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VM Configuration Interface
Qubes VM have some settings set by dom0 based on VM settings. There are multiple configuration channels, which includes:
- QubesDB
- XenStore (in Qubes 2, data the same as in QubesDB, keys without leading
/
) - Qubes RPC (called at VM startup, or when configuration changed)
- GUI protocol
QubesDB
Keys exposed by dom0 to VM
/qubes-vm-type
- VM type, the same astype
field inqvm-prefs
. One ofAppVM
,ProxyVM
,NetVM
,TemplateVM
,HVM
,TemplateHVM
/qubes-vm-updatable
- flag whether VM is updatable (whether changes in root.img will survive VM restart). One ofTrue
,False
/qubes-vm-persistence
- what data do persist between VM restarts:full
- all disksrw-only
- only/rw
disknone
- none
/qubes-timezone - name of timezone based on dom0 timezone. For example
Europe/Warsaw`/qubes-keyboard
- keyboard layout based on dom0 layout. Its syntax is suitable forxkbcomp
command (after expanding escape sequences like\n
or\t
). This is meant only as some default value, VM can ignore this option and choose its own keyboard layout (this is what keyboard setting from Qubes Manager does). This entry is created as part of gui-daemon initialization (so not available when gui-daemon disabled, or not started yet)./qubes-debug-mode
- flag whether VM have debug mode enabled (qvm-prefs setting). One of1
,0
/qubes-service/SERVICE_NAME
- subtree for VM services controlled from dom0 (using qvm-service command or Qubes Manager). One of1
,0
. Note that not every service will be listed here, if entry is missing, it means "use VM default". List of currently supported services is in qvm-service man page/qubes-netmask
- network mask (only when VM has netvm set); currently hardcoded "255.255.255.0"- `/qubes-ip - IP address for this VM (only when VM has netvm set)
/qubes-gateway
- default gateway IP (only when VM has netvm set); VM should add host route to this address directly via eth0 (or whatever default interface name is)/qubes-primary-dns
- primary DNS address (only when VM has netvm set) (in Qubes 3.2 and later, previously/qubes-gateway
was used for this purpose)/qubes-secondary-dns
- secondary DNS address (only when VM has netvm set)/qubes-netvm-gateway
- same asqubes-gateway
in connected VMs (only when VM serves as network backend - ProxyVM and NetVM)/qubes-netvm-netmask
- same asqubes-netmask
in connected VMs (only when VM serves as network backend - ProxyVM and NetVM)/qubes-netvm-network
- network address (only when VM serves as network backend - ProxyVM and NetVM); can be also calculated from qubes-netvm-gateway and qubes-netvm-netmask/qubes-netvm-primary-dns
- same asqubes-primary-dns
in connected VMs (only when VM serves as network backend - ProxyVM and NetVM); traffic sent to this IP on port 53 should be redirected to primary DNS server (in Qubes 3.2 and later, previously/qubes-netvm-gateway
was used for this purpose)/qubes-netvm-secondary-dns
- same asqubes-secondary-dns
in connected VMs (only when VM serves as network backend - ProxyVM and NetVM); traffic sent to this IP on port 53 should be redirected to secondary DNS server
Firewall rules in 3.x
QubesDB is also used to configure firewall in ProxyVMs. Rules are stored in separate key for each target VM. Entries:
/qubes-iptables
- control entry - dom0 writingreload
here signalqubes-firewall
service to reload rules/qubes-iptables-header
- rules not related to any particular VM, should be applied before domains rules/qubes-iptables-domainrules/NNN
- rules for domainNNN
(arbitrary number) iniptables-save
format. Rules are self-contained - fillFORWARD
iptables chain and contains all required matches (source IP address etc), as well as final default action (DROP
/ACCEPT
)
VM after applying rules may signal some error, writing a message to
/qubes-iptables-error
key. This does not exclude any other way of
communicating problem - like a popup.
Firewall rules in 4.x
QubesDB is also used to configure firewall in ProxyVMs. Each rule is stored as a separate entry, grouped on target VM:
/qubes-firewall/SOURCE_IP
- base tree under which rules are placed. All rules there should be applied to filter traffic coming fromSOURCE_IP
. This can be either IPv4 or IPv6 address. Dom0 will do an empty write to this top level entry after finishing rules update, so VM can setup a watch here to trigger rules reload./qubes-firewall/SOURCE_IP/policy
- default action if no rule matches:drop
oraccept
./qubes-firewall/SOURCE_IP/NNNN
- rule numberNNNN
- decimal number, padded with zeros. Se below for rule format. All the rules should be applied in order of rules implied by those numbers. Note that QubesDB itself does not impose any ordering (you need to sort the rules after retrieving them). The first rule has number0000
.
Each rule is a single QubesDB entry, consisting of pairs key=value
separated
by space. Order of those pairs in a single rule is undefined. QubesDB enforces
a limit on a single entry length - 3072 bytes.
Possible options for a single rule:
action
, values:accept
,drop
; this is present it every ruledst4
, value: destination IPv4 address with a mask; for example:192.168.0.0/24
dst6
, value: destination IPv6 address with a mask; for example:2000::/3
dstname
, value: DNS hostname of destination hostproto
, values:tcp
,udp
,icmp
specialtarget
, value: One of predefined target, currently defined values:dns
- such option should match DNS traffic to default DNS server (but not any DNS server), on both TCP and UDP
dstports
, value: destination ports range separated with-
, valid only together withproto=tcp
orproto=udp
; for example1-1024
,80-80
icmptype
, value: numeric (decimal) icmp message type, for example8
for echo request, valid only together withproto=icmp
Rule matches only when all predicates matches. Only one of dst4
, dst6
,
dstname
, specialtarget
can be used in a single rule.
