[ALL] Start working on podman, crun, conman architecture

This commit is contained in:
j1nx 2023-08-21 12:34:52 +00:00
parent be589cb5a6
commit ab4e40920c
12 changed files with 13 additions and 2051 deletions

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@ -7,7 +7,8 @@ image esp.vfat {
image = "efi-part/EFI"
}
}
size = 16352K # 16MB - 32KB
#size = 16352K # 16MB - 32KB
size = 16MB
}
image overlayfs.ext4 {
@ -29,7 +30,7 @@ image disk.img {
partition-type-uuid = c12a7328-f81f-11d2-ba4b-00a0c93ec93b
bootable = "true"
image = "esp.vfat"
offset = 32K
#offset = 32K
}
partition rootfs-1 {

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@ -12,7 +12,7 @@ set menu_color_highlight=white/red
load_env
default_cmdline="rootfstype=squashfs init=/sbin/pre-init systemd.machine_id=$MACHINE_ID fsck.repair=yes zram.enabled=1 zram.num_devices=3 console=tty1 cgroup_enable=cpuset cgroup_memory=1 audit=0 $boot_condition rootwait"
default_cmdline="rootfstype=squashfs init=/sbin/pre-init systemd.machine_id=$MACHINE_ID fsck.repair=yes zram.enabled=1 zram.num_devices=3 console=tty1 systemd.unified_cgroup_hierarchy=1 cgroup_enable=cpuset cgroup_memory=1 audit=0 $boot_condition rootwait"
file_env -f ($root)/cmdline.txt cmdline
regexp --set 1:boothd (.+),.+ ${root}

View File

@ -12,7 +12,7 @@ set menu_color_highlight=white/red
load_env
default_cmdline="rootfstype=squashfs init=/sbin/pre-init systemd.machine_id=$MACHINE_ID fsck.repair=yes zram.enabled=1 zram.num_devices=3 console=tty1 cgroup_enable=cpuset cgroup_memory=1 audit=0 $boot_condition rootwait"
default_cmdline="rootfstype=squashfs init=/sbin/pre-init systemd.machine_id=$MACHINE_ID fsck.repair=yes zram.enabled=1 zram.num_devices=3 console=tty1 systemd.unified_cgroup_hierarchy=1 cgroup_enable=cpuset cgroup_memory=1 audit=0 $boot_condition rootwait"
file_env -f ($root)/cmdline.txt cmdline
regexp --set 1:boothd (.+),.+ ${root}

View File

@ -138,6 +138,8 @@ BR2_PACKAGE_READ_EDID=y
BR2_PACKAGE_RNG_TOOLS=y
BR2_PACKAGE_USB_MODESWITCH_DATA=y
BR2_PACKAGE_LUA=y
BR2_PACKAGE_PYTHON3=y
BR2_PACKAGE_PYTHON_PODMAN_COMPOSE=y
BR2_PACKAGE_ALSA_PLUGINS=y
BR2_PACKAGE_LIBSNDFILE=y
BR2_PACKAGE_PORTAUDIO=y
@ -159,7 +161,6 @@ BR2_PACKAGE_LOCKDEV=y
BR2_PACKAGE_PHYSFS=y
BR2_PACKAGE_WIREPLUMBER=y
BR2_PACKAGE_LIBGUDEV=y
BR2_PACKAGE_LIBYAML=y
BR2_PACKAGE_LIBCURL=y
BR2_PACKAGE_LIBCURL_CURL=y
BR2_PACKAGE_LIBNDP=y

View File

@ -121,6 +121,8 @@ BR2_PACKAGE_RNG_TOOLS=y
BR2_PACKAGE_SPI_TOOLS=y
BR2_PACKAGE_USB_MODESWITCH_DATA=y
BR2_PACKAGE_LUA=y
BR2_PACKAGE_PYTHON3=y
BR2_PACKAGE_PYTHON_PODMAN_COMPOSE=y
BR2_PACKAGE_ALSA_PLUGINS=y
BR2_PACKAGE_LIBSNDFILE=y
BR2_PACKAGE_PORTAUDIO=y
@ -142,7 +144,6 @@ BR2_PACKAGE_LOCKDEV=y
BR2_PACKAGE_PHYSFS=y
BR2_PACKAGE_WIREPLUMBER=y
BR2_PACKAGE_LIBGUDEV=y
BR2_PACKAGE_LIBYAML=y
BR2_PACKAGE_LIBCURL=y
BR2_PACKAGE_LIBCURL_CURL=y
BR2_PACKAGE_LIBNDP=y

