xen/x86/x86_xpmap.c

1.8.4.4    yamt /*	$NetBSD: x86_xpmap.c,v 1.8.4.4 2010/03/11 15:03:10 yamt Exp $	*/
    1.2  bouyer
    1.2  bouyer /*
    1.2  bouyer  * Copyright (c) 2006 Mathieu Ropert <mro (at) adviseo.fr>
    1.2  bouyer  *
    1.2  bouyer  * Permission to use, copy, modify, and distribute this software for any
    1.2  bouyer  * purpose with or without fee is hereby granted, provided that the above
    1.2  bouyer  * copyright notice and this permission notice appear in all copies.
    1.2  bouyer  *
    1.2  bouyer  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
    1.2  bouyer  * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
    1.2  bouyer  * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
    1.2  bouyer  * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
    1.2  bouyer  * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
    1.2  bouyer  * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
    1.2  bouyer  * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
    1.2  bouyer  */
    1.2  bouyer
    1.2  bouyer /*
    1.2  bouyer  * Copyright (c) 2006, 2007 Manuel Bouyer.
    1.2  bouyer  *
    1.2  bouyer  * Redistribution and use in source and binary forms, with or without
    1.2  bouyer  * modification, are permitted provided that the following conditions
    1.2  bouyer  * are met:
    1.2  bouyer  * 1. Redistributions of source code must retain the above copyright
    1.2  bouyer  *    notice, this list of conditions and the following disclaimer.
    1.2  bouyer  * 2. Redistributions in binary form must reproduce the above copyright
    1.2  bouyer  *    notice, this list of conditions and the following disclaimer in the
    1.2  bouyer  *    documentation and/or other materials provided with the distribution.
    1.2  bouyer  *
    1.2  bouyer  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
    1.2  bouyer  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
    1.2  bouyer  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
    1.2  bouyer  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
    1.2  bouyer  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
    1.2  bouyer  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
    1.2  bouyer  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
    1.2  bouyer  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
    1.2  bouyer  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
    1.2  bouyer  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    1.2  bouyer  *
    1.2  bouyer  */
    1.2  bouyer
    1.2  bouyer /*
    1.2  bouyer  *
    1.2  bouyer  * Copyright (c) 2004 Christian Limpach.
    1.2  bouyer  * All rights reserved.
    1.2  bouyer  *
    1.2  bouyer  * Redistribution and use in source and binary forms, with or without
    1.2  bouyer  * modification, are permitted provided that the following conditions
    1.2  bouyer  * are met:
    1.2  bouyer  * 1. Redistributions of source code must retain the above copyright
    1.2  bouyer  *    notice, this list of conditions and the following disclaimer.
    1.2  bouyer  * 2. Redistributions in binary form must reproduce the above copyright
    1.2  bouyer  *    notice, this list of conditions and the following disclaimer in the
    1.2  bouyer  *    documentation and/or other materials provided with the distribution.
    1.2  bouyer  *
    1.2  bouyer  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
    1.2  bouyer  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
    1.2  bouyer  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
    1.2  bouyer  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
    1.2  bouyer  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
    1.2  bouyer  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
    1.2  bouyer  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
    1.2  bouyer  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
    1.2  bouyer  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
    1.2  bouyer  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    1.2  bouyer  */
    1.2  bouyer
    1.2  bouyer
    1.2  bouyer #include <sys/cdefs.h>
1.8.4.4    yamt __KERNEL_RCSID(0, "$NetBSD: x86_xpmap.c,v 1.8.4.4 2010/03/11 15:03:10 yamt Exp $");
    1.2  bouyer
    1.2  bouyer #include "opt_xen.h"
    1.4  bouyer #include "opt_ddb.h"
    1.4  bouyer #include "ksyms.h"
    1.2  bouyer
    1.2  bouyer #include <sys/param.h>
    1.2  bouyer #include <sys/systm.h>
    1.2  bouyer
    1.2  bouyer #include <uvm/uvm.h>
    1.2  bouyer
    1.2  bouyer #include <machine/pmap.h>
    1.2  bouyer #include <machine/gdt.h>
    1.2  bouyer #include <xen/xenfunc.h>
    1.2  bouyer
    1.2  bouyer #include <dev/isa/isareg.h>
    1.2  bouyer #include <machine/isa_machdep.h>
    1.2  bouyer
    1.2  bouyer #undef	XENDEBUG
    1.2  bouyer /* #define XENDEBUG_SYNC */
    1.2  bouyer /* #define	XENDEBUG_LOW */
    1.2  bouyer
    1.2  bouyer #ifdef XENDEBUG
    1.2  bouyer #define	XENPRINTF(x) printf x
    1.2  bouyer #define	XENPRINTK(x) printk x
    1.2  bouyer #define	XENPRINTK2(x) /* printk x */
    1.2  bouyer
    1.2  bouyer static char XBUF[256];
    1.2  bouyer #else
    1.2  bouyer #define	XENPRINTF(x)
    1.2  bouyer #define	XENPRINTK(x)
    1.2  bouyer #define	XENPRINTK2(x)
    1.2  bouyer #endif
    1.2  bouyer #define	PRINTF(x) printf x
    1.2  bouyer #define	PRINTK(x) printk x
    1.2  bouyer
    1.4  bouyer /* on x86_64 kernel runs in ring 3 */
    1.4  bouyer #ifdef __x86_64__
    1.4  bouyer #define PG_k PG_u
    1.4  bouyer #else
    1.4  bouyer #define PG_k 0
    1.4  bouyer #endif
    1.4  bouyer
    1.2  bouyer volatile shared_info_t *HYPERVISOR_shared_info;
1.8.4.1    yamt /* Xen requires the start_info struct to be page aligned */
