--- wikisrc/ports/xen/howto.mdwn	2014/12/23 23:08:37	1.10
+++ wikisrc/ports/xen/howto.mdwn	2014/12/27 15:46:47	1.59
@@ -1,461 +1,712 @@
-<table>
-<tbody>
-<tr class="odd">
-<td align="left"><a href="../../about/disclaimer.html#bsd-daemon"></a></td>
-<td align="left"><h1>Table Of Contents</h1>
-<ul>
-<li>Introduction</li>
-<li>Installing NetBSD as privileged domain (Dom0)</li>
-<li>Creating an unprivileged NetBSD domain (DomU)</li>
-<li>Creating an unprivileged Linux domain (DomU)</li>
-<li>Creating an unprivileged Solaris domain (DomU)</li>
-<li>Using PCI devices in guest domains</li>
-<li>Links and further information</li>
-</ul></td>
-</tr>
-</tbody>
-</table>
-
 Introduction
-------------
+============
 
 [![[Xen
-screenshot]](http://www.netbsd.org/gallery/in-Action/hubertf-xens.png)](../../gallery/in-Action/hubertf-xen.png)
+screenshot]](http://www.netbsd.org/gallery/in-Action/hubertf-xens.png)](http://www.netbsd.org/gallery/in-Action/hubertf-xen.png)
 
-Xen is a virtual machine monitor for x86 hardware (requires i686-class
-CPUs), which supports running multiple guest operating systems on a
-single machine. Guest OSes (also called “domains”) require a modified
-kernel which supports Xen hypercalls in replacement to access to the
-physical hardware. At boot, the Xen kernel (also known as the Xen
-hypervisor) is loaded (via the bootloader) along with the guest kernel
-for the first domain (called *domain0*). The Xen kernel has to be loaded
-using the multiboot protocol. You would use the NetBSD boot loader for
-this, or alternatively the `grub` boot loader (`grub` has some
-limitations, detailed below). *domain0* has special privileges to access
-the physical hardware (PCI and ISA devices), administrate other domains
-and provide virtual devices (disks and network) to other domains that
-lack those privileges. For more details, see [](http://www.xen.org/).
-
-NetBSD can be used for both *domain0 (Dom0)* and further, unprivileged
-(DomU) domains. (Actually there can be multiple privileged domains
-accessing different parts of the hardware, all providing virtual devices
-to unprivileged domains. We will only talk about the case of a single
-privileged domain, *domain0*). *domain0* will see physical devices much
-like a regular i386 or amd64 kernel, and will own the physical console
-(VGA or serial). Unprivileged domains will only see a character-only
-virtual console, virtual disks (`xbd`) and virtual network interfaces
-(`xennet`) provided by a privileged domain (usually *domain0*). xbd
-devices are connected to a block device (i.e., a partition of a disk,
-raid, ccd, ... device) in the privileged domain. xennet devices are
-connected to virtual devices in the privileged domain, named
-xvif\<domain number\>.\<if number for this domain\>, e.g., xvif1.0. Both
-xennet and xvif devices are seen as regular Ethernet devices (they can
-be seen as a crossover cable between 2 PCs) and can be assigned
-addresses (and be routed or NATed, filtered using IPF, etc ...) or be
-added as part of a bridge.
+Xen is a hypervisor (or virtual machine monitor) for x86 hardware
+(i686-class or higher), which supports running multiple guest
+operating systems on a single physical machine.  Xen is a Type 1 or
+bare-metal hypervisor; one uses the Xen kernel to control the CPU,
+memory and console, a dom0 operating system which mediates access to
+other hardware (e.g., disks, network, USB), and one or more domU
+operating systems which operate in an unprivileged virtualized
+environment.  IO requests from the domU systems are forwarded by the
+hypervisor (Xen) to the dom0 to be fulfilled.
+
+Xen supports two styles of guests.  The original is Para-Virtualized
+(PV) which means that the guest OS does not attempt to access hardware
+directly, but instead makes hypercalls to the hypervisor.  This is
+analogous to a user-space program making system calls.  (The dom0
+operating system uses PV calls for some functions, such as updating
+memory mapping page tables, but has direct hardware access for disk
+and network.)   PV guests must be specifically coded for Xen.
+
+The more recent style is HVM, which means that the guest does not have
+code for Xen and need not be aware that it is running under Xen.
+Attempts to access hardware registers are trapped and emulated.  This
+style is less efficient but can run unmodified guests.
+
+Generally any amd64 machine will work with Xen and PV guests.  In
+theory i386 computers without amd64 support can be used for Xen <=
+4.2, but we have no recent reports of this working (this is a hint).
+For HVM guests, the VT or VMX cpu feature (Intel) or SVM/HVM/VT
+(amd64) is needed; "cpuctl identify 0" will show this.  TODO: Clean up
+and check the above features.
+
+At boot, the dom0 kernel is loaded as a module with Xen as the kernel.
+The dom0 can start one or more domUs.  (Booting is explained in detail
+in the dom0 section.)
+
+NetBSD supports Xen in that it can serve as dom0, be used as a domU,
+and that Xen kernels and tools are available in pkgsrc.  This HOWTO
+attempts to address both the case of running a NetBSD dom0 on hardware
+and running domUs under it (NetBSD and other), and also running NetBSD
+as a domU in a VPS.
+
+Some versions of Xen support "PCI passthrough", which means that
+specific PCI devices can be made available to a specific domU instead
+of the dom0.  This can be useful to let a domU run X11, or access some
+network interface or other peripheral.
+
+NetBSD used to support Xen2; this has been removed.
+
+Prerequisites
+-------------
+
+Installing NetBSD/Xen is not extremely difficult, but it is more
+complex than a normal installation of NetBSD.
+In general, this HOWTO is occasionally overly restrictive about how
+things must be done, guiding the reader to stay on the established
+path when there are no known good reasons to stray.
+
+This HOWTO presumes a basic familiarity with the Xen system
+architecture.  This HOWTO presumes familiarity with installing NetBSD
+on i386/amd64 hardware and installing software from pkgsrc.
+See also the [Xen website](http://www.xenproject.org/).
+
+Versions of Xen and NetBSD
+==========================
+
+Most of the installation concepts and instructions are independent
+of Xen version and NetBSD version.  This section gives advice on
+which version to choose.  Versions not in pkgsrc and older unsupported
+versions of NetBSD are intentionally ignored.
+
+Xen
+---
+
+In NetBSD, xen is provided in pkgsrc, via matching pairs of packages
+xenkernel and xentools.  We will refer only to the kernel versions,
+but note that both packages must be installed together and must have
+matching versions.
+
+xenkernel3 and xenkernel33 provide Xen 3.1 and 3.3.  These no longer
+receive security patches and should not be used.  Xen 3.1 supports PCI
+passthrough.  Xen 3.1 supports non-PAE on i386.
+
+xenkernel41 provides Xen 4.1.  This is no longer maintained by Xen,
+but as of 2014-12 receives backported security patches.  It is a
+reasonable although trailing-edge choice.
+
+xenkernel42 provides Xen 4.2.  This is maintained by Xen, but old as
+of 2014-12.
+
+Ideally newer versions of Xen will be added to pkgsrc.
+
+Note that NetBSD support is called XEN3.  It works with 3.1 through
+4.2 because the hypercall interface has been stable.
+
+Xen command program
+-------------------
+
+Early Xen used a program called "xm" to manipulate the system from the
+dom0.  Starting in 4.1, a replacement program with similar behavior
+called "xl" is provided.  In 4.2 and later, "xl" is preferred.  4.4 is
+the last version that has "xm".
+
+NetBSD
+------
+
+The netbsd-5, netbsd-6, netbsd-7, and -current branches are all
+reasonable choices, with more or less the same considerations for
+non-Xen use.  Therefore, netbsd-6 is recommended as the stable version
+of the most recent release for production use.  For those wanting to
+learn Xen or without production stability concerns, netbsd-7 is likely
+most appropriate.
+
+As of NetBSD 6, a NetBSD domU will support multiple vcpus.  There is
+no SMP support for NetBSD as dom0.  (The dom0 itself doesn't really
+need SMP; the lack of support is really a problem when using a dom0 as
+a normal computer.)
 
