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[Xen-devel] [stage1-xen (RFC) PATCH 09/10] build/fedora: Add `RUNNING_STAGE1_XEN.md`



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+# Running Stage1 Xen on Fedora
+
+This document outlines the steps to get started with stage1-xen on Fedora. 
They are –
+
+ * [Preparing your machine and installing minimal 
Fedora](#preparing_your_machine_and_installing_minimal_fedora)
+ * [Booting into Xen](#booting_into_xen)
+ * [Launching Xen services](#launching_xen_services)
+ * [Setting up Xen networking](#setting_up_xen_networking)
+ * [Running stage1-xen](#running_stage1-xen)
+
+<a name="preparing_your_machine_and_installing_minimal_fedora"></a>
+## Preparing your machine and installing minimal Fedora
+
+On x86 platform there are two ways to start an operating system or a 
hypervisor. They are &ndash;
+
+ * Legacy BIOS Mode
+ * EFI Mode
+
+Latest operating systems and hypervisors including Fedora and Xen has support 
for EFI mode. If you are unfamiliar with EFI we recommend checking out this 
[article](http://www.rodsbooks.com/efi-bootloaders/principles.html).
+
+By default, most BIOS now boot using EFI Mode. In your BIOS menu, there might 
be an option to toggle _Legacy BIOS Mode_. Do not toggle that option.
+
+### Enable VT-x and VT-d
+
+Please ensure that you have enabled VT-x and if available VT-d.
+
+### Disable Secure Boot
+
+As we will be booting a custom build of Xen, we need to disable secure boot. 
You will find an option in your BIOS menu to disable secure boot.
+
+### Installing minimal Fedora
+
+The default Fedora installation installs packages that we do not require when 
running Xen. We recommend doing a minimal Fedora as follows.
+
+ 1. Download Net Install image
+
+ 2. Prepare a USB drive
+
+ 3. Do a minimal Fedora Install
+
+You can download the Fedora net install image 
[here](https://alt.fedoraproject.org/). You can select either the Fedora Server 
or Fedora Workstation image, it doesn't really matter.
+
+After downloading the net install images, please copy the raw image onto a USB 
drive. Please see 
[this](https://access.redhat.com/documentation/en-US/Red_Hat_Enterprise_Linux/7/html/Installation_Guide/sect-making-usb-media.html)
 link on how to prepare USB drive.
+
+EFI BIOS comes with a _BIOS Boot Menu_ using which you can select the device 
to boot from. Insert the USB drive, then go into your BIOS Boot Menu and boot 
using the USB drive. This should start the Fedora Network Installer.
+
+In the Fedora Installer, there is a section for under _SOFTWARE_ called 
_SOFTWARE SELECTION_. In this section please **select** either _Minimal 
Install_ or _Basic Desktop_, **without** any add-ons. 
+
+**Note:** If there is existing data on the hard disk, please ensure that 
_INSTALLATION DESTINATION_ under _SYSTEM_ section is appropriately configured. 
+
+Then click on _Begin Installation_ to complete the installation.
+
+Once the installation is complete, please disable SELinux by editing 
`/etc/selinux/config`.
+
+You now have a minimal Fedora Installation, which is good for working with Xen.
+
+<a name="booting_into_xen"></a>
+## Booting into Xen
+
+Log into Fedora as root and copy over `stage1-xen-build.tar.gz`. Extract 
`stage1-xen-build.tar.gz` into `/opt` directory.
+
+```shell
+[root@localhost ~]# tar zxvf stage1-xen-build.tar.gz -C /opt
+
+[root@localhost ~]# ls /opt
+qemu-unstable  stage1-xen  xen-unstable  xen-unstable-runit
+```
+
+This will extract all the build artifacts into `/opt` directory.
+
+Next we will create a BIOS Boot Menu entry to boot `xen-4.10-unstable.efi`. 
