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lguest: documentation I: Preparation
The netfilter code had very good documentation: the Netfilter Hacking HOWTO. Noone ever read it. So this time I'm trying something different, using a bit of Knuthiness. Signed-off-by: Rusty Russell <rusty@rustcorp.com.au> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
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Documentation/lguest/extract
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58
Documentation/lguest/extract
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@ -0,0 +1,58 @@
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#! /bin/sh
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set -e
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PREFIX=$1
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shift
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trap 'rm -r $TMPDIR' 0
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TMPDIR=`mktemp -d`
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exec 3>/dev/null
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for f; do
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while IFS="
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" read -r LINE; do
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case "$LINE" in
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*$PREFIX:[0-9]*:\**)
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NUM=`echo "$LINE" | sed "s/.*$PREFIX:\([0-9]*\).*/\1/"`
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if [ -f $TMPDIR/$NUM ]; then
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echo "$TMPDIR/$NUM already exits prior to $f"
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exit 1
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fi
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exec 3>>$TMPDIR/$NUM
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echo $f | sed 's,\.\./,,g' > $TMPDIR/.$NUM
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/bin/echo "$LINE" | sed -e "s/$PREFIX:[0-9]*//" -e "s/:\*/*/" >&3
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;;
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*$PREFIX:[0-9]*)
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NUM=`echo "$LINE" | sed "s/.*$PREFIX:\([0-9]*\).*/\1/"`
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if [ -f $TMPDIR/$NUM ]; then
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echo "$TMPDIR/$NUM already exits prior to $f"
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exit 1
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fi
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exec 3>>$TMPDIR/$NUM
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echo $f | sed 's,\.\./,,g' > $TMPDIR/.$NUM
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/bin/echo "$LINE" | sed "s/$PREFIX:[0-9]*//" >&3
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;;
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*:\**)
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/bin/echo "$LINE" | sed -e "s/:\*/*/" -e "s,/\*\*/,," >&3
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echo >&3
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exec 3>/dev/null
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;;
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*)
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/bin/echo "$LINE" >&3
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;;
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esac
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done < $f
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echo >&3
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exec 3>/dev/null
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done
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LASTFILE=""
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for f in $TMPDIR/*; do
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if [ "$LASTFILE" != $(cat $TMPDIR/.$(basename $f) ) ]; then
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LASTFILE=$(cat $TMPDIR/.$(basename $f) )
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echo "[ $LASTFILE ]"
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fi
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cat $f
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done
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@ -1,5 +1,10 @@
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/* Simple program to layout "physical" memory for new lguest guest.
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* Linked high to avoid likely physical memory. */
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/*P:100 This is the Launcher code, a simple program which lays out the
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* "physical" memory for the new Guest by mapping the kernel image and the
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* virtual devices, then reads repeatedly from /dev/lguest to run the Guest.
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*
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* The only trick: the Makefile links it at a high address so it will be clear
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* of the guest memory region. It means that each Guest cannot have more than
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* about 2.5G of memory on a normally configured Host. :*/
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#define _LARGEFILE64_SOURCE
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#define _GNU_SOURCE
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#include <stdio.h>
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@ -5,3 +5,15 @@ obj-$(CONFIG_LGUEST_GUEST) += lguest.o lguest_asm.o lguest_bus.o
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obj-$(CONFIG_LGUEST) += lg.o
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lg-y := core.o hypercalls.o page_tables.o interrupts_and_traps.o \
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segments.o io.o lguest_user.o switcher.o
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Preparation Preparation!: PREFIX=P
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Guest: PREFIX=G
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Drivers: PREFIX=D
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Launcher: PREFIX=L
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Host: PREFIX=H
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Switcher: PREFIX=S
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Mastery: PREFIX=M
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Beer:
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@for f in Preparation Guest Drivers Launcher Host Switcher Mastery; do echo "{==- $$f -==}"; make -s $$f; done; echo "{==-==}"
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Preparation Preparation! Guest Drivers Launcher Host Switcher Mastery:
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@sh ../../Documentation/lguest/extract $(PREFIX) `find ../../* -name '*.[chS]' -wholename '*lguest*'`
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47
drivers/lguest/README
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47
drivers/lguest/README
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Welcome, friend reader, to lguest.
