eliminate enter_alloc -- use kalloc for everything
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parent
7e7cb106d0
commit
c092540e39
7
defs.h
7
defs.h
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@ -62,11 +62,10 @@ extern uchar ioapicid;
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void ioapicinit(void);
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// kalloc.c
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char* enter_alloc(void);
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char* kalloc(void);
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void kfree(char*);
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void kinit(void);
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uint detect_memory(void);
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void kinit1(void*, void*);
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void kinit2(void*, void*);
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// kbd.c
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void kbdintr(void);
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@ -165,7 +164,7 @@ void uartputc(int);
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void seginit(void);
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void kvmalloc(void);
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void vmenable(void);
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pde_t* setupkvm(char* (*alloc)());
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pde_t* setupkvm();
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char* uva2ka(pde_t*, char*);
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int allocuvm(pde_t*, uint, uint);
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int deallocuvm(pde_t*, uint, uint);
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49
kalloc.c
49
kalloc.c
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@ -9,42 +9,45 @@
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#include "mmu.h"
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#include "spinlock.h"
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void freerange(void *vstart, void *vend);
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extern char end[]; // first address after kernel loaded from ELF file
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struct run {
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struct run *next;
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};
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struct {
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struct spinlock lock;
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int use_lock;
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struct run *freelist;
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} kmem;
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extern char end[]; // first address after kernel loaded from ELF file
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static char *newend;
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// A simple page allocator to get off the ground during entry
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char *
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enter_alloc(void)
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// Initialization happens in two phases.
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// 1. main() calls kinit1() while still using entrypgdir to place just
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// the pages mapped by entrypgdir on free list.
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// 2. main() calls kinit2() with the rest of the physical pages
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// after installing a full page table that maps them on all cores.
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void
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kinit1(void *vstart, void *vend)
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{
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if (newend == 0)
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newend = end;
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if ((uint) newend >= KERNBASE + 0x400000)
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panic("only first 4Mbyte are mapped during entry");
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void *p = (void*)PGROUNDUP((uint)newend);
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memset(p, 0, PGSIZE);
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newend = newend + PGSIZE;
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return p;
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initlock(&kmem.lock, "kmem");
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kmem.use_lock = 0;
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freerange(vstart, vend);
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}
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// Initialize free list of physical pages.
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void
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kinit(void)
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kinit2(void *vstart, void *vend)
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{
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freerange(vstart, vend);
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kmem.use_lock = 1;
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}
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void
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freerange(void *vstart, void *vend)
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{
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char *p;
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initlock(&kmem.lock, "kmem");
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p = (char*)PGROUNDUP((uint)newend);
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for(; p + PGSIZE <= (char*)p2v(PHYSTOP); p += PGSIZE)
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p = (char*)PGROUNDUP((uint)vstart);
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for(; p + PGSIZE <= (char*)vend; p += PGSIZE)
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kfree(p);
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}
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@ -64,10 +67,12 @@ kfree(char *v)
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// Fill with junk to catch dangling refs.
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memset(v, 1, PGSIZE);
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if(kmem.use_lock)
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acquire(&kmem.lock);
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r = (struct run*)v;
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r->next = kmem.freelist;
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kmem.freelist = r;
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if(kmem.use_lock)
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release(&kmem.lock);
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}
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@ -79,10 +84,12 @@ kalloc(void)
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{
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struct run *r;
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if(kmem.use_lock)
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acquire(&kmem.lock);
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r = kmem.freelist;
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if(r)
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kmem.freelist = r->next;
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if(kmem.use_lock)
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release(&kmem.lock);
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return (char*)r;
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}
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15
main.c
15
main.c
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@ -9,6 +9,7 @@
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static void startothers(void);
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static void mpmain(void) __attribute__((noreturn));
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extern pde_t *kpgdir;
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extern char end[]; // first address after kernel loaded from ELF file
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// Bootstrap processor starts running C code here.
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// Allocate a real stack and switch to it, first
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@ -16,6 +17,7 @@ extern pde_t *kpgdir;
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int
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main(void)
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{
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kinit1(end, P2V(4*1024*1024)); // phys page allocator
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kvmalloc(); // kernel page table
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mpinit(); // collect info about this machine
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lapicinit(mpbcpu());
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@ -33,9 +35,9 @@ main(void)
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ideinit(); // disk
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if(!ismp)
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timerinit(); // uniprocessor timer
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startothers(); // start other processors (must come before kinit)
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kinit(); // initialize memory allocator
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userinit(); // first user process (must come after kinit)
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startothers(); // start other processors
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kinit2(P2V(4*1024*1024), P2V(PHYSTOP)); // must come after startothers()
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userinit(); // first user process
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// Finish setting up this processor in mpmain.
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mpmain();
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}
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@ -84,12 +86,7 @@ startothers(void)
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// Tell entryother.S what stack to use, where to enter, and what
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// pgdir to use. We cannot use kpgdir yet, because the AP processor
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// is running in low memory, so we use entrypgdir for the APs too.
