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- #include <swap.h>
- #include <swapfs.h>
- #include <swap_fifo.h>
- #include <stdio.h>
- #include <string.h>
- #include <memlayout.h>
- #include <pmm.h>
- #include <mmu.h>
- #include <default_pmm.h>
- #include <kdebug.h>
-
- // the valid vaddr for check is between 0~CHECK_VALID_VADDR-1
- #define CHECK_VALID_VIR_PAGE_NUM 5
- #define BEING_CHECK_VALID_VADDR 0X1000
- #define CHECK_VALID_VADDR (CHECK_VALID_VIR_PAGE_NUM+1)*0x1000
- // the max number of valid physical page for check
- #define CHECK_VALID_PHY_PAGE_NUM 4
- // the max access seq number
- #define MAX_SEQ_NO 10
-
- static struct swap_manager *sm;
- size_t max_swap_offset;
-
- volatile int swap_init_ok = 0;
-
- unsigned int swap_page[CHECK_VALID_VIR_PAGE_NUM];
-
- unsigned int swap_in_seq_no[MAX_SEQ_NO],swap_out_seq_no[MAX_SEQ_NO];
-
- static void check_swap(void);
-
- int
- swap_init(void)
- {
- swapfs_init();
-
- if (!(1024 <= max_swap_offset && max_swap_offset < MAX_SWAP_OFFSET_LIMIT))
- {
- panic("bad max_swap_offset %08x.\n", max_swap_offset);
- }
-
-
- sm = &swap_manager_fifo;
- int r = sm->init();
-
- if (r == 0)
- {
- swap_init_ok = 1;
- cprintf("SWAP: manager = %s\n", sm->name);
- check_swap();
- }
-
- return r;
- }
-
- int
- swap_init_mm(struct mm_struct *mm)
- {
- return sm->init_mm(mm);
- }
-
- int
- swap_tick_event(struct mm_struct *mm)
- {
- return sm->tick_event(mm);
- }
-
- int
- swap_map_swappable(struct mm_struct *mm, uintptr_t addr, struct Page *page, int swap_in)
- {
- return sm->map_swappable(mm, addr, page, swap_in);
- }
-
- int
- swap_set_unswappable(struct mm_struct *mm, uintptr_t addr)
- {
- return sm->set_unswappable(mm, addr);
- }
-
- volatile unsigned int swap_out_num=0;
-
- int
- swap_out(struct mm_struct *mm, int n, int in_tick)
- {
- int i;
- for (i = 0; i != n; ++ i)
- {
- uintptr_t v;
- //struct Page **ptr_page=NULL;
- struct Page *page;
- // cprintf("i %d, SWAP: call swap_out_victim\n",i);
- int r = sm->swap_out_victim(mm, &page, in_tick);
- if (r != 0) {
- cprintf("i %d, swap_out: call swap_out_victim failed\n",i);
- break;
- }
- //assert(!PageReserved(page));
-
- //cprintf("SWAP: choose victim page 0x%08x\n", page);
-
- v=page->pra_vaddr;
- pte_t *ptep = get_pte(mm->pgdir, v, 0);
- assert((*ptep & PTE_P) != 0);
-
- if (swapfs_write( (page->pra_vaddr/PGSIZE+1)<<8, page) != 0) {
- cprintf("SWAP: failed to save\n");
- sm->map_swappable(mm, v, page, 0);
- continue;
- }
- else {
- cprintf("swap_out: i %d, store page in vaddr 0x%x to disk swap entry %d\n", i, v, page->pra_vaddr/PGSIZE+1);
- *ptep = (page->pra_vaddr/PGSIZE+1)<<8;
- free_page(page);
- }
-
- tlb_invalidate(mm->pgdir, v);
- }
- return i;
- }
-
- int
- swap_in(struct mm_struct *mm, uintptr_t addr, struct Page **ptr_result)
- {
- struct Page *result = alloc_page();
- assert(result!=NULL);
-
- pte_t *ptep = get_pte(mm->pgdir, addr, 0);
- // cprintf("SWAP: load ptep %x swap entry %d to vaddr 0x%08x, page %x, No %d\n", ptep, (*ptep)>>8, addr, result, (result-pages));
-
- int r;
- if ((r = swapfs_read((*ptep), result)) != 0)
- {
- assert(r!=0);
- }
- cprintf("swap_in: load disk swap entry %d with swap_page in vadr 0x%x\n", (*ptep)>>8, addr);
- *ptr_result=result;
- return 0;
- }
-
-
-
- static inline void
- check_content_set(void)
- {
- *(unsigned char *)0x1000 = 0x0a;
- assert(pgfault_num==1);
- *(unsigned char *)0x1010 = 0x0a;
- assert(pgfault_num==1);
- *(unsigned char *)0x2000 = 0x0b;
- assert(pgfault_num==2);
- *(unsigned char *)0x2010 = 0x0b;
- assert(pgfault_num==2);
- *(unsigned char *)0x3000 = 0x0c;