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Lguest is an adventure, with you, the reader, as Hero. I can't think of many
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5000-line projects which offer both such capability and glimpses of future
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potential; it is an exciting time to be delving into the source!
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But be warned; this is an arduous journey of several hours or more! And as we
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know, all true Heroes are driven by a Noble Goal. Thus I offer a Beer (or
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equivalent) to anyone I meet who has completed this documentation.
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So get comfortable and keep your wits about you (both quick and humorous).
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Along your way to the Noble Goal, you will also gain masterly insight into
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lguest, and hypervisors and x86 virtualization in general.
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Our Quest is in seven parts: (best read with C highlighting turned on)
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I) Preparation
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- In which our potential hero is flown quickly over the landscape for a
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taste of its scope. Suitable for the armchair coders and other such
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persons of faint constitution.
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II) Guest
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- Where we encounter the first tantalising wisps of code, and come to
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understand the details of the life of a Guest kernel.
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III) Drivers
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- Whereby the Guest finds its voice and become useful, and our
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understanding of the Guest is completed.
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IV) Launcher
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- Where we trace back to the creation of the Guest, and thus begin our
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understanding of the Host.
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V) Host
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- Where we master the Host code, through a long and tortuous journey.
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Indeed, it is here that our hero is tested in the Bit of Despair.
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VI) Switcher
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- Where our understanding of the intertwined nature of Guests and Hosts
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is completed.
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VII) Mastery
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- Where our fully fledged hero grapples with the Great Question:
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"What next?"
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make Preparation!
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Rusty Russell.
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/* World's simplest hypervisor, to test paravirt_ops and show
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* unbelievers that virtualization is the future. Plus, it's fun! */
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/*P:400 This contains run_guest() which actually calls into the Host<->Guest
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* Switcher and analyzes the return, such as determining if the Guest wants the
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* Host to do something. This file also contains useful helper routines, and a
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* couple of non-obvious setup and teardown pieces which were implemented after
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* days of debugging pain. :*/
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#include <linux/module.h>
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#include <linux/stringify.h>
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#include <linux/stddef.h>
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/* Actual hypercalls, which allow guests to actually do something.
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Copyright (C) 2006 Rusty Russell IBM Corporation
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/*P:500 Just as userspace programs request kernel operations through a system
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* call, the Guest requests Host operations through a "hypercall". You might
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* notice this nomenclature doesn't really follow any logic, but the name has
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* been around for long enough that we're stuck with it. As you'd expect, this
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* code is basically a one big switch statement. :*/
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/* Copyright (C) 2006 Rusty Russell IBM Corporation
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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/*P:800 Interrupts (traps) are complicated enough to earn their own file.
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* There are three classes of interrupts:
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*
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* 1) Real hardware interrupts which occur while we're running the Guest,
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* 2) Interrupts for virtual devices attached to the Guest, and
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* 3) Traps and faults from the Guest.
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*
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* Real hardware interrupts must be delivered to the Host, not the Guest.
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* Virtual interrupts must be delivered to the Guest, but we make them look
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* just like real hardware would deliver them. Traps from the Guest can be set
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* up to go directly back into the Guest, but sometimes the Host wants to see
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* them first, so we also have a way of "reflecting" them into the Guest as if
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* they had been delivered to it directly. :*/
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#include <linux/uaccess.h>
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#include "lg.h"
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/* Simple I/O model for guests, based on shared memory.
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* Copyright (C) 2006 Rusty Russell IBM Corporation
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/*P:300 The I/O mechanism in lguest is simple yet flexible, allowing the Guest
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* to talk to the Launcher or directly to another Guest. It uses familiar
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* concepts of DMA and interrupts, plus some neat code stolen from
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* futexes... :*/
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/* Copyright (C) 2006 Rusty Russell IBM Corporation
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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/*
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* Lguest specific paravirt-ops implementation
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/*P:010
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* A hypervisor allows multiple Operating Systems to run on a single machine.
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* To quote David Wheeler: "Any problem in computer science can be solved with
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* another layer of indirection."
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*
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* We keep things simple in two ways. First, we start with a normal Linux
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* kernel and insert a module (lg.ko) which allows us to run other Linux
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* kernels the same way we'd run processes. We call the first kernel the Host,
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* and the others the Guests. The program which sets up and configures Guests
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* (such as the example in Documentation/lguest/lguest.c) is called the
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* Launcher.