-Installing NetBSD as privileged domain (Dom0)
----------------------------------------------
+Architecture
+------------
+
+Xen itself can run on i386 or amd64 machines.  (Practically, almost
+any computer where one would want to run Xen supports amd64.)  If
+using an i386 NetBSD kernel for the dom0, PAE is required (PAE
+versions are built by default).  While i386 dom0 works fine, amd64 is
+recommended as more normal.
+
+Xen 4.2 is the last version to support i386 as a host.  TODO: Clarify
+if this is about the CPU having to be amd64, or about the dom0 kernel
+having to be amd64.
+
+One can then run i386 domUs and amd64 domUs, in any combination.  If
+running an i386 NetBSD kernel as a domU, the PAE version is required.
+(Note that emacs (at least) fails if run on i386 with PAE when built
+without, and vice versa, presumably due to bugs in the undump code.)
+
+Recommendation
+--------------
+
+Therefore, this HOWTO recommends running xenkernel42 (and xentools42),
+xl, the NetBSD 6 stable branch, and to use an amd64 kernel as the
+dom0.  Either the i386 or amd64 of NetBSD may be used as domUs.
+
+Build problems
+--------------
+
+Ideally, all versions of Xen in pkgsrc would build on all versions of
+NetBSD on both i386 and amd64.  However, that isn't the case.  Besides
+aging code and aging compilers, qemu (included in xentools for HVM
+support) is difficult to build.  The following are known to fail:
+
+        xenkernel3 netbsd-6 i386
+        xentools42 netbsd-6 i386 
+
+The following are known to work:
+
+        xenkernel41 netbsd-5 amd64
+        xentools41 netbsd-5 amd64
+        xenkernel41 netbsd-6 i386
+        xentools41 netbsd-6 i386
+
+NetBSD as a dom0
+================
+
+NetBSD can be used as a dom0 and works very well.  The following
+sections address installation, updating NetBSD, and updating Xen.
+Note that it doesn't make sense to talk about installing a dom0 OS
+without also installing Xen itself.  We first address installing
+NetBSD, which is not yet a dom0, and then adding Xen, pivoting the
+NetBSD install to a dom0 install by just changing the kernel and boot
+configuration.
+
+For experimenting with Xen, a machine with as little as 1G of RAM and
+100G of disk can work.  For running many domUs in productions, far
+more will be needed.
+
+Styles of dom0 operation
+------------------------
+
+There are two basic ways to use Xen.  The traditional method is for
+the dom0 to do absolutely nothing other than providing support to some
+number of domUs.  Such a system was probably installed for the sole
+purpose of hosting domUs, and sits in a server room on a UPS.
+
+The other way is to put Xen under a normal-usage computer, so that the
+dom0 is what the computer would have been without Xen, perhaps a
+desktop or laptop.  Then, one can run domUs at will.  Purists will
+deride this as less secure than the previous approach, and for a
+computer whose purpose is to run domUs, they are right.  But Xen and a
+dom0 (without domUs) is not meaingfully less secure than the same
+things running without Xen.  One can boot Xen or boot regular NetBSD
+alternately with little problems, simply refraining from starting the
+Xen daemons when not running Xen.
+
+Note that NetBSD as dom0 does not support multiple CPUs.  This will
+limit the performance of the Xen/dom0 workstation approach.  In theory
+the only issue is that the "backend drivers" are not yet MPSAFE:
+  http://mail-index.netbsd.org/netbsd-users/2014/08/29/msg015195.html
+
+Installation of NetBSD
+----------------------
+
+First,
+[install NetBSD/amd64](/guide/inst/)
+just as you would if you were not using Xen.
+However, the partitioning approach is very important.
+
+If you want to use RAIDframe for the dom0, there are no special issues
+for Xen.  Typically one provides RAID storage for the dom0, and the
+domU systems are unaware of RAID.  The 2nd-stage loader bootxx_* skips
+over a RAID1 header to find /boot from a filesystem within a RAID
+partition; this is no different when booting Xen.
+
+There are 4 styles of providing backing storage for the virtual disks
+used by domUs: raw partitions, LVM, file-backed vnd(4), and SAN,
+
+With raw partitions, one has a disklabel (or gpt) partition sized for
+each virtual disk to be used by the domU.  (If you are able to predict
+how domU usage will evolve, please add an explanation to the HOWTO.
+Seriously, needs tend to change over time.)
+
+One can use [lvm(8)](/guide/lvm/) to create logical devices to use
+for domU disks.  This is almost as efficient as raw disk partitions
+and more flexible.  Hence raw disk partitions should typically not
+be used.
+
+One can use files in the dom0 filesystem, typically created by dd'ing
+/dev/zero to create a specific size.  This is somewhat less efficient,
+but very convenient, as one can cp the files for backup, or move them
+between dom0 hosts.
+
+Finally, in theory one can place the files backing the domU disks in a
+SAN.  (This is an invitation for someone who has done this to add a
+HOWTO page.)
+
+Installation of Xen
+-------------------
+
+In the dom0, install sysutils/xenkernel42 and sysutils/xentools42 from
+pkgsrc (or another matching pair).
+See [the pkgsrc
+documentation](http://www.NetBSD.org/docs/pkgsrc/) for help with pkgsrc.
+
+For Xen 3.1, support for HVM guests is in sysutils/xentool3-hvm.  More
+recent versions have HVM support integrated in the main xentools
+package.  It is entirely reasonable to run only PV guests.
+
+Next you need to install the selected Xen kernel itself, which is
+installed by pkgsrc as "/usr/pkg/xen*-kernel/xen.gz".  Copy it to /.
+For debugging, one may copy xen-debug.gz; this is conceptually similar
+to DIAGNOSTIC and DEBUG in NetBSD.  xen-debug.gz is basically only
+useful with a serial console.  Then, place a NetBSD XEN3_DOM0 kernel
+in /, copied from releasedir/amd64/binary/kernel/netbsd-XEN3_DOM0.gz
+of a NetBSD build.  Both xen and NetBSD may be left compressed.  (If
+using i386, use releasedir/i386/binary/kernel/netbsd-XEN3PAE_DOM0.gz.)
+
+With Xen as the kernel, you must provide a dom0 NetBSD kernel to be
+used as a module; place this in /.  Suitable kernels are provided in
+releasedir/binary/kernel:
+
+        i386 XEN3_DOM0
+        i386 XEN3PAE_DOM0
+	amd64 XEN3_DOM0
+
+The first one is only for use with Xen 3.1 and i386-mode Xen (and you
+should not do this).  Current Xen always uses PAE on i386, but you
+should generally use amd64 for the dom0.  In a dom0 kernel, kernfs is
+mandatory for xend to comunicate with the kernel, so ensure that /kern
+is in fstab.  TODO: Say this is default, or file a PR and give a
+reference.
+
+Because you already installed NetBSD, you have a working boot setup
+with an MBR bootblock, either bootxx_ffsv1 or bootxx_ffsv2 at the
+beginning of your root filesystem, /boot present, and likely
+/boot.cfg.  (If not, fix before continuing!)
+
+See boot.cfg(5) for an example.  The basic line is
+
+        menu=Xen:load /netbsd-XEN3_DOM0.gz console=pc;multiboot /xen.gz dom0_mem=256M
+
+which specifies that the dom0 should have 256M, leaving the rest to be
+allocated for domUs.  In an attempt to add performance, one can also
+add
+
+        dom0_max_vcpus=1 dom0_vcpus_pin
+
+to force only one vcpu to be provided (since NetBSD dom0 can't use
+more) and to pin that vcpu to a physical cpu.  TODO: benchmark this.
+
+As with non-Xen systems, you should have a line to boot /netbsd (a
+kernel that works without Xen) and fallback versions of the non-Xen
+kernel, Xen, and the dom0 kernel.
+
+Using grub (historic)
+---------------------
+
+Before NetBSD's native bootloader could support Xen, the use of
+grub was recommended.  If necessary, see the
+[old grub information](/ports/xen/howto-grub/).
+
+The [HowTo on Installing into
+RAID-1](http://mail-index.NetBSD.org/port-xen/2006/03/01/0010.html)
+explains how to set up booting a dom0 with Xen using grub with
+NetBSD's RAIDframe.  (This is obsolete with the use of NetBSD's native
+boot.)
+
+Configuring Xen
+---------------
+
+Xen logs will be in /var/log/xen.
+
+Now, you have a system that will boot Xen and the dom0 kernel, and
+just run the dom0 kernel.  There will be no domUs, and none can be
+started because you still have to configure the dom0 tools.  The
+daemons which should be run vary with Xen version and with whether one
+is using xm or xl.  Note that xend is for supporting "xm", and should
+only be used if you plan on using "xm".  Do NOT enable xend if you
+plan on using "xl" as it will cause problems.
+
+The installation of NetBSD should already have created devices for xen
+(xencons, xenevt), but if they are not present, create them:
+
+        cd /dev && sh MAKEDEV xen
+
+TODO: Give 3.1 advice (or remove it from pkgsrc).
+
+For 3.3 (and thus xm), add to rc.conf (but note that you should have
+installed 4.1 or 4.2):
+
+        xend=YES
+        xenbackendd=YES
+
+For 4.1 (and thus xm; xl is believed not to work well), add to rc.conf:
+
+        xencommons=YES
+        xend=YES
+
+(If you are using xentools41 from before 2014-12-26, change
+rc.d/xendomains to use xm rather than xl.)
+
+For 4.2 with xm, add to rc.conf
+
+        xencommons=YES
+        xend=YES
+
+For 4.2 with xl (preferred), add to rc.conf:
+
+        xencommons=YES
+        TODO: explain if there is a xend replacement
+
+TODO: Recommend for/against xen-watchdog.
+
+After you have configured the daemons and either started them (in the
+order given) or rebooted, run the following (or use xl) to inspect
+Xen's boot messages, available resources, and running domains:
+
+        # xm dmesg
+	[xen's boot info]
+        # xm info
+	[available memory, etc.]
+        # xm list
+        Name              Id  Mem(MB)  CPU  State  Time(s)  Console
+        Domain-0           0       64    0  r----     58.1
+
+anita (for testing NetBSD)
+--------------------------
+
+With the setup so far, one should be able to run anita (see
+pkgsrc/sysutils/py-anita) to test NetBSD releases, by doing (as root,
+because anita must create a domU):
+
+        anita --vmm=xm test file:///usr/obj/i386/
+
+Alternatively, one can use --vmm=xl to use xl-based domU creation instead.
+TODO: check this.
+
+Xen-specific NetBSD issues
+--------------------------
+
+There are (at least) two additional things different about NetBSD as a
+dom0 kernel compared to hardware.
+
+One is that modules are not usable in DOM0 kernels, so one must
+compile in what's needed.  It's not really that modules cannot work,
+but that modules must be built for XEN3_DOM0 because some of the
+defines change and the normal module builds don't do this.  Basically,
+enabling Xen changes the kernel ABI, and the module build system
+doesn't cope with this.
+
+The other difference is that XEN3_DOM0 does not have exactly the same
+options as GENERIC.  While it is debatable whether or not this is a
+bug, users should be aware of this and can simply add missing config
+items if desired.
+
+Updating NetBSD in a dom0
+-------------------------
+
+This is just like updating NetBSD on bare hardware, assuming the new
+version supports the version of Xen you are running.  Generally, one
+replaces the kernel and reboots, and then overlays userland binaries
+and adjusts /etc.
+
+Note that one must update both the non-Xen kernel typically used for
+rescue purposes and the DOM0 kernel used with Xen.
+
+Converting from grub to /boot
+-----------------------------
+
+These instructions were [TODO: will be] used to convert a system from
+grub to /boot.  The system was originally installed in February of
+2006 with a RAID1 setup and grub to boot Xen 2, and has been updated
+over time.  Before these commands, it was running NetBSD 6 i386, Xen
+4.1 and grub, much like the message linked earlier in the grub
+section.
+
+        # Install mbr bootblocks on both disks. 
+        fdisk -i /dev/rwd0d
+        fdisk -i /dev/rwd1d
+        # Install NetBSD primary boot loader (/ is FFSv1) into RAID1 components.
+        installboot -v /dev/rwd0d /usr/mdec/bootxx_ffsv1
+        installboot -v /dev/rwd1d /usr/mdec/bootxx_ffsv1
+        # Install secondary boot loader
+        cp -p /usr/mdec/boot /
+        # Create boog.cfg following earlier guidance:
+        menu=Xen:load /netbsd-XEN3PAE_DOM0.gz console=pc;multiboot /xen.gz dom0_mem=256M
+        menu=Xen.ok:load /netbsd-XEN3PAE_DOM0.ok.gz console=pc;multiboot /xen.ok.gz dom0_mem=256M
+        menu=GENERIC:boot
+        menu=GENERIC single-user:boot -s
+        menu=GENERIC.ok:boot netbsd.ok
+        menu=GENERIC.ok single-user:boot netbsd.ok -s
+        menu=Drop to boot prompt:prompt
+        default=1
+        timeout=30
+
+TODO: actually do this and fix it if necessary.
+
+Updating Xen versions
+---------------------
+
+Updating Xen is conceptually not difficult, but can run into all the
+issues found when installing Xen.  Assuming migration from 4.1 to 4.2,
+remove the xenkernel41 and xentools41 packages and install the
+xenkernel42 and xentools42 packages.  Copy the 4.2 xen.gz to /.
+
+Ensure that the contents of /etc/rc.d/xen* are correct.  Enable the
+correct set of daemons.  Ensure that the domU config files are valid
+for the new version.
+
+
+Unprivileged domains (domU)
+===========================
+
+This section describes general concepts about domUs.  It does not
+address specific domU operating systems or how to install them.  The
+config files for domUs are typically in /usr/pkg/etc/xen, and are
+typically named so that the file anme, domU name and the domU's host
+name match.
+
+The domU is provided with cpu and memory by Xen, configured by the
+dom0.  The domU is provided with disk and network by the dom0,
+mediated by Xen, and configured in the dom0.
+
+Entropy in domUs can be an issue; physical disks and network are on
+the dom0.  NetBSD's /dev/random system works, but is often challenged.
 
