#cloud-config # Update apt database on first boot # (ie run apt-get update) # # Default: true # Aliases: apt_update package_update: false # Upgrade the instance on first boot # (ie run apt-get upgrade) # # Default: false # Aliases: apt_upgrade package_upgrade: true # Reboot after package install/update if necessary # Default: false # Aliases: apt_reboot_if_required package_reboot_if_required: true # Add apt repositories # # Default: auto select based on cloud metadata # in ec2, the default is .archive.ubuntu.com # apt_mirror: # use the provided mirror # apt_mirror_search: # search the list for the first mirror. # this is currently very limited, only verifying that # the mirror is dns resolvable or an IP address # # if neither apt_mirror nor apt_mirror search is set (the default) # then use the mirror provided by the DataSource found. # In EC2, that means using .ec2.archive.ubuntu.com # # if no mirror is provided by the DataSource, and 'apt_mirror_search_dns' is # true, then search for dns names '-mirror' in each of # - fqdn of this host per cloud metadata # - localdomain # - no domain (which would search domains listed in /etc/resolv.conf) # If there is a dns entry for -mirror, then it is assumed that there # is a distro mirror at http://-mirror./ # # That gives the cloud provider the opportunity to set mirrors of a distro # up and expose them only by creating dns entries. # # if none of that is found, then the default distro mirror is used apt_mirror: http://us.archive.ubuntu.com/ubuntu/ apt_mirror_search: - http://local-mirror.mydomain - http://archive.ubuntu.com apt_mirror_search_dns: False # apt_proxy (configure Acquire::HTTP::Proxy) # 'apt_http_proxy' is an alias for 'apt_proxy'. # Also, available are 'apt_ftp_proxy' and 'apt_https_proxy'. # These affect Acquire::FTP::Proxy and Acquire::HTTPS::Proxy respectively apt_proxy: http://my.apt.proxy:3128 # apt_pipelining (configure Acquire::http::Pipeline-Depth) # Default: disables HTTP pipelining. Certain web servers, such # as S3 do not pipeline properly (LP: #948461). # Valid options: # False/default: Disables pipelining for APT # None/Unchanged: Use OS default # Number: Set pipelining to some number (not recommended) apt_pipelining: False # Preserve existing /etc/apt/sources.list # Default: overwrite sources_list with mirror. If this is true # then apt_mirror above will have no effect apt_preserve_sources_list: true # 'source' entries in apt-sources that match this python regex # expression will be passed to add-apt-repository add_apt_repo_match: '^[\w-]+:\w' apt_sources: - source: "deb http://ppa.launchpad.net/byobu/ppa/ubuntu karmic main" keyid: F430BBA5 # GPG key ID published on a key server filename: byobu-ppa.list # PPA shortcut: # * Setup correct apt sources.list line # * Import the signing key from LP # # See https://help.launchpad.net/Packaging/PPA for more information # this requires 'add-apt-repository' - source: "ppa:smoser/ppa" # Quote the string # Custom apt repository: # * all that is required is 'source' # * Creates a file in /etc/apt/sources.list.d/ for the sources list entry # * [optional] Import the apt signing key from the keyserver # * Defaults: # + keyserver: keyserver.ubuntu.com # + filename: cloud_config_sources.list # # See sources.list man page for more information about the format - source: deb http://archive.ubuntu.com/ubuntu karmic-backports main universe multiverse restricted # sources can use $MIRROR and $RELEASE and they will be replaced # with the local mirror for this cloud, and the running release # the entry below would be possibly turned into: # - source: deb http://us-east-1.ec2.archive.ubuntu.com/ubuntu natty multiverse - source: deb $MIRROR $RELEASE multiverse # this would have the same end effect as 'ppa:byobu/ppa' - source: "deb http://ppa.launchpad.net/byobu/ppa/ubuntu karmic main" keyid: F430BBA5 # GPG key ID published on a key server filename: byobu-ppa.list # Custom apt repository: # * The apt signing key can also be