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feat: implement synchronisation to protecting access to PTEs of SPTs during eviction

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This commit is contained in:
Themis Demetriades
2024-12-05 16:51:15 +00:00
parent e779e8ac7c
commit d03e253046
6 changed files with 114 additions and 45 deletions
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13
src/vm/frame.c
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@@ -9,7 +9,6 @@
#include "threads/vaddr.h"
#include "userprog/pagedir.h"
#include "threads/synch.h"
#include "devices/swap.h"
/* Hash table that maps every active frame's kernel virtual address
to its corresponding 'frame_metadata'.*/
@@ -76,7 +75,7 @@ frame_alloc (enum palloc_flags flags, void *upage, struct thread *owner)
{
struct frame_metadata *frame_metadata;
flags |= PAL_USER;
lock_acquire (&lru_lock);
void *frame = palloc_get_page (flags);
@@ -93,15 +92,7 @@ frame_alloc (enum palloc_flags flags, void *upage, struct thread *owner)
ASSERT (victim != NULL); /* get_victim () should never return null. */
/* 2. Swap out victim into disk. */
/* Mark page as 'not present' and flag the page directory as having
been modified *before* eviction begins to prevent the owner of the
victim page from accessing/modifying it mid-eviction. */
pagedir_clear_page (victim->owner->pagedir, victim->upage);
// TODO: Lock PTE of victim page for victim process.
size_t swap_slot = swap_out (victim->frame);
page_set_swap (victim->owner, victim->upage, swap_slot);
page_insert_swapped (victim->upage, victim->frame, victim->owner);
/* If zero flag is set, zero out the victim page. */
if (flags & PAL_ZERO)

77
src/vm/page.c
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@@ -1,10 +1,12 @@
#include "page.h"
#include <stdint.h>
#include <string.h>
#include <stdio.h>
#include "filesys/file.h"
#include "threads/pte.h"
#include "threads/malloc.h"
#include "threads/palloc.h"
#include "devices/swap.h"
#include "userprog/process.h"
#include "userprog/pagedir.h"
#include "vm/frame.h"
@@ -33,22 +35,65 @@ page_less (const struct hash_elem *a_, const struct hash_elem *b_,
return a->upage < b->upage;
}
/* Allocate and insert a new page entry into the thread's page table. */
static void page_flag_swap (uint32_t *pte, bool set);
static void page_set_swap (struct thread *owner, uint32_t *pte,
size_t swap_slot);
/* Swap out 'owner' process's 'upage' stored at 'kpage'. Then, allocate and
insert a new page entry into the user process thread's SPT representing
this swapped out page. */
struct page_entry *
page_insert (struct file *file, off_t ofs, void *upage, uint32_t read_bytes,
uint32_t zero_bytes, bool writable, enum page_type type)
page_insert_swapped (void *upage, void *kpage, struct thread *owner)
{
/* 1. Initialize swapped page entry. */
struct page_entry *page = malloc(sizeof (struct page_entry));
if (page == NULL)
return NULL;
page->upage = upage;
lock_init (&page->lock);
/* Mark page as 'swapped' and flag the page directory as having
been modified *before* eviction begins to prevent the owner of the
victim page from accessing/modifying it mid-eviction. */
/* TODO: We need to stop the process from destroying pagedir mid-eviction,
as this could render the page table entry invalid. */
uint32_t *pte = lookup_page (owner->pagedir, upage, false);
ASSERT (pte != NULL);
page_flag_swap (pte, true);
lock_acquire (&page->lock);
struct hash_elem *elem = hash_insert (&owner->pages, &page->elem);
ASSERT(elem == NULL);
pagedir_clear_page (owner->pagedir, upage);
size_t swap_slot = swap_out (kpage);
page_set_swap (owner, pte, swap_slot);
lock_release (&page->lock);
return page;
}
/* Allocate and insert a new page entry into the user process thread's
SPT representing a file page. */
struct page_entry *
page_insert_file (struct file *file, off_t ofs, void *upage,
uint32_t read_bytes, uint32_t zero_bytes, bool writable,
enum page_type type)
{
struct page_entry *page = malloc(sizeof (struct page_entry));
if (page == NULL)
return NULL;
page->type = type;
page->file = file;
page->offset = ofs;
page->upage = upage;
page->read_bytes = read_bytes;
page->zero_bytes = zero_bytes;
page->writable = writable;
page->type = type;
hash_insert (&thread_current ()->pages, &page->elem);
return page;
@@ -71,7 +116,7 @@ page_get (void *upage)
}
bool
page_load (struct page_entry *page, bool writable)
page_load_file (struct page_entry *page, bool writable)
{
/* Allocate a frame for the page. If a frame allocation fails, then
frame_alloc should try to evict a page. If it is still NULL, the OS
@@ -114,14 +159,21 @@ page_cleanup (struct hash_elem *e, void *aux UNUSED)
free (hash_entry (e, struct page_entry, elem));
}
/* Updates the 'owner' thread's page table entry for virtual address 'upage'
to flag the page as being stored in swap, and stores the specified swap slot
value in the entry at the address bits for later retrieval from disk. */
/* Flags the provided page table entry as representing a swapped out page. */
void
page_set_swap (struct thread *owner, void *upage, size_t swap_slot)
{
uint32_t *pte = lookup_page (owner->pagedir, upage, false);
page_flag_swap (uint32_t *pte, bool set)
{
if (set)
*pte |= (1 << SWAP_FLAG_BIT);
else
*pte &= ~(1 << SWAP_FLAG_BIT);
}
/* Sets the address bits of the page table entry to the provided swap slot
value. To be used for later retrieval of the swap slot when page faulting. */
static void
page_set_swap (struct thread *owner, uint32_t *pte, size_t swap_slot)
{
/* Store the provided swap slot in the address bits of the page table
entry, truncating excess bits. */
*pte |= (1 << SWAP_FLAG_BIT);
@@ -143,7 +195,7 @@ page_in_swap (struct thread *owner, void *upage)
/* Given that the page with user address 'upage' owned by 'owner' is flagged
to be in the swap disk via the owner's page table, returns its stored
swap slot. Otherwise panics the kernel. */
swap slot and marks the PTE as not being in swap. */
size_t
page_get_swap (struct thread *owner, void *upage)
{
@@ -153,5 +205,6 @@ page_get_swap (struct thread *owner, void *upage)
ASSERT ((*pte & PTE_P) == 0);
/* Masks the address bits and returns truncated value. */
page_flag_swap (pte, false);
return ((*pte & PTE_ADDR) >> ADDR_START_BIT);
}