View File

@ -1,777 +0,0 @@
# The containers configuration file specifies all of the available configuration
# command-line options/flags for container engine tools like Podman & Buildah,
# but in a TOML format that can be easily modified and versioned.
# Please refer to containers.conf(5) for details of all configuration options.
# Not all container engines implement all of the options.
# All of the options have hard coded defaults and these options will override
# the built in defaults. Users can then override these options via the command
# line. Container engines will read containers.conf files in up to three
# locations in the following order:
# 1. /usr/share/containers/containers.conf
# 2. /etc/containers/containers.conf
# 3. $HOME/.config/containers/containers.conf (Rootless containers ONLY)
# Items specified in the latter containers.conf, if they exist, override the
# previous containers.conf settings, or the default settings.
[containers]
# List of annotation. Specified as
# "key = value"
# If it is empty or commented out, no annotations will be added
#
#annotations = []
# Used to change the name of the default AppArmor profile of container engine.
#
#apparmor_profile = "container-default"
# The hosts entries from the base hosts file are added to the containers hosts
# file. This must be either an absolute path or as special values "image" which
# uses the hosts file from the container image or "none" which means
# no base hosts file is used. The default is "" which will use /etc/hosts.
#
#base_hosts_file = ""
# List of cgroup_conf entries specifying a list of cgroup files to write to and
# their values. For example `memory.high=1073741824` sets the
# memory.high limit to 1GB.
# cgroup_conf = []
# Default way to to create a cgroup namespace for the container
# Options are:
# `private` Create private Cgroup Namespace for the container.
# `host` Share host Cgroup Namespace with the container.
#
#cgroupns = "private"
# Control container cgroup configuration
# Determines whether the container will create CGroups.
# Options are:
# `enabled` Enable cgroup support within container
# `disabled` Disable cgroup support, will inherit cgroups from parent
# `no-conmon` Do not create a cgroup dedicated to conmon.
#
#cgroups = "enabled"
# List of default capabilities for containers. If it is empty or commented out,
# the default capabilities defined in the container engine will be added.
#
#default_capabilities = [
# "CHOWN",
# "DAC_OVERRIDE",
# "FOWNER",
# "FSETID",
# "KILL",
# "NET_BIND_SERVICE",
# "SETFCAP",
# "SETGID",
# "SETPCAP",
# "SETUID",
# "SYS_CHROOT",
#]
# A list of sysctls to be set in containers by default,
# specified as "name=value",
# for example:"net.ipv4.ping_group_range=0 0".
#
default_sysctls = [
"net.ipv4.ping_group_range=0 0",
]
# A list of ulimits to be set in containers by default, specified as
# "<ulimit name>=<soft limit>:<hard limit>", for example:
# "nofile=1024:2048"
# See setrlimit(2) for a list of resource names.
# Any limit not specified here will be inherited from the process launching the
# container engine.
# Ulimits has limits for non privileged container engines.
#
#default_ulimits = [
# "nofile=1280:2560",
#]
# List of devices. Specified as
# "<device-on-host>:<device-on-container>:<permissions>", for example:
# "/dev/sdc:/dev/xvdc:rwm".
# If it is empty or commented out, only the default devices will be used
#
#devices = []
# List of default DNS options to be added to /etc/resolv.conf inside of the container.
#
#dns_options = []
# List of default DNS search domains to be added to /etc/resolv.conf inside of the container.
#
#dns_searches = []
# Set default DNS servers.
# This option can be used to override the DNS configuration passed to the
# container. The special value "none" can be specified to disable creation of
# /etc/resolv.conf in the container.
# The /etc/resolv.conf file in the image will be used without changes.
#
#dns_servers = []
# Environment variable list for the conmon process; used for passing necessary
# environment variables to conmon or the runtime.
#
#env = [
# "PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin",
# "TERM=xterm",
#]
# Pass all host environment variables into the container.
#
#env_host = false
# Set the ip for the host.containers.internal entry in the containers /etc/hosts
# file. This can be set to "none" to disable adding this entry. By default it
# will automatically choose the host ip.
#
# NOTE: When using podman machine this entry will never be added to the containers
# hosts file instead the gvproxy dns resolver will resolve this hostname. Therefore
# it is not possible to disable the entry in this case.
#
#host_containers_internal_ip = ""
# Default proxy environment variables passed into the container.
# The environment variables passed in include:
# http_proxy, https_proxy, ftp_proxy, no_proxy, and the upper case versions of
# these. This option is needed when host system uses a proxy but container
# should not use proxy. Proxy environment variables specified for the container
# in any other way will override the values passed from the host.
#
#http_proxy = true
# Run an init inside the container that forwards signals and reaps processes.
#
#init = false
# Container init binary, if init=true, this is the init binary to be used for containers.
#
#init_path = "/usr/libexec/podman/catatonit"
# Default way to to create an IPC namespace (POSIX SysV IPC) for the container
# Options are:
# "host" Share host IPC Namespace with the container.
# "none" Create shareable IPC Namespace for the container without a private /dev/shm.
# "private" Create private IPC Namespace for the container, other containers are not allowed to share it.
# "shareable" Create shareable IPC Namespace for the container.
#
#ipcns = "shareable"
# keyring tells the container engine whether to create
# a kernel keyring for use within the container.
#
#keyring = true
# label tells the container engine whether to use container separation using
# MAC(SELinux) labeling or not.
# The label flag is ignored on label disabled systems.
#
#label = true
# label_users indicates whether to enforce confined users in containers on
# SELinux systems. This option causes containers to maintain the current user
# and role field of the calling process. By default SELinux containers run with
# the user system_u, and the role system_r.
#label_users = false
# Logging driver for the container. Available options: k8s-file and journald.
#
#log_driver = "k8s-file"
# Maximum size allowed for the container log file. Negative numbers indicate
# that no size limit is imposed. If positive, it must be >= 8192 to match or
# exceed conmon's read buffer. The file is truncated and re-opened so the
# limit is never exceeded.
#
#log_size_max = -1
# Specifies default format tag for container log messages.
# This is useful for creating a specific tag for container log messages.
# Containers logs default to truncated container ID as a tag.
#
#log_tag = ""
# Default way to to create a Network namespace for the container
# Options are:
# `private` Create private Network Namespace for the container.
# `host` Share host Network Namespace with the container.
# `none` Containers do not use the network
#
#netns = "private"
# Create /etc/hosts for the container. By default, container engine manage
# /etc/hosts, automatically adding the container's own IP address.
#
#no_hosts = false
# Tune the host's OOM preferences for containers
# (accepts values from -1000 to 1000).
#oom_score_adj = 0
# Default way to to create a PID namespace for the container
# Options are:
# `private` Create private PID Namespace for the container.
# `host` Share host PID Namespace with the container.
#
#pidns = "private"
# Maximum number of processes allowed in a container.
#
#pids_limit = 2048
# Copy the content from the underlying image into the newly created volume
# when the container is created instead of when it is started. If false,
# the container engine will not copy the content until the container is started.
# Setting it to true may have negative performance implications.
#
#prepare_volume_on_create = false
# Run all containers with root file system mounted read-only
#
# read_only = false
# Path to the seccomp.json profile which is used as the default seccomp profile
# for the runtime.
#
#seccomp_profile = "/usr/share/containers/seccomp.json"
# Size of /dev/shm. Specified as <number><unit>.
# Unit is optional, values:
# b (bytes), k (kilobytes), m (megabytes), or g (gigabytes).
# If the unit is omitted, the system uses bytes.
#
#shm_size = "65536k"
# Set timezone in container. Takes IANA timezones as well as "local",
# which sets the timezone in the container to match the host machine.
#
#tz = ""
# Set umask inside the container
#
#umask = "0022"
# Default way to to create a User namespace for the container
# Options are:
# `auto` Create unique User Namespace for the container.
# `host` Share host User Namespace with the container.
#
#userns = "host"
# Default way to to create a UTS namespace for the container
# Options are:
# `private` Create private UTS Namespace for the container.
# `host` Share host UTS Namespace with the container.
#
#utsns = "private"
# List of volumes. Specified as
# "<directory-on-host>:<directory-in-container>:<options>", for example:
# "/db:/var/lib/db:ro".
# If it is empty or commented out, no volumes will be added
#
#volumes = []
#
#[engine.platform_to_oci_runtime]
#"wasi/wasm" = ["crun-wasm"]
#"wasi/wasm32" = ["crun-wasm"]
#"wasi/wasm64" = ["crun-wasm"]
[secrets]
#driver = "file"
[secrets.opts]
#root = "/example/directory"
[network]
# Network backend determines what network driver will be used to set up and tear down container networks.
# Valid values are "cni" and "netavark".
# The default value is empty which means that it will automatically choose CNI or netavark. If there are
# already containers/images or CNI networks preset it will choose CNI.
#
# Before changing this value all containers must be stopped otherwise it is likely that
# iptables rules and network interfaces might leak on the host. A reboot will fix this.
#
#network_backend = ""
# Path to directory where CNI plugin binaries are located.
#
#cni_plugin_dirs = [
# "/usr/local/libexec/cni",
# "/usr/libexec/cni",
# "/usr/local/lib/cni",
# "/usr/lib/cni",
# "/opt/cni/bin",
#]
# List of directories that will be searched for netavark plugins.
#
#netavark_plugin_dirs = [
# "/usr/local/libexec/netavark",
# "/usr/libexec/netavark",
# "/usr/local/lib/netavark",
# "/usr/lib/netavark",
#]
# The network name of the default network to attach pods to.
#
#default_network = "podman"
# The default subnet for the default network given in default_network.
# If a network with that name does not exist, a new network using that name and
# this subnet will be created.
# Must be a valid IPv4 CIDR prefix.
#
#default_subnet = "10.88.0.0/16"
# DefaultSubnetPools is a list of subnets and size which are used to
# allocate subnets automatically for podman network create.
# It will iterate through the list and will pick the first free subnet
# with the given size. This is only used for ipv4 subnets, ipv6 subnets
# are always assigned randomly.
#
#default_subnet_pools = [
# {"base" = "10.89.0.0/16", "size" = 24},
# {"base" = "10.90.0.0/15", "size" = 24},
# {"base" = "10.92.0.0/14", "size" = 24},
# {"base" = "10.96.0.0/11", "size" = 24},
# {"base" = "10.128.0.0/9", "size" = 24},
#]
# Configure which rootless network program to use by default. Valid options are
# `slirp4netns` (default) and `pasta`.
#
#default_rootless_network_cmd = "slirp4netns"
# Path to the directory where network configuration files are located.
# For the CNI backend the default is "/etc/cni/net.d" as root
# and "$HOME/.config/cni/net.d" as rootless.
# For the netavark backend "/etc/containers/networks" is used as root
# and "$graphroot/networks" as rootless.
#
#network_config_dir = "/etc/cni/net.d/"
# Port to use for dns forwarding daemon with netavark in rootful bridge
# mode and dns enabled.
# Using an alternate port might be useful if other dns services should
# run on the machine.
#
#dns_bind_port = 53
# A list of default pasta options that should be used running pasta.
# It accepts the pasta cli options, see pasta(1) for the full list of options.
#
#pasta_options = []
[engine]
# Index to the active service
#
#active_service = "production"
# The compression format to use when pushing an image.
# Valid options are: `gzip`, `zstd` and `zstd:chunked`.
#
#compression_format = "gzip"
# The compression level to use when pushing an image.
# Valid options depend on the compression format used.
# For gzip, valid options are 1-9, with a default of 5.
# For zstd, valid options are 1-20, with a default of 3.
#
#compression_level = 5
# Cgroup management implementation used for the runtime.
# Valid options "systemd" or "cgroupfs"
#
#cgroup_manager = "systemd"
# Environment variables to pass into conmon
#
#conmon_env_vars = [
# "PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin"
#]
# Paths to look for the conmon container manager binary
#
#conmon_path = [
