kalloc/kfree now only a page at a time
do not keep sorted contiguous free list
This commit is contained in:
parent
81b30b14d6
commit
7d7dc9331b
9 changed files with 46 additions and 91 deletions
5
defs.h
5
defs.h
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@ -60,9 +60,8 @@ extern uchar ioapicid;
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void ioapicinit(void);
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void ioapicinit(void);
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// kalloc.c
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// kalloc.c
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extern int nfreemem;
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char* kalloc(void);
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char* kalloc(int);
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void kfree(char*);
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void kfree(char*, int);
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void kinit(char*,uint);
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void kinit(char*,uint);
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// kbd.c
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// kbd.c
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89
kalloc.c
89
kalloc.c
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@ -1,8 +1,6 @@
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// Physical memory allocator, intended to allocate
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// Physical memory allocator, intended to allocate
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// memory for user processes. Allocates in 4096-byte pages.
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// memory for user processes, kernel stacks, page table pages,
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// Free list is kept sorted and combines adjacent pages into
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// and pipe buffers. Allocates 4096-byte pages.
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// long runs, to make it easier to allocate big segments.
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// This combining is not useful now that xv6 uses paging.
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#include "types.h"
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#include "types.h"
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#include "defs.h"
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#include "defs.h"
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@ -12,7 +10,6 @@
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struct run {
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struct run {
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struct run *next;
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struct run *next;
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int len; // bytes
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};
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};
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struct {
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struct {
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@ -20,92 +17,52 @@ struct {
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struct run *freelist;
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struct run *freelist;
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} kmem;
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} kmem;
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int nfreemem;
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// Initialize free list of physical pages.
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// Initialize free list of physical pages.
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void
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void
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kinit(char *p, uint len)
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kinit(char *p, uint len)
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{
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{
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initlock(&kmem.lock, "kmem");
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initlock(&kmem.lock, "kmem");
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nfreemem = 0;
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char *p1 = (char*)PGROUNDUP((uint)p);
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kfree(p, len);
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char *p2 = PGROUNDDOWN(p + len);
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for( ; p1 < p2; p1 += 4096)
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kfree(p1);
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}
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}
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// Free the len bytes of memory pointed at by v,
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// Free the page of physical memory pointed at by v,
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// which normally should have been returned by a
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// which normally should have been returned by a
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// call to kalloc(len). (The exception is when
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// call to kalloc(). (The exception is when
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// initializing the allocator; see kinit above.)
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// initializing the allocator; see kinit above.)
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void
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void
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kfree(char *v, int len)
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kfree(char *v)
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{
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{
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struct run *r, *rend, **rp, *p, *pend;
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struct run *r;
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if(len <= 0 || len % PGSIZE)
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if(((uint) v) % PGSIZE || (uint)v < 1024*1024 || (uint)v >= PHYSTOP)
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panic("kfree");
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panic("kfree");
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// Fill with junk to catch dangling refs.
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// Fill with junk to catch dangling refs.
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memset(v, 1, len);
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memset(v, 1, PGSIZE);
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acquire(&kmem.lock);
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acquire(&kmem.lock);
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nfreemem += len;
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r = (struct run *) v;
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p = (struct run*)v;
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r->next = kmem.freelist;
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pend = (struct run*)(v + len);
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kmem.freelist = r;
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for(rp=&kmem.freelist; (r=*rp) != 0 && r <= pend; rp=&r->next){
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rend = (struct run*)((char*)r + r->len);
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if(r <= p && p < rend) {
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cprintf("freeing a free page: r = 0x%x p = 0x%x rend = 0x%x\n",
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r, p, rend);
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panic("freeing free page");
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}
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if(rend == p){ // r before p: expand r to include p
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r->len += len;
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if(r->next && r->next == pend){ // r now next to r->next?
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r->len += r->next->len;
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r->next = r->next->next;
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}
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goto out;
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}
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if(pend == r){ // p before r: expand p to include, replace r
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p->len = len + r->len;
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p->next = r->next;
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*rp = p;
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goto out;
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}
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}
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// Insert p before r in list.
