Provided by: daxctl_77-2.2ubuntu2_amd64 bug

NAME

       daxctl-reconfigure-device - Reconfigure a dax device into a different mode

SYNOPSIS

       daxctl reconfigure-device <dax0.0> [<dax1.0>...<daxY.Z>] [<options>]

DESCRIPTION

       Reconfigure the operational mode of a dax device. This can be used to convert a regular
       devdax mode device to the system-ram mode which arranges for the dax range to be
       hot-plugged into the system as regular memory.

           Note
           This is a destructive operation. Any data on the dax device will be lost.

           Note
           Device reconfiguration depends on the dax-bus device model. See
           daxctl-migrate-device-model(1) for more information. If dax-class is in use (via the
           dax_pmem_compat driver), the reconfiguration will fail with an error such as the
           following:

           # daxctl reconfigure-device --mode=system-ram --region=0 all
           libdaxctl: daxctl_dev_disable: dax3.0: error: device model is dax-class
           dax3.0: disable failed: Operation not supported
           error reconfiguring devices: Operation not supported
           reconfigured 0 devices

       daxctl-reconfigure-device nominally expects that it will online new memory blocks as
       movable, so that kernel data doesn’t make it into this memory. However, there are other
       potential agents that may be configured to automatically online new hot-plugged memory as
       it appears. Most notably, these are the /sys/devices/system/memory/auto_online_blocks
       configuration, or system udev rules. If such an agent races to online memory sections,
       daxctl checks if the blocks were onlined as movable memory. If this was not the case, and
       the memory blocks are found to be in a different zone, then a warning is displayed. If it
       is desired that a different agent control the onlining of memory blocks, and the
       associated memory zone, then it is recommended to use the --no-online option described
       below. This will abridge the device reconfiguration operation to just hotplugging the
       memory, and refrain from then onlining it.

       In case daxctl detects that there is a kernel policy to auto-online blocks (via
       /sys/devices/system/memory/auto_online_blocks), then reconfiguring to system-ram will
       result in a failure. This can be overridden with --force.

THEORY OF OPERATION

       The kernel device-dax subsystem surfaces character devices that provide DAX-access (direct
       mappings sans page-cache buffering) to a given memory region. The devices are named
       /dev/daxX.Y where X is a region-id and Y is an instance-id within that region. There are 2
       mechanisms that trigger device-dax instances to appear:

        1. Persistent Memory (PMEM) namespace configured in "devdax" mode. See "ndctl
           create-namspace --help" and CONFIG_DEV_DAX_PMEM
           <https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/drivers/dax/Kconfig>.
           In this case the device-dax instance is statically sized to its host memory region
           which is bounded to the physical address range of the host namespace.

        2. Soft Reserved memory enumerated by platform firmware. On EFI systems this is
           communicated via the so called EFI_MEMORY_SP "Special Purpose" attribute. See
           CONFIG_DEV_DAX_HMEM
           <https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/drivers/dax/Kconfig>.
           In this case the device-dax instance(s) associated with the given memory region can be
           resized and divided into multiple devices.

       In the Soft Reservation case the expectation for EFI + ACPI based platforms is that in
       addition to the EFI_MEMORY_SP attribute the firmware also creates distinct ACPI proximity
       domains for any address range that has different performance characteristics than default
       "System RAM". So, the SRAT will define the proximity domain, the SLIT communicates
       relative distance to other proximity domains, and the HMAT is populated with nominal
       read/write latency and read/write bandwidth data. That HMAT data is emitted to the kernel
       log on bootup, and also exported to sysfs. See NUMAPERF
       <https://www.kernel.org/doc/html/latest/admin-guide/mm/numaperf.html>, for the runtime
       representation of CPU to Memory node performance details.

