Notes and attachments for GSoC 2021 for Qubes OS implementing easy port forwarding.
Giulio 66568b20a6 Removed ^M | 3 years ago | |
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assets | 3 years ago | |
Readme.md | 3 years ago |
Forwarding ports to Qubes VM is currently possible only though a multi step, error prone, manual process that also requires writing custom configuration in order to be persistent between reboots. Things as simple as starting a webserver or netcat for LAN file sharing canbe eventually a troublesome and time-wasting process[1][2]. Furthermore, applications thatrely on NAT traversal protocols such as those for audio and video communications do not workin direct P2P mode with STUN and always use TURN instead[3].
Implement a GUI for automatic and persistent, eventually with a predefined timespan (ie: untilreboot), port forwarding. The idea is to split horizontally the "Firewall Rules" tab in the"Qubes Settings" window and add another area below it. It is aloready possible to forward TCP streams, however there is no GUI nor a clear dashboard and furthermore its versatility is limited. In addition, discuss and verify the possibility to implement a secure NAT traversal systemand GUI. A basic proposal could be a checkbox to enable NAT traversal requests. When thecheckbox is selected, the FirwallVM will redirect NAT traversal requests to a local pythondaemon or a dedicated VM that will negotiate the NAT traversal and configure the networkaccordingly. In this case, prompt the user in Dom0 about the NAT traversal request. Of coursethe qvm-* set of tools must e able to achieve the same tasks via CLI.
First develop and document the part related to manual port forwarding since it is both a more frequent use case and is less complicated. Depending on the problems encountered, evaluate the feasibility of secure NAT traversal.
qvm-firewall
(core-admin-client)nft
or iptables
qvm-firewall
configuration work?The Qubes Manager GUI and the qvm-firewall
both use the code imlemented in the Admi API Client library. The Client Library sends specific messages to the qubesd
daemon.
The currently supported operatins are:
admin.vm.firewall.Get
admin.vm.firewall.Set
admin.vm.firewall.Reload
These actions can be tested by using the qvm-firewall
utility. It is important to note that both the client and the daemon are more flexibile compared to the settings available via the GUI.
If any non default configuration is set by the user, an AppVM will have a firewall.xml
configuration file in the var/lib/qubes/<appvm>/
path. Deleting the file will reset the firewall to the default state and any customization will be lost.
The firewall.xml
is clearly human readable and contains rules in the form:
<firewall version="2">
<rules>
<rule>
<properties>
<!-- accept outgoing to lsd.cat porto tcp port 443 -->
<property name="action">accept</property>
<property name="dsthost">lsd.cat</property>
<property name="proto">tcp</property>
<property name="dstports">443</property>
</properties>
</rule>
<rule>
<properties>
<!-- accept outgoing to 10.132.11.1/24 proto any -->
<property name="action">accept</property>
<property name="dsthost">10.132.11.1/24</property>
</properties>
</rule>
<rule>
<properties>
<!-- allow outgoing dns queries. needed for domain based rules -->
<property name="action">accept</property>
<property name="specialtarget">dns</property>
</properties>
</rule>
<rule>
<properties>
<!-- drop everything else -->
<property name="action">drop</property>
</properties>
</rule>
</rules>
</firewall>
The following command will return the firewall rules for <vmnname>
.
qvm-firewall <vmname>
As can be seen, the output will show more colums that the GUI, specifically an EXPIRE
, COMMENT
, and SPECIAL TARGET
columns will be displayed.
The following command will reload the persistent rules stored in firewall.xml
of <vmname>
qvm-firewall <vmname> --reload
The following command can be used to add a rule. Not that if the GUI detects that the firewall has been edited from CLI, since it does not support all CLI settings, it will refuse to allow management again from the GUI.
qvm-firewall <vmname> add action=accept dsthost=1.1.1.1 proto=tcp dstports=80-80 expire=+5000 comment="cloudflare http test rule"
Currently, all firewall rules have an action
properties which can be either accept
or drop
. The plan is to add a third option forward
specifically for implementing automatic port forwarding. Such options must be supported both in the configuration file and in the Admin API (client-server). Lastly, it shall be implemented in the agent daemon.
The main issue however is the fact that currenly, the firewall client library is designated to operate only on the AppVM configured Firewall NetVM. However, in order to forward ports from the outside world, specific rules needs to be applied to the Firewall NetVM Networking NetVM. (ie: both is sys-firewall
and sys-net
, as currently done for manual port forwarding).
Since in the case of port forwarding the target ip address would always be the <vmname>
IP address, users should not be asked for a dsthost
field. Adding a forward rule could look like this:
qvm-firewall <vmname> add action=forward proto=tcp forwardtype=external srcports=443-443 dstports=80443-80443 srchost=0.0.0.0/0 expire=+500000 comment="example https server rule"
qvm-firewall <vmname> add action=forward proto=tcp forwardtype=internal srcports=80-80 dstports=8000-8000 srchost=10.137.0.13 expire=+500000 comment="example internal simplehttpserver file sharing rule"
Of course expire=
and comment=
are optional fields.
