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|
/* $OpenBSD: uvm_map.c,v 1.106 2008/10/23 23:54:02 tedu Exp $ */
/* $NetBSD: uvm_map.c,v 1.86 2000/11/27 08:40:03 chs Exp $ */
/*
* Copyright (c) 1997 Charles D. Cranor and Washington University.
* Copyright (c) 1991, 1993, The Regents of the University of California.
*
* All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* The Mach Operating System project at Carnegie-Mellon University.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Charles D. Cranor,
* Washington University, the University of California, Berkeley and
* its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* @(#)vm_map.c 8.3 (Berkeley) 1/12/94
* from: Id: uvm_map.c,v 1.1.2.27 1998/02/07 01:16:54 chs Exp
*
*
* Copyright (c) 1987, 1990 Carnegie-Mellon University.
* All rights reserved.
*
* Permission to use, copy, modify and distribute this software and
* its documentation is hereby granted, provided that both the copyright
* notice and this permission notice appear in all copies of the
* software, derivative works or modified versions, and any portions
* thereof, and that both notices appear in supporting documentation.
*
* CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
* CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND
* FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
*
* Carnegie Mellon requests users of this software to return to
*
* Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU
* School of Computer Science
* Carnegie Mellon University
* Pittsburgh PA 15213-3890
*
* any improvements or extensions that they make and grant Carnegie the
* rights to redistribute these changes.
*/
/*
* uvm_map.c: uvm map operations
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/mman.h>
#include <sys/proc.h>
#include <sys/malloc.h>
#include <sys/pool.h>
#include <sys/kernel.h>
#include <dev/rndvar.h>
#ifdef SYSVSHM
#include <sys/shm.h>
#endif
#define UVM_MAP
#include <uvm/uvm.h>
#undef RB_AUGMENT
#define RB_AUGMENT(x) uvm_rb_augment(x)
#ifdef DDB
#include <uvm/uvm_ddb.h>
#endif
static struct timeval uvm_kmapent_last_warn_time;
static struct timeval uvm_kmapent_warn_rate = { 10, 0 };
struct uvm_cnt uvm_map_call, map_backmerge, map_forwmerge;
struct uvm_cnt map_nousermerge;
struct uvm_cnt uvm_mlk_call, uvm_mlk_hint;
const char vmmapbsy[] = "vmmapbsy";
/*
* Da history books
*/
UVMHIST_DECL(maphist);
UVMHIST_DECL(pdhist);
/*
* pool for vmspace structures.
*/
struct pool uvm_vmspace_pool;
/*
* pool for dynamically-allocated map entries.
*/
struct pool uvm_map_entry_pool;
struct pool uvm_map_entry_kmem_pool;
#ifdef PMAP_GROWKERNEL
/*
* This global represents the end of the kernel virtual address
* space. If we want to exceed this, we must grow the kernel
* virtual address space dynamically.
*
* Note, this variable is locked by kernel_map's lock.
*/
vaddr_t uvm_maxkaddr;
#endif
/*
* macros
*/
/*
* uvm_map_entry_link: insert entry into a map
*
* => map must be locked
*/
#define uvm_map_entry_link(map, after_where, entry) do { \
(map)->nentries++; \
(entry)->prev = (after_where); \
(entry)->next = (after_where)->next; \
(entry)->prev->next = (entry); \
(entry)->next->prev = (entry); \
uvm_rb_insert(map, entry); \
} while (0)
/*
* uvm_map_entry_unlink: remove entry from a map
*
* => map must be locked
*/
#define uvm_map_entry_unlink(map, entry) do { \
(map)->nentries--; \
(entry)->next->prev = (entry)->prev; \
(entry)->prev->next = (entry)->next; \
uvm_rb_remove(map, entry); \
} while (0)
/*
* SAVE_HINT: saves the specified entry as the hint for future lookups.
*
* => map need not be locked (protected by hint_lock).
*/
#define SAVE_HINT(map,check,value) do { \
simple_lock(&(map)->hint_lock); \
if ((map)->hint == (check)) \
(map)->hint = (value); \
simple_unlock(&(map)->hint_lock); \
} while (0)
/*
* VM_MAP_RANGE_CHECK: check and correct range
*
* => map must at least be read locked
*/
#define VM_MAP_RANGE_CHECK(map, start, end) do { \
if (start < vm_map_min(map)) \
start = vm_map_min(map); \
if (end > vm_map_max(map)) \
end = vm_map_max(map); \
if (start > end) \
start = end; \
} while (0)
/*
* local prototypes
*/
void uvm_mapent_copy(struct vm_map_entry *, struct vm_map_entry *);
void uvm_map_entry_unwire(struct vm_map *, struct vm_map_entry *);
void uvm_map_reference_amap(struct vm_map_entry *, int);
void uvm_map_unreference_amap(struct vm_map_entry *, int);
int uvm_map_spacefits(struct vm_map *, vaddr_t *, vsize_t,
struct vm_map_entry *, voff_t, vsize_t);
struct vm_map_entry *uvm_mapent_alloc(struct vm_map *);
void uvm_mapent_free(struct vm_map_entry *);
/*
* Tree manipulation.
*/
void uvm_rb_insert(struct vm_map *, struct vm_map_entry *);
void uvm_rb_remove(struct vm_map *, struct vm_map_entry *);
vsize_t uvm_rb_space(struct vm_map *, struct vm_map_entry *);
#ifdef DEBUG
int _uvm_tree_sanity(struct vm_map *map, const char *name);
#endif
vsize_t uvm_rb_subtree_space(struct vm_map_entry *);
void uvm_rb_fixup(struct vm_map *, struct vm_map_entry *);
static __inline int
uvm_compare(struct vm_map_entry *a, struct vm_map_entry *b)
{
if (a->start < b->start)
return (-1);
else if (a->start > b->start)
return (1);
return (0);
}
static __inline void
uvm_rb_augment(struct vm_map_entry *entry)
{
entry->space = uvm_rb_subtree_space(entry);
}
RB_PROTOTYPE(uvm_tree, vm_map_entry, rb_entry, uvm_compare);
RB_GENERATE(uvm_tree, vm_map_entry, rb_entry, uvm_compare);
vsize_t
uvm_rb_space(struct vm_map *map, struct vm_map_entry *entry)
{
struct vm_map_entry *next;
vaddr_t space;
if ((next = entry->next) == &map->header)
space = map->max_offset - entry->end;
else {
KASSERT(next);
space = next->start - entry->end;
}
return (space);
}
vsize_t
uvm_rb_subtree_space(struct vm_map_entry *entry)
{
vaddr_t space, tmp;
space = entry->ownspace;
if (RB_LEFT(entry, rb_entry)) {
tmp = RB_LEFT(entry, rb_entry)->space;
if (tmp > space)
space = tmp;
}
if (RB_RIGHT(entry, rb_entry)) {
tmp = RB_RIGHT(entry, rb_entry)->space;
if (tmp > space)
space = tmp;
}
return (space);
}
void
uvm_rb_fixup(struct vm_map *map, struct vm_map_entry *entry)
{
/* We need to traverse to the very top */
do {
entry->ownspace = uvm_rb_space(map, entry);
entry->space = uvm_rb_subtree_space(entry);
} while ((entry = RB_PARENT(entry, rb_entry)) != NULL);
}
void
uvm_rb_insert(struct vm_map *map, struct vm_map_entry *entry)
{
vaddr_t space = uvm_rb_space(map, entry);
struct vm_map_entry *tmp;
entry->ownspace = entry->space = space;
tmp = RB_INSERT(uvm_tree, &(map)->rbhead, entry);
#ifdef DIAGNOSTIC
if (tmp != NULL)
panic("uvm_rb_insert: duplicate entry?");
#endif
uvm_rb_fixup(map, entry);
if (entry->prev != &map->header)
uvm_rb_fixup(map, entry->prev);
}
void
uvm_rb_remove(struct vm_map *map, struct vm_map_entry *entry)
{
struct vm_map_entry *parent;
parent = RB_PARENT(entry, rb_entry);
RB_REMOVE(uvm_tree, &(map)->rbhead, entry);
if (entry->prev != &map->header)
uvm_rb_fixup(map, entry->prev);
if (parent)
uvm_rb_fixup(map, parent);
}
#ifdef DEBUG
#define uvm_tree_sanity(x,y) _uvm_tree_sanity(x,y)
#else
#define uvm_tree_sanity(x,y)
#endif
#ifdef DEBUG
int
_uvm_tree_sanity(struct vm_map *map, const char *name)
{
struct vm_map_entry *tmp, *trtmp;
int n = 0, i = 1;
RB_FOREACH(tmp, uvm_tree, &map->rbhead) {
if (tmp->ownspace != uvm_rb_space(map, tmp)) {
printf("%s: %d/%d ownspace %x != %x %s\n",
name, n + 1, map->nentries,
tmp->ownspace, uvm_rb_space(map, tmp),
tmp->next == &map->header ? "(last)" : "");
goto error;
}
}
trtmp = NULL;
RB_FOREACH(tmp, uvm_tree, &map->rbhead) {
if (tmp->space != uvm_rb_subtree_space(tmp)) {
printf("%s: space %d != %d\n",
name, tmp->space, uvm_rb_subtree_space(tmp));
goto error;
}
if (trtmp != NULL && trtmp->start >= tmp->start) {
printf("%s: corrupt: 0x%lx >= 0x%lx\n",
name, trtmp->start, tmp->start);
goto error;
}
n++;
trtmp = tmp;
}
if (n != map->nentries) {
printf("%s: nentries: %d vs %d\n",
name, n, map->nentries);
goto error;
}
for (tmp = map->header.next; tmp && tmp != &map->header;
tmp = tmp->next, i++) {
trtmp = RB_FIND(uvm_tree, &map->rbhead, tmp);
if (trtmp != tmp) {
printf("%s: lookup: %d: %p - %p: %p\n",
name, i, tmp, trtmp,
RB_PARENT(tmp, rb_entry));
goto error;
}
}
return (0);
error:
#ifdef DDB
/* handy breakpoint location for error case */
__asm(".globl treesanity_label\ntreesanity_label:");
#endif
return (-1);
}
#endif
/*
* uvm_mapent_alloc: allocate a map entry
*/
struct vm_map_entry *
uvm_mapent_alloc(struct vm_map *map)
{
struct vm_map_entry *me, *ne;
int s, i;
int slowdown;
UVMHIST_FUNC("uvm_mapent_alloc"); UVMHIST_CALLED(maphist);
if (map->flags & VM_MAP_INTRSAFE || cold) {
s = splvm();
simple_lock(&uvm.kentry_lock);
me = uvm.kentry_free;
if (me == NULL) {
ne = uvm_km_getpage(0, &slowdown);
if (ne == NULL)
panic("uvm_mapent_alloc: cannot allocate map "
"entry");
for (i = 0;
i < PAGE_SIZE / sizeof(struct vm_map_entry) - 1;
i++)
ne[i].next = &ne[i + 1];
ne[i].next = NULL;
me = ne;
if (ratecheck(&uvm_kmapent_last_warn_time,
&uvm_kmapent_warn_rate))
printf("uvm_mapent_alloc: out of static "
"map entries\n");
}
uvm.kentry_free = me->next;
uvmexp.kmapent++;
simple_unlock(&uvm.kentry_lock);
splx(s);
me->flags = UVM_MAP_STATIC;
} else if (map == kernel_map) {
splassert(IPL_NONE);
me = pool_get(&uvm_map_entry_kmem_pool, PR_WAITOK);
me->flags = UVM_MAP_KMEM;
} else {
splassert(IPL_NONE);
me = pool_get(&uvm_map_entry_pool, PR_WAITOK);
me->flags = 0;
}
UVMHIST_LOG(maphist, "<- new entry=%p [kentry=%ld]", me,
((map->flags & VM_MAP_INTRSAFE) != 0 || map == kernel_map), 0, 0);
return(me);
}
/*
* uvm_mapent_free: free map entry
*
* => XXX: static pool for kernel map?
*/
void
uvm_mapent_free(struct vm_map_entry *me)
{
int s;
UVMHIST_FUNC("uvm_mapent_free"); UVMHIST_CALLED(maphist);
UVMHIST_LOG(maphist,"<- freeing map entry=%p [flags=%ld]",
me, me->flags, 0, 0);
if (me->flags & UVM_MAP_STATIC) {
s = splvm();
simple_lock(&uvm.kentry_lock);
me->next = uvm.kentry_free;
uvm.kentry_free = me;
uvmexp.kmapent--;
simple_unlock(&uvm.kentry_lock);
splx(s);
} else if (me->flags & UVM_MAP_KMEM) {
splassert(IPL_NONE);
pool_put(&uvm_map_entry_kmem_pool, me);
} else {
splassert(IPL_NONE);
pool_put(&uvm_map_entry_pool, me);
}
}
/*
* uvm_mapent_copy: copy a map entry, preserving flags
*/
void
uvm_mapent_copy(struct vm_map_entry *src, struct vm_map_entry *dst)
{
memcpy(dst, src, ((char *)&src->uvm_map_entry_stop_copy) -
((char *)src));
}
/*
* uvm_map_entry_unwire: unwire a map entry
*
* => map should be locked by caller
*/
void
uvm_map_entry_unwire(struct vm_map *map, struct vm_map_entry *entry)
{
entry->wired_count = 0;
uvm_fault_unwire_locked(map, entry->start, entry->end);
}
/*
* wrapper for calling amap_ref()
*/
void
uvm_map_reference_amap(struct vm_map_entry *entry, int flags)
{
amap_ref(entry->aref.ar_amap, entry->aref.ar_pageoff,
(entry->end - entry->start) >> PAGE_SHIFT, flags);
}
/*
* wrapper for calling amap_unref()
*/
void
uvm_map_unreference_amap(struct vm_map_entry *entry, int flags)
{
amap_unref(entry->aref.ar_amap, entry->aref.ar_pageoff,
(entry->end - entry->start) >> PAGE_SHIFT, flags);
}
/*
* uvm_map_init: init mapping system at boot time. note that we allocate
* and init the static pool of structs vm_map_entry for the kernel here.
