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Signed-off-by: Ravi kumar Veeramally <ravikumar.veeramally@intel.com>
588 lines
18 KiB
Markdown
588 lines
18 KiB
Markdown
# Memory
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Cloud Hypervisor has many ways to expose memory to the guest VM. This document
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aims to explain what Cloud Hypervisor is capable of and how it can be used to
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meet the needs of very different use cases.
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## Basic Parameters
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`MemoryConfig` or what is known as `--memory` from the CLI perspective is the
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easiest way to get started with Cloud Hypervisor.
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```rust
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struct MemoryConfig {
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size: u64,
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mergeable: bool,
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hotplug_method: HotplugMethod,
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hotplug_size: Option<u64>,
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hotplugged_size: Option<u64>,
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shared: bool,
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hugepages: bool,
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hugepage_size: Option<u64>,
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prefault: bool,
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thp: bool
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zones: Option<Vec<MemoryZoneConfig>>,
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}
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```
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```
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--memory <memory> Memory parameters "size=<guest_memory_size>,mergeable=on|off,shared=on|off,hugepages=on|off,hugepage_size=<hugepage_size>,hotplug_method=acpi|virtio-mem,hotplug_size=<hotpluggable_memory_size>,hotplugged_size=<hotplugged_memory_size>,prefault=on|off,thp=on|off" [default: size=512M,thp=on]
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```
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### `size`
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Size of the RAM in the guest VM.
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This option is mandatory when using the `--memory` parameter.
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Value is an unsigned integer of 64 bits.
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_Example_
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```
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--memory size=1G
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```
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### `mergeable`
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Specifies if the pages from the guest RAM must be marked as _mergeable_. In
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case this option is `true` or `on`, the pages will be marked with `madvise(2)`
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to let the host kernel know which pages are eligible for being merged by the
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KSM daemon.
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This option can be used when trying to reach a higher density of VMs running
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on a single host, as it will reduce the amount of memory consumed by each VM.
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By default this option is turned off.
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_Example_
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```
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--memory size=1G,mergeable=on
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```
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### `hotplug_method`
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Selects the way of adding and/or removing memory to/from a booted VM.
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Possible values are `acpi` and `virtio-mem`. Default value is `acpi`.
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_Example_
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```
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--memory size=1G,hotplug_method=acpi
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```
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### `hotplug_size`
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Amount of memory that can be dynamically added to the VM.
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Value is an unsigned integer of 64 bits. A value of 0 is invalid.
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_Example_
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```
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--memory size=1G,hotplug_size=1G
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```
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### `hotplugged_size`
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Amount of memory that will be dynamically added to the VM at boot. This option
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allows for starting a VM with a certain amount of memory that can be reduced
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during runtime.
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This is only valid when the `hotplug_method` is `virtio-mem` as it does not
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make sense for the `acpi` use case. When using ACPI, the memory can't be
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resized after it has been extended.
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This option is only valid when `hotplug_size` is specified, and its value can't
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exceed the value of `hotplug_size`.
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Value is an unsigned integer of 64 bits. A value of 0 is invalid.
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_Example_
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```
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--memory size=1G,hotplug_method=virtio-mem,hotplug_size=1G,hotplugged_size=512M
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```
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### `shared`
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Specifies if the memory must be `mmap(2)` with `MAP_SHARED` flag.
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By sharing a memory mapping, one can share the guest RAM with other processes
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running on the host. One can use this option when running vhost-user devices
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as part of the VM device model, as they will be driven by standalone daemons
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needing access to the guest RAM content.
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By default this option is turned off, which results in performing `mmap(2)`
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with `MAP_PRIVATE` flag.
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If `hugepages=on` then the value of this field is ignored as huge pages always
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requires `MAP_SHARED`.
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_Example_
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```
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--memory size=1G,shared=on
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```
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### `hugepages` and `hugepage_size`
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Specifies if the memory must be created and `mmap(2)` with `MAP_HUGETLB` and size
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flags. This performs a memory mapping relying on the specified huge page size.
