core.c 9.8 KB
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/*P:400 This contains run_guest() which actually calls into the Host<->Guest
 * 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. :*/
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#include <linux/module.h>
#include <linux/stringify.h>
#include <linux/stddef.h>
#include <linux/io.h>
#include <linux/mm.h>
#include <linux/vmalloc.h>
#include <linux/cpu.h>
#include <linux/freezer.h>
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#include <linux/highmem.h>
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#include <asm/paravirt.h>
#include <asm/pgtable.h>
#include <asm/uaccess.h>
#include <asm/poll.h>
#include <asm/asm-offsets.h>
#include "lg.h"


static struct vm_struct *switcher_vma;
static struct page **switcher_page;

/* This One Big lock protects all inter-guest data structures. */
DEFINE_MUTEX(lguest_lock);

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/*H:010 We need to set up the Switcher at a high virtual address.  Remember the
 * Switcher is a few hundred bytes of assembler code which actually changes the
 * CPU to run the Guest, and then changes back to the Host when a trap or
 * interrupt happens.
 *
 * The Switcher code must be at the same virtual address in the Guest as the
 * Host since it will be running as the switchover occurs.
 *
 * Trying to map memory at a particular address is an unusual thing to do, so
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 * it's not a simple one-liner. */
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static __init int map_switcher(void)
{
	int i, err;
	struct page **pagep;

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	/*
	 * Map the Switcher in to high memory.
	 *
	 * It turns out that if we choose the address 0xFFC00000 (4MB under the
	 * top virtual address), it makes setting up the page tables really
	 * easy.
	 */

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	/* We allocate an array of struct page pointers.  map_vm_area() wants
	 * this, rather than just an array of pages. */
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	switcher_page = kmalloc(sizeof(switcher_page[0])*TOTAL_SWITCHER_PAGES,
				GFP_KERNEL);
	if (!switcher_page) {
		err = -ENOMEM;
		goto out;
	}

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	/* Now we actually allocate the pages.  The Guest will see these pages,
	 * so we make sure they're zeroed. */
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	for (i = 0; i < TOTAL_SWITCHER_PAGES; i++) {
		unsigned long addr = get_zeroed_page(GFP_KERNEL);
		if (!addr) {
			err = -ENOMEM;
			goto free_some_pages;
		}
		switcher_page[i] = virt_to_page(addr);
	}

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	/* First we check that the Switcher won't overlap the fixmap area at
	 * the top of memory.  It's currently nowhere near, but it could have
	 * very strange effects if it ever happened. */
	if (SWITCHER_ADDR + (TOTAL_SWITCHER_PAGES+1)*PAGE_SIZE > FIXADDR_START){
		err = -ENOMEM;
		printk("lguest: mapping switcher would thwack fixmap\n");
		goto free_pages;
	}

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	/* Now we reserve the "virtual memory area" we want: 0xFFC00000
	 * (SWITCHER_ADDR).  We might not get it in theory, but in practice
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	 * it's worked so far.  The end address needs +1 because __get_vm_area
	 * allocates an extra guard page, so we need space for that. */
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	switcher_vma = __get_vm_area(TOTAL_SWITCHER_PAGES * PAGE_SIZE,
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				     VM_ALLOC, SWITCHER_ADDR, SWITCHER_ADDR
				     + (TOTAL_SWITCHER_PAGES+1) * PAGE_SIZE);
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	if (!switcher_vma) {
		err = -ENOMEM;
		printk("lguest: could not map switcher pages high\n");
		goto free_pages;
	}