*/
void
uvm_map_init(void)
{
static struct vm_map_entry kernel_map_entry[MAX_KMAPENT];
#if defined(UVMHIST)
static struct uvm_history_ent maphistbuf[100];
static struct uvm_history_ent pdhistbuf[100];
#endif
int lcv;
/*
* first, init logging system.
*/
UVMHIST_FUNC("uvm_map_init");
UVMHIST_INIT_STATIC(maphist, maphistbuf);
UVMHIST_INIT_STATIC(pdhist, pdhistbuf);
UVMHIST_CALLED(maphist);
UVMHIST_LOG(maphist,"<starting uvm map system>", 0, 0, 0, 0);
UVMCNT_INIT(uvm_map_call, UVMCNT_CNT, 0,
"# uvm_map() successful calls", 0);
UVMCNT_INIT(map_backmerge, UVMCNT_CNT, 0, "# uvm_map() back merges", 0);
UVMCNT_INIT(map_forwmerge, UVMCNT_CNT, 0, "# uvm_map() missed forward",
0);
UVMCNT_INIT(map_nousermerge, UVMCNT_CNT, 0, "# back merges skipped", 0);
UVMCNT_INIT(uvm_mlk_call, UVMCNT_CNT, 0, "# map lookup calls", 0);
UVMCNT_INIT(uvm_mlk_hint, UVMCNT_CNT, 0, "# map lookup hint hits", 0);
/*
* now set up static pool of kernel map entries ...
*/
simple_lock_init(&uvm.kentry_lock);
uvm.kentry_free = NULL;
for (lcv = 0 ; lcv < MAX_KMAPENT ; lcv++) {
kernel_map_entry[lcv].next = uvm.kentry_free;
uvm.kentry_free = &kernel_map_entry[lcv];
}
/*
* initialize the map-related pools.
*/
pool_init(&uvm_vmspace_pool, sizeof(struct vmspace),
0, 0, 0, "vmsppl", &pool_allocator_nointr);
pool_init(&uvm_map_entry_pool, sizeof(struct vm_map_entry),
0, 0, 0, "vmmpepl", &pool_allocator_nointr);
pool_init(&uvm_map_entry_kmem_pool, sizeof(struct vm_map_entry),
0, 0, 0, "vmmpekpl", NULL);
pool_sethiwat(&uvm_map_entry_pool, 8192);
}
/*
* clippers
*/
/*
* uvm_map_clip_start: ensure that the entry begins at or after
* the starting address, if it doesn't we split the entry.
*
* => caller should use UVM_MAP_CLIP_START macro rather than calling
* this directly
* => map must be locked by caller
*/
void
uvm_map_clip_start(struct vm_map *map, struct vm_map_entry *entry,
vaddr_t start)
{
struct vm_map_entry *new_entry;
vaddr_t new_adj;
/* uvm_map_simplify_entry(map, entry); */ /* XXX */
uvm_tree_sanity(map, "clip_start entry");
/*
* Split off the front portion. note that we must insert the new
* entry BEFORE this one, so that this entry has the specified
* starting address.
*/
new_entry = uvm_mapent_alloc(map);
uvm_mapent_copy(entry, new_entry); /* entry -> new_entry */
new_entry->end = start;
new_adj = start - new_entry->start;
if (entry->object.uvm_obj)
entry->offset += new_adj; /* shift start over */
/* Does not change order for the RB tree */
entry->start = start;
if (new_entry->aref.ar_amap) {
amap_splitref(&new_entry->aref, &entry->aref, new_adj);
}
uvm_map_entry_link(map, entry->prev, new_entry);
if (UVM_ET_ISSUBMAP(entry)) {
/* ... unlikely to happen, but play it safe */
uvm_map_reference(new_entry->object.sub_map);
} else {
if (UVM_ET_ISOBJ(entry) &&
entry->object.uvm_obj->pgops &&
entry->object.uvm_obj->pgops->pgo_reference)
entry->object.uvm_obj->pgops->pgo_reference(
entry->object.uvm_obj);
}
uvm_tree_sanity(map, "clip_start leave");
}
/*
* uvm_map_clip_end: ensure that the entry ends at or before
* the ending address, if it doesn't we split the reference
*
* => caller should use UVM_MAP_CLIP_END macro rather than calling
* this directly
* => map must be locked by caller
*/
void
uvm_map_clip_end(struct vm_map *map, struct vm_map_entry *entry, vaddr_t end)
{
struct vm_map_entry *new_entry;
vaddr_t new_adj; /* #bytes we move start forward */
uvm_tree_sanity(map, "clip_end entry");
/*
* Create a new entry and insert it
* AFTER the specified entry
*/
new_entry = uvm_mapent_alloc(map);
uvm_mapent_copy(entry, new_entry); /* entry -> new_entry */
new_entry->start = entry->end = end;
new_adj = end - entry->start;
if (new_entry->object.uvm_obj)
new_entry->offset += new_adj;
if (entry->aref.ar_amap)
amap_splitref(&entry->aref, &new_entry->aref, new_adj);
uvm_rb_fixup(map, entry);
uvm_map_entry_link(map, entry, new_entry);
if (UVM_ET_ISSUBMAP(entry)) {
/* ... unlikely to happen, but play it safe */
uvm_map_reference(new_entry->object.sub_map);
} else {
if (UVM_ET_ISOBJ(entry) &&
entry->object.uvm_obj->pgops &&
entry->object.uvm_obj->pgops->pgo_reference)
entry->object.uvm_obj->pgops->pgo_reference(
entry->object.uvm_obj);
}
uvm_tree_sanity(map, "clip_end leave");
}
/*
* M A P - m a i n e n t r y p o i n t
*/
/*
* uvm_map: establish a valid mapping in a map
*
* => assume startp is page aligned.
* => assume size is a multiple of PAGE_SIZE.
* => assume sys_mmap provides enough of a "hint" to have us skip
* over text/data/bss area.
* => map must be unlocked (we will lock it)
* => <uobj,uoffset> value meanings (4 cases):
* [1] <NULL,uoffset> == uoffset is a hint for PMAP_PREFER
* [2] <NULL,UVM_UNKNOWN_OFFSET> == don't PMAP_PREFER
* [3] <uobj,uoffset> == normal mapping
* [4] <uobj,UVM_UNKNOWN_OFFSET> == uvm_map finds offset based on VA
*
* case [4] is for kernel mappings where we don't know the offset until
* we've found a virtual address. note that kernel object offsets are
* always relative to vm_map_min(kernel_map).
*
* => if `align' is non-zero, we try to align the virtual address to
* the specified alignment. this is only a hint; if we can't
* do it, the address will be unaligned. this is provided as
* a mechanism for large pages.
*
* => XXXCDC: need way to map in external amap?
*/
int
uvm_map_p(struct vm_map *map, vaddr_t *startp, vsize_t size,
struct uvm_object *uobj, voff_t uoffset, vsize_t align, uvm_flag_t flags,
struct proc *p)
{
struct vm_map_entry *prev_entry, *new_entry;
vm_prot_t prot = UVM_PROTECTION(flags), maxprot =
UVM_MAXPROTECTION(flags);
vm_inherit_t inherit = UVM_INHERIT(flags);
int advice = UVM_ADVICE(flags);
int error;
UVMHIST_FUNC("uvm_map");
UVMHIST_CALLED(maphist);
UVMHIST_LOG(maphist, "(map=%p, *startp=0x%lx, size=%ld, flags=0x%lx)",
map, *startp, size, flags);
UVMHIST_LOG(maphist, " uobj/offset %p/%ld", uobj, (u_long)uoffset,0,0);
uvm_tree_sanity(map, "map entry");
if ((map->flags & VM_MAP_INTRSAFE) == 0)
splassert(IPL_NONE);
else
splassert(IPL_VM);
/*
* step 0: sanity check of protection code
*/
if ((prot & maxprot) != prot) {
UVMHIST_LOG(maphist, "<- prot. failure: prot=0x%lx, max=0x%lx",
prot, maxprot,0,0);
return (EACCES);
}
/*
* step 1: figure out where to put new VM range
*/
if (vm_map_lock_try(map) == FALSE) {
if (flags & UVM_FLAG_TRYLOCK)
return (EFAULT);
vm_map_lock(map); /* could sleep here */
}
if ((prev_entry = uvm_map_findspace(map, *startp, size, startp,
uobj, uoffset, align, flags)) == NULL) {
UVMHIST_LOG(maphist,"<- uvm_map_findspace failed!",0,0,0,0);
vm_map_unlock(map);
return (ENOMEM);
}
#ifdef PMAP_GROWKERNEL
{
/*
* If the kernel pmap can't map the requested space,
* then allocate more resources for it.
*/
if (map == kernel_map && uvm_maxkaddr < (*startp + size))
uvm_maxkaddr = pmap_growkernel(*startp + size);
}
#endif
UVMCNT_INCR(uvm_map_call);
/*
* if uobj is null, then uoffset is either a VAC hint for PMAP_PREFER
* [typically from uvm_map_reserve] or it is UVM_UNKNOWN_OFFSET. in
* either case we want to zero it before storing it in the map entry
* (because it looks strange and confusing when debugging...)
*
* if uobj is not null
* if uoffset is not UVM_UNKNOWN_OFFSET then we have a normal mapping
* and we do not need to change uoffset.
* if uoffset is UVM_UNKNOWN_OFFSET then we need to find the offset
* now (based on the starting address of the map). this case is
* for kernel object mappings where we don't know the offset until
* the virtual address is found (with uvm_map_findspace). the
* offset is the distance we are from the start of the map.
*/
if (uobj == NULL) {
uoffset = 0;
} else {
if (uoffset == UVM_UNKNOWN_OFFSET) {
KASSERT(UVM_OBJ_IS_KERN_OBJECT(uobj));
uoffset = *startp - vm_map_min(kernel_map);
}
}
/*
* step 2: try and insert in map by extending previous entry, if
* possible
* XXX: we don't try and pull back the next entry. might be useful
* for a stack, but we are currently allocating our stack in advance.
*/
if ((flags & UVM_FLAG_NOMERGE) == 0 &&
prev_entry->end == *startp && prev_entry != &map->header &&
prev_entry->object.uvm_obj == uobj) {
if (uobj && prev_entry->offset +
(prev_entry->end - prev_entry->start) != uoffset)
goto step3;
if (UVM_ET_ISSUBMAP(prev_entry))
goto step3;
if (prev_entry->protection != prot ||
prev_entry->max_protection != maxprot)
goto step3;
if (prev_entry->inheritance != inherit ||
prev_entry->advice != advice)
goto step3;
/* wiring status must match (new area is unwired) */
if (VM_MAPENT_ISWIRED(prev_entry))
goto step3;
/*
* can't extend a shared amap. note: no need to lock amap to
* look at refs since we don't care about its exact value.
* if it is one (i.e. we have only reference) it will stay there
*/
if (prev_entry->aref.ar_amap &&
amap_refs(prev_entry->aref.ar_amap) != 1) {
goto step3;
}
/*
* Only merge kernel mappings, but keep track
* of how much we skipped.
*/
if (map != kernel_map && map != kmem_map) {
UVMCNT_INCR(map_nousermerge);
goto step3;
}
if (prev_entry->aref.ar_amap) {
error = amap_extend(prev_entry, size);
if (error)
goto step3;
}
UVMCNT_INCR(map_backmerge);
UVMHIST_LOG(maphist," starting back merge", 0, 0, 0, 0);
/*
* drop our reference to uobj since we are extending a reference
* that we already have (the ref count can not drop to zero).
*/
if (uobj && uobj->pgops->pgo_detach)
uobj->pgops->pgo_detach(uobj);
prev_entry->end += size;
uvm_rb_fixup(map, prev_entry);
map->size += size;
if (p && uobj == NULL)
p->p_vmspace->vm_dused += atop(size);
uvm_tree_sanity(map, "map leave 2");
UVMHIST_LOG(maphist,"<- done (via backmerge)!", 0, 0, 0, 0);
vm_map_unlock(map);
return (0);
}
step3:
UVMHIST_LOG(maphist," allocating new map entry", 0, 0, 0, 0);
/*
* check for possible forward merge (which we don't do) and count
* the number of times we missed a *possible* chance to merge more
*/
if ((flags & UVM_FLAG_NOMERGE) == 0 &&
prev_entry->next != &map->header &&
prev_entry->next->start == (*startp + size))
UVMCNT_INCR(map_forwmerge);
/*
* step 3: allocate new entry and link it in
*/
new_entry = uvm_mapent_alloc(map);
new_entry->start = *startp;
new_entry->end = new_entry->start + size;
new_entry->object.uvm_obj = uobj;
new_entry->offset = uoffset;
if (uobj)
new_entry->etype = UVM_ET_OBJ;
else
new_entry->etype = 0;
if (flags & UVM_FLAG_COPYONW) {
new_entry->etype |= UVM_ET_COPYONWRITE;
if ((flags & UVM_FLAG_OVERLAY) == 0)
new_entry->etype |= UVM_ET_NEEDSCOPY;
}
if (flags & UVM_FLAG_HOLE)
new_entry->etype |= UVM_ET_HOLE;
new_entry->protection = prot;
new_entry->max_protection = maxprot;
new_entry->inheritance = inherit;
new_entry->wired_count = 0;
new_entry->advice = advice;
if (flags & UVM_FLAG_OVERLAY) {
/*
* to_add: for BSS we overallocate a little since we
* are likely to extend
*/
vaddr_t to_add = (flags & UVM_FLAG_AMAPPAD) ?