# "/usr/libexec/podman/conmon",
# "/usr/local/libexec/podman/conmon",
# "/usr/local/lib/podman/conmon",
# "/usr/bin/conmon",
# "/usr/sbin/conmon",
# "/usr/local/bin/conmon",
# "/usr/local/sbin/conmon"
#]
# Enforces using docker.io for completing short names in Podman's compatibility
# REST API. Note that this will ignore unqualified-search-registries and
# short-name aliases defined in containers-registries.conf(5).
#compat_api_enforce_docker_hub = true
# The database backend of Podman. Supported values are "boltdb" (default) and
# "sqlite". Please run `podman-system-reset` prior to changing the database
# backend of an existing deployment, to make sure Podman can operate correctly.
#database_backend="boltdb"
# Specify the keys sequence used to detach a container.
# Format is a single character [a-Z] or a comma separated sequence of
# `ctrl-<value>`, where `<value>` is one of:
# `a-z`, `@`, `^`, `[`, `\`, `]`, `^` or `_`
# Specifying "" disables this feature.
#detach_keys = "ctrl-p,ctrl-q"
# Determines whether engine will reserve ports on the host when they are
# forwarded to containers. When enabled, when ports are forwarded to containers,
# ports are held open by as long as the container is running, ensuring that
# they cannot be reused by other programs on the host. However, this can cause
# significant memory usage if a container has many ports forwarded to it.
# Disabling this can save memory.
#
#enable_port_reservation = true
# Environment variables to be used when running the container engine (e.g., Podman, Buildah).
# For example "http_proxy=internal.proxy.company.com".
# Note these environment variables will not be used within the container.
# Set the env section under [containers] table, if you want to set environment variables for the container.
#
#env = []
# Define where event logs will be stored, when events_logger is "file".
#events_logfile_path=""
# Sets the maximum size for events_logfile_path.
# The size can be b (bytes), k (kilobytes), m (megabytes), or g (gigabytes).
# The format for the size is `<number><unit>`, e.g., `1b` or `3g`.
# If no unit is included then the size will be read in bytes.
# When the limit is exceeded, the logfile will be rotated and the old one will be deleted.
# If the maximum size is set to 0, then no limit will be applied,
# and the logfile will not be rotated.
#events_logfile_max_size = "1m"
# Selects which logging mechanism to use for container engine events.
# Valid values are `journald`, `file` and `none`.
#
#events_logger = "journald"
# Creates a more verbose container-create event which includes a JSON payload
# with detailed information about the container.
#events_container_create_inspect_data = false
# A is a list of directories which are used to search for helper binaries.
#
#helper_binaries_dir = [
# "/usr/local/libexec/podman",
# "/usr/local/lib/podman",
# "/usr/libexec/podman",
# "/usr/lib/podman",
#]
# Path to OCI hooks directories for automatically executed hooks.
#
#hooks_dir = [
# "/usr/share/containers/oci/hooks.d",
#]
# Manifest Type (oci, v2s2, or v2s1) to use when pulling, pushing, building
# container images. By default image pulled and pushed match the format of the
# source image. Building/committing defaults to OCI.
#
#image_default_format = ""
# Default transport method for pulling and pushing for images
#
#image_default_transport = "docker://"
# Maximum number of image layers to be copied (pulled/pushed) simultaneously.
# Not setting this field, or setting it to zero, will fall back to containers/image defaults.
#
#image_parallel_copies = 0
# Tells container engines how to handle the built-in image volumes.
# * bind: An anonymous named volume will be created and mounted
# into the container.
# * tmpfs: The volume is mounted onto the container as a tmpfs,
# which allows users to create content that disappears when
# the container is stopped.
# * ignore: All volumes are just ignored and no action is taken.
#
#image_volume_mode = ""
# Default command to run the infra container
#
#infra_command = "/pause"
# Infra (pause) container image name for pod infra containers. When running a
# pod, we start a `pause` process in a container to hold open the namespaces
# associated with the pod. This container does nothing other than sleep,
# reserving the pod's resources for the lifetime of the pod. By default container
# engines run a built-in container using the pause executable. If you want override
# specify an image to pull.
#
#infra_image = ""
# Default Kubernetes kind/specification of the kubernetes yaml generated with the `podman kube generate` command.
# The possible options are `pod` and `deployment`.
#kube_generate_type = "pod"
# Specify the locking mechanism to use; valid values are "shm" and "file".
# Change the default only if you are sure of what you are doing, in general
# "file" is useful only on platforms where cgo is not available for using the
# faster "shm" lock type. You may need to run "podman system renumber" after
# you change the lock type.
#
#lock_type = "shm"
# MultiImageArchive - if true, the container engine allows for storing archives
# (e.g., of the docker-archive transport) with multiple images. By default,
# Podman creates single-image archives.
#
#multi_image_archive = false
# Default engine namespace
# If engine is joined to a namespace, it will see only containers and pods
# that were created in the same namespace, and will create new containers and
# pods in that namespace.
# The default namespace is "", which corresponds to no namespace. When no
# namespace is set, all containers and pods are visible.
#
#namespace = ""
# Path to the slirp4netns binary
#
#network_cmd_path = ""
# Default options to pass to the slirp4netns binary.
# Valid options values are:
#
# - allow_host_loopback=true|false: Allow the slirp4netns to reach the host loopback IP (`10.0.2.2`).
# Default is false.
# - mtu=MTU: Specify the MTU to use for this network. (Default is `65520`).
# - cidr=CIDR: Specify ip range to use for this network. (Default is `10.0.2.0/24`).
# - enable_ipv6=true|false: Enable IPv6. Default is true. (Required for `outbound_addr6`).
# - outbound_addr=INTERFACE: Specify the outbound interface slirp should bind to (ipv4 traffic only).
# - outbound_addr=IPv4: Specify the outbound ipv4 address slirp should bind to.
# - outbound_addr6=INTERFACE: Specify the outbound interface slirp should bind to (ipv6 traffic only).
# - outbound_addr6=IPv6: Specify the outbound ipv6 address slirp should bind to.
# - port_handler=rootlesskit: Use rootlesskit for port forwarding. Default.
# Note: Rootlesskit changes the source IP address of incoming packets to a IP address in the container
# network namespace, usually `10.0.2.100`. If your application requires the real source IP address,
# e.g. web server logs, use the slirp4netns port handler. The rootlesskit port handler is also used for
# rootless containers when connected to user-defined networks.
# - port_handler=slirp4netns: Use the slirp4netns port forwarding, it is slower than rootlesskit but
# preserves the correct source IP address. This port handler cannot be used for user-defined networks.
#
#network_cmd_options = []
# Whether to use chroot instead of pivot_root in the runtime
#
#no_pivot_root = false
# Number of locks available for containers and pods.
# If this is changed, a lock renumber must be performed (e.g. with the
# 'podman system renumber' command).
#
#num_locks = 2048
# Set the exit policy of the pod when the last container exits.
#pod_exit_policy = "continue"
# Whether to pull new image before running a container
#
#pull_policy = "missing"
# Indicates whether the application should be running in remote mode. This flag modifies the
# --remote option on container engines. Setting the flag to true will default
# `podman --remote=true` for access to the remote Podman service.
#
#remote = false
# Default OCI runtime
#
#runtime = "crun"
# List of the OCI runtimes that support --format=json. When json is supported
# engine will use it for reporting nicer errors.
#
#runtime_supports_json = ["crun", "runc", "kata", "runsc", "youki", "krun"]
# List of the OCI runtimes that supports running containers with KVM Separation.
#
#runtime_supports_kvm = ["kata", "krun"]
# List of the OCI runtimes that supports running containers without cgroups.
#
#runtime_supports_nocgroups = ["crun", "krun"]
# Default location for storing temporary container image content. Can be overridden with the TMPDIR environment
# variable. If you specify "storage", then the location of the
# container/storage tmp directory will be used.
# image_copy_tmp_dir="/var/tmp"
# Number of seconds to wait without a connection
# before the `podman system service` times out and exits
#
#service_timeout = 5
# Directory for persistent engine files (database, etc)
# By default, this will be configured relative to where the containers/storage
# stores containers
# Uncomment to change location from this default
#
#static_dir = "/var/lib/containers/storage/libpod"
# Number of seconds to wait for container to exit before sending kill signal.
#
#stop_timeout = 10
# Number of seconds to wait before exit command in API process is given to.
# This mimics Docker's exec cleanup behaviour, where the default is 5 minutes (value is in seconds).
#
#exit_command_delay = 300
# map of service destinations
#
# [engine.service_destinations]
# [engine.service_destinations.production]
# URI to access the Podman service
# Examples:
# rootless "unix://run/user/$UID/podman/podman.sock" (Default)
# rootful "unix://run/podman/podman.sock (Default)
# remote rootless ssh://engineering.lab.company.com/run/user/1000/podman/podman.sock
# remote rootful ssh://root@10.10.1.136:22/run/podman/podman.sock
#
# uri = "ssh://user@production.example.com/run/user/1001/podman/podman.sock"
# Path to file containing ssh identity key
# identity = "~/.ssh/id_rsa"
# Directory for temporary files. Must be tmpfs (wiped after reboot)
#
#tmp_dir = "/run/libpod"
# Directory for libpod named volumes.
# By default, this will be configured relative to where containers/storage
# stores containers.
# Uncomment to change location from this default.
#
#volume_path = "/var/lib/containers/storage/volumes"
# Default timeout (in seconds) for volume plugin operations.
# Plugins are external programs accessed via a REST API; this sets a timeout
# for requests to that API.
# A value of 0 is treated as no timeout.
#volume_plugin_timeout = 5
# Paths to look for a valid OCI runtime (crun, runc, kata, runsc, krun, etc)
[engine.runtimes]
#crun = [
# "/usr/bin/crun",
# "/usr/sbin/crun",
# "/usr/local/bin/crun",
# "/usr/local/sbin/crun",
# "/sbin/crun",
# "/bin/crun",
# "/run/current-system/sw/bin/crun",
#]
#kata = [
# "/usr/bin/kata-runtime",
# "/usr/sbin/kata-runtime",
# "/usr/local/bin/kata-runtime",
# "/usr/local/sbin/kata-runtime",
# "/sbin/kata-runtime",
# "/bin/kata-runtime",
# "/usr/bin/kata-qemu",
# "/usr/bin/kata-fc",
#]
#runc = [
# "/usr/bin/runc",
# "/usr/sbin/runc",
# "/usr/local/bin/runc",
# "/usr/local/sbin/runc",
# "/sbin/runc",
# "/bin/runc",
# "/usr/lib/cri-o-runc/sbin/runc",
#]
#runsc = [
# "/usr/bin/runsc",
# "/usr/sbin/runsc",
# "/usr/local/bin/runsc",
# "/usr/local/sbin/runsc",
# "/bin/runsc",
# "/sbin/runsc",
# "/run/current-system/sw/bin/runsc",
#]
#youki = [
# "/usr/local/bin/youki",
# "/usr/bin/youki",
# "/bin/youki",
# "/run/current-system/sw/bin/youki",
#]
#krun = [
# "/usr/bin/krun",
# "/usr/local/bin/krun",
#]
[engine.volume_plugins]
#testplugin = "/run/podman/plugins/test.sock"
[machine]
# Number of CPU's a machine is created with.
#
#cpus=1
# The size of the disk in GB created when init-ing a podman-machine VM.
#
#disk_size=10
# Default image URI when creating a new VM using `podman machine init`.
# Options: On Linux/Mac, `testing`, `stable`, `next`. On Windows, the major
# version of the OS (e.g `36`) for Fedora 36. For all platforms you can
# alternatively specify a custom download URL to an image. Container engines
# translate URIs $OS and $ARCH to the native OS and ARCH. URI
# "https://example.com/$OS/$ARCH/foobar.ami" becomes
# "https://example.com/linux/amd64/foobar.ami" on a Linux AMD machine.
# The default value is `testing`.
#
#image = "testing"
# Memory in MB a machine is created with.
#
#memory=2048
# The username to use and create on the podman machine OS for rootless
# container access.
#
#user = "core"
# Host directories to be mounted as volumes into the VM by default.
# Environment variables like $HOME as well as complete paths are supported for
# the source and destination. An optional third field `:ro` can be used to
# tell the container engines to mount the volume readonly.
#
#volumes = [
# "$HOME:$HOME",
#]
# Virtualization provider used to run Podman machine.
# If it is empty or commented out, the default provider will be used.
#
#provider = ""
# The [machine] table MUST be the last entry in this file.
# (Unless another table is added)
# TOML does not provide a way to end a table other than a further table being
# defined, so every key hereafter will be part of [machine] and not the
# main config.

