VM: only single page chunks

. only reference single pages in process data structures
   to simplify page faults, copy-on-write, etc.
 . this breaks the secondary cache for objects that are
   not one-page-sized; restored in a next commit
This commit is contained in:
Ben Gras 2012-09-18 13:17:49 +02:00
parent 6d7b770761
commit 19e6dad47b
10 changed files with 150 additions and 338 deletions

View file

@ -124,7 +124,7 @@ void add_memmap(kinfo_t *cbi, u64_t addr, u64_t len)
u32_t *alloc_pagetable(phys_bytes *ph)
{
u32_t *ret;
#define PG_PAGETABLES 3
#define PG_PAGETABLES 6
static u32_t pagetables[PG_PAGETABLES][1024] __aligned(4096);
static int pt_inuse = 0;
if(pt_inuse >= PG_PAGETABLES) panic("no more pagetables");

View file

@ -41,13 +41,14 @@ static int free_page_cache_size = 0;
static phys_bytes mem_low, mem_high;
static void free_pages(phys_bytes addr, int pages);
static phys_bytes alloc_pages(int pages, int flags, phys_bytes *ret);
static phys_bytes alloc_pages(int pages, int flags);
#if SANITYCHECKS
#define PAGESPERGB (1024*1024*1024/VM_PAGE_SIZE) /* 1GB of memory */
#define MAXPAGES (2*PAGESPERGB)
#define CHUNKS BITMAP_CHUNKS(MAXPAGES)
static bitchunk_t pagemap[CHUNKS];
struct {
int used;
char *file;
int line;
} pagemap[NUMBER_PHYSICAL_PAGES];
#endif
#define page_isfree(i) GET_BIT(free_pages_bitmap, i)
@ -73,10 +74,10 @@ phys_clicks alloc_mem(phys_clicks clicks, u32_t memflags)
clicks += align_clicks;
}
mem = alloc_pages(clicks, memflags, NULL);
mem = alloc_pages(clicks, memflags);
if(mem == NO_MEM) {
free_yielded(clicks * CLICK_SIZE);
mem = alloc_pages(clicks, memflags, NULL);
mem = alloc_pages(clicks, memflags);
}
if(mem == NO_MEM)
@ -154,7 +155,7 @@ void mem_sanitycheck(char *file, int line)
int i;
for(i = 0; i < NUMBER_PHYSICAL_PAGES; i++) {
if(!page_isfree(i)) continue;
usedpages_add(i * VM_PAGE_SIZE, VM_PAGE_SIZE);
MYASSERT(usedpages_add(i * VM_PAGE_SIZE, VM_PAGE_SIZE) == OK);
}
}
#endif
@ -201,7 +202,7 @@ static int findbit(int low, int startscan, int pages, int memflags, int *len)
if(!run_length) { freerange_start = i; run_length = 1; }
else { freerange_start--; run_length++; }
assert(run_length <= pages);
if(run_length == pages || (memflags & PAF_FIRSTBLOCK)) {
if(run_length == pages) {
/* good block found! */
*len = run_length;
return freerange_start;
@ -214,7 +215,7 @@ static int findbit(int low, int startscan, int pages, int memflags, int *len)
/*===========================================================================*
* alloc_pages *
*===========================================================================*/
static phys_bytes alloc_pages(int pages, int memflags, phys_bytes *len)
static phys_bytes alloc_pages(int pages, int memflags)
{
phys_bytes boundary16 = 16 * 1024 * 1024 / VM_PAGE_SIZE;
phys_bytes boundary1 = 1 * 1024 * 1024 / VM_PAGE_SIZE;
@ -223,24 +224,13 @@ static phys_bytes alloc_pages(int pages, int memflags, phys_bytes *len)
static int lastscan = -1;
int startscan, run_length;
#if NONCONTIGUOUS
/* If NONCONTIGUOUS is on, allocate physical pages single
* pages at a time, accomplished by returning single pages
* if the caller can handle that (indicated by PAF_FIRSTBLOCK).
*/
if(memflags & PAF_FIRSTBLOCK) {
assert(!(memflags & PAF_CONTIG));
pages = 1;
}
#endif
if(memflags & PAF_LOWER16MB)
maxpage = boundary16 - 1;
else if(memflags & PAF_LOWER1MB)
maxpage = boundary1 - 1;
else {
/* no position restrictions: check page cache */
if((pages == 1 || (memflags & PAF_FIRSTBLOCK))) {
if(pages == 1) {
while(free_page_cache_size > 0) {
i = free_page_cache[free_page_cache_size-1];
if(page_isfree(i)) {
@ -263,29 +253,12 @@ static phys_bytes alloc_pages(int pages, int memflags, phys_bytes *len)
mem = findbit(0, startscan, pages, memflags, &run_length);
if(mem == NO_MEM)
mem = findbit(0, maxpage, pages, memflags, &run_length);
if(mem == NO_MEM) {
if(len)
*len = 0;
if(mem == NO_MEM)
return NO_MEM;
}
/* remember for next time */
lastscan = mem;
if(memflags & PAF_FIRSTBLOCK) {
assert(len);
/* block doesn't have to as big as requested;
* return its size though.
*/
if(run_length < pages) {
pages = run_length;
}
}
if(len)
*len = pages;
for(i = mem; i < mem + pages; i++) {
UNSET_BIT(free_pages_bitmap, i);
}
@ -364,14 +337,21 @@ int usedpages_add_f(phys_bytes addr, phys_bytes len, char *file, int line)
while(pages > 0) {
phys_bytes thisaddr;
assert(pagestart > 0);
assert(pagestart < MAXPAGES);
assert(pagestart < NUMBER_PHYSICAL_PAGES);
thisaddr = pagestart * VM_PAGE_SIZE;
if(GET_BIT(pagemap, pagestart)) {
printf("%s:%d: usedpages_add: addr 0x%lx reused.\n",
file, line, thisaddr);
assert(pagestart >= 0);
assert(pagestart < NUMBER_PHYSICAL_PAGES);
if(pagemap[pagestart].used) {
static int warnings = 0;
if(warnings++ < 100)
printf("%s:%d: usedpages_add: addr 0x%lx reused, first %s:%d\n",
file, line, thisaddr, pagemap[pagestart].file, pagemap[pagestart].line);
util_stacktrace();
return EFAULT;
}
SET_BIT(pagemap, pagestart);
pagemap[pagestart].used = 1;
pagemap[pagestart].file = file;
pagemap[pagestart].line = line;
pages--;
pagestart++;
}
@ -384,9 +364,9 @@ int usedpages_add_f(phys_bytes addr, phys_bytes len, char *file, int line)
/*===========================================================================*
* alloc_mem_in_list *
*===========================================================================*/
struct memlist *alloc_mem_in_list(phys_bytes bytes, u32_t flags)
struct memlist *alloc_mem_in_list(phys_bytes bytes, u32_t flags, phys_bytes known)
{
phys_bytes rempages;
phys_bytes rempages, phys_count;
struct memlist *head = NULL, *tail = NULL;
assert(bytes > 0);
@ -394,24 +374,31 @@ struct memlist *alloc_mem_in_list(phys_bytes bytes, u32_t flags)
rempages = bytes / VM_PAGE_SIZE;
/* unless we are told to allocate all memory
* contiguously, tell alloc function to grab whatever
* block it can find.
*/
if(!(flags & PAF_CONTIG))
flags |= PAF_FIRSTBLOCK;
assert(!(flags & PAF_CONTIG));
if(known != MAP_NONE)
phys_count = known;
do {
struct memlist *ml;
phys_bytes mem, gotpages;
phys_bytes mem;
vir_bytes freed = 0;
do {
mem = alloc_pages(rempages, flags, &gotpages);
if(known == MAP_NONE) {
mem = alloc_pages(1, flags);
if(mem == NO_MEM) {
freed = free_yielded(rempages * VM_PAGE_SIZE);
}
assert(mem != MAP_NONE);
} else {
mem = ABS2CLICK(phys_count);
phys_count += VM_PAGE_SIZE;
assert(mem != MAP_NONE);
assert(mem != NO_MEM);
}
assert(mem != MAP_NONE);
} while(mem == NO_MEM && freed > 0);
if(mem == NO_MEM) {
@ -422,19 +409,13 @@ struct memlist *alloc_mem_in_list(phys_bytes bytes, u32_t flags)
return NULL;
}
assert(gotpages <= rempages);
assert(gotpages > 0);
if(!(SLABALLOC(ml))) {
free_mem_list(head, 1);
free_pages(mem, gotpages);
free_pages(mem, VM_PAGE_SIZE);
return NULL;
}
USE(ml,
ml->phys = CLICK2ABS(mem);
ml->length = CLICK2ABS(gotpages);
ml->next = NULL;);
USE(ml, ml->phys = CLICK2ABS(mem); ml->next = NULL;);
if(tail) {
USE(tail,
tail->next = ml;);
@ -442,17 +423,15 @@ struct memlist *alloc_mem_in_list(phys_bytes bytes, u32_t flags)
tail = ml;
if(!head)
head = ml;
rempages -= gotpages;
rempages--;
} while(rempages > 0);
{
struct memlist *ml;
for(ml = head; ml; ml = ml->next) {
assert(ml->phys);
assert(ml->length);
#if NONCONTIGUOUS
if(!(flags & PAF_CONTIG)) {
assert(ml->length == VM_PAGE_SIZE);
if(ml->next)
assert(ml->phys + ml->length != ml->next->phys);
}
@ -472,10 +451,8 @@ void free_mem_list(struct memlist *list, int all)
struct memlist *next;
next = list->next;
assert(!(list->phys % VM_PAGE_SIZE));
assert(!(list->length % VM_PAGE_SIZE));
if(all)
free_pages(list->phys / VM_PAGE_SIZE,
list->length / VM_PAGE_SIZE);
free_pages(list->phys / VM_PAGE_SIZE, 1);
SLABFREE(list);
list = next;
}
@ -487,8 +464,7 @@ void free_mem_list(struct memlist *list, int all)
void print_mem_list(struct memlist *list)
{
while(list) {
assert(list->length > 0);
printf("0x%lx-0x%lx", list->phys, list->phys+list->length-1);
printf("0x%lx-0x%lx", list->phys, list->phys+VM_PAGE_SIZE-1);
printf(" ");
list = list->next;
}

