406 lines
9.4 KiB
C
406 lines
9.4 KiB
C
#include "param.h"
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#include "types.h"
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#include "memlayout.h"
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#include "elf.h"
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#include "riscv.h"
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#include "defs.h"
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#include "fs.h"
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/*
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* the kernel's page table.
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*/
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pagetable_t kernel_pagetable;
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extern char etext[]; // kernel.ld sets this to end of kernel code.
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extern char trampout[]; // trampoline.S
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/*
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* create a direct-map page table for the kernel and
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* turn on paging. called early, in supervisor mode.
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* the page allocator is already initialized.
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*/
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void
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kvminit()
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{
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kernel_pagetable = (pagetable_t) kalloc();
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memset(kernel_pagetable, 0, PGSIZE);
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// uart registers
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mappages(kernel_pagetable, UART0, PGSIZE,
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UART0, PTE_R | PTE_W);
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// virtio mmio disk interface
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mappages(kernel_pagetable, VIRTIO0, PGSIZE,
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VIRTIO0, PTE_R | PTE_W);
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// CLINT
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mappages(kernel_pagetable, CLINT, 0x10000,
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CLINT, PTE_R | PTE_W);
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// PLIC
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mappages(kernel_pagetable, PLIC, 0x4000000,
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PLIC, PTE_R | PTE_W);
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// map kernel text executable and read-only.
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mappages(kernel_pagetable, KERNBASE, (uint64)etext-KERNBASE,
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KERNBASE, PTE_R | PTE_X);
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// map kernel data and the physical RAM we'll make use of.
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mappages(kernel_pagetable, (uint64)etext, PHYSTOP-(uint64)etext,
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(uint64)etext, PTE_R | PTE_W);
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// map the trampoline for trap entry/exit to
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// the highest virtual address in the kernel.
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mappages(kernel_pagetable, TRAMPOLINE, PGSIZE,
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(uint64)trampout, PTE_R | PTE_X);
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}
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// Switch h/w page table register to the kernel's page table,
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// and enable paging.
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void
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kvminithart()
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{
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w_satp(MAKE_SATP(kernel_pagetable));
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}
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// Return the address of the PTE in page table pagetable
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// that corresponds to virtual address va. If alloc!=0,
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// create any required page table pages.
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//
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// The risc-v Sv39 scheme has three levels of page table
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// pages. A page table page contains 512 64-bit PTEs.
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// A 64-bit virtual address is split into five fields:
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// 39..63 -- must be zero.
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// 30..38 -- 9 bits of level-2 index.
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// 21..39 -- 9 bits of level-1 index.
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// 12..20 -- 9 bits of level-0 index.
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// 0..12 -- 12 bits of byte offset within the page.
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static pte_t *
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walk(pagetable_t pagetable, uint64 va, int alloc)
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{
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if(va >= MAXVA)
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panic("walk");
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for(int level = 2; level > 0; level--) {
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pte_t *pte = &pagetable[PX(level, va)];
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if(*pte & PTE_V) {
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pagetable = (pagetable_t)PTE2PA(*pte);
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} else {
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if(!alloc || (pagetable = (pde_t*)kalloc()) == 0)
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return 0;
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memset(pagetable, 0, PGSIZE);
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*pte = PA2PTE(pagetable) | PTE_V;
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}
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}
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return &pagetable[PX(0, va)];
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}
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// Look up a virtual address, return the physical address,
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// or 0 if not mapped.
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// Can only be used to look up user pages.
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uint64
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walkaddr(pagetable_t pagetable, uint64 va)
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{
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pte_t *pte;
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uint64 pa;
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pte = walk(pagetable, va, 0);
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if(pte == 0)
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return 0;
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if((*pte & PTE_V) == 0)
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return 0;
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if((*pte & PTE_U) == 0)
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return 0;
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pa = PTE2PA(*pte);
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return pa;
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}
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// Create PTEs for virtual addresses starting at va that refer to
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// physical addresses starting at pa. va and size might not
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// be page-aligned. Returns 0 on success, -1 if walk() couldn't
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// allocate a needed page-table page.
