mNo edit summary |
m (get cirros-0.3.0-x86_64-rootfs.img.gz from launchpad.net) |
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We also need a rootfs-style image, which may be download from: | We also need a rootfs-style image, which may be download from: | ||
$> wget | $> wget https://launchpad.net/cirros/trunk/0.3.0/+download/cirros-0.3.0-x86_64-rootfs.img.gz | ||
Finally, we assume that the nova-volume service or cinder is enabled and running. | Finally, we assume that the nova-volume service or cinder is enabled and running. | ||
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Also note that for the volume-backed instance you've fired up, there is a volume cloned from the corresponding snapshot: | Also note that for the volume-backed instance you've fired up, there is a volume cloned from the corresponding snapshot: | ||
$> | $> cinder list | ||
}} | }} |
Revision as of 12:07, 26 October 2012
Description
Nova instances can be booted from volume, analogous to EBS-backed volumes in EC2.
We construct a bootable volume, then fire up an instance backed by this volume.
Setup
We assume that an instance has already been booted in the previous test case, and we use this as a builder to facilitate the creation of a bootable volume.
We also need a rootfs-style image, which may be download from:
$> wget https://launchpad.net/cirros/trunk/0.3.0/+download/cirros-0.3.0-x86_64-rootfs.img.gz
Finally, we assume that the nova-volume service or cinder is enabled and running.
How to test
Create a 1Gb volume, which we will make bootable:
$> cinder create --display_name=bootable_volume 1 $> VOLUME_ID=$(cinder list | awk '/bootable_volume/ {print $2}')
and wait for the volume to become available:
$> watch "cinder show bootable_volume | grep status"
Temporarily attach volume to your builder instance, this will allow us to copy image data into the volume
$> nova volume-attach $INSTANCE $VOLUME_ID /dev/vdb
Wait for the volume status to show as in-use:
$> watch "cinder show bootable_volume | grep status"
Format and mount volume to a staging mount point:
$> ssh -o StrictHostKeyChecking=no -i nova_key.priv $USER_NAME@$IP_ADDR << EOF set -o errexit set -o xtrace sudo mkdir -p /tmp/stage sudo mkfs.ext3 -b 1024 /dev/vdb 1048576 sudo mount /dev/vdb /tmp/stage sudo touch /tmp/stage/cirros-0.3.0-x86_64-rootfs.img.gz sudo chown $USER_NAME /tmp/stage/cirros-0.3.0-x86_64-rootfs.img.gz EOF
Copy image to the staging directory on the builder instance:
$> scp -o StrictHostKeyChecking=no -i nova_key.priv cirros-0.3.0-x86_64-rootfs.img.gz $USER_NAME@$IP_ADDR:/tmp/stage
Unpack image into the volume (don't worry about an unmount failure).
$> ssh -o StrictHostKeyChecking=no -i nova_key.priv $USER_NAME@$IP_ADDR << EOF set -o errexit set -o xtrace cd /tmp/stage sudo mkdir -p /tmp/image sudo gunzip cirros-0.3.0-x86_64-rootfs.img.gz sudo mount cirros-0.3.0-x86_64-rootfs.img /tmp/image sudo cp -pr /tmp/image/* /tmp/stage/ cd sync sudo umount /tmp/image sudo umount /tmp/stage || true EOF
Detach volume for the builder instance:
$> nova volume-detach $INSTANCE $VOLUME_ID
and wait for the volume status to show as availble:
$> watch "cinder show bootable_volume | grep status"
Now snapshot the bootable volume we just created:
$> cinder snapshot-create --display_name bootable_snapshot $VOLUME_ID
and wait for the snapshot to become available:
$> watch "cinder snapshot-show bootable_snapshot" $> SNAPSHOT_ID=$(cinder snapshot-list | awk '/bootable_snapshot/ {print $2}')
Now we can boot from the bootable volume. We use the same image as the builder instance, but that is only in order to retrieve the image properties.
$> IMAGE_ID=$(glance image-list | grep $(nova show $INSTANCE | awk '/image/ {print $4}') | awk '{print $2}') $> nova boot --flavor 1 --image $IMAGE_ID --block_device_mapping vda=${SNAPSHOT_ID}:snap::0 --key_name nova_key volume_backed
Expected Results
You should be able able to ssh into the volume-backed instance.
Also note that for the volume-backed instance you've fired up, there is a volume cloned from the corresponding snapshot:
$> cinder list