View file

@ -25,6 +25,8 @@ EXTERN kinfo_t kernel_boot_info;
EXTERN int nocheck;
EXTERN int incheck;
EXTERN long vm_sanitychecklevel;
EXTERN int sc_lastline;
EXTERN char *sc_lastfile;
#endif
/* total number of memory pages */

View file

@ -4,8 +4,7 @@
struct memlist {
struct memlist *next;
phys_bytes phys; /* physical address in bytes */
phys_bytes length; /* length in bytes */
phys_bytes phys; /* physical address of page */
};
#endif

View file

@ -20,7 +20,7 @@ struct phys_region;
/* alloc.c */
void mem_sanitycheck(char *file, int line);
phys_clicks alloc_mem(phys_clicks clicks, u32_t flags);
struct memlist *alloc_mem_in_list(phys_bytes bytes, u32_t flags);
struct memlist *alloc_mem_in_list(phys_bytes bytes, u32_t flags, phys_bytes known);
void memstats(int *nodes, int *pages, int *largest);
void printmemstats(void);
void usedpages_reset(void);
@ -145,7 +145,6 @@ int map_handle_memory(struct vmproc *vmp, struct vir_region *region,
void map_printmap(struct vmproc *vmp);
int map_writept(struct vmproc *vmp);
void printregionstats(struct vmproc *vmp);
phys_bytes map_lookup_phys(struct vmproc *vmp, u32_t tag);
void map_setparent(struct vmproc *vmp);
int yielded_block_cmp(struct block_id *, struct block_id *);

