Openstack: Difference between revisions
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openstack router delete ${ROUTER} | openstack router delete ${ROUTER} | ||
=openstack version= | =openstack version= | ||
openstack | openstack major miro version. | ||
openstack version show | |||
openstack version show -f json | jq -r '.[] | select(.Status == "CURRENT") | [."Service Type", .Version, .Endpoint]|@tsv' | column_tab | openstack version show -f json | jq -r '.[] | select(.Status == "CURRENT") | [."Service Type", .Version, .Endpoint]|@tsv' | column_tab |
Latest revision as of 12:56, 22 December 2024
What does it mean
aodh Alarming service barbican REST API designed for the secure storage, provisioning and management of secrets such as passwords, encryption keys and X.509 cinder OpenStack Block Storage gnocchi Time Series Database as a Service glance OpenStack Image Service heat iac. Deploy instances, volumes and other OpenStack services using YAML based templates. horizon Openstack’s Dashboard, which provides a web based user interface to OpenStack services ironic bootstrap keystone identity service magnum container orchestration engines mistral workflow service neutron networking as a service nfv Network functions virtualization nova cloud computing instance controller, provision compute instances (aka virtual servers). octavia Load balancer. Octavia HAProxy Amphora API rhosp Red Hat OpenStack Platform swift OpenStack Object Storage tacker NFV Orchestration trove Database as a Service Zaqar multi-tenant cloud messaging service
bash completion
. <(openstack complete 2>/dev/null )
flavor
Which machine types exist.
gp "General purpose" Well rounded combination of amount of CPUs and the amount of RAM. hm "High memory" Optimimzed for applications that need a lot of memory. hp "High performance" High frequenzy cpu.
List suitable flavors
openstack flavor list -f json -c VCPUs -c RAM -c Disk -c Name | jq -r '.[] | [ .Name, .VCPUs, .RAM, .Disk ] | @tsv' | sort -k 2,2n -k 3,3n | grep -vE 'gpu|pinned|nvme' | column_tab
Manage multiple projects
export OS_CLIENT_CONFIG_FILE=~/.config/openstack/project1_clouds.yaml export OS_CLOUD=project1
list volumes
openstack volume list
install openstack
dnf install python3-openstackclient dnf -y install $(dnf -q search python3- client |grep -i OpenStack | grep -v -- -tests| awk '{print $1}')
get ip addresses of all host
openstack server list -c Networks -f json | jq -r '.[].Networks[][]'
long output
openstack server list --long
select server depending status
openstack server list --status ACTIVE
output
-f csv,json,table,value,yaml
Get output without headers.
openstack server list -f value
list all
openstack command list -f yaml | grep - | grep list | sed 's/^ - /openstack /g' |grep -v "openstack command list" | while read i ; do echo '*' $i ; $i 2>&1 ; done | tee /tmp/openstack_list_resources.${OS_CLOUD}.$(date +%F_%H-%M-%S) openstack command list -f json | jq -r '.[].Commands[]|select (match("list$"))' | while read i ; do echo '*' openstack $i ; openstack $i 2>&1 ; done | tee /tmp/openstack_list_resources.${OS_CLOUD}.$(date +%F_%H-%M-%S)
How to reach nodes
OPENSTACK=$(openstack server list -c Networks -f json | jq -r '.[].Networks[][]') ; OPENSTACK_JUMP=$(grep 185 <<< "${OPENSTACK}") ; NODES=$(grep -v 185 <<< "${OPENSTACK}") ; for NODE in ${NODES} ; do echo ssh -J core@${OPENSTACK_JUMP} core@${NODE} ; done
create server
openstack server create --flavor gp.1x2 --availability-zone europe-se-1a --image fedora-37-x86_64 --boot-from-volume 100 --network abjorklund-01-5tsbc-openshift --security-group ssh_allow --key-name abjorklund_ed25519 abjorklund_$(date_file)
With setting password.
cat << EOF > user-data #cloud-config password: Password123! chpasswd: {expire: False} ssh_pwauth: True EOF openstack server create --flavor gp.1x2 --availability-zone europe-se-1a --image rocky-8-x86_64 --boot-from-volume 30 --network abjorklund-01-bmc7w-openshift --security-group ssh_allow --key-name abjorklund_ed25519 abjorklund_$(date_file) --user-data user-data
get router ip
List routers
openstack router list
Get external ip.