1.8.4.1    yamt union start_info_union start_info_union __aligned(PAGE_SIZE);
    1.6  bouyer unsigned long *xpmap_phys_to_machine_mapping;
    1.2  bouyer
    1.2  bouyer void xen_failsafe_handler(void);
    1.2  bouyer
    1.2  bouyer #define HYPERVISOR_mmu_update_self(req, count, success_count) \
    1.2  bouyer 	HYPERVISOR_mmu_update((req), (count), (success_count), DOMID_SELF)
    1.2  bouyer
    1.2  bouyer void
    1.2  bouyer xen_failsafe_handler(void)
    1.2  bouyer {
    1.2  bouyer
    1.2  bouyer 	panic("xen_failsafe_handler called!\n");
    1.2  bouyer }
    1.2  bouyer
    1.2  bouyer
    1.2  bouyer void
    1.2  bouyer xen_set_ldt(vaddr_t base, uint32_t entries)
    1.2  bouyer {
    1.2  bouyer 	vaddr_t va;
    1.2  bouyer 	vaddr_t end;
    1.4  bouyer 	pt_entry_t *ptp;
    1.2  bouyer 	int s;
    1.2  bouyer
    1.2  bouyer #ifdef __x86_64__
    1.2  bouyer 	end = base + (entries << 3);
    1.2  bouyer #else
    1.2  bouyer 	end = base + entries * sizeof(union descriptor);
    1.2  bouyer #endif
    1.2  bouyer
    1.2  bouyer 	for (va = base; va < end; va += PAGE_SIZE) {
    1.2  bouyer 		KASSERT(va >= VM_MIN_KERNEL_ADDRESS);
    1.2  bouyer 		ptp = kvtopte(va);
1.8.4.4    yamt 		XENPRINTF(("xen_set_ldt %#" PRIxVADDR " %d %p\n",
1.8.4.4    yamt 		    base, entries, ptp));
    1.4  bouyer 		pmap_pte_clearbits(ptp, PG_RW);
    1.2  bouyer 	}
    1.2  bouyer 	s = splvm();
    1.2  bouyer 	xpq_queue_set_ldt(base, entries);
    1.2  bouyer 	splx(s);
    1.2  bouyer }
    1.2  bouyer
    1.2  bouyer #ifdef XENDEBUG
    1.2  bouyer void xpq_debug_dump(void);
    1.2  bouyer #endif
    1.2  bouyer
    1.2  bouyer #define XPQUEUE_SIZE 2048
    1.2  bouyer static mmu_update_t xpq_queue[XPQUEUE_SIZE];
    1.2  bouyer static int xpq_idx = 0;
    1.2  bouyer
    1.2  bouyer void
    1.8  cegger xpq_flush_queue(void)
    1.2  bouyer {
    1.2  bouyer 	int i, ok;
    1.2  bouyer
    1.2  bouyer 	XENPRINTK2(("flush queue %p entries %d\n", xpq_queue, xpq_idx));
    1.2  bouyer 	for (i = 0; i < xpq_idx; i++)
1.8.4.4    yamt 		XENPRINTK2(("%d: 0x%08" PRIx64 " 0x%08" PRIx64 "\n", i,
1.8.4.4    yamt 		    xpq_queue[i].ptr, xpq_queue[i].val));
    1.2  bouyer 	if (xpq_idx != 0 &&
    1.2  bouyer 	    HYPERVISOR_mmu_update_self(xpq_queue, xpq_idx, &ok) < 0) {
    1.2  bouyer 		printf("xpq_flush_queue: %d entries \n", xpq_idx);
    1.2  bouyer 		for (i = 0; i < xpq_idx; i++)
    1.3  bouyer 			printf("0x%016" PRIx64 ": 0x%016" PRIx64 "\n",
1.8.4.4    yamt 			   xpq_queue[i].ptr, xpq_queue[i].val);
    1.2  bouyer 		panic("HYPERVISOR_mmu_update failed\n");
    1.2  bouyer 	}
    1.2  bouyer 	xpq_idx = 0;
    1.2  bouyer }
    1.2  bouyer
    1.2  bouyer static inline void
    1.2  bouyer xpq_increment_idx(void)
    1.2  bouyer {
    1.2  bouyer
    1.2  bouyer 	xpq_idx++;
    1.2  bouyer 	if (__predict_false(xpq_idx == XPQUEUE_SIZE))
    1.2  bouyer 		xpq_flush_queue();
    1.2  bouyer }
    1.2  bouyer
    1.2  bouyer void
    1.2  bouyer xpq_queue_machphys_update(paddr_t ma, paddr_t pa)
    1.2  bouyer {
    1.6  bouyer 	XENPRINTK2(("xpq_queue_machphys_update ma=0x%" PRIx64 " pa=0x%" PRIx64
    1.6  bouyer 	    "\n", (int64_t)ma, (int64_t)pa));
    1.2  bouyer 	xpq_queue[xpq_idx].ptr = ma | MMU_MACHPHYS_UPDATE;
    1.2  bouyer 	xpq_queue[xpq_idx].val = (pa - XPMAP_OFFSET) >> PAGE_SHIFT;
    1.2  bouyer 	xpq_increment_idx();
    1.2  bouyer #ifdef XENDEBUG_SYNC
    1.2  bouyer 	xpq_flush_queue();
    1.2  bouyer #endif
    1.2  bouyer }
    1.2  bouyer
    1.2  bouyer void
    1.6  bouyer xpq_queue_pte_update(paddr_t ptr, pt_entry_t val)
    1.2  bouyer {
    1.2  bouyer
    1.6  bouyer 	KASSERT((ptr & 3) == 0);
    1.2  bouyer 	xpq_queue[xpq_idx].ptr = (paddr_t)ptr | MMU_NORMAL_PT_UPDATE;
    1.2  bouyer 	xpq_queue[xpq_idx].val = val;
    1.2  bouyer 	xpq_increment_idx();
    1.2  bouyer #ifdef XENDEBUG_SYNC
    1.2  bouyer 	xpq_flush_queue();
    1.2  bouyer #endif
    1.2  bouyer }
    1.2  bouyer
    1.2  bouyer void
    1.2  bouyer xpq_queue_pt_switch(paddr_t pa)
    1.2  bouyer {
    1.2  bouyer 	struct mmuext_op op;
    1.2  bouyer 	xpq_flush_queue();
    1.2  bouyer
    1.6  bouyer 	XENPRINTK2(("xpq_queue_pt_switch: 0x%" PRIx64 " 0x%" PRIx64 "\n",
    1.6  bouyer 	    (int64_t)pa, (int64_t)pa));
    1.2  bouyer 	op.cmd = MMUEXT_NEW_BASEPTR;
    1.2  bouyer 	op.arg1.mfn = pa >> PAGE_SHIFT;
    1.2  bouyer 	if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0)
    1.2  bouyer 		panic("xpq_queue_pt_switch");
    1.2  bouyer }
    1.2  bouyer
    1.2  bouyer void
    1.2  bouyer xpq_queue_pin_table(paddr_t pa)
    1.2  bouyer {
    1.2  bouyer 	struct mmuext_op op;
    1.2  bouyer 	xpq_flush_queue();
    1.2  bouyer
    1.6  bouyer 	XENPRINTK2(("xpq_queue_pin_table: 0x%" PRIx64 " 0x%" PRIx64 "\n",
    1.6  bouyer 	    (int64_t)pa, (int64_t)pa));
    1.2  bouyer 	op.arg1.mfn = pa >> PAGE_SHIFT;
    1.2  bouyer
    1.6  bouyer #if defined(__x86_64__)
    1.2  bouyer 	op.cmd = MMUEXT_PIN_L4_TABLE;
    1.2  bouyer #else
    1.2  bouyer 	op.cmd = MMUEXT_PIN_L2_TABLE;
    1.2  bouyer #endif
    1.2  bouyer 	if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0)
    1.2  bouyer 		panic("xpq_queue_pin_table");
    1.2  bouyer }
    1.2  bouyer
    1.6  bouyer #ifdef PAE
    1.6  bouyer static void
    1.6  bouyer xpq_queue_pin_l3_table(paddr_t pa)
    1.6  bouyer {
    1.6  bouyer 	struct mmuext_op op;
    1.6  bouyer 	xpq_flush_queue();
    1.6  bouyer
    1.6  bouyer 	XENPRINTK2(("xpq_queue_pin_l2_table: 0x%" PRIx64 " 0x%" PRIx64 "\n",
    1.6  bouyer 	    (int64_t)pa, (int64_t)pa));
    1.6  bouyer 	op.arg1.mfn = pa >> PAGE_SHIFT;
    1.6  bouyer
    1.6  bouyer 	op.cmd = MMUEXT_PIN_L3_TABLE;
