot d -nic bridge,br=pbot-br0 -usb -device usb-tablet
This command is the bare minimum for performant virtualization with networking.
See the QEMU documentation for interesting options to tweak your virtual machine.
#### Install Linux in the virtual machine
After executing the `virt-install` command above, you should now see a window
After executing the `virt-install` or `qemu` command above, you should now see a window
showing Linux booting up and launching an installer. For this guide, we'll walk
through the Fedora 35 installer. You can adapt these steps for your own distribution
of choice.
@ -232,7 +307,7 @@ script.
guest$ dnf install perl-interpreter perl-lib perl-IPC-Run perl-JSON-XS perl-English perl-IPC-Shareable
That installs the minium packages for the Perl interpreter (note we used `perl-interpreter` instead of `perl`),
This installs the minium packages for the Perl interpreter (note we used `perl-interpreter` instead of `perl`),
as well as a few Perl modules.
#### Install PBot VM Guest

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