X-Git-Url: https://pintos-os.org/cgi-bin/gitweb.cgi?p=pintos-anon;a=blobdiff_plain;f=src%2Fuserprog%2Fpagedir.c;h=30bdfe263b67f58ee9787b413036de6984c7628b;hp=bfcda457512574f85f06b1c950a08fe15117621a;hb=49c19e58aa14fba779bfe331b1ebaba62d31dfa5;hpb=0ea405c96b7c50192fe22bd6d8b2af8695c66244 diff --git a/src/userprog/pagedir.c b/src/userprog/pagedir.c index bfcda45..30bdfe2 100644 --- a/src/userprog/pagedir.c +++ b/src/userprog/pagedir.c @@ -3,53 +3,74 @@ #include #include #include "threads/init.h" -#include "threads/mmu.h" +#include "threads/pte.h" #include "threads/palloc.h" +static uint32_t *active_pd (void); +static void invalidate_pagedir (uint32_t *); + +/* Creates a new page directory that has mappings for kernel + virtual addresses, but none for user virtual addresses. + Returns the new page directory, or a null pointer if memory + allocation fails. */ uint32_t * pagedir_create (void) { - uint32_t *pd = palloc_get (0); - memcpy (pd, base_page_dir, PGSIZE); + uint32_t *pd = palloc_get_page (0); + if (pd != NULL) + memcpy (pd, base_page_dir, PGSIZE); return pd; } +/* Destroys page directory PD, freeing all the pages it + references. */ void pagedir_destroy (uint32_t *pd) { uint32_t *pde; + if (pd == NULL) + return; + + ASSERT (pd != base_page_dir); for (pde = pd; pde < pd + pd_no (PHYS_BASE); pde++) - if (*pde & PG_P) + if (*pde & PTE_P) { uint32_t *pt = pde_get_pt (*pde); uint32_t *pte; for (pte = pt; pte < pt + PGSIZE / sizeof *pte; pte++) - if (*pte & PG_P) - palloc_free (pte_get_page (*pte)); - palloc_free (pt); + if (*pte & PTE_P) + palloc_free_page (pte_get_page (*pte)); + palloc_free_page (pt); } - palloc_free (pd); + palloc_free_page (pd); } +/* Returns the address of the page table entry for virtual + address VADDR in page directory PD. + If PD does not have a page table for VADDR, behavior depends + on CREATE. If CREATE is true, then a new page table is + created and a pointer into it is returned. Otherwise, a null + pointer is returned. */ static uint32_t * -lookup_page (uint32_t *pd, void *upage, bool create) +lookup_page (uint32_t *pd, const void *vaddr, bool create) { - uint32_t *pt; - uint32_t *pde; + uint32_t *pt, *pde; ASSERT (pd != NULL); - ASSERT (upage < PHYS_BASE); - /* Check for a page table for UPAGE. + /* Shouldn't create new kernel virtual mappings. */ + ASSERT (!create || is_user_vaddr (vaddr)); + + /* Check for a page table for VADDR. If one is missing, create one if requested. */ - pde = pd + pd_no (upage); + pde = pd + pd_no (vaddr); if (*pde == 0) { if (create) { - pt = palloc_get (PAL_ZERO); + pt = palloc_get_page (PAL_ZERO); if (pt == NULL) return NULL; @@ -61,20 +82,35 @@ lookup_page (uint32_t *pd, void *upage, bool create) /* Return the page table entry. */ pt = pde_get_pt (*pde); - return &pt[pt_no (upage)]; + return &pt[pt_no (vaddr)]; } +/* Adds a mapping in page directory PD from user virtual page + UPAGE to the physical frame identified by kernel virtual + address KPAGE. + UPAGE must not already be mapped. + KPAGE should probably be a page obtained from the user pool + with palloc_get_page(). + If WRITABLE is true, the new page is read/write; + otherwise it is read-only. + Returns true if successful, false if memory allocation + failed. */ bool -pagedir_set_page (uint32_t *pd, void *upage, void *kpage, - bool writable) +pagedir_set_page (uint32_t *pd, void *upage, void *kpage, bool writable) { uint32_t *pte; + ASSERT (pg_ofs (upage) == 0); ASSERT (pg_ofs (kpage) == 0); + ASSERT (is_user_vaddr (upage)); + ASSERT (vtop (kpage) >> PTSHIFT < ram_pages); + ASSERT (pd != base_page_dir); pte = lookup_page (pd, upage, true); + if (pte != NULL) { + ASSERT ((*pte & PTE_P) == 0); *pte = pte_create_user (kpage, writable); return true; } @@ -82,25 +118,146 @@ pagedir_set_page (uint32_t *pd, void *upage, void *kpage, return false; } +/* Looks up the physical address that corresponds to user virtual + address UADDR in PD. Returns the kernel virtual address + corresponding to that physical address, or a null pointer if + UADDR is unmapped. */ void * -pagedir_get_page (uint32_t *pd, const void *upage) +pagedir_get_page (uint32_t *pd, const void *uaddr) +{ + uint32_t *pte; + + ASSERT (is_user_vaddr (uaddr)); + + pte = lookup_page (pd, uaddr, false); + if (pte != NULL && (*pte & PTE_P) != 0) + return pte_get_page (*pte) + pg_ofs (uaddr); + else + return NULL; +} + +/* Marks user virtual page UPAGE "not present" in page + directory PD. Later accesses to the page will fault. Other + bits in the page table entry are preserved. + UPAGE need not be mapped. */ +void +pagedir_clear_page (uint32_t *pd, void *upage) +{ + uint32_t *pte; + + ASSERT (pg_ofs (upage) == 0); + ASSERT (is_user_vaddr (upage)); + + pte = lookup_page (pd, upage, false); + if (pte != NULL && (*pte & PTE_P) != 0) + { + *pte &= ~PTE_P; + invalidate_pagedir (pd); + } +} + +/* Returns true if the PTE for virtual page VPAGE in PD is dirty, + that is, if the page has been modified since the PTE was + installed. + Returns false if PD contains no PTE for VPAGE. */ +bool +pagedir_is_dirty (uint32_t *pd, const void *vpage) +{ + uint32_t *pte = lookup_page (pd, vpage, false); + return pte != NULL && (*pte & PTE_D) != 0; +} + +/* Set the dirty bit to DIRTY in the PTE for virtual page VPAGE + in PD. */ +void +pagedir_set_dirty (uint32_t *pd, const void *vpage, bool dirty) { - uint32_t *pte = lookup_page (pd, (void *) upage, false); - return pte != NULL && *pte != 0 ? pte_get_page (*pte) : NULL; + uint32_t *pte = lookup_page (pd, vpage, false); + if (pte != NULL) + { + if (dirty) + *pte |= PTE_D; + else + { + *pte &= ~(uint32_t) PTE_D; + invalidate_pagedir (pd); + } + } } +/* Returns true if the PTE for virtual page VPAGE in PD has been + accessed recently, that is, between the time the PTE was + installed and the last time it was cleared. Returns false if + PD contains no PTE for VPAGE. */ +bool +pagedir_is_accessed (uint32_t *pd, const void *vpage) +{ + uint32_t *pte = lookup_page (pd, vpage, false); + return pte != NULL && (*pte & PTE_A) != 0; +} + +/* Sets the accessed bit to ACCESSED in the PTE for virtual page + VPAGE in PD. */ void -pagedir_clear_page (uint32_t *pd, void *upage) +pagedir_set_accessed (uint32_t *pd, const void *vpage, bool accessed) { - uint32_t *pte = lookup_page (pd, upage, false); - if (pte != NULL) - *pte = 0; + uint32_t *pte = lookup_page (pd, vpage, false); + if (pte != NULL) + { + if (accessed) + *pte |= PTE_A; + else + { + *pte &= ~(uint32_t) PTE_A; + invalidate_pagedir (pd); + } + } } +/* Loads page directory PD into the CPU's page directory base + register. */ void pagedir_activate (uint32_t *pd) { if (pd == NULL) pd = base_page_dir; - asm volatile ("movl %0,%%cr3" :: "r" (vtop (pd))); + + /* Store the physical address of the page directory into CR3 + aka PDBR (page directory base register). This activates our + new page tables immediately. See [IA32-v2a] "MOV--Move + to/from Control Registers" and [IA32-v3a] 3.7.5 "Base + Address of the Page Directory". */ + asm volatile ("movl %0, %%cr3" : : "r" (vtop (pd)) : "memory"); +} + +/* Returns the currently active page directory. */ +static uint32_t * +active_pd (void) +{ + /* Copy CR3, the page directory base register (PDBR), into + `pd'. + See [IA32-v2a] "MOV--Move to/from Control Registers" and + [IA32-v3a] 3.7.5 "Base Address of the Page Directory". */ + uintptr_t pd; + asm volatile ("movl %%cr3, %0" : "=r" (pd)); + return ptov (pd); +} + +/* Seom page table changes can cause the CPU's translation + lookaside buffer (TLB) to become out-of-sync with the page + table. When this happens, we have to "invalidate" the TLB by + re-activating it. + + This function invalidates the TLB if PD is the active page + directory. (If PD is not active then its entries are not in + the TLB, so there is no need to invalidate anything.) */ +static void +invalidate_pagedir (uint32_t *pd) +{ + if (active_pd () == pd) + { + /* Re-activating PD clears the TLB. See [IA32-v3a] 3.12 + "Translation Lookaside Buffers (TLBs)". */ + pagedir_activate (pd); + } }