There are three module types that can be either imported or included which are: import/include_task, import/include_role, or import/include_playbook.
While these are mostly the same there are some subtle differences…so subtle in fact that I couldn’t really figure out what the difference was, so why not share what I’ve learned š
So the textbook difference between the two is that:
Import is static. This means they are fully loaded before playbook execution begins.
Include is dynamic. This means they are parsed during execution as they are reached.
I’m not sure how this reads to you, but my understanding was that variables and the like would be interpreted strangely for imports…kind of like whatever the value of a variable was at load would somehow dictate their inclusion or reaction…which was wrong. Here’s a playbook I wrote to try and test:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 | # playbook.yml
---
- name: A demo on using include vs import in Ansible with incorrect info
hosts: localhost
gather_facts: false
vars:
testvar: "Initial Value" # Initial value for the variable
tasks:
- name: Display initial testvar value
ansible.builtin.debug:
msg: "Before import_tasks and include_tasks: testvar is {{ testvar }}"
- name: Use import_tasks (static)
import_tasks: tasks/import-tasks.yml
- name: Update testvar to "Updated Value"
set_fact:
testvar: "Updated Value"
- name: Use include_tasks (dynamic)
include_tasks: tasks/include-tasks.yml
- name: Re-run import_tasks after update
import_tasks: tasks/import-tasks.yml |
Here are the two task files it calls(really they are just spitting out debug info…nothing special here):
1 2 3 4 5 | # tasks/import-tasks.yml
- name: Import Task Display testvar if it is "Updated Value"
ansible.builtin.debug:
msg: "Import Task: testvar is {{ testvar }}"
when: testvar == "Updated Value" |
1 2 3 4 5 | # tasks/include-tasks.yml
- name: Include Task Display testvar if it is "Updated Value"
ansible.builtin.debug:
msg: "Include Task: testvar is {{ testvar }}"
when: testvar == "Updated Value" |
I was thinking that in the above example it wouldn’t run any of the imports(as at runtime the variable would have been set incorrectly). Take a look at the job output, though:
1 2 3 4 5 6 7 8 9 10 11 12 | PLAY [A demo on using include vs import in Ansible with incorrect info] ********
TASK [Display initial testvar value] *******************************************
ok: [localhost] => {
"msg": "Before import_tasks and include_tasks: testvar is Initial Value"
}
TASK [Import Task Display testvar if it is "Updated Value"] ********************
skipping: [localhost]
TASK [Update testvar to "Updated Value"] ***************************************
ok: [localhost]
TASK [Use include_tasks (dynamic)] *********************************************
included: /runner/project/tasks/include-tasks.yml for localhost
TASK [Include Task Display testvar if it is "Updated Value"] ******************* |
I tried all kinds of variations, but no matter what, I couldn’t get it to fail. It ignored the first import as one would expect, but when I reset the variable it went ahead and ran the second import…So, I surrender trying to make it functionally display their differences. There are a few things that are definetly different as per this documentation:
Using include* does have some limitations when compared to import* statements:
Using import* can also have some limitations when compared to dynamic includes:
Looking at the plus’ and minus’ of each, just go with include by default.
Most of the shortcomings of include are things I never run into, so not really a problem.
The shortcomings of import are much more impactful: not being able to use it with loops and losing inventory source variables.
Conclusion
In short, use include and just ignore the import stuff.
If you have any other topics of interest, let me know. If you would tweak or tune this, drop me a note on that too.
Good luck out there; happy automating, and happy including!
Welcome to the warmup exercise for the Why Am I podcast called āthe Fantasy Restaurant.ā In here, my guests get to pick their favorite: drink, appetizer, main, sides, and dessertā¦anything goes. Gary puts together a meal that seems to incorporate a lot of the foods found near his NY homeā¦and Asia, and Greece, and Italy LOL. Though it varies a lot, it all sounds delicious. I hope you enjoy this meal with Gary.
Help us grow by sharing with someone!
Please show them some love on their socials here: https://twitter.com/GaryGoldsteinLA, https://www.instagram.com/garygoldsteinla/, https://www.garygoldsteinla.com/book-please-come-to-boston.
