firecracker-task-driver

command module
v0.0.0-...-8345015 Latest Latest
Warning

This package is not in the latest version of its module.

Go to latest
Published: May 3, 2023 License: Apache-2.0 Imports: 5 Imported by: 0

README

Firecracker Task Driver

nomad task driver for creating Firecracker micro-vms.

Requirements

Note: The last version of firecracker that works with this nomad plugin is : 0.25.2, more work is needed to make it work with latest releases.

Installation

Install(and compile) the firecracker-task-driver binary and put it in plugin_dir and then add a plugin "firecracker-task-driver" {} line in your nomad config file.

go get github.com/cneira/firecracker-task-driver
cp $GOPATH/bin/firecracker-task-driver YOURPLUGINDIR

Then in your nomad config file, set

plugin "firecracker-task-driver" {}

In developer/test mode(nomad agent -dev) , plugin_dir is unset it seems, so you will need to mkdir plugins and then copy the firecracker-task-driver binary to plugins and add a plugins_dir = "path/to/plugins" to the above config file. then you can run it like:

nomad agent -dev -config nomad.config

For more details see the nomad docs.

Container network configuration

{
  "name": "default",
  "cniVersion": "0.4.0",
  "plugins": [
    {
      "type": "ptp",
      "ipMasq": true,
      "ipam": {
        "type": "host-local",
        "subnet": "192.168.127.0/24",
        "resolvConf": "/etc/resolv.conf"
      }
    },
    {
      "type": "firewall"
    },
    {
      "type": "tc-redirect-tap"
    }
  ]
}

Example : exposing port 27960 on micro-vm

{
        "name": "microvms2",
                "cniVersion": "0.4.0",
                "plugins": [

                {
                        "type": "ptp",
                        "ipMasq": true,
                        "ipam": {
                                "type": "host-local",
                                "subnet": "192.168.127.0/24",
                                "resolvConf": "/etc/resolv.conf"
                        }
                },
                {
                        "type": "firewall"
                },
                {
                        "type": "portmap",
                        "capabilities": {"portMappings": true},
                        "runTimeConfig":  { 
                                "portMappings":
                                        [ { "hostPort": 27960, "containerPort": 27960, "protocol": "udp" }
                                        ] }
                },
                {
                        "type": "tc-redirect-tap"
                }

        ]
}

In this example with outside world connectivity for your vms. The name of this network is default and this name is the parameter used in Network on the task driver job spec. Also the filename must match the name of the network, and the suffix .conflist.

Creating a rootfs and kernel image for firecracker

We need to an ext4 root filesystem to use as disk and an uncompressed vmlinux image, the process on how to generate them is described here.

Using ZFS zvols to create a rootfs for microvms

Leveraging ZFS zvols to expose rootfs to firecracker is really simple, and zfs has a lot of benefits.

First download a template image, for example from OpenVZCentos7

Now create a ZVOL to host this tarball

$ zfs create -V 1G  zpool/centos7vm 
$ mkfs.ext4  /dev/zvol/zpool/centos7vm
$ mount -t ext4  /dev/zvol/zpool/centos7vm /mnt
$ tar xfvz centos-7-x86_64-minimal.tar.gz -C /mnt
$ zfs snapshot zpool/centos7vm@final 

Now just use your new zvol as your BootDisk For example:

job "example3" {
  datacenters = ["dc1"]
  type        = "service"

  group "test" {
    restart {
      attempts = 0
      mode     = "fail"
    }
    task "test01" {
     driver = "firecracker-task-driver"
      config {
       Vcpus = 1 
       Mem = 128
       KernelImage= "/home/cneira/kernel-images/vmlinux.bin"
       BootDisk = "/dev/zvol/vms/centos7vm"
       Network = "default"
      }
    }
  }
}

Firecracker task driver options


KernelImage (not required, default: vmlinux )
  • kernel image to be used on the micro-vm, if this option is omitted it expects a vmlinux file in the allocation dir.
BootOptions (not required, default: "ro console=ttyS0 reboot=k panic=1 pci=off nomodules")
  • Kernel command line.
BootDisk (not required, default: rootfs.ext4)
  • ext4 rootfs to use, if this is omitted it expects a rootfs called rootfs.ext4 in the allocation dir.
Disks (not required)
  • Additional disks to add to the micro-vm, must use the suffix :ro or :rw, can be specified multiple times.
Network (not required)
  • Network name if using CNI
Vcpus (not required, default: 1)
  • Number of cpus to assign to micro-vm.
Cputype (not required)
  • The CPU Template defines a set of flags to be disabled from the microvm so that the features exposed to the guest are the same as in the selected instance type. templates available are C3 or T2.
Mem (not required, default: 512)
  • Amount of memory in Megabytes to assign to micro-vm.
Firecracker (not required, default: "/usr/bin/firecracker")
  • Location of the firecracker binary, the option could be omitted if the environment variable FIRECRACKER_BIN is set.
Log (not required)
  • Where to write logs from micro-vm.
DisableHt (not required, default: false)
  • Disable CPU Hyperthreading.