This will start Xen hypervisor. Xen will then start Fedora as Dom-0 guest.
+
+On Fedora, EFI system partition (ESP) is usually mounted at `/boot/efi`. This 
is a `vfat` partition. You can check if EFI system partition is mounted as 
follows &ndash;
+
+```shell
+[root@localhost ~]# mount | grep '\/boot\/efi'
+/dev/sda1 on /boot/efi type vfat 
(rw,relatime,fmask=0077,dmask=0077,codepage=437,iocharset=ascii,shortname=winnt,errors=remount-ro)
+```
+
+Create a directory for Xen under `/boot/efi/EFI` and copy over 
`xen-4.10-unstable.efi`.
+
+```shell
+[root@localhost ~]# mkdir -p /boot/efi/EFI/xen
+[root@localhost ~]# cp 
/opt/xen-unstable/boot/efi/EFI/xen/xen-4.10-unstable.efi /boot/efi/EFI/xen/
+```
+
+Inspect `/boot/efi/EFI/fedora/grub.cfg`. Under section `### BEGIN 
/etc/grub.d/10_linux ###` you will find `menuentry` for Fedora kernel and 
initrd. Look for `linuxefi` and `initrdefi`. Copy over the `vmlinuz` and 
`initramfs` files that you want to use for your Dom-0 into `/boot/efi/EFI/xen` 
directory.
+
+```shell
+[root@localhost ~]# cp /boot/vmlinuz-A.B.C-D.fcXX.x86_64 /boot/efi/EFI/xen/
+
+[root@localhost ~]# cp /boot/initramfs-A.B.C-D.fcXX.x86_64.img 
/boot/efi/EFI/xen/
+```
+
+Now in `/boot/efi/EFI/xen/` you should have the following files.
+
+```shell
+[root@localhost ~]# ls /boot/efi/EFI/xen/
+initramfs-A.B.C-D.fcXX.x86_64.img  vmlinuz-A.B.C-D.fcXX.x86_64  
xen-4.10-unstable.efi
+```
+
+Next create a file `xen-4.10-unstable.cfg` in `/boot/efi/EFI/xen/`. This is 
the [configuration file](https://xenbits.xen.org/docs/unstable/misc/efi.html) 
that Xen EFI loader will use to load Dom-0 kernel and initrd.
+
+Following are contents of `xen-4.10-unstable.cfg`
+
+```
+[global]
+default=fedora-A.B.C-D.fc25
+
+[fedora-A.B.C-D.fc25]
+options=console=vga,com1 com1=115200,8n1 iommu=verbose ucode=scan 
flask=disabled conring_size=2097152 loglvl=all autoballoon=0 
dom0_mem=4096M,max:4096M
+kernel=vmlinuz-A.B.C-D.fc25.x86_64 
root=UUID=xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx ro rhgb console=hvc0 console=tty0
+ramdisk=initramfs-A.B.C-D.fc25.x86_64.img
+```
+
+You can find the boot parameters for `kernel=` from `linuxefi` entry in 
`/boot/efi/EFI/fedora/grub.cfg` Adjust `dom0_mem` appropriately leaving 
sufficient room for dom-U guests.
+
+We can now use `efibootmgr` to create a boot entry for Xen. If this the first 
time you are using `efibootmgr` please checkout the man pages by doing `man 
efibootmgr`.
+
+Use `efibootmgr -v` to list all the EFI boot entires.
+
+```shell
+[root@localhost ~]# efibootmgr -v
+BootCurrent: 0002
+Timeout: 2 seconds
+BootOrder: ...
+
+[...]
+
+Boot0001* Xen   
HD(1,GPT,7d511991-1c25-4e33-900b-1d61d7752f19,0x800,0x82000)/File(\EFI\xen\xen-4.10-unstable.efi)
+Boot0002* Fedora        
HD(1,GPT,7d511991-1c25-4e33-900b-1d61d7752f19,0x800,0x82000)/File(\EFI\fedora\shim.efi)
+
+[...]