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int
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mappages(pagetable_t pagetable, uint64 va, uint64 size, uint64 pa, int perm)
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{
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uint64 a, last;
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pte_t *pte;
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a = PGROUNDDOWN(va);
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last = PGROUNDDOWN(va + size - 1);
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for(;;){
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if((pte = walk(pagetable, a, 1)) == 0)
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return -1;
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if(*pte & PTE_V)
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panic("remap");
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*pte = PA2PTE(pa) | perm | PTE_V;
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if(a == last)
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break;
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a += PGSIZE;
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pa += PGSIZE;
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}
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return 0;
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}
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// Remove mappings from a page table. The mappings in
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// the given range must exist. Optionally free the
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// physical memory.
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void
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unmappages(pagetable_t pagetable, uint64 va, uint64 size, int do_free)
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{
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uint64 a, last;
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pte_t *pte;
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uint64 pa;
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a = PGROUNDDOWN(va);
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last = PGROUNDDOWN(va + size - 1);
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for(;;){
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if((pte = walk(pagetable, a, 0)) == 0)
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panic("unmappages: walk");
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if((*pte & PTE_V) == 0){
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printf("va=%p pte=%p\n", a, *pte);
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panic("unmappages: not mapped");
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}
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if(PTE_FLAGS(*pte) == PTE_V)
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panic("unmappages: not a leaf");
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if(do_free){
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pa = PTE2PA(*pte);
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kfree((void*)pa);
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}
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*pte = 0;
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if(a == last)
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break;
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a += PGSIZE;
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pa += PGSIZE;
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}
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}
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// create an empty user page table.
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pagetable_t
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uvmcreate()
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{
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pagetable_t pagetable;
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pagetable = (pagetable_t) kalloc();
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if(pagetable == 0)
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panic("uvmcreate: out of memory");
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memset(pagetable, 0, PGSIZE);
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return pagetable;
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}
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// Load the user initcode into address 0 of pagetable,
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// for the very first process.
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// sz must be less than a page.
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void
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uvminit(pagetable_t pagetable, uchar *src, uint sz)
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{
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char *mem;
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if(sz >= PGSIZE)
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panic("inituvm: more than a page");
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mem = kalloc();
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memset(mem, 0, PGSIZE);
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mappages(pagetable, 0, PGSIZE, (uint64)mem, PTE_W|PTE_R|PTE_X|PTE_U);
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memmove(mem, src, sz);
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}
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// Allocate PTEs and physical memory to grow process from oldsz to
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// newsz, which need not be page aligned. Returns new size or 0 on error.
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uint64
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uvmalloc(pagetable_t pagetable, uint64 oldsz, uint64 newsz)
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{
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char *mem;
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uint64 a;
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if(newsz < oldsz)
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return oldsz;
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oldsz = PGROUNDUP(oldsz);
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a = oldsz;
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for(; a < newsz; a += PGSIZE){
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mem = kalloc();
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if(mem == 0){
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uvmdealloc(pagetable, a, oldsz);
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return 0;
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}
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memset(mem, 0, PGSIZE);
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if(mappages(pagetable, a, PGSIZE, (uint64)mem, PTE_W|PTE_X|PTE_R|PTE_U) != 0){
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kfree(mem);
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uvmdealloc(pagetable, a, oldsz);
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return 0;
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}
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}
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return newsz;
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}
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// Deallocate user pages to bring the process size from oldsz to
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// newsz. oldsz and newsz need not be page-aligned, nor does newsz
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// need to be less than oldsz. oldsz can be larger than the actual
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// process size. Returns the new process size.
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uint64
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uvmdealloc(pagetable_t pagetable, uint64 oldsz, uint64 newsz)
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{
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if(newsz >= oldsz)
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return oldsz;
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unmappages(pagetable, newsz, oldsz - newsz, 1);
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return newsz;
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}
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// Recursively free page table pages.
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// All leaf mappings must already have been removed.
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static void
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freewalk(pagetable_t pagetable)
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{
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// there are 2^9 = 512 PTEs in a page table.
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for(int i = 0; i < 512; i++){
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pte_t pte = pagetable[i];
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if((pte & PTE_V) && (pte & (PTE_R|PTE_W|PTE_X)) == 0){
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// this PTE points to a lower-level page table.