20
src/vm/page.h
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@@ -2,10 +2,12 @@
#define VM_PAGE_H
#include "threads/thread.h"
#include "threads/synch.h"
#include "filesys/off_t.h"
enum page_type {
PAGE_FILE,
PAGE_MMAP,
PAGE_EMPTY
};
@@ -13,6 +15,11 @@ struct page_entry {
enum page_type type; /* Type of Data that should go into the page */
void *upage; /* Start Address of the User Page (Key of hash table). */
/* Data for swapped pages */
struct lock lock; /* Enforces mutual exclusion in accessing the page
referenced by the entry between its owning process
and any thread performing page eviction. */
/* File Data */
struct file *file; /* Pointer to the file for executables. */
off_t offset; /* Offset of the page content within the file. */
@@ -26,15 +33,16 @@ struct page_entry {
unsigned page_hash (const struct hash_elem *e, void *aux);
bool page_less (const struct hash_elem *a_, const struct hash_elem *b_,
void *aux);
struct page_entry *page_insert (struct file *file, off_t ofs, void *upage,
uint32_t read_bytes, uint32_t zero_bytes,
bool writable, enum page_type type);
struct page_entry *page_insert_swapped (void *upage, void* kpage,
struct thread *owner);
struct page_entry *page_insert_file (struct file *file, off_t ofs, void *upage,
uint32_t read_bytes, uint32_t zero_bytes,
bool writable, enum page_type);
struct page_entry *page_get (void *upage);
bool page_load (struct page_entry *page, bool writable);
bool page_load_file (struct page_entry *page, bool writable);
void page_cleanup (struct hash_elem *e, void *aux);
void page_set_swap (struct thread *, void *, size_t);
bool page_in_swap (struct thread *, void *);
size_t page_get_swap (struct thread *, void *);
size_t page_get_swap (struct thread *owner, void *upage);
#endif /* vm/frame.h */