-First do a NetBSD/i386 or NetBSD/amd64
-[installation](../../docs/guide/en/chap-inst.html) of the 5.1 release
-(or newer) as you usually do on x86 hardware. The binary releases are
-available from [](ftp://ftp.NetBSD.org/pub/NetBSD/). Binary snapshots
-for current and the stable branches are available on daily autobuilds.
-If you plan to use the `grub` boot loader, when partitioning the disk
-you have to make the root partition smaller than 512Mb, and formatted as
-FFSv1 with 8k block/1k fragments. If the partition is larger than this,
-uses FFSv2 or has different block/fragment sizes, grub may fail to load
-some files. Also keep in mind that you'll probably want to provide
-virtual disks to other domains, so reserve some partitions for these
-virtual disks. Alternatively, you can create large files in the file
-system, map them to vnd(4) devices and export theses vnd devices to
-other domains.
-
-Next step is to install the Xen packages via pkgsrc or from binary
-packages. See [the pkgsrc
-documentation](http://www.NetBSD.org/docs/pkgsrc/) if you are unfamiliar
-with pkgsrc and/or handling of binary packages. Xen 3.1, 3.3, 4.1 and
-4.2 are available. 3.1 supports PCI pass-through while other versions do
-not. You'll need either `sysutils/xentools3` and `sysutils/xenkernel3`
-for Xen 3.1, `sysutils/xentools33` and `sysutils/xenkernel33` for Xen
-3.3, `sysutils/xentools41` and `sysutils/xenkernel41` for Xen 4.1. or
-`sysutils/xentools42` and `sysutils/xenkernel42` for Xen 4.2. You'll
-also need `sysutils/grub` if you plan do use the grub boot loader. If
-using Xen 3.1, you may also want to install `sysutils/xentools3-hvm`
-which contains the utilities to run unmodified guests OSes using the
-*HVM* support (for later versions this is included in
-`sysutils/xentools`). Note that your CPU needs to support this. Intel
-CPUs must have the 'VT' instruction, AMD CPUs the 'SVM' instruction. You
-can easily find out if your CPU support HVM by using NetBSD's cpuctl
-command:
-
-    # cpuctl identify 0
-    cpu0: Intel Core 2 (Merom) (686-class), id 0x6f6
-    cpu0: features 0xbfebfbff<FPU,VME,DE,PSE,TSC,MSR,PAE,MCE,CX8,APIC,SEP,MTRR>
-    cpu0: features 0xbfebfbff<PGE,MCA,CMOV,PAT,PSE36,CFLUSH,DS,ACPI,MMX>
-    cpu0: features 0xbfebfbff<FXSR,SSE,SSE2,SS,HTT,TM,SBF>
-    cpu0: features2 0x4e33d<SSE3,DTES64,MONITOR,DS-CPL,,TM2,SSSE3,CX16,xTPR,PDCM,DCA>
-    cpu0: features3 0x20100800<SYSCALL/SYSRET,XD,EM64T>
-    cpu0: "Intel(R) Xeon(R) CPU            5130  @ 2.00GHz"
-    cpu0: I-cache 32KB 64B/line 8-way, D-cache 32KB 64B/line 8-way
-    cpu0: L2 cache 4MB 64B/line 16-way
-    cpu0: ITLB 128 4KB entries 4-way
-    cpu0: DTLB 256 4KB entries 4-way, 32 4MB entries 4-way
-    cpu0: Initial APIC ID 0
-    cpu0: Cluster/Package ID 0
-    cpu0: Core ID 0
-    cpu0: family 06 model 0f extfamily 00 extmodel 00
-
-Depending on your CPU, the feature you are looking for is called HVM,
-SVM or VMX.
-
-Next you need to copy the selected Xen kernel itself. pkgsrc installed
-them under `/usr/pkg/xen*-kernel/`. The file you're looking for is
-`xen.gz`. Copy it to your root file system. `xen-debug.gz` is a kernel
-with more consistency checks and more details printed on the serial
-console. It is useful for debugging crashing guests if you use a serial
-console. It is not useful with a VGA console.
-
-You'll then need a NetBSD/Xen kernel for *domain0* on your root file
-system. The XEN3PAE\_DOM0 kernel or XEN3\_DOM0 provided as part of the
-i386 or amd64 binaries is suitable for this, but you may want to
-customize it. Keep your native kernel around, as it can be useful for
-recovery. *Note:* the *domain0* kernel must support KERNFS and `/kern`
-must be mounted because *xend* needs access to `/kern/xen/privcmd`.
-
-Next you need to get a bootloader to load the `xen.gz` kernel, and the
-NetBSD *domain0* kernel as a module. This can be `grub` or NetBSD's boot
-loader. Below is a detailled example for grub, see the boot.cfg(5)
-manual page for an example using the latter.
-
-This is also where you'll specify the memory allocated to *domain0*, the
-console to use, etc ...
-
-Here is a commented `/grub/menu.lst` file:
-
-    #Grub config file for NetBSD/xen. Copy as /grub/menu.lst and run
-    # grub-install /dev/rwd0d (assuming your boot device is wd0).
-    #
-    # The default entry to load will be the first one
-    default=0
-
-    # boot the default entry after 10s if the user didn't hit keyboard
-    timeout=10
-
-    # Configure serial port to use as console. Ignore if you'll use VGA only
-    serial --unit=0 --speed=115200 --word=8 --parity=no --stop=1
-
-    # Let the user select which console to use (serial or VGA), default
-    # to serial after 10s
-    terminal --timeout=10 serial console
-
-    # An entry for NetBSD/xen, using /netbsd as the domain0 kernel, and serial
-    # console. Domain0 will have 64MB RAM allocated.
-    # Assume NetBSD is installed in the first MBR partition.
-    title Xen 3 / NetBSD (hda0, serial)
-      root(hd0,0)
-      kernel (hd0,a)/xen.gz dom0_mem=65536 com1=115200,8n1
-      module (hd0,a)/netbsd bootdev=wd0a ro console=ttyS0
-
-    # Same as above, but using VGA console
-    # We can use console=tty0 (Linux syntax) or console=pc (NetBSD syntax)
-    title Xen 3 / NetBSD (hda0, vga)
-      root(hd0,0)
-      kernel (hd0,a)/xen.gz dom0_mem=65536
-      module (hd0,a)/netbsd bootdev=wd0a ro console=tty0
-
-    # NetBSD/xen using a backup domain0 kernel (in case you installed a
-    # nonworking kernel as /netbsd
-    title Xen 3 / NetBSD (hda0, backup, serial)
-      root(hd0,0)
-      kernel (hd0,a)/xen.gz dom0_mem=65536 com1=115200,8n1
-      module (hd0,a)/netbsd.backup bootdev=wd0a ro console=ttyS0
-    title Xen 3 / NetBSD (hda0, backup, VGA)
-      root(hd0,0)
-      kernel (hd0,a)/xen.gz dom0_mem=65536
-      module (hd0,a)/netbsd.backup bootdev=wd0a ro console=tty0
-
-    #Load a regular NetBSD/i386 kernel. Can be useful if you end up with a
-    #nonworking /xen.gz
-    title NetBSD 5.1
-      root (hd0,a)
-      kernel --type=netbsd /netbsd-GENERIC
-
-    #Load the NetBSD bootloader, letting it load the NetBSD/i386 kernel.
-    #May be better than the above, as grub can't pass all required infos
-    #to the NetBSD/i386 kernel (e.g. console, root device, ...)
-    title NetBSD chain
-      root        (hd0,0)
-      chainloader +1
-
-    ## end of grub config file.
-          
-
-Install grub with the following command:
-
-    # grub --no-floppy
-
-    grub> root (hd0,a)
-     Filesystem type is ffs, partition type 0xa9
-
-    grub> setup (hd0)
-     Checking if "/boot/grub/stage1" exists... no
-     Checking if "/grub/stage1" exists... yes
-     Checking if "/grub/stage2" exists... yes
-     Checking if "/grub/ffs_stage1_5" exists... yes
-     Running "embed /grub/ffs_stage1_5 (hd0)"...  14 sectors are embedded.
-    succeeded
-     Running "install /grub/stage1 (hd0) (hd0)1+14 p (hd0,0,a)/grub/stage2 /grub/menu.lst"...
-     succeeded
-    Done.
-          
+Config files
+------------
+
+There is no good order to present config files and the concepts
+surrounding what is being configured.  We first show an example config
+file, and then in the various sections give details.
+
+See (at least in xentools41) /usr/pkg/share/examples/xen/xmexample*,
+for a large number of well-commented examples, mostly for running
+GNU/Linux.
+
+The following is an example minimal domain configuration file
+"/usr/pkg/etc/xen/foo".  It is (with only a name change) an actual
+known working config file on Xen 4.1 (NetBSD 5 amd64 dom0 and NetBSD 5
+i386 domU).  The domU serves as a network file server.
+
+        # -*- mode: python; -*-
+
+        kernel = "/netbsd-XEN3PAE_DOMU-i386-foo.gz"
+        memory = 1024
+        vif = [ 'mac=aa:00:00:d1:00:09,bridge=bridge0' ]