View File

@ -0,0 +1,2 @@
[registries.search]
registries = ['docker.io', 'registry.fedoraproject.org', 'quay.io', 'registry.access.redhat.com', 'registry.centos.org']

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@ -1,239 +0,0 @@
# This file is the configuration file for all tools
# that use the containers/storage library. The storage.conf file
# overrides all other storage.conf files. Container engines using the
# container/storage library do not inherit fields from other storage.conf
# files.
#
# Note: The storage.conf file overrides other storage.conf files based on this precedence:
# /usr/containers/storage.conf
# /etc/containers/storage.conf
# $HOME/.config/containers/storage.conf
# $XDG_CONFIG_HOME/containers/storage.conf (If XDG_CONFIG_HOME is set)
# See man 5 containers-storage.conf for more information
# The "container storage" table contains all of the server options.
[storage]
# Default Storage Driver, Must be set for proper operation.
driver = "overlay"
# Temporary storage location
runroot = "/run/containers/storage"
# Primary Read/Write location of container storage
# When changing the graphroot location on an SELINUX system, you must
# ensure the labeling matches the default locations labels with the
# following commands:
# semanage fcontext -a -e /var/lib/containers/storage /NEWSTORAGEPATH
# restorecon -R -v /NEWSTORAGEPATH
graphroot = "/opt/containers/storage"
# Storage path for rootless users
#
rootless_storage_path = "$HOME/.local/share/containers/storage"
# Transient store mode makes all container metadata be saved in temporary storage
# (i.e. runroot above). This is faster, but doesn't persist across reboots.
# Additional garbage collection must also be performed at boot-time, so this
# option should remain disabled in most configurations.
# transient_store = true
[storage.options]
# Storage options to be passed to underlying storage drivers
# AdditionalImageStores is used to pass paths to additional Read/Only image stores
# Must be comma separated list.
additionalimagestores = [
]
# Allows specification of how storage is populated when pulling images. This
# option can speed the pulling process of images compressed with format
# zstd:chunked. Containers/storage looks for files within images that are being
# pulled from a container registry that were previously pulled to the host. It
# can copy or create a hard link to the existing file when it finds them,
# eliminating the need to pull them from the container registry. These options
# can deduplicate pulling of content, disk storage of content and can allow the
# kernel to use less memory when running containers.
# containers/storage supports three keys
# * enable_partial_images="true" | "false"
# Tells containers/storage to look for files previously pulled in storage
# rather then always pulling them from the container registry.
# * use_hard_links = "false" | "true"
# Tells containers/storage to use hard links rather then create new files in
# the image, if an identical file already existed in storage.
# * ostree_repos = ""
# Tells containers/storage where an ostree repository exists that might have
# previously pulled content which can be used when attempting to avoid
# pulling content from the container registry
pull_options = {enable_partial_images = "false", use_hard_links = "false", ostree_repos=""}
# Remap-UIDs/GIDs is the mapping from UIDs/GIDs as they should appear inside of
# a container, to the UIDs/GIDs as they should appear outside of the container,
# and the length of the range of UIDs/GIDs. Additional mapped sets can be
# listed and will be heeded by libraries, but there are limits to the number of
# mappings which the kernel will allow when you later attempt to run a
# container.
#
# remap-uids = "0:1668442479:65536"
# remap-gids = "0:1668442479:65536"
# Remap-User/Group is a user name which can be used to look up one or more UID/GID
# ranges in the /etc/subuid or /etc/subgid file. Mappings are set up starting
# with an in-container ID of 0 and then a host-level ID taken from the lowest
# range that matches the specified name, and using the length of that range.
# Additional ranges are then assigned, using the ranges which specify the
# lowest host-level IDs first, to the lowest not-yet-mapped in-container ID,
# until all of the entries have been used for maps. This setting overrides the
# Remap-UIDs/GIDs setting.
#
# remap-user = "containers"
# remap-group = "containers"
# Root-auto-userns-user is a user name which can be used to look up one or more UID/GID
# ranges in the /etc/subuid and /etc/subgid file. These ranges will be partitioned
# to containers configured to create automatically a user namespace. Containers
# configured to automatically create a user namespace can still overlap with containers
# having an explicit mapping set.
# This setting is ignored when running as rootless.
# root-auto-userns-user = "storage"
#
# Auto-userns-min-size is the minimum size for a user namespace created automatically.
# auto-userns-min-size=1024
#
# Auto-userns-max-size is the maximum size for a user namespace created automatically.
# auto-userns-max-size=65536
[storage.options.overlay]
# ignore_chown_errors can be set to allow a non privileged user running with
# a single UID within a user namespace to run containers. The user can pull
# and use any image even those with multiple uids. Note multiple UIDs will be
# squashed down to the default uid in the container. These images will have no
# separation between the users in the container. Only supported for the overlay
# and vfs drivers.
#ignore_chown_errors = "false"
# Inodes is used to set a maximum inodes of the container image.
# inodes = ""
# Path to an helper program to use for mounting the file system instead of mounting it
# directly.
mount_program = "/usr/bin/fuse-overlayfs"
# mountopt specifies comma separated list of extra mount options
mountopt = "nodev"
# Set to skip a PRIVATE bind mount on the storage home directory.
# skip_mount_home = "false"
# Size is used to set a maximum size of the container image.
# size = ""
# ForceMask specifies the permissions mask that is used for new files and
# directories.
#
# The values "shared" and "private" are accepted.
# Octal permission masks are also accepted.
#
# "": No value specified.
# All files/directories, get set with the permissions identified within the
# image.
# "private": it is equivalent to 0700.
# All files/directories get set with 0700 permissions. The owner has rwx
# access to the files. No other users on the system can access the files.
# This setting could be used with networked based homedirs.
# "shared": it is equivalent to 0755.
# The owner has rwx access to the files and everyone else can read, access
# and execute them. This setting is useful for sharing containers storage
# with other users. For instance have a storage owned by root but shared
# to rootless users as an additional store.
# NOTE: All files within the image are made readable and executable by any
# user on the system. Even /etc/shadow within your image is now readable by
# any user.
#
# OCTAL: Users can experiment with other OCTAL Permissions.
#
# Note: The force_mask Flag is an experimental feature, it could change in the
# future. When "force_mask" is set the original permission mask is stored in
# the "user.containers.override_stat" xattr and the "mount_program" option must
# be specified. Mount programs like "/usr/bin/fuse-overlayfs" present the
# extended attribute permissions to processes within containers rather than the
# "force_mask" permissions.
#
# force_mask = ""
[storage.options.thinpool]
# Storage Options for thinpool
# autoextend_percent determines the amount by which pool needs to be
# grown. This is specified in terms of % of pool size. So a value of 20 means
# that when threshold is hit, pool will be grown by 20% of existing
# pool size.
# autoextend_percent = "20"
# autoextend_threshold determines the pool extension threshold in terms
# of percentage of pool size. For example, if threshold is 60, that means when
# pool is 60% full, threshold has been hit.
# autoextend_threshold = "80"
# basesize specifies the size to use when creating the base device, which
# limits the size of images and containers.
# basesize = "10G"
# blocksize specifies a custom blocksize to use for the thin pool.
# blocksize="64k"
# directlvm_device specifies a custom block storage device to use for the
# thin pool. Required if you setup devicemapper.
# directlvm_device = ""
# directlvm_device_force wipes device even if device already has a filesystem.
# directlvm_device_force = "True"
# fs specifies the filesystem type to use for the base device.
# fs="xfs"
# log_level sets the log level of devicemapper.
# 0: LogLevelSuppress 0 (Default)
# 2: LogLevelFatal
# 3: LogLevelErr
# 4: LogLevelWarn
# 5: LogLevelNotice
# 6: LogLevelInfo
# 7: LogLevelDebug
# log_level = "7"
# min_free_space specifies the min free space percent in a thin pool require for
# new device creation to succeed. Valid values are from 0% - 99%.
# Value 0% disables
# min_free_space = "10%"
# mkfsarg specifies extra mkfs arguments to be used when creating the base
# device.
# mkfsarg = ""
# metadata_size is used to set the `pvcreate --metadatasize` options when
# creating thin devices. Default is 128k
# metadata_size = ""
# Size is used to set a maximum size of the container image.
# size = ""
# use_deferred_removal marks devicemapper block device for deferred removal.
# If the thinpool is in use when the driver attempts to remove it, the driver
# tells the kernel to remove it as soon as possible. Note this does not free
# up the disk space, use deferred deletion to fully remove the thinpool.
# use_deferred_removal = "True"
# use_deferred_deletion marks thinpool device for deferred deletion.
# If the device is busy when the driver attempts to delete it, the driver
# will attempt to delete device every 30 seconds until successful.
# If the program using the driver exits, the driver will continue attempting
# to cleanup the next time the driver is used. Deferred deletion permanently
# deletes the device and all data stored in device will be lost.
# use_deferred_deletion = "True"
# xfs_nospace_max_retries specifies the maximum number of retries XFS should
# attempt to complete IO when ENOSPC (no space) error is returned by
# underlying storage device.
# xfs_nospace_max_retries = "0"

