xref: /openbmc/qemu/docs/memory-hotplug.txt (revision 1be82d89)
1QEMU memory hotplug
2===================
3
4This document explains how to use the memory hotplug feature in QEMU,
5which is present since v2.1.0.
6
7Guest support is required for memory hotplug to work.
8
9Basic RAM hotplug
10-----------------
11
12In order to be able to hotplug memory, QEMU has to be told how many
13hotpluggable memory slots to create and what is the maximum amount of
14memory the guest can grow. This is done at startup time by means of
15the -m command-line option, which has the following format:
16
17 -m [size=]megs[,slots=n,maxmem=size]
18
19Where,
20
21 - "megs" is the startup RAM. It is the RAM the guest will boot with
22 - "slots" is the number of hotpluggable memory slots
23 - "maxmem" is the maximum RAM size the guest can have
24
25For example, the following command-line:
26
27 qemu [...] -m 1G,slots=3,maxmem=4G
28
29Creates a guest with 1GB of memory and three hotpluggable memory slots.
30The hotpluggable memory slots are empty when the guest is booted, so all
31memory the guest will see after boot is 1GB. The maximum memory the
32guest can reach is 4GB. This means that three additional gigabytes can be
33hotplugged by using any combination of the available memory slots.
34
35Two monitor commands are used to hotplug memory:
36
37 - "object_add": creates a memory backend object
38 - "device_add": creates a front-end pc-dimm device and inserts it
39                 into the first empty slot
40
41For example, the following commands add another 1GB to the guest
42discussed earlier:
43
44  (qemu) object_add memory-backend-ram,id=mem1,size=1G
45  (qemu) device_add pc-dimm,id=dimm1,memdev=mem1
46
47Using the file backend
48----------------------
49
50Besides basic RAM hotplug, QEMU also supports using files as a memory
51backend. This is useful for using hugetlbfs in Linux, which provides
52access to bigger page sizes.
53
54For example, assuming that the host has 1GB hugepages available in
55the /mnt/hugepages-1GB directory, a 1GB hugepage could be hotplugged
56into the guest from the previous section with the following commands:
57
58  (qemu) object_add memory-backend-file,id=mem1,size=1G,mem-path=/mnt/hugepages-1GB
59  (qemu) device_add pc-dimm,id=dimm1,memdev=mem1
60
61It's also possible to start a guest with memory cold-plugged into the
62hotpluggable memory slots. This might seem counterintuitive at first,
63but this allows for a lot of flexibility when using the file backend.
64
65In the following command-line example, an 8GB guest is created where 6GB
66comes from regular RAM, 1GB is a 1GB hugepage page and 256MB is from
672MB pages. Also, the guest has additional memory slots to hotplug more
682GB if needed:
69
70 qemu [...] -m 6GB,slots=4,maxmem=10G \
71   -object memory-backend-file,id=mem1,size=1G,mem-path=/mnt/hugepages-1G \
72   -device pc-dimm,id=dimm1,memdev=mem1 \
73   -object memory-backend-file,id=mem2,size=256M,mem-path=/mnt/hugepages-2MB \
74   -device pc-dimm,id=dimm2,memdev=mem2
75
76
77RAM hot-unplug
78---------------
79
80In order to be able to hot unplug pc-dimm device, QEMU has to be told the ids
81of pc-dimm device and memory backend object. The ids were assigned when you hot
82plugged memory.
83
84Two monitor commands are used to hot unplug memory:
85
86 - "device_del": deletes a front-end pc-dimm device
87 - "object_del": deletes a memory backend object
88
89For example, assuming that the pc-dimm device with id "dimm1" exists, and its memory
90backend is "mem1", the following commands tries to remove it.
91
92  (qemu) device_del dimm1
93  (qemu) object_del mem1
94