View file

@ -138,9 +138,9 @@ void map_printregion(struct vmproc *vmp, struct vir_region *vr)
printf("\t\tphysblocks:\n");
physr_start_iter_least(vr->phys, &iter);
while((ph = physr_get_iter(&iter))) {
printf("\t\t@ %lx (refs %d): phys 0x%lx len 0x%lx\n",
printf("\t\t@ %lx (refs %d): phys 0x%lx\n",
(vr->vaddr + ph->offset),
ph->ph->refcount, ph->ph->phys, ph->ph->length);
ph->ph->refcount, ph->ph->phys);
physr_incr_iter(&iter);
}
}
@ -199,7 +199,7 @@ static int map_sanitycheck_pt(struct vmproc *vmp,
rw = PTF_READ;
r = pt_writemap(vmp, &vmp->vm_pt, vr->vaddr + pr->offset,
pb->phys, pb->length, PTF_PRESENT | PTF_USER | rw, WMF_VERIFY);
pb->phys, VM_PAGE_SIZE, PTF_PRESENT | PTF_USER | rw, WMF_VERIFY);
if(r != OK) {
printf("proc %d phys_region 0x%lx sanity check failed\n",
@ -253,7 +253,7 @@ void map_sanitycheck(char *file, int line)
if(pr->ph->seencount == 1) {
if(!(pr->parent->flags & VR_DIRECT)) {
MYASSERT(usedpages_add(pr->ph->phys,
pr->ph->length) == OK);
VM_PAGE_SIZE) == OK);
}
}
);
@ -268,10 +268,9 @@ void map_sanitycheck(char *file, int line)
MYASSERT(!(vr->vaddr % VM_PAGE_SIZE));,
if(pr->ph->refcount != pr->ph->seencount) {
map_printmap(vmp);
printf("ph in vr %p: 0x%lx-0x%lx refcount %d "
printf("ph in vr %p: 0x%lx refcount %u "
"but seencount %u\n",
vr, pr->offset,
pr->offset + pr->ph->length,
pr->ph->refcount, pr->ph->seencount);
}
{
@ -294,8 +293,7 @@ void map_sanitycheck(char *file, int line)
MYASSERT(pr->ph->refcount == n_others);
}
MYASSERT(pr->ph->refcount == pr->ph->seencount);
MYASSERT(!(pr->offset % VM_PAGE_SIZE));
MYASSERT(!(pr->ph->length % VM_PAGE_SIZE)););
MYASSERT(!(pr->offset % VM_PAGE_SIZE)););
ALLREGIONS(,MYASSERT(map_sanitycheck_pt(vmp, vr, pr) == OK));
}
@ -368,7 +366,6 @@ static int map_ph_writept(struct vmproc *vmp, struct vir_region *vr,
struct phys_block *pb = pr->ph;
assert(!(vr->vaddr % VM_PAGE_SIZE));
assert(!(pb->length % VM_PAGE_SIZE));
assert(!(pr->offset % VM_PAGE_SIZE));
assert(pb->refcount > 0);
@ -378,7 +375,7 @@ static int map_ph_writept(struct vmproc *vmp, struct vir_region *vr,
rw = PTF_READ;
if(pt_writemap(vmp, &vmp->vm_pt, vr->vaddr + pr->offset,
pb->phys, pb->length, PTF_PRESENT | PTF_USER | rw,
pb->phys, VM_PAGE_SIZE, PTF_PRESENT | PTF_USER | rw,
#if SANITYCHECKS
!pr->written ? 0 :
#endif
@ -597,7 +594,7 @@ USE(newregion,
/* Pre-allocations should be uninitialized, but after that it's a
* different story.
*/
newregion->flags &= ~VR_UNINITIALIZED;
USE(newregion, newregion->flags &= ~VR_UNINITIALIZED;);
/* Link it. */
region_insert(&vmp->vm_regions_avl, newregion);
@ -649,8 +646,7 @@ void pb_unreferenced(struct vir_region *region, struct phys_region *pr)
if(pb->refcount == 0) {
assert(!pb->firstregion);
if(region->flags & VR_ANON) {
free_mem(ABS2CLICK(pb->phys),
ABS2CLICK(pb->length));
free_mem(ABS2CLICK(pb->phys), 1);
} else if(region->flags & VR_DIRECT) {
; /* No action required. */
} else {
@ -708,35 +704,11 @@ static int map_subfree(struct vmproc *vmp,
physr_incr_iter(&iter);
if(pr->offset >= len)
break;
if(pr->offset + pr->ph->length <= len) {
if(pr->offset + VM_PAGE_SIZE <= len) {
pb_unreferenced(region, pr);
physr_remove(region->phys, pr->offset);
physr_start_iter_least(region->phys, &iter);
SLABFREE(pr);
} else {
vir_bytes sublen;
assert(len > pr->offset);
assert(len < pr->offset + pr->ph->length);
assert(pr->ph->refcount > 0);
sublen = len - pr->offset;
assert(!(sublen % VM_PAGE_SIZE));
assert(sublen < pr->ph->length);
if(pr->ph->refcount > 1) {
if(!(pr = map_clone_ph_block(vmp, region,
pr, &iter)))
return ENOMEM;
}
assert(pr->ph->refcount == 1);
if(!(region->flags & VR_DIRECT)) {
free_mem(ABS2CLICK(pr->ph->phys), ABS2CLICK(sublen));
}
USE(pr, pr->offset += sublen;);
USE(pr->ph,
pr->ph->phys += sublen;
pr->ph->length -= sublen;);
assert(!(pr->offset % VM_PAGE_SIZE));
assert(!(pr->ph->phys % VM_PAGE_SIZE));
assert(!(pr->ph->length % VM_PAGE_SIZE));
}
}
@ -815,7 +787,6 @@ static vir_bytes free_yielded_proc(struct vmproc *vmp)
static phys_bytes freeyieldednode(yielded_t *node, int freemem)
{
yielded_t *older, *younger, *removed;
vir_bytes len;
yielded_avl *avl;
int p;