+        disk = [ 'file:/n0/xen/foo-wd0,0x0,w',
+                 'file:/n0/xen/foo-wd1,0x1,w' ]
+
+The domain will have the same name as the file.  The kernel has the
+host/domU name in it, so that on the dom0 one can update the various
+domUs independently.  The vif line causes an interface to be provided,
+with a specific mac address (do not reuse MAC addresses!), in bridge
+mode.  Two disks are provided, and they are both writable; the bits
+are stored in files and Xen attaches them to a vnd(4) device in the
+dom0 on domain creation.  The system treates xbd0 as the boot device
+without needing explicit configuration.
+
+By default xm looks for domain config files in /usr/pkg/etc/xen.  Note
+that "xm create" takes the name of a config file, while other commands
+take the name of a domain.  To create the domain, connect to the
+console, create the domain while attaching the console, shutdown the
+domain, and see if it has finished stopping, do (or xl with Xen >=
+4.2):
+
+        xm create foo
+        xm console foo
+        xm create -c foo
+        xm shutdown foo
+	xm list
+
+Typing ^] will exit the console session.  Shutting down a domain is
+equivalent to pushing the power button; a NetBSD domU will receive a
+power-press event and do a clean shutdown.  Shutting down the dom0
+will trigger controlled shutdowns of all configured domUs.
+
+domU kernels
+------------
+
+On a physical computer, the BIOS reads sector 0, and a chain of boot
+loaders finds and loads a kernel.  Normally this comes from the root
+filesystem.  With Xen domUs, the process is totally different.  The
+normal path is for the domU kernel to be a file in the dom0's
+filesystem.  At the request of the dom0, Xen loads that kernel into a
+new domU instance and starts execution.  While domU kernels can be
+anyplace, reasonable places to store domU kernels on the dom0 are in /
+(so they are near the dom0 kernel), in /usr/pkg/etc/xen (near the
+config files), or in /u0/xen (where the vdisks are).
+
+Note that loading the domU kernel from the dom0 implies that boot
+blocks, /boot, /boot.cfg, and so on are all ignored in the domU.
+See the VPS section near the end for discussion of alternate ways to
+obtain domU kernels.
+
+CPU and memory
+--------------
+
+A domain is provided with some number of vcpus, less than the number
+of cpus seen by the hypervisor.  (For a dom0, this is controlled by
+the boot argument "dom0_max_vcpus=1".)  For a domU, it is controlled
+from the config file by the "vcpus = N" directive.
+
+A domain is provided with memory; this is controlled in the config
+file by "memory = N" (in megabytes).  In the straightforward case, the
+sum of the the memory allocated to the dom0 and all domUs must be less
+than the available memory.
+
+Xen also provides a "balloon" driver, which can be used to let domains
+use more memory temporarily.  TODO: Explain better, and explain how
+well it works with NetBSD.
+
+Virtual disks
+-------------
+
+With the file/vnd style, typically one creates a directory,
+e.g. /u0/xen, on a disk large enough to hold virtual disks for all
+domUs.  Then, for each domU disk, one writes zeros to a file that then
+serves to hold the virtual disk's bits; a suggested name is foo-xbd0
+for the first virtual disk for the domU called foo.  Writing zeros to
+the file serves two purposes.  One is that preallocating the contents
+improves performance.  The other is that vnd on sparse files has
+failed to work.  TODO: give working/notworking NetBSD versions for
+sparse vnd.  Note that the use of file/vnd for Xen is not really
+different than creating a file-backed virtual disk for some other
+purpose, except that xentools handles the vnconfig commands.  To
+create an empty 4G virtual disk, simply do
+
+        dd if=/dev/zero of=foo-xbd0 bs=1m count=4096
+
+With the lvm style, one creates logical devices.  They are then used
+similarly to vnds.  TODO: Add an example with lvm.
+
+In domU config files, the disks are defined as a sequence of 3-tuples.
+The first element is "method:/path/to/disk".  Common methods are
+"file:" for file-backed vnd. and "phy:" for something that is already
+a (TODO: character or block) device.
+
+The second element is an artifact of how virtual disks are passed to
+Linux, and a source of confusion with NetBSD Xen usage.  Linux domUs
+are given a device name to associate with the disk, and values like
+"hda1" or "sda1" are common.  In a NetBSD domU, the first disk appears
+as xbd0, the second as xbd1, and so on.  However, xm/xl demand a
+second argument.  The name given is converted to a major/minor by
+calling stat(2) on the name in /dev and this is passed to the domU.
+In the general case, the dom0 and domU can be different operating
+systems, and it is an unwarranted assumption that they have consistent
+numbering in /dev, or even that the dom0 OS has a /dev.  With NetBSD
+as both dom0 and domU, using values of 0x0 for the first disk and 0x1
+for the second works fine and avoids this issue.  For a GNU/Linux
+guest, one can create /dev/hda1 in /dev, or to pass 0x301 for
+/dev/hda1.
+
+The third element is "w" for writable disks, and "r" for read-only
+disks.
+
+Virtual Networking
+------------------
+
+Xen provides virtual ethernets, each of which connects the dom0 and a
+domU.  For each virtual network, there is an interface "xvifN.M" in
+the dom0, and in domU index N, a matching interface xennetM (NetBSD
+name).  The interfaces behave as if there is an Ethernet with two
+adaptors connected.  From this primitive, one can construct various
+configurations.  We focus on two common and useful cases for which
+there are existing scripts: bridging and NAT.
+
+With bridging (in the example above), the domU perceives itself to be
+on the same network as the dom0.  For server virtualization, this is
+usually best.  Bridging is accomplished by creating a bridge(4) device
+and adding the dom0's physical interface and the various xvifN.0
+interfaces to the bridge.  One specifies "bridge=bridge0" in the domU
+config file.  The bridge must be set up already in the dom0; an
+example /etc/ifconfig.bridge0 is:
+
+        create
+        up
+        !brconfig bridge0 add wm0
+
+With NAT, the domU perceives itself to be behind a NAT running on the
+dom0.  This is often appropriate when running Xen on a workstation.
+TODO: NAT appears to be configured by "vif = [ '' ]".
+
+The MAC address specified is the one used for the interface in the new
+domain.  The interface in dom0 will use this address XOR'd with
+00:00:00:01:00:00.  Random MAC addresses are assigned if not given.
+
+Sizing domains
+--------------
+
+Modern x86 hardware has vast amounts of resources.  However, many
+virtual servers can function just fine on far less.  A system with
+256M of RAM and a 4G disk can be a reasonable choice.  Note that it is
+far easier to adjust virtual resources than physical ones.  For
+memory, it's just a config file edit and a reboot.  For disk, one can
+create a new file and vnconfig it (or lvm), and then dump/restore,
+just like updating physical disks, but without having to be there and
+without those pesky connectors.
+
+Starting domains automatically
+------------------------------
+
+To start domains foo at bar at boot and shut them down cleanly on dom0
+shutdown, in rc.conf add:
+
+        xendomains="foo bar"
+
+TODO: Explain why 4.1 rc.d/xendomains has xl, when one should use xm
+on 4.1.  Or fix the xentools41 package to have xm
+
+Creating specific unprivileged domains (domU)
+=============================================
+
+Creating domUs is almost entirely independent of operating system.  We
+have already presented the basics of config files.  Note that you must
+have already completed the dom0 setup so that "xl list" (or "xm list")
+works.
 