- assert(pgfault_num==3);
- *(unsigned char *)0x3010 = 0x0c;
- assert(pgfault_num==3);
- *(unsigned char *)0x4000 = 0x0d;
- assert(pgfault_num==4);
- *(unsigned char *)0x4010 = 0x0d;
- assert(pgfault_num==4);
- }
-
- static inline int
- check_content_access(void)
- {
- int ret = sm->check_swap();
- return ret;
- }
-
- struct Page * check_rp[CHECK_VALID_PHY_PAGE_NUM];
- pte_t * check_ptep[CHECK_VALID_PHY_PAGE_NUM];
- unsigned int check_swap_addr[CHECK_VALID_VIR_PAGE_NUM];
-
- extern free_area_t free_area;
-
- #define free_list (free_area.free_list)
- #define nr_free (free_area.nr_free)
-
- static void
- check_swap(void)
- {
- //backup mem env
- int ret, count = 0, total = 0, i;
- list_entry_t *le = &free_list;
- while ((le = list_next(le)) != &free_list) {
- struct Page *p = le2page(le, page_link);
- assert(PageProperty(p));
- count ++, total += p->property;
- }
- assert(total == nr_free_pages());
- cprintf("BEGIN check_swap: count %d, total %d\n",count,total);
-
- //now we set the phy pages env
- struct mm_struct *mm = mm_create();
- assert(mm != NULL);
-
- extern struct mm_struct *check_mm_struct;
- assert(check_mm_struct == NULL);
-
- check_mm_struct = mm;
-
- pde_t *pgdir = mm->pgdir = boot_pgdir;
- assert(pgdir[0] == 0);
-
- struct vma_struct *vma = vma_create(BEING_CHECK_VALID_VADDR, CHECK_VALID_VADDR, VM_WRITE | VM_READ);
- assert(vma != NULL);
-
- insert_vma_struct(mm, vma);
-
- //setup the temp Page Table vaddr 0~4MB
- cprintf("setup Page Table for vaddr 0X1000, so alloc a page\n");
- pte_t *temp_ptep=NULL;
- temp_ptep = get_pte(mm->pgdir, BEING_CHECK_VALID_VADDR, 1);
- assert(temp_ptep!= NULL);
- cprintf("setup Page Table vaddr 0~4MB OVER!\n");
-
- for (i=0;i<CHECK_VALID_PHY_PAGE_NUM;i++) {
- check_rp[i] = alloc_page();
- assert(check_rp[i] != NULL );
- assert(!PageProperty(check_rp[i]));
- }
- list_entry_t free_list_store = free_list;
- list_init(&free_list);
- assert(list_empty(&free_list));
-
- //assert(alloc_page() == NULL);
-
- unsigned int nr_free_store = nr_free;
- nr_free = 0;
- for (i=0;i<CHECK_VALID_PHY_PAGE_NUM;i++) {
- free_pages(check_rp[i],1);
- }
- assert(nr_free==CHECK_VALID_PHY_PAGE_NUM);
-
- cprintf("set up init env for check_swap begin!\n");
- //setup initial vir_page<->phy_page environment for page relpacement algorithm
-
-
- pgfault_num=0;
-
- check_content_set();
- assert( nr_free == 0);
- for(i = 0; i<MAX_SEQ_NO ; i++)
- swap_out_seq_no[i]=swap_in_seq_no[i]=-1;
-
- for (i= 0;i<CHECK_VALID_PHY_PAGE_NUM;i++) {
- check_ptep[i]=0;
- check_ptep[i] = get_pte(pgdir, (i+1)*0x1000, 0);
- //cprintf("i %d, check_ptep addr %x, value %x\n", i, check_ptep[i], *check_ptep[i]);
- assert(check_ptep[i] != NULL);
- assert(pte2page(*check_ptep[i]) == check_rp[i]);
- assert((*check_ptep[i] & PTE_P));
- }
- cprintf("set up init env for check_swap over!\n");
- // now access the virt pages to test page relpacement algorithm
- ret=check_content_access();
- assert(ret==0);
-
- //restore kernel mem env
- for (i=0;i<CHECK_VALID_PHY_PAGE_NUM;i++) {
- free_pages(check_rp[i],1);
- }
-
- //free_page(pte2page(*temp_ptep));
- free_page(pa2page(pgdir[0]));
- pgdir[0] = 0;
- mm->pgdir = NULL;
- mm_destroy(mm);
- check_mm_struct = NULL;
-
- nr_free = nr_free_store;
- free_list = free_list_store;
-
-
- le = &free_list;
- while ((le = list_next(le)) != &free_list) {
- struct Page *p = le2page(le, page_link);
- count --, total -= p->property;
- }
- cprintf("count is %d, total is %d\n",count,total);
- //assert(count == 0);
-
- cprintf("check_swap() succeeded!\n");
- }
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