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[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] Re: [Xen-devel] [PATCH] Provide support for multiple frame buffers in Xen
On Mon, Jan 21, 2013 at 02:28:29PM -0500, Robert Phillips wrote:
> Support is provided for both shadow and hardware assisted paging (HAP)
> modes. This code bookkeeps the set of video frame buffers (vram),
> detects when the guest has modified any of those buffers and, upon request,
> returns a bitmap of the modified pages.
> This lets other software components re-paint the portions of the monitor
> (or monitors) that have changed.
> Each monitor has a frame buffer of some size at some position
> in guest physical memory.
> The set of frame buffers being tracked can change over time as monitors
> are plugged and unplugged.
>
Hello,
I think this patch has been submitted multiple times already,
so if you still need to submit it again please add a "version" string to the
subject,
and also a changelog.. it helps understanding the changes.
Thanks,
-- Pasi
> Signed-Off-By: Robert Phillips <robert.phillips@xxxxxxxxxx>
> ---
> tools/libxc/xenctrl.h | 20 +-
> xen/arch/x86/hvm/hvm.c | 9 +-
> xen/arch/x86/mm/Makefile | 1 +
> xen/arch/x86/mm/dirty_vram.c | 866
> ++++++++++++++++++++++++++++++++++++++
> xen/arch/x86/mm/hap/hap.c | 111 -----
> xen/arch/x86/mm/p2m.c | 11 +-
> xen/arch/x86/mm/paging.c | 57 ++-
> xen/arch/x86/mm/shadow/common.c | 335 ++++++++-------
> xen/arch/x86/mm/shadow/multi.c | 174 ++++----
> xen/arch/x86/mm/shadow/multi.h | 7 +-
> xen/arch/x86/mm/shadow/types.h | 1 +
> xen/include/asm-x86/dirty_vram.h | 202 +++++++++
> xen/include/asm-x86/hap.h | 4 -
> xen/include/asm-x86/hvm/domain.h | 2 +-
> xen/include/asm-x86/paging.h | 15 +-
> xen/include/asm-x86/shadow.h | 6 -
> 16 files changed, 1424 insertions(+), 397 deletions(-)
> create mode 100644 xen/arch/x86/mm/dirty_vram.c
> create mode 100644 xen/include/asm-x86/dirty_vram.h
>
> diff --git a/tools/libxc/xenctrl.h b/tools/libxc/xenctrl.h
> index 32122fd..cd4e1ef 100644
> --- a/tools/libxc/xenctrl.h
> +++ b/tools/libxc/xenctrl.h
> @@ -1563,15 +1563,23 @@ int xc_hvm_inject_msi(
> xc_interface *xch, domid_t dom, uint64_t addr, uint32_t data);
>
> /*
> - * Track dirty bit changes in the VRAM area
> + * Track dirty bit changes in a VRAM region defined by
> + * [ first_pfn : first_pfn + nr - 1 ]
> *
> * All of this is done atomically:
> - * - get the dirty bitmap since the last call
> - * - set up dirty tracking area for period up to the next call
> - * - clear the dirty tracking area.
> + * - gets the dirty bitmap since the last call, all zeroes for
> + * the first call with some new region
> + * - sets up a dirty tracking region for period up to the next call
> + * - clears the specified dirty tracking region.
> *
> - * Returns -ENODATA and does not fill bitmap if the area has changed since
> the
> - * last call.
> + * Creating a new region causes any existing regions that it overlaps
> + * to be discarded.
> + *
> + * Specifying nr == 0 causes all regions to be discarded and
> + * disables dirty bit tracking.
> + *
> + * If nr is not a multiple of 64, only the first nr bits of bitmap
> + * are well defined.
> */
> int xc_hvm_track_dirty_vram(
> xc_interface *xch, domid_t dom,
> diff --git a/xen/arch/x86/hvm/hvm.c b/xen/arch/x86/hvm/hvm.c
> index 40c1ab2..8ddb91d 100644
> --- a/xen/arch/x86/hvm/hvm.c
> +++ b/xen/arch/x86/hvm/hvm.c
> @@ -57,6 +57,7 @@
> #include <asm/hvm/cacheattr.h>
> #include <asm/hvm/trace.h>
> #include <asm/hvm/nestedhvm.h>
> +#include <asm/dirty_vram.h>
> #include <asm/mtrr.h>
> #include <asm/apic.h>
> #include <public/sched.h>
> @@ -66,6 +67,7 @@
> #include <asm/mem_event.h>
> #include <asm/mem_access.h>
> #include <public/mem_event.h>
> +#include "../mm/mm-locks.h"
>
> bool_t __read_mostly hvm_enabled;
>
> @@ -1433,8 +1435,11 @@ int hvm_hap_nested_page_fault(paddr_t gpa,
> */
> if ( access_w )
> {
> - paging_mark_dirty(v->domain, mfn_x(mfn));
> - p2m_change_type(v->domain, gfn, p2m_ram_logdirty, p2m_ram_rw);
> + if ( p2m_change_type(v->domain, gfn, p2m_ram_logdirty,
> + p2m_ram_rw) == p2m_ram_logdirty )
> + {
> + paging_mark_dirty_gpfn(v->domain, gfn);
> + }
> }
> rc = 1;
> goto out_put_gfn;
> diff --git a/xen/arch/x86/mm/Makefile b/xen/arch/x86/mm/Makefile
> index 73dcdf4..becd0c9 100644
> --- a/xen/arch/x86/mm/Makefile
> +++ b/xen/arch/x86/mm/Makefile
> @@ -5,6 +5,7 @@ obj-y += paging.o
> obj-y += p2m.o p2m-pt.o p2m-ept.o p2m-pod.o
> obj-y += guest_walk_2.o
> obj-y += guest_walk_3.o
> +obj-y += dirty_vram.o
> obj-$(x86_64) += guest_walk_4.o
> obj-$(x86_64) += mem_event.o
> obj-$(x86_64) += mem_paging.o
> diff --git a/xen/arch/x86/mm/dirty_vram.c b/xen/arch/x86/mm/dirty_vram.c
> new file mode 100644
> index 0000000..75465ca
> --- /dev/null
> +++ b/xen/arch/x86/mm/dirty_vram.c
> @@ -0,0 +1,866 @@
> +/*
> + * arch/x86/mm/dirty_vram.c: Bookkeep/query dirty VRAM pages
> + * with support for multiple frame buffers.
> + *
> + * Copyright (c) 2012, Citrix Systems, Inc. (Robert Phillips)
> + * Parts of this code are Copyright (c) 2007 Advanced Micro Devices (Wei
> Huang)
> + * Parts of this code are Copyright (c) 2007 XenSource Inc.
> + * Parts of this code are Copyright (c) 2006 by Michael A Fetterman
> + * Parts based on earlier work by Michael A Fetterman, Ian Pratt et al.
> + *
> + * This program is free software; you can redistribute it and/or modify it
> + * under the terms and conditions of the GNU General Public License,
> + * version 2, as published by the Free Software Foundation.
> + *
> + * This program is distributed in the hope it will be useful, but WITHOUT
> + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
> + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
> + * more details.
> + *
> + * You should have received a copy of the GNU General Public License along
> with
> + * this program; if not, write to the Free Software Foundation, Inc., 59
> Temple
> + * Place - Suite 330, Boston, MA 02111-1307 USA.
> + */
> +
> +
> +#include <xen/types.h>
> +#include <xen/sched.h>
> +#include <xen/guest_access.h>
> +#include <asm/shadow.h>
> +#include <asm/dirty_vram.h>
> +#include <asm/hap.h>
> +#include <asm/config.h>
> +#include "mm-locks.h"
> +
> +#define DEBUG_stop_tracking_all_vram 0
> +#define DEBUG_allocating_dirty_vram_range 0
> +#define DEBUG_high_water_mark_for_vram_ranges 0
> +#define DEBUG_freeing_dirty_vram_range 0
> +#define DEBUG_allocate_paddr_links_page 0
> +#define DEBUG_update_vram_mapping 0
> +#define DEBUG_alloc_paddr_inject_fault 0
> +#define DEBUG_link_limit_exceeded 0
> +
> +/* Allocates domain's dirty_vram structure */
> +dv_dirty_vram_t *
> +dirty_vram_alloc(struct domain *d)
> +{
> + dv_dirty_vram_t *dirty_vram;
> + ASSERT( paging_locked_by_me(d) );
> + dirty_vram = d->arch.hvm_domain.dirty_vram = xzalloc(dv_dirty_vram_t);
> + if ( dirty_vram )
> + {
> + INIT_LIST_HEAD(&dirty_vram->range_head);
> + INIT_LIST_HEAD(&dirty_vram->ext_head);
> + }
> + return dirty_vram;
> +}
> +
> +/*
> + * Returns domain's dirty_vram structure,
> + * allocating it if necessary
> + */
> +dv_dirty_vram_t *
> +dirty_vram_find_or_alloc(struct domain *d)
> +{
> + dv_dirty_vram_t *dirty_vram = d->arch.hvm_domain.dirty_vram;
> + ASSERT( paging_locked_by_me(d) );
> + if ( !dirty_vram )
> + dirty_vram = dirty_vram_alloc(d);
> + return dirty_vram;
> +}
> +
> +
> +/* Free domain's dirty_vram structure */
> +void dirty_vram_free(struct domain *d)
> +{
> + dv_dirty_vram_t *dirty_vram = d->arch.hvm_domain.dirty_vram;
> + ASSERT( paging_locked_by_me(d) );
> + if ( dirty_vram )
> + {
> + struct list_head *curr, *next;
> + /* Free all the ranges */
> + list_for_each_safe(curr, next, &dirty_vram->range_head)
> + {
> + dv_range_t *range = list_entry(curr, dv_range_t, range_link);
> +#if DEBUG_stop_tracking_all_vram
> + gdprintk(XENLOG_DEBUG, "[%05lx:%05lx] stop tracking all vram\n",
> + range->begin_pfn, range->end_pfn);
> +#endif
> + xfree(range->pl_tab);
> + xfree(range);
> + }
> + /* Free all the extension pages */
> + list_for_each_safe(curr, next, &dirty_vram->ext_head)
> + {
> + struct dv_paddr_link_ext *ext =
> + container_of(
> + curr, struct dv_paddr_link_ext, ext_link);
> + struct page_info *pg = __virt_to_page(ext);
> + unmap_domain_page(ext);
> + d->arch.paging.free_page(d, pg);
> + }
> +
> + xfree(dirty_vram);
> + d->arch.hvm_domain.dirty_vram = NULL;
> + }
> +}
> +
> +/* Returns dirty vram range containing gfn, NULL if none */
> +struct dv_range *
> +dirty_vram_range_find_gfn(struct domain *d,
> + unsigned long gfn)
> +{
> + struct dv_dirty_vram *dirty_vram = d->arch.hvm_domain.dirty_vram;
> + ASSERT( paging_locked_by_me(d) );
> + if ( dirty_vram )
> + {
> + struct list_head *curr;
> + list_for_each(curr, &dirty_vram->range_head)
> + {
> + dv_range_t *range = list_entry(curr, dv_range_t, range_link);
> + if ( gfn >= range->begin_pfn &&
> + gfn < range->end_pfn )
> + return range;
> + }
> + }
> + return NULL;
> +}
> +
> +/*
> + * Returns pointer to dirty vram range matching [begin_pfn .. end_pfn ),
> + * NULL if none.