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@ -1,13 +0,0 @@
{
"storage-driver": "fuse-overlayfs",
"log-driver": "journald",
"experimental": true,
"ip6tables": true,
"log-opts": {
"tag": "{{.Name}}"
},
"data-root": "/mnt/data/docker",
"data-root": "/opt/docker",
"deprecated-key-path": "/docker/key.json",
"bip": "172.30.232.1/23"
}

View File

@ -10,3 +10,5 @@ kernel.printk = 3 4 1 3
fs.inotify.max_user_instances = 512
fs.inotify.max_user_watches = 524288
kernel.unprivileged_userns_clone = 1

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@ -1,777 +0,0 @@
# The containers configuration file specifies all of the available configuration
# command-line options/flags for container engine tools like Podman & Buildah,
# but in a TOML format that can be easily modified and versioned.
# Please refer to containers.conf(5) for details of all configuration options.
# Not all container engines implement all of the options.
# All of the options have hard coded defaults and these options will override
# the built in defaults. Users can then override these options via the command
# line. Container engines will read containers.conf files in up to three
# locations in the following order:
# 1. /usr/share/containers/containers.conf
# 2. /etc/containers/containers.conf
# 3. $HOME/.config/containers/containers.conf (Rootless containers ONLY)
# Items specified in the latter containers.conf, if they exist, override the
# previous containers.conf settings, or the default settings.
[containers]
# List of annotation. Specified as
# "key = value"
# If it is empty or commented out, no annotations will be added
#
#annotations = []
# Used to change the name of the default AppArmor profile of container engine.
#
#apparmor_profile = "container-default"
# The hosts entries from the base hosts file are added to the containers hosts
# file. This must be either an absolute path or as special values "image" which
# uses the hosts file from the container image or "none" which means
# no base hosts file is used. The default is "" which will use /etc/hosts.
#
#base_hosts_file = ""
# List of cgroup_conf entries specifying a list of cgroup files to write to and
# their values. For example `memory.high=1073741824` sets the
# memory.high limit to 1GB.
# cgroup_conf = []
# Default way to to create a cgroup namespace for the container
# Options are:
# `private` Create private Cgroup Namespace for the container.
# `host` Share host Cgroup Namespace with the container.
#
#cgroupns = "private"
# Control container cgroup configuration
# Determines whether the container will create CGroups.
# Options are:
# `enabled` Enable cgroup support within container
# `disabled` Disable cgroup support, will inherit cgroups from parent
# `no-conmon` Do not create a cgroup dedicated to conmon.
#
#cgroups = "enabled"
# List of default capabilities for containers. If it is empty or commented out,
# the default capabilities defined in the container engine will be added.
#
#default_capabilities = [
# "CHOWN",
# "DAC_OVERRIDE",
# "FOWNER",
# "FSETID",
# "KILL",
# "NET_BIND_SERVICE",
# "SETFCAP",
# "SETGID",
# "SETPCAP",
# "SETUID",
# "SYS_CHROOT",
#]
# A list of sysctls to be set in containers by default,
# specified as "name=value",
# for example:"net.ipv4.ping_group_range=0 0".
#
default_sysctls = [
"net.ipv4.ping_group_range=0 0",
]
# A list of ulimits to be set in containers by default, specified as
# "<ulimit name>=<soft limit>:<hard limit>", for example:
# "nofile=1024:2048"
# See setrlimit(2) for a list of resource names.
# Any limit not specified here will be inherited from the process launching the
# container engine.
# Ulimits has limits for non privileged container engines.
#
#default_ulimits = [
# "nofile=1280:2560",
#]
# List of devices. Specified as
# "<device-on-host>:<device-on-container>:<permissions>", for example:
# "/dev/sdc:/dev/xvdc:rwm".
# If it is empty or commented out, only the default devices will be used
#
#devices = []
# List of default DNS options to be added to /etc/resolv.conf inside of the container.
#
#dns_options = []
# List of default DNS search domains to be added to /etc/resolv.conf inside of the container.
#
#dns_searches = []
# Set default DNS servers.
# This option can be used to override the DNS configuration passed to the
# container. The special value "none" can be specified to disable creation of
# /etc/resolv.conf in the container.
# The /etc/resolv.conf file in the image will be used without changes.
#
#dns_servers = []
# Environment variable list for the conmon process; used for passing necessary
# environment variables to conmon or the runtime.
#
#env = [
# "PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin",
# "TERM=xterm",
#]
# Pass all host environment variables into the container.
#
#env_host = false
# Set the ip for the host.containers.internal entry in the containers /etc/hosts
# file. This can be set to "none" to disable adding this entry. By default it
# will automatically choose the host ip.
#
# NOTE: When using podman machine this entry will never be added to the containers
# hosts file instead the gvproxy dns resolver will resolve this hostname. Therefore
# it is not possible to disable the entry in this case.
#
#host_containers_internal_ip = ""
# Default proxy environment variables passed into the container.
# The environment variables passed in include:
# http_proxy, https_proxy, ftp_proxy, no_proxy, and the upper case versions of
# these. This option is needed when host system uses a proxy but container
# should not use proxy. Proxy environment variables specified for the container
# in any other way will override the values passed from the host.
#
#http_proxy = true
# Run an init inside the container that forwards signals and reaps processes.
#
#init = false
# Container init binary, if init=true, this is the init binary to be used for containers.
#
#init_path = "/usr/libexec/podman/catatonit"
# Default way to to create an IPC namespace (POSIX SysV IPC) for the container
# Options are:
# "host" Share host IPC Namespace with the container.
# "none" Create shareable IPC Namespace for the container without a private /dev/shm.
# "private" Create private IPC Namespace for the container, other containers are not allowed to share it.
# "shareable" Create shareable IPC Namespace for the container.
#
#ipcns = "shareable"
# keyring tells the container engine whether to create
# a kernel keyring for use within the container.
#
#keyring = true
# label tells the container engine whether to use container separation using
# MAC(SELinux) labeling or not.
# The label flag is ignored on label disabled systems.
#
#label = true
# label_users indicates whether to enforce confined users in containers on
# SELinux systems. This option causes containers to maintain the current user
# and role field of the calling process. By default SELinux containers run with
# the user system_u, and the role system_r.
#label_users = false
# Logging driver for the container. Available options: k8s-file and journald.
#
#log_driver = "k8s-file"
# Maximum size allowed for the container log file. Negative numbers indicate
# that no size limit is imposed. If positive, it must be >= 8192 to match or
# exceed conmon's read buffer. The file is truncated and re-opened so the
# limit is never exceeded.
#
#log_size_max = -1
# Specifies default format tag for container log messages.
# This is useful for creating a specific tag for container log messages.
# Containers logs default to truncated container ID as a tag.
#
#log_tag = ""
# Default way to to create a Network namespace for the container
# Options are:
# `private` Create private Network Namespace for the container.
# `host` Share host Network Namespace with the container.
# `none` Containers do not use the network
#
#netns = "private"
# Create /etc/hosts for the container. By default, container engine manage
# /etc/hosts, automatically adding the container's own IP address.
#
#no_hosts = false
# Tune the host's OOM preferences for containers
# (accepts values from -1000 to 1000).
#oom_score_adj = 0
# Default way to to create a PID namespace for the container
# Options are:
# `private` Create private PID Namespace for the container.
# `host` Share host PID Namespace with the container.
#
#pidns = "private"
# Maximum number of processes allowed in a container.
#
#pids_limit = 2048
# Copy the content from the underlying image into the newly created volume
# when the container is created instead of when it is started. If false,
# the container engine will not copy the content until the container is started.
# Setting it to true may have negative performance implications.
#
#prepare_volume_on_create = false
# Run all containers with root file system mounted read-only
#
# read_only = false
# Path to the seccomp.json profile which is used as the default seccomp profile
# for the runtime.
#
#seccomp_profile = "/usr/share/containers/seccomp.json"