@ -861,15 +832,13 @@ static phys_bytes freeyieldednode(yielded_t *node, int freemem)
/* Free associated memory if requested. */
if(freemem) {
free_mem(ABS2CLICK(node->addr), ABS2CLICK(node->len));
free_mem(ABS2CLICK(node->addr), 1);
}
/* Free node. */
len = node->len;
SLABFREE(node);
return len;
return VM_PAGE_SIZE;
}
/*========================================================================*
@ -977,8 +946,8 @@ phys_bytes what_mem;
u32_t allocflags;
int written;
{
struct memlist *memlist, given, *ml;
int used_memlist, r;
struct memlist *memlist, *ml;
int r;
vir_bytes mapped = 0;
vir_bytes offset = start_offset;
@ -996,21 +965,21 @@ int written;
}
/* Memory for new physical block. */
if(what_mem == MAP_NONE) {
allocflags |= vrallocflags(region->flags);
if(!(memlist = alloc_mem_in_list(length, allocflags))) {
printf("map_new_physblock: couldn't allocate\n");
if(allocflags & PAF_CONTIG) {
assert(what_mem == MAP_NONE);
if((what_mem = alloc_mem(length/VM_PAGE_SIZE, allocflags)) == NO_MEM) {
return ENOMEM;
}
used_memlist = 1;
} else {
given.phys = what_mem;
given.length = length;
given.next = NULL;
memlist = &given;
used_memlist = 0;
assert(given.length);
what_mem = CLICK2ABS(what_mem);
allocflags &= ~PAF_CONTIG;
assert(what_mem != MAP_NONE);
}
if(!(memlist = alloc_mem_in_list(length, allocflags, what_mem))) {
printf("map_new_physblock: couldn't allocate\n");
return ENOMEM;
}
r = OK;
@ -1028,13 +997,13 @@ int written;
break;
}
/* New physical block. */
assert(!(ml->phys % VM_PAGE_SIZE));
assert(ml->phys != MAP_NONE);
USE(newpb,
newpb->phys = ml->phys;
newpb->refcount = 1;
newpb->length = ml->length;
newpb->firstregion = newphysr;);
/* New physical region. */
@ -1058,11 +1027,10 @@ int written;
physr_insert(region->phys, newphysr);
offset += ml->length;
mapped += ml->length;
offset += VM_PAGE_SIZE;
mapped += VM_PAGE_SIZE;
}
if(used_memlist) {
if(r != OK) {
offset = start_offset;
/* Things did not go well. Undo everything. */
@ -1075,7 +1043,7 @@ int written;
physr_remove(region->phys, physr->offset);
SLABFREE(physr);
}
offset += ml->length;
offset += VM_PAGE_SIZE;
}
} else assert(mapped == length);
@ -1084,7 +1052,6 @@ int written;
* the memory they reference is either freed above or in use.
*/
free_mem_list(memlist, 0);
}
SANITYCHECK(SCL_FUNCTIONS);
@ -1100,7 +1067,7 @@ struct vir_region *region;
struct phys_region *ph;
physr_iter *iter;
{
vir_bytes offset, length;
vir_bytes offset;
u32_t allocflags;
phys_bytes physaddr;
struct phys_region *newpr;
@ -1131,7 +1098,6 @@ physr_iter *iter;
/* Remember where and how much. */
offset = ph->offset;
length = ph->ph->length;
physaddr = ph->ph->phys;
/* Now unlink the original physical block so we can replace
@ -1150,11 +1116,11 @@ physr_iter *iter;
/* Put new free memory in. */
allocflags = vrallocflags(region->flags);
region_has_single_block = (offset == 0 && length == region->length);
region_has_single_block = (offset == 0 && region->length == VM_PAGE_SIZE);
assert(region_has_single_block || !(allocflags & PAF_CONTIG));
assert(!(allocflags & PAF_CLEAR));
if(map_new_physblock(vmp, region, offset, length,
if(map_new_physblock(vmp, region, offset, VM_PAGE_SIZE,
MAP_NONE, allocflags, written) != OK) {
/* XXX original range now gone. */
printf("VM: map_clone_ph_block: map_new_physblock failed.\n");
@ -1164,7 +1130,7 @@ physr_iter *iter;
/* Copy the block to the new memory.
* Can only fail if map_new_physblock didn't do what we asked.
*/
if(copy_abs2region(physaddr, region, offset, length) != OK)
if(copy_abs2region(physaddr, region, offset, VM_PAGE_SIZE) != OK)
panic("copy_abs2region failed, no good reason for that");
newpr = physr_search(region->phys, offset, AVL_EQUAL);
@ -1206,7 +1172,7 @@ int write;
SANITYCHECK(SCL_FUNCTIONS);
if((ph = physr_search(region->phys, offset, AVL_LESS_EQUAL)) &&
(ph->offset <= offset && offset < ph->offset + ph->ph->length)) {
(ph->offset <= offset && offset < ph->offset + VM_PAGE_SIZE)) {
/* Pagefault in existing block. Do copy-on-write. */
assert(write);
assert(region->flags & VR_WRITABLE);
@ -1295,7 +1261,7 @@ int write;
struct phys_region *r1 = (er1), *r2 = (er2); \
vir_bytes start = offset, end = offset + length; \