       Outside of the NUMA performance details linked above the other method to detect the
       presence of "Soft Reserved" memory is to dump /proc/iomem and look for "Soft Reserved"
       ranges. If the kernel was not built with CONFIG_EFI_SOFT_RESERVE, predates the
       introduction of CONFIG_EFI_SOFT_RESERVE (v5.5), or was booted with the efi=nosoftreserve
       command line then device-dax will not attach and the expectation is that the memory shows
       up as a memory-only NUMA node. Otherwise the memory shows up as a device-dax instance and
       DAXCTL(1) can be used to optionally partition it and assign the memory back to the kernel
       as "System RAM", or the device can be mapped directly as the back end of a userspace
       memory allocator like LIBVMEM <https://pmem.io/vmem/libvmem/>.

EXAMPLES

       •   Reconfigure dax0.0 to system-ram mode, don’t online the memory

           # daxctl reconfigure-device --mode=system-ram --no-online dax0.0
           [
             {
               "chardev":"dax0.0",
               "size":16777216000,
               "target_node":2,
               "mode":"system-ram"
             }
           ]

       •   Reconfigure dax0.0 to devdax mode, attempt to offline the memory

           # daxctl reconfigure-device --human --mode=devdax --force dax0.0
           {
             "chardev":"dax0.0",
             "size":"15.63 GiB (16.78 GB)",
             "target_node":2,
             "mode":"devdax"
           }

       •   Reconfigure all dax devices on region0 to system-ram mode

           # daxctl reconfigure-device --mode=system-ram --region=0 all
           [
             {
               "chardev":"dax0.0",
               "size":16777216000,
               "target_node":2,
               "mode":"system-ram"
             },
             {
               "chardev":"dax0.1",
               "size":16777216000,
               "target_node":3,
               "mode":"system-ram"
             }
           ]

       •   Run a process called some-service using numactl to restrict its cpu nodes to 0 and 1,
           and  memory allocations to node 2 (determined using daxctl_dev_get_target_node() or
           daxctl list)

           # daxctl reconfigure-device --mode=system-ram dax0.0
           [
             {
               "chardev":"dax0.0",
               "size":16777216000,
               "target_node":2,
               "mode":"system-ram"
             }
           ]

           # numactl --cpunodebind=0-1 --membind=2 -- some-service --opt1 --opt2

       •   Change the size of a dax device

           # daxctl reconfigure-device dax0.1 -s 16G
           reconfigured 1 device
           # daxctl reconfigure-device dax0.1 -s 0
           reconfigured 1 device

OPTIONS

       -r, --region=
           Restrict the operation to devices belonging to the specified region(s). A device-dax
           region is a contiguous range of memory that hosts one or more /dev/daxX.Y devices,
           where X is the region id and Y is the device instance id.

       -s, --size=
           For regions that support dax device creation, change the device size in bytes. This
           option supports the suffixes "k" or "K" for KiB, "m" or "M" for MiB, "g" or "G" for
           GiB and "t" or "T" for TiB.

               The size must be a multiple of the region alignment.

               This option is mutually exclusive with -m or --mode.

       -a, --align
           Applications that want to establish dax memory mappings with page table entries
           greater than system base page size (4K on x86) need a device that is sufficiently
           aligned. This defaults to 2M. Note that "devdax" mode enforces all mappings to be
           aligned to this value, i.e. it fails unaligned mapping attempts.

               This option is mutually exclusive with -m or --mode.

       -m, --mode=
           Specify the mode to which the dax device(s) should be reconfigured.

           •   "system-ram": hotplug the device into system memory.

           •   "devdax": switch to the normal "device dax" mode. This requires the kernel to
               support hot-unplugging kmem based memory. If this is not available, a reboot is
               the only way to switch back to devdax mode.

       -N, --no-online
           By default, memory sections provided by system-ram devices will be brought online
           automatically and immediately with the online_movable policy. Use this option to
           disable the automatic onlining behavior.

       -C, --check-config
           Get reconfiguration parameters from the global daxctl config file. This is typically
           used when daxctl-reconfigure-device is called from a systemd-udevd device unit file.
           The reconfiguration proceeds only if the match parameters in a reconfigure-device
           section of the config match the dax device specified on the command line. See the
           PERSISTENT RECONFIGURATION section for more details.