# Size of /dev/shm. Specified as <number><unit>.
# Unit is optional, values:
# b (bytes), k (kilobytes), m (megabytes), or g (gigabytes).
# If the unit is omitted, the system uses bytes.
#
#shm_size = "65536k"
# Set timezone in container. Takes IANA timezones as well as "local",
# which sets the timezone in the container to match the host machine.
#
#tz = ""
# Set umask inside the container
#
#umask = "0022"
# Default way to to create a User namespace for the container
# Options are:
# `auto` Create unique User Namespace for the container.
# `host` Share host User Namespace with the container.
#
#userns = "host"
# Default way to to create a UTS namespace for the container
# Options are:
# `private` Create private UTS Namespace for the container.
# `host` Share host UTS Namespace with the container.
#
#utsns = "private"
# List of volumes. Specified as
# "<directory-on-host>:<directory-in-container>:<options>", for example:
# "/db:/var/lib/db:ro".
# If it is empty or commented out, no volumes will be added
#
#volumes = []
#
#[engine.platform_to_oci_runtime]
#"wasi/wasm" = ["crun-wasm"]
#"wasi/wasm32" = ["crun-wasm"]
#"wasi/wasm64" = ["crun-wasm"]
[secrets]
#driver = "file"
[secrets.opts]
#root = "/example/directory"
[network]
# Network backend determines what network driver will be used to set up and tear down container networks.
# Valid values are "cni" and "netavark".
# The default value is empty which means that it will automatically choose CNI or netavark. If there are
# already containers/images or CNI networks preset it will choose CNI.
#
# Before changing this value all containers must be stopped otherwise it is likely that
# iptables rules and network interfaces might leak on the host. A reboot will fix this.
#
#network_backend = ""
# Path to directory where CNI plugin binaries are located.
#
#cni_plugin_dirs = [
# "/usr/local/libexec/cni",
# "/usr/libexec/cni",
# "/usr/local/lib/cni",
# "/usr/lib/cni",
# "/opt/cni/bin",
#]
# List of directories that will be searched for netavark plugins.
#
#netavark_plugin_dirs = [
# "/usr/local/libexec/netavark",
# "/usr/libexec/netavark",
# "/usr/local/lib/netavark",
# "/usr/lib/netavark",
#]
# The network name of the default network to attach pods to.
#
#default_network = "podman"
# The default subnet for the default network given in default_network.
# If a network with that name does not exist, a new network using that name and
# this subnet will be created.
# Must be a valid IPv4 CIDR prefix.
#
#default_subnet = "10.88.0.0/16"
# DefaultSubnetPools is a list of subnets and size which are used to
# allocate subnets automatically for podman network create.
# It will iterate through the list and will pick the first free subnet
# with the given size. This is only used for ipv4 subnets, ipv6 subnets
# are always assigned randomly.
#
#default_subnet_pools = [
# {"base" = "10.89.0.0/16", "size" = 24},
# {"base" = "10.90.0.0/15", "size" = 24},
# {"base" = "10.92.0.0/14", "size" = 24},
# {"base" = "10.96.0.0/11", "size" = 24},
# {"base" = "10.128.0.0/9", "size" = 24},
#]
# Configure which rootless network program to use by default. Valid options are
# `slirp4netns` (default) and `pasta`.
#
#default_rootless_network_cmd = "slirp4netns"
# Path to the directory where network configuration files are located.
# For the CNI backend the default is "/etc/cni/net.d" as root
# and "$HOME/.config/cni/net.d" as rootless.
# For the netavark backend "/etc/containers/networks" is used as root
# and "$graphroot/networks" as rootless.
#
#network_config_dir = "/etc/cni/net.d/"
# Port to use for dns forwarding daemon with netavark in rootful bridge
# mode and dns enabled.
# Using an alternate port might be useful if other dns services should
# run on the machine.
#
#dns_bind_port = 53
# A list of default pasta options that should be used running pasta.
# It accepts the pasta cli options, see pasta(1) for the full list of options.
#
#pasta_options = []
[engine]
# Index to the active service
#
#active_service = "production"
# The compression format to use when pushing an image.
# Valid options are: `gzip`, `zstd` and `zstd:chunked`.
#
#compression_format = "gzip"
# The compression level to use when pushing an image.
# Valid options depend on the compression format used.
# For gzip, valid options are 1-9, with a default of 5.
# For zstd, valid options are 1-20, with a default of 3.
#
#compression_level = 5
# Cgroup management implementation used for the runtime.
# Valid options "systemd" or "cgroupfs"
#
#cgroup_manager = "systemd"
# Environment variables to pass into conmon
#
#conmon_env_vars = [
# "PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin"
#]
# Paths to look for the conmon container manager binary
#
#conmon_path = [
# "/usr/libexec/podman/conmon",
# "/usr/local/libexec/podman/conmon",
# "/usr/local/lib/podman/conmon",
# "/usr/bin/conmon",
# "/usr/sbin/conmon",
# "/usr/local/bin/conmon",
# "/usr/local/sbin/conmon"
#]
# Enforces using docker.io for completing short names in Podman's compatibility
# REST API. Note that this will ignore unqualified-search-registries and
# short-name aliases defined in containers-registries.conf(5).
#compat_api_enforce_docker_hub = true
# The database backend of Podman. Supported values are "boltdb" (default) and
# "sqlite". Please run `podman-system-reset` prior to changing the database
# backend of an existing deployment, to make sure Podman can operate correctly.
#database_backend="boltdb"
# Specify the keys sequence used to detach a container.
# Format is a single character [a-Z] or a comma separated sequence of
# `ctrl-<value>`, where `<value>` is one of:
# `a-z`, `@`, `^`, `[`, `\`, `]`, `^` or `_`
# Specifying "" disables this feature.
#detach_keys = "ctrl-p,ctrl-q"
# Determines whether engine will reserve ports on the host when they are
# forwarded to containers. When enabled, when ports are forwarded to containers,
# ports are held open by as long as the container is running, ensuring that
# they cannot be reused by other programs on the host. However, this can cause
# significant memory usage if a container has many ports forwarded to it.
# Disabling this can save memory.
#
#enable_port_reservation = true
# Environment variables to be used when running the container engine (e.g., Podman, Buildah).
# For example "http_proxy=internal.proxy.company.com".
# Note these environment variables will not be used within the container.
# Set the env section under [containers] table, if you want to set environment variables for the container.
#
#env = []
# Define where event logs will be stored, when events_logger is "file".
#events_logfile_path=""
# Sets the maximum size for events_logfile_path.
# The size can be b (bytes), k (kilobytes), m (megabytes), or g (gigabytes).
# The format for the size is `<number><unit>`, e.g., `1b` or `3g`.
# If no unit is included then the size will be read in bytes.
# When the limit is exceeded, the logfile will be rotated and the old one will be deleted.
# If the maximum size is set to 0, then no limit will be applied,
# and the logfile will not be rotated.
#events_logfile_max_size = "1m"
# Selects which logging mechanism to use for container engine events.
# Valid values are `journald`, `file` and `none`.
#
#events_logger = "journald"
# Creates a more verbose container-create event which includes a JSON payload
# with detailed information about the container.
#events_container_create_inspect_data = false
# A is a list of directories which are used to search for helper binaries.
#
#helper_binaries_dir = [
# "/usr/local/libexec/podman",
# "/usr/local/lib/podman",
# "/usr/libexec/podman",
# "/usr/lib/podman",
#]
# Path to OCI hooks directories for automatically executed hooks.
#
#hooks_dir = [
# "/usr/share/containers/oci/hooks.d",
#]
# Manifest Type (oci, v2s2, or v2s1) to use when pulling, pushing, building
# container images. By default image pulled and pushed match the format of the
# source image. Building/committing defaults to OCI.
#
#image_default_format = ""
# Default transport method for pulling and pushing for images
#
#image_default_transport = "docker://"
# Maximum number of image layers to be copied (pulled/pushed) simultaneously.
# Not setting this field, or setting it to zero, will fall back to containers/image defaults.
#
#image_parallel_copies = 0
# Tells container engines how to handle the built-in image volumes.
# * bind: An anonymous named volume will be created and mounted
# into the container.
# * tmpfs: The volume is mounted onto the container as a tmpfs,
# which allows users to create content that disappears when
# the container is stopped.
# * ignore: All volumes are just ignored and no action is taken.
#
#image_volume_mode = ""
# Default command to run the infra container
#
#infra_command = "/pause"