if(r1) { \
start = MAX(start, r1->offset + r1->ph->length); } \
start = MAX(start, r1->offset + VM_PAGE_SIZE); } \
if(r2) { \
end = MIN(end, r2->offset); } \
if(start < end) { \
@ -1329,7 +1295,7 @@ int write;
if(physr) {
physr = reset_physr_iter(region, &iter, physr->offset);
if(physr->offset + physr->ph->length <= offset) {
if(physr->offset + VM_PAGE_SIZE <= offset) {
physr_incr_iter(&iter);
physr = physr_get_iter(&iter);
@ -1503,16 +1469,16 @@ int copy_abs2region(phys_bytes abs, struct vir_region *destregion,
return EFAULT;
}
assert(ph->offset <= offset);
if(ph->offset+ph->ph->length <= offset) {
if(ph->offset+VM_PAGE_SIZE <= offset) {
printf("VM: copy_abs2region: no phys region found (2).\n");
return EFAULT;
}
suboffset = offset - ph->offset;
assert(suboffset < ph->ph->length);
assert(suboffset < VM_PAGE_SIZE);
sublen = len;
if(sublen > ph->ph->length - suboffset)
sublen = ph->ph->length - suboffset;
assert(suboffset + sublen <= ph->ph->length);
if(sublen > VM_PAGE_SIZE - suboffset)
sublen = VM_PAGE_SIZE - suboffset;
assert(suboffset + sublen <= VM_PAGE_SIZE);
if(ph->ph->refcount != 1) {
printf("VM: copy_abs2region: refcount not 1.\n");
return EFAULT;
@ -1797,6 +1763,7 @@ int map_unmap_region(struct vmproc *vmp, struct vir_region *r,
regionstart = r->vaddr;
if(len == r->length) {
SANITYCHECK(SCL_DETAIL);
/* Whole region disappears. Unlink and free it. */
region_remove(&vmp->vm_regions_avl, r->vaddr);
map_free(vmp, r);
@ -1806,6 +1773,7 @@ int map_unmap_region(struct vmproc *vmp, struct vir_region *r,
/* Region shrinks. First unreference its memory
* and then shrink the region.
*/
SANITYCHECK(SCL_DETAIL);
map_subfree(vmp, r, len);
USE(r,
r->vaddr += len;
@ -1969,7 +1937,7 @@ void get_stats_info(struct vm_stats_info *vsi)
vsi->vsi_cached = 0L;
for(yb = lru_youngest; yb; yb = yb->older)
vsi->vsi_cached += yb->len / VM_PAGE_SIZE;
vsi->vsi_cached++;
}
/*========================================================================*
@ -1980,7 +1948,6 @@ void get_usage_info(struct vmproc *vmp, struct vm_usage_info *vui)
struct vir_region *vr;
physr_iter iter;
struct phys_region *ph;
vir_bytes len;
region_iter v_iter;
region_start_iter_least(&vmp->vm_regions_avl, &v_iter);
@ -1989,19 +1956,17 @@ void get_usage_info(struct vmproc *vmp, struct vm_usage_info *vui)
while((vr = region_get_iter(&v_iter))) {
physr_start_iter_least(vr->phys, &iter);
while((ph = physr_get_iter(&iter))) {
len = ph->ph->length;
/* All present pages are counted towards the total. */
vui->vui_total += len;
vui->vui_total += VM_PAGE_SIZE;
if (ph->ph->refcount > 1) {
/* Any page with a refcount > 1 is common. */
vui->vui_common += len;
vui->vui_common += VM_PAGE_SIZE;
/* Any common, non-COW page is shared. */
if (vr->flags & VR_SHARED ||
ph->ph->share_flag == PBSH_SMAP)
vui->vui_shared += len;
vui->vui_shared += VM_PAGE_SIZE;
}
physr_incr_iter(&iter);
}
@ -2040,7 +2005,7 @@ int get_region_info(struct vmproc *vmp, struct vm_region_info *vri,
/* Report start+length of region starting from lowest use. */
vri->vri_addr = vr->vaddr + ph1->offset;
vri->vri_prot = 0;
vri->vri_length = ph2->offset + ph2->ph->length - ph1->offset;
vri->vri_length = ph2->offset + VM_PAGE_SIZE - ph1->offset;
/* "AND" the provided protection with per-page protection. */
if (!(vr->flags & VR_WRITABLE))
@ -2075,8 +2040,8 @@ void printregionstats(struct vmproc *vmp)
physr_start_iter_least(vr->phys, &iter);
while((pr = physr_get_iter(&iter))) {
physr_incr_iter(&iter);
used += pr->ph->length;
weighted += pr->ph->length / pr->ph->refcount;
used += VM_PAGE_SIZE;
weighted += VM_PAGE_SIZE / pr->ph->refcount;
}
}
@ -2160,7 +2125,7 @@ static int do_map_memory(struct vmproc *vms, struct vmproc *vmd,
pb->share_flag = PBSH_COW;
/* Update the page table for the src process. */
pt_writemap(vms, &vms->vm_pt, offset_s + vrs->vaddr,
pb->phys, pb->length,
pb->phys, VM_PAGE_SIZE,
pt_flag, WMF_OVERWRITE);
}
else { /* SMAP share */
@ -2168,12 +2133,12 @@ static int do_map_memory(struct vmproc *vms, struct vmproc *vmd,
}
/* Update the page table for the destination process. */
pt_writemap(vmd, &vmd->vm_pt, offset_d + vrd->vaddr,
