3a6230af6b
* Kata-Containers: add 2.2.0 hashes and make default * Kata-Containers: replace 2.1.0 with bugfix version 2.1.1 * Kata-Containers: move to q35 a more modern VM architecture as 'pc' is removed in 2.2.0
459 lines
18 KiB
Django/Jinja
459 lines
18 KiB
Django/Jinja
# Copyright (c) 2017-2019 Intel Corporation
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#
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# SPDX-License-Identifier: Apache-2.0
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#
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# XXX: WARNING: this file is auto-generated.
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# XXX:
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# XXX: Source file: "cli/config/configuration-qemu.toml.in"
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# XXX: Project:
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# XXX: Name: Kata Containers
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# XXX: Type: kata
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[hypervisor.qemu]
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path = "/opt/kata/bin/qemu-system-x86_64"
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kernel = "/opt/kata/share/kata-containers/vmlinuz.container"
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image = "/opt/kata/share/kata-containers/kata-containers.img"
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machine_type = "q35"
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# Optional space-separated list of options to pass to the guest kernel.
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# For example, use `kernel_params = "vsyscall=emulate"` if you are having
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# trouble running pre-2.15 glibc.
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#
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# WARNING: - any parameter specified here will take priority over the default
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# parameter value of the same name used to start the virtual machine.
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# Do not set values here unless you understand the impact of doing so as you
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# may stop the virtual machine from booting.
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# To see the list of default parameters, enable hypervisor debug, create a
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# container and look for 'default-kernel-parameters' log entries.
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kernel_params = ""
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# Path to the firmware.
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# If you want that qemu uses the default firmware leave this option empty
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firmware = ""
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# Machine accelerators
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# comma-separated list of machine accelerators to pass to the hypervisor.
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# For example, `machine_accelerators = "nosmm,nosmbus,nosata,nopit,static-prt,nofw"`
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machine_accelerators=""
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# Default number of vCPUs per SB/VM:
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# unspecified or 0 --> will be set to 1
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# < 0 --> will be set to the actual number of physical cores
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# > 0 <= number of physical cores --> will be set to the specified number
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# > number of physical cores --> will be set to the actual number of physical cores
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default_vcpus = 1
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# Default maximum number of vCPUs per SB/VM:
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# unspecified or == 0 --> will be set to the actual number of physical cores or to the maximum number
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# of vCPUs supported by KVM if that number is exceeded
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# > 0 <= number of physical cores --> will be set to the specified number
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# > number of physical cores --> will be set to the actual number of physical cores or to the maximum number
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# of vCPUs supported by KVM if that number is exceeded
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# WARNING: Depending of the architecture, the maximum number of vCPUs supported by KVM is used when
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# the actual number of physical cores is greater than it.
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# WARNING: Be aware that this value impacts the virtual machine's memory footprint and CPU
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# the hotplug functionality. For example, `default_maxvcpus = 240` specifies that until 240 vCPUs
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# can be added to a SB/VM, but the memory footprint will be big. Another example, with
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# `default_maxvcpus = 8` the memory footprint will be small, but 8 will be the maximum number of
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# vCPUs supported by the SB/VM. In general, we recommend that you do not edit this variable,
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# unless you know what are you doing.
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default_maxvcpus = 0
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# Bridges can be used to hot plug devices.
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# Limitations:
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# * Currently only pci bridges are supported
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# * Until 30 devices per bridge can be hot plugged.
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# * Until 5 PCI bridges can be cold plugged per VM.
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# This limitation could be a bug in qemu or in the kernel
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# Default number of bridges per SB/VM:
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# unspecified or 0 --> will be set to 1
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# > 1 <= 5 --> will be set to the specified number
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# > 5 --> will be set to 5
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default_bridges = 1
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# Default memory size in MiB for SB/VM.
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# If unspecified then it will be set 2048 MiB.
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default_memory = {{ kata_containers_qemu_default_memory }}
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#
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# Default memory slots per SB/VM.
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# If unspecified then it will be set 10.
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# This is will determine the times that memory will be hotadded to sandbox/VM.
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#memory_slots = 10
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# The size in MiB will be plused to max memory of hypervisor.
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# It is the memory address space for the NVDIMM devie.
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# If set block storage driver (block_device_driver) to "nvdimm",
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# should set memory_offset to the size of block device.
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# Default 0
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#memory_offset = 0
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# Specifies virtio-mem will be enabled or not.
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# Please note that this option should be used with the command
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# "echo 1 > /proc/sys/vm/overcommit_memory".
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# Default false
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#enable_virtio_mem = true
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# Disable block device from being used for a container's rootfs.