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If no huge page size is supplied the system's default huge page size is used.
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By using hugepages, one can improve the overall performance of the VM, assuming
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the guest will allocate hugepages as well. Another interesting use case is VFIO
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as it speeds up the VM's boot time since the amount of IOMMU mappings are
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reduced.
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The user is responsible for ensuring there are sufficient huge pages of the
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specified size for the VMM to use. Failure to do so may result in strange VMM
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behaviour, e.g. error with `ReadKernelImage` is common. If there is a strange
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error with `hugepages` enabled, just disable it or check whether there are enough
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huge pages.
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If `hugepages=on` then the value of `shared` is ignored as huge pages always
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requires `MAP_SHARED`.
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By default this option is turned off.
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_Example_
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```
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--memory size=1G,hugepages=on,hugepage_size=2M
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```
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### `prefault`
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Specifies if the memory must be `mmap(2)` with `MAP_POPULATE` flag.
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By triggering prefault, one can allocate all required physical memory and create
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its page tables while calling `mmap`. With physical memory allocated, the number
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of page faults will decrease during running, and performance will also improve.
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Note that boot of VM will be slower with `prefault` enabled because of allocating
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physical memory and creating page tables in advance, and physical memory of the
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specified size will be consumed quickly.
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This option only takes effect at boot of VM. There is also a `prefault` option in
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restore and its choice will overwrite `prefault` in memory.
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By default this option is turned off.
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_Example_
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```
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--memory size=1G,prefault=on
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```
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### `thp`
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Specifies if private anonymous memory for the guest (i.e. `shared=off` and no
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backing file) should be labelled `MADV_HUGEPAGE` with `madvise(2)` indicating
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to the kernel that this memory may be backed with huge pages transparently.
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The use of transparent huge pages can improve the performance of the guest as
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there will fewer virtualisation related page faults. Unlike using
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`hugepages=on` a specific number of huge pages do not need to be allocated by
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the kernel.
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By default this option is turned on.
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_Example_
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```
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--memory size=1G,thp=on
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```
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## Advanced Parameters
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`MemoryZoneConfig` or what is known as `--memory-zone` from the CLI perspective
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is a power user parameter. It allows for a full description of the guest RAM,
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describing how every memory region is backed and exposed to the guest.
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```rust
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struct MemoryZoneConfig {
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id: String,
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size: u64,
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file: Option<PathBuf>,
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shared: bool,
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hugepages: bool,
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hugepage_size: Option<u64>,
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host_numa_node: Option<u32>,
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hotplug_size: Option<u64>,
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hotplugged_size: Option<u64>,
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prefault: bool,
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}
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```
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```
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--memory-zone <memory-zone> User defined memory zone parameters "size=<guest_memory_region_size>,file=<backing_file>,shared=on|off,hugepages=on|off,hugepage_size=<hugepage_size>,host_numa_node=<node_id>,id=<zone_identifier>,hotplug_size=<hotpluggable_memory_size>,hotplugged_size=<hotplugged_memory_size>,prefault=on|off"
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```
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This parameter expects one or more occurrences, allowing for a list of memory
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zones to be defined. It must be used with `--memory size=0`, clearly indicating
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that the memory will be described through advanced parameters.
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Each zone is given a list of options which we detail through the following
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sections.
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### `id`
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Memory zone identifier. This identifier must be unique, otherwise an error will
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be returned.
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This option is useful when referring to a memory zone previously created. In
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particular, the `--numa` parameter can associate a memory zone to a specific
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NUMA node based on the memory zone identifier.
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This option is mandatory when using the `--memory-zone` parameter.
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Value is a string.
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_Example_
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```
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--memory size=0
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--memory-zone id=mem0,size=1G
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```
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### `size`
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Size of the memory zone.
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This option is mandatory when using the `--memory-zone` parameter.
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Value is an unsigned integer of 64 bits.