specified # by providing a pgp public key block # * Providing the PBG key here is the most robust method for # specifying a key, as it removes dependency on a remote key server - source: deb http://ppa.launchpad.net/alestic/ppa/ubuntu karmic main key: | # The value needs to start with -----BEGIN PGP PUBLIC KEY BLOCK----- -----BEGIN PGP PUBLIC KEY BLOCK----- Version: SKS 1.0.10 mI0ESpA3UQEEALdZKVIMq0j6qWAXAyxSlF63SvPVIgxHPb9Nk0DZUixn+akqytxG4zKCONz6 qLjoBBfHnynyVLfT4ihg9an1PqxRnTO+JKQxl8NgKGz6Pon569GtAOdWNKw15XKinJTDLjnj 9y96ljJqRcpV9t/WsIcdJPcKFR5voHTEoABE2aEXABEBAAG0GUxhdW5jaHBhZCBQUEEgZm9y IEFsZXN0aWOItgQTAQIAIAUCSpA3UQIbAwYLCQgHAwIEFQIIAwQWAgMBAh4BAheAAAoJEA7H 5Qi+CcVxWZ8D/1MyYvfj3FJPZUm2Yo1zZsQ657vHI9+pPouqflWOayRR9jbiyUFIn0VdQBrP t0FwvnOFArUovUWoKAEdqR8hPy3M3APUZjl5K4cMZR/xaMQeQRZ5CHpS4DBKURKAHC0ltS5o uBJKQOZm5iltJp15cgyIkBkGe8Mx18VFyVglAZey =Y2oI -----END PGP PUBLIC KEY BLOCK----- ## apt config via system_info: # under the 'system_info', you can further customize cloud-init's interaction # with apt. # system_info: # apt_get_command: [command, argument, argument] # apt_get_upgrade_subcommand: dist-upgrade # # apt_get_command: # To specify a different 'apt-get' command, set 'apt_get_command'. # This must be a list, and the subcommand (update, upgrade) is appended to it. # default is: # ['apt-get', '--option=Dpkg::Options::=--force-confold', # '--option=Dpkg::options::=--force-unsafe-io', '--assume-yes', '--quiet'] # # apt_get_upgrade_subcommand: # Specify a different subcommand for 'upgrade. The default is 'dist-upgrade'. # This is the subcommand that is invoked if package_upgrade is set to true above. # Install additional packages on first boot # # Default: none # # if packages are specified, this apt_update will be set to true # packages: - pwgen - pastebinit # set up mount points # 'mounts' contains a list of lists # the inner list are entries for an /etc/fstab line # ie : [ fs_spec, fs_file, fs_vfstype, fs_mntops, fs-freq, fs_passno ] # # default: # mounts: # - [ ephemeral0, /mnt ] # - [ swap, none, swap, sw, 0, 0 ] # # in order to remove a previously listed mount (ie, one from defaults) # list only the fs_spec. For example, to override the default, of # mounting swap: # - [ swap ] # or # - [ swap, null ] # # - if a device does not exist at the time, an entry will still be # written to /etc/fstab. # - '/dev' can be ommitted for device names that begin with: xvd, sd, hd, vd # - if an entry does not have all 6 fields, they will be filled in # with values from 'mount_default_fields' below. # # Note, that you should set 'nobootwait' (see man fstab) for volumes that may # not be attached at instance boot (or reboot) # mounts: - [ ephemeral0, /mnt, auto, "defaults,noexec" ] - [ sdc, /opt/data ] - [ xvdh, /opt/data, "auto", "defaults,nobootwait", "0", "0" ] - [ dd, /dev/zero ] # mount_default_fields # These values are used to fill in any entries in 'mounts' that are not # complete. This must be an array, and must have 7 fields. mount_default_fields: [ None, None, "auto", "defaults,nobootwait", "0", "2" ] # add each entry to ~/.ssh/authorized_keys for the configured user or the # first user defined in the user definition directive. ssh_authorized_keys: - ssh-rsa AAAAB3NzaC1yc2EAAAABIwAAAGEA3FSyQwBI6Z+nCSjUUk8EEAnnkhXlukKoUPND/RRClWz2s5TCzIkd3Ou5+Cyz71X0XmazM3l5WgeErvtIwQMyT1KjNoMhoJMrJnWqQPOt5Q8zWd9qG7PBl9+eiH5qV7NZ mykey@host - ssh-rsa AAAAB3NzaC1yc2EAAAABIwAAAQEA3I7VUf2l5gSn5uavROsc5HRDpZdQueUq5ozemNSj8T7enqKHOEaFoU2VoPgGEWC9RyzSQVeyD6s7APMcE82EtmW4skVEgEGSbDc1pvxzxtchBj78hJP6Cf5TCMFSXw+Fz5rF1dR23QDbN1mkHs7adr8GW4kSWqU7Q7NDwfIrJJtO7Hi42GyXtvEONHbiRPOe8stqUly7MvUoN+5kfjBM8Qqpfl2+FNhTYWpMfYdPUnE7u536WqzFmsaqJctz3gBxH9Ex7dFtrxR4qiqEr9Qtlu3xGn7Bw07/+i1D+ey3ONkZLN+LQ714cgj8fRS4Hj29SCmXp5Kt5/82cD/VN3NtHw== smoser@brickies # Send pre-generated ssh private keys to the server # If these are present, they will be written to /etc/ssh and # new random keys will not be generated # in addition to 'rsa' and 'dsa' as shown below, 