This change makes it clearer that scheduling based on resource classes is the default now. Also fixes small issues and nits spotted on review I22234aafdd195dd76c621b93042a67cdb36f3e65. Change-Id: Ia9a06d6b59024781069bb6fd9a9fb18e1217a949
13 KiB
Troubleshooting Ironic
Nova returns "No valid host was found" Error
Sometimes Nova Conductor log file "nova-conductor.log" or a message returned from Nova API contains the following error:
NoValidHost: No valid host was found. There are not enough hosts available.
"No valid host was found" means that the Nova Scheduler could not find a bare metal node suitable for booting the new instance.
This in turn usually means some mismatch between resources that Nova expects to find and resources that Ironic advertised to Nova.
A few things should be checked in this case:
Make sure that enough nodes are in
available
state, not in maintenance mode and not already used by an existing instance. Check with the following command:openstack baremetal node list --provision-state available --no-maintenance --unassociated
If this command does not show enough nodes, use generic
openstack baremetal node list
to check other nodes. For example, nodes inmanageable
state should be made available:openstack baremetal node provide <IRONIC NODE>
The Bare metal service automatically puts a node in maintenance mode if there are issues with accessing its management interface. Check the power credentials (e.g.
ipmi_address
,ipmi_username
andipmi_password
) and then move the node out of maintenance mode:openstack baremetal node maintenance unset <IRONIC NODE>
The
node validate
command can be used to verify that all required fields are present. The following command should not return anything:openstack baremetal node validate <IRONIC NODE> | grep -E '(power|management)\W*False'
Maintenance mode will be also set on a node if automated cleaning has failed for it previously.
Starting with the Pike release, check that all your nodes have the
resource_class
field set using the following command:openstack --os-baremetal-api-version 1.21 baremetal node list --fields uuid name resource_class
Then check that the flavor(s) are configured to request these resource classes via their properties:
openstack flavor show <FLAVOR NAME> -f value -c properties
For example, if your node has resource class
baremetal-large
, it will be matched by a flavor with propertyresources:CUSTOM_BAREMETAL_LARGE
set to1
. See/install/configure-nova-flavors
for more details on the correct configuration.If you do not use scheduling based on resource classes, then the node's properties must have been set either manually or via inspection. For each node with
available
state check that theproperties
JSON field has valid values for the keyscpus
,cpu_arch
,memory_mb
andlocal_gb
. Example of valid properties:$ openstack baremetal node show <IRONIC NODE> --fields properties +------------+------------------------------------------------------------------------------------+ | Property | Value | +------------+------------------------------------------------------------------------------------+ | properties | {u'memory_mb': u'8192', u'cpu_arch': u'x86_64', u'local_gb': u'41', u'cpus': u'4'} | +------------+------------------------------------------------------------------------------------+
Warning
If you're using exact match filters in the Nova Scheduler, make sure the flavor and the node properties match exactly.
The Nova flavor that you are using does not match any properties of the available Ironic nodes. Use :
openstack flavor show <FLAVOR NAME>
to compare. The extra specs in your flavor starting with
capability:
should match ones innode.properties['capabilities']
.Note
The format of capabilities is different in Nova and Ironic. E.g. in Nova flavor:
$ openstack flavor show <FLAVOR NAME> -c properties
Field Value properties capabilities:boot_option='local' But in Ironic node:
$ openstack baremetal node show <IRONIC NODE> --fields properties
Property Value properties {u'capabilities': u'boot_option:local'} After making changes to nodes in Ironic, it takes time for those changes to propagate from Ironic to Nova. Check that :
openstack hypervisor stats show
correctly shows total amount of resources in your system. You can also check
openstack hypervisor show <IRONIC NODE>
to see the status of individual Ironic nodes as reported to Nova.Figure out which Nova Scheduler filter ruled out your nodes. Check the
nova-scheduler
logs for lines containing something like:Filter ComputeCapabilitiesFilter returned 0 hosts
The name of the filter that removed the last hosts may give some hints on what exactly was not matched. See Nova filters documentation for more details.
If none of the above helped, check Ironic conductor log carefully to see if there are any conductor-related errors which are the root cause for "No valid host was found". If there are any "Error in deploy of node <IRONIC-NODE-UUID>: [Errno 28] ..." error messages in Ironic conductor log, it means the conductor run into a special error during deployment. So you can check the log carefully to fix or work around and then try again.
Patching the Deploy Ramdisk
When debugging a problem with deployment and/or inspection you may want to quickly apply a change to the ramdisk to see if it helps. Of course you can inject your code and/or SSH keys during the ramdisk build (depends on how exactly you've built your ramdisk). But it's also possible to quickly modify an already built ramdisk.
Create an empty directory and unpack the ramdisk content there:
mkdir unpack
cd unpack
gzip -dc /path/to/the/ramdisk | cpio -id
The last command will result in the whole Linux file system tree unpacked in the current directory. Now you can modify any files you want. The actual location of the files will depend on the way you've built the ramdisk.
After you've done the modifications, pack the whole content of the current directory back:
find . | cpio -H newc -o > /path/to/the/new/ramdisk
Note
You don't need to modify the kernel (e.g.
tinyipa-master.vmlinuz
), only the ramdisk part.
Note
For CoreOS-based ramdisk you also need to unpack and pack back the squashfs archive inside the unpacked ramdisk.