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# In case of a storage driver like devicemapper where a container's
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# root file system is backed by a block device, the block device is passed
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# directly to the hypervisor for performance reasons.
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# This flag prevents the block device from being passed to the hypervisor,
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# 9pfs is used instead to pass the rootfs.
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disable_block_device_use = false
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# Shared file system type:
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# - virtio-9p (default)
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# - virtio-fs
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shared_fs = "virtio-9p"
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# Path to vhost-user-fs daemon.
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virtio_fs_daemon = "/opt/kata/bin/virtiofsd"
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# Default size of DAX cache in MiB
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virtio_fs_cache_size = 1024
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# Extra args for virtiofsd daemon
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#
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# Format example:
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# ["-o", "arg1=xxx,arg2", "-o", "hello world", "--arg3=yyy"]
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#
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# see `virtiofsd -h` for possible options.
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virtio_fs_extra_args = []
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# Cache mode:
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#
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# - none
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# Metadata, data, and pathname lookup are not cached in guest. They are
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# always fetched from host and any changes are immediately pushed to host.
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#
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# - auto
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# Metadata and pathname lookup cache expires after a configured amount of
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# time (default is 1 second). Data is cached while the file is open (close
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# to open consistency).
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#
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# - always
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# Metadata, data, and pathname lookup are cached in guest and never expire.
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virtio_fs_cache = "always"
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# Block storage driver to be used for the hypervisor in case the container
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# rootfs is backed by a block device. This is virtio-scsi, virtio-blk
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# or nvdimm.
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block_device_driver = "virtio-scsi"
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# Specifies cache-related options will be set to block devices or not.
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# Default false
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#block_device_cache_set = true
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# Specifies cache-related options for block devices.
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# Denotes whether use of O_DIRECT (bypass the host page cache) is enabled.
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# Default false
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#block_device_cache_direct = true
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# Specifies cache-related options for block devices.
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# Denotes whether flush requests for the device are ignored.
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# Default false
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#block_device_cache_noflush = true
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# Enable iothreads (data-plane) to be used. This causes IO to be
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# handled in a separate IO thread. This is currently only implemented
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# for SCSI.
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#
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enable_iothreads = false
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# Enable pre allocation of VM RAM, default false
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# Enabling this will result in lower container density
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# as all of the memory will be allocated and locked
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# This is useful when you want to reserve all the memory
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# upfront or in the cases where you want memory latencies
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# to be very predictable
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# Default false
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enable_mem_prealloc = {{ kata_containers_qemu_enable_mem_prealloc }}
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# Enable huge pages for VM RAM, default false
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# Enabling this will result in the VM memory
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# being allocated using huge pages.
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# This is useful when you want to use vhost-user network
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# stacks within the container. This will automatically
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# result in memory pre allocation
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#enable_hugepages = true
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# Enable vhost-user storage device, default false
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# Enabling this will result in some Linux reserved block type
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# major range 240-254 being chosen to represent vhost-user devices.
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enable_vhost_user_store = false
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# The base directory specifically used for vhost-user devices.
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# Its sub-path "block" is used for block devices; "block/sockets" is
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# where we expect vhost-user sockets to live; "block/devices" is where
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# simulated block device nodes for vhost-user devices to live.
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vhost_user_store_path = "/var/run/kata-containers/vhost-user"
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# Enable file based guest memory support. The default is an empty string which
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# will disable this feature. In the case of virtio-fs, this is enabled
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# automatically and '/dev/shm' is used as the backing folder.
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# This option will be ignored if VM templating is enabled.
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#file_mem_backend = ""
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# Enable swap of vm memory. Default false.
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# The behaviour is undefined if mem_prealloc is also set to true
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#enable_swap = true
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# This option changes the default hypervisor and kernel parameters
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# to enable debug output where available. This extra output is added
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# to the proxy logs, but only when proxy debug is also enabled.
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#
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# Default false
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enable_debug = {{ kata_containers_qemu_debug }}
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# Disable the customizations done in the runtime when it detects
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# that it is running on top a VMM. This will result in the runtime
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# behaving as it would when running on bare metal.
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#
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#disable_nesting_checks = true
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# This is the msize used for 9p shares. It is the number of bytes
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# used for 9p packet payload.
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#msize_9p = 8192
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# If true and vsocks are supported, use vsocks to communicate directly
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# with the agent and no proxy is started, otherwise use unix
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# sockets and start a proxy to communicate with the agent.
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# Default false
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#use_vsock = true
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# If false and nvdimm is supported, use nvdimm device to plug guest image.
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# Otherwise virtio-block device is used.