+```
+
+In the above example there is already an entry for Xen with a boot number of 
`1`. Fedora is at boot number `2`. Your entires would look different. You won't 
have the Xen entry as yet! We are showing you an example where the Xen boot 
entry has already been created.
+
+Let us now create a boot entry for Xen. First we need to identify the disk and 
the partition number for EFI system partition. In most cases it is at 
`/dev/sda1`. You can identify this by doing &ndash;
+
+```shell
+[root@localhost ~]# df /boot/efi
+Filesystem     1K-blocks  Used Available Use% Mounted on
+/dev/sda1         262128 63019    199109  25% /boot/efi
+
+[root@localhost ~]# sgdisk -p /dev/sda
+Disk /dev/sda: 976773168 sectors, 465.8 GiB
+Logical sector size: 512 bytes
+
+[...]
+
+Number  Start (sector)    End (sector)  Size       Code  Name
+   1            2048          534527   260.0 MiB   EF00  EFI System Partition
+```
+
+You can now create boot entry for Xen using the following command. Adjust 
`/dev/sda` and `-p 1`, according to where your EFI system partition is located.
+
+```shell
+[root@localhost ~]# efibootmgr -c -w -L Xen -d /dev/sda -p 1 -l 
'\EFI\xen\xen-4.10-unstable.efi'
+BootCurrent: ...
+Timeout: 2 seconds
+BootOrder: 0001,0002,0000,0010,0011,0012,0013,0017,0018,0019,001A,001B,001C
+
+[...]
+
+Boot0002* Fedora
+
+[...]
+
+Boot0001* Xen
+```
+
+The output indicates that a boot entry for Xen is created with a boot number 
of `1`. 
+
+We will now show you how to delete an existing boot entry.
+
+**Note:** Be careful when deleting boot entires that you have not created. Do 
not delete Fedora or any entry unless you really know what you are doing. You 
have been warned!
+
+```shell
+[root@localhost ~]# efibootmgr -b <boot_num> -B
+
+[root@localhost ~]# efibootmgr -b 1 -B
+BootCurrent: ...
+BootOrder: ...
+
+[...]
+
+Boot0002* Fedora
+Boot0010  Setup
+
+[...]
+```
+
+Once we have created a boot entry we can now boot into Xen. Restart machine 
and from the BIOS boot menu select **Xen**. You'll see Xen starting followed by 
Linux.
+
+After booting into Linux, you can see if have successfully booted Xen by 
checking out `dmesg`.
+
+```shell
+[root@localhost ~]# dmesg | grep [Xx]en
+[    0.000000] Xen: [mem 0x0000000000000000-0x0000000000057fff] usable
+
+[...]
+
+[    0.000000] Hypervisor detected: Xen
+[    0.000000] Setting APIC routing to Xen PV.
+[    0.000000] Booting paravirtualized kernel on Xen
+[    0.000000] Xen version: 4.10-unstable (preserve-AD)
+[    0.001000] Xen: using vcpuop timer interface
+[    0.001000] installing Xen timer for CPU 0
+```
+
+If you don't see Xen mentioned in your `dmesg`, then please check the previous 
steps.
+
+<a name="launching_xen_services"></a>
+## Launching Xen services
+
+In Dom-0, we need to launch services required by Xen. These services are 
managed using [`runit`](http://smarden.org/runit/) process supervisor. You can 
download and install `runit` RPMs for Fedora from 
[here](https://drive.google.com/open?id=0B_tTbuxmuRzIR05wQ3E1eWVyaGs).