If you want to support the podcast you can do so via https://www.patreon.com/whyamipod (this gives you access to bonus content including their Fantasy Restaurant!)
Hey everybody, Iām Greg Sowell and this is Why Am I, a podcast where I talk to interesting people and try to trace a path to where they find themselves today. My guest this go around is Gary Goldstein. This fella is a writer of books, TV shows, and of movies. Not only has he written for Hallmark movies, which is becoming something of a theme here), but he also wrote for the likes of Beverly Hills 90210, which featured prominently in my younger years. If you find this walk through his mind interesting, I urge you to check out his newest book Please Come To Boston. At any rate, I hope you enjoy this chat with Gary.
Help us grow by sharing with someone!
Please show them some love on their socials here: https://twitter.com/GaryGoldsteinLA, https://www.instagram.com/garygoldsteinla/, https://www.garygoldsteinla.com/book-please-come-to-boston.
If you want to support the podcast you can do so via https://www.patreon.com/whyamipod (this gives you access to bonus content including their Fantasy Restaurant!)
Once we choose a system, we often feel married to it. The idea of migrating our infrastructure often seems more expensive than the new price the vendor just handed us for what we are using. Iāve felt/seen this with software, cloud providers, and hypervisors. While this can be the truth at first glance, automation can often level the playing field. Case and point, Iām about to demonstrate how to migrate migrate a Rocky VM from VMWare to Proxmox VE completely via automation 🙂
Video Demo
Overview
I thought I might quickly begin by describing the process with graphics.
First, we have a VMWare cluster and our Proxmox cluster. As you can see I have a virtual machine(VM1) that I want to migrate from VMware over to Proxmox.
My first step is to use automation to connect into the running VM and prep it for migration. My Rocky host didnāt have the Virtio drivers in the initramfs, so I need to add them. The initramfs is a file system that boots into ram that allows the kernel to mount the disks and do the actual file system boot. Your mileage may varyā¦perhaps these are already in your boot system, so give it a test as is and see how your system responds. Once the prep work is done, the VM is shutdown.
Next we install VMwareās OVFTool somewhere to extract the VMs as OVFs from the VMware system. For my small demo Iām going to install it on my Proxmox host and do the migrations directly from there. You will do the migrations to a temporary storage location either directly on the Proxmox host or via something like an NFS share mapped to the host. If you are doing this to an NFS share you could easily be running the OVFTool from a completely separate server(this would cause the least impact to your Proxmox host).
Now on the Proxmox host Iāll use the qm importovf command to bring the newly created VM1 OVF into the system as a VM.
Before starting the VM weāll need to modify any hardware settings required for this specific VM. Again, this is a āyour mileage may varyā scenario. In my case, I had to update the bios, add an efi disk for the new bios, modify the CPU type, and reconfigure the networking.
Now the last step is pretty simple; all that needs to be done is to start the new VM.
Playbooks
All of my playbooks can be found here in my git repository.
The whole process actually took a good bit of work to figure out(really down to driver/bios issues), so hopefully I can save you some time and effort.
preconfigure-hosts.yml
This playbookās purpose is to do any preconfiguration work necessary. In my case the prework is to update the initramfs with virtio drivers and then to shut the machine down(OVFTool needs the VM to be shutdown before it can migrate it). Depending on your environment and OS, there may be different things required. Here you could also do things like backup network configuration settings so that when the migration is complete you can apply them.