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# Default is false
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#disable_image_nvdimm = true
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# VFIO devices are hotplugged on a bridge by default.
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# Enable hotplugging on root bus. This may be required for devices with
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# a large PCI bar, as this is a current limitation with hotplugging on
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# a bridge. This value is valid for "pc" machine type.
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# Default false
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#hotplug_vfio_on_root_bus = true
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# Before hot plugging a PCIe device, you need to add a pcie_root_port device.
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# Use this parameter when using some large PCI bar devices, such as Nvidia GPU
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# The value means the number of pcie_root_port
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# This value is valid when hotplug_vfio_on_root_bus is true and machine_type is "q35"
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# Default 0
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#pcie_root_port = 2
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# If vhost-net backend for virtio-net is not desired, set to true. Default is false, which trades off
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# security (vhost-net runs ring0) for network I/O performance.
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#disable_vhost_net = true
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#
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# Default entropy source.
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# The path to a host source of entropy (including a real hardware RNG)
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# /dev/urandom and /dev/random are two main options.
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# Be aware that /dev/random is a blocking source of entropy. If the host
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# runs out of entropy, the VMs boot time will increase leading to get startup
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# timeouts.
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# The source of entropy /dev/urandom is non-blocking and provides a
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# generally acceptable source of entropy. It should work well for pretty much
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# all practical purposes.
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#entropy_source= "/dev/urandom"
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# Path to OCI hook binaries in the *guest rootfs*.
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# This does not affect host-side hooks which must instead be added to
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# the OCI spec passed to the runtime.
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#
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# You can create a rootfs with hooks by customizing the osbuilder scripts:
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# https://github.com/kata-containers/osbuilder
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#
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# Hooks must be stored in a subdirectory of guest_hook_path according to their
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# hook type, i.e. "guest_hook_path/{prestart,postart,poststop}".
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# The agent will scan these directories for executable files and add them, in
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# lexicographical order, to the lifecycle of the guest container.
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# Hooks are executed in the runtime namespace of the guest. See the official documentation:
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# https://github.com/opencontainers/runtime-spec/blob/v1.0.1/config.md#posix-platform-hooks
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# Warnings will be logged if any error is encountered will scanning for hooks,
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# but it will not abort container execution.
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#guest_hook_path = "/usr/share/oci/hooks"
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[factory]
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# VM templating support. Once enabled, new VMs are created from template
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# using vm cloning. They will share the same initial kernel, initramfs and
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# agent memory by mapping it readonly. It helps speeding up new container
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# creation and saves a lot of memory if there are many kata containers running
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# on the same host.
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#
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# When disabled, new VMs are created from scratch.
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#
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# Note: Requires "initrd=" to be set ("image=" is not supported).
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#
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# Default false
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#enable_template = true
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# Specifies the path of template.
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#
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# Default "/run/vc/vm/template"
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#template_path = "/run/vc/vm/template"
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# The number of caches of VMCache:
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# unspecified or == 0 --> VMCache is disabled
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# > 0 --> will be set to the specified number
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#
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# VMCache is a function that creates VMs as caches before using it.
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# It helps speed up new container creation.
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# The function consists of a server and some clients communicating
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# through Unix socket. The protocol is gRPC in protocols/cache/cache.proto.
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# The VMCache server will create some VMs and cache them by factory cache.
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# It will convert the VM to gRPC format and transport it when gets
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# requestion from clients.
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# Factory grpccache is the VMCache client. It will request gRPC format
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# VM and convert it back to a VM. If VMCache function is enabled,
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# kata-runtime will request VM from factory grpccache when it creates
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# a new sandbox.
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#
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# Default 0
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#vm_cache_number = 0
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# Specify the address of the Unix socket that is used by VMCache.
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#
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# Default /var/run/kata-containers/cache.sock
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#vm_cache_endpoint = "/var/run/kata-containers/cache.sock"
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[proxy.kata]
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path = "/opt/kata/libexec/kata-containers/kata-proxy"
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# If enabled, proxy messages will be sent to the system log
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# (default: disabled)
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enable_debug = {{ kata_containers_qemu_debug }}
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[shim.kata]
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path = "/opt/kata/libexec/kata-containers/kata-shim"
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# If enabled, shim messages will be sent to the system log
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# (default: disabled)
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enable_debug = {{ kata_containers_qemu_debug }}
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# If enabled, the shim will create opentracing.io traces and spans.
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# (See https://www.jaegertracing.io/docs/getting-started).
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#
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# Note: By default, the shim runs in a separate network namespace. Therefore,
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# to allow it to send trace details to the Jaeger agent running on the host,
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# it is necessary to set 'disable_new_netns=true' so that it runs in the host
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# network namespace.