UVM_AMAP_CHUNK << PAGE_SHIFT : 0;
struct vm_amap *amap = amap_alloc(size, to_add, M_WAITOK);
new_entry->aref.ar_pageoff = 0;
new_entry->aref.ar_amap = amap;
} else {
new_entry->aref.ar_pageoff = 0;
new_entry->aref.ar_amap = NULL;
}
uvm_map_entry_link(map, prev_entry, new_entry);
map->size += size;
if (p && uobj == NULL)
p->p_vmspace->vm_dused += atop(size);
/*
* Update the free space hint
*/
if ((map->first_free == prev_entry) &&
(prev_entry->end >= new_entry->start))
map->first_free = new_entry;
uvm_tree_sanity(map, "map leave");
UVMHIST_LOG(maphist,"<- done!", 0, 0, 0, 0);
vm_map_unlock(map);
return (0);
}
/*
* uvm_map_lookup_entry: find map entry at or before an address
*
* => map must at least be read-locked by caller
* => entry is returned in "entry"
* => return value is true if address is in the returned entry
*/
boolean_t
uvm_map_lookup_entry(struct vm_map *map, vaddr_t address,
struct vm_map_entry **entry)
{
struct vm_map_entry *cur;
struct vm_map_entry *last;
int use_tree = 0;
UVMHIST_FUNC("uvm_map_lookup_entry");
UVMHIST_CALLED(maphist);
UVMHIST_LOG(maphist,"(map=%p,addr=0x%lx,ent=%p)",
map, address, entry, 0);
/*
* start looking either from the head of the
* list, or from the hint.
*/
simple_lock(&map->hint_lock);
cur = map->hint;
simple_unlock(&map->hint_lock);
if (cur == &map->header)
cur = cur->next;
UVMCNT_INCR(uvm_mlk_call);
if (address >= cur->start) {
/*
* go from hint to end of list.
*
* but first, make a quick check to see if
* we are already looking at the entry we
* want (which is usually the case).
* note also that we don't need to save the hint
* here... it is the same hint (unless we are
* at the header, in which case the hint didn't
* buy us anything anyway).
*/
last = &map->header;
if ((cur != last) && (cur->end > address)) {
UVMCNT_INCR(uvm_mlk_hint);
*entry = cur;
UVMHIST_LOG(maphist,"<- got it via hint (%p)",
cur, 0, 0, 0);
return (TRUE);
}
if (map->nentries > 30)
use_tree = 1;
} else {
/*
* go from start to hint, *inclusively*
*/
last = cur->next;
cur = map->header.next;
use_tree = 1;
}
uvm_tree_sanity(map, __func__);
if (use_tree) {
struct vm_map_entry *prev = &map->header;
cur = RB_ROOT(&map->rbhead);
/*
* Simple lookup in the tree. Happens when the hint is
* invalid, or nentries reach a threshold.
*/
while (cur) {
if (address >= cur->start) {
if (address < cur->end) {
*entry = cur;
SAVE_HINT(map, map->hint, cur);
return (TRUE);
}
prev = cur;
cur = RB_RIGHT(cur, rb_entry);
} else
cur = RB_LEFT(cur, rb_entry);
}
*entry = prev;
UVMHIST_LOG(maphist,"<- failed!",0,0,0,0);
return (FALSE);
}
/*
* search linearly
*/
while (cur != last) {
if (cur->end > address) {
if (address >= cur->start) {
/*
* save this lookup for future
* hints, and return
*/
*entry = cur;
SAVE_HINT(map, map->hint, cur);
UVMHIST_LOG(maphist,"<- search got it (%p)",
cur, 0, 0, 0);
return (TRUE);
}
break;
}
cur = cur->next;
}
*entry = cur->prev;
SAVE_HINT(map, map->hint, *entry);
UVMHIST_LOG(maphist,"<- failed!",0,0,0,0);
return (FALSE);
}
/*
* Checks if address pointed to be phint fits into the empty
* space before the vm_map_entry after. Takes aligment and
* offset into consideration.
*/
int
uvm_map_spacefits(struct vm_map *map, vaddr_t *phint, vsize_t length,
struct vm_map_entry *after, voff_t uoffset, vsize_t align)
{
vaddr_t hint = *phint;
vaddr_t end;
#ifdef PMAP_PREFER
/*
* push hint forward as needed to avoid VAC alias problems.
* we only do this if a valid offset is specified.
*/
if (uoffset != UVM_UNKNOWN_OFFSET)
PMAP_PREFER(uoffset, &hint);
#endif
if (align != 0)
if ((hint & (align - 1)) != 0)
hint = roundup(hint, align);
*phint = hint;
end = hint + length;
if (end > map->max_offset || end < hint)
return (FALSE);
if (after != NULL && after != &map->header && after->start < end)
return (FALSE);
return (TRUE);
}
/*
* uvm_map_pie: return a random load address for a PIE executable
* properly aligned.
*/
#ifndef VM_PIE_MAX_ADDR
#define VM_PIE_MAX_ADDR (VM_MAXUSER_ADDRESS / 4)
#endif
#ifndef VM_PIE_MIN_ADDR
#define VM_PIE_MIN_ADDR VM_MIN_ADDRESS
#endif
#ifndef VM_PIE_MIN_ALIGN
#define VM_PIE_MIN_ALIGN PAGE_SIZE
#endif
vaddr_t
uvm_map_pie(vaddr_t align)
{
vaddr_t addr, space, min;
align = MAX(align, VM_PIE_MIN_ALIGN);
/* round up to next alignment */
min = (VM_PIE_MIN_ADDR + align - 1) & ~(align - 1);
if (align >= VM_PIE_MAX_ADDR || min >= VM_PIE_MAX_ADDR)
return (align);
space = (VM_PIE_MAX_ADDR - min) / align;
space = MIN(space, (u_int32_t)-1);
addr = (vaddr_t)arc4random_uniform((u_int32_t)space) * align;
addr += min;
return (addr);
}
/*
* uvm_map_hint: return the beginning of the best area suitable for
* creating a new mapping with "prot" protection.
*/
vaddr_t
uvm_map_hint(struct proc *p, vm_prot_t prot)
{
vaddr_t addr;
#ifdef __i386__
/*
* If executable skip first two pages, otherwise start
* after data + heap region.
*/
if ((prot & VM_PROT_EXECUTE) &&
((vaddr_t)p->p_vmspace->vm_daddr >= I386_MAX_EXE_ADDR)) {
addr = (PAGE_SIZE*2) +
(arc4random() & (I386_MAX_EXE_ADDR / 2 - 1));
return (round_page(addr));
}
#endif
addr = (vaddr_t)p->p_vmspace->vm_daddr + MAXDSIZ;
#if !defined(__vax__)
addr += arc4random() & (MIN((256 * 1024 * 1024), MAXDSIZ) - 1);
#else
/* start malloc/mmap after the brk */
addr = (vaddr_t)p->p_vmspace->vm_daddr + BRKSIZ;
#endif
return (round_page(addr));
}
/*
* uvm_map_findspace: find "length" sized space in "map".
*
* => "hint" is a hint about where we want it, unless FINDSPACE_FIXED is
* set (in which case we insist on using "hint").
* => "result" is VA returned
* => uobj/uoffset are to be used to handle VAC alignment, if required
* => if `align' is non-zero, we attempt to align to that value.
* => caller must at least have read-locked map
* => returns NULL on failure, or pointer to prev. map entry if success
* => note this is a cross between the old vm_map_findspace and vm_map_find
*/
struct vm_map_entry *
uvm_map_findspace(struct vm_map *map, vaddr_t hint, vsize_t length,
vaddr_t *result, struct uvm_object *uobj, voff_t uoffset, vsize_t align,
int flags)
{
struct vm_map_entry *entry, *next, *tmp;
struct vm_map_entry *child, *prev = NULL;
vaddr_t end, orig_hint;
UVMHIST_FUNC("uvm_map_findspace");
UVMHIST_CALLED(maphist);
UVMHIST_LOG(maphist, "(map=%p, hint=0x%lx, len=%ld, flags=0x%lx)",
map, hint, length, flags);
KASSERT((align & (align - 1)) == 0);
KASSERT((flags & UVM_FLAG_FIXED) == 0 || align == 0);
uvm_tree_sanity(map, "map_findspace entry");
/*
* remember the original hint. if we are aligning, then we
* may have to try again with no alignment constraint if
* we fail the first time.
*/
orig_hint = hint;
if (hint < map->min_offset) { /* check ranges ... */
if (flags & UVM_FLAG_FIXED) {
UVMHIST_LOG(maphist,"<- VA below map range",0,0,0,0);
return(NULL);
}
hint = map->min_offset;
}
if (hint > map->max_offset) {
UVMHIST_LOG(maphist,"<- VA 0x%lx > range [0x%lx->0x%lx]",
hint, map->min_offset, map->max_offset, 0);
return(NULL);
}
/*
* Look for the first possible address; if there's already
* something at this address, we have to start after it.
*/
if ((flags & UVM_FLAG_FIXED) == 0 && hint == map->min_offset) {
if ((entry = map->first_free) != &map->header)
hint = entry->end;
} else {
if (uvm_map_lookup_entry(map, hint, &tmp)) {
/* "hint" address already in use ... */
if (flags & UVM_FLAG_FIXED) {
UVMHIST_LOG(maphist,"<- fixed & VA in use",
0, 0, 0, 0);
return(NULL);
}
hint = tmp->end;
}
entry = tmp;
}
if (flags & UVM_FLAG_FIXED) {
end = hint + length;
if (end > map->max_offset || end < hint) {
UVMHIST_LOG(maphist,"<- failed (off end)", 0,0,0,0);
goto error;
}
next = entry->next;
if (next == &map->header || next->start >= end)
goto found;
UVMHIST_LOG(maphist,"<- fixed mapping failed", 0,0,0,0);
return(NULL); /* only one shot at it ... */
}
/* Try to find the space in the red-black tree */
/* Check slot before any entry */
if (uvm_map_spacefits(map, &hint, length, entry->next, uoffset, align))
goto found;
/* If there is not enough space in the whole tree, we fail */
tmp = RB_ROOT(&map->rbhead);
if (tmp == NULL || tmp->space < length)
goto error;
/* Find an entry close to hint that has enough space */
for (; tmp;) {
if (tmp->end >= hint &&
(prev == NULL || tmp->end < prev->end)) {
if (tmp->ownspace >= length)
prev = tmp;
else if ((child = RB_RIGHT(tmp, rb_entry)) != NULL &&
child->space >= length)
prev = tmp;
}
if (tmp->end < hint)
child = RB_RIGHT(tmp, rb_entry);
else if (tmp->end > hint)
child = RB_LEFT(tmp, rb_entry);
else {
if (tmp->ownspace >= length)
break;
child = RB_RIGHT(tmp, rb_entry);
}
if (child == NULL || child->space < length)
break;
tmp = child;
}
if (tmp != NULL && hint < tmp->end + tmp->ownspace) {
/*
* Check if the entry that we found satifies the
* space requirement
*/
if (hint < tmp->end)
hint = tmp->end;
if (uvm_map_spacefits(map, &hint, length, tmp->next, uoffset,
align)) {
entry = tmp;
goto found;
} else if (tmp->ownspace >= length)
goto listsearch;
}
if (prev == NULL)
goto error;
hint = prev->end;
if (uvm_map_spacefits(map, &hint, length, prev->next, uoffset,
align)) {
entry = prev;
goto found;
} else if (prev->ownspace >= length)
goto listsearch;
tmp = RB_RIGHT(prev, rb_entry);
for (;;) {
KASSERT(tmp && tmp->space >= length);
child = RB_LEFT(tmp, rb_entry);
if (child && child->space >= length) {
tmp = child;
continue;
}
if (tmp->ownspace >= length)
break;
tmp = RB_RIGHT(tmp, rb_entry);
}
hint = tmp->end;
if (uvm_map_spacefits(map, &hint, length, tmp->next, uoffset, align)) {
entry = tmp;
goto found;
}
/*
* The tree fails to find an entry because of offset or alignment
* restrictions. Search the list instead.
*/
listsearch:
/*
* Look through the rest of the map, trying to fit a new region in
* the gap between existing regions, or after the very last region.
* note: entry->end = base VA of current gap,
* next->start = VA of end of current gap
*/
for (;; hint = (entry = next)->end) {
/*
* Find the end of the proposed new region. Be sure we didn't
* go beyond the end of the map, or wrap around the address;
* if so, we lose. Otherwise, if this is the last entry, or
* if the proposed new region fits before the next entry, we
* win.
*/
#ifdef PMAP_PREFER
/*
* push hint forward as needed to avoid VAC alias problems.
* we only do this if a valid offset is specified.
*/
if (uoffset != UVM_UNKNOWN_OFFSET)
PMAP_PREFER(uoffset, &hint);
#endif
if (align != 0) {
if ((hint & (align - 1)) != 0)
hint = roundup(hint, align);
/*
* XXX Should we PMAP_PREFER() here again?
*/
}
end = hint + length;
if (end > map->max_offset || end < hint) {
UVMHIST_LOG(maphist,"<- failed (off end)", 0,0,0,0);
goto error;
}
next = entry->next;
if (next == &map->header || next->start >= end)
break;
}
found:
SAVE_HINT(map, map->hint, entry);
*result = hint;
UVMHIST_LOG(maphist,"<- got it! (result=0x%lx)", hint, 0,0,0);
return (entry);
error:
if (align != 0) {
UVMHIST_LOG(maphist,
"calling recursively, no align",
0,0,0,0);
return (uvm_map_findspace(map, orig_hint,
length, result, uobj, uoffset, 0, flags));
}
return (NULL);
}
/*
* U N M A P - m a i n h e l p e r f u n c t i o n s
*/
/*
* uvm_unmap_remove: remove mappings from a vm_map (from "start" up to "stop")
*
* => caller must check alignment and size
* => map must be locked by caller
* => we return a list of map entries that we've remove from the map
* in "entry_list"
*/
void
uvm_unmap_remove(struct vm_map *map, vaddr_t start, vaddr_t end,
struct vm_map_entry **entry_list, struct proc *p)
{
struct vm_map_entry *entry, *first_entry, *next;
vaddr_t len;
UVMHIST_FUNC("uvm_unmap_remove");
UVMHIST_CALLED(maphist);
UVMHIST_LOG(maphist,"(map=%p, start=0x%lx, end=0x%lx)",
map, start, end, 0);
VM_MAP_RANGE_CHECK(map, start, end);
uvm_tree_sanity(map, "unmap_remove entry");
if ((map->flags & VM_MAP_INTRSAFE) == 0)
splassert(IPL_NONE);
else
splassert(IPL_VM);
/*
* find first entry
*/
if (uvm_map_lookup_entry(map, start, &first_entry) == TRUE) {
/* clip and go... */
entry = first_entry;
UVM_MAP_CLIP_START(map, entry, start);
/* critical! prevents stale hint */
SAVE_HINT(map, entry, entry->prev);
} else {
entry = first_entry->next;
}
/*
* Save the free space hint
*/
if (map->first_free->start >= start)
map->first_free = entry->prev;
/*
* note: we now re-use first_entry for a different task. we remove
* a number of map entries from the map and save them in a linked
* list headed by "first_entry". once we remove them from the map
* the caller should unlock the map and drop the references to the
* backing objects [c.f. uvm_unmap_detach]. the object is to
* separate unmapping from reference dropping. why?