> + */
> +dv_range_t *
> +dirty_vram_range_find(struct domain *d,
> + unsigned long begin_pfn,
> + unsigned long nr)
> +{
> + unsigned long end_pfn = begin_pfn + nr;
> + dv_dirty_vram_t *dirty_vram = d->arch.hvm_domain.dirty_vram;
> + ASSERT( paging_locked_by_me(d) );
> + if ( dirty_vram )
> + {
> + struct list_head *curr;
> + list_for_each(curr, &dirty_vram->range_head)
> + {
> + dv_range_t *range = list_entry(curr, dv_range_t, range_link);
> + if ( begin_pfn == range->begin_pfn &&
> + end_pfn == range->end_pfn )
> + return range;
> + }
> + }
> + return NULL;
> +}
> +
> +/* Allocate specified dirty_vram range */
> +static dv_range_t *
> +_dirty_vram_range_alloc(struct domain *d,
> + unsigned long begin_pfn,
> + unsigned long nr)
> +{
> + dv_dirty_vram_t *dirty_vram = d->arch.hvm_domain.dirty_vram;
> + dv_range_t *range = NULL;
> + unsigned long end_pfn = begin_pfn + nr;
> + dv_pl_entry_t *pl_tab = NULL;
> + int i;
> +
> + ASSERT( paging_locked_by_me(d) );
> + ASSERT( dirty_vram != NULL );
> +
> +#if DEBUG_allocating_dirty_vram_range
> + gdprintk(XENLOG_DEBUG,
> + "[%05lx:%05lx] Allocating dirty vram range hap:%d\n",
> + begin_pfn, end_pfn,
> + d->arch.hvm_domain.hap_enabled);
> +#endif
> +
> + range = xzalloc(dv_range_t);
> + if ( range == NULL )
> + goto err_out;
> +
> + INIT_LIST_HEAD(&range->range_link);
> +
> + range->begin_pfn = begin_pfn;
> + range->end_pfn = end_pfn;
> +
> + if ( !hap_enabled(d) )
> + {
> + if ( (pl_tab = xzalloc_array(dv_pl_entry_t, nr)) == NULL )
> + goto err_out;
> +
> + for ( i = 0; i != nr; i++ )
> + {
> + pl_tab[i].mapping.sl1ma = INVALID_PADDR;
> + }
> + }
> +
> + range->pl_tab = pl_tab;
> + range->mappings_hwm = 1;
> +
> + list_add(&range->range_link, &dirty_vram->range_head);
> + if ( ++dirty_vram->nr_ranges > dirty_vram->ranges_hwm )
> + {
> + dirty_vram->ranges_hwm = dirty_vram->nr_ranges;
> +#if DEBUG_high_water_mark_for_vram_ranges
> + gdprintk(XENLOG_DEBUG,
> + "High water mark for number of vram ranges is now:%d\n",
> + dirty_vram->ranges_hwm);
> +#endif
> + }
> + return range;
> +
> + err_out:
> + xfree(pl_tab);
> + xfree(range);
> + return NULL;
> +}
> +
> +
> +/* Frees specified dirty_vram range */
> +void dirty_vram_range_free(struct domain *d,
> + dv_range_t *range)
> +{
> + dv_dirty_vram_t *dirty_vram = d->arch.hvm_domain.dirty_vram;
> + ASSERT( paging_locked_by_me(d) );
> + if ( dirty_vram )
> + {
> + int i, nr = range->end_pfn - range->begin_pfn;
> +
> +#if DEBUG_freeing_dirty_vram_range
> + gdprintk(XENLOG_DEBUG,
> + "[%05lx:%05lx] Freeing dirty vram range\n",
> + range->begin_pfn, range->end_pfn);
> +#endif
> +
> + if ( range->pl_tab )
> + {
> + for ( i = 0; i != nr; i++ )
> + {
> + dv_paddr_link_t *plx;
> + plx = range->pl_tab[i].mapping.pl_next;
> + /* Does current FB page have multiple mappings? */
> + if ( plx ) /* yes */
> + {
> + /* Find the last element in singly-linked list */
> + while ( plx->pl_next != NULL )
> + plx = plx->pl_next;
> +
> + /* Prepend whole list to the free list */
> + plx->pl_next = dirty_vram->pl_free;
> + dirty_vram->pl_free = range->pl_tab[i].mapping.pl_next;
> + }
> + }
> + xfree(range->pl_tab);
> + range->pl_tab = NULL;
> + }
> +
> + /* Remove range from the linked list, free it, and adjust count*/
> + list_del(&range->range_link);
> + xfree(range);
> + dirty_vram->nr_ranges--;
> + }
> +}
> +
> +/*
> + * dirty_vram_range_alloc()
> + * This function ensures that the new range does not overlap any existing
> + * ranges -- deleting them if necessary -- and then calls
> + * _dirty_vram_range_alloc to actually allocate the new range.
> + */
> +dv_range_t *
> +dirty_vram_range_alloc(struct domain *d,
> + unsigned long begin_pfn,
> + unsigned long nr)
> +{
> + unsigned long end_pfn = begin_pfn + nr;
> + dv_dirty_vram_t *dirty_vram = d->arch.hvm_domain.dirty_vram;
> + dv_range_t *range;
> + struct list_head *curr, *next;
> +
> + ASSERT( paging_locked_by_me(d) );
> + ASSERT( dirty_vram != NULL );
> +
> + /*
> + * Ranges cannot overlap so
> + * free any range that overlaps [ begin_pfn .. end_pfn )
> + */
> + list_for_each_safe(curr, next, &dirty_vram->range_head)
> + {
> + dv_range_t *rng = list_entry(curr, dv_range_t, range_link);
> + if ( ( ( rng->begin_pfn <= begin_pfn ) &&
> + ( begin_pfn < rng->end_pfn )
> + ) ||
> + ( ( begin_pfn <= rng->begin_pfn ) &&
> + ( rng->begin_pfn < end_pfn )
> + ) )
> + {
> + /* Different tracking, tear the previous down. */
> + dirty_vram_range_free(d, rng);
> + }
> + }
> +
> + range = _dirty_vram_range_alloc(d, begin_pfn, nr);
> + if ( !range )
> + goto out;
> +
> + out:
> + return range;
> +}
> +
> +/*
> + * dirty_vram_range_find_or_alloc()
> + * Find the range for [begin_pfn:begin_pfn+nr).
> + * If it doesn't exists, create it.
> + */
> +dv_range_t *
> +dirty_vram_range_find_or_alloc(struct domain *d,
> + unsigned long begin_pfn,
> + unsigned long nr)
> +{
> + dv_range_t *range;
> + ASSERT( paging_locked_by_me(d) );
> + range = dirty_vram_range_find(d, begin_pfn, nr);
> + if ( !range )
> + range = dirty_vram_range_alloc(d, begin_pfn, nr);
> +
> + return range;
> +}
> +
> +
> +
> +/* Allocate a dv_paddr_link struct */
> +static
> +dv_paddr_link_t *
> +alloc_paddr_link(struct domain *d)
> +{
> + dv_paddr_link_t * pl = NULL;
> + dv_dirty_vram_t *dirty_vram = d->arch.hvm_domain.dirty_vram;
> + dv_paddr_link_ext_t *ext = NULL;
> +
> +
> + ASSERT( paging_locked_by_me(d) );
> + BUILD_BUG_ON(sizeof(dv_paddr_link_ext_t) > PAGE_SIZE);
> + /* Is the list of free pl's empty? */
> + if ( dirty_vram->pl_free == NULL ) /* yes */
> + {
> + /*
> + * Allocate another page of pl's.
> + * Link them all together and point the free list head at them
> + */
> + int i;
> + struct page_info *pg = d->arch.paging.alloc_page(d);
> +
> + ext = __map_domain_page(pg);
> + /* Is unmapped in dirty_vram_free() */
> + if ( ext == NULL )
> + goto out;
> +
> +#if DEBUG_allocate_paddr_links_page
> + gdprintk(XENLOG_DEBUG, "Allocated another page of paddr_links\n");
> +#endif
> + list_add(&ext->ext_link, &dirty_vram->ext_head);
> +
> + /* initialize and link together the new pl entries */
> + for ( i = 0; i != ARRAY_SIZE(ext->entries); i++ )
> + {
> + ext->entries[i].sl1ma = INVALID_PADDR;
> + ext->entries[i].pl_next = &ext->entries[i+1];
> + }
> + ext->entries[ARRAY_SIZE(ext->entries) - 1].pl_next = NULL;
> + dirty_vram->pl_free = &ext->entries[0];
> + }
> + pl = dirty_vram->pl_free;
> + dirty_vram->pl_free = pl->pl_next;
> +
> + pl->sl1ma = INVALID_PADDR;
> + pl->pl_next = NULL;
> + out:
> + return pl;
> +}
> +
> +
> +/*
> + * Free a paddr_link struct.
> + *
> + * The caller has walked the singly-linked list of elements
> + * that have, as their head, an element in a pl_tab cell.
> + * The list walks has reached the element to be freed.
> + * (Each element is a dv_paddr_link_t struct.)
> + *
> + * @pl points to the element to be freed.
> + * @ppl points to its predecessor element's next member.
> + *
> + * After linking the precessor to the element's successor,
> + * we can free @pl by prepending it to the list of free
> + * elements.
> + *
> + * As a boundary case (which happens to be the common case),
> + * @pl points to a cell in the pl_tab rather than to some
> + * extension element danging from that cell.
> + * We recognize this case because @ppl is NULL.
> + * In that case we promote the first extension element by
> + * copying it into the pl_tab cell and free it.
> + */
> +
> +dv_paddr_link_t *
> +free_paddr_link(struct domain *d,
> + dv_paddr_link_t **ppl,
> + dv_paddr_link_t *pl)
> +{
> + dv_dirty_vram_t *dirty_vram = d->arch.hvm_domain.dirty_vram;
> + dv_paddr_link_t *npl; /* next pl */
> +
> + ASSERT( paging_locked_by_me(d) );
> + /* extension mapping? */
> + if ( ppl ) /* yes. free it */
> + {
> + ASSERT(pl == (*ppl));
> + (*ppl) = npl = pl->pl_next;
> + }
> + else /* main table */
> + {
> + /*
> + * move 2nd mapping to main table.
> + * and free 2nd mapping
> + */
> + dv_paddr_link_t * spl;
> + spl = pl->pl_next;
> + if ( spl == NULL )
> + {
> + pl->sl1ma = INVALID_PADDR;
> + return pl;
> + }
> + pl->sl1ma = spl->sl1ma;
> + pl->pl_next = spl->pl_next;
> + npl = pl; /* reprocess main table entry again */
> + pl = spl;
> + }
> + pl->sl1ma = INVALID_PADDR;
> + pl->pl_next = dirty_vram->pl_free;
> + dirty_vram->pl_free = pl;
> + return npl;
> +}
> +
> +
> +/*
> + * dirty_vram_range_update()
> + *
> + * This is called whenever a level 1 page table entry is modified.