'ecdsa' is also supported ssh_keys: rsa_private: | -----BEGIN RSA PRIVATE KEY----- MIIBxwIBAAJhAKD0YSHy73nUgysO13XsJmd4fHiFyQ+00R7VVu2iV9Qcon2LZS/x 1cydPZ4pQpfjEha6WxZ6o8ci/Ea/w0n+0HGPwaxlEG2Z9inNtj3pgFrYcRztfECb 1j6HCibZbAzYtwIBIwJgO8h72WjcmvcpZ8OvHSvTwAguO2TkR6mPgHsgSaKy6GJo PUJnaZRWuba/HX0KGyhz19nPzLpzG5f0fYahlMJAyc13FV7K6kMBPXTRR6FxgHEg L0MPC7cdqAwOVNcPY6A7AjEA1bNaIjOzFN2sfZX0j7OMhQuc4zP7r80zaGc5oy6W p58hRAncFKEvnEq2CeL3vtuZAjEAwNBHpbNsBYTRPCHM7rZuG/iBtwp8Rxhc9I5w ixvzMgi+HpGLWzUIBS+P/XhekIjPAjA285rVmEP+DR255Ls65QbgYhJmTzIXQ2T9 luLvcmFBC6l35Uc4gTgg4ALsmXLn71MCMGMpSWspEvuGInayTCL+vEjmNBT+FAdO W7D4zCpI43jRS9U06JVOeSc9CDk2lwiA3wIwCTB/6uc8Cq85D9YqpM10FuHjKpnP REPPOyrAspdeOAV+6VKRavstea7+2DZmSUgE -----END RSA PRIVATE KEY----- rsa_public: ssh-rsa AAAAB3NzaC1yc2EAAAABIwAAAGEAoPRhIfLvedSDKw7XdewmZ3h8eIXJD7TRHtVW7aJX1ByifYtlL/HVzJ09nilCl+MSFrpbFnqjxyL8Rr/DSf7QcY/BrGUQbZn2Kc22PemAWthxHO18QJvWPocKJtlsDNi3 smoser@localhost dsa_private: | -----BEGIN DSA PRIVATE KEY----- MIIBuwIBAAKBgQDP2HLu7pTExL89USyM0264RCyWX/CMLmukxX0Jdbm29ax8FBJT pLrO8TIXVY5rPAJm1dTHnpuyJhOvU9G7M8tPUABtzSJh4GVSHlwaCfycwcpLv9TX DgWIpSj+6EiHCyaRlB1/CBp9RiaB+10QcFbm+lapuET+/Au6vSDp9IRtlQIVAIMR 8KucvUYbOEI+yv+5LW9u3z/BAoGBAI0q6JP+JvJmwZFaeCMMVxXUbqiSko/P1lsa LNNBHZ5/8MOUIm8rB2FC6ziidfueJpqTMqeQmSAlEBCwnwreUnGfRrKoJpyPNENY d15MG6N5J+z81sEcHFeprryZ+D3Ge9VjPq3Tf3NhKKwCDQ0240aPezbnjPeFm4mH bYxxcZ9GAoGAXmLIFSQgiAPu459rCKxT46tHJtM0QfnNiEnQLbFluefZ/yiI4DI3 8UzTCOXLhUA7ybmZha+D/csj15Y9/BNFuO7unzVhikCQV9DTeXX46pG4s1o23JKC /QaYWNMZ7kTRv+wWow9MhGiVdML4ZN4XnifuO5krqAybngIy66PMEoQCFEIsKKWv 99iziAH0KBMVbxy03Trz -----END DSA PRIVATE KEY----- dsa_public: ssh-dss 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 smoser@localhost # remove access to the ec2 metadata service early in boot via null route # the null route can be removed (by root) with: # route del -host 169.254.169.254 reject # default: false (service available) disable_ec2_metadata: true # run commands # default: none # runcmd contains a list of either lists or a string # each item will be executed in order at rc.local like level with # output to the console # - if the item is a list, the items will be properly executed as if # passed to execve(3) (with the first arg as the command). # - if the item is a string, it will be simply written to the file and # will be interpreted by 'sh' # # Note, that the list has to be proper yaml, so you have to escape # any characters yaml would eat (':' can be problematic) runcmd: - [ ls, -l, / ] - [ sh, -xc, "echo $(date) ': hello world!'" ] - [ sh, -c, echo "=========hello world'=========" ] - ls -l /root - [ wget, "http://slashdot.org", -O, /tmp/index.html ] # boot commands # default: none # this is very similar to runcmd above, but commands run very early # in the boot process, only slightly after a 'boothook' would run. # bootcmd should really only be used for things that could not be # done later in the boot process. bootcmd is very much like # boothook, but possibly with more friendly. # * bootcmd will run on every boot # * the INSTANCE_ID variable will be set to the current instance id. # * you can use 'cloud-init-per' command to help only run once bootcmd: - echo 192.168.1.130 us.archive.ubuntu.com > /etc/hosts - [ cloud-init-per, once, mymkfs, mkfs, /dev/vdb ] # cloud_config_modules: # default: # cloud_config_modules: # - mounts # - ssh # - apt-update-upgrade # - puppet # - updates-check # - disable-ec2-metadata # - runcmd # # This is an array of arrays or strings. # if item is a string, then it is read as a module name # if the item is an array it is of the form: # name, frequency, arguments # where 'frequency' is one of: # once-per-instance # always # a python file in the CloudConfig/ module directory named # cc_.py # example: cloud_config_modules: - mounts - ssh-import-id - ssh - grub-dpkg - [ apt-update-upgrade, always ] - puppet - updates-check - disable-ec2-metadata - runcmd - byobu # ssh_import_id: [ user1, user2 ] # ssh_import_id will feed the list in