If tool applying firewall encounter any parse error (unknown option, invalid
value etc), it should drop all the traffic coming from that SOURCE_IP
,
regardless of properly parsed rules.
Example valid rules:
action=accept dst4=8.8.8.8 proto=udp dstports=53-53
action=drop dst6=2a00:1450:4000::/37 proto=tcp
specialtarget=dns action=accept
specialtarget=dns action=drop proto=tcp
- drop DNS queries sent using TCPaction=drop
Keys set by VM for passing info to dom0
memory/meminfo
(xenstore) - used memory (updated by qubes-meminfo-writer), input information for qmemman;- Qubes 3.x format: 6 lines (EOL encoded as
\n
), each in format "FIELD: VALUE kB"; fields:MemTotal
,MemFree
,Buffers
,Cached
,SwapTotal
,SwapFree
; meaning the same as in/proc/meminfo
in Linux. - Qubes 4.0+ format: used memory size in the VM, in kbytes
- Qubes 3.x format: 6 lines (EOL encoded as
/qubes-block-devices
- list of block devices exposed by this VM, each device (subdirectory) should be named in a way that VM can attach the device based on it. Each should contain those entries:desc
- device description (ASCII text)size
- device size in bytesmode
- default connection mode;r
for read-only,w
for read-write
/qubes-usb-devices
- list of USB devices exposed by this VM, each device (subdirectory) should contain:desc
- device description (ASCII text)usb-ver
- USB version (1, 2 or 3)
Qubes RPC
Services called by dom0 to provide some VM configuration:
-
qubes.SetMonitorLayout
- provide list of monitors, one in a line, each line contains four numbers:width height X Y width_mm height_mm
(physical dimensions -width_mm
andheight_mm
- are optional) -
qubes.WaitForSession
- called to wait for full VM startup -
qubes.GetAppmenus
- receive appmenus from given VM (template); TODO: describe format here -
qubes.GetImageRGBA
- receive image/application icon. Protocol:- Caller sends name of requested icon. This can be one of:
xdgicon:NAME
- search for NAME in standard icons theme-
- get icon data from stdin (the caller), can be prefixed with format name, for examplepng:-
- file name
- The service responds with image dimensions: width and height as decimal numbers, separated with space and with EOL marker at the and; then image data in RGBA format (32 bits per pixel)
- Caller sends name of requested icon. This can be one of:
-
qubes.SetDateTime
- set VM time, called periodically by dom0 (can be triggered manually from dom0 by callingqvm-sync-clock
). The service receives one line at stdin - time in format ofdate -u -Iseconds
, for example2015-07-31T16:10:43+0000
. -
qubes.SetGuiMode
- called in HVM to switch between fullscreen and seamless GUI mode. The service receives a single word on stdin - eitherFULLSCREEN
orSEAMLESS
-
qubes.ResizeDisk
- called to inform that underlying disk was resized. Name of disk image is passed on standard input (root
,private
,volatile
, or other). This is used starting with Qubes 4.0.
Other Qrexec services installed by default:
qubes.Backup
- store Qubes backup. The service receives location chosen by the user (one line, terminated by '\n'), the backup archive (description of backup format)qubes.DetachPciDevice
- service called in reaction toqvm-pci -d
call on running VM. The service receives one word - BDF of device to detach. When the service call ends, the device will be detachedqubes.Filecopy
- receive some files from other VM. Files sent in qfile formatqubes.OpenInVM
- open a file in called VM. Service receives a single file on stdin (in qfile format. After a file viewer/editor is terminated, if the file was modified, can be sent back (just raw content, without any headers); otherwise service should just terminate without sending anything. This service is used by bothqvm-open-in-vm
andqvm-open-in-dvm
tools. When called in DispVM, service termination will trigger DispVM cleanup.qubes.Restore
- retrieve Qubes backup. The service receives backup location entered by the user (one line, terminated by '\n'), then should output backup archive in qfile format (core-agent-linux component containstar2qfile
utility to do the conversionqubes.SelectDirectory
,qubes.SelectFile
- services which should show file/directory selection dialog and return (to stdout) a single line containing selected path, or nothing in case of cancellationqubes.SuspendPre
- service called in every VM with PCI device attached just before system suspendqubes.SuspendPost
- service called in every VM with PCI device attached just after system resumequbes.SyncNtpClock
- service called to trigger network time synchronization. Service should synchronize local VM time and terminate when done.qubes.WindowIconUpdater
- service called by VM to send icons of individual windows. The protocol there is simple one direction stream: VM sends window ID followed by icon inqubes.GetImageRGBA
format, then next window ID etc. VM can send icon for the same window multiple times to replace previous one (for example for animated icons)qubes.VMShell
- call any command in the VM; the command(s) is passed one per line
Currently Qubes still calls few tools in VM directly, not using service abstraction. This will change in the future. Those tools are:
/usr/lib/qubes/qubes-download-dom0-updates.sh
- script to download updates (or new packages to be installed) for dom0 (qubes-dom0-update
tool)date -u -Iseconds
- called directly to retrieve time after callingqubes.SyncNtpClock
service (qvm-sync-clock
tool)nm-online -x
- called beforequbes.SyncNtpClock
service call byqvm-sync-clock
toolresize2fs
- called to resize filesystem on /rw partition byqvm-grow-private
toolgpk-update-viewer
- called by Qubes Manager to display available updates in a TemplateVMsystemctl start qubes-update-check.timer
(and similarly stop) - called when enabling/disabling updates checking in given VM (qubes-update-check
qvm-service)
Additionally automatic tests extensively calls various commands directly in VMs. We do not plan to change that.
GUI protocol
GUI initialization includes passing the whole screen dimensions from dom0 to VM. This will most likely be overwritten by qubes.SetMonitorLayout Qubes RPC call.