-Creating an unprivileged NetBSD domain (DomU)
+Creating an unprivileged NetBSD domain (domU)
 ---------------------------------------------
 
-Once you have *domain0* running, you need to start the xen tool daemon
-(`/usr/pkg/share/examples/rc.d/xend start`) and the xen backend daemon
-(`/usr/pkg/share/examples/rc.d/xenbackendd start` for Xen3\*,
-`/usr/pkg/share/examples/rc.d/xencommons start` for Xen4.\*). Make sure
-that `/dev/xencons` and `/dev/xenevt` exist before starting `xend`. You
-can create them with this command:
-
-    # cd /dev && sh MAKEDEV xen
-
-xend will write logs to `/var/log/xend.log` and
-`/var/log/xend-debug.log`. You can then control xen with the xm tool.
-'xm list' will show something like:
-
-    # xm list
-    Name              Id  Mem(MB)  CPU  State  Time(s)  Console
-    Domain-0           0       64    0  r----     58.1
-
-'xm create' allows you to create a new domain. It uses a config file in
-PKG\_SYSCONFDIR for its parameters. By default, this file will be in
-`/usr/pkg/etc/xen/`. On creation, a kernel has to be specified, which
-will be executed in the new domain (this kernel is in the *domain0* file
-system, not on the new domain virtual disk; but please note, you should
-install the same kernel into *domainU* as `/netbsd` in order to make
-your system tools, like MAN.SAVECORE.8, work). A suitable kernel is
-provided as part of the i386 and amd64 binary sets: XEN3\_DOMU.
-
-Here is an /usr/pkg/etc/xen/nbsd example config file:
-
-    #  -*- mode: python; -*-
-    #============================================================================
-    # Python defaults setup for 'xm create'.
-    # Edit this file to reflect the configuration of your system.
-    #============================================================================
-
-    #----------------------------------------------------------------------------
-    # Kernel image file. This kernel will be loaded in the new domain.
-    kernel = "/home/bouyer/netbsd-XEN3_DOMU"
-    #kernel = "/home/bouyer/netbsd-INSTALL_XEN3_DOMU"
-
-    # Memory allocation (in megabytes) for the new domain.
-    memory = 128
-
-    # A handy name for your new domain. This will appear in 'xm list',
-    # and you can use this as parameters for xm in place of the domain
-    # number. All domains must have different names.
-    #
-    name = "nbsd"
-
-    # The number of virtual CPUs this domain has.
-    #
-    vcpus = 1
-
-    #----------------------------------------------------------------------------
-    # Define network interfaces for the new domain.
-
-    # Number of network interfaces (must be at least 1). Default is 1.
-    nics = 1
-
-    # Define MAC and/or bridge for the network interfaces.
-    #
-    # The MAC address specified in ``mac'' is the one used for the interface
-    # in the new domain. The interface in domain0 will use this address XOR'd
-    # with 00:00:00:01:00:00 (i.e. aa:00:00:51:02:f0 in our example). Random
-    # MACs are assigned if not given.
-    #
-    # ``bridge'' is a required parameter, which will be passed to the
-    # vif-script called by xend(8) when a new domain is created to configure
-    # the new xvif interface in domain0.
-    #
-    # In this example, the xvif is added to bridge0, which should have been
-    # set up prior to the new domain being created -- either in the
-    # ``network'' script or using a /etc/ifconfig.bridge0 file.
-    #
-    vif = [ 'mac=aa:00:00:50:02:f0, bridge=bridge0' ]
-
-    #----------------------------------------------------------------------------
-    # Define the disk devices you want the domain to have access to, and
-    # what you want them accessible as.
-    #
-    # Each disk entry is of the form:
-    #
-    #   phy:DEV,VDEV,MODE
-    #
-    # where DEV is the device, VDEV is the device name the domain will see,
-    # and MODE is r for read-only, w for read-write.  You can also create
-    # file-backed domains using disk entries of the form:
-    #
-    #   file:PATH,VDEV,MODE
-    #
-    # where PATH is the path to the file used as the virtual disk, and VDEV
-    # and MODE have the same meaning as for ``phy'' devices.
-    #
-    # VDEV doesn't really matter for a NetBSD guest OS (it's just used as an index),
-    # but it does for Linux.
-    # Worse, the device has to exist in /dev/ of domain0, because xm will
-    # try to stat() it. This means that in order to load a Linux guest OS
-    # from a NetBSD domain0, you'll have to create /dev/hda1, /dev/hda2, ...
-    # on domain0, with the major/minor from Linux :(
-    # Alternatively it's possible to specify the device number in hex,
-    # e.g. 0x301 for /dev/hda1, 0x302 for /dev/hda2, etc ...
+See the earlier config file, and adjust memory.  Decide on how much
+storage you will provide, and prepare it (file or lvm).
 