* [1] the map has to be locked for unmapping
* [2] the map need not be locked for reference dropping
* [3] dropping references may trigger pager I/O, and if we hit
* a pager that does synchronous I/O we may have to wait for it.
* [4] we would like all waiting for I/O to occur with maps unlocked
* so that we don't block other threads.
*/
first_entry = NULL;
*entry_list = NULL; /* to be safe */
/*
* break up the area into map entry sized regions and unmap. note
* that all mappings have to be removed before we can even consider
* dropping references to amaps or VM objects (otherwise we could end
* up with a mapping to a page on the free list which would be very bad)
*/
while ((entry != &map->header) && (entry->start < end)) {
UVM_MAP_CLIP_END(map, entry, end);
next = entry->next;
len = entry->end - entry->start;
if (p && entry->object.uvm_obj == NULL)
p->p_vmspace->vm_dused -= atop(len);
/*
* unwire before removing addresses from the pmap; otherwise
* unwiring will put the entries back into the pmap (XXX).
*/
if (VM_MAPENT_ISWIRED(entry))
uvm_map_entry_unwire(map, entry);
/*
* special case: handle mappings to anonymous kernel objects.
* we want to free these pages right away...
*/
if (UVM_ET_ISHOLE(entry)) {
/* nothing to do! */
} else if (map->flags & VM_MAP_INTRSAFE) {
uvm_km_pgremove_intrsafe(entry->start, entry->end);
pmap_kremove(entry->start, len);
} else if (UVM_ET_ISOBJ(entry) &&
UVM_OBJ_IS_KERN_OBJECT(entry->object.uvm_obj)) {
KASSERT(vm_map_pmap(map) == pmap_kernel());
/*
* note: kernel object mappings are currently used in
* two ways:
* [1] "normal" mappings of pages in the kernel object
* [2] uvm_km_valloc'd allocations in which we
* pmap_enter in some non-kernel-object page
* (e.g. vmapbuf).
*
* for case [1], we need to remove the mapping from
* the pmap and then remove the page from the kernel
* object (because, once pages in a kernel object are
* unmapped they are no longer needed, unlike, say,
* a vnode where you might want the data to persist
* until flushed out of a queue).
*
* for case [2], we need to remove the mapping from
* the pmap. there shouldn't be any pages at the
* specified offset in the kernel object [but it
* doesn't hurt to call uvm_km_pgremove just to be
* safe?]
*
* uvm_km_pgremove currently does the following:
* for pages in the kernel object in range:
* - drops the swap slot
* - uvm_pagefree the page
*
* note there is version of uvm_km_pgremove() that
* is used for "intrsafe" objects.
*/
/*
* remove mappings from pmap and drop the pages
* from the object. offsets are always relative
* to vm_map_min(kernel_map).
*/
pmap_remove(pmap_kernel(), entry->start, entry->end);
uvm_km_pgremove(entry->object.uvm_obj,
entry->start - vm_map_min(kernel_map),
entry->end - vm_map_min(kernel_map));
/*
* null out kernel_object reference, we've just
* dropped it
*/
entry->etype &= ~UVM_ET_OBJ;
entry->object.uvm_obj = NULL; /* to be safe */
} else {
/*
* remove mappings the standard way.
*/
pmap_remove(map->pmap, entry->start, entry->end);
}
/*
* remove entry from map and put it on our list of entries
* that we've nuked. then go do next entry.
*/
UVMHIST_LOG(maphist, " removed map entry %p", entry, 0, 0,0);
/* critical! prevents stale hint */
SAVE_HINT(map, entry, entry->prev);
uvm_map_entry_unlink(map, entry);
map->size -= len;
entry->next = first_entry;
first_entry = entry;
entry = next; /* next entry, please */
}
/* if ((map->flags & VM_MAP_DYING) == 0) { */
pmap_update(vm_map_pmap(map));
/* } */
uvm_tree_sanity(map, "unmap_remove leave");
/*
* now we've cleaned up the map and are ready for the caller to drop
* references to the mapped objects.
*/
*entry_list = first_entry;
UVMHIST_LOG(maphist,"<- done!", 0, 0, 0, 0);
}
/*
* uvm_unmap_detach: drop references in a chain of map entries
*
* => we will free the map entries as we traverse the list.
*/
void
uvm_unmap_detach(struct vm_map_entry *first_entry, int flags)
{
struct vm_map_entry *next_entry;
UVMHIST_FUNC("uvm_unmap_detach"); UVMHIST_CALLED(maphist);
while (first_entry) {
KASSERT(!VM_MAPENT_ISWIRED(first_entry));
UVMHIST_LOG(maphist,
" detach 0x%lx: amap=%p, obj=%p, submap?=%ld",
first_entry, first_entry->aref.ar_amap,
first_entry->object.uvm_obj,
UVM_ET_ISSUBMAP(first_entry));
/*
* drop reference to amap, if we've got one
*/
if (first_entry->aref.ar_amap)
uvm_map_unreference_amap(first_entry, flags);
/*
* drop reference to our backing object, if we've got one
*/
if (UVM_ET_ISSUBMAP(first_entry)) {
/* ... unlikely to happen, but play it safe */
uvm_map_deallocate(first_entry->object.sub_map);
} else {
if (UVM_ET_ISOBJ(first_entry) &&
first_entry->object.uvm_obj->pgops->pgo_detach)
first_entry->object.uvm_obj->pgops->
pgo_detach(first_entry->object.uvm_obj);
}
next_entry = first_entry->next;
uvm_mapent_free(first_entry);
first_entry = next_entry;
}
UVMHIST_LOG(maphist, "<- done", 0,0,0,0);
}
/*
* E X T R A C T I O N F U N C T I O N S
*/
/*
* uvm_map_reserve: reserve space in a vm_map for future use.
*
* => we reserve space in a map by putting a dummy map entry in the
* map (dummy means obj=NULL, amap=NULL, prot=VM_PROT_NONE)
* => map should be unlocked (we will write lock it)
* => we return true if we were able to reserve space
* => XXXCDC: should be inline?
*/
int
uvm_map_reserve(struct vm_map *map, vsize_t size, vaddr_t offset,
vsize_t align, vaddr_t *raddr)
{
UVMHIST_FUNC("uvm_map_reserve"); UVMHIST_CALLED(maphist);
UVMHIST_LOG(maphist, "(map=%p, size=0x%lx, offset=0x%lx,addr=0x%lx)",
map,size,offset,raddr);
size = round_page(size);
if (*raddr < vm_map_min(map))
*raddr = vm_map_min(map); /* hint */
/*
* reserve some virtual space.
*/
if (uvm_map(map, raddr, size, NULL, offset, 0,
UVM_MAPFLAG(UVM_PROT_NONE, UVM_PROT_NONE, UVM_INH_NONE,
UVM_ADV_RANDOM, UVM_FLAG_NOMERGE)) != 0) {
UVMHIST_LOG(maphist, "<- done (no VM)", 0,0,0,0);
return (FALSE);
}
UVMHIST_LOG(maphist, "<- done (*raddr=0x%lx)", *raddr,0,0,0);
return (TRUE);
}
/*
* uvm_map_replace: replace a reserved (blank) area of memory with
* real mappings.
*
* => caller must WRITE-LOCK the map
* => we return TRUE if replacement was a success
* => we expect the newents chain to have nnewents entries on it and
* we expect newents->prev to point to the last entry on the list
* => note newents is allowed to be NULL
*/
int
uvm_map_replace(struct vm_map *map, vaddr_t start, vaddr_t end,
struct vm_map_entry *newents, int nnewents)
{
struct vm_map_entry *oldent, *last;
uvm_tree_sanity(map, "map_replace entry");
/*
* first find the blank map entry at the specified address
*/
if (!uvm_map_lookup_entry(map, start, &oldent)) {
return(FALSE);
}
/*
* check to make sure we have a proper blank entry
*/
if (oldent->start != start || oldent->end != end ||
oldent->object.uvm_obj != NULL || oldent->aref.ar_amap != NULL) {
return (FALSE);
}
#ifdef DIAGNOSTIC
/*
* sanity check the newents chain
*/
{
struct vm_map_entry *tmpent = newents;
int nent = 0;
vaddr_t cur = start;
while (tmpent) {
nent++;
if (tmpent->start < cur)
panic("uvm_map_replace1");
if (tmpent->start > tmpent->end || tmpent->end > end) {
printf("tmpent->start=0x%lx, tmpent->end=0x%lx, end=0x%lx\n",
tmpent->start, tmpent->end, end);
panic("uvm_map_replace2");
}
cur = tmpent->end;
if (tmpent->next) {
if (tmpent->next->prev != tmpent)
panic("uvm_map_replace3");
} else {
if (newents->prev != tmpent)
panic("uvm_map_replace4");
}
tmpent = tmpent->next;
}
if (nent != nnewents)
panic("uvm_map_replace5");
}
#endif
/*
* map entry is a valid blank! replace it. (this does all the
* work of map entry link/unlink...).
*/
if (newents) {
last = newents->prev; /* we expect this */
/* critical: flush stale hints out of map */
SAVE_HINT(map, map->hint, newents);
if (map->first_free == oldent)
map->first_free = last;
last->next = oldent->next;
last->next->prev = last;
/* Fix RB tree */
uvm_rb_remove(map, oldent);
newents->prev = oldent->prev;
newents->prev->next = newents;
map->nentries = map->nentries + (nnewents - 1);
/* Fixup the RB tree */
{
int i;
struct vm_map_entry *tmp;
tmp = newents;
for (i = 0; i < nnewents && tmp; i++) {
uvm_rb_insert(map, tmp);
tmp = tmp->next;
}
}
} else {
/* critical: flush stale hints out of map */
SAVE_HINT(map, map->hint, oldent->prev);
if (map->first_free == oldent)
map->first_free = oldent->prev;
/* NULL list of new entries: just remove the old one */
uvm_map_entry_unlink(map, oldent);
}
uvm_tree_sanity(map, "map_replace leave");
/*
* now we can free the old blank entry, unlock the map and return.
*/
uvm_mapent_free(oldent);
return(TRUE);
}
/*
* uvm_map_extract: extract a mapping from a map and put it somewhere
* (maybe removing the old mapping)
*
* => maps should be unlocked (we will write lock them)
* => returns 0 on success, error code otherwise
* => start must be page aligned
* => len must be page sized
* => flags:
* UVM_EXTRACT_REMOVE: remove mappings from srcmap
* UVM_EXTRACT_CONTIG: abort if unmapped area (advisory only)
* UVM_EXTRACT_QREF: for a temporary extraction do quick obj refs
* UVM_EXTRACT_FIXPROT: set prot to maxprot as we go
* >>>NOTE: if you set REMOVE, you are not allowed to use CONTIG or QREF!<<<
* >>>NOTE: QREF's must be unmapped via the QREF path, thus should only
* be used from within the kernel in a kernel level map <<<
*/
int
uvm_map_extract(struct vm_map *srcmap, vaddr_t start, vsize_t len,
struct vm_map *dstmap, vaddr_t *dstaddrp, int flags)
{
vaddr_t dstaddr, end, newend, oldoffset, fudge, orig_fudge,
oldstart;
struct vm_map_entry *chain, *endchain, *entry, *orig_entry, *newentry;
struct vm_map_entry *deadentry, *oldentry;
vsize_t elen;
int nchain, error, copy_ok;
UVMHIST_FUNC("uvm_map_extract"); UVMHIST_CALLED(maphist);
UVMHIST_LOG(maphist,"(srcmap=%p,start=0x%lx, len=0x%lx", srcmap, start,
len,0);
UVMHIST_LOG(maphist," ...,dstmap=%p, flags=0x%lx)", dstmap,flags,0,0);
uvm_tree_sanity(srcmap, "map_extract src enter");
uvm_tree_sanity(dstmap, "map_extract dst enter");
/*
* step 0: sanity check: start must be on a page boundary, length
* must be page sized. can't ask for CONTIG/QREF if you asked for
* REMOVE.
*/
KASSERT((start & PAGE_MASK) == 0 && (len & PAGE_MASK) == 0);
KASSERT((flags & UVM_EXTRACT_REMOVE) == 0 ||
(flags & (UVM_EXTRACT_CONTIG|UVM_EXTRACT_QREF)) == 0);
/*
* step 1: reserve space in the target map for the extracted area
*/
dstaddr = vm_map_min(dstmap);
if (uvm_map_reserve(dstmap, len, start, 0, &dstaddr) == FALSE)
return(ENOMEM);
*dstaddrp = dstaddr; /* pass address back to caller */
UVMHIST_LOG(maphist, " dstaddr=0x%lx", dstaddr,0,0,0);
/*
* step 2: setup for the extraction process loop by init'ing the
* map entry chain, locking src map, and looking up the first useful
* entry in the map.
