In general features are intended to be supported indefinitely once introduced into QEMU. In the event that a feature needs to be removed, it will be listed in this section. The feature will remain functional for the release in which it was deprecated and one further release. After these two releases, the feature is liable to be removed. Deprecated features may also generate warnings on the console when QEMU starts up, or if activated via a monitor command, however, this is not a mandatory requirement.
Prior to the 2.10.0 release there was no official policy on how long features would be deprecated prior to their removal, nor any documented list of which features were deprecated. Thus any features deprecated prior to 2.10.0 will be treated as if they were first deprecated in the 2.10.0 release.
What follows is a list of all features currently marked as deprecated.
Boolean options such as share=on
/share=off
could be written in short form as share
and noshare
. This is now deprecated and will cause a warning.
The replacement for the nodelay
short-form boolean option is nodelay=on
rather than delay=off
.
Passing TCG plugins arguments through arg=
is redundant is makes the command-line less readable, especially when the argument itself consist of a name and a value, e.g. -plugin plugin_name,arg="arg_name=arg_value"
. Therefore, the usage of arg
is redundant. Single-word arguments are treated as short-form boolean values, and passed to plugins as arg_name=on
. However, short-form booleans are deprecated and full explicit arg_name=on
form is preferred.
The -p
option pretends to control the host page size. However, it is not possible to change the host page size, and using the option only causes failures.
Specified CPU topology parameters must be supported by the machine.
In the SMP configuration, users should provide the CPU topology parameters that are supported by the target machine.
However, historically it was allowed for users to specify the unsupported topology parameter as "1", which is meaningless. So support for this kind of configurations (e.g. -smp drawers=1,books=1,clusters=1 for x86 PC machine) is marked deprecated since 9.0, users have to ensure that all the topology members described with -smp are supported by the target machine.
Use argument id
instead.
Use argument id
instead.
Use argument id
instead.
Use argument id
instead.
Use argument value null
instead.
Use arguments base-node
and top-node
instead.
Use the more generic commands block-export-add
and block-export-del
instead. As part of this deprecation, where nbd-server-add
used a single bitmap
, the new block-export-add
uses a list of bitmaps
.
Member values
in return value elements with meta-type enum
is deprecated. Use members
instead.
Use blockdev-backup
in combination with blockdev-add
instead. This change primarily separates the creation/opening process of the backup target with explicit, separate steps. blockdev-backup
uses mostly the same arguments as drive-backup
, except the format
and mode
options are removed in favor of using explicit blockdev-create
and blockdev-add
calls. See /interop/live-block-operations
for details.
Due to shortcomings in the internal implementation of device_add
, QEMU incorrectly accepts certain invalid arguments: Any object or list arguments are silently ignored. Other argument types are not checked, but an implicit conversion happens, so that e.g. string values can be assigned to integer device properties or vice versa.
This is a bug in QEMU that will be fixed in the future so that previously accepted incorrect commands will return an error. Users should make sure that all arguments passed to device_add
are consistent with the documented property types.
Use the more generic event DEVICE_UNPLUG_GUEST_ERROR
instead.
The ability to instrument QEMU helper functions with vCPU-aware trace points was removed in 7.0. However QMP still exposed the vcpu parameter. This argument has now been deprecated and the remaining remaining trace points that used it are selected just by name.
As Debian 10 ("Buster") moved into LTS the big endian 32 bit version of MIPS moved out of support making it hard to maintain our cross-compilation CI tests of the architecture. As we no longer have CI coverage support may bitrot away before the deprecation process completes. The little endian variants of MIPS (both 32 and 64 bit) are still a supported host architecture.
Support for 32-bit x86 host deployments is increasingly uncommon in mainstream OS distributions given the widespread availability of 64-bit x86 hardware. The QEMU project no longer considers 32-bit x86 support for system emulation to be an effective use of its limited resources, and thus intends to discontinue it. Since all recent x86 hardware from the past >10 years is capable of the 64-bit x86 extensions, a corresponding 64-bit OS should be used instead.
The Nios II architecture is orphan. The nios2
guest CPU support is deprecated and will be removed in a future version of QEMU.