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#
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# (default: disabled)
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#enable_tracing = true
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[agent.kata]
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# If enabled, make the agent display debug-level messages.
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# (default: disabled)
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enable_debug = {{ kata_containers_qemu_debug }}
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# Enable agent tracing.
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#
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# If enabled, the default trace mode is "dynamic" and the
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# default trace type is "isolated". The trace mode and type are set
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# explicity with the `trace_type=` and `trace_mode=` options.
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#
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# Notes:
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#
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# - Tracing is ONLY enabled when `enable_tracing` is set: explicitly
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# setting `trace_mode=` and/or `trace_type=` without setting `enable_tracing`
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# will NOT activate agent tracing.
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#
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# - See https://github.com/kata-containers/agent/blob/master/TRACING.md for
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# full details.
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#
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# (default: disabled)
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#enable_tracing = true
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#
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#trace_mode = "dynamic"
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#trace_type = "isolated"
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# Comma separated list of kernel modules and their parameters.
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# These modules will be loaded in the guest kernel using modprobe(8).
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# The following example can be used to load two kernel modules with parameters
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# - kernel_modules=["e1000e InterruptThrottleRate=3000,3000,3000 EEE=1", "i915 enable_ppgtt=0"]
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# The first word is considered as the module name and the rest as its parameters.
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# Container will not be started when:
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# * A kernel module is specified and the modprobe command is not installed in the guest
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# or it fails loading the module.
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# * The module is not available in the guest or it doesn't met the guest kernel
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# requirements, like architecture and version.
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#
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kernel_modules=[]
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[netmon]
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# If enabled, the network monitoring process gets started when the
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# sandbox is created. This allows for the detection of some additional
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# network being added to the existing network namespace, after the
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# sandbox has been created.
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# (default: disabled)
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#enable_netmon = true
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# Specify the path to the netmon binary.
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path = "/opt/kata/libexec/kata-containers/kata-netmon"
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# If enabled, netmon messages will be sent to the system log
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# (default: disabled)
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enable_debug = {{ kata_containers_qemu_debug }}
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[runtime]
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# If enabled, the runtime will log additional debug messages to the
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# system log
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# (default: disabled)
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enable_debug = {{ kata_containers_qemu_debug }}
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#
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# Internetworking model
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# Determines how the VM should be connected to the
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# the container network interface
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# Options:
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#
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# - macvtap
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# Used when the Container network interface can be bridged using
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# macvtap.
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#
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# - none
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# Used when customize network. Only creates a tap device. No veth pair.
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#
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# - tcfilter
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# Uses tc filter rules to redirect traffic from the network interface
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# provided by plugin to a tap interface connected to the VM.
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#
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internetworking_model="tcfilter"
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# disable guest seccomp
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# Determines whether container seccomp profiles are passed to the virtual
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# machine and applied by the kata agent. If set to true, seccomp is not applied
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# within the guest
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# (default: true)
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disable_guest_seccomp=true
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# If enabled, the runtime will create opentracing.io traces and spans.
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# (See https://www.jaegertracing.io/docs/getting-started).
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# (default: disabled)
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#enable_tracing = true
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# If enabled, the runtime will not create a network namespace for shim and hypervisor processes.
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# This option may have some potential impacts to your host. It should only be used when you know what you're doing.
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# `disable_new_netns` conflicts with `enable_netmon`
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# `disable_new_netns` conflicts with `internetworking_model=tcfilter` and `internetworking_model=macvtap`. It works only
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# with `internetworking_model=none`. The tap device will be in the host network namespace and can connect to a bridge
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# (like OVS) directly.
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# If you are using docker, `disable_new_netns` only works with `docker run --net=none`
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# (default: false)
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#disable_new_netns = true
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# if enabled, the runtime will add all the kata processes inside one dedicated cgroup.
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# The container cgroups in the host are not created, just one single cgroup per sandbox.
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# The runtime caller is free to restrict or collect cgroup stats of the overall Kata sandbox.
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# The sandbox cgroup path is the parent cgroup of a container with the PodSandbox annotation.
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# The sandbox cgroup is constrained if there is no container type annotation.
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# See: https://godoc.org/github.com/kata-containers/runtime/virtcontainers#ContainerType
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sandbox_cgroup_only={{ kata_containers_qemu_sandbox_cgroup_only }}
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# Enabled experimental feature list, format: ["a", "b"].
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# Experimental features are features not stable enough for production,
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# they may break compatibility, and are prepared for a big version bump.
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# Supported experimental features:
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# (default: [])
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experimental=[]
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