info_tfgrid/collections/developers/go/grid3_go_vm.md

<h1> Deploying a VM</h1>

<h2>Table of Contents</h2>

- [Introduction](#introduction)
- [Example](#example)

***

## Introduction

We show how to deploy a VM with the Go client.

## Example

```go
import (
    "context"
    "fmt"
    "net"

    "github.com/threefoldtech/tfgrid-sdk-go/grid-client/deployer"
    "github.com/threefoldtech/tfgrid-sdk-go/grid-client/workloads"
    "github.com/threefoldtech/tfgrid-sdk-go/grid-proxy/pkg/types"
    "github.com/threefoldtech/zos/pkg/gridtypes"
)

func main() {

    // Create Threefold plugin client
    tfPluginClient, err := deployer.NewTFPluginClient(mnemonics, keyType, network, "", "", "", 0, true)

    // Get a free node to deploy
    freeMRU := uint64(2)
    freeSRU := uint64(20)
    status := "up"
    filter := types.NodeFilter{
        FreeMRU: &freeMRU,
        FreeSRU: &freeSRU,
        Status:  &status,
    }
    nodeIDs, err := deployer.FilterNodes(tfPluginClient.GridProxyClient, filter)
    nodeID := uint32(nodeIDs[0].NodeID)

    // Create a new network to deploy
    network := workloads.ZNet{
        Name:        "newNetwork",
        Description: "A network to deploy",
        Nodes:       []uint32{nodeID},
        IPRange: gridtypes.NewIPNet(net.IPNet{
            IP:   net.IPv4(10, 1, 0, 0),
            Mask: net.CIDRMask(16, 32),
        }),
        AddWGAccess: true,
    }

    // Create a new VM to deploy
    vm := workloads.VM{
        Name:       "vm",
        Flist:      "https://hub.grid.tf/tf-official-apps/base:latest.flist",
        CPU:        2,
        PublicIP:   true,
        Planetary:  true,
        Memory:     1024,
        RootfsSize: 20 * 1024,
        Entrypoint: "/sbin/zinit init",
        EnvVars: map[string]string{
            "SSH_KEY": publicKey,
        },
        IP:          "10.20.2.5",
        NetworkName: network.Name,
    }

    // Deploy the network first
    err = tfPluginClient.NetworkDeployer.Deploy(ctx, &network)

    // Deploy the VM deployment
    dl := workloads.NewDeployment("vm", nodeID, "", nil, network.Name, nil, nil, []workloads.VM{vm}, nil)
    err = tfPluginClient.DeploymentDeployer.Deploy(ctx, &dl)

    // Load the VM using the state loader
    vmObj, err := tfPluginClient.State.LoadVMFromGrid(nodeID, vm.Name, dl.Name)

    // Print the VM Yggdrasil IP
    fmt.Println(vmObj.YggIP)

    // Cancel the VM deployment
    err = tfPluginClient.DeploymentDeployer.Cancel(ctx, &dl)

    // Cancel the network deployment
    err = tfPluginClient.NetworkDeployer.Cancel(ctx, &network)
}
```

Running this code should result in a VM deployed on an available node and get an output like this:

```bash
300:e9c4:9048:57cf:6d98:42c6:a7bf:2e3f
```
updated smaller collections for manual 2024-04-29 17:49:02 +00:00			`<h1> Deploying a VM</h1>`

			`<h2>Table of Contents</h2>`

			`- [Introduction](#introduction)`
			`- [Example](#example)`

			`***`

			`## Introduction`

			`We show how to deploy a VM with the Go client.`

			`## Example`

			```go
			`import (`
			`"context"`
			`"fmt"`
			`"net"`

			`"github.com/threefoldtech/tfgrid-sdk-go/grid-client/deployer"`
			`"github.com/threefoldtech/tfgrid-sdk-go/grid-client/workloads"`
			`"github.com/threefoldtech/tfgrid-sdk-go/grid-proxy/pkg/types"`
			`"github.com/threefoldtech/zos/pkg/gridtypes"`
			`)`

			`func main() {`

			`// Create Threefold plugin client`
			`tfPluginClient, err := deployer.NewTFPluginClient(mnemonics, keyType, network, "", "", "", 0, true)`

			`// Get a free node to deploy`
			`freeMRU := uint64(2)`
			`freeSRU := uint64(20)`
			`status := "up"`
			`filter := types.NodeFilter{`
			`FreeMRU: &freeMRU,`
			`FreeSRU: &freeSRU,`
			`Status: &status,`
			`}`
			`nodeIDs, err := deployer.FilterNodes(tfPluginClient.GridProxyClient, filter)`
			`nodeID := uint32(nodeIDs[0].NodeID)`

			`// Create a new network to deploy`
			`network := workloads.ZNet{`
			`Name: "newNetwork",`
			`Description: "A network to deploy",`
			`Nodes: []uint32{nodeID},`
			`IPRange: gridtypes.NewIPNet(net.IPNet{`
			`IP: net.IPv4(10, 1, 0, 0),`
			`Mask: net.CIDRMask(16, 32),`
			`}),`
			`AddWGAccess: true,`
			`}`

			`// Create a new VM to deploy`
			`vm := workloads.VM{`
			`Name: "vm",`
			`Flist: "https://hub.grid.tf/tf-official-apps/base:latest.flist",`
			`CPU: 2,`
			`PublicIP: true,`
			`Planetary: true,`
			`Memory: 1024,`
			`RootfsSize: 20 * 1024,`
			`Entrypoint: "/sbin/zinit init",`
			`EnvVars: map[string]string{`
			`"SSH_KEY": publicKey,`
			`},`
			`IP: "10.20.2.5",`
			`NetworkName: network.Name,`
			`}`

			`// Deploy the network first`
			`err = tfPluginClient.NetworkDeployer.Deploy(ctx, &network)`

			`// Deploy the VM deployment`
			`dl := workloads.NewDeployment("vm", nodeID, "", nil, network.Name, nil, nil, []workloads.VM{vm}, nil)`
			`err = tfPluginClient.DeploymentDeployer.Deploy(ctx, &dl)`

			`// Load the VM using the state loader`
			`vmObj, err := tfPluginClient.State.LoadVMFromGrid(nodeID, vm.Name, dl.Name)`

			`// Print the VM Yggdrasil IP`
			`fmt.Println(vmObj.YggIP)`

			`// Cancel the VM deployment`
			`err = tfPluginClient.DeploymentDeployer.Cancel(ctx, &dl)`

			`// Cancel the network deployment`
			`err = tfPluginClient.NetworkDeployer.Cancel(ctx, &network)`
			`}`
			```

			`Running this code should result in a VM deployed on an available node and get an output like this:`

			```bash
			`300:e9c4:9048:57cf:6d98:42c6:a7bf:2e3f`
			```