OpenStack
See also: Administrative, MySQL, Networking
Utilities
openstack-service
Used for managing the OpenStack service states using the system’s “init” utility.
Usage |
Explanation |
|---|---|
status |
show the status of the enabled OpenStack services |
restart |
restart the enabled OpenStack services |
openstack-status
Package: openstack-utils
Show the status of all services and details about them using the operating system’s “init” utility. This provides a more human readable format than openstack-service status.
openstack-config (crudini)
CLI tool to modify configuration files for OpenStack (Create, Read, Update, and Delete ini configuration files)
Usage |
Explanation |
|---|---|
–get |
show all sections |
–get –format=lines <FILE> |
show variables set in a specified configuration file |
–set <FILE> <SECTION> <VARIABLE> <NEWVALUE> |
update a value inside of a configuration |
ostestr
Tool for checking the stability of all of OpenStack’s APIs using Tempest.
Usage |
Explanation |
|---|---|
specify a specific API to test |
|
–regex ‘(?!.*[.*bslowb.*])(^tempest.(api|scenario))’ |
show only if the test passes with “ok” or fails with “FAILED” |
–parallel |
spawn multiple users for faster testing |
–list |
show all of the tests that will be run |
–no-discover |
lowers the overhead of single unit testing |
run –failing |
rerun failed tests |
ospurge
This tool is used to remove all resources from a project and then delete it.
Usage |
Explanation |
|---|---|
–cleanup-project |
specify the project to remove resources from |
–own-project |
remove everything from the current project that is being used for authentication |
–dont-delete-project |
do not remove the project |
openstack
Usage |
Explanation |
|---|---|
–all-projects |
when used with some options, it will show all resources created |
–format {csv|json|table|value|yaml} |
format the output with one of these data structures |
–log-file <FILE_NAME> |
save the stdout and stderr to a text file |
–quiet |
run with no verbosity (the default is 1 verbosity) |
-v |
run with double verbosity |
packstack
Used to deploy a proof of concept all-in-one OpenStack cloud.
Usage |
Explanation |
|---|---|
–allinone |
do an all-in-one deploy, no configuration file is needed |
–gen-answer-file <FILE> |
create an answer file to customize the configuration |
–answer-file <FILE> |
use the specified answer file |
–timeout |
specify a longer timeout for the Puppet modules |
Keystone
openstack user
Usage |
Explanation |
|---|---|
list |
show a list of users |
openstack project
Usage |
Explanation |
|---|---|
project list |
show tenants/projects |
user create –project <PROJECT_ID> –password <PASSWORD> <USER_NAME> |
create a new user |
user set <USER_NAME> |
update a user’s account |
purge |
delete a project and all of it s resources |
purge –keep-project |
delete all of the resources in project but do not delete the project itself |
purge –dry-run |
show what resources would be deleted from the purge |
openstack role
Usage |
Explanation |
|---|---|
list |
show all roles |
show <ROLE> |
show all roles available |
add –user <USER> –project <PROJECT> <ROLE> |
assign a user to a project by giving them a role to it; default roles include “user” and “admin” |
openstack token
Usage |
Explanation |
|---|---|
issue |
create a new token |
revoke |
disable a specified token |
openstack endpoint
Usage |
Explanation |
|---|---|
list |
show all of the endpoints and their URLs |
Glance
openstack image
Package: python-glanceclient
Usage |
Explanation |
|---|---|
create |
upload an image to Glance |
list |
show all of the available images |
set <IMAGE_ID> |
modify the metadata of an existing image |
save –file |
download an image and save it as a specified file name |
Example |
Explanation |
|---|---|
create –public –disk-format=qcow2 –file /var/lib/libvirt/images/RHEL7.6.qcow2 –container-format=bare RHEL7.6 |
create and upload a RHEL image to Glance |
Cinder
openstack volume
Package: python-cinderclient
Usage |
Explanation |
|---|---|
list |
list all of the volumes |
list –all-projects |
list the volumes for all projects |
state –state {creating|deleting|in-use|attaching|detaching|error|error_deleting|maintenance} |
forcefully change the state of a volume as the admin user |
Nova
openstack host
Usage |
Explanation |
|---|---|
list |
show all controller and compute nodes |
show <HOST> |
show all projects and their resource usage on a specific compute node |
openstack hypervisor
Usage |
Explanation |
|---|---|
stats show |
show the used and available resources on the compute nodes |
openstack console
Usage |
Explanation |
|---|---|
log show |
display the console log for an instance |
url show |
display the URL to access the remote console |
openstack usage
Usage |
Explanation |
|---|---|
list |
shows allocated data usage for all instances |
openstack keypair
Manage SSH keys.