       --no-movable
           --movable is the default. This can be overridden to online new memory such that it is
           not movable. This allows any allocation to potentially be served from this memory.
           This may preclude subsequent removal. With the --movable behavior (which is default),
           kernel allocations will not consider this memory, and it will be reserved for
           application use.

       -f, --force

           •   When converting from "system-ram" mode to "devdax", it is expected that all the
               memory sections are first made offline. By default, daxctl won’t touch online
               memory. However with this option, attempt to offline the memory on the NUMA node
               associated with the dax device before converting it back to "devdax" mode.

           •   Additionally, if a kernel policy to auto-online blocks is detected,
               reconfiguration to system-ram fails. With this option, the failure can be
               overridden to allow reconfiguration regardless of kernel policy. Doing this may
               result in a successful reconfiguration, but it may not be possible to subsequently
               offline the memory without a reboot.

       -u, --human
           By default the command will output machine-friendly raw-integer data. Instead, with
           this flag, numbers representing storage size will be formatted as human readable
           strings with units, other fields are converted to hexadecimal strings.

       -v, --verbose
           Emit more debug messages

PERSISTENT RECONFIGURATION

       The mode of a daxctl device is not persistent across reboots by default. This is because
       the device itself does not hold any metadata that hints at what mode it was set to, or is
       intended to be used. The default mode for such a device on boot is devdax.

       The administrator may set policy such that certain dax devices are always reconfigured
       into a target configuration every boot. This is accomplished via a daxctl config file.

       The config file may have multiple sections influencing different aspects of daxctl
       operation. The section of interest for persistent reconfiguration is reconfigure-device.
       The format of this is as follows:

           [reconfigure-device <unique_subsection_name>]
           nvdimm.uuid = <NVDIMM namespace uuid>
           mode = <desired reconfiguration mode> (default: system-ram)
           online = <true|false> (default: true)
           movable = <true|false> (default: true)

       Here is an example of a config snippet for managing three devdax namespaces, one is left
       in devdax mode, the second is changed to system-ram mode with default options (online,
       movable), and the third is set to system-ram mode, the memory is onlined, but not movable.

       Note that the subsection name can be arbitrary, and is only used to identify a specific
       config section. It does not have to match the device name (e.g. dax0.0 etc).

           [reconfigure-device dax0]
           nvdimm.uuid = ed93e918-e165-49d8-921d-383d7b9660c5
           mode = devdax

           [reconfigure-device dax1]
           nvdimm.uuid = f36d02ff-1d9f-4fb9-a5b9-8ceb10a00fe3
           mode = system-ram

           [reconfigure-device dax2]
           nvdimm.uuid = f36d02ff-1d9f-4fb9-a5b9-8ceb10a00fe3
           mode = system-ram
           online = true
           movable = false

       The following example can be used to create a devdax mode namespace, and simultaneously
       add the newly created namespace to the config file for system-ram conversion.

           ndctl create-namespace --mode=devdax | \
                   jq -r "\"[reconfigure-device $(uuidgen)]\", \"nvdimm.uuid = \(.uuid)\", \"mode = system-ram\"" >> $config_path

       The default location for daxctl config files is under /etc/daxctl.conf.d/, and any file
       with a .conf suffix at this location is considered. It is acceptable to have multiple
       files containing ini-style config sections, but the {section, subsection} tuple must be
       unique across all config files under /etc/daxctl.conf.d/.

COPYRIGHT

       Copyright © 2016 - 2022, Intel Corporation. License GPLv2: GNU GPL version 2
       http://gnu.org/licenses/gpl.html. This is free software: you are free to change and
       redistribute it. There is NO WARRANTY, to the extent permitted by law.

SEE ALSO

       daxctl-list(1),daxctl-migrate-device-model[1]