> + * If the L1PTE is being cleared, the function removes any paddr_links
> + * that refer to it.
> + * If the L1PTE is being set to a frame buffer page, a paddr_link is
> + * created for that page's entry in pl_tab.
> + * Returns 1 iff entry found and set or cleared.
> + */
> +int dirty_vram_range_update(struct domain *d,
> + unsigned long gfn,
> + paddr_t sl1ma,
> + int set)
> +{
> + int effective = 0;
> + dv_range_t *range;
> + unsigned long i;
> + dv_paddr_link_t *pl;
> + dv_paddr_link_t **ppl;
> + int len = 0;
> +
> + ASSERT(paging_locked_by_me(d));
> + range = dirty_vram_range_find_gfn(d, gfn);
> + if ( !range )
> + return effective;
> +
> +
> + i = gfn - range->begin_pfn;
> + pl = &range->pl_tab[ i ].mapping;
> + ppl = NULL;
> +
> + /*
> + * find matching entry (pl), if any, and its predecessor
> + * in linked list (ppl)
> + */
> + while ( pl != NULL )
> + {
> + if ( pl->sl1ma == sl1ma || pl->sl1ma == INVALID_PADDR )
> + break;
> +
> + ppl = &pl->pl_next;
> + pl = *ppl;
> + len++;
> + }
> +
> + if ( set )
> + {
> + /* Did we find sl1ma in either the main table or the linked list? */
> + if ( pl == NULL ) /* no, so we'll need to alloc a link */
> + {
> + ASSERT(ppl != NULL);
> +
> +#if DEBUG_alloc_paddr_inject_fault
> + {
> + static int counter;
> +
> + /* Test stuck_dirty logic for some cases */
> + if ( (++counter) % 4 == 0 )
> + {
> + /* Simply mark the frame buffer page as always dirty */
> + range->pl_tab[ i ].stuck_dirty = 1;
> + gdprintk(XENLOG_DEBUG,
> + "[%lx] inject stuck dirty fault\n",
> + gfn );
> + goto out;
> + }
> + }
> +#endif
> + /*
> + * Have we reached the limit of mappings we're willing
> + * to bookkeep?
> + */
> + if ( len > DV_ADDR_LINK_LIST_LIMIT ) /* yes */
> + {
> +#if DEBUG_link_limit_exceeded
> + if ( !range->pl_tab[ i ].stuck_dirty )
> + gdprintk(XENLOG_DEBUG,
> + "[%lx] link limit exceeded\n",
> + gfn );
> +#endif
> + /* Simply mark the frame buffer page as always dirty */
> + range->pl_tab[ i ].stuck_dirty = 1;
> + goto out;
> + }
> +
> + /* alloc link and append it to list */
> + (*ppl) = pl = alloc_paddr_link(d);
> + /* Were we able to allocate a link? */
> + if ( pl == NULL ) /* no */
> + {
> + /* Simply mark the frame buffer page as always dirty */
> + range->pl_tab[ i ].stuck_dirty = 1;
> +
> + gdprintk(XENLOG_DEBUG,
> + "[%lx] alloc failure\n",
> + gfn );
> +
> + goto out;
> + }
> + }
> + if ( pl->sl1ma != sl1ma )
> + {
> + ASSERT(pl->sl1ma == INVALID_PADDR);
> + pl->sl1ma = sl1ma;
> + range->nr_mappings++;
> + }
> + effective = 1;
> + if ( len > range->mappings_hwm )
> + {
> + range->mappings_hwm = len;
> +#if DEBUG_update_vram_mapping
> + gdprintk(XENLOG_DEBUG,
> + "[%lx] set sl1ma:%lx hwm:%d mappings:%d "
> + "freepages:%d\n",
> + gfn, sl1ma,
> + range->mappings_hwm,
> + range->nr_mappings,
> + d->arch.paging.shadow.free_pages);
> +#endif
> + }
> + }
> + else /* clear */
> + {
> + if ( pl && pl->sl1ma == sl1ma )
> + {
> +#if DEBUG_update_vram_mapping
> + gdprintk(XENLOG_DEBUG,
> + "[%lx] clear sl1ma:%lx mappings:%d\n",
> + gfn, sl1ma,
> + range->nr_mappings - 1);
> +#endif
> + free_paddr_link(d, ppl, pl);
> + --range->nr_mappings;
> + effective = 1;
> + }
> + }
> + out:
> + return effective;
> +}
> +
> +
> +/*
> + * shadow_scan_dirty_flags()
> + * This produces a dirty bitmap for the range by examining every
> + * L1PTE referenced by some dv_paddr_link in the range's pl_tab table.
> + * It tests and clears each such L1PTE's dirty flag.
> + */
> +static
> +int shadow_scan_dirty_flags(struct domain *d,
> + dv_range_t *range,
> + uint8_t *dirty_bitmap)
> +{
> + int flush_tlb = 0;
> + unsigned long i;
> + unsigned long nr = range->end_pfn - range->begin_pfn;
> + l1_pgentry_t *sl1e = NULL;
> +
> + ASSERT( paging_locked_by_me(d) );
> + /* Iterate over VRAM to track dirty bits. */
> + for ( i = 0; i < nr; i++ )
> + {
> + int dirty = 0, len = 1;
> + dv_paddr_link_t *pl;
> + /* Does the frame buffer have an incomplete set of mappings? */
> + if ( unlikely(range->pl_tab[i].stuck_dirty) ) /* yes */
> + dirty = 1;
> + else /* The frame buffer's set of mappings is complete. Scan it. */
> + for ( pl = &range->pl_tab[i].mapping;
> + pl;
> + pl = pl->pl_next, len++ )
> + {
> + paddr_t sl1ma = pl->sl1ma;
> + if ( sl1ma == INVALID_PADDR ) /* FB page is unmapped */
> + continue;
> +
> + if ( sl1e ) /* cleanup from previous iteration */
> + unmap_domain_page(sl1e);
> +
> + sl1e = map_domain_page(sl1ma >> PAGE_SHIFT);
> + sl1e += (sl1ma & (PAGE_SIZE - 1 ))/sizeof(*sl1e);
> + if ( l1e_get_flags(*sl1e) & _PAGE_DIRTY )
> + {
> + dirty = 1;
> + /* Clear dirty so we can detect if page gets re-dirtied.
> + * Note: this is atomic, so we may clear a
> + * _PAGE_ACCESSED set by another processor.
> + */
> + l1e_remove_flags(*sl1e, _PAGE_DIRTY);
> + flush_tlb = 1;
> + }
> + } /* for */
> +
> + if ( dirty )
> + dirty_bitmap[i >> 3] |= (1 << (i & 7));
> +
> + }
> +
> + if ( sl1e )
> + unmap_domain_page(sl1e);
> +
> + return flush_tlb;
> +}
> +
> +
> +/*
> + * shadow_track_dirty_vram()
> + * This is the API called by the guest to determine which pages in the range
> + * from [begin_pfn:begin_pfn+nr) have been dirtied since the last call.
> + * It creates the domain's dv_dirty_vram on demand.
> + * It creates ranges on demand when some [begin_pfn:nr) is first encountered.
> + * To collect the dirty bitmask it calls shadow_scan_dirty_flags().
> + * It copies the dirty bitmask into guest storage.
> + */
> +int shadow_track_dirty_vram(struct domain *d,
> + unsigned long begin_pfn,
> + unsigned long nr,
> + XEN_GUEST_HANDLE_64(uint8) guest_dirty_bitmap)
> +{
> + int rc = 0;
> + unsigned long end_pfn = begin_pfn + nr;
> + int flush_tlb = 0;
> + dv_range_t *range;
> + struct p2m_domain *p2m = p2m_get_hostp2m(d);
> + uint8_t *dirty_bitmap = NULL;
> +
> + /*
> + * This range test is tricky.
> + *
> + * The range [begin_pfn..end_pfn) is an open interval, so end_pfn
> + * is a pfn beyond the end of the range.
> + *
> + * p2m->max_mapped_pfn is a valid PFN so p2m->max_mapped_pfn + 1 is an
> + * invalid PFN.
> + *
> + * If end_pfn is beyond *that* then the range is invalid.
> + */
> + if ( end_pfn < begin_pfn
> + || begin_pfn > p2m->max_mapped_pfn
> + || end_pfn > p2m->max_mapped_pfn + 1 )
> + return -EINVAL;
> +
> + paging_lock(d);
> +
> + if ( !nr )
> + {
> + dirty_vram_free(d);
> + goto out;
> + }
> +
> + if ( guest_handle_is_null(guest_dirty_bitmap) )
> + goto out;
> +
> + if ( !dirty_vram_find_or_alloc(d) )
> + {
> + rc = -ENOMEM;
> + goto out;
> + }
> +
> + range = dirty_vram_range_find(d, begin_pfn, nr);
> + if ( !range )
> + {
> + range = dirty_vram_range_alloc(d, begin_pfn, nr);
> + if ( range )
> + sh_find_all_vram_mappings(d->vcpu[0], range);
> + }
> + if ( range )
> + {
> + int size = ( nr + BITS_PER_BYTE - 1 ) / BITS_PER_BYTE;
> +
> + rc = -ENOMEM;
> + dirty_bitmap = xzalloc_bytes( size );
> + if ( !dirty_bitmap )
> + goto out;
> +
> + flush_tlb |= shadow_scan_dirty_flags(d, range, dirty_bitmap);
> +
> + rc = -EFAULT;
> + if ( copy_to_guest(guest_dirty_bitmap,
> + dirty_bitmap,
> + size) == 0 )
> + rc = 0;
> + }
> +
> + if ( flush_tlb )
> + flush_tlb_mask(d->domain_dirty_cpumask);
> +
> +out:
> + paging_unlock(d);
> +
> + if ( dirty_bitmap )
> + xfree(dirty_bitmap);
> + return rc;
> +}
> +
> +
> +/************************************************/
> +/* HAP VRAM TRACKING SUPPORT */
> +/************************************************/
> +
> +/*
> + * hap_track_dirty_vram()
> + * Create the domain's dv_dirty_vram struct on demand.
> + * Create a dirty vram range on demand when some [begin_pfn:begin_pfn+nr] is
> + * first encountered.
> + * Collect the guest_dirty bitmask, a bit mask of the dirty vram pages, by
> + * calling paging_log_dirty_range(), which interrogates each vram
> + * page's p2m type looking for pages that have been made writable.