1 2 3 4 5 6 7 8 9 10 11 12 | ---
- name: Preconfigure the VMWare hosts for migration
hosts: all
gather_facts: false
vars:
tasks:
- name: Connect to hosts and add virtio drivers to boot(using virtio in proxmox)
ansible.builtin.shell: 'dracut --add-drivers "virtio_scsi virtio_pci" -f -v /boot/initramfs-`uname -r`.img `uname -r`'
register: driver_install
- name: Shutdown the host
community.general.shutdown: |
In this playbook I create the new boot file based on the name of the kernel currently running( the uname -r portion).
migrate-vms.yml
Next the migrate playbooks is run. This is what actually grabs the OVF, imports into Proxmox, and updates all settings.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 | ---
- name: Use ovftool to pull vms from vmware and import into proxmox
hosts: all
gather_facts: false
vars:
proxmox_auth: &proxmox_auth
api_host: proxmox.gregsowell.com
api_user: "{{ gen2_user }}"
# api_user: root@pam # username format example
# Use standard password
api_password: "{{ gen2_pword }}"
# Use api token and secret - example format
# api_token_id: gregisa5.0
# api_token_secret: 72a72987-ff68-44f1-9fee-c09adaaecf4d
#Full path to ovftool directory
ovftool_path: /root/ovftool
#Hostname or IP of vmware vcenter
vmware_host: 10.0.2.10
#Hostname or IP of proxmox
proxmox_host: proxmox.gregsowell.com
#Datacenter the VMs are in
vmware_datacenter: MNS
#Directory path to vms
vmware_directory: Greg/ciq
#VMware username
# vmware_username: administrator
vmware_username: "{{ gen1_user }}"
#VMware password
# vmware_password: test
vmware_password: "{{ gen1_pword }}"
#Proxmox migration folder
proxmox_migration_dir: /root/migration
#Storage proxmox will import new vms into with qm import command
proxmox_storage: local-lvm
tasks:
- name: Add proxmox host to inventory
ansible.builtin.add_host:
name: "{{ proxmox_host }}"
ansible_host: "{{ proxmox_host }}"
run_once: true
- name: Create the proxmox migration directory if it doesn't exist
ansible.builtin.file:
path: "{{ proxmox_migration_dir }}"
state: directory
mode: '0755'
delegate_to: "{{ proxmox_host }}"
run_once: true
- name: Check for each host and see if they already have an export folder created
stat:
path: "{{ proxmox_migration_dir }}/{{ hostvars[inventory_hostname].config.name }}"
register: directory_status
delegate_to: "{{ proxmox_host }}"
- name: Block for exporting/importing hosts
when: inventory_hostname != proxmox_host and ( not directory_status.stat.exists or not directory_status.stat.isdir )
block:
- name: Run ovftool to export vm from vmware to proxmox server if folder isn't already there
ansible.builtin.shell: "{{ ovftool_path }}/ovftool --noSSLVerify vi://{{ vmware_username }}:{{ vmware_password }}@{{ vmware_host }}:443/{{ vmware_datacenter }}/vm/{{ vmware_directory }}/{{ hostvars[inventory_hostname].config.name }} ."
args:
chdir: "{{ proxmox_migration_dir }}/"
delegate_to: "{{ proxmox_host }}"
no_log: true
- name: Call task file to provision new proxmox vm. Loop over hosts in play
ansible.builtin.include_tasks:
file: import-ovf.yml
run_once: true
loop: "{{ play_hosts }}"
- name: Modify proxmox vms to have required settings
community.general.proxmox_kvm:
<<: *proxmox_auth
name: "{{ hostvars[inventory_hostname].config.name }}"
node: proxmox
scsihw: virtio-scsi-pci
cpu: x86-64-v2-AES
bios: ovmf
net:
net0: 'virtio,bridge=vmbr0,firewall=1'
efidisk0:
storage: "{{ proxmox_storage }}"
format: raw
efitype: 4m
pre_enrolled_keys: false
update: true
update_unsafe: true
register: vm_update
delegate_to: localhost
- name: Start VM
community.general.proxmox_kvm:
<<: *proxmox_auth
name: "{{ hostvars[inventory_hostname].config.name }}"
node: proxmox
state: started
delegate_to: localhost
# ignore_errors: true |
Iāll attempt to cover the highlights instead of the entire playbook(which I do cover in the video).
Task number 2(Check for each host and see if they already have an export folder created) checks to see if the directory for the current host has already been migrated. This is used in the migration conditional later, so that if it already exists it wonāt be exported/imported again.