# Infra (pause) container image name for pod infra containers. When running a
# pod, we start a `pause` process in a container to hold open the namespaces
# associated with the pod. This container does nothing other than sleep,
# reserving the pod's resources for the lifetime of the pod. By default container
# engines run a built-in container using the pause executable. If you want override
# specify an image to pull.
#
#infra_image = ""
# Default Kubernetes kind/specification of the kubernetes yaml generated with the `podman kube generate` command.
# The possible options are `pod` and `deployment`.
#kube_generate_type = "pod"
# Specify the locking mechanism to use; valid values are "shm" and "file".
# Change the default only if you are sure of what you are doing, in general
# "file" is useful only on platforms where cgo is not available for using the
# faster "shm" lock type. You may need to run "podman system renumber" after
# you change the lock type.
#
#lock_type = "shm"
# MultiImageArchive - if true, the container engine allows for storing archives
# (e.g., of the docker-archive transport) with multiple images. By default,
# Podman creates single-image archives.
#
#multi_image_archive = false
# Default engine namespace
# If engine is joined to a namespace, it will see only containers and pods
# that were created in the same namespace, and will create new containers and
# pods in that namespace.
# The default namespace is "", which corresponds to no namespace. When no
# namespace is set, all containers and pods are visible.
#
#namespace = ""
# Path to the slirp4netns binary
#
#network_cmd_path = ""
# Default options to pass to the slirp4netns binary.
# Valid options values are:
#
# - allow_host_loopback=true|false: Allow the slirp4netns to reach the host loopback IP (`10.0.2.2`).
# Default is false.
# - mtu=MTU: Specify the MTU to use for this network. (Default is `65520`).
# - cidr=CIDR: Specify ip range to use for this network. (Default is `10.0.2.0/24`).
# - enable_ipv6=true|false: Enable IPv6. Default is true. (Required for `outbound_addr6`).
# - outbound_addr=INTERFACE: Specify the outbound interface slirp should bind to (ipv4 traffic only).
# - outbound_addr=IPv4: Specify the outbound ipv4 address slirp should bind to.
# - outbound_addr6=INTERFACE: Specify the outbound interface slirp should bind to (ipv6 traffic only).
# - outbound_addr6=IPv6: Specify the outbound ipv6 address slirp should bind to.
# - port_handler=rootlesskit: Use rootlesskit for port forwarding. Default.
# Note: Rootlesskit changes the source IP address of incoming packets to a IP address in the container
# network namespace, usually `10.0.2.100`. If your application requires the real source IP address,
# e.g. web server logs, use the slirp4netns port handler. The rootlesskit port handler is also used for
# rootless containers when connected to user-defined networks.
# - port_handler=slirp4netns: Use the slirp4netns port forwarding, it is slower than rootlesskit but
# preserves the correct source IP address. This port handler cannot be used for user-defined networks.
#
#network_cmd_options = []
# Whether to use chroot instead of pivot_root in the runtime
#
#no_pivot_root = false
# Number of locks available for containers and pods.
# If this is changed, a lock renumber must be performed (e.g. with the
# 'podman system renumber' command).
#
#num_locks = 2048
# Set the exit policy of the pod when the last container exits.
#pod_exit_policy = "continue"
# Whether to pull new image before running a container
#
#pull_policy = "missing"
# Indicates whether the application should be running in remote mode. This flag modifies the
# --remote option on container engines. Setting the flag to true will default
# `podman --remote=true` for access to the remote Podman service.
#
#remote = false
# Default OCI runtime
#
#runtime = "crun"
# List of the OCI runtimes that support --format=json. When json is supported
# engine will use it for reporting nicer errors.
#
#runtime_supports_json = ["crun", "runc", "kata", "runsc", "youki", "krun"]
# List of the OCI runtimes that supports running containers with KVM Separation.
#
#runtime_supports_kvm = ["kata", "krun"]
# List of the OCI runtimes that supports running containers without cgroups.
#
#runtime_supports_nocgroups = ["crun", "krun"]
# Default location for storing temporary container image content. Can be overridden with the TMPDIR environment
# variable. If you specify "storage", then the location of the
# container/storage tmp directory will be used.
# image_copy_tmp_dir="/var/tmp"
# Number of seconds to wait without a connection
# before the `podman system service` times out and exits
#
#service_timeout = 5
# Directory for persistent engine files (database, etc)
# By default, this will be configured relative to where the containers/storage
# stores containers
# Uncomment to change location from this default
#
#static_dir = "/var/lib/containers/storage/libpod"
# Number of seconds to wait for container to exit before sending kill signal.
#
#stop_timeout = 10
# Number of seconds to wait before exit command in API process is given to.
# This mimics Docker's exec cleanup behaviour, where the default is 5 minutes (value is in seconds).
#
#exit_command_delay = 300
# map of service destinations
#
# [engine.service_destinations]
# [engine.service_destinations.production]
# URI to access the Podman service
# Examples:
# rootless "unix://run/user/$UID/podman/podman.sock" (Default)
# rootful "unix://run/podman/podman.sock (Default)
# remote rootless ssh://engineering.lab.company.com/run/user/1000/podman/podman.sock
# remote rootful ssh://root@10.10.1.136:22/run/podman/podman.sock
#
# uri = "ssh://user@production.example.com/run/user/1001/podman/podman.sock"
# Path to file containing ssh identity key
# identity = "~/.ssh/id_rsa"
# Directory for temporary files. Must be tmpfs (wiped after reboot)
#
#tmp_dir = "/run/libpod"
# Directory for libpod named volumes.
# By default, this will be configured relative to where containers/storage
# stores containers.
# Uncomment to change location from this default.
#
#volume_path = "/var/lib/containers/storage/volumes"
# Default timeout (in seconds) for volume plugin operations.
# Plugins are external programs accessed via a REST API; this sets a timeout
# for requests to that API.
# A value of 0 is treated as no timeout.
#volume_plugin_timeout = 5
# Paths to look for a valid OCI runtime (crun, runc, kata, runsc, krun, etc)
[engine.runtimes]
#crun = [
# "/usr/bin/crun",
# "/usr/sbin/crun",
# "/usr/local/bin/crun",
# "/usr/local/sbin/crun",
# "/sbin/crun",
# "/bin/crun",
# "/run/current-system/sw/bin/crun",
#]
#kata = [
# "/usr/bin/kata-runtime",
# "/usr/sbin/kata-runtime",
# "/usr/local/bin/kata-runtime",
# "/usr/local/sbin/kata-runtime",
# "/sbin/kata-runtime",
# "/bin/kata-runtime",
# "/usr/bin/kata-qemu",
# "/usr/bin/kata-fc",
#]
#runc = [
# "/usr/bin/runc",
# "/usr/sbin/runc",
# "/usr/local/bin/runc",
# "/usr/local/sbin/runc",
# "/sbin/runc",
# "/bin/runc",
# "/usr/lib/cri-o-runc/sbin/runc",
#]
#runsc = [
# "/usr/bin/runsc",
# "/usr/sbin/runsc",
# "/usr/local/bin/runsc",
# "/usr/local/sbin/runsc",
# "/bin/runsc",
# "/sbin/runsc",
# "/run/current-system/sw/bin/runsc",
#]
#youki = [
# "/usr/local/bin/youki",
# "/usr/bin/youki",
# "/bin/youki",
# "/run/current-system/sw/bin/youki",
#]
#krun = [
# "/usr/bin/krun",
# "/usr/local/bin/krun",
#]
[engine.volume_plugins]
#testplugin = "/run/podman/plugins/test.sock"
[machine]
# Number of CPU's a machine is created with.
#
#cpus=1
# The size of the disk in GB created when init-ing a podman-machine VM.
#
#disk_size=10
# Default image URI when creating a new VM using `podman machine init`.
# Options: On Linux/Mac, `testing`, `stable`, `next`. On Windows, the major
# version of the OS (e.g `36`) for Fedora 36. For all platforms you can
# alternatively specify a custom download URL to an image. Container engines
# translate URIs $OS and $ARCH to the native OS and ARCH. URI
# "https://example.com/$OS/$ARCH/foobar.ami" becomes
# "https://example.com/linux/amd64/foobar.ami" on a Linux AMD machine.
# The default value is `testing`.
#
#image = "testing"
# Memory in MB a machine is created with.
#
#memory=2048
# The username to use and create on the podman machine OS for rootless
# container access.
#
#user = "core"
# Host directories to be mounted as volumes into the VM by default.
# Environment variables like $HOME as well as complete paths are supported for
# the source and destination. An optional third field `:ro` can be used to
# tell the container engines to mount the volume readonly.
#
#volumes = [
# "$HOME:$HOME",
#]
# Virtualization provider used to run Podman machine.
# If it is empty or commented out, the default provider will be used.
#
#provider = ""
# The [machine] table MUST be the last entry in this file.
# (Unless another table is added)
# TOML does not provide a way to end a table other than a further table being
# defined, so every key hereafter will be part of [machine] and not the
# main config.