> + */
> +int hap_track_dirty_vram(struct domain *d,
> + unsigned long begin_pfn,
> + unsigned long nr,
> + XEN_GUEST_HANDLE_64(uint8) guest_dirty_bitmap)
> +{
> + long rc = 0;
> + dv_dirty_vram_t *dirty_vram;
> + uint8_t *dirty_bitmap = NULL;
> +
> + if ( nr )
> + {
> + dv_range_t *range = NULL;
> + int size = ( nr + BITS_PER_BYTE - 1 ) / BITS_PER_BYTE;
> +
> + if ( !paging_mode_log_dirty(d) )
> + {
> + hap_logdirty_init(d);
> + rc = paging_log_dirty_enable(d);
> + if ( rc )
> + goto out;
> + }
> +
> + rc = -ENOMEM;
> + dirty_bitmap = xzalloc_bytes( size );
> + if ( !dirty_bitmap )
> + goto out;
> +
> + paging_lock(d);
> +
> + dirty_vram = d->arch.hvm_domain.dirty_vram;
> + if ( !dirty_vram )
> + {
> + rc = -ENOMEM;
> + if ( !(dirty_vram = dirty_vram_alloc(d)) )
> + {
> + paging_unlock(d);
> + goto out;
> + }
> + }
> +
> + range = dirty_vram_range_find(d, begin_pfn, nr);
> + if ( !range )
> + {
> + rc = -ENOMEM;
> + if ( !(range = dirty_vram_range_alloc(d, begin_pfn, nr)) )
> + {
> + paging_unlock(d);
> + goto out;
> + }
> +
> + paging_unlock(d);
> +
> + /* set l1e entries of range within P2M table to be read-only. */
> + p2m_change_type_range(d, begin_pfn, begin_pfn + nr,
> + p2m_ram_rw, p2m_ram_logdirty);
> +
> + flush_tlb_mask(d->domain_dirty_cpumask);
> +
> + memset(dirty_bitmap, 0xff, size); /* consider all pages dirty */
> + }
> + else
> + {
> + paging_unlock(d);
> +
> + domain_pause(d);
> +
> + /* get the bitmap */
> + paging_log_dirty_range(d, begin_pfn, nr, dirty_bitmap);
> +
> + domain_unpause(d);
> + }
> +
> +
> + rc = -EFAULT;
> + if ( copy_to_guest(guest_dirty_bitmap,
> + dirty_bitmap,
> + size) == 0 )
> + {
> + rc = 0;
> + }
> + }
> + else {
> + paging_lock(d);
> +
> + dirty_vram = d->arch.hvm_domain.dirty_vram;
> + if ( dirty_vram )
> + {
> + /*
> + * If zero pages specified while tracking dirty vram
> + * then stop tracking
> + */
> + dirty_vram_free(d);
> +
> + }
> +
> + paging_unlock(d);
> + }
> +out:
> + if ( dirty_bitmap )
> + xfree(dirty_bitmap);
> +
> + return rc;
> +}
> +
> +/*
> + * Local variables:
> + * mode: C
> + * c-file-style: "BSD"
> + * c-basic-offset: 4
> + * indent-tabs-mode: nil
> + * End:
> + */
> diff --git a/xen/arch/x86/mm/hap/hap.c b/xen/arch/x86/mm/hap/hap.c
> index a95ccbf..f7d979b 100644
> --- a/xen/arch/x86/mm/hap/hap.c
> +++ b/xen/arch/x86/mm/hap/hap.c
> @@ -53,117 +53,6 @@
> #define page_to_mfn(_pg) _mfn(__page_to_mfn(_pg))
>
> /************************************************/
> -/* HAP VRAM TRACKING SUPPORT */
> -/************************************************/
> -
> -/*
> - * hap_track_dirty_vram()
> - * Create the domain's dv_dirty_vram struct on demand.
> - * Create a dirty vram range on demand when some [begin_pfn:begin_pfn+nr] is
> - * first encountered.
> - * Collect the guest_dirty bitmask, a bit mask of the dirty vram pages, by
> - * calling paging_log_dirty_range(), which interrogates each vram
> - * page's p2m type looking for pages that have been made writable.
> - */
> -
> -int hap_track_dirty_vram(struct domain *d,
> - unsigned long begin_pfn,
> - unsigned long nr,
> - XEN_GUEST_HANDLE_64(uint8) guest_dirty_bitmap)
> -{
> - long rc = 0;
> - struct sh_dirty_vram *dirty_vram;
> - uint8_t *dirty_bitmap = NULL;
> -
> - if ( nr )
> - {
> - int size = (nr + BITS_PER_BYTE - 1) / BITS_PER_BYTE;
> -
> - if ( !paging_mode_log_dirty(d) )
> - {
> - hap_logdirty_init(d);
> - rc = paging_log_dirty_enable(d);
> - if ( rc )
> - goto out;
> - }
> -
> - rc = -ENOMEM;
> - dirty_bitmap = xzalloc_bytes(size);
> - if ( !dirty_bitmap )
> - goto out;
> -
> - paging_lock(d);
> -
> - dirty_vram = d->arch.hvm_domain.dirty_vram;
> - if ( !dirty_vram )
> - {
> - rc = -ENOMEM;
> - if ( (dirty_vram = xzalloc(struct sh_dirty_vram)) == NULL )
> - {
> - paging_unlock(d);
> - goto out;
> - }
> -
> - d->arch.hvm_domain.dirty_vram = dirty_vram;
> - }
> -
> - if ( begin_pfn != dirty_vram->begin_pfn ||
> - begin_pfn + nr != dirty_vram->end_pfn )
> - {
> - dirty_vram->begin_pfn = begin_pfn;
> - dirty_vram->end_pfn = begin_pfn + nr;
> -
> - paging_unlock(d);
> -
> - /* set l1e entries of range within P2M table to be read-only. */
> - p2m_change_type_range(d, begin_pfn, begin_pfn + nr,
> - p2m_ram_rw, p2m_ram_logdirty);
> -
> - flush_tlb_mask(d->domain_dirty_cpumask);
> -
> - memset(dirty_bitmap, 0xff, size); /* consider all pages dirty */
> - }
> - else
> - {
> - paging_unlock(d);
> -
> - domain_pause(d);
> -
> - /* get the bitmap */
> - paging_log_dirty_range(d, begin_pfn, nr, dirty_bitmap);
> -
> - domain_unpause(d);
> - }
> -
> - rc = -EFAULT;
> - if ( copy_to_guest(guest_dirty_bitmap, dirty_bitmap, size) == 0 )
> - rc = 0;
> - }
> - else
> - {
> - paging_lock(d);
> -
> - dirty_vram = d->arch.hvm_domain.dirty_vram;
> - if ( dirty_vram )
> - {
> - /*
> - * If zero pages specified while tracking dirty vram
> - * then stop tracking
> - */
> - xfree(dirty_vram);
> - d->arch.hvm_domain.dirty_vram = NULL;
> - }
> -
> - paging_unlock(d);
> - }
> -out:
> - if ( dirty_bitmap )
> - xfree(dirty_bitmap);
> -
> - return rc;
> -}
> -
> -/************************************************/
> /* HAP LOG DIRTY SUPPORT */
> /************************************************/
>
> diff --git a/xen/arch/x86/mm/p2m.c b/xen/arch/x86/mm/p2m.c
> index 258f46e..41d0fe3 100644
> --- a/xen/arch/x86/mm/p2m.c
> +++ b/xen/arch/x86/mm/p2m.c
> @@ -690,20 +690,23 @@ void p2m_change_type_range(struct domain *d,
> struct p2m_domain *p2m = p2m_get_hostp2m(d);
>
> BUG_ON(p2m_is_grant(ot) || p2m_is_grant(nt));
> -
> p2m_lock(p2m);
> - p2m->defer_nested_flush = 1;
>
> + p2m->defer_nested_flush = 1;
> +
> for ( gfn = start; gfn < end; gfn++ )
> {
> mfn = p2m->get_entry(p2m, gfn, &pt, &a, 0, NULL);
> if ( pt == ot )
> - set_p2m_entry(p2m, gfn, mfn, PAGE_ORDER_4K, nt,
> p2m->default_access);
> + set_p2m_entry(p2m, gfn, mfn, PAGE_ORDER_4K, nt,
> + p2m->default_access);
> }
> -
> +
> p2m->defer_nested_flush = 0;
> +
> if ( nestedhvm_enabled(d) )
> p2m_flush_nestedp2m(d);
> +
> p2m_unlock(p2m);
> }
>
> diff --git a/xen/arch/x86/mm/paging.c b/xen/arch/x86/mm/paging.c
> index a5cdbd1..cd44f6e 100644
> --- a/xen/arch/x86/mm/paging.c
> +++ b/xen/arch/x86/mm/paging.c
> @@ -27,6 +27,7 @@
> #include <asm/p2m.h>
> #include <asm/hap.h>
> #include <asm/hvm/nestedhvm.h>
> +#include <asm/dirty_vram.h>
> #include <xen/numa.h>
> #include <xsm/xsm.h>
>
> @@ -192,15 +193,11 @@ int paging_log_dirty_disable(struct domain *d)
> return ret;
> }
>
> -/* Mark a page as dirty */
> +/* Given a guest mfn, mark a page as dirty */
> void paging_mark_dirty(struct domain *d, unsigned long guest_mfn)
> {
> unsigned long pfn;
> mfn_t gmfn;
> - int changed;
> - mfn_t mfn, *l4, *l3, *l2;
> - unsigned long *l1;
> - int i1, i2, i3, i4;
>
> gmfn = _mfn(guest_mfn);
>
> @@ -210,6 +207,19 @@ void paging_mark_dirty(struct domain *d, unsigned long
> guest_mfn)
>
> /* We /really/ mean PFN here, even for non-translated guests. */
> pfn = get_gpfn_from_mfn(mfn_x(gmfn));
> + paging_mark_dirty_gpfn(d, pfn);
> +}
> +
> +
> +/* Given a guest pfn, mark a page as dirty */
> +void paging_mark_dirty_gpfn(struct domain *d, unsigned long pfn)
> +{
> + int changed;
> + mfn_t mfn, *l4, *l3, *l2;
> + unsigned long *l1;
> + int i1, i2, i3, i4;
> + dv_range_t *range;
> +
> /* Shared MFNs should NEVER be marked dirty */
> BUG_ON(SHARED_M2P(pfn));
>
> @@ -229,6 +239,11 @@ void paging_mark_dirty(struct domain *d, unsigned long
> guest_mfn)
> /* Recursive: this is called from inside the shadow code */
> paging_lock_recursive(d);
>
> + d->arch.paging.log_dirty.dirty_count++;
> + range = dirty_vram_range_find_gfn(d, pfn);
> + if ( range )
> + range->dirty_count++;
> +
> if ( unlikely(!mfn_valid(d->arch.paging.log_dirty.top)) )
> {
> d->arch.paging.log_dirty.top = paging_new_log_dirty_node(d);
> @@ -445,7 +460,31 @@ void paging_log_dirty_range(struct domain *d,
> struct p2m_domain *p2m = p2m_get_hostp2m(d);
> int i;
> unsigned long pfn;
> + dv_range_t *range;
> + unsigned int range_dirty_count;
>
> + paging_lock(d);
> + range = dirty_vram_range_find_gfn(d, begin_pfn);
> + if ( !range )
> + {
> + paging_unlock(d);
> + goto out;
> + }
> +
> + range_dirty_count = range->dirty_count;
> + range->dirty_count = 0;
> +
> + paging_unlock(d);
> +
> + if ( !range_dirty_count)
> + goto out;
> +
> + PAGING_DEBUG(LOGDIRTY,
> + "log-dirty-range: dom %u [%05lx:%05lx] range_dirty=%u\n",
> + d->domain_id,
> + begin_pfn,
> + begin_pfn + nr,
> + range_dirty_count);
> /*
> * Set l1e entries of P2M table to be read-only.