Once the OVF has been created the (Call task file to provision new proxmox vm. Loop over hosts in play) task is run. This task runs once as a loop over a variable that contains all of the hosts in the current play(play_hosts which is a magic variable). For each host it will locate the next available Proxmox vid and then it will import the OVF.
import-ovf.yml
1 2 3 4 5 6 7 8 9 10 11 12 | ---
- name: Find the next available vmid
ansible.builtin.shell: pvesh get /cluster/nextid
register: next_vmid
delegate_to: "{{ proxmox_host }}"
- name: Run qm import with the new next_vmid
when: item != proxmox_host
ansible.builtin.shell: "qm importovf {{ next_vmid.stdout }} {{ hostvars[item].config.name }}/{{ hostvars[item].config.name }}.ovf {{ proxmox_storage }}"
args:
chdir: "{{ proxmox_migration_dir }}/"
delegate_to: "{{ proxmox_host }}" |
Once all OVFs have been imported we need to modify their hardware settings via this task(Modify proxmox vms to have required settings).
You can see with the proxmox_kvm module Iām using the update: true option. This works for most of the options Iām trying to modify, but it DOESNāT allow me to update my network settings or create an EFI disk, which is required for proper operation. To fix this you have to use the update_unsafe: true option. They have this because in the update I could break configs that result in data loss, but in this case Iām only adding required components on my new install, so Iām good to go.
Manual Testing
While the automation is awesome, you will likely still want/need to do some manual testing. Iāve got the various steps here in brief so you can do just that.
Install OVFTool
Visit this VMware page and grab whichever version of OVFTool is appropriate for you. I grabbed the 4.4.3 archive. I extracted it with tar and made the ovftool and ovftool.bin files executable. I put this on my Proxmox host as I was running all the commands from there.
VM Prep
On the VMs you intend to migrate, you can run the following command to see if you have the virtio drivers on your machine:
1 | find /lib/modules/`uname -r` -type f -name virtio_* |
If they are present(which has always been the case for me), you can run the manual steps to create the new initramfs file
1 | dracut --add-drivers "virtio_scsi virtio_pci" -f -v /boot/initramfs-`uname -r`.img `uname -r` |
Browse For VMs With OVFTool
Thereās a specific folder structure your VMs will follow. To browse around and make sure things are where you expect them to be, you can use the following command:
1 | ovftool --noSSLVerify vi://username:password@host:443/YourDatacenter/vm |
My environment doesnāt have a valid cert on the vcenter, so Iām using the noSSLVerify option.
You can also leave off :password in the command and it will prompt you for your password.
YourDatacenter will be the case sensitive datacenter name and /vm will always need to be there(itās where VMs show up).
This will begin to start allowing you to browse to your VM paths.
Export OVFs
The command to actually export the OVFs should be executed from inside of the folder you want things saved to:
1 | ovftool --noSSLVerify vi://[email protected]:443/MNS/vm/Greg/ciq/Greg-rocky8 . |
Notice in the command I followed the folder structure Greg/ciq, then added the name of my VM.
At the very end of the command is a space and a period. If you leave off the period it wonāt do the export, so make sure ā .ā is on the end.
Import OVFs
The command to import an OVF is as follows:
1 | qm importovf <vid> <contained folder>/<name of vm>.ovf <proxmox storage location> |
An example would be:
1 | qm importovf 400 Greg-rocky8-to-9-conversion/Greg-rocky8-to-9-conversion.ovf local-lvm |
Notice you have to specify a unique vid for each imported VM. You can look at the Proxmox interface to find the next one, or you can issue this CLI command and it will tell you what it is:
1 | pvesh get /cluster/nextid |
Conclusion
Migrating from one product to another can feel impossible at times, but automation is here to be your secret super power. We are quickly becoming migration experts, and weād love to assist your team with complete migrations that have automation leave behindsā¦or we can also just do validation; as much or as little as you require.
As always, I appreciate you reading through, and would love your feedback.
Thanks and happy migrating!