*/
end = start + len;
newend = dstaddr + len;
chain = endchain = NULL;
nchain = 0;
vm_map_lock(srcmap);
if (uvm_map_lookup_entry(srcmap, start, &entry)) {
/* "start" is within an entry */
if (flags & UVM_EXTRACT_QREF) {
/*
* for quick references we don't clip the entry, so
* the entry may map space "before" the starting
* virtual address... this is the "fudge" factor
* (which can be non-zero only the first time
* through the "while" loop in step 3).
*/
fudge = start - entry->start;
} else {
/*
* normal reference: we clip the map to fit (thus
* fudge is zero)
*/
UVM_MAP_CLIP_START(srcmap, entry, start);
SAVE_HINT(srcmap, srcmap->hint, entry->prev);
fudge = 0;
}
} else {
/* "start" is not within an entry ... skip to next entry */
if (flags & UVM_EXTRACT_CONTIG) {
error = EINVAL;
goto bad; /* definite hole here ... */
}
entry = entry->next;
fudge = 0;
}
/* save values from srcmap for step 6 */
orig_entry = entry;
orig_fudge = fudge;
/*
* step 3: now start looping through the map entries, extracting
* as we go.
*/
while (entry->start < end && entry != &srcmap->header) {
/* if we are not doing a quick reference, clip it */
if ((flags & UVM_EXTRACT_QREF) == 0)
UVM_MAP_CLIP_END(srcmap, entry, end);
/* clear needs_copy (allow chunking) */
if (UVM_ET_ISNEEDSCOPY(entry)) {
if (fudge)
oldstart = entry->start;
else
oldstart = 0; /* XXX: gcc */
amap_copy(srcmap, entry, M_NOWAIT, TRUE, start, end);
if (UVM_ET_ISNEEDSCOPY(entry)) { /* failed? */
error = ENOMEM;
goto bad;
}
/* amap_copy could clip (during chunk)! update fudge */
if (fudge) {
fudge = fudge - (entry->start - oldstart);
orig_fudge = fudge;
}
}
/* calculate the offset of this from "start" */
oldoffset = (entry->start + fudge) - start;
/* allocate a new map entry */
newentry = uvm_mapent_alloc(dstmap);
if (newentry == NULL) {
error = ENOMEM;
goto bad;
}
/* set up new map entry */
newentry->next = NULL;
newentry->prev = endchain;
newentry->start = dstaddr + oldoffset;
newentry->end =
newentry->start + (entry->end - (entry->start + fudge));
if (newentry->end > newend || newentry->end < newentry->start)
newentry->end = newend;
newentry->object.uvm_obj = entry->object.uvm_obj;
if (newentry->object.uvm_obj) {
if (newentry->object.uvm_obj->pgops->pgo_reference)
newentry->object.uvm_obj->pgops->
pgo_reference(newentry->object.uvm_obj);
newentry->offset = entry->offset + fudge;
} else {
newentry->offset = 0;
}
newentry->etype = entry->etype;
newentry->protection = (flags & UVM_EXTRACT_FIXPROT) ?
entry->max_protection : entry->protection;
newentry->max_protection = entry->max_protection;
newentry->inheritance = entry->inheritance;
newentry->wired_count = 0;
newentry->aref.ar_amap = entry->aref.ar_amap;
if (newentry->aref.ar_amap) {
newentry->aref.ar_pageoff =
entry->aref.ar_pageoff + (fudge >> PAGE_SHIFT);
uvm_map_reference_amap(newentry, AMAP_SHARED |
((flags & UVM_EXTRACT_QREF) ? AMAP_REFALL : 0));
} else {
newentry->aref.ar_pageoff = 0;
}
newentry->advice = entry->advice;
/* now link it on the chain */
nchain++;
if (endchain == NULL) {
chain = endchain = newentry;
} else {
endchain->next = newentry;
endchain = newentry;
}
/* end of 'while' loop! */
if ((flags & UVM_EXTRACT_CONTIG) && entry->end < end &&
(entry->next == &srcmap->header ||
entry->next->start != entry->end)) {
error = EINVAL;
goto bad;
}
entry = entry->next;
fudge = 0;
}
/*
* step 4: close off chain (in format expected by uvm_map_replace)
*/
if (chain)
chain->prev = endchain;
/*
* step 5: attempt to lock the dest map so we can pmap_copy.
* note usage of copy_ok:
* 1 => dstmap locked, pmap_copy ok, and we "replace" here (step 5)
* 0 => dstmap unlocked, NO pmap_copy, and we will "replace" in step 7
*/
if (srcmap == dstmap || vm_map_lock_try(dstmap) == TRUE) {
copy_ok = 1;
if (!uvm_map_replace(dstmap, dstaddr, dstaddr+len, chain,
nchain)) {
if (srcmap != dstmap)
vm_map_unlock(dstmap);
error = EIO;
goto bad;
}
} else {
copy_ok = 0;
/* replace defered until step 7 */
}
/*
* step 6: traverse the srcmap a second time to do the following:
* - if we got a lock on the dstmap do pmap_copy
* - if UVM_EXTRACT_REMOVE remove the entries
* we make use of orig_entry and orig_fudge (saved in step 2)
*/
if (copy_ok || (flags & UVM_EXTRACT_REMOVE)) {
/* purge possible stale hints from srcmap */
if (flags & UVM_EXTRACT_REMOVE) {
SAVE_HINT(srcmap, srcmap->hint, orig_entry->prev);
if (srcmap->first_free->start >= start)
srcmap->first_free = orig_entry->prev;
}
entry = orig_entry;
fudge = orig_fudge;
deadentry = NULL; /* for UVM_EXTRACT_REMOVE */
while (entry->start < end && entry != &srcmap->header) {
if (copy_ok) {
oldoffset = (entry->start + fudge) - start;
elen = MIN(end, entry->end) -
(entry->start + fudge);
pmap_copy(dstmap->pmap, srcmap->pmap,
dstaddr + oldoffset, elen,
entry->start + fudge);
}
/* we advance "entry" in the following if statement */
if (flags & UVM_EXTRACT_REMOVE) {
pmap_remove(srcmap->pmap, entry->start,
entry->end);
oldentry = entry; /* save entry */
entry = entry->next; /* advance */
uvm_map_entry_unlink(srcmap, oldentry);
/* add to dead list */
oldentry->next = deadentry;
deadentry = oldentry;
} else {
entry = entry->next; /* advance */
}
/* end of 'while' loop */
fudge = 0;
}
pmap_update(srcmap->pmap);
/*
* unlock dstmap. we will dispose of deadentry in
* step 7 if needed
*/
if (copy_ok && srcmap != dstmap)
vm_map_unlock(dstmap);
}
else
deadentry = NULL; /* XXX: gcc */
/*
* step 7: we are done with the source map, unlock. if copy_ok
* is 0 then we have not replaced the dummy mapping in dstmap yet
* and we need to do so now.
*/
vm_map_unlock(srcmap);
if ((flags & UVM_EXTRACT_REMOVE) && deadentry)
uvm_unmap_detach(deadentry, 0); /* dispose of old entries */
/* now do the replacement if we didn't do it in step 5 */
if (copy_ok == 0) {
vm_map_lock(dstmap);
error = uvm_map_replace(dstmap, dstaddr, dstaddr+len, chain,
nchain);
vm_map_unlock(dstmap);
if (error == FALSE) {
error = EIO;
goto bad2;
}
}
uvm_tree_sanity(srcmap, "map_extract src leave");
uvm_tree_sanity(dstmap, "map_extract dst leave");
return(0);
/*
* bad: failure recovery
*/
bad:
vm_map_unlock(srcmap);
bad2: /* src already unlocked */
if (chain)
uvm_unmap_detach(chain,
(flags & UVM_EXTRACT_QREF) ? AMAP_REFALL : 0);
uvm_tree_sanity(srcmap, "map_extract src err leave");
uvm_tree_sanity(dstmap, "map_extract dst err leave");
uvm_unmap(dstmap, dstaddr, dstaddr+len); /* ??? */
return(error);
}
/* end of extraction functions */
/*
* uvm_map_submap: punch down part of a map into a submap
*
* => only the kernel_map is allowed to be submapped
* => the purpose of submapping is to break up the locking granularity
* of a larger map
* => the range specified must have been mapped previously with a uvm_map()
* call [with uobj==NULL] to create a blank map entry in the main map.
* [And it had better still be blank!]
* => maps which contain submaps should never be copied or forked.
* => to remove a submap, use uvm_unmap() on the main map
* and then uvm_map_deallocate() the submap.
* => main map must be unlocked.
* => submap must have been init'd and have a zero reference count.
* [need not be locked as we don't actually reference it]
*/
int
uvm_map_submap(struct vm_map *map, vaddr_t start, vaddr_t end,
struct vm_map *submap)
{
struct vm_map_entry *entry;
int result;
vm_map_lock(map);
VM_MAP_RANGE_CHECK(map, start, end);
if (uvm_map_lookup_entry(map, start, &entry)) {
UVM_MAP_CLIP_START(map, entry, start);
UVM_MAP_CLIP_END(map, entry, end); /* to be safe */
} else {
entry = NULL;
}
if (entry != NULL &&
entry->start == start && entry->end == end &&
entry->object.uvm_obj == NULL && entry->aref.ar_amap == NULL &&
!UVM_ET_ISCOPYONWRITE(entry) && !UVM_ET_ISNEEDSCOPY(entry)) {
entry->etype |= UVM_ET_SUBMAP;
entry->object.sub_map = submap;
entry->offset = 0;
uvm_map_reference(submap);
result = 0;
} else {
result = EINVAL;
}
vm_map_unlock(map);
return(result);
}
/*
* uvm_map_protect: change map protection
*
* => set_max means set max_protection.
* => map must be unlocked.
*/
#define MASK(entry) (UVM_ET_ISCOPYONWRITE(entry) ? \
~VM_PROT_WRITE : VM_PROT_ALL)
#define max(a,b) ((a) > (b) ? (a) : (b))
int
uvm_map_protect(struct vm_map *map, vaddr_t start, vaddr_t end,
vm_prot_t new_prot, boolean_t set_max)
{
struct vm_map_entry *current, *entry;
int error = 0;
UVMHIST_FUNC("uvm_map_protect"); UVMHIST_CALLED(maphist);
UVMHIST_LOG(maphist,"(map=%p,start=0x%lx,end=0x%lx,new_prot=0x%lx)",
map, start, end, new_prot);
vm_map_lock(map);
VM_MAP_RANGE_CHECK(map, start, end);
if (uvm_map_lookup_entry(map, start, &entry)) {
UVM_MAP_CLIP_START(map, entry, start);
} else {
entry = entry->next;
}
/*
* make a first pass to check for protection violations.
*/
current = entry;
while ((current != &map->header) && (current->start < end)) {
if (UVM_ET_ISSUBMAP(current)) {
error = EINVAL;
goto out;
}
if ((new_prot & current->max_protection) != new_prot) {
error = EACCES;
goto out;
}
current = current->next;
}
/* go back and fix up protections (no need to clip this time). */
current = entry;
while ((current != &map->header) && (current->start < end)) {
vm_prot_t old_prot;
UVM_MAP_CLIP_END(map, current, end);
old_prot = current->protection;
if (set_max)
current->protection =
(current->max_protection = new_prot) & old_prot;
else
current->protection = new_prot;
/*
* update physical map if necessary. worry about copy-on-write
* here -- CHECK THIS XXX
*/
if (current->protection != old_prot) {
/* update pmap! */
if ((current->protection & MASK(entry)) == PROT_NONE &&
VM_MAPENT_ISWIRED(entry))
current->wired_count--;
pmap_protect(map->pmap, current->start, current->end,
current->protection & MASK(entry));
}
/*
* If the map is configured to lock any future mappings,
* wire this entry now if the old protection was VM_PROT_NONE
* and the new protection is not VM_PROT_NONE.
*/
if ((map->flags & VM_MAP_WIREFUTURE) != 0 &&
VM_MAPENT_ISWIRED(entry) == 0 &&
old_prot == VM_PROT_NONE &&
new_prot != VM_PROT_NONE) {
if (uvm_map_pageable(map, entry->start, entry->end,
FALSE, UVM_LK_ENTER|UVM_LK_EXIT) != 0) {
/*
* If locking the entry fails, remember the
* error if it's the first one. Note we
* still continue setting the protection in
* the map, but will return the resource
* shortage condition regardless.
*
* XXX Ignore what the actual error is,
* XXX just call it a resource shortage
* XXX so that it doesn't get confused
* XXX what uvm_map_protect() itself would
* XXX normally return.
*/
error = ENOMEM;
}
}
current = current->next;
}
pmap_update(map->pmap);
out:
vm_map_unlock(map);
UVMHIST_LOG(maphist, "<- done, rv=%ld",error,0,0,0);
return (error);
}
#undef max
#undef MASK
/*
* uvm_map_inherit: set inheritance code for range of addrs in map.
*
* => map must be unlocked
* => note that the inherit code is used during a "fork". see fork
* code for details.
*/
int
uvm_map_inherit(struct vm_map *map, vaddr_t start, vaddr_t end,
vm_inherit_t new_inheritance)
{
struct vm_map_entry *entry, *temp_entry;
UVMHIST_FUNC("uvm_map_inherit"); UVMHIST_CALLED(maphist);
UVMHIST_LOG(maphist,"(map=%p,start=0x%lx,end=0x%lx,new_inh=0x%lx)",
map, start, end, new_inheritance);
switch (new_inheritance) {
case MAP_INHERIT_NONE:
case MAP_INHERIT_COPY:
case MAP_INHERIT_SHARE:
break;
default:
UVMHIST_LOG(maphist,"<- done (INVALID ARG)",0,0,0,0);
return (EINVAL);
}
vm_map_lock(map);
VM_MAP_RANGE_CHECK(map, start, end);
if (uvm_map_lookup_entry(map, start, &temp_entry)) {
entry = temp_entry;
UVM_MAP_CLIP_START(map, entry, start);
} else {
entry = temp_entry->next;
}
while ((entry != &map->header) && (entry->start < end)) {
UVM_MAP_CLIP_END(map, entry, end);
entry->inheritance = new_inheritance;
entry = entry->next;
}
vm_map_unlock(map);
UVMHIST_LOG(maphist,"<- done (OK)",0,0,0,0);
return (0);
}
/*
* uvm_map_advice: set advice code for range of addrs in map.