> *
> @@ -460,15 +499,17 @@ void paging_log_dirty_range(struct domain *d,
>
> for ( i = 0, pfn = begin_pfn; pfn < begin_pfn + nr; i++, pfn++ )
> {
> - p2m_type_t pt;
> - pt = p2m_change_type(d, pfn, p2m_ram_rw, p2m_ram_logdirty);
> - if ( pt == p2m_ram_rw )
> + if ( p2m_change_type(d, pfn, p2m_ram_rw, p2m_ram_logdirty) ==
> + p2m_ram_rw )
> dirty_bitmap[i >> 3] |= (1 << (i & 7));
> }
>
> p2m_unlock(p2m);
>
> flush_tlb_mask(d->domain_dirty_cpumask);
> +
> + out:
> + return;
> }
>
> /* Note that this function takes three function pointers. Callers must supply
> diff --git a/xen/arch/x86/mm/shadow/common.c b/xen/arch/x86/mm/shadow/common.c
> index ce79131..1e4b880 100644
> --- a/xen/arch/x86/mm/shadow/common.c
> +++ b/xen/arch/x86/mm/shadow/common.c
> @@ -36,6 +36,7 @@
> #include <asm/current.h>
> #include <asm/flushtlb.h>
> #include <asm/shadow.h>
> +#include <asm/dirty_vram.h>
> #include <xen/numa.h>
> #include "private.h"
>
> @@ -3121,12 +3122,7 @@ void shadow_teardown(struct domain *d)
> * calls now that we've torn down the bitmap */
> d->arch.paging.mode &= ~PG_log_dirty;
>
> - if (d->arch.hvm_domain.dirty_vram) {
> - xfree(d->arch.hvm_domain.dirty_vram->sl1ma);
> - xfree(d->arch.hvm_domain.dirty_vram->dirty_bitmap);
> - xfree(d->arch.hvm_domain.dirty_vram);
> - d->arch.hvm_domain.dirty_vram = NULL;
> - }
> + dirty_vram_free(d);
>
> paging_unlock(d);
>
> @@ -3464,178 +3460,217 @@ void shadow_clean_dirty_bitmap(struct domain *d)
>
> /**************************************************************************/
> /* VRAM dirty tracking support */
> -int shadow_track_dirty_vram(struct domain *d,
> - unsigned long begin_pfn,
> - unsigned long nr,
> - XEN_GUEST_HANDLE_64(uint8) dirty_bitmap)
> -{
> - int rc;
> - unsigned long end_pfn = begin_pfn + nr;
> - unsigned long dirty_size = (nr + 7) / 8;
> - int flush_tlb = 0;
> - unsigned long i;
> - p2m_type_t t;
> - struct sh_dirty_vram *dirty_vram = d->arch.hvm_domain.dirty_vram;
> - struct p2m_domain *p2m = p2m_get_hostp2m(d);
>
> - if (end_pfn < begin_pfn
> - || begin_pfn > p2m->max_mapped_pfn
> - || end_pfn >= p2m->max_mapped_pfn)
> - return -EINVAL;
>
> - /* We perform p2m lookups, so lock the p2m upfront to avoid deadlock */
> - p2m_lock(p2m_get_hostp2m(d));
> - paging_lock(d);
> +/* Support functions for shadow-based dirty VRAM code */
>
> - if ( dirty_vram && (!nr ||
> - ( begin_pfn != dirty_vram->begin_pfn
> - || end_pfn != dirty_vram->end_pfn )) )
> - {
> - /* Different tracking, tear the previous down. */
> - gdprintk(XENLOG_INFO, "stopping tracking VRAM %lx - %lx\n",
> dirty_vram->begin_pfn, dirty_vram->end_pfn);
> - xfree(dirty_vram->sl1ma);
> - xfree(dirty_vram->dirty_bitmap);
> - xfree(dirty_vram);
> - dirty_vram = d->arch.hvm_domain.dirty_vram = NULL;
> - }
> +#define DEBUG_unshadow_sl1ma 0
> +#define DEBUG_unshadow_sl1ma_detail 0
> +#define DEBUG_count_initial_mappings 0
>
> - if ( !nr )
> +/* smfn is no longer a shadow page. Remove it from any
> + * dirty vram range mapping. */
> +void
> +dirty_vram_delete_shadow(struct vcpu *v,
> + unsigned long gfn,
> + unsigned int shadow_type,
> + mfn_t smfn)
> +{
> + static unsigned int l1_shadow_mask =
> + 1 << SH_type_l1_32_shadow
> + | 1 << SH_type_fl1_32_shadow
> + | 1 << SH_type_l1_pae_shadow
> + | 1 << SH_type_fl1_pae_shadow
> + | 1 << SH_type_l1_64_shadow
> + | 1 << SH_type_fl1_64_shadow
> + ;
> + struct domain *d = v->domain;
> + dv_dirty_vram_t *dirty_vram;
> + struct list_head *curr, *next;
> +
> + ASSERT(paging_locked_by_me(d));
> + /* Ignore all but level 1 shadows */
> +
> + if ( (l1_shadow_mask & (1 << shadow_type)) == 0 )
> {
> - rc = 0;
> goto out;
> }
>
> - /* This should happen seldomly (Video mode change),
> - * no need to be careful. */
> + dirty_vram = d->arch.hvm_domain.dirty_vram;
> if ( !dirty_vram )
> {
> - /* Throw away all the shadows rather than walking through them
> - * up to nr times getting rid of mappings of each pfn */
> - shadow_blow_tables(d);
> -
> - gdprintk(XENLOG_INFO, "tracking VRAM %lx - %lx\n", begin_pfn,
> end_pfn);
> -
> - rc = -ENOMEM;
> - if ( (dirty_vram = xmalloc(struct sh_dirty_vram)) == NULL )
> - goto out;
> - dirty_vram->begin_pfn = begin_pfn;
> - dirty_vram->end_pfn = end_pfn;
> - d->arch.hvm_domain.dirty_vram = dirty_vram;
> -
> - if ( (dirty_vram->sl1ma = xmalloc_array(paddr_t, nr)) == NULL )
> - goto out_dirty_vram;
> - memset(dirty_vram->sl1ma, ~0, sizeof(paddr_t) * nr);
> -
> - if ( (dirty_vram->dirty_bitmap = xzalloc_array(uint8_t, dirty_size))
> == NULL )
> - goto out_sl1ma;
> -
> - dirty_vram->last_dirty = NOW();
> -
> - /* Tell the caller that this time we could not track dirty bits. */
> - rc = -ENODATA;
> - }
> - else if (dirty_vram->last_dirty == -1)
> - {
> - /* still completely clean, just copy our empty bitmap */
> - rc = -EFAULT;
> - if ( copy_to_guest(dirty_bitmap, dirty_vram->dirty_bitmap,
> dirty_size) == 0 )
> - rc = 0;
> + goto out;
> }
> - else
> +
> + list_for_each_safe(curr, next, &dirty_vram->range_head)
> {
> - /* Iterate over VRAM to track dirty bits. */
> - for ( i = 0; i < nr; i++ ) {
> - mfn_t mfn = get_gfn_query_unlocked(d, begin_pfn + i, &t);
> - struct page_info *page;
> - int dirty = 0;
> - paddr_t sl1ma = dirty_vram->sl1ma[i];
> -
> - if (mfn_x(mfn) == INVALID_MFN)
> - {
> - dirty = 1;
> - }
> - else
> + dv_range_t *range = list_entry(curr, dv_range_t, range_link);
> + unsigned long i;
> + int max_mappings = 1, mappings = 0;
> + int unshadowed = 0;
> + for ( i = 0; i != range->end_pfn - range->begin_pfn; i++ )
> + {
> + dv_paddr_link_t *pl = &range->pl_tab[ i ].mapping;
> + dv_paddr_link_t **ppl = NULL;
> + mappings = 0;
> +
> + while ( pl != NULL )
> {
> - page = mfn_to_page(mfn);
> - switch (page->u.inuse.type_info & PGT_count_mask)
> - {
> - case 0:
> - /* No guest reference, nothing to track. */
> - break;
> - case 1:
> - /* One guest reference. */
> - if ( sl1ma == INVALID_PADDR )
> - {
> - /* We don't know which sl1e points to this, too bad.
> */
> - dirty = 1;
> - /* TODO: Heuristics for finding the single mapping of
> - * this gmfn */
> - flush_tlb |= sh_remove_all_mappings(d->vcpu[0], mfn);
> - }
> - else
> - {
> - /* Hopefully the most common case: only one mapping,
> - * whose dirty bit we can use. */
> - l1_pgentry_t *sl1e = maddr_to_virt(sl1ma);
> -
> - if ( l1e_get_flags(*sl1e) & _PAGE_DIRTY )
> - {
> - dirty = 1;
> - /* Note: this is atomic, so we may clear a
> - * _PAGE_ACCESSED set by another processor. */
> - l1e_remove_flags(*sl1e, _PAGE_DIRTY);
> - flush_tlb = 1;
> - }
> - }
> - break;
> - default:
> - /* More than one guest reference,
> - * we don't afford tracking that. */
> - dirty = 1;
> + paddr_t sl1ma = pl->sl1ma;
> + unsigned long sl1mn;
> +
> + if ( sl1ma == INVALID_PADDR )
> break;
> +
> + sl1mn = sl1ma >> PAGE_SHIFT;
> + if ( sl1mn == mfn_x(smfn) ) {
> +#if DEBUG_unshadow_sl1ma_detail
> + gdprintk(XENLOG_DEBUG,
> + "[%lx] gfn[%lx] unshadow sl1ma:%lx\n",
> + mfn_x(smfn),
> + range->begin_pfn + i,
> + sl1ma);
> +#endif
> + unshadowed++;
> + pl = free_paddr_link(d, ppl, pl);
> + --range->nr_mappings;
> + }
> + else
> + {
> + ppl = &pl->pl_next;
> + pl = *ppl;
> + mappings++;
> }
> }
> -
> - if ( dirty )
> + }
> + if ( mappings > max_mappings )
> + max_mappings = mappings;
> +
> + if ( unshadowed ) {
> +#if DEBUG_unshadow_sl1ma
> + gdprintk(XENLOG_DEBUG,
> + "[%lx] gfn[%05lx:%05lx] unshadowed:%d mappings:0x%x "
> + "max_mappings:%d\n",
> + mfn_x(smfn),
> + range->begin_pfn, range->end_pfn,
> + unshadowed, range->nr_mappings, max_mappings);
> +#endif
> + if ( range->nr_mappings == 0 )
> {
> - dirty_vram->dirty_bitmap[i / 8] |= 1 << (i % 8);
> - dirty_vram->last_dirty = NOW();
> + dirty_vram_range_free(d, range);
> }
> }
> + }
> + out:
> + return;
> +}
> +
>
> - rc = -EFAULT;
> - if ( copy_to_guest(dirty_bitmap, dirty_vram->dirty_bitmap,
> dirty_size) == 0 ) {
> - memset(dirty_vram->dirty_bitmap, 0, dirty_size);
> - if (dirty_vram->last_dirty + SECONDS(2) < NOW())
> +typedef int (*hash_pfn_callback_t)(struct vcpu *v,
> + mfn_t smfn,
> + unsigned long begin_pfn,
> + unsigned long end_pfn,
> + int *removed);
> +
> +static int hash_pfn_foreach(struct vcpu *v,
> + unsigned int callback_mask,
> + hash_pfn_callback_t callbacks[],
> + unsigned long begin_pfn,
> + unsigned long end_pfn)
> +/* Walk the hash table looking at the types of the entries and
> + * calling the appropriate callback function for each entry.