-    disk = [ 'phy:/dev/wd0e,0x1,w' ]
-    #disk = [ 'file:/var/xen/nbsd-disk,0x01,w' ]
-    #disk = [ 'file:/var/xen/nbsd-disk,0x301,w' ]
+While the kernel will be obtained from the dom0 filesystem, the same
+file should be present in the domU as /netbsd so that tools like
+savecore(8) can work.   (This is helpful but not necessary.)
 
-    #----------------------------------------------------------------------------
-    # Set the kernel command line for the new domain.
+The kernel must be specifically for Xen and for use as a domU.  The
+i386 and amd64 provide the following kernels:
 
-    # Set root device. This one does matter for NetBSD
-    root = "xbd0"
-    # extra parameters passed to the kernel
-    # this is where you can set boot flags like -s, -a, etc ...
-    #extra = ""
-
-    #----------------------------------------------------------------------------
-    # Set according to whether you want the domain restarted when it exits.
-    # The default is False.
-    #autorestart = True
-
-    # end of nbsd config file ====================================================
-
-When a new domain is created, xen calls the
-`/usr/pkg/etc/xen/vif-bridge` script for each virtual network interface
-created in *domain0*. This can be used to automatically configure the
-xvif?.? interfaces in *domain0*. In our example, these will be bridged
-with the bridge0 device in *domain0*, but the bridge has to exist first.
-To do this, create the file `/etc/ifconfig.bridge0` and make it look
-like this:
-
-    create
-    !brconfig $int add ex0 up
-
-(replace `ex0` with the name of your physical interface). Then bridge0
-will be created on boot. See the MAN.BRIDGE.4 man page for details.
-
-So, here is a suitable `/usr/pkg/etc/xen/vif-bridge` for xvif?.? (a
-working vif-bridge is also provided with xentools20) configuring:
-
-    #!/bin/sh
-    #============================================================================
-    # $NetBSD: howto.mdwn,v 1.9 2014/12/23 23:04:29 gdt Exp $
-    #
-    # /usr/pkg/etc/xen/vif-bridge
-    #
-    # Script for configuring a vif in bridged mode with a dom0 interface.
-    # The xend(8) daemon calls a vif script when bringing a vif up or down.
-    # The script name to use is defined in /usr/pkg/etc/xen/xend-config.sxp
-    # in the ``vif-script'' field.
-    #
-    # Usage: vif-bridge up|down [var=value ...]
-    #
-    # Actions:
-    #    up     Adds the vif interface to the bridge.
-    #    down   Removes the vif interface from the bridge.
-    #
-    # Variables:
-    #    domain name of the domain the interface is on (required).
-    #    vifq   vif interface name (required).
-    #    mac    vif MAC address (required).
-    #    bridge bridge to add the vif to (required).
-    #
-    # Example invocation:
-    #
-    # vif-bridge up domain=VM1 vif=xvif1.0 mac="ee:14:01:d0:ec:af" bridge=bridge0
-    #
-    #============================================================================
-
-    # Exit if anything goes wrong
-    set -e
-
-    echo "vif-bridge $*"
-
-    # Operation name.
-    OP=$1; shift
-
-    # Pull variables in args into environment
-    for arg ; do export "${arg}" ; done
-
-    # Required parameters. Fail if not set.
-    domain=${domain:?}
-    vif=${vif:?}
-    mac=${mac:?}
-    bridge=${bridge:?}
-
-    # Optional parameters. Set defaults.
-    ip=${ip:-''}   # default to null (do nothing)
-
-    # Are we going up or down?
-    case $OP in
-    up) brcmd='add' ;;
-    down)   brcmd='delete' ;;
-    *)
-        echo 'Invalid command: ' $OP
-        echo 'Valid commands are: up, down'
-        exit 1
-        ;;
-    esac
-
-    # Don't do anything if the bridge is "null".
-    if [ "${bridge}" = "null" ] ; then
-        exit
-    fi
-
-    # Don't do anything if the bridge doesn't exist.
-    if ! ifconfig -l | grep "${bridge}" >/dev/null; then
-        exit
-    fi
-
-    # Add/remove vif to/from bridge.
-    ifconfig x${vif} $OP
-    brconfig ${bridge} ${brcmd} x${vif}
-
-Now, running
-
-    xm create -c /usr/pkg/etc/xen/nbsd
-
-should create a domain and load a NetBSD kernel in it. (Note: `-c`
-causes xm to connect to the domain's console once created.) The kernel
-will try to find its root file system on xbd0 (i.e., wd0e) which hasn't
-been created yet. wd0e will be seen as a disk device in the new domain,
-so it will be 'sub-partitioned'. We could attach a ccd to wd0e in
-*domain0* and partition it, newfs and extract the NetBSD/i386 or amd64
-tarballs there, but there's an easier way: load the
-`netbsd-INSTALL_XEN3_DOMU` kernel provided in the NetBSD binary sets.
-Like other install kernels, it contains a ramdisk with sysinst, so you
-can install NetBSD using sysinst on your new domain.
+        i386 XEN3_DOMU
+        i386 XEN3PAE_DOMU
+	amd64 XEN3_DOMU
 
-If you want to install NetBSD/Xen with a CDROM image, the following line
-should be used in the `/usr/pkg/etc/xen/nbsd` file:
+Unless using Xen 3.1 (and you shouldn't) with i386-mode Xen, you must
+use the PAE version of the i386 kernel.
+
+This will boot NetBSD, but this is not that useful if the disk is
+empty.  One approach is to unpack sets onto the disk outside of xen
+(by mounting it, just as you would prepare a physical disk for a
+system you can't run the installer on).
+
+A second approach is to run an INSTALL kernel, which has a miniroot
+and can load sets from the network.  To do this, copy the INSTALL
+kernel to / and change the kernel line in the config file to:
+
+        kernel = "/home/bouyer/netbsd-INSTALL_XEN3_DOMU"
+
+Then, start the domain as "xl create -c configname".
+
+Alternatively, if you want to install NetBSD/Xen with a CDROM image, the following
+line should be used in the config file.
 
     disk = [ 'phy:/dev/wd0e,0x1,w', 'phy:/dev/cd0a,0x2,r' ]
 
 After booting the domain, the option to install via CDROM may be
-selected. The CDROM device should be changed to `xbd1d`.
+selected.  The CDROM device should be changed to `xbd1d`.
 
-Once done installing, `halt -p` the new domain (don't reboot or halt, it
-would reload the INSTALL\_XEN3\_DOMU kernel even if you changed the
-config file), switch the config file back to the XEN3\_DOMU kernel, and
-start the new domain again. Now it should be able to use `root on xbd0a`
-and you should have a second, functional NetBSD system on your xen
-installation.
+Once done installing, "halt -p" the new domain (don't reboot or halt,
+it would reload the INSTALL_XEN3_DOMU kernel even if you changed the
+config file), switch the config file back to the XEN3_DOMU kernel,
+and start the new domain again. Now it should be able to use "root on
+xbd0a" and you should have a, functional NetBSD domU.
 
+TODO: check if this is still accurate.
 When the new domain is booting you'll see some warnings about *wscons*
 and the pseudo-terminals. These can be fixed by editing the files
 `/etc/ttys` and `/etc/wscons.conf`. You must disable all terminals in
@@ -471,14 +722,14 @@ Finally, all screens must be commented o
 
 It is also desirable to add
 
-    powerd=YES
+        powerd=YES
 
 in rc.conf. This way, the domain will be properly shut down if
-`xm shutdown -R` or `xm shutdown -H` is used on the domain0.
+`xm shutdown -R` or `xm shutdown -H` is used on the dom0.
 