*
* => map must be unlocked
*/
int
uvm_map_advice(struct vm_map *map, vaddr_t start, vaddr_t end, int new_advice)
{
struct vm_map_entry *entry, *temp_entry;
UVMHIST_FUNC("uvm_map_advice"); UVMHIST_CALLED(maphist);
UVMHIST_LOG(maphist,"(map=%p,start=0x%lx,end=0x%lx,new_adv=0x%lx)",
map, start, end, new_advice);
vm_map_lock(map);
VM_MAP_RANGE_CHECK(map, start, end);
if (uvm_map_lookup_entry(map, start, &temp_entry)) {
entry = temp_entry;
UVM_MAP_CLIP_START(map, entry, start);
} else {
entry = temp_entry->next;
}
/*
* XXXJRT: disallow holes?
*/
while ((entry != &map->header) && (entry->start < end)) {
UVM_MAP_CLIP_END(map, entry, end);
switch (new_advice) {
case MADV_NORMAL:
case MADV_RANDOM:
case MADV_SEQUENTIAL:
/* nothing special here */
break;
default:
vm_map_unlock(map);
UVMHIST_LOG(maphist,"<- done (INVALID ARG)",0,0,0,0);
return (EINVAL);
}
entry->advice = new_advice;
entry = entry->next;
}
vm_map_unlock(map);
UVMHIST_LOG(maphist,"<- done (OK)",0,0,0,0);
return (0);
}
/*
* uvm_map_pageable: sets the pageability of a range in a map.
*
* => wires map entries. should not be used for transient page locking.
* for that, use uvm_fault_wire()/uvm_fault_unwire() (see uvm_vslock()).
* => regions sepcified as not pageable require lock-down (wired) memory
* and page tables.
* => map must never be read-locked
* => if islocked is TRUE, map is already write-locked
* => we always unlock the map, since we must downgrade to a read-lock
* to call uvm_fault_wire()
* => XXXCDC: check this and try and clean it up.
*/
int
uvm_map_pageable(struct vm_map *map, vaddr_t start, vaddr_t end,
boolean_t new_pageable, int lockflags)
{
struct vm_map_entry *entry, *start_entry, *failed_entry;
int rv;
#ifdef DIAGNOSTIC
u_int timestamp_save;
#endif
UVMHIST_FUNC("uvm_map_pageable"); UVMHIST_CALLED(maphist);
UVMHIST_LOG(maphist,"(map=%p,start=0x%lx,end=0x%lx,new_pageable=0x%lx)",
map, start, end, new_pageable);
KASSERT(map->flags & VM_MAP_PAGEABLE);
if ((lockflags & UVM_LK_ENTER) == 0)
vm_map_lock(map);
VM_MAP_RANGE_CHECK(map, start, end);
/*
* only one pageability change may take place at one time, since
* uvm_fault_wire assumes it will be called only once for each
* wiring/unwiring. therefore, we have to make sure we're actually
* changing the pageability for the entire region. we do so before
* making any changes.
*/
if (uvm_map_lookup_entry(map, start, &start_entry) == FALSE) {
if ((lockflags & UVM_LK_EXIT) == 0)
vm_map_unlock(map);
UVMHIST_LOG(maphist,"<- done (INVALID ARG)",0,0,0,0);
return (EFAULT);
}
entry = start_entry;
/*
* handle wiring and unwiring separately.
*/
if (new_pageable) { /* unwire */
UVM_MAP_CLIP_START(map, entry, start);
/*
* unwiring. first ensure that the range to be unwired is
* really wired down and that there are no holes.
*/
while ((entry != &map->header) && (entry->start < end)) {
if (entry->wired_count == 0 ||
(entry->end < end &&
(entry->next == &map->header ||
entry->next->start > entry->end))) {
if ((lockflags & UVM_LK_EXIT) == 0)
vm_map_unlock(map);
UVMHIST_LOG(maphist,
"<- done (INVALID UNWIRE ARG)",0,0,0,0);
return (EINVAL);
}
entry = entry->next;
}
/*
* POSIX 1003.1b - a single munlock call unlocks a region,
* regardless of the number of mlock calls made on that
* region.
*/
entry = start_entry;
while ((entry != &map->header) && (entry->start < end)) {
UVM_MAP_CLIP_END(map, entry, end);
if (VM_MAPENT_ISWIRED(entry))
uvm_map_entry_unwire(map, entry);
entry = entry->next;
}
if ((lockflags & UVM_LK_EXIT) == 0)
vm_map_unlock(map);
UVMHIST_LOG(maphist,"<- done (OK UNWIRE)",0,0,0,0);
return (0);
}
/*
* wire case: in two passes [XXXCDC: ugly block of code here]
*
* 1: holding the write lock, we create any anonymous maps that need
* to be created. then we clip each map entry to the region to
* be wired and increment its wiring count.
*
* 2: we downgrade to a read lock, and call uvm_fault_wire to fault
* in the pages for any newly wired area (wired_count == 1).
*
* downgrading to a read lock for uvm_fault_wire avoids a possible
* deadlock with another thread that may have faulted on one of
* the pages to be wired (it would mark the page busy, blocking
* us, then in turn block on the map lock that we hold). because
* of problems in the recursive lock package, we cannot upgrade
* to a write lock in vm_map_lookup. thus, any actions that
* require the write lock must be done beforehand. because we
* keep the read lock on the map, the copy-on-write status of the
* entries we modify here cannot change.
*/
while ((entry != &map->header) && (entry->start < end)) {
if (VM_MAPENT_ISWIRED(entry) == 0) { /* not already wired? */
/*
* perform actions of vm_map_lookup that need the
* write lock on the map: create an anonymous map
* for a copy-on-write region, or an anonymous map
* for a zero-fill region. (XXXCDC: submap case
* ok?)
*/
if (!UVM_ET_ISSUBMAP(entry)) { /* not submap */
if (UVM_ET_ISNEEDSCOPY(entry) &&
((entry->protection & VM_PROT_WRITE) ||
(entry->object.uvm_obj == NULL))) {
amap_copy(map, entry, M_WAITOK, TRUE,
start, end);
/* XXXCDC: wait OK? */
}
}
}
UVM_MAP_CLIP_START(map, entry, start);
UVM_MAP_CLIP_END(map, entry, end);
entry->wired_count++;
/*
* Check for holes
*/
if (entry->protection == VM_PROT_NONE ||
(entry->end < end &&
(entry->next == &map->header ||
entry->next->start > entry->end))) {
/*
* found one. amap creation actions do not need to
* be undone, but the wired counts need to be restored.
*/
while (entry != &map->header && entry->end > start) {
entry->wired_count--;
entry = entry->prev;
}
if ((lockflags & UVM_LK_EXIT) == 0)
vm_map_unlock(map);
UVMHIST_LOG(maphist,"<- done (INVALID WIRE)",0,0,0,0);
return (EINVAL);
}
entry = entry->next;
}
/*
* Pass 2.
*/
#ifdef DIAGNOSTIC
timestamp_save = map->timestamp;
#endif
vm_map_busy(map);
vm_map_downgrade(map);
rv = 0;
entry = start_entry;
while (entry != &map->header && entry->start < end) {
if (entry->wired_count == 1) {
rv = uvm_fault_wire(map, entry->start, entry->end,
entry->protection);
if (rv) {
/*
* wiring failed. break out of the loop.
* we'll clean up the map below, once we
* have a write lock again.
*/
break;
}
}
entry = entry->next;
}
if (rv) { /* failed? */
/*
* Get back to an exclusive (write) lock.
*/
vm_map_upgrade(map);
vm_map_unbusy(map);
#ifdef DIAGNOSTIC
if (timestamp_save != map->timestamp)
panic("uvm_map_pageable: stale map");
#endif
/*
* first drop the wiring count on all the entries
* which haven't actually been wired yet.
*/
failed_entry = entry;
while (entry != &map->header && entry->start < end) {
entry->wired_count--;
entry = entry->next;
}
/*
* now, unwire all the entries that were successfully
* wired above.
*/
entry = start_entry;
while (entry != failed_entry) {
entry->wired_count--;
if (VM_MAPENT_ISWIRED(entry) == 0)
uvm_map_entry_unwire(map, entry);
entry = entry->next;
}
if ((lockflags & UVM_LK_EXIT) == 0)
vm_map_unlock(map);
UVMHIST_LOG(maphist, "<- done (RV=%ld)", rv,0,0,0);
return(rv);
}
/* We are holding a read lock here. */
if ((lockflags & UVM_LK_EXIT) == 0) {
vm_map_unbusy(map);
vm_map_unlock_read(map);
} else {
/*
* Get back to an exclusive (write) lock.
*/
vm_map_upgrade(map);
vm_map_unbusy(map);
}
UVMHIST_LOG(maphist,"<- done (OK WIRE)",0,0,0,0);
return (0);
}
/*
* uvm_map_pageable_all: special case of uvm_map_pageable - affects
* all mapped regions.
*
* => map must not be locked.
* => if no flags are specified, all regions are unwired.
* => XXXJRT: has some of the same problems as uvm_map_pageable() above.
*/
int
uvm_map_pageable_all(struct vm_map *map, int flags, vsize_t limit)
{
struct vm_map_entry *entry, *failed_entry;
vsize_t size;
int error;
#ifdef DIAGNOSTIC
u_int timestamp_save;
#endif
UVMHIST_FUNC("uvm_map_pageable_all"); UVMHIST_CALLED(maphist);
UVMHIST_LOG(maphist,"(map=%p,flags=0x%lx)", map, flags, 0, 0);
KASSERT(map->flags & VM_MAP_PAGEABLE);
vm_map_lock(map);
/*
* handle wiring and unwiring separately.
*/
if (flags == 0) { /* unwire */
/*
* POSIX 1003.1b -- munlockall unlocks all regions,
* regardless of how many times mlockall has been called.
*/
for (entry = map->header.next; entry != &map->header;
entry = entry->next) {
if (VM_MAPENT_ISWIRED(entry))
uvm_map_entry_unwire(map, entry);
}
vm_map_modflags(map, 0, VM_MAP_WIREFUTURE);
vm_map_unlock(map);
UVMHIST_LOG(maphist,"<- done (OK UNWIRE)",0,0,0,0);
return (0);
/*
* end of unwire case!
*/
}
if (flags & MCL_FUTURE) {
/*
* must wire all future mappings; remember this.
*/
vm_map_modflags(map, VM_MAP_WIREFUTURE, 0);
}
if ((flags & MCL_CURRENT) == 0) {
/*
* no more work to do!
*/
UVMHIST_LOG(maphist,"<- done (OK no wire)",0,0,0,0);
vm_map_unlock(map);
return (0);
}
/*
* wire case: in three passes [XXXCDC: ugly block of code here]
*
* 1: holding the write lock, count all pages mapped by non-wired
* entries. if this would cause us to go over our limit, we fail.
*
* 2: still holding the write lock, we create any anonymous maps that
* need to be created. then we increment its wiring count.
*
* 3: we downgrade to a read lock, and call uvm_fault_wire to fault
* in the pages for any newly wired area (wired_count == 1).
*
* downgrading to a read lock for uvm_fault_wire avoids a possible
* deadlock with another thread that may have faulted on one of
* the pages to be wired (it would mark the page busy, blocking
* us, then in turn block on the map lock that we hold). because
* of problems in the recursive lock package, we cannot upgrade
* to a write lock in vm_map_lookup. thus, any actions that
* require the write lock must be done beforehand. because we
* keep the read lock on the map, the copy-on-write status of the
* entries we modify here cannot change.
*/
for (size = 0, entry = map->header.next; entry != &map->header;
entry = entry->next) {
if (entry->protection != VM_PROT_NONE &&
VM_MAPENT_ISWIRED(entry) == 0) { /* not already wired? */
size += entry->end - entry->start;
}
}
if (atop(size) + uvmexp.wired > uvmexp.wiredmax) {
vm_map_unlock(map);
return (ENOMEM); /* XXX overloaded */
}
/* XXX non-pmap_wired_count case must be handled by caller */
#ifdef pmap_wired_count
if (limit != 0 &&
(size + ptoa(pmap_wired_count(vm_map_pmap(map))) > limit)) {
vm_map_unlock(map);
return (ENOMEM); /* XXX overloaded */
}
#endif
/*
* Pass 2.
*/
for (entry = map->header.next; entry != &map->header;
entry = entry->next) {
if (entry->protection == VM_PROT_NONE)
continue;
if (VM_MAPENT_ISWIRED(entry) == 0) { /* not already wired? */
/*
* perform actions of vm_map_lookup that need the
* write lock on the map: create an anonymous map
* for a copy-on-write region, or an anonymous map
* for a zero-fill region. (XXXCDC: submap case
* ok?)
*/
if (!UVM_ET_ISSUBMAP(entry)) { /* not submap */
if (UVM_ET_ISNEEDSCOPY(entry) &&
((entry->protection & VM_PROT_WRITE) ||
(entry->object.uvm_obj == NULL))) {
amap_copy(map, entry, M_WAITOK, TRUE,
entry->start, entry->end);
/* XXXCDC: wait OK? */
}
}
}
entry->wired_count++;
}
/*
* Pass 3.
*/
#ifdef DIAGNOSTIC
timestamp_save = map->timestamp;
#endif
vm_map_busy(map);
vm_map_downgrade(map);
for (error = 0, entry = map->header.next;
entry != &map->header && error == 0;
entry = entry->next) {
if (entry->wired_count == 1) {
error = uvm_fault_wire(map, entry->start, entry->end,
entry->protection);
}
}
if (error) { /* failed? */
/*
* Get back an exclusive (write) lock.