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_Example_
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```
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--memory size=0
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--memory-zone id=mem0,size=1G
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```
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### `file`
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Path to the file backing the memory zone. The file will be opened and used as
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the backing file for the `mmap(2)` operation.
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This option can be particularly useful when trying to back a part of the guest
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RAM with a well known file. In the context of the snapshot/restore feature, and
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if the provided path is a file, the snapshot operation will not perform any
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copy of the guest RAM content for this specific memory zone since the user has
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access to it and it would duplicate data already stored on the current
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filesystem.
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Value is a string.
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_Example_
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```
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--memory size=0
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--memory-zone id=mem0,size=1G,file=/foo/bar
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```
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### `shared`
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Specifies if the memory zone must be `mmap(2)` with `MAP_SHARED` flag.
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By sharing a memory zone mapping, one can share part of the guest RAM with
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other processes running on the host. One can use this option when running
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vhost-user devices as part of the VM device model, as they will be driven
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by standalone daemons needing access to the guest RAM content.
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If `hugepages=on` then the value of this field is ignored as huge pages always
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requires `MAP_SHARED`.
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By default this option is turned off, which result in performing `mmap(2)`
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with `MAP_PRIVATE` flag.
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_Example_
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```
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--memory size=0
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--memory-zone id=mem0,size=1G,shared=on
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```
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### `hugepages` and `hugepage_size`
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Specifies if the memory must be created and `mmap(2)` with `MAP_HUGETLB` and size
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flags. This performs a memory mapping relying on the specified huge page size.
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If no huge page size is supplied the system's default huge page size is used.
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By using hugepages, one can improve the overall performance of the VM, assuming
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the guest will allocate hugepages as well. Another interesting use case is VFIO
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as it speeds up the VM's boot time since the amount of IOMMU mappings are
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reduced.
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The user is responsible for ensuring there are sufficient huge pages of the
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specified size for the VMM to use. Failure to do so may result in strange VMM
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behaviour, e.g. error with `ReadKernelImage` is common. If there is a strange
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error with `hugepages` enabled, just disable it or check whether there are enough
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huge pages.
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If `hugepages=on` then the value of `shared` is ignored as huge pages always
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requires `MAP_SHARED`.
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By default this option is turned off.
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_Example_
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```
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--memory size=0
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--memory-zone id=mem0,size=1G,hugepages=on,hugepage_size=2M
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```
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### `host_numa_node`
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Node identifier of a node present on the host. This option will let the user
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pick a specific NUMA node from which the memory must be allocated. After the
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memory zone is `mmap(2)`, the NUMA policy for this memory mapping will be
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applied through `mbind(2)`, relying on the provided node identifier. If the
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node does not exist on the host, the call to `mbind(2)` will fail.
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This option is useful when trying to back a VM memory with a specific type of
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memory from the host. Assuming a host has two types of memory, with one slower
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than the other, each related to a distinct NUMA node, one could create a VM
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with slower memory accesses by backing the entire guest RAM from the furthest
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NUMA node on the host.
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This option also gives the opportunity to create a VM with non uniform memory
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accesses as one could define a first memory zone backed by fast memory, and a
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second memory zone backed by slow memory.
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Value is an unsigned integer of 32 bits.
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_Example_
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```
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--memory size=0
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--memory-zone id=mem0,size=1G,host_numa_node=0
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```
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### `hotplug_size`
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Amount of memory that can be dynamically added to the memory zone. Since
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`virtio-mem` is the only way of resizing a memory zone, one must specify
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the `hotplug_method=virtio-mem` to the `--memory` parameter.
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Value is an unsigned integer of 64 bits. A value of 0 is invalid.
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_Example_
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```
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--memory size=0,hotplug_method=virtio-mem
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--memory-zone id=mem0,size=1G,hotplug_size=1G
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```
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### `hotplugged_size`
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Amount of memory that will be dynamically added to a memory zone at VM's boot.
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This option allows for starting a VM with a certain amount of memory that can
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be reduced during runtime.