API Errors
The debug_tracebacks_in_api config option may be set to return tracebacks in the API response for all 4xx and 5xx errors.
Retrieving logs from the deploy ramdisk
When troubleshooting deployments (specially in case of a deploy
failure) it's important to have access to the deploy ramdisk logs to be
able to identify the source of the problem. By default, Ironic will
retrieve the logs from the deploy ramdisk when the deployment fails and
save it on the local filesystem at
/var/log/ironic/deploy
.
To change this behavior, operators can make the following changes to
/etc/ironic/ironic.conf
under the [agent]
group:
deploy_logs_collect
: Whether Ironic should collect the deployment logs on deployment. Valid values for this option are:on_failure
(default): Retrieve the deployment logs upon a deployment failure.always
: Always retrieve the deployment logs, even if the deployment succeed.never
: Disable retrieving the deployment logs.
deploy_logs_storage_backend
: The name of the storage backend where the logs will be stored. Valid values for this option are:local
(default): Store the logs in the local filesystem.swift
: Store the logs in Swift.
deploy_logs_local_path
: The path to the directory where the logs should be stored, used when thedeploy_logs_storage_backend
is configured tolocal
. By default logs will be stored at /var/log/ironic/deploy.deploy_logs_swift_container
: The name of the Swift container to store the logs, used when the deploy_logs_storage_backend is configured to "swift". By default ironic_deploy_logs_container.deploy_logs_swift_days_to_expire
: Number of days before a log object is marked as expired in Swift. If None, the logs will be kept forever or until manually deleted. Used when the deploy_logs_storage_backend is configured to "swift". By default 30 days.
When the logs are collected, Ironic will store a tar.gz file
containing all the logs according to the
deploy_logs_storage_backend
configuration option. All log
objects will be named with the following pattern:
<node-uuid>[_<instance-uuid>]_<timestamp yyyy-mm-dd-hh:mm:ss>.tar.gz
Note
The instance_uuid field is not required for deploying a node when Ironic is configured to be used in standalone mode. If present it will be appended to the name.
Accessing the log data
When storing in the local filesystem
When storing the logs in the local filesystem, the log files can be
found at the path configured in the deploy_logs_local_path
configuration option. For example, to find the logs from the node
5e9258c4-cfda-40b6-86e2-e192f523d668
:
$ ls /var/log/ironic/deploy | grep 5e9258c4-cfda-40b6-86e2-e192f523d668
5e9258c4-cfda-40b6-86e2-e192f523d668_88595d8a-6725-4471-8cd5-c0f3106b6898_2016-08-08-13:52:12.tar.gz
5e9258c4-cfda-40b6-86e2-e192f523d668_db87f2c5-7a9a-48c2-9a76-604287257c1b_2016-08-08-14:07:25.tar.gz
Note
When saving the logs to the filesystem, operators may want to enable some form of rotation for the logs to avoid disk space problems.
When storing in Swift
When using Swift, operators can associate the objects in the
container with the nodes in Ironic and search for the logs for the node
5e9258c4-cfda-40b6-86e2-e192f523d668
using the
prefix parameter. For example:
$ swift list ironic_deploy_logs_container -p 5e9258c4-cfda-40b6-86e2-e192f523d668
5e9258c4-cfda-40b6-86e2-e192f523d668_88595d8a-6725-4471-8cd5-c0f3106b6898_2016-08-08-13:52:12.tar.gz
5e9258c4-cfda-40b6-86e2-e192f523d668_db87f2c5-7a9a-48c2-9a76-604287257c1b_2016-08-08-14:07:25.tar.gz
To download a specific log from Swift, do:
$ swift download ironic_deploy_logs_container "5e9258c4-cfda-40b6-86e2-e192f523d668_db87f2c5-7a9a-48c2-9a76-604287257c1b_2016-08-08-14:07:25.tar.gz"
5e9258c4-cfda-40b6-86e2-e192f523d668_db87f2c5-7a9a-48c2-9a76-604287257c1b_2016-08-08-14:07:25.tar.gz [auth 0.341s, headers 0.391s, total 0.391s, 0.531 MB/s]
The contents of the log file
The log is just a .tar.gz
file that can be extracted
as:
$ tar xvf <file path>
The contents of the file may differ slightly depending on the distribution that the deploy ramdisk is using:
- For distributions using
systemd
there will be a file called journal which contains all the system logs collected via thejournalctl
command. - For other distributions, the ramdisk will collect all the contents
of the
/var/log
directory.
For all distributions, the log file will also contain the output of
the following commands (if present): ps
, df
,
ip addr
and iptables
.
Here's one example when extracting the content of a log file for a
distribution that uses systemd
:
$ tar xvf 5e9258c4-cfda-40b6-86e2-e192f523d668_88595d8a-6725-4471-8cd5-c0f3106b6898_2016-08-08-13:52:12.tar.gz
df
ps
journal
ip_addr
iptables
DHCP during PXE or iPXE is inconsistent or unreliable
This can be caused by the spanning tree protocol delay on some switches. The delay prevents the switch port moving to forwarding mode during the nodes attempts to PXE, so the packets never make it to the DHCP server. To resolve this issue you should set the switch port that connects to your baremetal nodes as an edge or PortFast type port. Configured in this way the switch port will move to forwarding mode as soon as the link is established. An example on how to do that for a Cisco Nexus switch is:
$ config terminal
$ (config) interface eth1/11
$ (config-if) spanning-tree port type edge