> + * The mask determines which shadow types we call back for, and the array
> + * of callbacks tells us which function to call.
> + * Any callback may return non-zero to let us skip the rest of the scan.
> + *
> + * WARNING: Callbacks MUST NOT add or remove hash entries unless they
> + * then return non-zero to terminate the scan. */
> +{
> + int i, done = 0, removed = 0;
> + struct domain *d = v->domain;
> + struct page_info *x;
> +
> + /* Say we're here, to stop hash-lookups reordering the chains */
> + ASSERT(paging_locked_by_me(d));
> + ASSERT(d->arch.paging.shadow.hash_walking == 0);
> + d->arch.paging.shadow.hash_walking = 1;
> +
> + for ( i = 0; i < SHADOW_HASH_BUCKETS; i++ )
> + {
> + /* WARNING: This is not safe against changes to the hash table.
> + * The callback *must* return non-zero if it has inserted or
> + * deleted anything from the hash (lookups are OK, though). */
> + for ( x = d->arch.paging.shadow.hash_table[i];
> + x;
> + x = next_shadow(x) )
> + {
> + if ( callback_mask & (1 << x->u.sh.type) )
> {
> - /* was clean for more than two seconds, try to disable guest
> - * write access */
> - for ( i = begin_pfn; i < end_pfn; i++ ) {
> - mfn_t mfn = get_gfn_query_unlocked(d, i, &t);
> - if (mfn_x(mfn) != INVALID_MFN)
> - flush_tlb |= sh_remove_write_access(d->vcpu[0], mfn,
> 1, 0);
> - }
> - dirty_vram->last_dirty = -1;
> + ASSERT(x->u.sh.type <= 15);
> + ASSERT(callbacks[x->u.sh.type] != NULL);
> + done = callbacks[x->u.sh.type](v, page_to_mfn(x),
> + begin_pfn, end_pfn,
> + &removed);
> + if ( done ) break;
> }
> - rc = 0;
> }
> + if ( done ) break;
> }
> - if ( flush_tlb )
> - flush_tlb_mask(d->domain_dirty_cpumask);
> - goto out;
> + d->arch.paging.shadow.hash_walking = 0;
> + return removed;
> +}
>
> -out_sl1ma:
> - xfree(dirty_vram->sl1ma);
> -out_dirty_vram:
> - xfree(dirty_vram);
> - dirty_vram = d->arch.hvm_domain.dirty_vram = NULL;
> +void sh_find_all_vram_mappings(struct vcpu *v,
> + dv_range_t *range)
> +{
> + /* Dispatch table for getting per-type functions */
> + static hash_pfn_callback_t callbacks[SH_type_unused] = {
> + NULL, /* none */
> + SHADOW_INTERNAL_NAME(sh_find_vram_mappings_in_l1, 2), /* l1_32 */
> + SHADOW_INTERNAL_NAME(sh_find_vram_mappings_in_l1, 2), /* fl1_32 */
> + NULL, /* l2_32 */
> + SHADOW_INTERNAL_NAME(sh_find_vram_mappings_in_l1, 3), /* l1_pae */
> + SHADOW_INTERNAL_NAME(sh_find_vram_mappings_in_l1, 3), /* fl1_pae */
> + NULL, /* l2_pae */
> + NULL, /* l2h_pae */
> +#if CONFIG_PAGING_LEVELS >= 4
> + SHADOW_INTERNAL_NAME(sh_find_vram_mappings_in_l1, 4), /* l1_64 */
> + SHADOW_INTERNAL_NAME(sh_find_vram_mappings_in_l1, 4), /* fl1_64 */
> +#else
> + NULL, /* l1_64 */
> + NULL, /* fl1_64 */
> +#endif
> + NULL, /* l2_64 */
> + NULL, /* l2h_64 */
> + NULL, /* l3_64 */
> + NULL, /* l4_64 */
> + NULL, /* p2m */
> + NULL /* unused */
> + };
>
> -out:
> - paging_unlock(d);
> - p2m_unlock(p2m_get_hostp2m(d));
> - return rc;
> + static unsigned int callback_mask =
> + 1 << SH_type_l1_32_shadow
> + | 1 << SH_type_fl1_32_shadow
> + | 1 << SH_type_l1_pae_shadow
> + | 1 << SH_type_fl1_pae_shadow
> + | 1 << SH_type_l1_64_shadow
> + | 1 << SH_type_fl1_64_shadow
> + ;
> +
> + perfc_incr(shadow_mappings);
> +
> + hash_pfn_foreach(v, callback_mask, callbacks,
> + range->begin_pfn,
> + range->end_pfn);
> +
> +#if DEBUG_count_initial_mappings
> + gdprintk(XENLOG_DEBUG, "[%05lx:%05lx] count of initial mappings:%d\n",
> + range->begin_pfn, range->end_pfn,
> + range->nr_mappings);
> +#endif
> }
>
> +
> /**************************************************************************/
> /* Shadow-control XEN_DOMCTL dispatcher */
>
> diff --git a/xen/arch/x86/mm/shadow/multi.c b/xen/arch/x86/mm/shadow/multi.c
> index 4967da1..bb983bc 100644
> --- a/xen/arch/x86/mm/shadow/multi.c
> +++ b/xen/arch/x86/mm/shadow/multi.c
> @@ -35,6 +35,7 @@
> #include <asm/flushtlb.h>
> #include <asm/hvm/hvm.h>
> #include <asm/hvm/cacheattr.h>
> +#include <asm/dirty_vram.h>
> #include <asm/mtrr.h>
> #include <asm/guest_pt.h>
> #include <public/sched.h>
> @@ -149,6 +150,10 @@ delete_fl1_shadow_status(struct vcpu *v, gfn_t gfn,
> mfn_t smfn)
> SHADOW_PRINTK("gfn=%"SH_PRI_gfn", type=%08x, smfn=%05lx\n",
> gfn_x(gfn), SH_type_fl1_shadow, mfn_x(smfn));
> ASSERT(mfn_to_page(smfn)->u.sh.head);
> +
> + /* Removing any dv_paddr_links to the erstwhile shadow page */
> + dirty_vram_delete_shadow(v, gfn_x(gfn), SH_type_fl1_shadow, smfn);
> +
> shadow_hash_delete(v, gfn_x(gfn), SH_type_fl1_shadow, smfn);
> }
>
> @@ -160,6 +165,10 @@ delete_shadow_status(struct vcpu *v, mfn_t gmfn, u32
> shadow_type, mfn_t smfn)
> v->domain->domain_id, v->vcpu_id,
> mfn_x(gmfn), shadow_type, mfn_x(smfn));
> ASSERT(mfn_to_page(smfn)->u.sh.head);
> +
> + /* Removing any dv_paddr_links to the erstwhile shadow page */
> + dirty_vram_delete_shadow(v, mfn_x(gmfn), shadow_type, smfn);
> +
> shadow_hash_delete(v, mfn_x(gmfn), shadow_type, smfn);
> /* 32-on-64 PV guests don't own their l4 pages; see set_shadow_status */
> if ( !is_pv_32on64_vcpu(v) || shadow_type != SH_type_l4_64_shadow )
> @@ -516,7 +525,6 @@ _sh_propagate(struct vcpu *v,
> guest_l1e_t guest_entry = { guest_intpte };
> shadow_l1e_t *sp = shadow_entry_ptr;
> struct domain *d = v->domain;
> - struct sh_dirty_vram *dirty_vram = d->arch.hvm_domain.dirty_vram;
> gfn_t target_gfn = guest_l1e_get_gfn(guest_entry);
> u32 pass_thru_flags;
> u32 gflags, sflags;
> @@ -663,17 +671,6 @@ _sh_propagate(struct vcpu *v,
> }
> }
>
> - if ( unlikely((level == 1) && dirty_vram
> - && dirty_vram->last_dirty == -1
> - && gfn_x(target_gfn) >= dirty_vram->begin_pfn
> - && gfn_x(target_gfn) < dirty_vram->end_pfn) )
> - {
> - if ( ft & FETCH_TYPE_WRITE )
> - dirty_vram->last_dirty = NOW();
> - else
> - sflags &= ~_PAGE_RW;
> - }
> -
> /* Read-only memory */
> if ( p2m_is_readonly(p2mt) ||
> (p2mt == p2m_mmio_direct &&
> @@ -1072,101 +1069,60 @@ static int shadow_set_l2e(struct vcpu *v,
> return flags;
> }
>
> -static inline void shadow_vram_get_l1e(shadow_l1e_t new_sl1e,
> +/* shadow_vram_fix_l1e()
> + *
> + * Tests L1PTEs as they are modified, looking for when they start to (or
> + * cease to) point to frame buffer pages. If the old and new gfns differ,
> + * calls dirty_vram_range_update() to updates the dirty_vram structures.