Automating VMware Alternatives With Ansible And Ascender
I have personally used and had good success with VMware for nearly two decades. While it is a good product, I occasionally have folks talk about some alternatives, and how viable they are. For this article/demo Iām going to use Proxmox VE, which is a competent/user friendly hypervisor. Really, Iām going to examine this question from an automation perspective.
First, and most importantly, the user experience is exactly the same no matter what hypervisor you use. This means your users can smoothly transition from one platform to the other with no knowledge that anything has changed.
The backend, using Ansible and Ascender, will have different playbooks, which means you will be using different modules, and often some slightly different procedures, but frequently they arenāt so different.
Demo Video
Interfaces Compared
VMwareās Vcenter has been a pretty consistent interface for a while now:
Proxmox VE may be new to you, but the interface should look and feel awfully familiar:
They both will very similarly allow you to access and edit settings, add/delete VMs and templatesā¦BUT, who wants to manage infrastructure manually?
Playbooks Compared
You can find my Proxmox playbooks here, and my VMware playbooks are here.
The two playbooks in question, one for Proxmox and one for VMware, are structured very similarly, but use their respective modules.
Iām going to breakdown and comment on each playbook below.
Proxmox Playbook(proxmox-vm.yml)
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 | ---
- name: Create and control VMs on Proxmox using Ascender
hosts: localhost
gather_facts: false
vars:
# Configure the api connection info for Proxmox host
proxmox_auth: &proxmox_auth
api_host: proxmox.gregsowell.com
api_user: "{{ gen1_user }}"
# api_user: root@pam # username format example
# Use standard password
api_password: "{{ gen1_pword }}"
# Use api token and secret - example format
# api_token_id: gregisa5.0
# api_token_secret: 72a72987-ff68-44f1-9fee-c09adaaecf4d |
Above I use a concept in YAML known as an anchor. In every task below I will reference this anchor with an alias. This essentially allows me to reference a set of options and inject them in various other places in my playbook. An anchor is set via the & symbol, which says āeverything else after this is part of the anchor.ā
Here Iām setting up the authentication. I have examples of doing username / password or using an api token. Notice that for username and password Iām using variables. This is because Iām passing in a custom credential via Ascender to the playbook at run time. Doing this allows me to securely maintain those credentials in the Ascender database.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 | # Configure template to clone for new vm
clone_template: rocky9-template
# Configure location on Host to store new vm
storage_location: local-lvm
# Linked Clone needs format=unspecified and full=false
# Format of new VM
vm_format: qcow2
# Default name to use for the VM
vm_name: test-rocky9
# How many cores
# vm_cores: 2
# How many vcpus:
# vm_vcpus: 2
# Options for specifying network interface type
#vm_net0: 'virtio,bridge=vmbr0'
#vm_ipconfig0: 'ip=192.168.1.1/24,gw=192.168.1.1' |
Above here you can see that Iām setting up defaults for my standard variables that can be overridden at run time. Remember that if you pass in variables as extra_vars they have the highest level of precedence.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 | # Switches for playbook control
# vm_action: provision
# vm_action: start
# vm_action: stop
# vm_action: delete
tasks:
- name: Block for creating a vm
when: vm_action == "provision"
block:
- name: Create a VM based on a template
community.general.proxmox_kvm:
# api_user: root@pam
# api_password: secret
# api_host: helldorado
<<: *proxmox_auth
clone: "{{ clone_template }}"
name: "{{ vm_name }}"
node: proxmox
storage: "{{ storage_location }}"
format: "{{ vm_format }}"
timeout: 500
cores: "{{ vm_cores | default(omit) }}"
vcpus: "{{ vm_vcpus | default(omit) }}"
net:
net0: "{{ vm_net0 | default(omit) }}"
ipconfig:
ipconfig0: "{{ vm_ipconfig0 | default(omit) }}"
register: vm_provision_info
- name: Pause after provision to give the API a chance to catch up
ansible.builtin.pause:
seconds: 10 |
Here you can see my first two tasks. Iām looking for the vm_action variable to be set to provision, and if it is I will run this block of code. Iāll then clone a template. Here Iām doing a full clone, but I could also set it to be a linked clone if I wanted. You can also see I have some customization variables here, that when not set are omitted. After the VM provisions, it will pause for about 10 seconds to give the system time to register the new VM before it proceeds on.