Usage |
Explanation |
|---|---|
create <KEY_NAME> |
create a new public and private key |
create –public-key ~/.ssh/id_rsa.pub <KEY_NAME> |
import an existing public key |
Example |
Explanation |
|---|---|
openstack keypair create shared_key > shared_key.pem |
create and save the private key into a file |
openstack server
Package: python-novaclient
Manage virtual machine instances.
Usage |
Explanation |
|---|---|
list |
list instances for the current project |
list –host <HOST> |
show all instances on a specific host |
list –all-projects |
list all instances managed by Nova |
create –flavor <FLAVOR> –image <IMAGE> –key-name <PUBLIC_KEY_NAME> –security-group <SEC_GROUP> –nic net-id=<NETWORK> <NAME> |
create a new instance |
–availability-zone <ZONE>:<HOST> |
spawn an instance on a specific hypervisor host |
–user-data |
load a custom cloud-init configuration file |
pause |
freeze a server’s state |
resume |
resume a paused server |
start |
start server |
stop |
stop server |
reboot |
reboot server |
delete |
delete an instance |
show |
show detailed information about an instance |
rescue –image <IMAGE> |
boot up a live environment with a specific image attached to an instance |
nova
Usage |
Explanation |
|---|---|
evacuate |
live migrate one or all instances from one compute host to another |
migrate |
migrate all instances from one compute node to another after shutting down the instances |
force-delete |
forcefully delete an instance |
set-password |
change root password |
Neutron
openstack port-*
Usage |
Explanation |
|---|---|
port-create |
create port |
port-delete |
delete port |
openstack firewall
Usage |
Explanation |
|---|---|
group rule list |
show firewall rules |
group rule show |
show information about a specific firewall rule |
openstack floating ip
Usage |
Explanation |
|---|---|
floatingip-create |
add public IP to pool |
floatingip-delete |
remove public IP from pool |
floatingip-associate |
add public IP to VM |
floatingip-disassociate |
remove public IP from VM |
openstack network
Package: python-neutronclient
Usage |
Explanation |
|---|---|
create |
create a network |
delete |
delete a network |
list |
show all networks |
set |
change the setting of a network |
show |
show details about a given network |
agent list |
show all Neutron related services and if they are running |
Example |
Explanation |
|---|---|
create –provider:network_type={flat|vlan|vxlan|gre} –provider:physical_network=<PHY_DEVICE_MAP> –shared <NEW_NETWORK_NAME> |
create a public network tied to a physical interface |
neutron
Usage |
Explanation |
|---|---|
purge |
delete all Neutron objects in a given project |
dhcp-agent-list-hosting-net |
show all DHCP agents and their status for a given network |
dhcp-agent-network-remove |
disable a DHCP agent |
dhcp-agent-network-add |
re-enable a DHCP agent |
lbaas-loadbalancer-create <SUBNET> |
create a load balancer tied to a subnet |
lbaas-listener-create –loadbalancer <LOADBALANCER> –protocol TCP –protocol-port=<PORT> |
create a listener/rule for the load balancer |
lbaas-pool-create –lb-algorithm ROUND_ROBIN –listener <LISTENER> –protocol TCP |
create a pool tied to a listener |
lbaas-member-create –subnet <SUBNET> –address <IPADDRESS> –protocol-port <PORT> <POOL> |
add IPs to the pool to load balancer |
floatingip-create ext-net –port-id <PORTID> |
associate a floating IP with the load balancer’s VIP port |
Ironic
openstack baremetal
Usage |
Explanation |
|---|---|
node list |
list all bare-metal servers deployed by Ironic |
node list –long |
list but with all of the details of each node |
node maintenance set <NODE> |
turn maintenance mode on to disallow it from having health checks or being in new deployments |
node maintenance unset <NODE> |
turn off maintenance mode |
node manage <NODE> |
place a node into the “”manageable”” state to allow for introspection |
node provide <NODE> |
place a node into the “”available”” state to allow for deployment |
node unset <NODE> –property capabilities |
remove all capabilities |
node clean <NODE> |
zero out all of the storage devices managed by Ironic |
node clean –clean-steps ‘[{“interface”: “deploy”, “step”: “erase_devices_metadata”}]’ <NODE> |
only clean the partition table metadata |
node vif list <NODE> |
show all virtual interfaces from Neutron that are attached |
node vif detach <VIF> <NODE> |
detach a virtual interface from the node |
introspection abort <NODE> |
stop introspection |
introspection data save <NODE> |
display the JSON output of the introspection data for a specific node |
introspection interface list <NODE> |
list all of the network interfaces found during introspection |
Example |
Explanation |
|---|---|
openstack baremetal introspection data save <NODE> | python -m json.tool |
view the introspection data in a human readable format |
Ceilometer
ceilometer
Package: python-ceilometerclient
Usage |
Explanation |
|---|---|
meter-list |
show available meters |
meter-list –query project=<PROJECT_ID> |
call this after the first ceilometer option (i.e. meter-list) to show all related results for a specific project |
Heat
openstack stack
Manage Heat stacks.