    1.6  bouyer 	if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0)
    1.6  bouyer 		panic("xpq_queue_pin_table");
    1.6  bouyer }
    1.6  bouyer #endif
    1.6  bouyer
    1.2  bouyer void
    1.2  bouyer xpq_queue_unpin_table(paddr_t pa)
    1.2  bouyer {
    1.2  bouyer 	struct mmuext_op op;
    1.2  bouyer 	xpq_flush_queue();
    1.2  bouyer
    1.6  bouyer 	XENPRINTK2(("xpq_queue_unpin_table: 0x%" PRIx64 " 0x%" PRIx64 "\n",
    1.6  bouyer 	    (int64_t)pa, (int64_t)pa));
    1.2  bouyer 	op.arg1.mfn = pa >> PAGE_SHIFT;
    1.2  bouyer 	op.cmd = MMUEXT_UNPIN_TABLE;
    1.2  bouyer 	if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0)
    1.2  bouyer 		panic("xpq_queue_unpin_table");
    1.2  bouyer }
    1.2  bouyer
    1.2  bouyer void
    1.2  bouyer xpq_queue_set_ldt(vaddr_t va, uint32_t entries)
    1.2  bouyer {
    1.2  bouyer 	struct mmuext_op op;
    1.2  bouyer 	xpq_flush_queue();
    1.2  bouyer
    1.2  bouyer 	XENPRINTK2(("xpq_queue_set_ldt\n"));
    1.2  bouyer 	KASSERT(va == (va & ~PAGE_MASK));
    1.2  bouyer 	op.cmd = MMUEXT_SET_LDT;
    1.2  bouyer 	op.arg1.linear_addr = va;
    1.2  bouyer 	op.arg2.nr_ents = entries;
    1.2  bouyer 	if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0)
    1.2  bouyer 		panic("xpq_queue_set_ldt");
    1.2  bouyer }
    1.2  bouyer
    1.2  bouyer void
    1.8  cegger xpq_queue_tlb_flush(void)
    1.2  bouyer {
    1.2  bouyer 	struct mmuext_op op;
    1.2  bouyer 	xpq_flush_queue();
    1.2  bouyer
    1.2  bouyer 	XENPRINTK2(("xpq_queue_tlb_flush\n"));
    1.2  bouyer 	op.cmd = MMUEXT_TLB_FLUSH_LOCAL;
    1.2  bouyer 	if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0)
    1.2  bouyer 		panic("xpq_queue_tlb_flush");
    1.2  bouyer }
    1.2  bouyer
    1.2  bouyer void
    1.8  cegger xpq_flush_cache(void)
    1.2  bouyer {
    1.2  bouyer 	struct mmuext_op op;
    1.2  bouyer 	int s = splvm();
    1.2  bouyer 	xpq_flush_queue();
    1.2  bouyer
    1.2  bouyer 	XENPRINTK2(("xpq_queue_flush_cache\n"));
    1.2  bouyer 	op.cmd = MMUEXT_FLUSH_CACHE;
    1.2  bouyer 	if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0)
    1.2  bouyer 		panic("xpq_flush_cache");
    1.2  bouyer 	splx(s);
    1.2  bouyer }
    1.2  bouyer
    1.2  bouyer void
    1.2  bouyer xpq_queue_invlpg(vaddr_t va)
    1.2  bouyer {
    1.2  bouyer 	struct mmuext_op op;
    1.2  bouyer 	xpq_flush_queue();
    1.2  bouyer
1.8.4.4    yamt 	XENPRINTK2(("xpq_queue_invlpg %#" PRIxVADDR "\n", va));
    1.2  bouyer 	op.cmd = MMUEXT_INVLPG_LOCAL;
    1.2  bouyer 	op.arg1.linear_addr = (va & ~PAGE_MASK);
    1.2  bouyer 	if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0)
    1.2  bouyer 		panic("xpq_queue_invlpg");
    1.2  bouyer }
    1.2  bouyer
    1.2  bouyer int
    1.6  bouyer xpq_update_foreign(paddr_t ptr, pt_entry_t val, int dom)
    1.2  bouyer {
    1.2  bouyer 	mmu_update_t op;
    1.2  bouyer 	int ok;
    1.2  bouyer 	xpq_flush_queue();
    1.2  bouyer
    1.6  bouyer 	op.ptr = ptr;
    1.2  bouyer 	op.val = val;
    1.2  bouyer 	if (HYPERVISOR_mmu_update(&op, 1, &ok, dom) < 0)
    1.2  bouyer 		return EFAULT;
    1.2  bouyer 	return (0);
    1.2  bouyer }
    1.2  bouyer
    1.2  bouyer #ifdef XENDEBUG
    1.2  bouyer void
    1.8  cegger xpq_debug_dump(void)
    1.2  bouyer {
    1.2  bouyer 	int i;
    1.2  bouyer
    1.2  bouyer 	XENPRINTK2(("idx: %d\n", xpq_idx));
    1.2  bouyer 	for (i = 0; i < xpq_idx; i++) {
1.8.4.2    yamt 		snprintf(XBUF, sizeof(XBUF), "%" PRIx64 " %08" PRIx64,
1.8.4.4    yamt 		    xpq_queue[i].ptr, xpq_queue[i].val);
    1.2  bouyer 		if (++i < xpq_idx)
1.8.4.2    yamt 			snprintf(XBUF + strlen(XBUF),
1.8.4.2    yamt 			    sizeof(XBUF) - strlen(XBUF),
1.8.4.2    yamt 			    "%" PRIx64 " %08" PRIx64,
1.8.4.4    yamt 			    xpq_queue[i].ptr, xpq_queue[i].val);
    1.2  bouyer 		if (++i < xpq_idx)
1.8.4.2    yamt 			snprintf(XBUF + strlen(XBUF),
1.8.4.2    yamt 			    sizeof(XBUF) - strlen(XBUF),
1.8.4.2    yamt 			    "%" PRIx64 " %08" PRIx64,
1.8.4.4    yamt 			    xpq_queue[i].ptr, xpq_queue[i].val);
    1.2  bouyer 		if (++i < xpq_idx)
1.8.4.2    yamt 			snprintf(XBUF + strlen(XBUF),
1.8.4.2    yamt 			    sizeof(XBUF) - strlen(XBUF),
1.8.4.2    yamt 			    "%" PRIx64 " %08" PRIx64,
1.8.4.4    yamt 			    xpq_queue[i].ptr, xpq_queue[i].val);
    1.2  bouyer 		XENPRINTK2(("%d: %s\n", xpq_idx, XBUF));
    1.2  bouyer 	}
    1.2  bouyer }
    1.2  bouyer #endif
    1.2  bouyer
    1.2  bouyer
    1.2  bouyer extern volatile struct xencons_interface *xencons_interface; /* XXX */
    1.2  bouyer extern struct xenstore_domain_interface *xenstore_interface; /* XXX */
    1.2  bouyer
    1.2  bouyer static void xen_bt_set_readonly (vaddr_t);
    1.2  bouyer static void xen_bootstrap_tables (vaddr_t, vaddr_t, int, int, int);
    1.2  bouyer
    1.2  bouyer /* How many PDEs ? */
    1.2  bouyer #if L2_SLOT_KERNBASE > 0
    1.2  bouyer #define TABLE_L2_ENTRIES (2 * (NKL2_KIMG_ENTRIES + 1))
    1.2  bouyer #else
    1.2  bouyer #define TABLE_L2_ENTRIES (NKL2_KIMG_ENTRIES + 1)
    1.2  bouyer #endif
    1.2  bouyer
    1.2  bouyer /*
    1.2  bouyer  * Construct and switch to new pagetables
    1.2  bouyer  * first_avail is the first vaddr we can use after
    1.2  bouyer  * we get rid of Xen pagetables
    1.2  bouyer  */
    1.2  bouyer
    1.2  bouyer vaddr_t xen_pmap_bootstrap (void);
    1.2  bouyer
    1.2  bouyer /*
    1.2  bouyer  * Function to get rid of Xen bootstrap tables
    1.2  bouyer  */
    1.2  bouyer
    1.6  bouyer /* How many PDP do we need: */
    1.6  bouyer #ifdef PAE
    1.6  bouyer /*
    1.6  bouyer  * For PAE, we consider a single contigous L2 "superpage" of 4 pages,
    1.6  bouyer  * all of them mapped by the L3 page. We also need a shadow page
    1.6  bouyer  * for L3[3].