This is also where you see the anchor being referenced. The ā<<: *proxmox_authā is the alias with override. This will take the variable chunk from above and inject it into this module(which makes modification to it easier and saves several lines of code in each task).
1 2 3 4 5 6 7 | - name: Start VM
when: (vm_action == "provision" and vm_provision_info.changed) or vm_action == "start"
community.general.proxmox_kvm:
<<: *proxmox_auth
name: "{{ vm_name }}"
node: proxmox
state: started |
You can see in this start task that I have two conditionals. One if the vm_action is set to start and one if the action is set to provision and it actually made a change when doing the provision. It does this on the provision task because by default when you clone a template it wonāt be started. We also check for the changed status because the clone operation is idempotent, which means if that VM already exists, it wonāt do anything, it will simply report back āokā.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 | - name: Stop VM
when: vm_action == "stop"
community.general.proxmox_kvm:
<<: *proxmox_auth
name: "{{ vm_name }}"
node: proxmox
state: stopped
- name: Delete VM block
when: vm_action == "delete"
block:
- name: Stop VM with force
community.general.proxmox_kvm:
<<: *proxmox_auth
name: "{{ vm_name }}"
node: proxmox
state: stopped
force: true
- name: Pause to allow shutdown to complete
ansible.builtin.pause:
seconds: 10
- name: Delete VM
community.general.proxmox_kvm:
<<: *proxmox_auth
name: "{{ vm_name }}"
node: proxmox
state: absent |
The delete block isnāt too complex. It first stops the VM, pauses so the system will register the change, then performs the delete from disk.
VMware Playbook(vmware-vm.yml)
Compare and contrast the two playbooks: they are laid out almost identically, the tasks are in the same order, and they are configured almost the same. This means transitioning from one to the other should be pretty seamless.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 | ---
- name: Create and control VMs on VMware using Ascender
hosts: localhost
gather_facts: false
vars:
# below are all of the details for the VM. I'm overriding these at runtime.
vm_datacenter: MNS
vm_name: snowtest2
# vm_template: Windows2016
vm_template: Rocky8.6
# vm_template: Rocky8
# vm_template: Rocky9
vm_folder: /Greg/ciq
vm_disksize: 50
vm_datastore: SSD
# minimum of 4GB of RAM
vm_memory: 4096
vm_cpus: 4
vm_netname: Greg
vm_ip: 10.1.12.56
vm_netmask: 255.255.255.0
vm_gateway: 10.1.12.1
vmware_auth: &vmware_auth
hostname: "{{ vcenter_hostname }}"
username: "{{ gen1_user }}"
password: "{{ gen1_pword }}"
validate_certs: no
# Switches for playbook control
# vm_action: provision
# vm_action: start
# vm_action: stop
# vm_action: delete
tasks:
- name: Provision a VM
when: vm_action == "provision"
community.vmware.vmware_guest:
<<: *vmware_auth
folder: "{{ vm_folder }}"
name: "{{ vm_name }}"
datacenter: "{{ vm_datacenter }}"
state: poweredon
# guest_id: centos64Guest
template: "{{ vm_template }}"
# This is hostname of particular ESXi server on which user wants VM to be deployed
disk:
- size_gb: "{{ vm_disksize }}"
type: thin
datastore: "{{ vm_datastore }}"
hardware:
memory_mb: "{{ vm_memory }}"
num_cpus: "{{ vm_cpus}}"
scsi: paravirtual
networks:
- name: "{{ vm_netname}}"
connected: true
start_connected: true
type: dhcp
# type: static
# ip: "{{ vm_ip }}"
# netmask: "{{ vm_netmask }}"
# gateway: "{{ vm_gateway }}"
# dns_servers: "{{ vm_gateway }}"
# wait_for_ip_address: true
# device_type: vmxnet3
register: deploy_vm
- name: Start a VM
when: vm_action == "start"
community.vmware.vmware_guest:
<<: *vmware_auth
folder: "{{ vm_folder }}"
name: "{{ vm_name }}"
datacenter: "{{ vm_datacenter }}"
state: poweredon
- name: Stop a VM
when: vm_action == "stop"
community.vmware.vmware_guest:
<<: *vmware_auth
folder: "{{ vm_folder }}"
name: "{{ vm_name }}"
datacenter: "{{ vm_datacenter }}"
# state: poweredoff
state: shutdownguest
- name: Delete a VM
when: vm_action == "delete"
community.vmware.vmware_guest:
<<: *vmware_auth
folder: "{{ vm_folder }}"