 Your domain should be now ready to work, enjoy.
 
-Creating an unprivileged Linux domain (DomU)
+Creating an unprivileged Linux domain (domU)
 --------------------------------------------
 
 Creating unprivileged Linux domains isn't much different from
@@ -490,30 +741,30 @@ the example below)
     disk = [ 'phy:/dev/wd0e,0x1,w' ]
 
 does matter to Linux. It wants a Linux device number here (e.g. 0x300
-for hda). Linux builds device numbers as: (major \<\< 8 + minor). So,
-hda1 which has major 3 and minor 1 on a Linux system will have device
-number 0x301. Alternatively, devices names can be used (hda, hdb, ...)
-as xentools has a table to map these names to devices numbers. To export
-a partition to a Linux guest we can use:
+for hda).  Linux builds device numbers as: (major \<\< 8 + minor).
+So, hda1 which has major 3 and minor 1 on a Linux system will have
+device number 0x301.  Alternatively, devices names can be used (hda,
+hdb, ...)  as xentools has a table to map these names to devices
+numbers.  To export a partition to a Linux guest we can use:
 
-    disk = [ 'phy:/dev/wd0e,0x300,w' ]
-    root = "/dev/hda1 ro"
+        disk = [ 'phy:/dev/wd0e,0x300,w' ]
+        root = "/dev/hda1 ro"
 
 and it will appear as /dev/hda on the Linux system, and be used as root
 partition.
 
-To install the Linux system on the partition to be exported to the guest
-domain, the following method can be used: install sysutils/e2fsprogs
-from pkgsrc. Use mke2fs to format the partition that will be the root
-partition of your Linux domain, and mount it. Then copy the files from a
-working Linux system, make adjustments in `/etc` (fstab, network
-config). It should also be possible to extract binary packages such as
-.rpm or .deb directly to the mounted partition using the appropriate
-tool, possibly running under NetBSD's Linux emulation. Once the
-filesystem has been populated, umount it. If desirable, the filesystem
-can be converted to ext3 using tune2fs -j. It should now be possible to
-boot the Linux guest domain, using one of the vmlinuz-\*-xenU kernels
-available in the Xen binary distribution.
+To install the Linux system on the partition to be exported to the
+guest domain, the following method can be used: install
+sysutils/e2fsprogs from pkgsrc.  Use mke2fs to format the partition
+that will be the root partition of your Linux domain, and mount it.
+Then copy the files from a working Linux system, make adjustments in
+`/etc` (fstab, network config).  It should also be possible to extract
+binary packages such as .rpm or .deb directly to the mounted partition
+using the appropriate tool, possibly running under NetBSD's Linux
+emulation.  Once the filesystem has been populated, umount it.  If
+desirable, the filesystem can be converted to ext3 using tune2fs -j.
+It should now be possible to boot the Linux guest domain, using one of
+the vmlinuz-\*-xenU kernels available in the Xen binary distribution.
 
 To get the linux console right, you need to add:
 
@@ -522,222 +773,139 @@ To get the linux console right, you need
 to your configuration since not all linux distributions auto-attach a
 tty to the xen console.
 
-Creating an unprivileged Solaris domain (DomU)
+Creating an unprivileged Solaris domain (domU)
 ----------------------------------------------
 
-Download an Opensolaris [release](http://opensolaris.org/os/downloads/)
-or [development snapshot](http://genunix.org/) DVD image. Attach the DVD
-image to a MAN.VND.4 device. Copy the kernel and ramdisk filesystem
-image to your dom0 filesystem.
-
-    dom0# mkdir /root/solaris
-    dom0# vnconfig vnd0 osol-1002-124-x86.iso
-    dom0# mount /dev/vnd0a /mnt
-
-    ## for a 64-bit guest
-    dom0# cp /mnt/boot/amd64/x86.microroot /root/solaris
-    dom0# cp /mnt/platform/i86xpv/kernel/amd64/unix /root/solaris
-
-    ## for a 32-bit guest
-    dom0# cp /mnt/boot/x86.microroot /root/solaris
-    dom0# cp /mnt/platform/i86xpv/kernel/unix /root/solaris
-
-    dom0# umount /mnt
-          
-
-Keep the MAN.VND.4 configured. For some reason the boot process stalls
-unless the DVD image is attached to the guest as a "phy" device. Create
-an initial configuration file with the following contents. Substitute
-*/dev/wd0k* with an empty partition at least 8 GB large.
-
-    memory = 640
-    name = 'solaris'
-    disk = [ 'phy:/dev/wd0k,0,w' ]
-    disk += [ 'phy:/dev/vnd0d,6:cdrom,r' ]
-    vif = [ 'bridge=bridge0' ]
-    kernel = '/root/solaris/unix'
-    ramdisk = '/root/solaris/x86.microroot'
-    # for a 64-bit guest
-    extra = '/platform/i86xpv/kernel/amd64/unix - nowin -B install_media=cdrom'
-    # for a 32-bit guest
-    #extra = '/platform/i86xpv/kernel/unix - nowin -B install_media=cdrom'
-          
-
-Start the guest.
-
-    dom0# xm create -c solaris.cfg
-    Started domain solaris
-                          v3.3.2 chgset 'unavailable'
-    SunOS Release 5.11 Version snv_124 64-bit
-    Copyright 1983-2009 Sun Microsystems, Inc.  All rights reserved.
-    Use is subject to license terms.
-    Hostname: opensolaris
-    Remounting root read/write
-    Probing for device nodes ...
-    WARNING: emlxs: ddi_modopen drv/fct failed: err 2
-    Preparing live image for use
-    Done mounting Live image
-          
-
-Make sure the network is configured. Note that it can take a minute for
-the xnf0 interface to appear.
-
-    opensolaris console login: jack
-    Password: jack
-    Sun Microsystems Inc.   SunOS 5.11      snv_124 November 2008
-    jack@opensolaris:~$ pfexec sh
-    sh-3.2# ifconfig -a
-    sh-3.2# exit
-          
-
-Set a password for VNC and start the VNC server which provides the X11
-display where the installation program runs.
-
-    jack@opensolaris:~$ vncpasswd
-    Password: solaris
-    Verify: solaris
-    jack@opensolaris:~$ cp .Xclients .vnc/xstartup
-    jack@opensolaris:~$ vncserver :1
-          
-
-From a remote machine connect to the VNC server. Use `ifconfig xnf0` on
-the guest to find the correct IP address to use.
-
-    remote$ vncviewer 172.18.2.99:1
-          
-
-It is also possible to launch the installation on a remote X11 display.
-
-    jack@opensolaris:~$ export DISPLAY=172.18.1.1:0
-    jack@opensolaris:~$ pfexec gui-install
-           
-
-After the GUI installation is complete you will be asked to reboot.
-Before that you need to determine the ZFS ID for the new boot filesystem
-and update the configuration file accordingly. Return to the guest
-console.
-
-    jack@opensolaris:~$ pfexec zdb -vvv rpool | grep bootfs
-                    bootfs = 43
-    ^C
-    jack@opensolaris:~$
-           
-
-The final configuration file should look like this. Note in particular
-the last line.
-
-    memory = 640
-    name = 'solaris'
-    disk = [ 'phy:/dev/wd0k,0,w' ]
-    vif = [ 'bridge=bridge0' ]
-    kernel = '/root/solaris/unix'
-    ramdisk = '/root/solaris/x86.microroot'
-    extra = '/platform/i86xpv/kernel/amd64/unix -B zfs-bootfs=rpool/43,bootpath="/xpvd/xdf@0:a"'
-           
-
-Restart the guest to verify it works correctly.
-
-    dom0# xm destroy solaris
-    dom0# xm create -c solaris.cfg
-    Using config file "./solaris.cfg".
-    v3.3.2 chgset 'unavailable'
-    Started domain solaris
-    SunOS Release 5.11 Version snv_124 64-bit
-    Copyright 1983-2009 Sun Microsystems, Inc.  All rights reserved.
-    Use is subject to license terms.
-    WARNING: emlxs: ddi_modopen drv/fct failed: err 2
-    Hostname: osol
-    Configuring devices.
-    Loading smf(5) service descriptions: 160/160
-    svccfg import warnings. See /var/svc/log/system-manifest-import:default.log .
-    Reading ZFS config: done.
-    Mounting ZFS filesystems: (6/6)
-    Creating new rsa public/private host key pair
-    Creating new dsa public/private host key pair
-
-    osol console login:
-           
-
-Using PCI devices in guest domains
-==================================
-
-The domain0 can give other domains access to selected PCI devices. This
-can allow, for example, a non-privileged domain to have access to a
-physical network interface or disk controller. However, keep in mind
-that giving a domain access to a PCI device most likely will give the
-domain read/write access to the whole physical memory, as PCs don't have
-an IOMMU to restrict memory access to DMA-capable device. Also, it's not
-possible to export ISA devices to non-domain0 domains (which means that
-the primary VGA adapter can't be exported. A guest domain trying to
-access the VGA registers will panic).
-
-This functionality is only available in NetBSD-5.1 (and later) domain0
-and domU. If the domain0 is NetBSD, it has to be running Xen 3.1, as
-support has not been ported to later versions at this time.
-
-For a PCI device to be exported to a domU, is has to be attached to the
-`pciback` driver in domain0. Devices passed to the domain0 via the
-pciback.hide boot parameter will attach to `pciback` instead of the
-usual driver. The list of devices is specified as `(bus:dev.func)`,
+See possibly outdated
+[Solaris domU instructions](/ports/xen/howto-solaris/).
+
+
+PCI passthrough: Using PCI devices in guest domains
+---------------------------------------------------
+
+The dom0 can give other domains access to selected PCI
+devices. This can allow, for example, a non-privileged domain to have
+access to a physical network interface or disk controller.  However,
+keep in mind that giving a domain access to a PCI device most likely
+will give the domain read/write access to the whole physical memory,
+as PCs don't have an IOMMU to restrict memory access to DMA-capable
+device.  Also, it's not possible to export ISA devices to non-dom0
+domains, which means that the primary VGA adapter can't be exported.
+A guest domain trying to access the VGA registers will panic.
+
+If the dom0 is NetBSD, it has to be running Xen 3.1, as support has
+not been ported to later versions at this time.
+
+For a PCI device to be exported to a domU, is has to be attached to
+the "pciback" driver in dom0.  Devices passed to the dom0 via the
+pciback.hide boot parameter will attach to "pciback" instead of the
+usual driver.  The list of devices is specified as "(bus:dev.func)",
 where bus and dev are 2-digit hexadecimal numbers, and func a
 single-digit number:
 