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p->len = len;
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p->next = r;
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*rp = p;
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out:
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release(&kmem.lock);
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release(&kmem.lock);
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}
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}
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// Allocate n bytes of physical memory.
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// Allocate one 4096-byte page of physical memory.
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// Returns a kernel-segment pointer.
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// Returns a pointer that the kernel can use.
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// Returns 0 if the memory cannot be allocated.
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// Returns 0 if the memory cannot be allocated.
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char*
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char*
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kalloc(int n)
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kalloc()
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{
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{
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char *p;
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struct run *r;
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struct run *r, **rp;
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if(n % PGSIZE || n <= 0)
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panic("kalloc");
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acquire(&kmem.lock);
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acquire(&kmem.lock);
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for(rp=&kmem.freelist; (r=*rp) != 0; rp=&r->next){
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r = kmem.freelist;
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if(r->len >= n){
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if(r)
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r->len -= n;
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kmem.freelist = r->next;
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p = (char*)r + r->len;
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if(r->len == 0)
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*rp = r->next;
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nfreemem -= n;
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release(&kmem.lock);
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release(&kmem.lock);
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return p;
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return (char*) r;
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}
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}
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release(&kmem.lock);
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return 0;
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}
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}
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4
main.c
4
main.c
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@ -28,7 +28,7 @@ main(void)
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void
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void
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jkstack(void)
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jkstack(void)
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{
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{
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char *kstack = kalloc(PGSIZE);
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char *kstack = kalloc();
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if (!kstack)
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if (!kstack)
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panic("jkstack\n");
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panic("jkstack\n");
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char *top = kstack + PGSIZE;
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char *top = kstack + PGSIZE;
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@ -92,7 +92,7 @@ bootothers(void)
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continue;
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continue;
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// Fill in %esp, %eip and start code on cpu.
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// Fill in %esp, %eip and start code on cpu.
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stack = kalloc(KSTACKSIZE);
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stack = kalloc();
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*(void**)(code-4) = stack + KSTACKSIZE;
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*(void**)(code-4) = stack + KSTACKSIZE;
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*(void**)(code-8) = mpmain;
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*(void**)(code-8) = mpmain;
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lapicstartap(c->id, (uint)code);
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lapicstartap(c->id, (uint)code);
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2
mmu.h
2
mmu.h
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@ -112,7 +112,7 @@ struct segdesc {
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#define PDXSHIFT 22 // offset of PDX in a linear address
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#define PDXSHIFT 22 // offset of PDX in a linear address
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#define PGROUNDUP(sz) (((sz)+PGSIZE-1) & ~(PGSIZE-1))
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#define PGROUNDUP(sz) (((sz)+PGSIZE-1) & ~(PGSIZE-1))
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#define PGROUNDDOWN(a) ((char*)((((unsigned int)a) & ~(PGSIZE-1))))
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#define PGROUNDDOWN(a) ((char*)((((unsigned int)(a)) & ~(PGSIZE-1))))
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// Page table/directory entry flags.
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// Page table/directory entry flags.