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*
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* Secondly, we only run specially modified Guests, not normal kernels. When
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* you set CONFIG_LGUEST to 'y' or 'm', this automatically sets
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* CONFIG_LGUEST_GUEST=y, which compiles this file into the kernel so it knows
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* how to be a Guest. This means that you can use the same kernel you boot
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* normally (ie. as a Host) as a Guest.
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*
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* These Guests know that they cannot do privileged operations, such as disable
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* interrupts, and that they have to ask the Host to do such things explicitly.
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* This file consists of all the replacements for such low-level native
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* hardware operations: these special Guest versions call the Host.
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*
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* So how does the kernel know it's a Guest? The Guest starts at a special
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* entry point marked with a magic string, which sets up a few things then
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* calls here. We replace the native functions in "struct paravirt_ops"
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* with our Guest versions, then boot like normal. :*/
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/*
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* Copyright (C) 2006, Rusty Russell <rusty@rustcorp.com.au> IBM Corporation.
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*
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* This program is free software; you can redistribute it and/or modify
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/*P:050 Lguest guests use a very simple bus for devices. It's a simple array
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* of device descriptors contained just above the top of normal memory. The
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* lguest bus is 80% tedious boilerplate code. :*/
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#include <linux/init.h>
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#include <linux/bootmem.h>
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#include <linux/lguest_bus.h>
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/* Userspace control of the guest, via /dev/lguest. */
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/*P:200 This contains all the /dev/lguest code, whereby the userspace launcher
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* controls and communicates with the Guest. For example, the first write will
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* tell us the memory size, pagetable, entry point and kernel address offset.
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* A read will run the Guest until a signal is pending (-EINTR), or the Guest
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* does a DMA out to the Launcher. Writes are also used to get a DMA buffer
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* registered by the Guest and to send the Guest an interrupt. :*/
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#include <linux/uaccess.h>
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#include <linux/miscdevice.h>
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#include <linux/fs.h>
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/* Shadow page table operations.
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* Copyright (C) Rusty Russell IBM Corporation 2006.
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/*P:700 The pagetable code, on the other hand, still shows the scars of
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* previous encounters. It's functional, and as neat as it can be in the
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* circumstances, but be wary, for these things are subtle and break easily.
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* The Guest provides a virtual to physical mapping, but we can neither trust
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* it nor use it: we verify and convert it here to point the hardware to the
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* actual Guest pages when running the Guest. :*/
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/* Copyright (C) Rusty Russell IBM Corporation 2006.
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* GPL v2 and any later version */
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#include <linux/mm.h>
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#include <linux/types.h>
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/*P:600 The x86 architecture has segments, which involve a table of descriptors
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* which can be used to do funky things with virtual address interpretation.
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* We originally used to use segments so the Guest couldn't alter the
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* Guest<->Host Switcher, and then we had to trim Guest segments, and restore
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* for userspace per-thread segments, but trim again for on userspace->kernel
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* transitions... This nightmarish creation was contained within this file,
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* where we knew not to tread without heavy armament and a change of underwear.
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*
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* In these modern times, the segment handling code consists of simple sanity
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* checks, and the worst you'll experience reading this code is butterfly-rash
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* from frolicking through its parklike serenity. :*/
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#include "lg.h"
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static int desc_ok(const struct desc_struct *gdt)
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/* This code sits at 0xFFC00000 to do the low-level guest<->host switch.
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/*P:900 This is the Switcher: code which sits at 0xFFC00000 to do the low-level
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* Guest<->Host switch. It is as simple as it can be made, but it's naturally
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* very specific to x86.
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*
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* You have now completed Preparation. If this has whet your appetite; if you
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* are feeling invigorated and refreshed then the next, more challenging stage
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* can be found in "make Guest". :*/
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There is are two pages above us for this CPU (struct lguest_pages).
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The second page (struct lguest_ro_state) becomes read-only after the
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context switch. The first page (the stack for traps) remains writable,
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but while we're in here, the guest cannot be running.
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*/
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#include <linux/linkage.h>
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#include <asm/asm-offsets.h>
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#include "lg.h"
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