xref: /openbmc/qemu/docs/system/vm-templating.rst (revision 2df1eb27)
1QEMU VM templating
2==================
3
4This document explains how to use VM templating in QEMU.
5
6For now, the focus is on VM memory aspects, and not about how to save and
7restore other VM state (i.e., migrate-to-file with ``x-ignore-shared``).
8
9Overview
10--------
11
12With VM templating, a single template VM serves as the starting point for
13new VMs. This allows for fast and efficient replication of VMs, resulting
14in fast startup times and reduced memory consumption.
15
16Conceptually, the VM state is frozen, to then be used as a basis for new
17VMs. The Copy-On-Write mechanism in the operating systems makes sure that
18new VMs are able to read template VM memory; however, any modifications
19stay private and don't modify the original template VM or any other
20created VM.
21
22!!! Security Alert !!!
23----------------------
24
25When effectively cloning VMs by VM templating, hardware identifiers
26(such as UUIDs and NIC MAC addresses), and similar data in the guest OS
27(such as machine IDs, SSH keys, certificates) that are supposed to be
28*unique* are no longer unique, which can be a security concern.
29
30Please be aware of these implications and how to mitigate them for your
31use case, which might involve vmgenid, hot(un)plug of NIC, etc..
32
33Memory configuration
34--------------------
35
36In order to create the template VM, we have to make sure that VM memory
37ends up in a file, from where it can be reused for the new VMs:
38
39Supply VM RAM via memory-backend-file, with ``share=on`` (modifications go
40to the file) and ``readonly=off`` (open the file writable). Note that
41``readonly=off`` is implicit.
42
43In the following command-line example, a 2GB VM is created, whereby VM RAM
44is to be stored in the ``template`` file.
45
46.. parsed-literal::
47
48    |qemu_system| [...] -m 2g \\
49        -object memory-backend-file,id=pc.ram,mem-path=template,size=2g,share=on,... \\
50        -machine q35,memory-backend=pc.ram
51
52If multiple memory backends are used (vNUMA, DIMMs), configure all
53memory backends accordingly.
54
55Once the VM is in the desired state, stop the VM and save other VM state,
56leaving the current state of VM RAM reside in the file.
57
58In order to have a new VM be based on a template VM, we have to
59configure VM RAM to be based on a template VM RAM file; however, the VM
60should not be able to modify file content.
61
62Supply VM RAM via memory-backend-file, with ``share=off`` (modifications
63stay private), ``readonly=on`` (open the file readonly) and ``rom=off``
64(don't make the memory readonly for the VM). Note that ``share=off`` is
65implicit and that other VM state has to be restored separately.
66
67In the following command-line example, a 2GB VM is created based on the
68existing 2GB file ``template``.
69
70.. parsed-literal::
71
72    |qemu_system| [...] -m 2g \\
73        -object memory-backend-file,id=pc.ram,mem-path=template,size=2g,readonly=on,rom=off,... \\
74        -machine q35,memory-backend=pc.ram
75
76If multiple memory backends are used (vNUMA, DIMMs), configure all
77memory backends accordingly.
78
79Note that ``-mem-path`` cannot be used for VM templating when creating the
80template VM or when starting new VMs based on a template VM.
81
82Incompatible features
83---------------------
84
85Some features are incompatible with VM templating, as the underlying file
86cannot be modified to discard VM RAM, or to actually share memory with
87another process.
88
89vhost-user and multi-process QEMU
90~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
91
92vhost-user and multi-process QEMU are incompatible with VM templating.
93These technologies rely on shared memory, however, the template VMs
94don't actually share memory (``share=off``), even though they are
95file-based.
96
97virtio-balloon
98~~~~~~~~~~~~~~
99
100virtio-balloon inflation and "free page reporting" cannot discard VM RAM
101and will repeatedly report errors. While virtio-balloon can be used
102for template VMs (e.g., report VM RAM stats), "free page reporting"
103should be disabled and the balloon should not be inflated.
104
105virtio-mem
106~~~~~~~~~~
107
108virtio-mem cannot discard VM RAM that is managed by the virtio-mem
109device. virtio-mem will fail early when realizing the device. To use
110VM templating with virtio-mem, either hotplug virtio-mem devices to the
111new VM, or don't supply any memory to the template VM using virtio-mem
112(requested-size=0), not using a template VM file as memory backend for the
113virtio-mem device.
114
115VM migration
116~~~~~~~~~~~~
117
118For VM migration, "x-release-ram" similarly relies on discarding of VM
119RAM on the migration source to free up migrated RAM, and will
120repeatedly report errors.
121
122Postcopy live migration fails discarding VM RAM on the migration
123destination early and refuses to activate postcopy live migration. Note
124that postcopy live migration usually only works on selected filesystems
125(shmem/tmpfs, hugetlbfs) either way.
126