that variable to # ssh-import-id, so that public keys stored in launchpad # can easily be imported into the configured user # This can be a single string ('smoser') or a list ([smoser, kirkland]) ssh_import_id: [smoser] # Provide debconf answers / debian preseed values # # See debconf-set-selections man page. # # Default: none # debconf_selections: | # Need to perserve newlines # Force debconf priority to critical. debconf debconf/priority select critical # Override default frontend to readline, but allow user to select. debconf debconf/frontend select readline debconf debconf/frontend seen false # manage byobu defaults # byobu_by_default: # 'user' or 'enable-user': set byobu 'launch-by-default' for the default user # 'system' or 'enable-system' or 'enable': # enable 'launch-by-default' for all users, do not modify default user # 'disable': disable both default user and system # 'disable-system': disable system # 'disable-user': disable for default user # not-set: no changes made byobu_by_default: system # disable ssh access as root. # if you want to be able to ssh in to the system as the root user # rather than as the 'ubuntu' user, then you must set this to false # default: true disable_root: false # disable_root_opts: the value of this variable will prefix the # respective key in /root/.ssh/authorized_keys if disable_root is true # see 'man authorized_keys' for more information on what you can do here # # The string '$USER' will be replaced with the username of the default user # # disable_root_opts: no-port-forwarding,no-agent-forwarding,no-X11-forwarding,command="echo 'Please login as the user \"$USER\" rather than the user \"root\".';echo;sleep 10" # set the locale to a given locale # default: en_US.UTF-8 locale: en_US.UTF-8 # render template default-locale.tmpl to locale_configfile locale_configfile: /etc/default/locale # add entries to rsyslog configuration # The first occurance of a given filename will truncate. # subsequent entries will append. # if value is a scalar, its content is assumed to be 'content', and the # default filename is used. # if filename is not provided, it will default to 'rsylog_filename' # if filename does not start with a '/', it will be put in 'rsyslog_dir' # rsyslog_dir default: /etc/rsyslog.d # rsyslog_filename default: 20-cloud-config.conf rsyslog: - ':syslogtag, isequal, "[CLOUDINIT]" /var/log/cloud-foo.log' - content: "*.* @@192.0.2.1:10514" - filename: 01-examplecom.conf content: "*.* @@syslogd.example.com" # resize_rootfs should the / filesytem be resized on first boot # this allows you to launch an instance with a larger disk / partition # and have the instance automatically grow / to accomoddate it # set to 'False' to disable # by default, the resizefs is done early in boot, and blocks # if resize_rootfs is set to 'noblock', then it will be run in parallel resize_rootfs: True ## hostname and /etc/hosts management # cloud-init can handle updating some entries in /etc/hosts, # and can set your hostname for you. # # if you do nothing you'll end up with: # * /etc/hostname (and `hostname`) managed via: 'preserve_hostame: false' # if you do not change /etc/hostname, it will be updated with the cloud # provided hostname on each boot. If you make a change, then manual # maintenance takes over, and cloud-init will not modify it. # # * /etc/hosts managed via: 'manage_etc_hosts: false' # cloud-init will not manage /etc/hosts at all. It is in full manual # maintenance mode. # # You can change the above behavior with the following config variables: # Remember that these can be set in cloud-config via user-data, # /etc/cloud/cloud.cfg or any file in /etc/cloud/cloud.cfg.d/ # # == Hostname management (via /etc/hostname) == # * preserve_hostname: # default: False # If this option is set to True, then /etc/hostname will never updated # The default behavior is to update it if it has not been modified by # the user. # # * hostname: # this option will be used wherever the 'hostname' is needed # simply substitute it in the description above. # ** If you wish to set your hostname, set it here ** # default: 'hostname' as returned by the metadata service # on EC2, the hostname portion of 'local-hostname' is used # which is something like 'ip-10-244-170-199' # # * fqdn: # this option will be used wherever 'fqdn' is needed. # simply substitue it in the description above. # default: fqdn as returned by the metadata service. on EC2 'hostname' # is used, so this is like: ip-10-244-170-199.ec2.internal # # == /etc/hosts management == # # The cloud-config variable that covers management of /etc/hosts is # 'manage_etc_hosts' # # By default, its value is 'false' (boolean False) # # * manage_etc_hosts: # default: false # # false: # cloud-init will not modify /etc/hosts at all. # * Whatever is present at instance boot time will be present after boot. # * User changes will not be overwritten # # true or 'template': # on every boot, /etc/hosts will be re-written from # /etc/cloud/templates/hosts.tmpl. # The strings '$hostname' and '$fqdn' are replaced in the template # with the appropriate values. # To make modifications persistant across a reboot, you must make # modificatoins to /etc/cloud/templates/hosts.tmpl # # localhost: # This option ensures that an entry is present for fqdn as described in # section 5.1.2 of the debian manual # http://www.debian.org/doc/manuals/debian-reference/ch05.en.html # # cloud-init will generally own the 127.0.1.1 entry, and will update # it to the hostname and fqdn on every boot. All other entries will # be left as is. 'ping `hostname`' will ping 127.0.1.1 # # If you want a fqdn entry with aliases other than 'hostname' to resolve # to a localhost interface, you'll need to use something other than # 127.0.1.1. For example: # 127.0.1.2 myhost.fqdn.example.com myhost whatup.example.com # final_message # default: cloud-init boot finished at $TIMESTAMP. Up $UPTIME seconds # this message is written by cloud-final when the system is finished # its first boot final_message: "The system is finally up, after $UPTIME seconds" # configure where output will go # 'output' entry is a dict with 'init', 'config', 'final' or 'all' # entries. Each one defines where # cloud-init, cloud-config, cloud-config-final or all output will go # each entry in the dict can be a string, list or dict. # if it is a string, it refers to stdout and stderr # if it is a list, entry 0 is stdout, entry 1 is stderr # if it is a dict, it is expected to have 'output' and 'error' fields # default is to write to console only # the special entry "&1" for an error means "same location as stdout" # (Note, that '&1' has meaning in yaml, so it must be quoted) output: init: "> /var/log/my-cloud-init.log" config: [ ">> /tmp/foo.out", "> /tmp/foo.err" ] final: output: "| tee /tmp/final.stdout | tee /tmp/bar.stdout" error: "&1" # phone_home: if this dictionary is present, then the phone_home # cloud-config module will post specified data back to the given # url # default: none # phone_home: # url: http://my.foo.bar/$INSTANCE/ # post: all # tries: 10 # phone_home: url: http://my.example.com/$INSTANCE_ID/ post: [ pub_key_dsa, pub_key_rsa, pub_key_ecdsa, instance_id ] # timezone: set the timezone for this instance # the value of 'timezone' must exist in /usr/share/zoneinfo timezone: US/Eastern # def_log_file and syslog_fix_perms work together # if # - logging is set to go to a log file 'L' both with and without syslog # - and 'L' does not exist # - and syslog is configured to write to 'L' # then 'L' will be initially created with root:root ownership (during # cloud-init), and then at cloud-config time (when syslog is available) # the syslog daemon will be unable to write to the file. # # to remedy this situation, 'def_log_file' can be set to a filename # and syslog_fix_perms to a string containing ":" # # the default values are '/var/log/cloud-init.log' and 'syslog:adm' # the value of 'def_log_file' should match what is configured in logging # if either is empty, then no change of ownership will be done def_log_file: /var/log/my-logging-file.log syslog_fix_perms: syslog:root # you can set passwords for a user or multiple users # this is off by default. # to set the default user's password, use the 'password' option. # if set, to 'R' or 'RANDOM', then a random password will be # generated and written to stdout (the console) # password: passw0rd # # also note, that this will expire the password, forcing a change # on first login. If you do not want to expire, see 'chpasswd' below. # # By default in the UEC images password authentication is disabled # Thus, simply setting 'password' as above will only allow you to login # via the console. # # in order to enable password login via ssh you must set # 'ssh_pwauth'. # If it is set, to 'True' or 'False', then sshd_config will be updated # to ensure the desired function. If not set, or set to '' or 'unchanged' # then sshd_config will not be updated. # ssh_pwauth: True # # there is also an option to set multiple users passwords, using 'chpasswd' # That looks like the following, with 'expire' set to 'True' by default. # to not expire users passwords, set 'expire' to 'False': # chpasswd: # list: | # user1:password1 # user2:RANDOM # expire: True # ssh_pwauth: [ True, False, "" or "unchanged" ] # # So, a simple working example to allow login via ssh, and not expire # for the default user would look like: password: passw0rd chpasswd: { expire: False } ssh_pwauth: True # manual cache clean. # By default, the link from /var/lib/cloud/instance to # the specific instance in /var/lib/cloud/instances/ is removed on every # boot. The cloud-init code then searches for a DataSource on every boot # if your DataSource will not be present on every boot, then you can set # this option to 'True', and maintain (remove) that link before the image # will be booted as a new instance. # default is False manual_cache_clean: False # When cloud-init is finished running including having run # cloud_init_modules, then it will run this command. The default # is to emit an upstart signal as shown below. If the value is a # list, it will be passed to Popen. If it is a string, it will be # invoked through 'sh -c'. # # default value: # cc_ready_cmd: [ initctl, emit, cloud-config, CLOUD_CFG=/var/lib/instance//cloud-config.txt ] # example: # cc_ready_cmd: [ sh, -c, 'echo HI MOM > /tmp/file' ] ## configure interaction with ssh server # ssh_svcname: ssh # set the name of the option to 'service restart' # in order to restart the ssh daemon. For fedora, use 'sshd' # default: ssh # ssh_deletekeys: True # boolean indicating if existing ssh keys should be deleted on a # per-instance basis. On a public image, this should absolutely be set # to 'True' # ssh_genkeytypes: ['rsa', 'dsa', 'ecdsa'] # a list of the ssh key types that should be generated # These are passed to 'ssh-keygen -t' ## configuration of ssh keys output to console # ssh_fp_console_blacklist: [] # ssh_key_console_blacklist: [ssh-dss] # A list of key types (first token of a /etc/ssh/ssh_key_*.pub file) # that should be skipped when outputting key fingerprints and keys # to the console respectively. ## poweroff or reboot system after finished # default: none # # power_state can be used to make the system shutdown, reboot or # halt after boot is finished. This same thing can be acheived by # user-data scripts or by runcmd by simply invoking 'shutdown'. # # Doing it this way ensures that cloud-init is entirely finished with # modules that would be executed, and avoids any error/log messages # that may go to the console as a result of system services like # syslog being taken down while cloud-init is running. # # delay: form accepted by shutdown. default is 'now'. other format # accepted is +m (m in minutes) # mode: required. must be one of 'poweroff', 'halt', 'reboot' # message: provided as the message argument to 'shutdown'. default is none. power_state: delay: 30 mode: poweroff message: Bye Bye