openstack router show abjorklund-01-5tsbc-external-router -c external_gateway_info -f json | jq '.external_gateway_info.external_fixed_ips[0].ip_address' 185.102.213.238
Remove subnet from router
openstack router remove subnet <router> <subnet>
list available images
openstack image list
Download image
Get info about image.
openstack image list | grep -i nord-ic- | 98c03b69-4ba8-4276-8695-b6c3f006cf20 | nord-ic-bc84t-rhcos | active | glance image-download --file nord-ic-bc84t-rhcos --progress 98c03b69-4ba8-4276-8695-b6c3f006cf20
Upload image
openstack image create --disk-format qcow2 --container-format bare --public --file CentOS-7-x86_64-GenericCloud-1503.qcow2 CentOS_7_Cloud_IMG
security
Create security group.
openstack security group create <group>
Get security groups.
openstack security group list -c Name -f json | jq -r '.[].Name'
Get all security groups with rules.
openstack security group list -c Name -f value | while read SECURITY ; do openstack security group show "$SECURITY" ; done > /temp/${OS_CLOUD##*/}}_openstack_security_group_list_openstack_security_group_show.$(date_file).log
Get rules from one security group.
openstack security group rule list <group>
Add rule to allow traffic from ip.
openstack security group rule create --proto tcp --dst-port 6443 --remote-ip 185.53.164.10/32 --ingress <group> openstack security group rule create --proto tcp --dst-port 22 --remote-ip 0.0.0.0/0 --ingress <security group>
Allow nfs4 traffic
# List group to add too. openstack security group list | grep rw-core openstack security group rule create --proto tcp --dst-port 2049 --remote-ip 10.2.0.0/16 rw-core-p9dq6-master
Add security group to server
openstack server add security group <server_name_or_id> <security_group_name_or_id>
create block device
openstack volume create --size 50 --type ssd --description "nfs storage block device 0" nfs_storage_abjorklund-01
Resize block device.
os volume set --size 60 nfs_storage_abjorklund-01 --os-volume-api-version 3.42
set physical ip on host
openstack port list
List in different view.
openstack port list -f json | jq -r '.[]|[.ID, .Name, .Status, ."Fixed IP Addresses"[].ip_address]| join("\t")' | column -t -s $'\t'
Change security group on port
Remove if existing port does not exist.
openstack port set --no-security-group a7434863-fc4d-46ad-b93e-b0f2f717023f openstack port set --security-group 3723f737-280f-453e-af0b-50aca4ce1b0d a7434863-fc4d-46ad-b93e-b0f2f717023f
create port
openstack port create --network abjorklund-01-h4sxm-openshift --fixed-ip subnet=4bb2ab0c-f8f9-4346-b238-5f992f0bcf56,ip-address=10.1.0.5 abjorklund-01-h4sxm-api-port
manage loadbalancer aurora/haproxy
openstack loadbalancer openstack loadbalancer list openstack loadbalancer show test-lb -c listeners -f value
view limits
If you have problems to create something in openstack it could be worth verifying you are within limits.
openstack limits show --absolute -f value | grep -E 'RAM|Cores' openstack quota show --usage -c Resource -c Limit -c "In Use"
count resources
openstack quota show --usage -c Resource -c "In Use" -f json | jq -r '.[] | select(.Resource == "cores" or .Resource == "ram" or .Resource == "gigabytes" )| [.Resource, ."In Use"] | @tsv' | column -t -s $'\t'
get project id
openstack project list -f value -c ID
manage s3/swift
create s3 credentials
openstack ec2 credentials create openstack ec2 credentials list
Create s3 bucket
aws s3api create-bucket --bucket <bucket> swift post <bucket>
list s3 storage
swift list blabla/blabla swift list aws s3api list-buckets openstack container list
mount s3 bucket
export AWS_ACCESS_KEY_ID=$AWS_ACCESS_KEY_ID ; export AWS_SECRET_ACCESS_KEY=$AWS_SECRET_ACCESS_KEY ; export AWS_DEFAULT_REGION=us-west-2 ; s3fs -f -d openshift-region /mnt/openshift-region/ -o endpoint=europe-se-1 -o "host=https://object-eu-se-1a.binero.cloud" -o use_path_request_style
copy file to s3
openstack server show $(openstack server list -f value | head -1 | awk '{print $2}') -c project_id -f value
whoami
openstack configuration show -f json | jq -r '."auth.username"'
sort
Sort on column name.