<rule>
<properties>
<!-- sample syntax for port forwarding -->
<property name="action">forward</property>
<property name="proto">tcp</property>
<property name="forwardtype">external</property>
<property name="srcports">443-443</property>
<property name="dstports">80443-80443</property>
<property name="srchost">0.0.0.0/0</property>
<property name="comment">example https server rule</property>
</properties>
</rule>
<appvm>
's <ntvm>
<appvm>
service needs to be exposed on a physical interface<appvm>
service needs to be exposed to other <appvm2/3/4>
connected to the same <netvm>
<appvm>
service needs to be exposed through a VPNIt is important to note that in the last case, it is just a standard case of internal forwarding.
core-admin-client/qubesadmin/firewall.py
firewall.py > The code
needs to support the new options for the rule (action=forward
frowardtype= srcports=443-443 srchosts=0.0.0.0/0
core-admin/qubes/firewall.py
-> The code needs to support the same
options as the point abovecore-admin/qubes/vm/mix/net.py
-> The most important logic goes
here. Here there is the need to resolve the full network chain for
external port forwarding. From here it is possible to add the respective
rules to the QubesDB of each NetVM in he chain and trigger a reload event.core-agent-linux/qubesagent/firewall.py
-> Here goes the logic for
building the correct syntax for iptables or nft and the actual execution***srchost and srcports support yet to be written here ***
In <networkvm>
:
iptables -t nat -A PREROUTING -i <external_iinterface> -p tcp --dport <target_port> -d <interface_ip> -j DNAT --to-destination <firewallvm_ip>
iptables -I FORWARD 2 -i <external_iinterface> -d <firewallvm_ip> -p tcp --dport <target_port> -m conntrack --ctstate NEW -j ACCEPT
nft add rule ip qubes-firewall forward meta iifname <external_iinterface> ip daddr <firewallvm_ip> tcp dport <target_port> ct state new counter accept
In <firewallvm>
:
iptables -t nat -A PREROUTING -i <interface> -p tcp --dport <target_port> -d <firewallvm_ip> -j DNAT --to-destination <appvm_ip>
iptables -I FORWARD 2 -i <interface> -d <appvm_ip> -p tcp --dport <target_port> -m conntrack --ctstate NEW -j ACCEPT
nft add rule ip qubes-firewall forward meta iifname <interface> ip daddr <appvm_ip> tcp dport <target_port> ct state new counter accept
in <appvm>
:
iptables -w -I INPUT 5 -d <appvm_ip> -p tcp --dport <target_port> -m conntrack --ctstate NEW -j ACCEPT
In <firewallvm>
:
iptables -t nat -A PREROUTING -i <interface> -p tcp --dport <target_port> -d <firewallvm_ip> -j DNAT --to-destination <appvm_ip>
iptables -I FORWARD 2 -i <interface> -d <appvm_ip> -p tcp --dport <target_port> -m conntrack --ctstate NEW -j ACCEPT
nft add rule ip qubes-firewall forward meta iifname <interface> ip daddr <appvm_ip> tcp dport <target_port> ct state new counter accept
in <appvm>
:
iptables -w -I INPUT 5 -d <appvm_ip> -p tcp --dport <target_port> -m conntrack --ctstate NEW -j ACCEPT
#
#
Flags explanation as produced from the qvm-ls
utility:
Type of domain (When it is HVM, the letter is capital).
0 AdminVM (AKA Dom0)
aA AppVM
dD DisposableVM
sS StandaloneVM
tT TemplateVM
Current power state.
r running
t transient
p paused
s suspended
h halting
d dying
c crashed
? unknown
Extra
U updateable
N provides_network
R installed_by_rpm
i internal
D debug
A autostart
Currently developing on VMWare Workstation on Windows due to issues in virtualizing on linux on my home hardware. QubesOS is virtualized behind NAT and can reach Windows Host via SSH.
In order to the the code, I wrote some helper scripts. The required setup involves:
sys-net
sys-net
SSH pubkey on Windows for non interactive authentication (sshd
is easier using Windows Subsystem for Linux)sys-net
VM. Leve pull.sh
in /home/user/pull.sh
qvm-run
copy backup.sh
, restore.sh
and updte.sh
in Dom0
backup.sh
and pay attention to never run it again in order to recover from broken states (breaking qubesd, qvm-run
will stop working and it will be hard to recover)update.sh
to automatically pull changes from the Windows host. qubesd
is restarted within the same script.restore.sh
and investigate the previous errors