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This is only valid when the `hotplug_method` is `virtio-mem` as it does not
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make sense for the `acpi` use case. When using ACPI, the memory can't be
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resized after it has been extended.
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This option is only valid when `hotplug_size` is specified, and its value can't
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exceed the value of `hotplug_size`.
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Value is an unsigned integer of 64 bits. A value of 0 is invalid.
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_Example_
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```
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--memory size=0,hotplug_method=virtio-mem
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--memory-zone id=mem0,size=1G,hotplug_size=1G,hotplugged_size=512M
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```
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### `prefault`
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Specifies if the memory must be `mmap(2)` with `MAP_POPULATE` flag.
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By triggering prefault, one can allocate all required physical memory and create
|
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its page tables while calling `mmap`. With physical memory allocated, the number
|
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of page faults will decrease during running, and performance will also improve.
|
|
|
|
Note that boot of VM will be slower with `prefault` enabled because of allocating
|
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physical memory and creating page tables in advance, and physical memory of the
|
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specified size will be consumed quickly.
|
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This option only takes effect at boot of VM. There is also a `prefault` option in
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restore and its choice will overwrite `prefault` in memory.
|
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By default this option is turned off.
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_Example_
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```
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--memory size=0
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--memory-zone id=mem0,size=1G,prefault=on
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```
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## NUMA settings
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`NumaConfig` or what is known as `--numa` from the CLI perspective has been
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introduced to define a guest NUMA topology. It allows for a fine description
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about the CPUs and memory ranges associated with each NUMA node. Additionally
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it allows for specifying the distance between each NUMA node.
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```rust
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struct NumaConfig {
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guest_numa_id: u32,
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cpus: Option<Vec<u8>>,
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distances: Option<Vec<NumaDistance>>,
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memory_zones: Option<Vec<String>>,
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sgx_epc_sections: Option<Vec<String>>,
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}
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```
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```
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--numa <numa> Settings related to a given NUMA node "guest_numa_id=<node_id>,cpus=<cpus_id>,distances=<list_of_distances_to_destination_nodes>,memory_zones=<list_of_memory_zones>,sgx_epc_sections=<list_of_sgx_epc_sections>"
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```
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### `guest_numa_id`
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Node identifier of a guest NUMA node. This identifier must be unique, otherwise
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an error will be returned.
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This option is mandatory when using the `--numa` parameter.
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Value is an unsigned integer of 32 bits.
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_Example_
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```
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--numa guest_numa_id=0
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```
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### `cpus`
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List of virtual CPUs attached to the guest NUMA node identified by the
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`guest_numa_id` option. This allows for describing a list of CPUs which
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must be seen by the guest as belonging to the NUMA node `guest_numa_id`.
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One can use this option for a fine grained description of the NUMA topology
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regarding the CPUs associated with it, which might help the guest run more
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efficiently.
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Multiple values can be provided to define the list. Each value is an unsigned
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integer of 8 bits.
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For instance, if one needs to attach all CPUs from 0 to 4 to a specific node,
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the syntax using `-` will help define a contiguous range with `cpus=0-4`. The
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same example could also be described with `cpus=[0,1,2,3,4]`.
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A combination of both `-` and `,` separators is useful when one might need to
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describe a list containing all CPUs from 0 to 99 and the CPU 255, as it could
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simply be described with `cpus=[0-99,255]`.
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As soon as one tries to describe a list of values, `[` and `]` must be used to
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demarcate the list.
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_Example_
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```
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--cpus boot=8
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--numa guest_numa_id=0,cpus=[1-3,7] guest_numa_id=1,cpus=[0,4-6]
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```
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### `distances`
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List of distances between the current NUMA node referred by `guest_numa_id`
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and the destination NUMA nodes listed along with distances. This option let
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the user choose the distances between guest NUMA nodes. This is important to
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provide an accurate description of the way non uniform memory accesses will
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perform in the guest.