openstack network list --sort-column Name
selected columns
Select column name only
openstack server list -c Name -c Status -f table
create ssh public key(keypair)
openstack keypair create --public-key /home/abjorklund/.ssh/id_ed25519.pub binero_abjorklund_id_ed25519
List keys
openstack keypair list
Delete kaypair
openstack keypair delete <keypair>
create floating ip
openstack floating ip create europe-se-1-1a-net0
remove floating ip
openstack floating ip delete 193.93.251.72
assign floating ip to port
openstack floating ip set --port abjorklund-01-h4sxm-ingress-port 193.93.251.233
unassign floating ip to server
openstack server remove floating ip ocp-13-nkvgn-master-0 193.93.251.72
assign ip to server
openstack server add floating ip binero_abjorklund_dns-lookup 193.93.248.34
restart server
openstack server reboot <server> openstack server reboot --hard <server>
view events/log from server
openstack server event list <server> openstack server event show <server> <requestid>
recovery of server using iso
Upload iso recovery.
openstack image create ubuntu-22.04.4-live-server-amd64.iso --property hw_rescue_device=cdrom --property hw_rescue_bus=scsi --disk-format iso --file ubuntu-22.04.4-live-server-amd64.iso --private --progress openstack image create Rocky-9.3-x86_64-minimal.iso --property hw_rescue_device=cdrom --property hw_rescue_bus=scsi --disk-format iso --file Rocky-9.3-x86_64-minimal.iso --private --progress
If special properties are not set then set them.
openstack image set --property hw_rescue_device=cdrom --property hw_rescue_bus=scsi <image>
Boot server with recovery iso.
openstack --os-compute-api-version 2.87 server rescue --image Rocky-9.3-x86_64-minimal.iso sentry_rw openstack --os-compute-api-version 2.87 server rescue --image ubuntu-22.04.3-live-server-amd64.iso sentry_rw
When done disable rescue mode.
openstack server unrescue SERVER
subnet
List subnets
openstack subnet list
hypervisor
Which underlying hypervisor is used. Not of your business. Ask worthy person.
volume backups
openstack volume backup list
create snapshot
SERVER=<server> openstack server image create --name "backup-${SERVER}-$(date_file)" ${SERVER}
volume snapshot
openstack volume snapshot list openstack volume snapshot list -c ID -f value | while read SNAPSHOT ; do echo '*' $SNAPSHOT ; openstack volume snapshot delete $SNAPSHOT ; done
dns
# https://docs.binero.com/dns.html # openstack dns. openstack zone create --email anden@halfface.se binero.halfface.se. # Add entries. openstack recordset create --record 10.1.0.62 --type A binero.halfface.se. master-0 openstack recordset create --record 10.1.0.249 --type A binero.halfface.se. master-1 openstack recordset create --record 10.1.0.156 --type A binero.halfface.se. master-2 # list enries. openstack recordset list binero.halfface.se. # Delete entries. openstack recordset delete binero.halfface.se. master-2.binero.halfface.se.binero.halfface.se.