The character "+" in device (and thus also CPU) names is not allowed in the QEMU object model anymore. power5+
, power5+_v2.1
, power7+
and power7+_v2.1
are currently still supported via an alias, but for consistency these will get removed in a future release, too. Use power5p_v2.1
and power7p_v2.1
instead.
The CRIS architecture was pulled from Linux in 4.17 and the compiler is no longer packaged in any distro making it harder to run the check-tcg
tests. Unless we can improve the testing situation there is a chance the code will bitrot without anyone noticing.
The dtb-kaslr-seed
property on the virt
board has been deprecated; use the new name dtb-randomness
instead. The new name better reflects the way this property affects all random data within the device tree blob, not just the kaslr-seed
node.
These old machine types are quite neglected nowadays and thus might have various pitfalls with regards to live migration. Use a newer machine type instead.
The Nios II architecture is orphan.
The machine is no longer in existence and has been long unmaintained in QEMU. This also holds for the TC51828 16MiB flash that it uses.
Older pseries machines before version 2.12 have undergone many changes to correct issues, mostly regarding migration compatibility. These are no longer maintained and removing them will make the code easier to read and maintain. Use versions 2.12 and above as a replacement.
This option is used when memory-backend-file
is consumed by emulated NVDIMM device. However enabling memory-backend-file.pmem
option, when backing file is (a) not DAX capable or (b) not on a filesystem that support direct mapping of persistent memory, is not safe and may lead to data loss or corruption in case of host crash. Options are:
- modify VM configuration to set
pmem=off
to continue using fake NVDIMM (without persistence guaranties) with backing file on non DAX storage- move backing file to NVDIMM storage and keep
pmem=on
(to have NVDIMM with persistence guaranties).
The virtio-blk SCSI passthrough feature is a legacy VIRTIO feature. VIRTIO 1.0 and later do not support it because the virtio-scsi device was introduced for full SCSI support. Use virtio-scsi instead when SCSI passthrough is required.
Note this also applies to -device virtio-blk-pci,scsi=on|off
, which is an alias.
In QEMU versions 6.1, 6.2 and 7.0, the nvme-ns
generates an EUI-64 identifier that is not globally unique. If an EUI-64 identifier is required, the user must set it explicitly using the nvme-ns
device parameter eui64
.
The nvme
device originally used a PCI Vendor/Device Identifier combination from Intel that was not properly allocated. Since version 5.2, the controller has used a properly allocated identifier. Deprecate the use-intel-id
machine compatibility parameter.
The cxl-type3
device initially only used a single memory backend. With the addition of volatile memory support, it is now necessary to distinguish between persistent and volatile memory backends. As such, memdev is deprecated in favor of persistent-memdev.
The 9p proxy
filesystem backend driver has been deprecated and will be removed (along with its proxy helper daemon) in a future version of QEMU. Please use -fsdev local
or -virtfs local
for using the 9p local
filesystem backend, or alternatively consider deploying virtiofsd instead.
The 9p proxy
backend was originally developed as an alternative to the 9p local
backend. The idea was to enhance security by dispatching actual low level filesystem operations from 9p server (QEMU process) over to a separate process (the virtfs-proxy-helper binary). However this alternative never gained momentum. The proxy backend is much slower than the local backend, hasn't seen any development in years, and showed to be less secure, especially due to the fact that its helper daemon must be run as root, whereas with the local backend QEMU is typically run as unprivileged user and allows to tighten behaviour by mapping permissions et al by using its 'mapped' security model option.
Nowadays it would make sense to reimplement the proxy
backend by using QEMU's vhost
feature, which would eliminate the high latency costs under which the 9p proxy
backend currently suffers. However as of to date nobody has indicated plans for such kind of reimplementation unfortunately.
The 'any' CPU type was introduced back in 2018 and has been around since the initial RISC-V QEMU port. Its usage has always been unclear: users don't know what to expect from a CPU called 'any', and in fact the CPU does not do anything special that isn't already done by the default CPUs rv32/rv64.