+
+```shell
+(ensure correct checksum on the downloaded binary)
+[root@localhost ~]# echo 
"10cc62ffc040c49efa0dd85cbacd70c0712a7c10c58717a376610b786bc49d19  
runit-2.1.2-1.1.fc25.tar" | sha256sum -c -
+runit-2.1.2-1.1.fc25.tar: OK
+
+[root@localhost ~]# tar xvf runit-2.1.2-1.1.fc25.tar
+
+[root@localhost ~]# dnf install -y 
./runit/2.1.2/1.1.fc25/x86_64/runit-2.1.2-1.1.fc25.x86_64.rpm
+
+[root@localhost ~]# pgrep -af runsvdir
+1679 runsvdir -P -H /etc/service log: 
..........................................................
+```
+
+In `/opt/xen-unstable-runit` we provide two scripts to manage Xen services. 
+
+ * `setup.sh`
+ * `teardown.sh`
+
+`setup.sh` is used to setup Xen services. If you are going to be running 
Fedora directly without Xen, please use `teardown.sh` prior to shutting down 
Domain-0. This will disable launching Xen services under Fedora without Xen.
+
+Run `setup.sh`
+
+```shell
+[root@localhost ~]# /opt/xen-unstable-runit/setup.sh
+Successfully created symlinks in /etc/service directory.
+```
+
+You can verify Xen services are running correctly by doing the following 
&ndash;
+
+```shell
+[root@localhost ~]# ls /etc/service | xargs -L 1 -I {} sv status {}
+run: xenconsoled: (pid 29673) 115s
+run: xen-init-dom0: (pid 29672) 115s
+run: xen-init-dom0-disk-backend: (pid 29675) 115s
+run: xenstored: (pid 29674) 115s
+
+[root@localhost ~]# source /opt/stage1-xen/bin/source_path.sh
+
+[root@localhost ~]# xl info
+host                   : localhost.localdomain
+release                : 4.11.12-200.fc25.x86_64
+version                : #1 SMP Fri Jul 21 16:41:43 UTC 2017
+machine                : x86_64
+
+[...]
+
+cc_compile_domain      : [unknown]
+cc_compile_date        : Fri Aug 18 06:32:55 UTC 2017
+build_id               : 4a65e1ae96407a8dd47f318db4bdf7d3
+xend_config_format     : 4
+
+[root@localhost ~]# xl list
+Name                                        ID   Mem VCPUs      State   Time(s)
+Domain-0                                     0  4096     4     r-----     121.2
+```
+
+<a name="setting_up_xen_networking"></a>
+## Setting up Xen networking
+
+There are multiple ways to do networking on Xen. Two common configurations are 
[bridging](https://wiki.xenproject.org/wiki/Xen_Networking#Bridging) and 
[NAT](https://wiki.xenproject.org/wiki/Xen_Networking#Network_Address_Translation).
 Bridging is the default and most simple configuration to setup. However 
wireless device drivers are unable to do bridging. To overcome this limitation, 
we setup an internal  bridge and then use NAT to send packets externally. This 
setup works for both wired and wireless devices.
+
+```shell
+[root@localhost ~]# ip link show
+1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN mode 
DEFAULT group default qlen 1000
+    link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
+2: enp0s31f6: <NO-CARRIER,BROADCAST,MULTICAST,UP> mtu 1500 qdisc fq_codel 
state DOWN mode DEFAULT group default qlen 1000
+    link/ether c8:5b:76:71:40:c8 brd ff:ff:ff:ff:ff:f
+3: wlp4s0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc mq state UP mode 
DORMANT group default qlen 1000
+    link/ether e4:a7:a0:93:9f:13 brd ff:ff:ff:ff:ff:f
+```
+
+We have two devices `enp0s31f6` which is a wired ethernet device and `wlp4s0` 
which is a wireless ethernet device. We will use `wlp4s0` in the following 
example. However similar approach would also work for `enp0s31f6` device. You 
can also adjust the private network 10.1.1.0/24 to a non-overlapping private 
subnet. 