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uint64 child = PTE2PA(pte);
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freewalk((pagetable_t)child);
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pagetable[i] = 0;
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} else if(pte & PTE_V){
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panic("freewalk: leaf");
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}
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}
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kfree((void*)pagetable);
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}
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// Free user memory pages,
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// then free page table pages.
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void
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uvmfree(pagetable_t pagetable, uint64 sz)
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{
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unmappages(pagetable, 0, sz, 1);
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freewalk(pagetable);
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}
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// Given a parent process's page table, copy
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// its memory into a child's page table.
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// Copies both the page table and the
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// physical memory.
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// returns 0 on success, -1 on failure.
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// frees any allocated pages on failure.
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int
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uvmcopy(pagetable_t old, pagetable_t new, uint64 sz)
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{
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pte_t *pte;
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uint64 pa, i;
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uint flags;
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char *mem;
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for(i = 0; i < sz; i += PGSIZE){
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if((pte = walk(old, i, 0)) == 0)
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panic("copyuvm: pte should exist");
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if((*pte & PTE_V) == 0)
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panic("copyuvm: page not present");
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pa = PTE2PA(*pte);
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flags = PTE_FLAGS(*pte);
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if((mem = kalloc()) == 0)
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goto err;
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memmove(mem, (char*)pa, PGSIZE);
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if(mappages(new, i, PGSIZE, (uint64)mem, flags) != 0){
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kfree(mem);
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goto err;
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}
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}
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return 0;
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err:
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unmappages(new, 0, i, 1);
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return -1;
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}
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// Copy from kernel to user.
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// Copy len bytes from src to virtual address dstva in a given page table.
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// Return 0 on success, -1 on error.
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int
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copyout(pagetable_t pagetable, uint64 dstva, char *src, uint64 len)
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{
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uint64 n, va0, pa0;
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while(len > 0){
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va0 = (uint)PGROUNDDOWN(dstva);
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pa0 = walkaddr(pagetable, va0);
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if(pa0 == 0)
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return -1;
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n = PGSIZE - (dstva - va0);
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if(n > len)
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n = len;
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memmove((void *)(pa0 + (dstva - va0)), src, n);
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len -= n;
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src += n;
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dstva = va0 + PGSIZE;
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}
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return 0;
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}
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// Copy from user to kernel.
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// Copy len bytes to dst from virtual address srcva in a given page table.
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// Return 0 on success, -1 on error.
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int
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copyin(pagetable_t pagetable, char *dst, uint64 srcva, uint64 len)
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{
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uint64 n, va0, pa0;
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while(len > 0){
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va0 = (uint)PGROUNDDOWN(srcva);
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pa0 = walkaddr(pagetable, va0);
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if(pa0 == 0)
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return -1;
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n = PGSIZE - (srcva - va0);
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if(n > len)
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n = len;
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memmove(dst, (void *)(pa0 + (srcva - va0)), n);
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len -= n;
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dst += n;
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srcva = va0 + PGSIZE;
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}
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return 0;
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}
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// Copy a null-terminated string from user to kernel.
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// Copy bytes to dst from virtual address srcva in a given page table,
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// until a '\0', or max.
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// Return 0 on success, -1 on error.
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int
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copyinstr(pagetable_t pagetable, char *dst, uint64 srcva, uint64 max)
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{
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uint64 n, va0, pa0;
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int got_null = 0;
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while(got_null == 0 && max > 0){
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va0 = (uint)PGROUNDDOWN(srcva);
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pa0 = walkaddr(pagetable, va0);
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if(pa0 == 0)
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return -1;
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n = PGSIZE - (srcva - va0);
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if(n > max)
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n = max;
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char *p = (char *) (pa0 + (srcva - va0));
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while(n > 0){
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if(*p == '\0'){
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*dst = '\0';
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got_null = 1;
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break;
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} else {
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*dst = *p;
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}
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--n;
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--max;
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p++;
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dst++;
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}
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srcva = va0 + PGSIZE;
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}
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if(got_null){
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return 0;
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} else {
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return -1;
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}
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}
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