> + */
> +static inline void shadow_vram_fix_l1e(shadow_l1e_t old_sl1e,
> + shadow_l1e_t new_sl1e,
> shadow_l1e_t *sl1e,
> mfn_t sl1mfn,
> struct domain *d)
> {
> - mfn_t mfn = shadow_l1e_get_mfn(new_sl1e);
> - int flags = shadow_l1e_get_flags(new_sl1e);
> - unsigned long gfn;
> - struct sh_dirty_vram *dirty_vram = d->arch.hvm_domain.dirty_vram;
> + mfn_t new_mfn, old_mfn;
> + unsigned long new_gfn = INVALID_M2P_ENTRY, old_gfn = INVALID_M2P_ENTRY;
> + paddr_t sl1ma;
> + dv_dirty_vram_t *dirty_vram = d->arch.hvm_domain.dirty_vram;
>
> - if ( !dirty_vram /* tracking disabled? */
> - || !(flags & _PAGE_RW) /* read-only mapping? */
> - || !mfn_valid(mfn) ) /* mfn can be invalid in mmio_direct */
> + if ( !dirty_vram )
> return;
>
> - gfn = mfn_to_gfn(d, mfn);
> - /* Page sharing not supported on shadow PTs */
> - BUG_ON(SHARED_M2P(gfn));
> + sl1ma = pfn_to_paddr(mfn_x(sl1mfn)) | ((unsigned long)sl1e & ~PAGE_MASK);
>
> - if ( (gfn >= dirty_vram->begin_pfn) && (gfn < dirty_vram->end_pfn) )
> + old_mfn = shadow_l1e_get_mfn(old_sl1e);
> +
> + if ( !sh_l1e_is_magic(old_sl1e) &&
> + (l1e_get_flags(old_sl1e) & _PAGE_PRESENT) &&
> + mfn_valid(old_mfn))
> {
> - unsigned long i = gfn - dirty_vram->begin_pfn;
> - struct page_info *page = mfn_to_page(mfn);
> -
> - if ( (page->u.inuse.type_info & PGT_count_mask) == 1 )
> - /* Initial guest reference, record it */
> - dirty_vram->sl1ma[i] = pfn_to_paddr(mfn_x(sl1mfn))
> - | ((unsigned long)sl1e & ~PAGE_MASK);
> + old_gfn = mfn_to_gfn(d, old_mfn);
> }
> -}
> -
> -static inline void shadow_vram_put_l1e(shadow_l1e_t old_sl1e,
> - shadow_l1e_t *sl1e,
> - mfn_t sl1mfn,
> - struct domain *d)
> -{
> - mfn_t mfn = shadow_l1e_get_mfn(old_sl1e);
> - int flags = shadow_l1e_get_flags(old_sl1e);
> - unsigned long gfn;
> - struct sh_dirty_vram *dirty_vram = d->arch.hvm_domain.dirty_vram;
> -
> - if ( !dirty_vram /* tracking disabled? */
> - || !(flags & _PAGE_RW) /* read-only mapping? */
> - || !mfn_valid(mfn) ) /* mfn can be invalid in mmio_direct */
> - return;
> -
> - gfn = mfn_to_gfn(d, mfn);
> - /* Page sharing not supported on shadow PTs */
> - BUG_ON(SHARED_M2P(gfn));
> -
> - if ( (gfn >= dirty_vram->begin_pfn) && (gfn < dirty_vram->end_pfn) )
> +
> + new_mfn = shadow_l1e_get_mfn(new_sl1e);
> + if ( !sh_l1e_is_magic(new_sl1e) &&
> + (l1e_get_flags(new_sl1e) & _PAGE_PRESENT) &&
> + mfn_valid(new_mfn))
> {
> - unsigned long i = gfn - dirty_vram->begin_pfn;
> - struct page_info *page = mfn_to_page(mfn);
> - int dirty = 0;
> - paddr_t sl1ma = pfn_to_paddr(mfn_x(sl1mfn))
> - | ((unsigned long)sl1e & ~PAGE_MASK);
> + new_gfn = mfn_to_gfn(d, new_mfn);
> + }
>
> - if ( (page->u.inuse.type_info & PGT_count_mask) == 1 )
> - {
> - /* Last reference */
> - if ( dirty_vram->sl1ma[i] == INVALID_PADDR ) {
> - /* We didn't know it was that one, let's say it is dirty */
> - dirty = 1;
> - }
> - else
> - {
> - ASSERT(dirty_vram->sl1ma[i] == sl1ma);
> - dirty_vram->sl1ma[i] = INVALID_PADDR;
> - if ( flags & _PAGE_DIRTY )
> - dirty = 1;
> - }
> - }
> - else
> + if ( old_gfn == new_gfn ) return;
> +
> + if ( VALID_M2P(old_gfn) )
> + if ( dirty_vram_range_update(d, old_gfn, sl1ma, 0/*clear*/) )
> {
> - /* We had more than one reference, just consider the page dirty.
> */
> - dirty = 1;
> - /* Check that it's not the one we recorded. */
> - if ( dirty_vram->sl1ma[i] == sl1ma )
> - {
> - /* Too bad, we remembered the wrong one... */
> - dirty_vram->sl1ma[i] = INVALID_PADDR;
> - }
> - else
> - {
> - /* Ok, our recorded sl1e is still pointing to this page,
> let's
> - * just hope it will remain. */
> - }
> + SHADOW_PRINTK("gfn %lx (mfn %lx) cleared vram pte\n",
> + old_gfn, mfn_x(old_mfn));
> }
> - if ( dirty )
> +
> + if ( VALID_M2P(new_gfn) )
> + if ( dirty_vram_range_update(d, new_gfn, sl1ma, 1/*set*/) )
> {
> - dirty_vram->dirty_bitmap[i / 8] |= 1 << (i % 8);
> - dirty_vram->last_dirty = NOW();
> + SHADOW_PRINTK("gfn %lx (mfn %lx) set vram pte\n",
> + new_gfn, mfn_x(new_mfn));
> }
> - }
> }
>
> static int shadow_set_l1e(struct vcpu *v,
> @@ -1211,12 +1167,13 @@ static int shadow_set_l1e(struct vcpu *v,
> shadow_l1e_remove_flags(new_sl1e, _PAGE_RW);
> /* fall through */
> case 0:
> - shadow_vram_get_l1e(new_sl1e, sl1e, sl1mfn, d);
> break;
> }
> }
> }
>
> + shadow_vram_fix_l1e(old_sl1e, new_sl1e, sl1e, sl1mfn, d);
> +
> /* Write the new entry */
> shadow_write_entries(sl1e, &new_sl1e, 1, sl1mfn);
> flags |= SHADOW_SET_CHANGED;
> @@ -1231,7 +1188,6 @@ static int shadow_set_l1e(struct vcpu *v,
> * trigger a flush later. */
> if ( shadow_mode_refcounts(d) )
> {
> - shadow_vram_put_l1e(old_sl1e, sl1e, sl1mfn, d);
> shadow_put_page_from_l1e(old_sl1e, d);
> TRACE_SHADOW_PATH_FLAG(TRCE_SFLAG_SHADOW_L1_PUT_REF);
> }
> @@ -2018,7 +1974,6 @@ void sh_destroy_l1_shadow(struct vcpu *v, mfn_t smfn)
> SHADOW_FOREACH_L1E(sl1mfn, sl1e, 0, 0, {
> if ( (shadow_l1e_get_flags(*sl1e) & _PAGE_PRESENT)
> && !sh_l1e_is_magic(*sl1e) ) {
> - shadow_vram_put_l1e(*sl1e, sl1e, sl1mfn, d);
> shadow_put_page_from_l1e(*sl1e, d);
> }
> });
> @@ -4336,6 +4291,37 @@ int sh_rm_mappings_from_l1(struct vcpu *v, mfn_t
> sl1mfn, mfn_t target_mfn)
> return done;
> }
>
> +
> +int sh_find_vram_mappings_in_l1(struct vcpu *v,
> + mfn_t sl1mfn,
> + unsigned long begin_pfn,
> + unsigned long end_pfn,
> + int *removed)
> +/* Find all VRAM mappings in this shadow l1 table */
> +{
> + struct domain *d = v->domain;
> + shadow_l1e_t *sl1e;
> + int done = 0;
> +
> + /* only returns _PAGE_PRESENT entries */
> + SHADOW_FOREACH_L1E(sl1mfn, sl1e, 0, done,
> + {
> + unsigned long gfn;
> + mfn_t gmfn = shadow_l1e_get_mfn(*sl1e);
> + if ( !mfn_valid(gmfn) )
> + continue;
> + gfn = mfn_to_gfn(d, gmfn);
> + if ( VALID_M2P(gfn) && (begin_pfn <= gfn) && (gfn < end_pfn) )
> + {
> + paddr_t sl1ma =
> + pfn_to_paddr(mfn_x(sl1mfn)) |
> + ( (unsigned long)sl1e & ~PAGE_MASK );
> + dirty_vram_range_update(v->domain, gfn, sl1ma, 1/*set*/);
> + }
> + });
> + return 0;
> +}
> +
> /**************************************************************************/
> /* Functions to excise all pointers to shadows from higher-level shadows. */
>
> diff --git a/xen/arch/x86/mm/shadow/multi.h b/xen/arch/x86/mm/shadow/multi.h
> index 835121e..436a4ac 100644
> --- a/xen/arch/x86/mm/shadow/multi.h
> +++ b/xen/arch/x86/mm/shadow/multi.h
> @@ -66,7 +66,12 @@ SHADOW_INTERNAL_NAME(sh_rm_write_access_from_l1,
> GUEST_LEVELS)
> extern int
> SHADOW_INTERNAL_NAME(sh_rm_mappings_from_l1, GUEST_LEVELS)
> (struct vcpu *v, mfn_t sl1mfn, mfn_t target_mfn);
> -
> +extern int
> +SHADOW_INTERNAL_NAME(sh_find_vram_mappings_in_l1, GUEST_LEVELS)
> + (struct vcpu *v, mfn_t sl1mfn,
> + unsigned long begin_pfn,
> + unsigned long end_pfn,
> + int *removed);
> extern void
> SHADOW_INTERNAL_NAME(sh_clear_shadow_entry, GUEST_LEVELS)
> (struct vcpu *v, void *ep, mfn_t smfn);
> diff --git a/xen/arch/x86/mm/shadow/types.h b/xen/arch/x86/mm/shadow/types.h
> index 43ce1db..5b0f9f7 100644
> --- a/xen/arch/x86/mm/shadow/types.h
> +++ b/xen/arch/x86/mm/shadow/types.h
> @@ -229,6 +229,7 @@ static inline shadow_l4e_t shadow_l4e_from_mfn(mfn_t mfn,
> u32 flags)
> #define sh_update_cr3 INTERNAL_NAME(sh_update_cr3)
> #define sh_rm_write_access_from_l1 INTERNAL_NAME(sh_rm_write_access_from_l1)
> #define sh_rm_mappings_from_l1 INTERNAL_NAME(sh_rm_mappings_from_l1)
> +#define sh_find_vram_mappings_in_l1
> INTERNAL_NAME(sh_find_vram_mappings_in_l1)
> #define sh_remove_l1_shadow INTERNAL_NAME(sh_remove_l1_shadow)
> #define sh_remove_l2_shadow INTERNAL_NAME(sh_remove_l2_shadow)
> #define sh_remove_l3_shadow INTERNAL_NAME(sh_remove_l3_shadow)
> diff --git a/xen/include/asm-x86/dirty_vram.h
> b/xen/include/asm-x86/dirty_vram.h
> new file mode 100644
> index 0000000..53be66e
> --- /dev/null
> +++ b/xen/include/asm-x86/dirty_vram.h
> @@ -0,0 +1,202 @@
> +/****************************************************************************
> + * include/asm-x86/dirty_vram.h
> + *
> + * Interface for tracking dirty VRAM pages
> + *
> + * Copyright (c) 2012 Citrix Systems, Inc. (Robert Phillips)
> + * Parts of this code are Copyright (c) 2007 Advanced Micro Devices (Wei
> Huang)
> + * Parts of this code are Copyright (c) 2006 by XenSource Inc.
