numam-spdk/scripts/vagrant
Tomasz Zawadzki 7d97822f17 vagrant: preallocate nvme images by default
Added preallocation option for raw NVMe disk images.
It matches qemu-img option for raw images.

By default raw images are created with "off" option,
resulting in increased size of the disk image as it is used.

Using "falloc" option preallocates the full size of the disk,
but does not write zeroes to it, compared to "full" option.

This will make sure that in CI, a device used during test
is never exhaused due to lack of host space.

Signed-off-by: Tomasz Zawadzki <tomasz.zawadzki@intel.com>
Change-Id: Ie1c30909dc87552a6d6c385d0ad80905ce68ff9d
Reviewed-on: https://review.spdk.io/gerrit/c/spdk/spdk/+/11243
Community-CI: Broadcom CI <spdk-ci.pdl@broadcom.com>
Tested-by: SPDK CI Jenkins <sys_sgci@intel.com>
Reviewed-by: Karol Latecki <karol.latecki@intel.com>
Reviewed-by: Konrad Sztyber <konrad.sztyber@intel.com>
Reviewed-by: Jim Harris <james.r.harris@intel.com>
2022-01-27 19:36:38 +00:00
..
autorun-spdk.conf nvmf/vfio_user: disable vfio_user by default 2021-01-29 15:15:23 +00:00
create_nvme_img.sh vagrant: preallocate nvme images by default 2022-01-27 19:36:38 +00:00
create_vbox.sh scripts/vagrant: update Fedora vesions. 2021-12-10 09:18:26 +00:00
local.conf scripts: update local.conf for openstack tests 2022-01-05 12:10:07 +00:00
README.md spelling: scripts 2021-12-03 08:13:04 +00:00
run-autorun.sh check_format: Reformat the Bash code in compliance with shfmt 2020-05-07 20:52:21 +00:00
update.sh check_format: Reformat the Bash code in compliance with shfmt 2020-05-07 20:52:21 +00:00
Vagrantfile scripts/vagrant: update Fedora vesions. 2021-12-10 09:18:26 +00:00

SPDK Vagrant and VirtualBox

The following guide explains how to use the scripts in the spdk/scripts/vagrant. Mac, Windows, and Linux platforms are supported.

  1. Install and configure Git on your platform.
  2. Install VirtualBox 5.1 or newer
  3. Install* VirtualBox Extension Pack
  4. Install and configure Vagrant 1.9.4 or newer
  • Note: The extension pack has different licensing than main VirtualBox, please review them carefully as the evaluation license is for personal use only.

Mac OSX Setup (High Sierra)

Quick start instructions for OSX:

  1. Install Homebrew
  2. Install Virtual Box Cask
  3. Install Virtual Box Extension Pack*
  4. Install Vagrant Cask
  • Note: The extension pack has different licensing than main VirtualBox, please review them carefully as the evaluation license is for personal use only.
   /usr/bin/ruby -e "$(curl -fsSL https://raw.githubusercontent.com/Homebrew/install/master/install)"
   brew doctor
   brew update
   brew cask install virtualbox
   brew cask install virtualbox-extension-pack
   brew cask install vagrant

Windows 10 Setup

  1. Windows platforms should install some form of git.
  2. Install VirtualBox 5.1 or newer
  3. Install* VirtualBox Extension Pack
  4. Install and configure Vagrant 1.9.4 or newer
  • Note: The extension pack has different licensing than main VirtualBox, please review them carefully as the evaluation license is for personal use only.
  • Note: VirtualBox requires virtualization to be enabled in the BIOS.
  • Note: You should disable Hyper-V in Windows RS 3 laptop. Search windows features un-check Hyper-V, restart laptop

Linux Setup

Following the generic instructions should be sufficient for most Linux distributions. For more thorough instructions on installing VirtualBox on your distribution of choice, please see the following guide.

Examples on Fedora26/Fedora27/Fedora28

  1. yum check-update
  2. yum update -y
  3. yum install qt*
  4. yum install libsdl*
  5. rpm -ivh VirtualBox-5.2-5.2.16_123759_fedora26-1.x86_64.rpm (select the right version in https://www.virtualbox.org/wiki/Linux_Downloads)
  6. VBoxManage extpack install Oracle_VM_VirtualBox_Extension_Pack-5.2.16.vbox-extpack(install the same pack* as your installed version of VirtualBox)
  7. rpm -ivh vagrant_2.1.2_x86_64.rpm
  • Note: The extension pack has different licensing than main VirtualBox, please review them carefully as the evaluation license is for personal use only.

Configure Vagrant

If you are behind a corporate firewall, configure the following proxy settings.

  1. Set the http_proxy and https_proxy
  2. Install the proxyconf plugin
  $ export http_proxy=....
  $ export https_proxy=....
  $ vagrant plugin install vagrant-proxyconf

Download SPDK from GitHub

Use git to clone a new spdk repository. GerritHub can also be used. See the instructions at spdk.io to setup your GerritHub account. Note that this spdk repository will be rsync'd into your VM, so you can use this repository to continue development within the VM.