After the introduction of the 'max' CPU type, RISC-V now has a good coverage of generic CPUs: rv32 and rv64 as default CPUs and 'max' as a feature complete CPU for both 32 and 64 bit builds. Users are then discouraged to use the 'any' CPU type starting in 8.2.
All RISC-V CPU properties which start with capital 'Z' are being deprecated starting in 8.2. The reason is that they were wrongly added with capital 'Z' in the past. CPU properties were later added with lower-case names, which is the format we want to use from now on.
Users which try to use these deprecated properties will receive a warning recommending to switch to their stable counterparts:
- "Zifencei" should be replaced with "zifencei"
- "Zicsr" should be replaced with "zicsr"
- "Zihintntl" should be replaced with "zihintntl"
- "Zihintpause" should be replaced with "zihintpause"
- "Zawrs" should be replaced with "zawrs"
- "Zfa" should be replaced with "zfa"
- "Zfh" should be replaced with "zfh"
- "Zfhmin" should be replaced with "zfhmin"
- "Zve32f" should be replaced with "zve32f"
- "Zve64f" should be replaced with "zve64f"
- "Zve64d" should be replaced with "zve64d"
The pvrdma device and the whole rdma subsystem are in a bad shape and without active maintenance. The QEMU project intends to remove this device and subsystem from the code base in a future release without replacement unless somebody steps up and improves the situation.
In order to prevent QEMU from automatically opening an image's backing chain, use "backing": null
instead.
Options for rbd
should be specified according to its runtime options, like other block drivers. Legacy parsing of keyvalue pair encoded filenames is useful to open images with the old format for backing files; These image files should be updated to use the current format.
Example of legacy encoding:
json:{"file.driver":"rbd", "file.filename":"rbd:rbd/name"}
The above, converted to the current supported format:
json:{"file.driver":"rbd", "file.pool":"rbd", "file.image":"name"}
Specifying the iSCSI password in plain text on the command line using the password
option is insecure. The password-secret
option should be used instead, to refer to a --object secret...
instance that provides a password via a file, or encrypted.
memory
is a deprecated synonym for ringbuf
.
In order to support more flexible counter configurations this has been replaced by a pmu-mask
property. If set of counters is continuous then the mask can be calculated with ((2 ^ n) - 1) << 3
. The least significant three bits must be left clear.
Previous versions of QEMU never changed existing CPU models in ways that introduced additional host software or hardware requirements to the VM. This allowed management software to safely change the machine type of an existing VM without introducing new requirements ("runnability guarantee"). This prevented CPU models from being updated to include CPU vulnerability mitigations, leaving guests vulnerable in the default configuration.
The CPU model runnability guarantee won't apply anymore to existing CPU models. Management software that needs runnability guarantees must resolve the CPU model aliases using the alias-of
field returned by the query-cpu-definitions
QMP command.
While those guarantees are kept, the return value of query-cpu-definitions
will have existing CPU model aliases point to a version that doesn't break runnability guarantees (specifically, version 1 of those CPU models). In future QEMU versions, aliases will point to newer CPU model versions depending on the machine type, so management software must resolve CPU model aliases before starting a virtual machine.
--blacklist
has been replaced by --block-rpcs
(which is a better wording for what this option does). The short form -b
still stays the same and thus is the preferred way for scripts that should run with both, older and future versions of QEMU.
The blacklist
config file option has been renamed to block-rpcs
(to be in sync with the renaming of the corresponding command line option).
skipped
field in Migration stats has been deprecated. It hasn't been used for more than 10 years.
Use blockdev-mirror with NBD instead.
As an intermediate step the inc
functionality can be achieved by setting the block-incremental
migration parameter to true
. But this parameter is also deprecated.
Use blockdev-mirror with NBD instead.
As an intermediate step the blk
functionality can be achieved by setting the block
migration capability to true
. But this capability is also deprecated.
Block migration is too inflexible. It needs to migrate all block devices or none.
Please see "QMP invocation for live storage migration with blockdev-mirror
+ NBD" in docs/interop/live-block-operations.rst for a detailed explanation.
Compression method fails too much. Too many races. We are going to remove it if nobody fixes it. For starters, migration-test compression tests are disabled because they fail randomly. If you need compression, use multifd compression methods.