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// kalloc can return addresses above 4Mbyte (the machine may have
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// much more physical memory than 4Mbyte), which aren't mapped by
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// entrypgdir, so we must allocate a stack using enter_alloc();
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// this introduces the constraint that xv6 cannot use kalloc until
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// after these last enter_alloc invocations.
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stack = enter_alloc();
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stack = kalloc();
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*(void**)(code-4) = stack + KSTACKSIZE;
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*(void**)(code-8) = mpenter;
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*(int**)(code-12) = (void *) v2p(entrypgdir);
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25
vm.c
25
vm.c
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@ -43,7 +43,7 @@ seginit(void)
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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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static pte_t *
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walkpgdir(pde_t *pgdir, const void *va, char* (*alloc)(void))
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walkpgdir(pde_t *pgdir, const void *va, int alloc)
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{
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pde_t *pde;
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pte_t *pgtab;
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@ -52,7 +52,7 @@ walkpgdir(pde_t *pgdir, const void *va, char* (*alloc)(void))
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if(*pde & PTE_P){
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pgtab = (pte_t*)p2v(PTE_ADDR(*pde));
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} else {
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if(!alloc || (pgtab = (pte_t*)alloc()) == 0)
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if(!alloc || (pgtab = (pte_t*)kalloc()) == 0)
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return 0;
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// Make sure all those PTE_P bits are zero.
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memset(pgtab, 0, PGSIZE);
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@ -68,8 +68,7 @@ walkpgdir(pde_t *pgdir, const void *va, char* (*alloc)(void))
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// physical addresses starting at pa. va and size might not
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// be page-aligned.
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static int
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mappages(pde_t *pgdir, void *va, uint size, uint pa,
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int perm, char* (*alloc)(void))
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mappages(pde_t *pgdir, void *va, uint size, uint pa, int perm)
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{
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char *a, *last;
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pte_t *pte;
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@ -77,7 +76,7 @@ mappages(pde_t *pgdir, void *va, uint size, uint pa,
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a = (char*)PGROUNDDOWN((uint)va);
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last = (char*)PGROUNDDOWN(((uint)va) + size - 1);
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for(;;){
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if((pte = walkpgdir(pgdir, a, alloc)) == 0)
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if((pte = walkpgdir(pgdir, a, 1)) == 0)
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return -1;
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if(*pte & PTE_P)
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panic("remap");
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@ -127,19 +126,19 @@ static struct kmap {
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// Set up kernel part of a page table.
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pde_t*
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setupkvm(char* (*alloc)(void))
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setupkvm()
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{
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pde_t *pgdir;
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struct kmap *k;
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if((pgdir = (pde_t*)alloc()) == 0)
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if((pgdir = (pde_t*)kalloc()) == 0)
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return 0;
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memset(pgdir, 0, PGSIZE);
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if (p2v(PHYSTOP) > (void*)DEVSPACE)
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panic("PHYSTOP too high");
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for(k = kmap; k < &kmap[NELEM(kmap)]; k++)
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if(mappages(pgdir, k->virt, k->phys_end - k->phys_start,
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(uint)k->phys_start, k->perm, alloc) < 0)
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(uint)k->phys_start, k->perm) < 0)
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return 0;
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return pgdir;
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}
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@ -149,7 +148,7 @@ setupkvm(char* (*alloc)(void))
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void
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kvmalloc(void)
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{
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kpgdir = setupkvm(enter_alloc);
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kpgdir = setupkvm();
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switchkvm();
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}
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@ -188,7 +187,7 @@ inituvm(pde_t *pgdir, char *init, uint sz)
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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(pgdir, 0, PGSIZE, v2p(mem), PTE_W|PTE_U, kalloc);
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mappages(pgdir, 0, PGSIZE, v2p(mem), PTE_W|PTE_U);
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memmove(mem, init, sz);
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}
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@ -238,7 +237,7 @@ allocuvm(pde_t *pgdir, uint oldsz, uint newsz)
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return 0;
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}
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memset(mem, 0, PGSIZE);
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mappages(pgdir, (char*)a, PGSIZE, v2p(mem), PTE_W|PTE_U, kalloc);
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mappages(pgdir, (char*)a, PGSIZE, v2p(mem), PTE_W|PTE_U);
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}
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return newsz;
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}
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@ -315,7 +314,7 @@ copyuvm(pde_t *pgdir, uint sz)
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uint pa, i;
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char *mem;
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if((d = setupkvm(kalloc)) == 0)
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if((d = setupkvm()) == 0)
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return 0;
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for(i = 0; i < sz; i += PGSIZE){
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if((pte = walkpgdir(pgdir, (void *) i, 0)) == 0)
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@ -326,7 +325,7 @@ copyuvm(pde_t *pgdir, uint sz)
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if((mem = kalloc()) == 0)
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goto bad;
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memmove(mem, (char*)p2v(pa), PGSIZE);
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if(mappages(d, (void*)i, PGSIZE, v2p(mem), PTE_W|PTE_U, kalloc) < 0)
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if(mappages(d, (void*)i, PGSIZE, v2p(mem), PTE_W|PTE_U) < 0)
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goto bad;
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}
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return d;
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