Networking explained
1. openstack_networking_network_v2 - Purpose: Represents a network in OpenStack. - Interaction: This is the top-level network entity. You create a network to provide a layer 2 domain for your instances. 2. openstack_networking_subnet_v2 - Purpose: Represents a subnet within a network. - Interaction: A subnet is associated with a network. It defines a range of IP addresses, and optionally, DHCP settings. 3. openstack_networking_router_v2 - Purpose: Represents a virtual router. - Interaction: Routers are used to route traffic between different subnets or networks. They can also be used to provide external network access to instances. 4. openstack_networking_router_interface_v2 - Purpose: Connects a router to a subnet. - Interaction: This resource is used to add an interface to a router, effectively connecting the router to a subnet, enabling routing between that subnet and others. 5. openstack_networking_port_v2 - Purpose: Represents a port on a network. - Interaction: Ports are attachment points for devices (like instances) on a network. They have associated IP addresses and MAC addresses. 6. openstack_networking_port_secgroup_associate_v2 - Purpose: Associates security groups with a port. - Interaction: Security groups define the firewall rules applied to ports. Associating a security group with a port applies the security group's rules to that port. 7. openstack_networking_secgroup_v2 - Purpose: Represents a security group. - Interaction: Security groups contain a set of rules that define the allowed ingress and egress traffic to and from ports. 8. openstack_networking_secgroup_rule_v2 - Purpose: Represents a rule within a security group. - Interaction: Security group rules define specific ingress or egress traffic allowed to the instances associated with ports to which the security group is applied. 9. openstack_networking_floatingip_v2 - Purpose: Represents a floating IP. - Interaction: Floating IPs are IP addresses that can be dynamically associated with instances. They provide external access to instances. 10. openstack_networking_floatingip_associate_v2 - Purpose: Associates a floating IP with a port. - Interaction: This resource links a floating IP to a port, providing the instance with an external IP address that is accessible from outside the OpenStack cloud. Interaction Summary 1. Network and Subnet Creation: - Create a network using `openstack_networking_network_v2`. - Create a subnet within this network using `openstack_networking_subnet_v2`. 2. Router Configuration: - Create a router using `openstack_networking_router_v2`. - Add an interface to this router to connect it to a subnet using `openstack_networking_router_interface_v2`. 3. Instance Connectivity: - Create a port on the network using `openstack_networking_port_v2`. - Attach this port to an instance. 4. Security: - Create security groups using `openstack_networking_secgroup_v2`. - Define rules for the security group using `openstack_networking_secgroup_rule_v2`. - Associate security groups with the port using `openstack_networking_port_secgroup_associate_v2`. 5. External Access: - Create a floating IP using `openstack_networking_floatingip_v2`. - Associate the floating IP with the port attached to the instance using `openstack_networking_floatingip_associate_v2`.
Extend disk
Look at usage from beginning.
df -lh
Extend partition partprobe
openstack volume set --size <new_size> <volume> --os-volume-api-version 3.42
Grow partition that you intend to grow. This part can be ignored if using disk as raw partion(/dev/sd?)
growpart /dev/sdb 1
Resize filesystem.
resize2fs /dev/sdb1
Look at usage after extend.
df -lh
affinity
affinity Put servers on same hypervisor. anti-affinity Dont put servers on same hypervisor. soft-affinity Put servers on same hypervisor if possible. soft-anti-affinity Put server on hypervisor if possible
Are hosts located on same hypervisor
openstack server list -f value -c ID | while read i ; do openstack server show $i -f value -c hostId -c name | xargs ; done | sort -n
Define how server should be handled regarding affinity
openstack server group list
create server group name with soft affinity
openstack server group create --policy soft-anti-affinity <name>
install openstack cli on rhel7/8
yum install centos-release-openstack-train.noarch yum install python-openstackclient sed -i 's/^mirrorlist/#mirrorlist/g' /etc/yum.repos.d/* sed -i 's%^#baseurl=http://mirror.centos.org%baseurl=http://vault.centos.org%g' /etc/yum.repos.d/*
remove network with dependencies
export ROUTER=93b6d9c1-67db-4e04-9aaf-dad208def3c4 export NETWORK=9b86febc-f46f-4990-96c8-ef2e4bc8e139 openstack router remove subnet ${ROUTER} $(openstack route show ${ROUTER} -f json | jq -r '.interfaces_info[].subnet_id') openstack router unset --external-gateway ${ROUTER} for port in $(openstack port list --network ${NETWORK} -f value -c ID); do openstack port delete "$port" done for subnet in $(openstack subnet list --network ${NETWORK} -f value -c ID); do openstack subnet delete "$subnet" done openstack network delete ${NETWORK} openstack router delete ${ROUTER}
openstack version
openstack major miro version.
openstack version show openstack version show -f json | jq -r '.[] | select(.Status == "CURRENT") | [."Service Type", .Version, .Endpoint]|@tsv' | column_tab