name: "{{ vm_name }}"
datacenter: "{{ vm_datacenter }}"
state: absent
force: true |
Interface Comparison In Ascender
For my job templates(how you pull your playbook and required components together in Ascender) Iām using something called a survey. This allows you to quickly/easily configure a set of questions for the user to answer before the automation is run. Hereās an example of my VMware survey:
Adding an entry is as simple as clicking add and filling in the blanks:
Notice in the above there is a blank space for āAnswer variable nameā. This is the extra_vars variable that the info will be passed to the playbook with. Thatās how these surveys work; they simply pass info to the playbook as an extra_var.
So for the sake of comparison, hereās what it looks like when you launch the two different job templates:
VMware Job Template:
Proxmox Job Template:
Notice how they are almost identical. I added all of the options to the VMware JT, but I kept the Proxmox one a little cleaner. I could have just as easily added all of the knobs, but I wanted to show how you can make them full featured or simple. In the end they accomplish the same task. You put in the VMās name, choose an action to perform, and add any additional data required. Thatās literally all there is to it!
When I say choose an action itās as easy as this:
Conclusion
Now this should just serve to show you how easy it is to automate different hypervisors. Keep in mind that this example is simple, but can easily be expanded to easily automate virtually all of the functions of your virtual environment.
As always, Iām looking for feedback. How would you use this in your environmentā¦how would you tweak or tune this?
CIQ also does professional services, so if you need help building, configuring, or migrating your automation strategy, environments, or systems, please reach out!
Thanks and happy automating!
Hey everybody, Iām Greg Sowell and this is Why Am I, a podcast where I talk to interesting people and try to trace a path to where they find themselves today.Ā My guest this go around is Ryan Shacklett.Ā Ryan has multiple fursonas with his main as Wild Acai.Ā For the uninitiated, that means he attends conventions and events dressed in an insanely impressive animal suiteā¦often referred to as a āfurryā.Ā Not only does it provide a place to explore parts of your personality, but also allows for a lot of creative expression.Ā Not only does he participate, but he also gets to give these experiences to others through his own multi employee company that creates these impressive suites.. Help us grow by sharing with someone!
Please show them some love on their socials here: ā http://waggerycos.com/ā ,
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If you want to support the podcast you can do so via https://www.patreon.com/whyamipod (this gives you access to bonus content including their Fantasy Restaurant!)
Hey everybody, Iām Greg Sowell and this is Why Am I, a podcast where I talk to interesting people and try to trace a path to where they find themselves today.Ā My guest this go around is Dan De Leon.Ā Dan lives his life the way he leads his church, open and affirming.Ā That was a term new to me, but essentially it means all people are welcome and supportedā¦no matter how able bodied you are, or where you are in the LGBTQIA+ box of crayons.Ā Dan gives me hope.Ā Hope that the religious people I care about can come to the one real truth; loving others unconditionally is the only thing that matters.Ā You follow this principle first, and have your faith fit in around that, not the other way around.Ā I learn a LOT in this conversation, and I hope you do to.Ā Please enjoy this chat with Dan. Help us grow by sharing with someone!
Please show them some love on their socials here: ā https://www.friends-ucc.org/ā ,
ā https://www.facebook.com/friendschurchuccā ,
ā https://www.instagram.com/friends_uccā .
If you want to support the podcast you can do so via https://www.patreon.com/whyamipod (this gives you access to bonus content including their Fantasy Restaurant!)