    1.6  bouyer  */
    1.6  bouyer static const int l2_4_count = 6;
    1.6  bouyer #else
    1.6  bouyer static const int l2_4_count = PTP_LEVELS - 1;
    1.6  bouyer #endif
    1.6  bouyer
    1.2  bouyer vaddr_t
    1.8  cegger xen_pmap_bootstrap(void)
    1.2  bouyer {
    1.4  bouyer 	int count, oldcount;
    1.4  bouyer 	long mapsize;
    1.2  bouyer 	vaddr_t bootstrap_tables, init_tables;
    1.2  bouyer
    1.6  bouyer 	xpmap_phys_to_machine_mapping =
    1.6  bouyer 	    (unsigned long *)xen_start_info.mfn_list;
    1.2  bouyer 	init_tables = xen_start_info.pt_base;
    1.2  bouyer 	__PRINTK(("xen_arch_pmap_bootstrap init_tables=0x%lx\n", init_tables));
    1.2  bouyer
    1.2  bouyer 	/* Space after Xen boostrap tables should be free */
    1.2  bouyer 	bootstrap_tables = xen_start_info.pt_base +
    1.2  bouyer 		(xen_start_info.nr_pt_frames * PAGE_SIZE);
    1.2  bouyer
    1.4  bouyer 	/*
    1.4  bouyer 	 * Calculate how many space we need
    1.4  bouyer 	 * first everything mapped before the Xen bootstrap tables
    1.4  bouyer 	 */
    1.4  bouyer 	mapsize = init_tables - KERNTEXTOFF;
    1.4  bouyer 	/* after the tables we'll have:
    1.4  bouyer 	 *  - UAREA
    1.4  bouyer 	 *  - dummy user PGD (x86_64)
    1.4  bouyer 	 *  - HYPERVISOR_shared_info
    1.4  bouyer 	 *  - ISA I/O mem (if needed)
    1.4  bouyer 	 */
    1.4  bouyer 	mapsize += UPAGES * NBPG;
    1.4  bouyer #ifdef __x86_64__
    1.4  bouyer 	mapsize += NBPG;
    1.4  bouyer #endif
    1.4  bouyer 	mapsize += NBPG;
    1.2  bouyer
    1.2  bouyer #ifdef DOM0OPS
1.8.4.1    yamt 	if (xendomain_is_dom0()) {
    1.2  bouyer 		/* space for ISA I/O mem */
    1.4  bouyer 		mapsize += IOM_SIZE;
    1.4  bouyer 	}
    1.4  bouyer #endif
    1.4  bouyer 	/* at this point mapsize doens't include the table size */
    1.4  bouyer
    1.4  bouyer #ifdef __x86_64__
    1.4  bouyer 	count = TABLE_L2_ENTRIES;
    1.4  bouyer #else
    1.4  bouyer 	count = (mapsize + (NBPD_L2 -1)) >> L2_SHIFT;
    1.4  bouyer #endif /* __x86_64__ */
    1.4  bouyer
    1.4  bouyer 	/* now compute how many L2 pages we need exactly */
    1.4  bouyer 	XENPRINTK(("bootstrap_final mapsize 0x%lx count %d\n", mapsize, count));
    1.4  bouyer 	while (mapsize + (count + l2_4_count) * PAGE_SIZE + KERNTEXTOFF >
    1.4  bouyer 	    ((long)count << L2_SHIFT) + KERNBASE) {
    1.4  bouyer 		count++;
    1.2  bouyer 	}
    1.4  bouyer #ifndef __x86_64__
    1.5  bouyer 	/*
    1.5  bouyer 	 * one more L2 page: we'll alocate several pages after kva_start
    1.5  bouyer 	 * in pmap_bootstrap() before pmap_growkernel(), which have not been
    1.5  bouyer 	 * counted here. It's not a big issue to allocate one more L2 as
    1.5  bouyer 	 * pmap_growkernel() will be called anyway.
