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< h1 > Deploying a VM < / h1 >
< h2 > Table of Contents< / h2 >
- [Introduction ](#introduction )
- [Example ](#example )
- [Detailed Explanation ](#detailed-explanation )
- [Building Network ](#building-network )
- [Building the Disk Model ](#building-the-disk-model )
- [Building the VM ](#building-the-vm )
- [Building VMs Collection ](#building-vms-collection )
- [deployment ](#deployment )
- [Getting Deployment Information ](#getting-deployment-information )
- [Deleting a Deployment ](#deleting-a-deployment )
***
## Introduction
We present information on how to deploy a VM with the Javascript client with concrete examples.
## Example
```ts
import { DiskModel, FilterOptions, MachineModel, MachinesModel, NetworkModel } from "../src";
import { config, getClient } from "./client_loader";
import { log } from "./utils";
async function main() {
const grid3 = await getClient();
// create network Object
const n = new NetworkModel();
n.name = "dynamictest";
n.ip_range = "10.249.0.0/16";
// create disk Object
const disk = new DiskModel();
disk.name = "dynamicDisk";
disk.size = 8;
disk.mountpoint = "/testdisk";
const vmQueryOptions: FilterOptions = {
cru: 1,
mru: 1, // GB
sru: 1,
availableFor: grid3.twinId,
country: "Belgium",
};
// create vm node Object
const vm = new MachineModel();
vm.name = "testvm";
vm.node_id = +(await grid3.capacity.filterNodes(vmQueryOptions))[0].nodeId; // TODO: allow random choice
vm.disks = [disk];
vm.public_ip = false;
vm.planetary = true;
vm.cpu = 1;
vm.memory = 1024;
vm.rootfs_size = 0;
vm.flist = "https://hub.grid.tf/tf-official-apps/base:latest.flist";
vm.entrypoint = "/sbin/zinit init";
vm.env = {
SSH_KEY: config.ssh_key,
};
// create VMs Object
const vms = new MachinesModel();
vms.name = "dynamicVMS";
vms.network = n;
vms.machines = [vm];
vms.metadata = "{'testVMs': true}";
vms.description = "test deploying VMs via ts grid3 client";
// deploy vms
const res = await grid3.machines.deploy(vms);
log(res);
// get the deployment
const l = await grid3.machines.getObj(vms.name);
log(l);
// // delete
// const d = await grid3.machines.delete({ name: vms.name });
// log(d);
await grid3.disconnect();
}
main();
```
## Detailed Explanation
### Building Network
```ts
// create network Object
const n = new NetworkModel();
n.name = "dynamictest";
n.ip_range = "10.249.0.0/16";
```
Here we prepare the network model that is going to be used by specifying a name to our network and the range it will be spanning over
## Building the Disk Model
```ts
// create disk Object
const disk = new DiskModel();
disk.name = "dynamicDisk";
disk.size = 8;
disk.mountpoint = "/testdisk";
```
here we create the disk model specifying its name, size in GB and where it will be mounted eventually
## Building the VM
```ts
// create vm node Object
const vm = new MachineModel();
vm.name = "testvm";
vm.node_id = +(await grid3.capacity.filterNodes(vmQueryOptions))[0].nodeId; // TODO: allow random choice
vm.disks = [disk];
vm.public_ip = false;
vm.planetary = true;
vm.cpu = 1;
vm.memory = 1024;
vm.rootfs_size = 0;
vm.flist = "https://hub.grid.tf/tf-official-apps/base:latest.flist";
vm.entrypoint = "/sbin/zinit init";
vm.env = {
SSH_KEY: config.ssh_key,
};
```
Now we go to the VM model, that will be used to build our `zmachine` object
We need to specify its
- name
- node_id: where it will get deployed
- disks: disks model collection
- memory
- root filesystem size
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- flist: the image it is going to start from. Check the [supported flists ](grid3_supported_flists.md )
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- entry point: entrypoint command / script to execute
- env: has the environment variables needed e.g sshkeys used
- public ip: if we want to have a public ip attached to the VM
- planetary: to enable planetary network on VM
## Building VMs Collection
```ts
// create VMs Object
const vms = new MachinesModel();
vms.name = "dynamicVMS";
vms.network = n;
vms.machines = [vm];
vms.metadata = "{'testVMs': true}";
vms.description = "test deploying VMs via ts grid3 client";
```
Here it's quite simple we can add one or more VM to the `machines` property to have them deployed as part of our project
## deployment
```ts
// deploy vms
const res = await grid3.machines.deploy(vms);
log(res);
```
## Getting Deployment Information
can do so based on the name you gave to the `vms` collection
```ts
// get the deployment
const l = await grid3.machines.getObj(vms.name);
log(l);
```
## Deleting a Deployment
```ts
// delete
const d = await grid3.machines.delete({ name: vms.name });
log(d);
```
In the underlying layer we cancel the contracts that were created on the chain and as a result all of the workloads tied to his project will get deleted.