Usage |
Explanation |
|---|---|
–wait |
wait for the stack to be created before returning the user to their shell prompt |
list |
show all of the Heat stacks in use |
Swift
openstack object
Package: python-swiftclient
Usage |
Explanation |
|---|---|
list |
list all containers |
upload <CONTAINER> <FILE> |
upload a file to a container |
save <CONTAINER> <FILE> |
download a file from a Swift container |
TripleO
openstack undercloud
Usage |
Explanation |
|---|---|
install |
install the Undercloud using the ~/undercloud.conf configuration file |
minion install |
(>= Train) install Minion services (minimal Heat and Ironic) on another Undercloud node |
upgrade |
update the Undercloud to the latest minor version or upgrade to the latest major version (based on which packages are available) |
upgrade –skip-package-updates |
do not update the RPM packages (in case they have already been updated manually) |
upgrade –no-validations |
do not run upgrade validations |
openstack overcloud
Mange the Overcloud from a TripleO deployment of OpenStack.
Usage |
Explanation |
|---|---|
execute -s overcloud <SCRIPT> |
execute a script on all of the Overcloud nodes |
node import instackenv.json |
import the Overcloud nodes based on an Ironic template (they will be in the manageable state) |
node import –provide instackenv.json |
import the Overcloud nodes in the “available” state so they can be introspected |
node import –introspect –provide instackenv.json |
import the Overcloud nodes in the “available” state after automatically doing introspection |
node introspect –all-manageable |
introspect all existing nodes |
node introspect –all-manageable –provide |
introspect all existing nodes and automatically place them in the “”available”” state when done |
node provide –all-manageable |
change all Overcloud nodes that are in a “”manageable”” state into an “”available”” state |
profiles list |
show the Nova flavors in use for each node |
profiles match –control-flavor <FLAVOR> –control-scale <INTEGER> –compute-flavor <FLAVOR> –compute-scale <INTEGER> |
see which nodes will match the flavor and scale of nodes specified |
delete overcloud |
delete the Overcloud stack and cleanup other generated resources (this is preferred over openstack stack delete overcloud) |
Example |
Explanation |
|---|---|
profiles match –control-flavor control –control-scale 3 –compute-flavor compute –compute-scale 2 |
show which nodes would be matched for a deployment with 3 controller nodes and 2 compute nodes |
openstack overcloud deploy
Usage |
Explanation |
|---|---|
–stack <STACK_NAME> |
provide a custom stack name (default: overcloud) |
–templates |
the path to the Heat templates directory |
-e |
the path to an additional Heat template |
–{control,compute}-flavor <FLAVOR> |
REMOVED IN TRAIN, use Heat template variables instead. Assign a custom flavor profile. |
–override-ansible-cfg |
provide a custom Ansible configuration file for config-download |
Example |
Explanation |
|---|---|
–stack production –templates /home/stack/templates -e /home/stack/templates/environments/low-memory.yaml |
deploy an Overcloud stack named production that will use the default settings and low memory settings for the services |
openstack overcloud update
Handle minor version updates.
Usage |
Explanation |
|---|---|
prepare |
Update the Heat stack based on the latest TripleO Heat templates. |
run –limit <NODE> |
Run the minor update Ansible tasks. |
converge |
Re-enable all of the original (non-update) Ansible tasks for the deployment. |
Example |
Explanation |
|---|---|
run –limit all |
Run the update on every node. |
openstack overcloud upgrade
Handle major version upgrades.
Usage |
Explanation |
|---|---|
prepare |
Update the Heat stack based on the latest TripleO Heat templates. |
run –limit <NODE> |
Run the major upgrade Ansible tasks. |
converge |
Re-enable all of the original (non-upgrade) Ansible tasks for the deployment. |
Example |
Explanation |
|---|---|
run –limit Compute |
Run the upgrade on all of the Compute nodes. |
openstack tripleo
Usage |
Explanation |
|---|---|
container image push |
(>= Train) push a local container image to the local Undercloud container registry |
tripleo-ansible-inventory
Create dynamic inventory for Ansible to manage the Undercloud and Overcloud infrastructure of a TripleO deployment.