*/
vm_map_upgrade(map);
vm_map_unbusy(map);
#ifdef DIAGNOSTIC
if (timestamp_save != map->timestamp)
panic("uvm_map_pageable_all: stale map");
#endif
/*
* first drop the wiring count on all the entries
* which haven't actually been wired yet.
*
* Skip VM_PROT_NONE entries like we did above.
*/
failed_entry = entry;
for (/* nothing */; entry != &map->header;
entry = entry->next) {
if (entry->protection == VM_PROT_NONE)
continue;
entry->wired_count--;
}
/*
* now, unwire all the entries that were successfully
* wired above.
*
* Skip VM_PROT_NONE entries like we did above.
*/
for (entry = map->header.next; entry != failed_entry;
entry = entry->next) {
if (entry->protection == VM_PROT_NONE)
continue;
entry->wired_count--;
if (VM_MAPENT_ISWIRED(entry))
uvm_map_entry_unwire(map, entry);
}
vm_map_unlock(map);
UVMHIST_LOG(maphist,"<- done (RV=%ld)", error,0,0,0);
return (error);
}
/* We are holding a read lock here. */
vm_map_unbusy(map);
vm_map_unlock_read(map);
UVMHIST_LOG(maphist,"<- done (OK WIRE)",0,0,0,0);
return (0);
}
/*
* uvm_map_clean: clean out a map range
*
* => valid flags:
* if (flags & PGO_CLEANIT): dirty pages are cleaned first
* if (flags & PGO_SYNCIO): dirty pages are written synchronously
* if (flags & PGO_DEACTIVATE): any cached pages are deactivated after clean
* if (flags & PGO_FREE): any cached pages are freed after clean
* => returns an error if any part of the specified range isn't mapped
* => never a need to flush amap layer since the anonymous memory has
* no permanent home, but may deactivate pages there
* => called from sys_msync() and sys_madvise()
* => caller must not write-lock map (read OK).
* => we may sleep while cleaning if SYNCIO [with map read-locked]
*/
int amap_clean_works = 1; /* XXX for now, just in case... */
int
uvm_map_clean(struct vm_map *map, vaddr_t start, vaddr_t end, int flags)
{
struct vm_map_entry *current, *entry;
struct uvm_object *uobj;
struct vm_amap *amap;
struct vm_anon *anon;
struct vm_page *pg;
vaddr_t offset;
vsize_t size;
int rv, error, refs;
UVMHIST_FUNC("uvm_map_clean"); UVMHIST_CALLED(maphist);
UVMHIST_LOG(maphist,"(map=%p,start=0x%lx,end=0x%lx,flags=0x%lx)",
map, start, end, flags);
KASSERT((flags & (PGO_FREE|PGO_DEACTIVATE)) !=
(PGO_FREE|PGO_DEACTIVATE));
vm_map_lock_read(map);
VM_MAP_RANGE_CHECK(map, start, end);
if (uvm_map_lookup_entry(map, start, &entry) == FALSE) {
vm_map_unlock_read(map);
return (EFAULT);
}
/*
* Make a first pass to check for holes.
*/
for (current = entry; current->start < end; current = current->next) {
if (UVM_ET_ISSUBMAP(current)) {
vm_map_unlock_read(map);
return (EINVAL);
}
if (end > current->end && (current->next == &map->header ||
current->end != current->next->start)) {
vm_map_unlock_read(map);
return (EFAULT);
}
}
error = 0;
for (current = entry; current->start < end; current = current->next) {
amap = current->aref.ar_amap; /* top layer */
uobj = current->object.uvm_obj; /* bottom layer */
KASSERT(start >= current->start);
/*
* No amap cleaning necessary if:
*
* (1) There's no amap.
*
* (2) We're not deactivating or freeing pages.
*/
if (amap == NULL || (flags & (PGO_DEACTIVATE|PGO_FREE)) == 0)
goto flush_object;
/* XXX for now, just in case... */
if (amap_clean_works == 0)
goto flush_object;
offset = start - current->start;
size = MIN(end, current->end) - start;
for ( ; size != 0; size -= PAGE_SIZE, offset += PAGE_SIZE) {
anon = amap_lookup(¤t->aref, offset);
if (anon == NULL)
continue;
simple_lock(&anon->an_lock);
pg = anon->an_page;
if (pg == NULL) {
simple_unlock(&anon->an_lock);
continue;
}
switch (flags & (PGO_CLEANIT|PGO_FREE|PGO_DEACTIVATE)) {
/*
* XXX In these first 3 cases, we always just
* XXX deactivate the page. We may want to
* XXX handle the different cases more
* XXX specifically, in the future.
*/
case PGO_CLEANIT|PGO_FREE:
case PGO_CLEANIT|PGO_DEACTIVATE:
case PGO_DEACTIVATE:
deactivate_it:
/* skip the page if it's loaned or wired */
if (pg->loan_count != 0 ||
pg->wire_count != 0) {
simple_unlock(&anon->an_lock);
continue;
}
uvm_lock_pageq();
/*
* skip the page if it's not actually owned
* by the anon (may simply be loaned to the
* anon).
*/
if ((pg->pg_flags & PQ_ANON) == 0) {
KASSERT(pg->uobject == NULL);
uvm_unlock_pageq();
simple_unlock(&anon->an_lock);
continue;
}
KASSERT(pg->uanon == anon);
#ifdef UBC
/* ...and deactivate the page. */
pmap_clear_reference(pg);
#else
/* zap all mappings for the page. */
pmap_page_protect(pg, VM_PROT_NONE);
/* ...and deactivate the page. */
#endif
uvm_pagedeactivate(pg);
uvm_unlock_pageq();
simple_unlock(&anon->an_lock);
continue;
case PGO_FREE:
/*
* If there are multiple references to
* the amap, just deactivate the page.
*/
if (amap_refs(amap) > 1)
goto deactivate_it;
/* XXX skip the page if it's wired */
if (pg->wire_count != 0) {
simple_unlock(&anon->an_lock);
continue;
}
amap_unadd(¤t->aref, offset);
refs = --anon->an_ref;
simple_unlock(&anon->an_lock);
if (refs == 0)
uvm_anfree(anon);
continue;
default:
panic("uvm_map_clean: weird flags");
}
}
flush_object:
/*
* flush pages if we've got a valid backing object.
*
* Don't PGO_FREE if we don't have write permission
* and don't flush if this is a copy-on-write object
* since we can't know our permissions on it.
*/
offset = current->offset + (start - current->start);
size = MIN(end, current->end) - start;
if (uobj != NULL &&
((flags & PGO_FREE) == 0 ||
((entry->max_protection & VM_PROT_WRITE) != 0 &&
(entry->etype & UVM_ET_COPYONWRITE) == 0))) {
simple_lock(&uobj->vmobjlock);
rv = uobj->pgops->pgo_flush(uobj, offset,
offset + size, flags);
simple_unlock(&uobj->vmobjlock);
if (rv == FALSE)
error = EFAULT;
}
start += size;
}
vm_map_unlock_read(map);
return (error);
}
/*
* uvm_map_checkprot: check protection in map
*
* => must allow specified protection in a fully allocated region.
* => map must be read or write locked by caller.
*/
boolean_t
uvm_map_checkprot(struct vm_map *map, vaddr_t start, vaddr_t end,
vm_prot_t protection)
{
struct vm_map_entry *entry;
struct vm_map_entry *tmp_entry;
if (!uvm_map_lookup_entry(map, start, &tmp_entry)) {
return(FALSE);
}
entry = tmp_entry;
while (start < end) {
if (entry == &map->header) {
return(FALSE);
}
/*
* no holes allowed
*/
if (start < entry->start) {
return(FALSE);
}
/*
* check protection associated with entry
*/
if ((entry->protection & protection) != protection) {
return(FALSE);
}
/* go to next entry */
start = entry->end;
entry = entry->next;
}
return(TRUE);
}
/*
* uvmspace_alloc: allocate a vmspace structure.
*
* - structure includes vm_map and pmap
* - XXX: no locking on this structure
* - refcnt set to 1, rest must be init'd by caller
*/
struct vmspace *
uvmspace_alloc(vaddr_t min, vaddr_t max, boolean_t pageable,
boolean_t remove_holes)
{
struct vmspace *vm;
UVMHIST_FUNC("uvmspace_alloc"); UVMHIST_CALLED(maphist);
vm = pool_get(&uvm_vmspace_pool, PR_WAITOK);
uvmspace_init(vm, NULL, min, max, pageable, remove_holes);
UVMHIST_LOG(maphist,"<- done (vm=%p)", vm,0,0,0);
return (vm);
}
/*
* uvmspace_init: initialize a vmspace structure.
*
* - XXX: no locking on this structure
* - refcnt set to 1, rest must be init'd by caller
*/
void
uvmspace_init(struct vmspace *vm, struct pmap *pmap, vaddr_t min, vaddr_t max,
boolean_t pageable, boolean_t remove_holes)
{
UVMHIST_FUNC("uvmspace_init"); UVMHIST_CALLED(maphist);
memset(vm, 0, sizeof(*vm));
uvm_map_setup(&vm->vm_map, min, max, pageable ? VM_MAP_PAGEABLE : 0);
if (pmap)
pmap_reference(pmap);
else
pmap = pmap_create();
vm->vm_map.pmap = pmap;
vm->vm_refcnt = 1;
if (remove_holes)
pmap_remove_holes(&vm->vm_map);
UVMHIST_LOG(maphist,"<- done",0,0,0,0);
}
/*
* uvmspace_share: share a vmspace between two proceses
*
* - XXX: no locking on vmspace
* - used for vfork, threads(?)
*/
void
uvmspace_share(p1, p2)
struct proc *p1, *p2;
{
p2->p_vmspace = p1->p_vmspace;
p1->p_vmspace->vm_refcnt++;
}
/*
* uvmspace_unshare: ensure that process "p" has its own, unshared, vmspace
*
* - XXX: no locking on vmspace
*/
void
uvmspace_unshare(p)
struct proc *p;
{
struct vmspace *nvm, *ovm = p->p_vmspace;
if (ovm->vm_refcnt == 1)
/* nothing to do: vmspace isn't shared in the first place */
return;
/* make a new vmspace, still holding old one */
nvm = uvmspace_fork(ovm);
pmap_deactivate(p); /* unbind old vmspace */
p->p_vmspace = nvm;
pmap_activate(p); /* switch to new vmspace */
uvmspace_free(ovm); /* drop reference to old vmspace */
}
/*
* uvmspace_exec: the process wants to exec a new program
*
* - XXX: no locking on vmspace
*/
void
uvmspace_exec(struct proc *p, vaddr_t start, vaddr_t end)
{
struct vmspace *nvm, *ovm = p->p_vmspace;
struct vm_map *map = &ovm->vm_map;
pmap_unuse_final(p); /* before stack addresses go away */
/*
* see if more than one process is using this vmspace...
*/
if (ovm->vm_refcnt == 1) {
/*
* if p is the only process using its vmspace then we can safely
* recycle that vmspace for the program that is being exec'd.
*/
#ifdef SYSVSHM
/*
* SYSV SHM semantics require us to kill all segments on an exec
*/
if (ovm->vm_shm)
shmexit(ovm);
#endif
/*
* POSIX 1003.1b -- "lock future mappings" is revoked
* when a process execs another program image.
*/
vm_map_lock(map);
vm_map_modflags(map, 0, VM_MAP_WIREFUTURE);
vm_map_unlock(map);
/*
* now unmap the old program
*/
uvm_unmap(map, map->min_offset, map->max_offset);
/*
* but keep MMU holes unavailable
*/
pmap_remove_holes(map);
/*
* resize the map
*/
vm_map_lock(map);
map->min_offset = start;
uvm_tree_sanity(map, "resize enter");
map->max_offset = end;
if (map->header.prev != &map->header)
uvm_rb_fixup(map, map->header.prev);
uvm_tree_sanity(map, "resize leave");
vm_map_unlock(map);
} else {
/*
* p's vmspace is being shared, so we can't reuse it for p since
* it is still being used for others. allocate a new vmspace
* for p
*/
nvm = uvmspace_alloc(start, end,
(map->flags & VM_MAP_PAGEABLE) ? TRUE : FALSE, TRUE);
/*
* install new vmspace and drop our ref to the old one.
*/
pmap_deactivate(p);
p->p_vmspace = nvm;
pmap_activate(p);
uvmspace_free(ovm);
}
}
/*
* uvmspace_free: free a vmspace data structure
*
* - XXX: no locking on vmspace
*/
void
uvmspace_free(struct vmspace *vm)
{
struct vm_map_entry *dead_entries;
UVMHIST_FUNC("uvmspace_free"); UVMHIST_CALLED(maphist);
UVMHIST_LOG(maphist,"(vm=%p) ref=%ld", vm, vm->vm_refcnt,0,0);
if (--vm->vm_refcnt == 0) {
/*
* lock the map, to wait out all other references to it. delete
* all of the mappings and pages they hold, then call the pmap
* module to reclaim anything left.
*/
#ifdef SYSVSHM
/* Get rid of any SYSV shared memory segments. */
if (vm->vm_shm != NULL)
shmexit(vm);
#endif
vm_map_lock(&vm->vm_map);
if (vm->vm_map.nentries) {
uvm_unmap_remove(&vm->vm_map,
vm->vm_map.min_offset, vm->vm_map.max_offset,
&dead_entries, NULL);
if (dead_entries != NULL)
uvm_unmap_detach(dead_entries, 0);
}
pmap_destroy(vm->vm_map.pmap);
vm->vm_map.pmap = NULL;
pool_put(&uvm_vmspace_pool, vm);
}
UVMHIST_LOG(maphist,"<- done", 0,0,0,0);
}
/*
* F O R K - m a i n e n t r y p o i n t
*/
/*
* uvmspace_fork: fork a process' main map
*
* => create a new vmspace for child process from parent.
* => parent's map must not be locked.