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	/* This code actually sets up the pages we've allocated to appear at
	 * SWITCHER_ADDR.  map_vm_area() takes the vma we allocated above, the
	 * kind of pages we're mapping (kernel pages), and a pointer to our
	 * array of struct pages.  It increments that pointer, but we don't
	 * care. */
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	pagep = switcher_page;
	err = map_vm_area(switcher_vma, PAGE_KERNEL, &pagep);
	if (err) {
		printk("lguest: map_vm_area failed: %i\n", err);
		goto free_vma;
	}
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	/* Now the Switcher is mapped at the right address, we can't fail!
	 * Copy in the compiled-in Switcher code (from <arch>_switcher.S). */
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	memcpy(switcher_vma->addr, start_switcher_text,
	       end_switcher_text - start_switcher_text);

	printk(KERN_INFO "lguest: mapped switcher at %p\n",
	       switcher_vma->addr);
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	/* And we succeeded... */
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	return 0;

free_vma:
	vunmap(switcher_vma->addr);
free_pages:
	i = TOTAL_SWITCHER_PAGES;
free_some_pages:
	for (--i; i >= 0; i--)
		__free_pages(switcher_page[i], 0);
	kfree(switcher_page);
out:
	return err;
}
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/*:*/
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/* Cleaning up the mapping when the module is unloaded is almost...
 * too easy. */
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static void unmap_switcher(void)
{
	unsigned int i;

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	/* vunmap() undoes *both* map_vm_area() and __get_vm_area(). */
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	vunmap(switcher_vma->addr);
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	/* Now we just need to free the pages we copied the switcher into */
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	for (i = 0; i < TOTAL_SWITCHER_PAGES; i++)
		__free_pages(switcher_page[i], 0);
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	kfree(switcher_page);
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}

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/*H:032
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 * Dealing With Guest Memory.
 *
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 * Before we go too much further into the Host, we need to grok the routines
 * we use to deal with Guest memory.
 *
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 * When the Guest gives us (what it thinks is) a physical address, we can use
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 * the normal copy_from_user() & copy_to_user() on the corresponding place in
 * the memory region allocated by the Launcher.
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 *
 * But we can't trust the Guest: it might be trying to access the Launcher
 * code.  We have to check that the range is below the pfn_limit the Launcher
 * gave us.  We have to make sure that addr + len doesn't give us a false
 * positive by overflowing, too. */
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int lguest_address_ok(const struct lguest *lg,
		      unsigned long addr, unsigned long len)
{
	return (addr+len) / PAGE_SIZE < lg->pfn_limit && (addr+len >= addr);
}

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/* This routine copies memory from the Guest.  Here we can see how useful the
 * kill_lguest() routine we met in the Launcher can be: we return a random
 * value (all zeroes) instead of needing to return an error. */
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void __lgread(struct lg_cpu *cpu, void *b, unsigned long addr, unsigned bytes)
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{
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	if (!lguest_address_ok(cpu->lg, addr, bytes)
	    || copy_from_user(b, cpu->lg->mem_base + addr, bytes) != 0) {
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		/* copy_from_user should do this, but as we rely on it... */
		memset(b, 0, bytes);
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		kill_guest(cpu, "bad read address %#lx len %u", addr, bytes);
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	}
}

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/* This is the write (copy into Guest) version. */
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void __lgwrite(struct lg_cpu *cpu, unsigned long addr, const void *b,
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	       unsigned bytes)
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{
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	if (!lguest_address_ok(cpu->lg, addr, bytes)
	    || copy_to_user(cpu->lg->mem_base + addr, b, bytes) != 0)
		kill_guest(cpu, "bad write address %#lx len %u", addr, bytes);
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}
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/*:*/
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/*H:030 Let's jump straight to the the main loop which runs the Guest.
 * Remember, this is called by the Launcher reading /dev/lguest, and we keep
 * going around and around until something interesting happens. */
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int run_guest(struct lg_cpu *cpu, unsigned long __user *user)
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{
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	/* We stop running once the Guest is dead. */
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	while (!cpu->lg->dead) {
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		/* First we run any hypercalls the Guest wants done. */
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		if (cpu->hcall)
			do_hypercalls(cpu);
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		/* It's possible the Guest did a NOTIFY hypercall to the
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		 * Launcher, in which case we return from the read() now. */
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		if (cpu->pending_notify) {
			if (put_user(cpu->pending_notify, user))
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				return -EFAULT;
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			return sizeof(cpu->pending_notify);
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		}