Create a Virtual Box

Use the spdk/scripts/vagrant/create_vbox.sh script to create a VM of your choice. Supported VM platforms are:

  • centos7
  • ubuntu16
  • ubuntu18
  • fedora26
  • fedora27
  • fedora28
  • freebsd11
$ spdk/scripts/vagrant/create_vbox.sh -h
 Usage: create_vbox.sh [-n <num-cpus>] [-s <ram-size>] [-x <http-proxy>] [-hvrld] <distro>

  distro = <centos7 | ubuntu16 | ubuntu18 | fedora26 | fedora27 | fedora28 | freebsd11>

  -s <ram-size> in kb       default: 4096
  -n <num-cpus> 1 to 4      default: 4
  -x <http-proxy>           default: ""
  -p <provider>             libvirt or virtualbox
  --vhost-host-dir=<path>   directory path with vhost test dependencies
                            (test VM qcow image, fio binary, ssh keys)
  --vhost-vm-dir=<path>     directory where to put vhost dependencies in VM
  -r dry-run
  -l use a local copy of spdk, don't try to rsync from the host.
  -d deploy a test vm by provisioning all prerequisites for spdk autotest
  -h help
  -v verbose

 Examples:

  ./scripts/vagrant/create_vbox.sh -x http://user:password@host:port fedora27
  ./scripts/vagrant/create_vbox.sh -s 2048 -n 2 ubuntu16
  ./scripts/vagrant/create_vbox.sh -rv freebsd
  ./scripts/vagrant/create_vbox.sh fedora26

It is recommended that you call the create_vbox.sh script from outside of the spdk repository. Call this script from a parent directory. This will allow the creation of multiple VMs in separate directories, all using the same spdk repository. For example:

   $ spdk/scripts/vagrant/create_vbox.sh -s 2048 -n 2 fedora26

This script will:

  1. create a subdirectory named in your $PWD
  2. copy the needed files from spdk/scripts/vagrant/ into the directory
  3. create a working virtual box in the directory
  4. rsync the ~/.gitconfig file to /home/vagrant/ in the newly provisioned virtual box
  5. rsync a copy of the source spdk repository to /home/vagrant/spdk_repo/spdk (optional)
  6. rsync a copy of the ~/vagrant_tools directory to /home/vagrant/tools (optional)
  7. execute vm_setup.sh on the guest to install all spdk dependencies (optional)

This arrangement allows the provisioning of multiple, different VMs within that same directory hierarchy using the same spdk repository. Following the creation of the vm you'll need to ssh into your virtual box and finish the VM initialization.

  $ cd <distro>
  $ vagrant ssh

Finish VM Initialization

A copy of the spdk repository you cloned will exist in the spdk_repo directory of the /home/vagrant user account. After using vagrant ssh to enter your VM you must complete the initialization of your VM by running the scripts/vagrant/update.sh script. For example:

   $ script -c 'sudo spdk_repo/spdk/scripts/vagrant/update.sh' update.log

The update.sh script completes initialization of the VM by automating the following steps.

  1. Runs yum/apt-get update (Linux)
  2. Runs the scripts/pdkdep.sh script
  3. Installs the FreeBSD source in /usr/sys (FreeBSD only)

This only needs to be done once. This is also not necessary for Fedora VMs provisioned with the -d flag. The vm_setup script performs these operations instead.

Post VM Initialization

Following VM initialization you must:

  1. Verify you have an emulated NVMe device
  2. Compile your spdk source tree
  3. Run the hello_world example to validate the environment is set up correctly

Verify you have an emulated NVMe device

  $ lspci | grep "Non-Volatile"
  00:0e.0 Non-Volatile memory controller: InnoTek Systemberatung GmbH Device 4e56

Compile SPDK

  $ cd spdk_repo/spdk
  $ git submodule update --init
  $ ./configure --enable-debug
  $ make

Run the hello_world example script

  $ sudo scripts/setup.sh
  $ sudo scripts/gen_nvme.sh --json-with-subsystems > ./build/examples/hello_bdev.json
  $ sudo ./build/examples/hello_bdev --json ./build/examples/hello_bdev.json -b Nvme0n1

Running autorun.sh with vagrant

After running vm_setup.sh the run-autorun.sh can be used to run spdk/autorun.sh on a Fedora vagrant machine. Note that the spdk/scripts/vagrant/autorun-spdk.conf should be copied to ~/autorun-spdk.conf before starting your tests.

   $ cp spdk/scripts/vagrant/autorun-spdk.conf ~/
   $ spdk/scripts/vagrant/run-autorun.sh -h
     Usage: scripts/vagrant/run-autorun.sh -d <path_to_spdk_tree> [-h] | [-q] | [-n]
       -d : Specify a path to an SPDK source tree
       -q : No output to screen
       -n : Noop - dry-run
       -h : This help

     Examples:
         run-spdk-autotest.sh -d . -q
         run-spdk-autotest.sh -d /home/vagrant/spdk_repo/spdk

FreeBSD Appendix


NOTE: As of this writing the FreeBSD Virtualbox instance does not correctly support the vagrant-proxyconf feature.

The following steps are done by the update.sh script. It is recommended that you capture the output of update.sh with a typescript. E.g.:

  $ script update.log sudo spdk_repo/spdk/scripts/vagrant/update.sh
  1. Updates the pkg catalog
  2. Installs the needed FreeBSD packages on the system by calling pkgdep.sh
  3. Installs the FreeBSD source in /usr/src
   $ sudo pkg upgrade -f
   $ sudo spdk_repo/spdk/scripts/pkgdep.sh --all
   $ sudo git clone --depth 10 -b releases/11.1.0 https://github.com/freebsd/freebsd.git /usr/src

To build spdk on FreeBSD use gmake MAKE=gmake. E.g.:

    $ cd spdk_repo/spdk
    $ git submodule update --init
    $ ./configure --enable-debug
    $ gmake MAKE=gmake