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@ -1,239 +0,0 @@
# This file is the configuration file for all tools
# that use the containers/storage library. The storage.conf file
# overrides all other storage.conf files. Container engines using the
# container/storage library do not inherit fields from other storage.conf
# files.
#
# Note: The storage.conf file overrides other storage.conf files based on this precedence:
# /usr/containers/storage.conf
# /etc/containers/storage.conf
# $HOME/.config/containers/storage.conf
# $XDG_CONFIG_HOME/containers/storage.conf (If XDG_CONFIG_HOME is set)
# See man 5 containers-storage.conf for more information
# The "container storage" table contains all of the server options.
[storage]
# Default Storage Driver, Must be set for proper operation.
driver = "overlay"
# Temporary storage location
runroot = "/run/containers/storage"
# Primary Read/Write location of container storage
# When changing the graphroot location on an SELINUX system, you must
# ensure the labeling matches the default locations labels with the
# following commands:
# semanage fcontext -a -e /var/lib/containers/storage /NEWSTORAGEPATH
# restorecon -R -v /NEWSTORAGEPATH
graphroot = "/opt/containers/storage"
# Storage path for rootless users
#
rootless_storage_path = "$HOME/.local/share/containers/storage"
# Transient store mode makes all container metadata be saved in temporary storage
# (i.e. runroot above). This is faster, but doesn't persist across reboots.
# Additional garbage collection must also be performed at boot-time, so this
# option should remain disabled in most configurations.
# transient_store = true
[storage.options]
# Storage options to be passed to underlying storage drivers
# AdditionalImageStores is used to pass paths to additional Read/Only image stores
# Must be comma separated list.
additionalimagestores = [
]
# Allows specification of how storage is populated when pulling images. This
# option can speed the pulling process of images compressed with format
# zstd:chunked. Containers/storage looks for files within images that are being
# pulled from a container registry that were previously pulled to the host. It
# can copy or create a hard link to the existing file when it finds them,
# eliminating the need to pull them from the container registry. These options
# can deduplicate pulling of content, disk storage of content and can allow the
# kernel to use less memory when running containers.
# containers/storage supports three keys
# * enable_partial_images="true" | "false"
# Tells containers/storage to look for files previously pulled in storage
# rather then always pulling them from the container registry.
# * use_hard_links = "false" | "true"
# Tells containers/storage to use hard links rather then create new files in
# the image, if an identical file already existed in storage.
# * ostree_repos = ""
# Tells containers/storage where an ostree repository exists that might have
# previously pulled content which can be used when attempting to avoid
# pulling content from the container registry
pull_options = {enable_partial_images = "false", use_hard_links = "false", ostree_repos=""}
# Remap-UIDs/GIDs is the mapping from UIDs/GIDs as they should appear inside of
# a container, to the UIDs/GIDs as they should appear outside of the container,
# and the length of the range of UIDs/GIDs. Additional mapped sets can be
# listed and will be heeded by libraries, but there are limits to the number of
# mappings which the kernel will allow when you later attempt to run a
# container.
#
# remap-uids = "0:1668442479:65536"
# remap-gids = "0:1668442479:65536"
# Remap-User/Group is a user name which can be used to look up one or more UID/GID
# ranges in the /etc/subuid or /etc/subgid file. Mappings are set up starting
# with an in-container ID of 0 and then a host-level ID taken from the lowest
# range that matches the specified name, and using the length of that range.
# Additional ranges are then assigned, using the ranges which specify the
# lowest host-level IDs first, to the lowest not-yet-mapped in-container ID,
# until all of the entries have been used for maps. This setting overrides the
# Remap-UIDs/GIDs setting.
#
# remap-user = "containers"
# remap-group = "containers"
# Root-auto-userns-user is a user name which can be used to look up one or more UID/GID
# ranges in the /etc/subuid and /etc/subgid file. These ranges will be partitioned
# to containers configured to create automatically a user namespace. Containers
# configured to automatically create a user namespace can still overlap with containers
# having an explicit mapping set.
# This setting is ignored when running as rootless.
# root-auto-userns-user = "storage"
#
# Auto-userns-min-size is the minimum size for a user namespace created automatically.
# auto-userns-min-size=1024
#
# Auto-userns-max-size is the maximum size for a user namespace created automatically.
# auto-userns-max-size=65536
[storage.options.overlay]
# ignore_chown_errors can be set to allow a non privileged user running with
# a single UID within a user namespace to run containers. The user can pull
# and use any image even those with multiple uids. Note multiple UIDs will be
# squashed down to the default uid in the container. These images will have no
# separation between the users in the container. Only supported for the overlay
# and vfs drivers.
#ignore_chown_errors = "false"
# Inodes is used to set a maximum inodes of the container image.
# inodes = ""
# Path to an helper program to use for mounting the file system instead of mounting it
# directly.
mount_program = "/usr/bin/fuse-overlayfs"
# mountopt specifies comma separated list of extra mount options
mountopt = "nodev"
# Set to skip a PRIVATE bind mount on the storage home directory.
# skip_mount_home = "false"
# Size is used to set a maximum size of the container image.
# size = ""
# ForceMask specifies the permissions mask that is used for new files and
# directories.
#
# The values "shared" and "private" are accepted.
# Octal permission masks are also accepted.
#
# "": No value specified.
# All files/directories, get set with the permissions identified within the
# image.
# "private": it is equivalent to 0700.
# All files/directories get set with 0700 permissions. The owner has rwx
# access to the files. No other users on the system can access the files.
# This setting could be used with networked based homedirs.
# "shared": it is equivalent to 0755.
# The owner has rwx access to the files and everyone else can read, access
# and execute them. This setting is useful for sharing containers storage
# with other users. For instance have a storage owned by root but shared
# to rootless users as an additional store.
# NOTE: All files within the image are made readable and executable by any
# user on the system. Even /etc/shadow within your image is now readable by
# any user.
#
# OCTAL: Users can experiment with other OCTAL Permissions.
#
# Note: The force_mask Flag is an experimental feature, it could change in the
# future. When "force_mask" is set the original permission mask is stored in
# the "user.containers.override_stat" xattr and the "mount_program" option must
# be specified. Mount programs like "/usr/bin/fuse-overlayfs" present the
# extended attribute permissions to processes within containers rather than the
# "force_mask" permissions.
#
# force_mask = ""
[storage.options.thinpool]
# Storage Options for thinpool
# autoextend_percent determines the amount by which pool needs to be
# grown. This is specified in terms of % of pool size. So a value of 20 means
# that when threshold is hit, pool will be grown by 20% of existing
# pool size.
# autoextend_percent = "20"
# autoextend_threshold determines the pool extension threshold in terms
# of percentage of pool size. For example, if threshold is 60, that means when
# pool is 60% full, threshold has been hit.
# autoextend_threshold = "80"
# basesize specifies the size to use when creating the base device, which
# limits the size of images and containers.
# basesize = "10G"
# blocksize specifies a custom blocksize to use for the thin pool.
# blocksize="64k"
# directlvm_device specifies a custom block storage device to use for the
# thin pool. Required if you setup devicemapper.
# directlvm_device = ""
# directlvm_device_force wipes device even if device already has a filesystem.
# directlvm_device_force = "True"
# fs specifies the filesystem type to use for the base device.
# fs="xfs"
# log_level sets the log level of devicemapper.
# 0: LogLevelSuppress 0 (Default)
# 2: LogLevelFatal
# 3: LogLevelErr
# 4: LogLevelWarn
# 5: LogLevelNotice
# 6: LogLevelInfo
# 7: LogLevelDebug
# log_level = "7"
# min_free_space specifies the min free space percent in a thin pool require for
# new device creation to succeed. Valid values are from 0% - 99%.
# Value 0% disables
# min_free_space = "10%"
# mkfsarg specifies extra mkfs arguments to be used when creating the base
# device.
# mkfsarg = ""
# metadata_size is used to set the `pvcreate --metadatasize` options when
# creating thin devices. Default is 128k
# metadata_size = ""
# Size is used to set a maximum size of the container image.
# size = ""
# use_deferred_removal marks devicemapper block device for deferred removal.
# If the thinpool is in use when the driver attempts to remove it, the driver
# tells the kernel to remove it as soon as possible. Note this does not free
# up the disk space, use deferred deletion to fully remove the thinpool.
# use_deferred_removal = "True"
# use_deferred_deletion marks thinpool device for deferred deletion.
# If the device is busy when the driver attempts to delete it, the driver
# will attempt to delete device every 30 seconds until successful.
# If the program using the driver exits, the driver will continue attempting
# to cleanup the next time the driver is used. Deferred deletion permanently
# deletes the device and all data stored in device will be lost.
# use_deferred_deletion = "True"
# xfs_nospace_max_retries specifies the maximum number of retries XFS should
# attempt to complete IO when ENOSPC (no space) error is returned by
# underlying storage device.
# xfs_nospace_max_retries = "0"