Usage |
Explanation |
|---|---|
–list |
list the entire inventory |
InfraRed
infrared
Usage |
Explanation |
|---|---|
ssh <NODE> |
ssh into a node (examples: undercloud-0, controller-2, compute-1, etc.) |
infrared plugin
Usage |
Explanation |
|---|---|
list |
list the installed plugins |
list –available |
list all of the plugins that can be installed |
add plugins/<PLUGIN> |
install a new plugin |
add all |
install all of the plugins |
remove <PLUGIN> <PLUGIN2> |
delete one or more plugins |
remove all |
delete all of the plugins |
update <PLUGIN> |
infrared virsh
Manage the creation or deletion of a virtual lab environment using virsh.
Usage |
Explanation |
|---|---|
–host-address <IP_ADDRESS> |
the hypervisor address to access via SSH |
–host-user <SSH_USER> |
the hypervisor SSH user |
–host-key <SSH_KEY_FILE> |
the private SSH key file to use |
–host-validate no |
do not attempt to enable hardware virtualization on the hypervisor |
–host-memory-overcommit yes |
allow the hypervisor to run virtual machines that may consume more RAM then what is available |
–topology <TOPOLOGY> |
specify the topology of what nodes should be deployed and how many |
Example |
Explanation |
|---|---|
–host-address 127.0.0.1 –host-key ~/.ssh/id_rsa –topology-nodes “undercloud:1,controller:3,compute:2” |
deploy 5 virtual machines for an InfraRed lab |
infrared openstack
Manage a virtual TripleO lab environment using OpenStack instances.
Usage |
Explanation |
|---|---|
–cloud ${OS_CLOUD} |
the OpenStack cloud credentials to use |
–prefix <OPTIONAL_RESOURCE_PREFIX> |
a prefix for all virtual resources (allows for multiple lab environments) |
–key-file ~/.ssh/id_rsa |
the public SSH key that should be added to the Undercloud |
–topology-network 3_nets_ovb –topology-nodes ‘ovb_undercloud:1,ovb_controller:1,ovb_compute:1’ |
use Open Virtual Baremetal (OVB) |
–anti-spoofing False |
allow spoofing to allow any IP address and MAC to be used on a Neutron network |
–dns <DNS1>,<DNS2> |
custom DNS servers for the Undercloud |
–provider-network <EXTERNAL_PROVIDER_NETWORK> |
the provider network that will be used to assign floating IP addresses from |
–image <RHEL_OR_CENTOS> |
the operating system image to use |
–username <SSH_USER> |
the SSH user that is configured in the image |
infrared tripleo-undercloud
Manage the installation of the Undercloud.
Usage |
Explanation |
|---|---|
–version |
the RHOSP version number or RDO release name |
–enable-testing-repos {all,rhel,extras,ceph} |
enable pre-release repositories |
–cdn <FILE> |
specify a file with a valid Red Hat subscription credentials |
–images-task rpm |
install RHOSP via RPM repositories |
–images-task import –images-url=<URL> |
install RDO via importing an existing Overcloud virtual machine image |
–images-task build |
use a RHEL or CentOS guest virtual machine image as a base to build an Overcloud image from |
–ntp-server <NTP_SERVER1>,<NTP_SERVER2> |
specify custom NTP servers for the Undercloud |
Example |
Explanation |
|---|---|
–images-task=import –version rocky –images-url=https://images.rdoproject.org/rocky/rdo_trunk/current-tripleo-rdo/ |
install a RDO Rocky Undercloud and setup the Overcloud image by importing a pre-built image |
infrared tripleo-overcloud
Manage the deployment of the Overcloud.
Usage |
Explanation |
|---|---|
–deployment-files <DIRECTORY> |
the path to the TripleO Heat templates to deploy with |
–deployment-files virt |
use the default Infrared Overcloud Heat templates |
–version |
the RHOSP version number or RDO release name |
–introspect yes |
introspect the Overcloud nodes |
–tagging yes |
tag the Overcloud nodes |
–deploy yes |
deploy the Overcloud |
Example |
Explanation |
|---|---|
–deploy-files virt –version 14 –introspect yes –tagging yes –deploy yes |
fully deploy a RHOSP 14 Overcloud |