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#define PTE_P 0x001 // Present
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#define PTE_P 0x001 // Present
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4
param.h
4
param.h
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@ -1,6 +1,5 @@
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#define NPROC 64 // maximum number of processes
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#define NPROC 64 // maximum number of processes
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#define PAGE 4096 // conveniently chosen to be equal to PGSIZE
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#define KSTACKSIZE 4096 // size of per-process kernel stack
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#define KSTACKSIZE PAGE // size of per-process kernel stack
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#define NCPU 8 // maximum number of CPUs
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#define NCPU 8 // maximum number of CPUs
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#define NOFILE 16 // open files per process
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#define NOFILE 16 // open files per process
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#define NFILE 100 // open files per system
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#define NFILE 100 // open files per system
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@ -8,3 +7,4 @@
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#define NINODE 50 // maximum number of active i-nodes
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#define NINODE 50 // maximum number of active i-nodes
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#define NDEV 10 // maximum major device number
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#define NDEV 10 // maximum major device number
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#define ROOTDEV 1 // device number of file system root disk
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#define ROOTDEV 1 // device number of file system root disk
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#define PHYSTOP 0x1000000 // use phys mem up to here as free pool
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6
pipe.c
6
pipe.c
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@ -27,7 +27,7 @@ pipealloc(struct file **f0, struct file **f1)
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*f0 = *f1 = 0;
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*f0 = *f1 = 0;
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if((*f0 = filealloc()) == 0 || (*f1 = filealloc()) == 0)
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if((*f0 = filealloc()) == 0 || (*f1 = filealloc()) == 0)
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goto bad;
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goto bad;
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if((p = (struct pipe*)kalloc(PAGE)) == 0)
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if((p = (struct pipe*)kalloc()) == 0)
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goto bad;
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goto bad;
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p->readopen = 1;
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p->readopen = 1;
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p->writeopen = 1;
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p->writeopen = 1;
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@ -47,7 +47,7 @@ pipealloc(struct file **f0, struct file **f1)
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//PAGEBREAK: 20
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//PAGEBREAK: 20
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bad:
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bad:
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if(p)
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if(p)
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kfree((char*)p, PAGE);
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kfree((char*)p);
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if(*f0)
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if(*f0)
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fileclose(*f0);
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fileclose(*f0);
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if(*f1)
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if(*f1)
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@ -68,7 +68,7 @@ pipeclose(struct pipe *p, int writable)
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}
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}
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if(p->readopen == 0 && p->writeopen == 0) {
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if(p->readopen == 0 && p->writeopen == 0) {
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release(&p->lock);
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release(&p->lock);
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kfree((char*)p, PAGE);
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kfree((char*)p);
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} else
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} else
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release(&p->lock);
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release(&p->lock);
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}
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}
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6
proc.c
6
proc.c
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@ -84,7 +84,7 @@ found:
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release(&ptable.lock);
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release(&ptable.lock);
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// Allocate kernel stack if possible.
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// Allocate kernel stack if possible.
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if((p->kstack = kalloc(KSTACKSIZE)) == 0){
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if((p->kstack = kalloc()) == 0){
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p->state = UNUSED;
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p->state = UNUSED;
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return 0;
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return 0;
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}
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}
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@ -169,7 +169,7 @@ fork(void)
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// Copy process state from p.
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// Copy process state from p.
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if (!(np->pgdir = copyuvm(proc->pgdir, proc->sz))) {
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if (!(np->pgdir = copyuvm(proc->pgdir, proc->sz))) {
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kfree(np->kstack, KSTACKSIZE);
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kfree(np->kstack);
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np->kstack = 0;
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np->kstack = 0;
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np->state = UNUSED;
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np->state = UNUSED;
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return -1;
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return -1;
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@ -418,7 +418,7 @@ wait(void)
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if(p->state == ZOMBIE){
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if(p->state == ZOMBIE){
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// Found one.
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// Found one.
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pid = p->pid;
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pid = p->pid;
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kfree(p->kstack, KSTACKSIZE);
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kfree(p->kstack);
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p->kstack = 0;
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p->kstack = 0;
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freevm(p->pgdir);
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freevm(p->pgdir);
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p->state = UNUSED;
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p->state = UNUSED;
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@ -49,8 +49,8 @@ morecore(uint nu)
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char *p;
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char *p;
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Header *hp;
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Header *hp;
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if(nu < PAGE)
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if(nu < 4096)
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nu = PAGE;
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nu = 4096;
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p = sbrk(nu * sizeof(Header));
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p = sbrk(nu * sizeof(Header));
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if(p == (char*) -1)
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if(p == (char*) -1)
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return 0;
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return 0;
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17
vm.c
17
vm.c
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@ -29,7 +29,6 @@
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// (both in physical memory and in the kernel's virtual address
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// (both in physical memory and in the kernel's virtual address
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// space).
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// space).