> + * Parts of this code are Copyright (c) 2006 by Michael A Fetterman
> + * Parts based on earlier work by Michael A Fetterman, Ian Pratt et al.
> + *
> + * This program is free software; you can redistribute it and/or modify
> + * it under the terms of the GNU General Public License as published by
> + * the Free Software Foundation; either version 2 of the License, or
> + * (at your option) any later version.
> + *
> + * This program is distributed in the hope that it will be useful,
> + * but WITHOUT ANY WARRANTY; without even the implied warranty of
> + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
> + * GNU General Public License for more details.
> + *
> + * You should have received a copy of the GNU General Public License
> + * along with this program; if not, write to the Free Software
> + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
> + */
> +
> +#ifndef _DIRTY_VRAM_H
> +#define _DIRTY_VRAM_H
> +
> +/*
> + * In shadow mode we need to bookkeep all the L1 page table entries that
> + * map a frame buffer page. Struct dv_paddr_link does this by
> + * recording the address of a L1 page table entry for some frame buffer page.
> + * Also has a link to additional pl entries if the frame buffer page
> + * has multiple mappings.
> + * In practice very few pages have multiple mappings.
> + * But to rule out some pathological situation, we limit the number of
> + * mappings we're willing to bookkeep.
> + */
> +
> +#define DV_ADDR_LINK_LIST_LIMIT 64
> +
> +typedef struct dv_paddr_link {
> + paddr_t sl1ma;
> + struct dv_paddr_link *pl_next;
> +} dv_paddr_link_t;
> +
> +typedef struct dv_pl_entry {
> + dv_paddr_link_t mapping;
> + bool_t stuck_dirty;
> +} dv_pl_entry_t;
> +
> +/*
> + * This defines an extension page of pl entries for FB pages with multiple
> + * mappings. All such pages (of a domain) are linked together.
> + */
> +typedef struct dv_paddr_link_ext {
> + struct list_head ext_link;
> + dv_paddr_link_t entries[ ( PAGE_SIZE - sizeof( struct list_head ) ) /
> + sizeof( dv_paddr_link_t ) ];
> +} dv_paddr_link_ext_t;
> +
> +/*
> + * This defines a single frame buffer range. It bookkeeps all the
> + * level 1 PTEs that map guest pages within that range.
> + * All such ranges (of a domain) are linked together.
> + */
> +typedef struct dv_range {
> + struct list_head range_link; /* the several ranges form a linked list */
> + unsigned long begin_pfn;
> + unsigned long end_pfn;
> + dv_pl_entry_t *pl_tab; /* table has 1 pl entry per pfn in range */
> + int nr_mappings; /* total number of mappings in this range */
> + int mappings_hwm; /* high water mark of max mapping count */
> + unsigned int dirty_count;
> +} dv_range_t;
> +
> +/*
> + * This contains all the data structures required by a domain to
> + * bookkeep the dirty pages within its frame buffers.
> + */
> +typedef struct dv_dirty_vram {
> + struct list_head range_head; /* head of the linked list of ranges */
> + struct list_head ext_head; /* head of list of extension pages */
> + dv_paddr_link_t *pl_free; /* free list of pl's within extension pages */
> + int nr_ranges; /* bookkeeps number of ranges */
> + int ranges_hwm; /* high water mark of max number of ranges */
> +} dv_dirty_vram_t;
> +
> +/* Allocates domain's dirty_vram structure */
> +dv_dirty_vram_t *
> +dirty_vram_alloc(struct domain *d);
> +
> +/*
> + * Returns domain's dirty_vram structure,
> + * allocating it if necessary
> + */
> +dv_dirty_vram_t *
> +dirty_vram_find_or_alloc(struct domain *d);
> +
> +/* Frees domain's dirty_vram structure */
> +void dirty_vram_free(struct domain *d);
> +
> +/* Returns dirty vram range containing gfn, NULL if none */
> +struct dv_range *
> +dirty_vram_range_find_gfn(struct domain *d,
> + unsigned long gfn);
> +
> +/*
> + * Returns dirty vram range matching [ begin_pfn .. begin_pfn+nr ),
> + * NULL if none
> + */
> +dv_range_t *
> +dirty_vram_range_find(struct domain *d,
> + unsigned long begin_pfn,
> + unsigned long nr);
> +
> +/*
> + * Allocate dirty vram range containing [ begin_pfn .. begin_pfn+nr ),
> + * freeing any existing range that overlaps the new range.
> + */
> +dv_range_t *
> +dirty_vram_range_alloc(struct domain *d,
> + unsigned long begin_pfn,
> + unsigned long nr);
> +
> +/*
> + * Returns dirty vram range matching [ begin_pfn .. begin_pfn+nr ),
> + * creating a range if none already exists and
> + * freeing any existing range that overlaps the new range.
> + */
> +dv_range_t *
> +dirty_vram_range_find_or_alloc(struct domain *d,
> + unsigned long begin_pfn,
> + unsigned long nr);
> +
> +void dirty_vram_range_free(struct domain *d,
> + dv_range_t *range);
> +
> +/* Bookkeep PTE address of a frame buffer page */
> +int dirty_vram_range_update(struct domain *d,
> + unsigned long gfn,
> + paddr_t sl1ma,
> + int set);
> +
> +/*
> + * smfn is no longer a shadow page. Remove it from any
> + * dirty vram range mapping.
> + */
> +void
> +dirty_vram_delete_shadow(struct vcpu *v,
> + unsigned long gfn,
> + unsigned int shadow_type,
> + mfn_t smfn);
> +
> +
> +/*
> + * Scan all the L1 tables looking for VRAM mappings.
> + * Record them in the domain's dv_dirty_vram structure
> + */
> +void sh_find_all_vram_mappings(struct vcpu *v,
> + dv_range_t *range);
> +
> +/*
> + * Free a paddr_link struct, given address of its
> + * predecessor in singly-linked list
> + */
> +dv_paddr_link_t *
> +free_paddr_link(struct domain *d,
> + dv_paddr_link_t **ppl,
> + dv_paddr_link_t *pl);
> +
> +
> +/* Enable VRAM dirty tracking. */
> +int
> +shadow_track_dirty_vram(struct domain *d,
> + unsigned long first_pfn,
> + unsigned long nr,
> + XEN_GUEST_HANDLE_64(uint8) dirty_bitmap);
> +
> +int
> +hap_track_dirty_vram(struct domain *d,
> + unsigned long begin_pfn,
> + unsigned long nr,
> + XEN_GUEST_HANDLE_64(uint8) dirty_bitmap);
> +
> +void
> +hap_clean_vram_tracking_range(struct domain *d,
> + unsigned long begin_pfn,
> + unsigned long nr,
> + uint8_t *dirty_bitmap);
> +
> +#endif /* _DIRTY_VRAM_H */
> +
> +/*
> + * Local variables:
> + * mode: C
> + * c-file-style: "BSD"
> + * c-basic-offset: 4
> + * indent-tabs-mode: nil
> + * End:
> + */
> diff --git a/xen/include/asm-x86/hap.h b/xen/include/asm-x86/hap.h
> index 916a35b..3e3a1f5 100644
> --- a/xen/include/asm-x86/hap.h
> +++ b/xen/include/asm-x86/hap.h
> @@ -57,10 +57,6 @@ void hap_final_teardown(struct domain *d);
> void hap_teardown(struct domain *d);
> void hap_vcpu_init(struct vcpu *v);
> void hap_logdirty_init(struct domain *d);
> -int hap_track_dirty_vram(struct domain *d,
> - unsigned long begin_pfn,
> - unsigned long nr,
> - XEN_GUEST_HANDLE_64(uint8) dirty_bitmap);
>
> extern const struct paging_mode *hap_paging_get_mode(struct vcpu *);
>
> diff --git a/xen/include/asm-x86/hvm/domain.h
> b/xen/include/asm-x86/hvm/domain.h
> index 27b3de5..0cc7b05 100644
> --- a/xen/include/asm-x86/hvm/domain.h
> +++ b/xen/include/asm-x86/hvm/domain.h
> @@ -74,7 +74,7 @@ struct hvm_domain {
> struct list_head pinned_cacheattr_ranges;
>
> /* VRAM dirty support. */
> - struct sh_dirty_vram *dirty_vram;
> + struct dv_dirty_vram *dirty_vram;
>
> /* If one of vcpus of this domain is in no_fill_mode or
> * mtrr/pat between vcpus is not the same, set is_in_uc_mode
> diff --git a/xen/include/asm-x86/paging.h b/xen/include/asm-x86/paging.h
> index c3a8848..e22df38 100644
> --- a/xen/include/asm-x86/paging.h
> +++ b/xen/include/asm-x86/paging.h
> @@ -154,9 +154,13 @@ void paging_log_dirty_init(struct domain *d,
> int (*disable_log_dirty)(struct domain *d),
> void (*clean_dirty_bitmap)(struct domain *d));
>
> -/* mark a page as dirty */
> +/* mark a gmfn as dirty, a wrapper around marking a gpfn as dirty */
> void paging_mark_dirty(struct domain *d, unsigned long guest_mfn);
>
> +/* mark a gpfn as dirty */
> +void paging_mark_dirty_gpfn(struct domain *d, unsigned long gpfn);
> +
> +
> /* is this guest page dirty?
> * This is called from inside paging code, with the paging lock held. */
> int paging_mfn_is_dirty(struct domain *d, mfn_t gmfn);
> @@ -183,15 +187,6 @@ int paging_mfn_is_dirty(struct domain *d, mfn_t gmfn);
> #define L4_LOGDIRTY_IDX(pfn) 0
> #endif
>
> -/* VRAM dirty tracking support */
> -struct sh_dirty_vram {
> - unsigned long begin_pfn;
> - unsigned long end_pfn;
> - paddr_t *sl1ma;
> - uint8_t *dirty_bitmap;
> - s_time_t last_dirty;
> -};
> -
>
> /*****************************************************************************
> * Entry points into the paging-assistance code */
>
> diff --git a/xen/include/asm-x86/shadow.h b/xen/include/asm-x86/shadow.h
> index 2eb6efc..940d7fd 100644
> --- a/xen/include/asm-x86/shadow.h
> +++ b/xen/include/asm-x86/shadow.h
> @@ -62,12 +62,6 @@ void shadow_vcpu_init(struct vcpu *v);
> /* Enable an arbitrary shadow mode. Call once at domain creation. */
> int shadow_enable(struct domain *d, u32 mode);
>
> -/* Enable VRAM dirty bit tracking. */
> -int shadow_track_dirty_vram(struct domain *d,
> - unsigned long first_pfn,
> - unsigned long nr,
> - XEN_GUEST_HANDLE_64(uint8) dirty_bitmap);
> -
> /* Handler for shadow control ops: operations from user-space to enable
> * and disable ephemeral shadow modes (test mode and log-dirty mode) and
> * manipulate the log-dirty bitmap. */
> --
> 1.7.9.5
>
>
> _______________________________________________
> Xen-devel mailing list
> Xen-devel@xxxxxxxxxxxxx
> http://lists.xen.org/xen-devel
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