    1.5  bouyer 	 */
    1.5  bouyer 	count++;
    1.4  bouyer 	nkptp[1] = count;
    1.2  bouyer #endif
    1.2  bouyer
    1.4  bouyer 	/*
    1.4  bouyer 	 * install bootstrap pages. We may need more L2 pages than will
    1.4  bouyer 	 * have the final table here, as it's installed after the final table
    1.4  bouyer 	 */
    1.4  bouyer 	oldcount = count;
    1.4  bouyer
    1.4  bouyer bootstrap_again:
    1.4  bouyer 	XENPRINTK(("bootstrap_again oldcount %d\n", oldcount));
    1.2  bouyer 	/*
    1.2  bouyer 	 * Xen space we'll reclaim may not be enough for our new page tables,
    1.2  bouyer 	 * move bootstrap tables if necessary
    1.2  bouyer 	 */
    1.4  bouyer 	if (bootstrap_tables < init_tables + ((count + l2_4_count) * PAGE_SIZE))
    1.2  bouyer 		bootstrap_tables = init_tables +
    1.4  bouyer 					((count + l2_4_count) * PAGE_SIZE);
    1.4  bouyer 	/* make sure we have enough to map the bootstrap_tables */
    1.4  bouyer 	if (bootstrap_tables + ((oldcount + l2_4_count) * PAGE_SIZE) >
    1.4  bouyer 	    ((long)oldcount << L2_SHIFT) + KERNBASE) {
    1.4  bouyer 		oldcount++;
    1.4  bouyer 		goto bootstrap_again;
    1.4  bouyer 	}
    1.2  bouyer
    1.2  bouyer 	/* Create temporary tables */
    1.2  bouyer 	xen_bootstrap_tables(xen_start_info.pt_base, bootstrap_tables,
    1.4  bouyer 		xen_start_info.nr_pt_frames, oldcount, 0);
    1.2  bouyer
    1.2  bouyer 	/* Create final tables */
    1.2  bouyer 	xen_bootstrap_tables(bootstrap_tables, init_tables,
    1.4  bouyer 	    oldcount + l2_4_count, count, 1);
    1.2  bouyer
    1.4  bouyer 	/* zero out free space after tables */
    1.4  bouyer 	memset((void *)(init_tables + ((count + l2_4_count) * PAGE_SIZE)), 0,
    1.4  bouyer 	    (UPAGES + 1) * NBPG);
    1.4  bouyer 	return (init_tables + ((count + l2_4_count) * PAGE_SIZE));
    1.2  bouyer }
    1.2  bouyer
    1.2  bouyer
    1.2  bouyer /*
    1.2  bouyer  * Build a new table and switch to it
    1.2  bouyer  * old_count is # of old tables (including PGD, PDTPE and PDE)
    1.2  bouyer  * new_count is # of new tables (PTE only)
    1.2  bouyer  * we assume areas don't overlap
    1.2  bouyer  */
    1.2  bouyer
    1.2  bouyer
    1.2  bouyer static void
    1.2  bouyer xen_bootstrap_tables (vaddr_t old_pgd, vaddr_t new_pgd,
    1.2  bouyer 	int old_count, int new_count, int final)
    1.2  bouyer {
    1.2  bouyer 	pd_entry_t *pdtpe, *pde, *pte;
    1.2  bouyer 	pd_entry_t *cur_pgd, *bt_pgd;
    1.6  bouyer 	paddr_t addr;
    1.6  bouyer 	vaddr_t page, avail, text_end, map_end;
    1.2  bouyer 	int i;
    1.2  bouyer 	extern char __data_start;
    1.2  bouyer
1.8.4.4    yamt 	__PRINTK(("xen_bootstrap_tables(%#" PRIxVADDR ", %#" PRIxVADDR ","
1.8.4.4    yamt 	    " %d, %d)\n",
    1.2  bouyer 	    old_pgd, new_pgd, old_count, new_count));
    1.2  bouyer 	text_end = ((vaddr_t)&__data_start) & ~PAGE_MASK;
    1.2  bouyer 	/*
    1.2  bouyer 	 * size of R/W area after kernel text:
    1.2  bouyer 	 *  xencons_interface (if present)
    1.2  bouyer 	 *  xenstore_interface (if present)
    1.6  bouyer 	 *  table pages (new_count + l2_4_count entries)
    1.2  bouyer 	 * extra mappings (only when final is true):
    1.4  bouyer 	 *  UAREA
    1.4  bouyer 	 *  dummy user PGD (x86_64 only)/gdt page (i386 only)
    1.2  bouyer 	 *  HYPERVISOR_shared_info
    1.2  bouyer 	 *  ISA I/O mem (if needed)
    1.2  bouyer 	 */
    1.6  bouyer 	map_end = new_pgd + ((new_count + l2_4_count) * NBPG);
    1.2  bouyer 	if (final) {
    1.4  bouyer 		map_end += (UPAGES + 1) * NBPG;
    1.4  bouyer 		HYPERVISOR_shared_info = (shared_info_t *)map_end;
    1.2  bouyer 		map_end += NBPG;
    1.2  bouyer 	}
    1.4  bouyer 	/*
    1.4  bouyer 	 * we always set atdevbase, as it's used by init386 to find the first
    1.4  bouyer 	 * available VA. map_end is updated only if we are dom0, so
    1.4  bouyer 	 * atdevbase -> atdevbase + IOM_SIZE will be mapped only in
    1.4  bouyer 	 * this case.
    1.4  bouyer 	 */
    1.4  bouyer 	if (final)
    1.4  bouyer 		atdevbase = map_end;
    1.2  bouyer #ifdef DOM0OPS
1.8.4.1    yamt 	if (final && xendomain_is_dom0()) {
    1.2  bouyer 		/* ISA I/O mem */
    1.2  bouyer 		map_end += IOM_SIZE;
    1.2  bouyer 	}
    1.2  bouyer #endif /* DOM0OPS */
    1.2  bouyer
    1.2  bouyer 	__PRINTK(("xen_bootstrap_tables text_end 0x%lx map_end 0x%lx\n",
    1.2  bouyer 	    text_end, map_end));
1.8.4.4    yamt 	__PRINTK(("console %#lx ", xen_start_info.console_mfn));
1.8.4.4    yamt 	__PRINTK(("xenstore %#" PRIx32 "\n", xen_start_info.store_mfn));
    1.2  bouyer
    1.2  bouyer 	/*
    1.2  bouyer 	 * Create bootstrap page tables
    1.2  bouyer 	 * What we need:
    1.2  bouyer 	 * - a PGD (level 4)
    1.2  bouyer 	 * - a PDTPE (level 3)
    1.2  bouyer 	 * - a PDE (level2)
    1.2  bouyer 	 * - some PTEs (level 1)
    1.2  bouyer 	 */
    1.2  bouyer
    1.2  bouyer 	cur_pgd = (pd_entry_t *) old_pgd;
    1.2  bouyer 	bt_pgd = (pd_entry_t *) new_pgd;
    1.2  bouyer 	memset (bt_pgd, 0, PAGE_SIZE);
    1.2  bouyer 	avail = new_pgd + PAGE_SIZE;
    1.4  bouyer #if PTP_LEVELS > 3
    1.2  bouyer 	/* Install level 3 */
    1.2  bouyer 	pdtpe = (pd_entry_t *) avail;
    1.2  bouyer 	memset (pdtpe, 0, PAGE_SIZE);
    1.2  bouyer 	avail += PAGE_SIZE;
    1.2  bouyer
    1.6  bouyer 	addr = ((u_long) pdtpe) - KERNBASE;
    1.2  bouyer 	bt_pgd[pl4_pi(KERNTEXTOFF)] =
    1.4  bouyer 	    xpmap_ptom_masked(addr) | PG_k | PG_RW | PG_V;
    1.2  bouyer
1.8.4.4    yamt 	__PRINTK(("L3 va %#lx pa %#" PRIxPADDR " entry %#" PRIxPADDR
1.8.4.4    yamt 	    " -> L4[%#x]\n",
1.8.4.4    yamt 	    pdtpe, addr, bt_pgd[pl4_pi(KERNTEXTOFF)], pl4_pi(KERNTEXTOFF)));
    1.4  bouyer #else
    1.4  bouyer 	pdtpe = bt_pgd;
    1.4  bouyer #endif /* PTP_LEVELS > 3 */
    1.2  bouyer
    1.4  bouyer #if PTP_LEVELS > 2
    1.2  bouyer 	/* Level 2 */
    1.2  bouyer 	pde = (pd_entry_t *) avail;
    1.2  bouyer 	memset(pde, 0, PAGE_SIZE);
    1.2  bouyer 	avail += PAGE_SIZE;
    1.2  bouyer
    1.6  bouyer 	addr = ((u_long) pde) - KERNBASE;
    1.2  bouyer 	pdtpe[pl3_pi(KERNTEXTOFF)] =
    1.6  bouyer 	    xpmap_ptom_masked(addr) | PG_k | PG_V | PG_RW;
1.8.4.4    yamt 	__PRINTK(("L2 va %#lx pa %#" PRIxPADDR " entry %#" PRIxPADDR
1.8.4.4    yamt 	    " -> L3[%#x]\n",
1.8.4.4    yamt 	    pde, addr, pdtpe[pl3_pi(KERNTEXTOFF)], pl3_pi(KERNTEXTOFF)));
    1.6  bouyer #elif defined(PAE)
    1.6  bouyer 	/* our PAE-style level 2: 5 contigous pages (4 L2 + 1 shadow) */
    1.6  bouyer 	pde = (pd_entry_t *) avail;
    1.6  bouyer 	memset(pde, 0, PAGE_SIZE * 5);
    1.6  bouyer 	avail += PAGE_SIZE * 5;
    1.6  bouyer 	addr = ((u_long) pde) - KERNBASE;
    1.6  bouyer 	/*
    1.6  bouyer 	 * enter L2 pages in the L3.