pb->phys, pb->length, pt_flag, WMF_OVERWRITE);
pb->phys, VM_PAGE_SIZE, pt_flag, WMF_OVERWRITE);
}
physr_incr_iter(&iter);
offset_d += pb->length;
offset_s += pb->length;
offset_d += VM_PAGE_SIZE;
offset_s += VM_PAGE_SIZE;
}
return OK;
}
@ -2218,96 +2183,13 @@ int unmap_memory(endpoint_t sour, endpoint_t dest,
return ENOMEM;
physr_incr_iter(&iter);
off += pb->length;
off += VM_PAGE_SIZE;
}
return OK;
}
/*===========================================================================*
* split_phys *
*===========================================================================*/
static int split_phys(struct phys_region *pr, vir_bytes point)
{
struct phys_region *newpr, *q, *prev = NULL;
struct phys_block *newpb;
struct phys_block *pb = pr->ph;
/* Split the phys region into 2 parts by @point. */
if(pr->offset >= point || pr->offset + pb->length <= point)
return OK;
if(!SLABALLOC(newpb))
return ENOMEM;
/* Split phys block. */
*newpb = *pb;
pb->length = point - pr->offset;
newpb->length -= pb->length;
newpb->phys += pb->length;
/* Split phys regions in a list. */
for(q = pb->firstregion; q; q = q->next_ph_list) {
if(!SLABALLOC(newpr))
return ENOMEM;
*newpr = *q;
newpr->ph = newpb;
newpr->offset += pb->length;
/* Link to the vir region's phys region list. */
physr_insert(newpr->parent->phys, newpr);
/* Link to the next_ph_list. */
if(q == pb->firstregion) {
newpb->firstregion = newpr;
prev = newpr;
} else {
prev->next_ph_list = newpr;
prev = newpr;
}
}
assert(prev);
prev->next_ph_list = NULL;
return OK;
}
/*===========================================================================*
* clean_phys_regions *
*===========================================================================*/
static void clean_phys_regions(struct vir_region *region,
vir_bytes offset, vir_bytes length)
{
/* Consider @offset as the start address and @offset+length as the end address.
* If there are phys regions crossing the start address or the end address,
* split them into 2 parts.
*
* We assume that the phys regions are listed in order and don't overlap.
*/
struct phys_region *pr;
physr_iter iter;
physr_start_iter_least(region->phys, &iter);
while((pr = physr_get_iter(&iter))) {
/* If this phys region crosses the start address, split it. */
if(pr->offset < offset
&& pr->offset + pr->ph->length > offset) {
split_phys(pr, offset);
physr_start_iter_least(region->phys, &iter);
}
/* If this phys region crosses the end address, split it. */
else if(pr->offset < offset + length
&& pr->offset + pr->ph->length > offset + length) {
split_phys(pr, offset + length);
physr_start_iter_least(region->phys, &iter);
}
else {
physr_incr_iter(&iter);
}
}
}
/*===========================================================================*
* rm_phys_regions *
*===========================================================================*/
@ -2369,8 +2251,6 @@ int map_memory(endpoint_t sour, endpoint_t dest,
map_handle_memory(vms, vrs, offset_s, length, 0);
/* Prepare work. */
clean_phys_regions(vrs, offset_s, length);
clean_phys_regions(vrd, offset_d, length);
rm_phys_regions(vrd, offset_d, length);
/* Map memory. */
@ -2379,42 +2259,11 @@ int map_memory(endpoint_t sour, endpoint_t dest,
return r;
}
/*========================================================================*
* map_lookup_phys *
*========================================================================*/
phys_bytes
map_lookup_phys(struct vmproc *vmp, u32_t tag)
{
struct vir_region *vr;
struct phys_region *pr;
physr_iter iter;
if(!(vr = map_region_lookup_tag(vmp, tag))) {
printf("VM: request for phys of missing region\n");
return MAP_NONE;
}
physr_start_iter_least(vr->phys, &iter);
if(!(pr = physr_get_iter(&iter))) {
printf("VM: request for phys of unmapped region\n");
return MAP_NONE;
}
if(pr->offset != 0 || pr->ph->length != vr->length) {
printf("VM: request for phys of partially mapped region\n");
return MAP_NONE;
}
return pr->ph->phys;
}
/*===========================================================================*
* get_clean_phys_region *
*===========================================================================*/
static struct phys_region *