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#define PHYSTOP 0x1000000
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#define USERTOP 0xA0000
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#define USERTOP 0xA0000
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static uint kerntext; // Linker starts kernel at 1MB
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static uint kerntext; // Linker starts kernel at 1MB
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@ -53,7 +52,7 @@ walkpgdir(pde_t *pgdir, const void *va, int create)
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pde = &pgdir[PDX(va)];
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pde = &pgdir[PDX(va)];
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if (*pde & PTE_P) {
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if (*pde & PTE_P) {
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pgtab = (pte_t*) PTE_ADDR(*pde);
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pgtab = (pte_t*) PTE_ADDR(*pde);
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} else if (!create || !(r = (uint) kalloc(PGSIZE)))
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} else if (!create || !(r = (uint) kalloc()))
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return 0;
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return 0;
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else {
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else {
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pgtab = (pte_t*) r;
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pgtab = (pte_t*) r;
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@ -156,7 +155,7 @@ setupkvm(void)
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pde_t *pgdir;
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pde_t *pgdir;
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// Allocate page directory
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// Allocate page directory
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if (!(pgdir = (pde_t *) kalloc(PGSIZE)))
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if (!(pgdir = (pde_t *) kalloc()))
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return 0;
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return 0;
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memset(pgdir, 0, PGSIZE);
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memset(pgdir, 0, PGSIZE);
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// Map IO space from 640K to 1Mbyte
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// Map IO space from 640K to 1Mbyte
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@ -206,7 +205,7 @@ allocuvm(pde_t *pgdir, char *addr, uint sz)
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for(a = first; a <= last; a += PGSIZE){
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for(a = first; a <= last; a += PGSIZE){
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pte_t *pte = walkpgdir(pgdir, a, 0);
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pte_t *pte = walkpgdir(pgdir, a, 0);
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if(pte == 0 || (*pte & PTE_P) == 0){
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if(pte == 0 || (*pte & PTE_P) == 0){
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char *mem = kalloc(PGSIZE);
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char *mem = kalloc();
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if(mem == 0){
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if(mem == 0){
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// XXX clean up?
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// XXX clean up?
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return 0;
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return 0;
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@ -235,7 +234,7 @@ deallocuvm(pde_t *pgdir, char *addr, uint sz)
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uint pa = PTE_ADDR(*pte);
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uint pa = PTE_ADDR(*pte);
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if(pa == 0)
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if(pa == 0)
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panic("deallocuvm");
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panic("deallocuvm");
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kfree((void *) pa, PGSIZE);
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kfree((void *) pa);
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*pte = 0;
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*pte = 0;
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}
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}
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}
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}
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@ -260,15 +259,15 @@ freevm(pde_t *pgdir)
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uint pa = PTE_ADDR(pgtab[j]);
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uint pa = PTE_ADDR(pgtab[j]);
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uint va = PGADDR(i, j, 0);
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uint va = PGADDR(i, j, 0);
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if (va < USERTOP) // user memory
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if (va < USERTOP) // user memory
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kfree((void *) pa, PGSIZE);
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kfree((void *) pa);
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pgtab[j] = 0;
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pgtab[j] = 0;
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}
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}
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}
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}
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kfree((void *) da, PGSIZE);
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kfree((void *) da);
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pgdir[i] = 0;
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pgdir[i] = 0;
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}
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}
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}
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}
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kfree((void *) pgdir, PGSIZE);
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kfree((void *) pgdir);
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}
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}
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int
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int
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@ -324,7 +323,7 @@ copyuvm(pde_t *pgdir, uint sz)
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panic("copyuvm: pte should exist\n");
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panic("copyuvm: pte should exist\n");
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if(*pte & PTE_P){
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if(*pte & PTE_P){
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pa = PTE_ADDR(*pte);
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pa = PTE_ADDR(*pte);
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if (!(mem = kalloc(PGSIZE)))
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if (!(mem = kalloc()))
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return 0;
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return 0;
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memmove(mem, (char *)pa, PGSIZE);
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memmove(mem, (char *)pa, PGSIZE);
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if (!mappages(d, (void *)i, PGSIZE, PADDR(mem), PTE_W|PTE_U))
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if (!mappages(d, (void *)i, PGSIZE, PADDR(mem), PTE_W|PTE_U))
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