    1.6  bouyer 	 * The real L2 kernel PD will be the last one (so that
    1.6  bouyer 	 * pde[L2_SLOT_KERN] always point to the shadow).
    1.6  bouyer 	 */
    1.6  bouyer 	for (i = 0; i < 3; i++, addr += PAGE_SIZE) {
    1.6  bouyer 		/*
    1.6  bouyer 		 * Xen doens't want R/W mappings in L3 entries, it'll add it
    1.6  bouyer 		 * itself.
    1.6  bouyer 		 */
    1.6  bouyer 		pdtpe[i] = xpmap_ptom_masked(addr) | PG_k | PG_V;
1.8.4.4    yamt 		__PRINTK(("L2 va %#lx pa %#" PRIxPADDR " entry %#" PRIxPADDR
1.8.4.4    yamt 		    " -> L3[%#x]\n",
1.8.4.4    yamt 		    (vaddr_t)pde + PAGE_SIZE * i, addr, pdtpe[i], i));
    1.6  bouyer 	}
    1.6  bouyer 	addr += PAGE_SIZE;
    1.6  bouyer 	pdtpe[3] = xpmap_ptom_masked(addr) | PG_k | PG_V;
1.8.4.4    yamt 	__PRINTK(("L2 va %#lx pa %#" PRIxPADDR " entry %#" PRIxPADDR
1.8.4.4    yamt 	    " -> L3[%#x]\n",
1.8.4.4    yamt 	    (vaddr_t)pde + PAGE_SIZE * 4, addr, pdtpe[3], 3));
    1.6  bouyer
    1.6  bouyer #else /* PAE */
    1.4  bouyer 	pde = bt_pgd;
    1.6  bouyer #endif /* PTP_LEVELS > 2 */
    1.2  bouyer
    1.2  bouyer 	/* Level 1 */
    1.2  bouyer 	page = KERNTEXTOFF;
    1.2  bouyer 	for (i = 0; i < new_count; i ++) {
    1.6  bouyer 		vaddr_t cur_page = page;
    1.2  bouyer
    1.2  bouyer 		pte = (pd_entry_t *) avail;
    1.2  bouyer 		avail += PAGE_SIZE;
    1.2  bouyer
    1.2  bouyer 		memset(pte, 0, PAGE_SIZE);
    1.2  bouyer 		while (pl2_pi(page) == pl2_pi (cur_page)) {
    1.2  bouyer 			if (page >= map_end) {
    1.2  bouyer 				/* not mapped at all */
    1.2  bouyer 				pte[pl1_pi(page)] = 0;
    1.2  bouyer 				page += PAGE_SIZE;
    1.2  bouyer 				continue;
    1.2  bouyer 			}
    1.2  bouyer 			pte[pl1_pi(page)] = xpmap_ptom_masked(page - KERNBASE);
    1.2  bouyer 			if (page == (vaddr_t)HYPERVISOR_shared_info) {
    1.2  bouyer 				pte[pl1_pi(page)] = xen_start_info.shared_info;
    1.2  bouyer 				__PRINTK(("HYPERVISOR_shared_info "
1.8.4.4    yamt 				    "va %#lx pte %#" PRIxPADDR "\n",
1.8.4.4    yamt 				    HYPERVISOR_shared_info, pte[pl1_pi(page)]));
    1.2  bouyer 			}
    1.7  bouyer 			if ((xpmap_ptom_masked(page - KERNBASE) >> PAGE_SHIFT)
1.8.4.1    yamt 			    == xen_start_info.console.domU.mfn) {
    1.2  bouyer 				xencons_interface = (void *)page;
1.8.4.4    yamt 				pte[pl1_pi(page)] = xen_start_info.console_mfn;
    1.6  bouyer 				pte[pl1_pi(page)] <<= PAGE_SHIFT;
    1.2  bouyer 				__PRINTK(("xencons_interface "
1.8.4.4    yamt 				    "va %#lx pte %#" PRIxPADDR "\n",
1.8.4.4    yamt 				    xencons_interface, pte[pl1_pi(page)]));
    1.2  bouyer 			}
    1.7  bouyer 			if ((xpmap_ptom_masked(page - KERNBASE) >> PAGE_SHIFT)
    1.7  bouyer 			    == xen_start_info.store_mfn) {
    1.2  bouyer 				xenstore_interface = (void *)page;
    1.6  bouyer 				pte[pl1_pi(page)] = xen_start_info.store_mfn;
    1.6  bouyer 				pte[pl1_pi(page)] <<= PAGE_SHIFT;
    1.2  bouyer 				__PRINTK(("xenstore_interface "
1.8.4.4    yamt 				    "va %#lx pte %#" PRIxPADDR "\n",
1.8.4.4    yamt 				    xenstore_interface, pte[pl1_pi(page)]));
    1.2  bouyer 			}
    1.2  bouyer #ifdef DOM0OPS
    1.2  bouyer 			if (page >= (vaddr_t)atdevbase &&
    1.2  bouyer 			    page < (vaddr_t)atdevbase + IOM_SIZE) {
    1.2  bouyer 				pte[pl1_pi(page)] =
    1.2  bouyer 				    IOM_BEGIN + (page - (vaddr_t)atdevbase);
    1.2  bouyer 			}
    1.2  bouyer #endif
    1.4  bouyer 			pte[pl1_pi(page)] |= PG_k | PG_V;
    1.2  bouyer 			if (page < text_end) {
    1.2  bouyer 				/* map kernel text RO */
    1.2  bouyer 				pte[pl1_pi(page)] |= 0;
    1.2  bouyer 			} else if (page >= old_pgd
    1.2  bouyer 			    && page < old_pgd + (old_count * PAGE_SIZE)) {
    1.2  bouyer 				/* map old page tables RO */
    1.2  bouyer 				pte[pl1_pi(page)] |= 0;
    1.2  bouyer 			} else if (page >= new_pgd &&
    1.6  bouyer 			    page < new_pgd + ((new_count + l2_4_count) * PAGE_SIZE)) {
    1.2  bouyer 				/* map new page tables RO */
    1.2  bouyer 				pte[pl1_pi(page)] |= 0;
    1.2  bouyer 			} else {
    1.2  bouyer 				/* map page RW */
    1.2  bouyer 				pte[pl1_pi(page)] |= PG_RW;
    1.2  bouyer 			}
    1.6  bouyer
1.8.4.1    yamt 			if ((page  >= old_pgd && page < old_pgd + (old_count * PAGE_SIZE))