get_clean_phys_region(struct vmproc *vmp, vir_bytes vaddr, vir_bytes length,
struct vir_region **ret_region)
get_clean_phys_region(struct vmproc *vmp, vir_bytes vaddr, struct vir_region **ret_region)
{
struct vir_region *region;
vir_bytes regionoffset, mapaddr;
@ -2450,12 +2299,6 @@ get_clean_phys_region(struct vmproc *vmp, vir_bytes vaddr, vir_bytes length,
/* Make sure this is what we asked for. */
assert(ph->offset == regionoffset);
if(ph->ph->length != length) {
printf("VM: get_clean_phys_region: len mismatch (%lu, %lu)\n",
ph->ph->length, length);
return NULL;
}
/* If it's mapped more than once, make a copy. */
assert(ph->ph->refcount > 0);
if(ph->ph->refcount > 1) {
@ -2473,8 +2316,7 @@ get_clean_phys_region(struct vmproc *vmp, vir_bytes vaddr, vir_bytes length,
return ph;
}
static int getblock(struct vmproc *vmp, u64_t id,
vir_bytes vaddr, vir_bytes len)
static int getblock(struct vmproc *vmp, u64_t id, vir_bytes vaddr)
{
yielded_t *yb;
struct phys_region *ph;
@ -2490,15 +2332,8 @@ static int getblock(struct vmproc *vmp, u64_t id,
return ESRCH;
}
/* Check the size as a sanity check. */
if(yb->len != len) {
printf("VM: id 0x%lx%08lx mismatched size (%lu, %lu) for %d\n",
ex64hi(id), ex64lo(id), yb->len, len, vmp->vm_endpoint);
return ESRCH;
}
/* Get the intended phys region, make sure refcount is 1. */
if(!(ph = get_clean_phys_region(vmp, vaddr, len, &region))) {
if(!(ph = get_clean_phys_region(vmp, vaddr, &region))) {
printf("VM: getblock: not found for %d\n", vmp->vm_endpoint);
return EINVAL;
}
@ -2506,7 +2341,7 @@ static int getblock(struct vmproc *vmp, u64_t id,
assert(ph->ph->refcount == 1);
/* Free the block that is currently there. */
free_mem(ABS2CLICK(ph->ph->phys), ABS2CLICK(ph->ph->length));
free_mem(ABS2CLICK(ph->ph->phys), 1);
/* Set the phys block to new addr and update pagetable. */
USE(ph->ph, ph->ph->phys = yb->addr;);
@ -2524,7 +2359,7 @@ static int getblock(struct vmproc *vmp, u64_t id,
}
static int yieldblock(struct vmproc *vmp, u64_t id,
vir_bytes vaddr, vir_bytes len, yielded_t **retyb)
vir_bytes vaddr, yielded_t **retyb)
{
yielded_t *newyb;
vir_bytes mem_clicks, clicks;
@ -2544,7 +2379,9 @@ static int yieldblock(struct vmproc *vmp, u64_t id,
return EINVAL;
}
if(!(ph = get_clean_phys_region(vmp, vaddr, len, &region))) {
if(vaddr % VM_PAGE_SIZE) return EFAULT;
if(!(ph = get_clean_phys_region(vmp, vaddr, &region))) {
printf("VM: do_yield_block: not found for %d\n",
vmp->vm_endpoint);
return EINVAL;
@ -2556,9 +2393,8 @@ static int yieldblock(struct vmproc *vmp, u64_t id,
}
assert(!(ph->ph->phys % VM_PAGE_SIZE));
assert(!(ph->ph->length % VM_PAGE_SIZE));
clicks = CLICKSPERPAGE * ph->ph->length / VM_PAGE_SIZE;
clicks = 1;
if((mem_clicks = alloc_mem(clicks, PAF_CLEAR)) == NO_MEM) {
SLABFREE(newyb);
return ENOMEM;
@ -2568,7 +2404,6 @@ static int yieldblock(struct vmproc *vmp, u64_t id,
USE(newyb,
newyb->id = blockid;
newyb->addr = ph->ph->phys;
newyb->len = ph->ph->length;
newyb->younger = NULL;);
/* Set new phys block to new addr and update pagetable. */
@ -2671,7 +2506,6 @@ int do_yieldblockgetblock(message *m)
struct vmproc *vmp;
yielded_t *yb = NULL;
int r = ESRCH;
size_t len;
if(vm_isokendpt(caller, &n) != OK)
panic("do_yieldblockgetblock: message from strange source: %d",
@ -2679,10 +2513,13 @@ int do_yieldblockgetblock(message *m)
vmp = &vmproc[n];
len = m->VMYBGB_LEN;
if((len % VM_PAGE_SIZE)) {
len += VM_PAGE_SIZE - len % VM_PAGE_SIZE;
if(m->VMYBGB_LEN != VM_PAGE_SIZE) {
static int printed = 0;
if(!printed) {
printed = 1;
printf("vm: secondary cache for non-page-sized blocks temporarily disabled\n");
}
return ENOSYS;
}
yieldid = make64(m->VMYBGB_YIELDIDLO, m->VMYBGB_YIELDIDHI);
@ -2690,12 +2527,12 @@ int do_yieldblockgetblock(message *m)
if(cmp64(yieldid, VM_BLOCKID_NONE) != 0) {
/* A block was given to yield. */
yieldblock(vmp, yieldid, (vir_bytes) m->VMYBGB_VADDR, len, &yb);
yieldblock(vmp, yieldid, (vir_bytes) m->VMYBGB_VADDR, &yb);
}
if(cmp64(getid, VM_BLOCKID_NONE) != 0) {
/* A block was given to get. */
r = getblock(vmp, getid, (vir_bytes) m->VMYBGB_VADDR, len);
r = getblock(vmp, getid, (vir_bytes) m->VMYBGB_VADDR);
}
return r;