-    pciback.hide=(00:0a.0)(00:06.0)
+        pciback.hide=(00:0a.0)(00:06.0)
 
-pciback devices should show up in the domain0's boot messages, and the
+pciback devices should show up in the dom0's boot messages, and the
 devices should be listed in the `/kern/xen/pci` directory.
 
-PCI devices to be exported to a domU are listed in the `pci` array of
-the domU's config file, with the format `'0000:bus:dev.func'`
+PCI devices to be exported to a domU are listed in the "pci" array of
+the domU's config file, with the format "0000:bus:dev.func".
+
+        pci = [ '0000:00:06.0', '0000:00:0a.0' ]
+
+In the domU an "xpci" device will show up, to which one or more pci
+busses will attach.  Then the PCI drivers will attach to PCI busses as
+usual.  Note that the default NetBSD DOMU kernels do not have "xpci"
+or any PCI drivers built in by default; you have to build your own
+kernel to use PCI devices in a domU.  Here's a kernel config example;
+note that only the "xpci" lines are unusual.
+
+        include         "arch/i386/conf/XEN3_DOMU"
+
+        # Add support for PCI busses to the XEN3_DOMU kernel
+        xpci* at xenbus ?
+        pci* at xpci ?
+
+        # PCI USB controllers
+        uhci*   at pci? dev ? function ?        # Universal Host Controller (Intel)
+
+        # USB bus support
+        usb*    at uhci?
+
+        # USB Hubs
+        uhub*   at usb?
+        uhub*   at uhub? port ? configuration ? interface ?
+
+        # USB Mass Storage
+        umass*  at uhub? port ? configuration ? interface ?
+        wd*     at umass?
+        # SCSI controllers
+        ahc*    at pci? dev ? function ?        # Adaptec [23]94x, aic78x0 SCSI
+
+        # SCSI bus support (for both ahc and umass)
+        scsibus* at scsi?
+
+        # SCSI devices
+        sd*     at scsibus? target ? lun ?      # SCSI disk drives
+        cd*     at scsibus? target ? lun ?      # SCSI CD-ROM drives
+
+
+NetBSD as a domU in a VPS
+=========================
+
+The bulk of the HOWTO is about using NetBSD as a dom0 on your own
+hardware.  This section explains how to deal with Xen in a domU as a
+virtual private server where you do not control or have access to the
+dom0.
+
+VPS operators provide varying degrees of access and mechanisms for
+configuration.  The big issue is usually how one controls which kernel
+is booted, because the kernel is nominally in the dom0 filesystem (to
+which VPS users do not normally have acesss).
+
+A VPS user may want to compile a kernel for security updates, to run
+npf, run IPsec, or any other reason why someone would want to change
+their kernel.
+
+One approach is to have an adminstrative interface to upload a kernel,
+or to select from a prepopulated list.  Other approaches are py-grub
+(deprecated) and pvgrub, which are ways to have a bootloader obtain a
+kernel from the domU filesystem.  This is closer to a regular physical
+computer, where someone who controls a machine can replace the kernel.
+
+py-grub
+-------
+
+py-grub runs in the dom0 and looks into the domU filesystem.  This
+implies that the domU must have a kernel in a filesystem in a format
+known to py-grub.  As of 2014, py-grub seems to be of mostly historical interest.
+
+pvgrub
+------
+
+pvgrub is a version of grub that uses PV operations instead of BIOS
+calls.  It is booted from the dom0 as the domU kernel, and then reads
+/grub/menu.lst and loads a kernel from the domU filesystem.
+
+[prgmr.com](http://prgmr.com/) uses this approach to let users choose
+their own operating system and kernel.  See then [prgmr.com NetBSD
+HOWTO](http://wiki.prgmr.com/mediawiki/index.php/NetBSD_as_a_DomU).
+
+Typically one has an ext2 or FAT partition for the kernel, so that
+grub can understand it, which leads to /netbsd not being the actual
+kernel.  One must remember to update the special boot partiion.
+
+Amazon
+------
+
+TODO: add link to NetBSD amazon howto.
+
+Using npf
+---------
 
-    pci = [ '0000:00:06.0', '0000:00:0a.0' ]
+In standard kernels, npf is a module, and thus cannot be loadeed in a
+DOMU kernel.
 
-In the domU an `xpci` device will show up, to which one or more pci
-busses will attach. Then the PCI drivers will attach to PCI busses as
-usual. Note that the default NetBSD DOMU kernels do not have `xpci` or
-any PCI drivers built in by default; you have to build your own kernel
-to use PCI devices in a domU. Here's a kernel config example:
-
-    include         "arch/i386/conf/XEN3_DOMU"
-    #include         "arch/i386/conf/XENU"           # in NetBSD 3.0
-
-    # Add support for PCI busses to the XEN3_DOMU kernel
-    xpci* at xenbus ?
-    pci* at xpci ?
-
-    # Now add PCI and related devices to be used by this domain
-    # USB Controller and Devices
-
-    # PCI USB controllers
-    uhci*   at pci? dev ? function ?        # Universal Host Controller (Intel)
-
-    # USB bus support
-    usb*    at uhci?
-
-    # USB Hubs
-    uhub*   at usb?
-    uhub*   at uhub? port ? configuration ? interface ?
-
-    # USB Mass Storage
-    umass*  at uhub? port ? configuration ? interface ?
-    wd*     at umass?
-    # SCSI controllers
-    ahc*    at pci? dev ? function ?        # Adaptec [23]94x, aic78x0 SCSI
-
-    # SCSI bus support (for both ahc and umass)
-    scsibus* at scsi?
-
-    # SCSI devices
-    sd*     at scsibus? target ? lun ?      # SCSI disk drives
-    cd*     at scsibus? target ? lun ?      # SCSI CD-ROM drives
-
-Links and further information
-=============================
-
--   The [HowTo on Installing into RAID-1](http://mail-index.NetBSD.org/port-xen/2006/03/01/0010.html)
-    explains how to set up booting a dom0 with Xen using grub 
-    with NetBSD's RAIDframe.  (This is obsolete with the use of
-    NetBSD's native boot.)
--   An example of how to use NetBSD's native bootloader to load
-    NetBSD/Xen instead of Grub can be found in the i386/amd64 boot(8)
-    and boot.cfg(5) manpages.
+TODO: explain how to compile npf into a custom kernel, answering (but
+note that the problem was caused by not booting the right kernel):
+http://mail-index.netbsd.org/netbsd-users/2014/12/26/msg015576.html