1.8.4.1    yamt 			    || page >= new_pgd) {
1.8.4.4    yamt 				__PRINTK(("va %#lx pa %#lx "
1.8.4.4    yamt 				    "entry 0x%" PRIxPADDR " -> L1[%#x]\n",
    1.2  bouyer 				    page, page - KERNBASE,
1.8.4.4    yamt 				    pte[pl1_pi(page)], pl1_pi(page)));
1.8.4.1    yamt 			}
    1.2  bouyer 			page += PAGE_SIZE;
    1.2  bouyer 		}
    1.2  bouyer
    1.6  bouyer 		addr = ((u_long) pte) - KERNBASE;
    1.2  bouyer 		pde[pl2_pi(cur_page)] =
    1.4  bouyer 		    xpmap_ptom_masked(addr) | PG_k | PG_RW | PG_V;
1.8.4.4    yamt 		__PRINTK(("L1 va %#lx pa %#" PRIxPADDR " entry %#" PRIxPADDR
1.8.4.4    yamt 		    " -> L2[%#x]\n",
1.8.4.4    yamt 		    pte, addr, pde[pl2_pi(cur_page)], pl2_pi(cur_page)));
    1.2  bouyer 		/* Mark readonly */
    1.2  bouyer 		xen_bt_set_readonly((vaddr_t) pte);
    1.2  bouyer 	}
    1.2  bouyer
    1.2  bouyer 	/* Install recursive page tables mapping */
    1.6  bouyer #ifdef PAE
    1.6  bouyer 	/*
    1.6  bouyer 	 * we need a shadow page for the kernel's L2 page
    1.6  bouyer 	 * The real L2 kernel PD will be the last one (so that
    1.6  bouyer 	 * pde[L2_SLOT_KERN] always point to the shadow.
    1.6  bouyer 	 */
    1.6  bouyer 	memcpy(&pde[L2_SLOT_KERN + NPDPG], &pde[L2_SLOT_KERN], PAGE_SIZE);
    1.6  bouyer 	pmap_kl2pd = &pde[L2_SLOT_KERN + NPDPG];
    1.6  bouyer 	pmap_kl2paddr = (u_long)pmap_kl2pd - KERNBASE;
    1.6  bouyer
    1.6  bouyer 	/*
    1.6  bouyer 	 * We don't enter a recursive entry from the L3 PD. Instead,
    1.6  bouyer 	 * we enter the first 4 L2 pages, which includes the kernel's L2
    1.6  bouyer 	 * shadow. But we have to entrer the shadow after switching
    1.6  bouyer 	 * %cr3, or Xen will refcount some PTE with the wrong type.
    1.6  bouyer 	 */
    1.6  bouyer 	addr = (u_long)pde - KERNBASE;
    1.6  bouyer 	for (i = 0; i < 3; i++, addr += PAGE_SIZE) {
    1.6  bouyer 		pde[PDIR_SLOT_PTE + i] = xpmap_ptom_masked(addr) | PG_k | PG_V;
1.8.4.4    yamt 		__PRINTK(("pde[%d] va %#" PRIxVADDR " pa %#" PRIxPADDR
1.8.4.4    yamt 		    " entry %#" PRIxPADDR "\n",
1.8.4.4    yamt 		    (int)(PDIR_SLOT_PTE + i), pde + PAGE_SIZE * i,
1.8.4.4    yamt 		    addr, pde[PDIR_SLOT_PTE + i]));
    1.6  bouyer 	}
    1.6  bouyer #if 0
    1.6  bouyer 	addr += PAGE_SIZE; /* point to shadow L2 */
    1.6  bouyer 	pde[PDIR_SLOT_PTE + 3] = xpmap_ptom_masked(addr) | PG_k | PG_V;
    1.6  bouyer 	__PRINTK(("pde[%d] va 0x%lx pa 0x%lx entry 0x%" PRIx64 "\n",
    1.6  bouyer 	    (int)(PDIR_SLOT_PTE + 3), pde + PAGE_SIZE * 4, (long)addr,
    1.6  bouyer 	    (int64_t)pde[PDIR_SLOT_PTE + 3]));
    1.6  bouyer #endif
1.8.4.3    yamt 	/* Mark tables RO, and pin the kernel's shadow as L2 */
    1.6  bouyer 	addr = (u_long)pde - KERNBASE;
    1.6  bouyer 	for (i = 0; i < 5; i++, addr += PAGE_SIZE) {
    1.6  bouyer 		xen_bt_set_readonly(((vaddr_t)pde) + PAGE_SIZE * i);
    1.6  bouyer 		if (i == 2 || i == 3)
    1.6  bouyer 			continue;
    1.6  bouyer #if 0
    1.6  bouyer 		__PRINTK(("pin L2 %d addr 0x%" PRIx64 "\n", i, (int64_t)addr));
    1.6  bouyer 		xpq_queue_pin_table(xpmap_ptom_masked(addr));
    1.6  bouyer #endif
    1.6  bouyer 	}
    1.6  bouyer 	if (final) {
    1.6  bouyer 		addr = (u_long)pde - KERNBASE + 3 * PAGE_SIZE;
1.8.4.4    yamt 		__PRINTK(("pin L2 %d addr %#" PRIxPADDR "\n", 2, addr));
    1.6  bouyer 		xpq_queue_pin_table(xpmap_ptom_masked(addr));
    1.6  bouyer 	}
    1.6  bouyer #if 0
    1.6  bouyer 	addr = (u_long)pde - KERNBASE + 2 * PAGE_SIZE;
    1.6  bouyer 	__PRINTK(("pin L2 %d addr 0x%" PRIx64 "\n", 2, (int64_t)addr));
    1.6  bouyer 	xpq_queue_pin_table(xpmap_ptom_masked(addr));
    1.6  bouyer #endif
    1.6  bouyer #else /* PAE */
    1.6  bouyer 	/* recursive entry in higher-level PD */
    1.2  bouyer 	bt_pgd[PDIR_SLOT_PTE] =
    1.4  bouyer 	    xpmap_ptom_masked(new_pgd - KERNBASE) | PG_k | PG_V;
1.8.4.4    yamt 	__PRINTK(("bt_pgd[PDIR_SLOT_PTE] va %#" PRIxVADDR " pa %#" PRIxPADDR
1.8.4.4    yamt 	    " entry %#" PRIxPADDR "\n", new_pgd, (paddr_t)new_pgd - KERNBASE,
1.8.4.4    yamt 	    bt_pgd[PDIR_SLOT_PTE]));
    1.2  bouyer 	/* Mark tables RO */
    1.2  bouyer 	xen_bt_set_readonly((vaddr_t) pde);
    1.6  bouyer #endif
    1.6  bouyer #if PTP_LEVELS > 2 || defined(PAE)
    1.2  bouyer 	xen_bt_set_readonly((vaddr_t) pdtpe);