View file

@ -23,7 +23,6 @@ struct phys_block {
#if SANITYCHECKS
u32_t seencount;
#endif
vir_bytes length; /* no. of contiguous bytes */
phys_bytes phys; /* physical memory */
u8_t refcount; /* Refcount of these pages */
#define PBSH_COW 1

View file

@ -11,7 +11,7 @@
* line are function arguments.
*/
#define MYASSERT(c) do { if(!(c)) { \
printf("VM:%s:%d: %s failed\n", file, line, #c); \
printf("VM:%s:%d: %s failed (last sanity check %s:%d)\n", file, line, #c, sc_lastfile, sc_lastline); \
panic("sanity check failed"); } } while(0)
#define SLABSANITYCHECK(l) if((l) <= vm_sanitychecklevel) { \
@ -33,6 +33,7 @@
assert(incheck == 1); \
incheck = 0; \
/* printf("(%s:%d OK) ", __FILE__, __LINE__); */ \
sc_lastfile = __FILE__; sc_lastline = __LINE__; \
}
#define SLABSANE(ptr) { \

View file

@ -7,7 +7,6 @@
#define PAF_ALIGN64K 0x04 /* Aligned to 64k boundary. */
#define PAF_LOWER16MB 0x08
#define PAF_LOWER1MB 0x10
#define PAF_FIRSTBLOCK 0x20 /* alloc_mem: return first block */
#define PAF_ALIGN16K 0x40 /* Aligned to 16k boundary. */
#define MARK do { if(mark) { printf("%d\n", __LINE__); } } while(0)

View file

@ -14,7 +14,7 @@ typedef struct yielded {
* uniquely identify a yielded block.
*/
block_id_t id;
phys_bytes addr, len;
phys_bytes addr;
/* LRU fields */
struct yielded *younger, *older;