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		/* Check for signals */
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		if (signal_pending(current))
			return -ERESTARTSYS;

		/* If Waker set break_out, return to Launcher. */
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		if (cpu->break_out)
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			return -EAGAIN;

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		/* Check if there are any interrupts which can be delivered now:
		 * if so, this sets up the hander to be executed when we next
		 * run the Guest. */
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		maybe_do_interrupt(cpu);
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		/* All long-lived kernel loops need to check with this horrible
		 * thing called the freezer.  If the Host is trying to suspend,
		 * it stops us. */
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		try_to_freeze();

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		/* Just make absolutely sure the Guest is still alive.  One of
		 * those hypercalls could have been fatal, for example. */
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		if (cpu->lg->dead)
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			break;

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		/* If the Guest asked to be stopped, we sleep.  The Guest's
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		 * clock timer or LHREQ_BREAK from the Waker will wake us. */
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		if (cpu->halted) {
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			set_current_state(TASK_INTERRUPTIBLE);
			schedule();
			continue;
		}

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		/* OK, now we're ready to jump into the Guest.  First we put up
		 * the "Do Not Disturb" sign: */
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		local_irq_disable();

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		/* Actually run the Guest until something happens. */
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		lguest_arch_run_guest(cpu);
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		/* Now we're ready to be interrupted or moved to other CPUs */
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		local_irq_enable();

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		/* Now we deal with whatever happened to the Guest. */
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		lguest_arch_handle_trap(cpu);
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	}
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	/* Special case: Guest is 'dead' but wants a reboot. */
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	if (cpu->lg->dead == ERR_PTR(-ERESTART))
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		return -ERESTART;
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	/* The Guest is dead => "No such file or directory" */
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	return -ENOENT;
}

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/*H:000
 * Welcome to the Host!
 *
 * By this point your brain has been tickled by the Guest code and numbed by
 * the Launcher code; prepare for it to be stretched by the Host code.  This is
 * the heart.  Let's begin at the initialization routine for the Host's lg
 * module.
 */
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static int __init init(void)
{
	int err;

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	/* Lguest can't run under Xen, VMI or itself.  It does Tricky Stuff. */
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	if (paravirt_enabled()) {
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		printk("lguest is afraid of being a guest\n");
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		return -EPERM;
	}

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	/* First we put the Switcher up in very high virtual memory. */
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	err = map_switcher();
	if (err)
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		goto out;
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	/* Now we set up the pagetable implementation for the Guests. */
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	err = init_pagetables(switcher_page, SHARED_SWITCHER_PAGES);
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	if (err)
		goto unmap;
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	/* We might need to reserve an interrupt vector. */
	err = init_interrupts();
	if (err)
		goto free_pgtables;

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	/* /dev/lguest needs to be registered. */
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	err = lguest_device_init();
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	if (err)
		goto free_interrupts;
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	/* Finally we do some architecture-specific setup. */
	lguest_arch_host_init();
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	/* All good! */
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	return 0;
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free_interrupts:
	free_interrupts();
free_pgtables:
	free_pagetables();
unmap:
	unmap_switcher();
out:
	return err;
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}

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/* Cleaning up is just the same code, backwards.  With a little French. */
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static void __exit fini(void)
{
	lguest_device_remove();
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	free_interrupts();
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	free_pagetables();
	unmap_switcher();
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	lguest_arch_host_fini();
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}
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/*:*/
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/* The Host side of lguest can be a module.  This is a nice way for people to
 * play with it.  */
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module_init(init);
module_exit(fini);
MODULE_LICENSE("GPL");
MODULE_AUTHOR("Rusty Russell <rusty@rustcorp.com.au>");