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One or more tuple of two values must be provided through this option. The first
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value is an unsigned integer of 32 bits as it represents the destination NUMA
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node. The second value is an unsigned integer of 8 bits as it represents the
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distance between the current NUMA node and the destination NUMA node. The two
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values are separated by `@` (`value1@value2`), meaning the destination NUMA
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node `value1` is located at a distance of `value2`. Each tuple is separated
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from the others with `,` separator.
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As soon as one tries to describe a list of values, `[` and `]` must be used to
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demarcate the list.
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For instance, if one wants to define 3 NUMA nodes, with each node located at
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different distances, it can be described with the following example.
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_Example_
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```
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--numa guest_numa_id=0,distances=[1@15,2@25] guest_numa_id=1,distances=[0@15,2@20] guest_numa_id=2,distances=[0@25,1@20]
|
|
```
|
|
|
|
### `memory_zones`
|
|
|
|
List of memory zones attached to the guest NUMA node identified by the
|
|
`guest_numa_id` option. This allows for describing a list of memory ranges
|
|
which must be seen by the guest as belonging to the NUMA node `guest_numa_id`.
|
|
|
|
This option can be very useful and powerful when combined with `host_numa_node`
|
|
option from `--memory-zone` parameter as it allows for creating a VM with non
|
|
uniform memory accesses, and let the guest know about it. It allows for
|
|
exposing memory zones through different NUMA nodes, which can help the guest
|
|
workload run more efficiently.
|
|
|
|
Multiple values can be provided to define the list. Each value is a string
|
|
referring to an existing memory zone identifier. Values are separated from
|
|
each other with the `,` separator.
|
|
|
|
As soon as one tries to describe a list of values, `[` and `]` must be used to
|
|
demarcate the list.
|
|
|
|
Note that a memory zone must belong to a single NUMA node. The following
|
|
configuration is incorrect, therefore not allowed:
|
|
`--numa guest_numa_id=0,memory_zones=mem0 guest_numa_id=1,memory_zones=mem0`
|
|
|
|
_Example_
|
|
|
|
```
|
|
--memory size=0
|
|
--memory-zone id=mem0,size=1G id=mem1,size=1G id=mem2,size=1G
|
|
--numa guest_numa_id=0,memory_zones=[mem0,mem2] guest_numa_id=1,memory_zones=mem1
|
|
```
|
|
|
|
### `sgx_epc_sections`
|
|
|
|
List of SGX EPC sections attached to the guest NUMA node identified by the
|
|
`guest_numa_id` option. This allows for describing a list of SGX EPC sections
|
|
which must be seen by the guest as belonging to the NUMA node `guest_numa_id`.
|
|
|
|
Multiple values can be provided to define the list. Each value is a string
|
|
referring to an existing SGX EPC section identifier. Values are separated from
|
|
each other with the `,` separator.
|
|
|
|
As soon as one tries to describe a list of values, `[` and `]` must be used to
|
|
demarcate the list.
|
|
|
|
_Example_
|
|
|
|
```
|
|
--sgx-epc id=epc0,size=32M id=epc1,size=64M id=epc2,size=32M
|
|
--numa guest_numa_id=0,sgx_epc_sections=epc1 guest_numa_id=1,sgx_epc_sections=[epc0,epc2]
|
|
```
|
|
|
|
### PCI bus
|
|
|
|
Cloud Hypervisor supports guests with one or more PCI segments. The default PCI segment always
|
|
has affinity to NUMA node 0. Be default, all other PCI segments have afffinity to NUMA node 0.
|
|
The user may configure the NUMA affinity for any additional PCI segments.
|
|
|
|
_Example_
|
|
|
|
```
|
|
--platform num_pci_segments=2
|
|
--memory-zone size=16G,host_numa_node=0,id=mem0
|
|
--memory-zone size=16G,host_numa_node=1,id=mem1
|
|
--numa guest_numa_id=0,memory_zones=mem0,pci_segments=[0]
|
|
--numa guest_numa_id=1,memory_zones=mem1,pci_segments=[1]
|
|
```
|