+
+```shell
+[root@localhost ~]# brctl show
+bridge name     bridge id               STP enabled     interfaces
+
+[root@localhost ~]# ip link add xenbr0 type bridge
+
+[root@localhost ~]# ip addr add 10.1.1.1/24 dev xenbr0
+
+[root@localhost ~]# ip link set xenbr0 up
+
+[root@localhost ~]# modprobe dummy
+
+[root@localhost ~]# ip link set dummy0 up
+
+[root@localhost ~]# brctl addif xenbr0 dummy0
+
+[root@localhost ~]# brctl show
+bridge name     bridge id               STP enabled     interfaces
+xenbr0          8000.d21b5c4113b7       no              dummy0
+
+[root@localhost ~]# iptables -I FORWARD -j ACCEPT
+
+[root@localhost ~]# iptables -t nat -I POSTROUTING --out-interface wlp4s0 -j 
MASQUERADE
+
+[root@localhost ~]# echo 1 > /proc/sys/net/ipv4/ip_forward
+```
+
+With this configuration we can launch Dom-U Xen guests using the following 
configuration setting.
+
+```
+# Network configuration
+vif = ['bridge=xenbr0']
+```
+
+Then from within the guest, we will need to setup `eth0` interface with a 
static IP address in the range of 10.1.1.0/24 and gateway as 10.1.1.1.
+
+<a name="running_stage1-xen"></a>
+## Running stage1-xen
+
+Once we have Xen setup, it is fairly straightforward to run stage1-xen. We 
provide a script to source all the required binaries from Xen, QEMU and rkt 
into our path.
+
+```shell
+[root@localhost ~]# source /opt/stage1-xen/bin/source_path.sh
+```
+
+We can now download images using `rkt` and run them under stage1-xenbits
+
+```shell
+[root@localhost ~]# rkt --insecure-options=image fetch docker://alpine
+Downloading sha256:88286f41530 [=============================] 1.99 MB / 1.99 
MB
+sha512-f84f971f8e01284f4ad0c3cf3efaa770
+
+[root@localhost ~]# rkt run sha512-f84f971f8e01284f4ad0c3cf3efaa770 \
+                      --interactive --insecure-options=image \
+                      --stage1-path=/opt/stage1-xen/aci/stage1-xen.aci
+```
+
+Within the container, we can see we are running as a Xen PV guest, and using 
9pfs
+
+```shell
+/ # dmesg | grep [Xx]en
+[    0.000000] Xen: [mem 0x0000000000000000-0x000000000009ffff] usable
+[    0.000000] Xen: [mem 0x00000000000a0000-0x00000000000fffff] reserved
+[    0.000000] Xen: [mem 0x0000000000100000-0x000000003fffffff] usable
+[    0.000000] Hypervisor detected: Xen
+[    0.000000] Booting paravirtualized kernel on Xen
+[    0.000000] Xen version: 4.10-unstable (preserve-AD)
+[    0.000000] xen:events: Using FIFO-based ABI
+
+[...]
+
+[    1.605990] Initialising Xen transport for 9pfs
+```
+
+From Domain-0, we can run `rkt` and `xl` to get the details of the container.
+
+```shell
+[root@localhost ~]# rkt list
+UUID            APP     IMAGE NAME                                      STATE  
 CREATED       STARTED          NETWORKS
+222083ec        alpine  registry-1.docker.io/library/alpine:latest      
running 4 minutes ago 4 minutes ago    default:ip4=172.16.28.15
+
+[root@localhost ~]# xl list
+Name                                        ID   Mem VCPUs      State   Time(s)
+Domain-0                                     0  4093     4     r-----    1056.9
+222083ec-d6da-4347-b261-0a733bae6802         1  1024     2     -b----       2.2
+
+[root@localhost ~]# rkt stop 222083ec
+"222083ec-d6da-4347-b261-0a733bae6802"
+
+[root@localhost ~]# xl list
+Name                                        ID   Mem VCPUs      State   Time(s)
+Domain-0                                     0  4093     4     r-----    1058.5
+```


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