*/
struct vmspace *
uvmspace_fork(struct vmspace *vm1)
{
struct vmspace *vm2;
struct vm_map *old_map = &vm1->vm_map;
struct vm_map *new_map;
struct vm_map_entry *old_entry;
struct vm_map_entry *new_entry;
pmap_t new_pmap;
boolean_t protect_child;
UVMHIST_FUNC("uvmspace_fork"); UVMHIST_CALLED(maphist);
vm_map_lock(old_map);
vm2 = uvmspace_alloc(old_map->min_offset, old_map->max_offset,
(old_map->flags & VM_MAP_PAGEABLE) ? TRUE : FALSE, FALSE);
memcpy(&vm2->vm_startcopy, &vm1->vm_startcopy,
(caddr_t) (vm1 + 1) - (caddr_t) &vm1->vm_startcopy);
new_map = &vm2->vm_map; /* XXX */
new_pmap = new_map->pmap;
old_entry = old_map->header.next;
/*
* go entry-by-entry
*/
while (old_entry != &old_map->header) {
/*
* first, some sanity checks on the old entry
*/
if (UVM_ET_ISSUBMAP(old_entry))
panic("fork: encountered a submap during fork (illegal)");
if (!UVM_ET_ISCOPYONWRITE(old_entry) &&
UVM_ET_ISNEEDSCOPY(old_entry))
panic("fork: non-copy_on_write map entry marked needs_copy (illegal)");
switch (old_entry->inheritance) {
case MAP_INHERIT_NONE:
/*
* drop the mapping
*/
break;
case MAP_INHERIT_SHARE:
/*
* share the mapping: this means we want the old and
* new entries to share amaps and backing objects.
*/
/*
* if the old_entry needs a new amap (due to prev fork)
* then we need to allocate it now so that we have
* something we own to share with the new_entry. [in
* other words, we need to clear needs_copy]
*/
if (UVM_ET_ISNEEDSCOPY(old_entry)) {
/* get our own amap, clears needs_copy */
amap_copy(old_map, old_entry, M_WAITOK, FALSE,
0, 0);
/* XXXCDC: WAITOK??? */
}
new_entry = uvm_mapent_alloc(new_map);
/* old_entry -> new_entry */
uvm_mapent_copy(old_entry, new_entry);
/* new pmap has nothing wired in it */
new_entry->wired_count = 0;
/*
* gain reference to object backing the map (can't
* be a submap, already checked this case).
*/
if (new_entry->aref.ar_amap)
/* share reference */
uvm_map_reference_amap(new_entry, AMAP_SHARED);
if (new_entry->object.uvm_obj &&
new_entry->object.uvm_obj->pgops->pgo_reference)
new_entry->object.uvm_obj->
pgops->pgo_reference(
new_entry->object.uvm_obj);
/* insert entry at end of new_map's entry list */
uvm_map_entry_link(new_map, new_map->header.prev,
new_entry);
/*
* pmap_copy the mappings: this routine is optional
* but if it is there it will reduce the number of
* page faults in the new proc.
*/
pmap_copy(new_pmap, old_map->pmap, new_entry->start,
(old_entry->end - old_entry->start),
old_entry->start);
break;
case MAP_INHERIT_COPY:
/*
* copy-on-write the mapping (using mmap's
* MAP_PRIVATE semantics)
*
* allocate new_entry, adjust reference counts.
* (note that new references are read-only).
*/
new_entry = uvm_mapent_alloc(new_map);
/* old_entry -> new_entry */
uvm_mapent_copy(old_entry, new_entry);
if (new_entry->aref.ar_amap)
uvm_map_reference_amap(new_entry, 0);
if (new_entry->object.uvm_obj &&
new_entry->object.uvm_obj->pgops->pgo_reference)
new_entry->object.uvm_obj->pgops->pgo_reference
(new_entry->object.uvm_obj);
/* new pmap has nothing wired in it */
new_entry->wired_count = 0;
new_entry->etype |=
(UVM_ET_COPYONWRITE|UVM_ET_NEEDSCOPY);
uvm_map_entry_link(new_map, new_map->header.prev,
new_entry);
/*
* the new entry will need an amap. it will either
* need to be copied from the old entry or created
* from scratch (if the old entry does not have an
* amap). can we defer this process until later
* (by setting "needs_copy") or do we need to copy
* the amap now?
*
* we must copy the amap now if any of the following
* conditions hold:
* 1. the old entry has an amap and that amap is
* being shared. this means that the old (parent)
* process is sharing the amap with another
* process. if we do not clear needs_copy here
* we will end up in a situation where both the
* parent and child process are referring to the
* same amap with "needs_copy" set. if the
* parent write-faults, the fault routine will
* clear "needs_copy" in the parent by allocating
* a new amap. this is wrong because the
* parent is supposed to be sharing the old amap
* and the new amap will break that.
*
* 2. if the old entry has an amap and a non-zero
* wire count then we are going to have to call
* amap_cow_now to avoid page faults in the
* parent process. since amap_cow_now requires
* "needs_copy" to be clear we might as well
* clear it here as well.
*
*/
if (old_entry->aref.ar_amap != NULL) {
if ((amap_flags(old_entry->aref.ar_amap) &
AMAP_SHARED) != 0 ||
VM_MAPENT_ISWIRED(old_entry)) {
amap_copy(new_map, new_entry, M_WAITOK, FALSE,
0, 0);
/* XXXCDC: M_WAITOK ... ok? */
}
}
/*
* if the parent's entry is wired down, then the
* parent process does not want page faults on
* access to that memory. this means that we
* cannot do copy-on-write because we can't write
* protect the old entry. in this case we
* resolve all copy-on-write faults now, using
* amap_cow_now. note that we have already
* allocated any needed amap (above).
*/
if (VM_MAPENT_ISWIRED(old_entry)) {
/*
* resolve all copy-on-write faults now
* (note that there is nothing to do if
* the old mapping does not have an amap).
* XXX: is it worthwhile to bother with pmap_copy
* in this case?
*/
if (old_entry->aref.ar_amap)
amap_cow_now(new_map, new_entry);
} else {
/*
* setup mappings to trigger copy-on-write faults
* we must write-protect the parent if it has
* an amap and it is not already "needs_copy"...
* if it is already "needs_copy" then the parent
* has already been write-protected by a previous
* fork operation.
*
* if we do not write-protect the parent, then
* we must be sure to write-protect the child
* after the pmap_copy() operation.
*
* XXX: pmap_copy should have some way of telling
* us that it didn't do anything so we can avoid
* calling pmap_protect needlessly.
*/
if (old_entry->aref.ar_amap) {
if (!UVM_ET_ISNEEDSCOPY(old_entry)) {
if (old_entry->max_protection & VM_PROT_WRITE) {
pmap_protect(old_map->pmap,
old_entry->start,
old_entry->end,
old_entry->protection &
~VM_PROT_WRITE);
pmap_update(old_map->pmap);
}
old_entry->etype |= UVM_ET_NEEDSCOPY;
}
/*
* parent must now be write-protected
*/
protect_child = FALSE;
} else {
/*
* we only need to protect the child if the
* parent has write access.
*/
if (old_entry->max_protection & VM_PROT_WRITE)
protect_child = TRUE;
else
protect_child = FALSE;
}
/*
* copy the mappings
* XXX: need a way to tell if this does anything
*/
pmap_copy(new_pmap, old_map->pmap,
new_entry->start,
(old_entry->end - old_entry->start),
old_entry->start);
/*
* protect the child's mappings if necessary
*/
if (protect_child) {
pmap_protect(new_pmap, new_entry->start,
new_entry->end,
new_entry->protection &
~VM_PROT_WRITE);
}
}
break;
} /* end of switch statement */
old_entry = old_entry->next;
}
new_map->size = old_map->size;
vm_map_unlock(old_map);
#ifdef SYSVSHM
if (vm1->vm_shm)
shmfork(vm1, vm2);
#endif
#ifdef PMAP_FORK
pmap_fork(vm1->vm_map.pmap, vm2->vm_map.pmap);
#endif
UVMHIST_LOG(maphist,"<- done",0,0,0,0);
return(vm2);
}
#if defined(DDB)
/*
* DDB hooks
*/
/*
* uvm_map_printit: actually prints the map
*/
void
uvm_map_printit(struct vm_map *map, boolean_t full,
int (*pr)(const char *, ...))
{
struct vm_map_entry *entry;
(*pr)("MAP %p: [0x%lx->0x%lx]\n", map, map->min_offset,map->max_offset);
(*pr)("\t#ent=%d, sz=%u, ref=%d, version=%u, flags=0x%x\n",
map->nentries, map->size, map->ref_count, map->timestamp,
map->flags);
#ifdef pmap_resident_count
(*pr)("\tpmap=%p(resident=%d)\n", map->pmap,
pmap_resident_count(map->pmap));
#else
/* XXXCDC: this should be required ... */
(*pr)("\tpmap=%p(resident=<<NOT SUPPORTED!!!>>)\n", map->pmap);
#endif
if (!full)
return;
for (entry = map->header.next; entry != &map->header;
entry = entry->next) {
(*pr)(" - %p: 0x%lx->0x%lx: obj=%p/0x%llx, amap=%p/%d\n",
entry, entry->start, entry->end, entry->object.uvm_obj,
(long long)entry->offset, entry->aref.ar_amap,
entry->aref.ar_pageoff);
(*pr)(
"\tsubmap=%c, cow=%c, nc=%c, prot(max)=%d/%d, inh=%d, "
"wc=%d, adv=%d\n",
(entry->etype & UVM_ET_SUBMAP) ? 'T' : 'F',
(entry->etype & UVM_ET_COPYONWRITE) ? 'T' : 'F',
(entry->etype & UVM_ET_NEEDSCOPY) ? 'T' : 'F',
entry->protection, entry->max_protection,
entry->inheritance, entry->wired_count, entry->advice);
}
}
/*
* uvm_object_printit: actually prints the object
*/
void
uvm_object_printit(uobj, full, pr)
struct uvm_object *uobj;
boolean_t full;
int (*pr)(const char *, ...);
{
struct vm_page *pg;
int cnt = 0;
(*pr)("OBJECT %p: locked=%d, pgops=%p, npages=%d, ",
uobj, uobj->vmobjlock.lock_data, uobj->pgops, uobj->uo_npages);
if (UVM_OBJ_IS_KERN_OBJECT(uobj))
(*pr)("refs=<SYSTEM>\n");
else
(*pr)("refs=%d\n", uobj->uo_refs);
if (!full) {
return;
}
(*pr)(" PAGES <pg,offset>:\n ");
for (pg = TAILQ_FIRST(&uobj->memq);
pg != NULL;
pg = TAILQ_NEXT(pg, listq), cnt++) {
(*pr)("<%p,0x%llx> ", pg, (long long)pg->offset);
if ((cnt % 3) == 2) {
(*pr)("\n ");
}
}
if ((cnt % 3) != 2) {
(*pr)("\n");
}
}
/*
* uvm_page_printit: actually print the page
*/
static const char page_flagbits[] =
"\20\1BUSY\2WANTED\3TABLED\4CLEAN\5CLEANCHK\6RELEASED\7FAKE\10RDONLY"
"\11ZERO\15PAGER1\20FREE\21INACTIVE\22ACTIVE\24ENCRYPT\30PMAP0"
"\31PMAP1\32PMAP2\33PMAP3";
void
uvm_page_printit(pg, full, pr)
struct vm_page *pg;
boolean_t full;
int (*pr)(const char *, ...);
{
struct vm_page *tpg;
struct uvm_object *uobj;
struct pglist *pgl;
(*pr)("PAGE %p:\n", pg);
(*pr)(" flags=%b, vers=%d, wire_count=%d, pa=0x%llx\n",
pg->pg_flags, page_flagbits, pg->pg_version, pg->wire_count,
(long long)pg->phys_addr);
(*pr)(" uobject=%p, uanon=%p, offset=0x%llx loan_count=%d\n",
pg->uobject, pg->uanon, (long long)pg->offset, pg->loan_count);
#if defined(UVM_PAGE_TRKOWN)
if (pg->pg_flags & PG_BUSY)
(*pr)(" owning process = %d, tag=%s\n",
pg->owner, pg->owner_tag);
else
(*pr)(" page not busy, no owner\n");
#else
(*pr)(" [page ownership tracking disabled]\n");
#endif
if (!full)
return;
/* cross-verify object/anon */
if ((pg->pg_flags & PQ_FREE) == 0) {
if (pg->pg_flags & PQ_ANON) {
if (pg->uanon == NULL || pg->uanon->an_page != pg)
(*pr)(" >>> ANON DOES NOT POINT HERE <<< (%p)\n",
(pg->uanon) ? pg->uanon->an_page : NULL);
else
(*pr)(" anon backpointer is OK\n");
} else {
uobj = pg->uobject;
if (uobj) {
(*pr)(" checking object list\n");
TAILQ_FOREACH(tpg, &uobj->memq, listq) {
if (tpg == pg) {
break;
}
}
if (tpg)
(*pr)(" page found on object list\n");
else
(*pr)(" >>> PAGE NOT FOUND ON OBJECT LIST! <<<\n");
}
}
}
/* cross-verify page queue */
if (pg->pg_flags & PQ_FREE) {
int fl = uvm_page_lookup_freelist(pg);
pgl = &uvm.page_free[fl].pgfl_queues[((pg)->pg_flags & PG_ZERO) ?
PGFL_ZEROS : PGFL_UNKNOWN];
} else if (pg->pg_flags & PQ_INACTIVE) {
pgl = (pg->pg_flags & PQ_SWAPBACKED) ?
&uvm.page_inactive_swp : &uvm.page_inactive_obj;
} else if (pg->pg_flags & PQ_ACTIVE) {
pgl = &uvm.page_active;
} else {
pgl = NULL;
}
if (pgl) {
(*pr)(" checking pageq list\n");
TAILQ_FOREACH(tpg, pgl, pageq) {
if (tpg == pg) {
break;
}
}
if (tpg)
(*pr)(" page found on pageq list\n");
else
(*pr)(" >>> PAGE NOT FOUND ON PAGEQ LIST! <<<\n");
}
}
#endif
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