    1.4  bouyer #endif
    1.4  bouyer #if PTP_LEVELS > 3
    1.2  bouyer 	xen_bt_set_readonly(new_pgd);
    1.4  bouyer #endif
    1.2  bouyer 	/* Pin the PGD */
1.8.4.3    yamt 	__PRINTK(("pin PGD\n"));
    1.6  bouyer #ifdef PAE
    1.6  bouyer 	xpq_queue_pin_l3_table(xpmap_ptom_masked(new_pgd - KERNBASE));
    1.6  bouyer #else
    1.2  bouyer 	xpq_queue_pin_table(xpmap_ptom_masked(new_pgd - KERNBASE));
    1.6  bouyer #endif
    1.4  bouyer #ifdef __i386__
    1.4  bouyer 	/* Save phys. addr of PDP, for libkvm. */
    1.6  bouyer 	PDPpaddr = (long)pde;
    1.6  bouyer #ifdef PAE
    1.6  bouyer 	/* also save the address of the L3 page */
    1.6  bouyer 	pmap_l3pd = pdtpe;
    1.6  bouyer 	pmap_l3paddr = (new_pgd - KERNBASE);
    1.6  bouyer #endif /* PAE */
    1.6  bouyer #endif /* i386 */
    1.2  bouyer 	/* Switch to new tables */
1.8.4.3    yamt 	__PRINTK(("switch to PGD\n"));
    1.2  bouyer 	xpq_queue_pt_switch(xpmap_ptom_masked(new_pgd - KERNBASE));
1.8.4.4    yamt 	__PRINTK(("bt_pgd[PDIR_SLOT_PTE] now entry %#" PRIxPADDR "\n",
1.8.4.4    yamt 	    bt_pgd[PDIR_SLOT_PTE]));
    1.6  bouyer #ifdef PAE
    1.6  bouyer 	if (final) {
    1.6  bouyer 		/* now enter kernel's PTE mappings */
    1.6  bouyer 		addr =  (u_long)pde - KERNBASE + PAGE_SIZE * 3;
    1.6  bouyer 		xpq_queue_pte_update(
    1.6  bouyer 		    xpmap_ptom(((vaddr_t)&pde[PDIR_SLOT_PTE + 3]) - KERNBASE),
    1.6  bouyer 		    xpmap_ptom_masked(addr) | PG_k | PG_V);
    1.6  bouyer 		xpq_flush_queue();
    1.6  bouyer 	}
    1.6  bouyer #endif
    1.6  bouyer
    1.6  bouyer
    1.2  bouyer
    1.2  bouyer 	/* Now we can safely reclaim space taken by old tables */
    1.2  bouyer
1.8.4.3    yamt 	__PRINTK(("unpin old PGD\n"));
    1.2  bouyer 	/* Unpin old PGD */
    1.2  bouyer 	xpq_queue_unpin_table(xpmap_ptom_masked(old_pgd - KERNBASE));
    1.2  bouyer 	/* Mark old tables RW */
    1.2  bouyer 	page = old_pgd;
    1.2  bouyer 	addr = (paddr_t) pde[pl2_pi(page)] & PG_FRAME;
    1.2  bouyer 	addr = xpmap_mtop(addr);
    1.6  bouyer 	pte = (pd_entry_t *) ((u_long)addr + KERNBASE);
    1.2  bouyer 	pte += pl1_pi(page);
1.8.4.4    yamt 	__PRINTK(("*pde %#" PRIxPADDR " addr %#" PRIxPADDR " pte %#lx\n",
1.8.4.4    yamt 	    pde[pl2_pi(page)], addr, (long)pte));
    1.2  bouyer 	while (page < old_pgd + (old_count * PAGE_SIZE) && page < map_end) {
    1.6  bouyer 		addr = xpmap_ptom(((u_long) pte) - KERNBASE);
1.8.4.4    yamt 		XENPRINTK(("addr %#" PRIxPADDR " pte %#lx "
1.8.4.4    yamt 		   "*pte %#" PRIxPADDR "\n",
1.8.4.4    yamt 		   addr, (long)pte, *pte));
    1.6  bouyer 		xpq_queue_pte_update(addr, *pte | PG_RW);
    1.2  bouyer 		page += PAGE_SIZE;
    1.2  bouyer 		/*
    1.2  bouyer 		 * Our ptes are contiguous
    1.2  bouyer 		 * so it's safe to just "++" here
    1.2  bouyer 		 */
    1.2  bouyer 		pte++;
    1.2  bouyer 	}
    1.2  bouyer 	xpq_flush_queue();
    1.2  bouyer }
    1.2  bouyer
    1.2  bouyer
    1.2  bouyer /*
    1.2  bouyer  * Bootstrap helper functions
    1.2  bouyer  */
    1.2  bouyer
    1.2  bouyer /*
    1.2  bouyer  * Mark a page readonly
    1.2  bouyer  * XXX: assuming vaddr = paddr + KERNBASE
    1.2  bouyer  */
    1.2  bouyer
    1.2  bouyer static void
    1.2  bouyer xen_bt_set_readonly (vaddr_t page)
    1.2  bouyer {
    1.2  bouyer 	pt_entry_t entry;
    1.2  bouyer
    1.2  bouyer 	entry = xpmap_ptom_masked(page - KERNBASE);
    1.4  bouyer 	entry |= PG_k | PG_V;
    1.2  bouyer
    1.2  bouyer 	HYPERVISOR_update_va_mapping (page, entry, UVMF_INVLPG);
    1.2  bouyer }
    1.4  bouyer
    1.4  bouyer #ifdef __x86_64__
    1.4  bouyer void
    1.4  bouyer xen_set_user_pgd(paddr_t page)
    1.4  bouyer {
    1.4  bouyer 	struct mmuext_op op;
    1.4  bouyer 	int s = splvm();
    1.4  bouyer
    1.4  bouyer 	xpq_flush_queue();
    1.4  bouyer 	op.cmd = MMUEXT_NEW_USER_BASEPTR;
    1.4  bouyer 	op.arg1.mfn = xpmap_phys_to_machine_mapping[page >> PAGE_SHIFT];
    1.4  bouyer         if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0)
    1.4  bouyer 		panic("xen_set_user_pgd: failed to install new user page"
1.8.4.4    yamt 			" directory %#" PRIxPADDR, page);
    1.4  bouyer 	splx(s);
    1.4  bouyer }
    1.4  bouyer #endif /* __x86_64__ */