When the microvm starts a file will be created in /tmp/ with the following name -, for example : /tmp/test01-785f9472-52a7-3dbf-8305-d482b1f7dc6f will contain the following info :

{
 "AllocId": "590983f4-499a-380f-420e-e5be4d5f46d9",
 "Ip": "192.168.127.62/24",
 "Serial": "/dev/pts/3",
 "Pid": "237216",
 "Vnic": "veth05fb4547vm"
}

  • AllocId (given by nomad)
  • Ip (Ip address assigned by cni configuration)
  • Serial (tty where a serial console is setup for the vm)
  • Pid ( Pid for the firecracker process that started the vm)
  • Vnic (virtual interface on the host linked to the vm)

Examples:

Omitting KernelImage and BootDisk

Don't specifying KernelImage and BootDisk it will default to rootfs.ext4 and vmlinux in the allocation directory.

job "example" {
  datacenters = ["dc1"]
  type        = "service"
  group "test" {
    restart {
      attempts = 0
      mode     = "fail"
    }

  task "test01" {
   artifact {
  	source = "https://firecracker-kernels.s3-sa-east-1.amazonaws.com/vmlinux-5.4.0-rc5.tar.gz"
	  destination = "."
  }
  artifact {
	  source = "https://firecracker-rootfs.s3-sa-east-1.amazonaws.com/ubuntu16.04.rootfs.tar.gz"
	  destination = "."
  }
  driver = "firecracker-task-driver"
    config {
      Vcpus = 1 
      Mem = 128
      Network = "default"
     }
    }
  }
}
CNI network configuration

job "cni-network-configuration-example" {
  datacenters = ["dc1"]
  type        = "service"

  group "test" {
    restart {
      attempts = 0
      mode     = "fail"
    }
    task "test01" {
      driver = "firecracker-task-driver"
      config {
       KernelImage = "/home/build/firecracker/hello-vmlinux.bin" 
       Firecracker = "/home/build/firecracker/firecracker" 
       Vcpus = 1 
       Mem = 128
       BootDisk = "/home/build/firecracker/hello-rootfs.ext4"
       Network = "fcnet"
      }
    }
  }
}
Additional Disks configuration

job "neverwinter" {
  datacenters = ["dc1"]
  type        = "service"
   task "nwn-server" {
      driver = "firecracker-task-driver"
      config {
       Vcpus = 1 
       KernelImage = "/home/cneira/Development/vmlinuxs/vmlinux"
       BootDisk= "/home/cneira/Development/rootfs/ubuntu/18.04/nwnrootfs.ext4"
       Disks = [ "/home/cneira/Development/disks/disk0.ext4:rw" ]
       Mem = 1000 
       Network = "default"
      }
    }
}
Accessing the microvm using serial console

The firecracker-task-driver exposes the serial console as this option is handy to troubleshoot network issues. Each microvm generates a state file on the /tmp/ directory, named using the job name + allocation id. For example:

-rw-r--r--. 1 root root  152 May 12 14:07 /tmp/test01-590983f4-499a-380f-420e-e5be4d5f46d9

The contents of the state file should be like the following:

{
 "AllocId": "590983f4-499a-380f-420e-e5be4d5f46d9",
 "Ip": "192.168.127.62/24",
 "Serial": "/dev/pts/3",
 "Pid": "237216",
 "Vnic": "veth05fb4547vm"
}

Using the serial now we know which serial port is expose and it's a matter of connect to it. You could use SCREEN(1) to connect to the serial console.

$ sudo screen /dev/pts/3

Started Update UTMP about System Runlevel Changes.

CentOS Linux 7 (Core)
Kernel 4.14.225 on an x86_64

192 login: 

Demo

asciicast

Support

ko-fi

It's also possible to support the project on Patreon

I work on this project on my free time and my country is not on the list available for github sponsors so any help for me continue working on this is appreciated.

References

Documentation

The Go Gopher

There is no documentation for this package.

Directories

Path Synopsis

Jump to

Keyboard shortcuts

? : This menu
/ : Search site
f or F : Jump to
y or Y : Canonical URL