You can configure OpenStack to write metadata to a special configuration drive that attaches to the instance when it boots. The instance can mount this drive and read files from it to get information that is normally available through the metadata service. This metadata is different from the user data.
One use case for using the configuration drive is to pass a networking configuration when you do not use DHCP to assign IP addresses to instances. For example, you might pass the IP address configuration for the instance through the configuration drive, which the instance can mount and access before you configure the network settings for the instance.
Any modern guest operating system that is capable of mounting an ISO 9660 or VFAT file system can use the configuration drive.
To use the configuration drive, you must follow the following requirements for the compute host and image.
Compute host requirements
The following hypervisors support the configuration drive: libvirt, XenServer, Hyper-V, and VMware.
Also, the Bare Metal service supports the configuration drive.
To use configuration drive with libvirt, XenServer, or VMware, you must first install the genisoimage package on each compute host. Otherwise, instances do not boot properly.
Use the mkisofs_cmd
flag to set the path where you install the
genisoimage program. If genisoimage is in same path as the
nova-compute
service, you do not need to set this flag.
To use configuration drive with Hyper-V, you must set the
mkisofs_cmd
value to the full path to an mkisofs.exe
installation. Additionally, you must set the qemu_img_cmd
value
in the hyperv
configuration section to the full path to an
qemu-img command installation.
To use configuration drive with the Bare Metal service, you do not need to prepare anything because the Bare Metal service treats the configuration drive properly.
Image requirements
xenapi_disable_agent
configuration parameter to disable the
agent.Guidelines
ec2
directory.openstack
directory, always
select the highest API version by date that your consumer supports.
For example, if your guest image supports the 2012-03-05, 2012-08-05,
and 2013-04-13 versions, try 2013-04-13 first and fall back to a
previous version if 2013-04-13 is not present.To enable the configuration drive, pass the --config-drive true
parameter to the openstack server create command.
The following example enables the configuration drive and passes user data, two files, and two key/value metadata pairs, all of which are accessible from the configuration drive:
$ openstack server create --config-drive true --image my-image-name \
--flavor 1 --key-name mykey --user-data ./my-user-data.txt \
--file /etc/network/interfaces=/home/myuser/instance-interfaces \
--file known_hosts=/home/myuser/.ssh/known_hosts \
--property role=webservers --property essential=false MYINSTANCE
You can also configure the Compute service to always create a
configuration drive by setting the following option in the
/etc/nova/nova.conf
file:
force_config_drive = true
Note
If a user passes the --config-drive true
flag to the nova
boot command, an administrator cannot disable the configuration
drive.
If your guest operating system supports accessing disk by label, you
can mount the configuration drive as the
/dev/disk/by-label/configurationDriveVolumeLabel
device. In the
following example, the configuration drive has the config-2
volume label:
# mkdir -p /mnt/config
# mount /dev/disk/by-label/config-2 /mnt/config
Note
Ensure that you use at least version 0.3.1 of CirrOS for configuration drive support.
If your guest operating system does not use udev
, the
/dev/disk/by-label
directory is not present.
You can use the blkid command to identify the block device that
corresponds to the configuration drive. For example, when you boot
the CirrOS image with the m1.tiny
flavor, the device is
/dev/vdb
:
# blkid -t LABEL="config-2" -odevice
/dev/vdb
Once identified, you can mount the device:
# mkdir -p /mnt/config
# mount /dev/vdb /mnt/config
In this example, the contents of the configuration drive are as follows:
ec2/2009-04-04/meta-data.json
ec2/2009-04-04/user-data
ec2/latest/meta-data.json
ec2/latest/user-data
openstack/2012-08-10/meta_data.json
openstack/2012-08-10/user_data
openstack/content
openstack/content/0000
openstack/content/0001
openstack/latest/meta_data.json
openstack/latest/user_data
The files that appear on the configuration drive depend on the arguments that you pass to the openstack server create command.
The following example shows the contents of the
openstack/2012-08-10/meta_data.json
and
openstack/latest/meta_data.json
files. These files are identical.
The file contents are formatted for readability.
{
"availability_zone": "nova",
"files": [
{
"content_path": "/content/0000",
"path": "/etc/network/interfaces"
},
{
"content_path": "/content/0001",
"path": "known_hosts"
}
],
"hostname": "test.novalocal",
"launch_index": 0,
"name": "test",
"meta": {
"role": "webservers",
"essential": "false"
},
"public_keys": {
"mykey": "ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAAAgQDBqUfVvCSez0/Wfpd8dLLgZXV9GtXQ7hnMN+Z0OWQUyebVEHey1CXuin0uY1cAJMhUq8j98SiW+cU0sU4J3x5l2+xi1bodDm1BtFWVeLIOQINpfV1n8fKjHB+ynPpe1F6tMDvrFGUlJs44t30BrujMXBe8Rq44cCk6wqyjATA3rQ== Generated by Nova\n"
},
"uuid": "83679162-1378-4288-a2d4-70e13ec132aa"
}
Note the effect of the
--file /etc/network/interfaces=/home/myuser/instance-interfaces
argument that was passed to the openstack server create command.
The contents of this file are contained in the openstack/content/0000
file on the configuration drive, and the path is specified as
/etc/network/interfaces
in the meta_data.json
file.
The following example shows the contents of the
ec2/2009-04-04/meta-data.json
and the ec2/latest/meta-data.json
files. These files are identical. The file contents are formatted to
improve readability.
{
"ami-id": "ami-00000001",
"ami-launch-index": 0,
"ami-manifest-path": "FIXME",
"block-device-mapping": {
"ami": "sda1",
"ephemeral0": "sda2",
"root": "/dev/sda1",
"swap": "sda3"
},
"hostname": "test.novalocal",
"instance-action": "none",
"instance-id": "i-00000001",
"instance-type": "m1.tiny",
"kernel-id": "aki-00000002",
"local-hostname": "test.novalocal",
"local-ipv4": null,
"placement": {
"availability-zone": "nova"
},
"public-hostname": "test.novalocal",
"public-ipv4": "",
"public-keys": {
"0": {
"openssh-key": "ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAAAgQDBqUfVvCSez0/Wfpd8dLLgZXV9GtXQ7hnMN+Z0OWQUyebVEHey1CXuin0uY1cAJMhUq8j98SiW+cU0sU4J3x5l2+xi1bodDm1BtFWVeLIOQINpfV1n8fKjHB+ynPpe1F6tMDvrFGUlJs44t30BrujMXBe8Rq44cCk6wqyjATA3rQ== Generated by Nova\n"
}
},
"ramdisk-id": "ari-00000003",
"reservation-id": "r-7lfps8wj",
"security-groups": [
"default"
]
}
The openstack/2012-08-10/user_data
, openstack/latest/user_data
,
ec2/2009-04-04/user-data
, and ec2/latest/user-data
file are
present only if the --user-data
flag and the contents of the user
data file are passed to the openstack server create command.
The default format of the configuration drive as an ISO 9660 file
system. To explicitly specify the ISO 9660 format, add the following
line to the /etc/nova/nova.conf
file:
config_drive_format=iso9660
By default, you cannot attach the configuration drive image as a CD
drive instead of as a disk drive. To attach a CD drive, add the
following line to the /etc/nova/nova.conf
file:
config_drive_cdrom=true
For legacy reasons, you can configure the configuration drive to use
VFAT format instead of ISO 9660. It is unlikely that you would require
VFAT format because ISO 9660 is widely supported across operating
systems. However, to use the VFAT format, add the following line to the
/etc/nova/nova.conf
file:
config_drive_format=vfat
If you choose VFAT, the configuration drive is 64 MB.
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